;;; -*- mode: Lisp; Base: 10 ; Syntax: ANSI-Common-Lisp ; buffer-read-only: t; -*- ;;; This is ASDF 3.1.7.27: Another System Definition Facility. ;;; ;;; Feedback, bug reports, and patches are all welcome: ;;; please mail to . ;;; Note first that the canonical source for ASDF is presently ;;; . ;;; ;;; If you obtained this copy from anywhere else, and you experience ;;; trouble using it, or find bugs, you may want to check at the ;;; location above for a more recent version (and for documentation ;;; and test files, if your copy came without them) before reporting ;;; bugs. There are usually two "supported" revisions - the git master ;;; branch is the latest development version, whereas the git release ;;; branch may be slightly older but is considered `stable' ;;; -- LICENSE START ;;; (This is the MIT / X Consortium license as taken from ;;; http://www.opensource.org/licenses/mit-license.html on or about ;;; Monday; July 13, 2009) ;;; ;;; Copyright (c) 2001-2016 Daniel Barlow and contributors ;;; ;;; Permission is hereby granted, free of charge, to any person obtaining ;;; a copy of this software and associated documentation files (the ;;; "Software"), to deal in the Software without restriction, including ;;; without limitation the rights to use, copy, modify, merge, publish, ;;; distribute, sublicense, and/or sell copies of the Software, and to ;;; permit persons to whom the Software is furnished to do so, subject to ;;; the following conditions: ;;; ;;; The above copyright notice and this permission notice shall be ;;; included in all copies or substantial portions of the Software. ;;; ;;; THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, ;;; EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF ;;; MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND ;;; NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE ;;; LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION ;;; OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION ;;; WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ;;; ;;; -- LICENSE END ;;; The problem with writing a defsystem replacement is bootstrapping: ;;; we can't use defsystem to compile it. Hence, all in one file. ;;;; --------------------------------------------------------------------------- ;;;; Handle ASDF package upgrade, including implementation-dependent magic. ;; ;; See https://bugs.launchpad.net/asdf/+bug/485687 ;; (defpackage :uiop/package ;; CAUTION: we must handle the first few packages specially for hot-upgrade. ;; This package definition MUST NOT change unless its name too changes; ;; if/when it changes, don't forget to add new functions missing from below. ;; Until then, uiop/package is frozen to forever ;; import and export the same exact symbols as for ASDF 2.27. ;; Any other symbol must be import-from'ed and re-export'ed in a different package. (:use :common-lisp) (:export #:find-package* #:find-symbol* #:symbol-call #:intern* #:export* #:import* #:shadowing-import* #:shadow* #:make-symbol* #:unintern* #:symbol-shadowing-p #:home-package-p #:symbol-package-name #:standard-common-lisp-symbol-p #:reify-package #:unreify-package #:reify-symbol #:unreify-symbol #:nuke-symbol-in-package #:nuke-symbol #:rehome-symbol #:ensure-package-unused #:delete-package* #:package-names #:packages-from-names #:fresh-package-name #:rename-package-away #:package-definition-form #:parse-define-package-form #:ensure-package #:define-package)) (in-package :uiop/package) ;;;; General purpose package utilities (eval-when (:load-toplevel :compile-toplevel :execute) (defun find-package* (package-designator &optional (error t)) (let ((package (find-package package-designator))) (cond (package package) (error (error "No package named ~S" (string package-designator))) (t nil)))) (defun find-symbol* (name package-designator &optional (error t)) "Find a symbol in a package of given string'ified NAME; unlike CL:FIND-SYMBOL, work well with 'modern' case sensitive syntax by letting you supply a symbol or keyword for the name; also works well when the package is not present. If optional ERROR argument is NIL, return NIL instead of an error when the symbol is not found." (block nil (let ((package (find-package* package-designator error))) (when package ;; package error handled by find-package* already (multiple-value-bind (symbol status) (find-symbol (string name) package) (cond (status (return (values symbol status))) (error (error "There is no symbol ~S in package ~S" name (package-name package)))))) (values nil nil)))) (defun symbol-call (package name &rest args) "Call a function associated with symbol of given name in given package, with given ARGS. Useful when the call is read before the package is loaded, or when loading the package is optional." (apply (find-symbol* name package) args)) (defun intern* (name package-designator &optional (error t)) (intern (string name) (find-package* package-designator error))) (defun export* (name package-designator) (let* ((package (find-package* package-designator)) (symbol (intern* name package))) (export (or symbol (list symbol)) package))) (defun import* (symbol package-designator) (import (or symbol (list symbol)) (find-package* package-designator))) (defun shadowing-import* (symbol package-designator) (shadowing-import (or symbol (list symbol)) (find-package* package-designator))) (defun shadow* (name package-designator) (shadow (list (string name)) (find-package* package-designator))) (defun make-symbol* (name) (etypecase name (string (make-symbol name)) (symbol (copy-symbol name)))) (defun unintern* (name package-designator &optional (error t)) (block nil (let ((package (find-package* package-designator error))) (when package (multiple-value-bind (symbol status) (find-symbol* name package error) (cond (status (unintern symbol package) (return (values symbol status))) (error (error "symbol ~A not present in package ~A" (string symbol) (package-name package)))))) (values nil nil)))) (defun symbol-shadowing-p (symbol package) (and (member symbol (package-shadowing-symbols package)) t)) (defun home-package-p (symbol package) (and package (let ((sp (symbol-package symbol))) (and sp (let ((pp (find-package* package))) (and pp (eq sp pp)))))))) (eval-when (:load-toplevel :compile-toplevel :execute) (defun symbol-package-name (symbol) (let ((package (symbol-package symbol))) (and package (package-name package)))) (defun standard-common-lisp-symbol-p (symbol) (multiple-value-bind (sym status) (find-symbol* symbol :common-lisp nil) (and (eq sym symbol) (eq status :external)))) (defun reify-package (package &optional package-context) (if (eq package package-context) t (etypecase package (null nil) ((eql (find-package :cl)) :cl) (package (package-name package))))) (defun unreify-package (package &optional package-context) (etypecase package (null nil) ((eql t) package-context) ((or symbol string) (find-package package)))) (defun reify-symbol (symbol &optional package-context) (etypecase symbol ((or keyword (satisfies standard-common-lisp-symbol-p)) symbol) (symbol (vector (symbol-name symbol) (reify-package (symbol-package symbol) package-context))))) (defun unreify-symbol (symbol &optional package-context) (etypecase symbol (symbol symbol) ((simple-vector 2) (let* ((symbol-name (svref symbol 0)) (package-foo (svref symbol 1)) (package (unreify-package package-foo package-context))) (if package (intern* symbol-name package) (make-symbol* symbol-name))))))) (eval-when (:load-toplevel :compile-toplevel :execute) (defvar *all-package-happiness* '()) (defvar *all-package-fishiness* (list t)) (defun record-fishy (info) ;;(format t "~&FISHY: ~S~%" info) (push info *all-package-fishiness*)) (defmacro when-package-fishiness (&body body) `(when *all-package-fishiness* ,@body)) (defmacro note-package-fishiness (&rest info) `(when-package-fishiness (record-fishy (list ,@info))))) (eval-when (:load-toplevel :compile-toplevel :execute) #+(or clisp clozure) (defun get-setf-function-symbol (symbol) #+clisp (let ((sym (get symbol 'system::setf-function))) (if sym (values sym :setf-function) (let ((sym (get symbol 'system::setf-expander))) (if sym (values sym :setf-expander) (values nil nil))))) #+clozure (gethash symbol ccl::%setf-function-names%)) #+(or clisp clozure) (defun set-setf-function-symbol (new-setf-symbol symbol &optional kind) #+clisp (assert (member kind '(:setf-function :setf-expander))) #+clozure (assert (eq kind t)) #+clisp (cond ((null new-setf-symbol) (remprop symbol 'system::setf-function) (remprop symbol 'system::setf-expander)) ((eq kind :setf-function) (setf (get symbol 'system::setf-function) new-setf-symbol)) ((eq kind :setf-expander) (setf (get symbol 'system::setf-expander) new-setf-symbol)) (t (error "invalid kind of setf-function ~S for ~S to be set to ~S" kind symbol new-setf-symbol))) #+clozure (progn (gethash symbol ccl::%setf-function-names%) new-setf-symbol (gethash new-setf-symbol ccl::%setf-function-name-inverses%) symbol)) #+(or clisp clozure) (defun create-setf-function-symbol (symbol) #+clisp (system::setf-symbol symbol) #+clozure (ccl::construct-setf-function-name symbol)) (defun set-dummy-symbol (symbol reason other-symbol) (setf (get symbol 'dummy-symbol) (cons reason other-symbol))) (defun make-dummy-symbol (symbol) (let ((dummy (copy-symbol symbol))) (set-dummy-symbol dummy 'replacing symbol) (set-dummy-symbol symbol 'replaced-by dummy) dummy)) (defun dummy-symbol (symbol) (get symbol 'dummy-symbol)) (defun get-dummy-symbol (symbol) (let ((existing (dummy-symbol symbol))) (if existing (values (cdr existing) (car existing)) (make-dummy-symbol symbol)))) (defun nuke-symbol-in-package (symbol package-designator) (let ((package (find-package* package-designator)) (name (symbol-name symbol))) (multiple-value-bind (sym stat) (find-symbol name package) (when (and (member stat '(:internal :external)) (eq symbol sym)) (if (symbol-shadowing-p symbol package) (shadowing-import* (get-dummy-symbol symbol) package) (unintern* symbol package)))))) (defun nuke-symbol (symbol &optional (packages (list-all-packages))) #+(or clisp clozure) (multiple-value-bind (setf-symbol kind) (get-setf-function-symbol symbol) (when kind (nuke-symbol setf-symbol))) (loop :for p :in packages :do (nuke-symbol-in-package symbol p))) (defun rehome-symbol (symbol package-designator) "Changes the home package of a symbol, also leaving it present in its old home if any" (let* ((name (symbol-name symbol)) (package (find-package* package-designator)) (old-package (symbol-package symbol)) (old-status (and old-package (nth-value 1 (find-symbol name old-package)))) (shadowing (and old-package (symbol-shadowing-p symbol old-package) (make-symbol name)))) (multiple-value-bind (overwritten-symbol overwritten-symbol-status) (find-symbol name package) (unless (eq package old-package) (let ((overwritten-symbol-shadowing-p (and overwritten-symbol-status (symbol-shadowing-p overwritten-symbol package)))) (note-package-fishiness :rehome-symbol name (when old-package (package-name old-package)) old-status (and shadowing t) (package-name package) overwritten-symbol-status overwritten-symbol-shadowing-p) (when old-package (if shadowing (shadowing-import* shadowing old-package)) (unintern* symbol old-package)) (cond (overwritten-symbol-shadowing-p (shadowing-import* symbol package)) (t (when overwritten-symbol-status (unintern* overwritten-symbol package)) (import* symbol package))) (if shadowing (shadowing-import* symbol old-package) (import* symbol old-package)) #+(or clisp clozure) (multiple-value-bind (setf-symbol kind) (get-setf-function-symbol symbol) (when kind (let* ((setf-function (fdefinition setf-symbol)) (new-setf-symbol (create-setf-function-symbol symbol))) (note-package-fishiness :setf-function name (package-name package) (symbol-name setf-symbol) (symbol-package-name setf-symbol) (symbol-name new-setf-symbol) (symbol-package-name new-setf-symbol)) (when (symbol-package setf-symbol) (unintern* setf-symbol (symbol-package setf-symbol))) (setf (fdefinition new-setf-symbol) setf-function) (set-setf-function-symbol new-setf-symbol symbol kind)))) #+(or clisp clozure) (multiple-value-bind (overwritten-setf foundp) (get-setf-function-symbol overwritten-symbol) (when foundp (unintern overwritten-setf))) (when (eq old-status :external) (export* symbol old-package)) (when (eq overwritten-symbol-status :external) (export* symbol package)))) (values overwritten-symbol overwritten-symbol-status)))) (defun ensure-package-unused (package) (loop :for p :in (package-used-by-list package) :do (unuse-package package p))) (defun delete-package* (package &key nuke) (let ((p (find-package package))) (when p (when nuke (do-symbols (s p) (when (home-package-p s p) (nuke-symbol s)))) (ensure-package-unused p) (delete-package package)))) (defun package-names (package) (cons (package-name package) (package-nicknames package))) (defun packages-from-names (names) (remove-duplicates (remove nil (mapcar #'find-package names)) :from-end t)) (defun fresh-package-name (&key (prefix :%TO-BE-DELETED) separator (index (random most-positive-fixnum))) (loop :for i :from index :for n = (format nil "~A~@[~A~D~]" prefix (and (plusp i) (or separator "")) i) :thereis (and (not (find-package n)) n))) (defun rename-package-away (p &rest keys &key prefix &allow-other-keys) (let ((new-name (apply 'fresh-package-name :prefix (or prefix (format nil "__~A__" (package-name p))) keys))) (record-fishy (list :rename-away (package-names p) new-name)) (rename-package p new-name)))) ;;; Communicable representation of symbol and package information (eval-when (:load-toplevel :compile-toplevel :execute) (defun package-definition-form (package-designator &key (nicknamesp t) (usep t) (shadowp t) (shadowing-import-p t) (exportp t) (importp t) internp (error t)) (let* ((package (or (find-package* package-designator error) (return-from package-definition-form nil))) (name (package-name package)) (nicknames (package-nicknames package)) (use (mapcar #'package-name (package-use-list package))) (shadow ()) (shadowing-import (make-hash-table :test 'equal)) (import (make-hash-table :test 'equal)) (export ()) (intern ())) (when package (loop :for sym :being :the :symbols :in package :for status = (nth-value 1 (find-symbol* sym package)) :do (ecase status ((nil :inherited)) ((:internal :external) (let* ((name (symbol-name sym)) (external (eq status :external)) (home (symbol-package sym)) (home-name (package-name home)) (imported (not (eq home package))) (shadowing (symbol-shadowing-p sym package))) (cond ((and shadowing imported) (push name (gethash home-name shadowing-import))) (shadowing (push name shadow)) (imported (push name (gethash home-name import)))) (cond (external (push name export)) (imported) (t (push name intern))))))) (labels ((sort-names (names) (sort (copy-list names) #'string<)) (table-keys (table) (loop :for k :being :the :hash-keys :of table :collect k)) (when-relevant (key value) (when value (list (cons key value)))) (import-options (key table) (loop :for i :in (sort-names (table-keys table)) :collect `(,key ,i ,@(sort-names (gethash i table)))))) `(defpackage ,name ,@(when-relevant :nicknames (and nicknamesp (sort-names nicknames))) (:use ,@(and usep (sort-names use))) ,@(when-relevant :shadow (and shadowp (sort-names shadow))) ,@(import-options :shadowing-import-from (and shadowing-import-p shadowing-import)) ,@(import-options :import-from (and importp import)) ,@(when-relevant :export (and exportp (sort-names export))) ,@(when-relevant :intern (and internp (sort-names intern))))))))) ;;; ensure-package, define-package (eval-when (:load-toplevel :compile-toplevel :execute) (defun ensure-shadowing-import (name to-package from-package shadowed imported) (check-type name string) (check-type to-package package) (check-type from-package package) (check-type shadowed hash-table) (check-type imported hash-table) (let ((import-me (find-symbol* name from-package))) (multiple-value-bind (existing status) (find-symbol name to-package) (cond ((gethash name shadowed) (unless (eq import-me existing) (error "Conflicting shadowings for ~A" name))) (t (setf (gethash name shadowed) t) (setf (gethash name imported) t) (unless (or (null status) (and (member status '(:internal :external)) (eq existing import-me) (symbol-shadowing-p existing to-package))) (note-package-fishiness :shadowing-import name (package-name from-package) (or (home-package-p import-me from-package) (symbol-package-name import-me)) (package-name to-package) status (and status (or (home-package-p existing to-package) (symbol-package-name existing))))) (shadowing-import* import-me to-package)))))) (defun ensure-imported (import-me into-package &optional from-package) (check-type import-me symbol) (check-type into-package package) (check-type from-package (or null package)) (let ((name (symbol-name import-me))) (multiple-value-bind (existing status) (find-symbol name into-package) (cond ((not status) (import* import-me into-package)) ((eq import-me existing)) (t (let ((shadowing-p (symbol-shadowing-p existing into-package))) (note-package-fishiness :ensure-imported name (and from-package (package-name from-package)) (or (home-package-p import-me from-package) (symbol-package-name import-me)) (package-name into-package) status (and status (or (home-package-p existing into-package) (symbol-package-name existing))) shadowing-p) (cond ((or shadowing-p (eq status :inherited)) (shadowing-import* import-me into-package)) (t (unintern* existing into-package) (import* import-me into-package)))))))) (values)) (defun ensure-import (name to-package from-package shadowed imported) (check-type name string) (check-type to-package package) (check-type from-package package) (check-type shadowed hash-table) (check-type imported hash-table) (multiple-value-bind (import-me import-status) (find-symbol name from-package) (when (null import-status) (note-package-fishiness :import-uninterned name (package-name from-package) (package-name to-package)) (setf import-me (intern* name from-package))) (multiple-value-bind (existing status) (find-symbol name to-package) (cond ((and imported (gethash name imported)) (unless (and status (eq import-me existing)) (error "Can't import ~S from both ~S and ~S" name (package-name (symbol-package existing)) (package-name from-package)))) ((gethash name shadowed) (error "Can't both shadow ~S and import it from ~S" name (package-name from-package))) (t (setf (gethash name imported) t)))) (ensure-imported import-me to-package from-package))) (defun ensure-inherited (name symbol to-package from-package mixp shadowed imported inherited) (check-type name string) (check-type symbol symbol) (check-type to-package package) (check-type from-package package) (check-type mixp (member nil t)) ; no cl:boolean on Genera (check-type shadowed hash-table) (check-type imported hash-table) (check-type inherited hash-table) (multiple-value-bind (existing status) (find-symbol name to-package) (let* ((sp (symbol-package symbol)) (in (gethash name inherited)) (xp (and status (symbol-package existing)))) (when (null sp) (note-package-fishiness :import-uninterned name (package-name from-package) (package-name to-package) mixp) (import* symbol from-package) (setf sp (package-name from-package))) (cond ((gethash name shadowed)) (in (unless (equal sp (first in)) (if mixp (ensure-shadowing-import name to-package (second in) shadowed imported) (error "Can't inherit ~S from ~S, it is inherited from ~S" name (package-name sp) (package-name (first in)))))) ((gethash name imported) (unless (eq symbol existing) (error "Can't inherit ~S from ~S, it is imported from ~S" name (package-name sp) (package-name xp)))) (t (setf (gethash name inherited) (list sp from-package)) (when (and status (not (eq sp xp))) (let ((shadowing (symbol-shadowing-p existing to-package))) (note-package-fishiness :inherited name (package-name from-package) (or (home-package-p symbol from-package) (symbol-package-name symbol)) (package-name to-package) (or (home-package-p existing to-package) (symbol-package-name existing))) (if shadowing (ensure-shadowing-import name to-package from-package shadowed imported) (unintern* existing to-package))))))))) (defun ensure-mix (name symbol to-package from-package shadowed imported inherited) (check-type name string) (check-type symbol symbol) (check-type to-package package) (check-type from-package package) (check-type shadowed hash-table) (check-type imported hash-table) (check-type inherited hash-table) (unless (gethash name shadowed) (multiple-value-bind (existing status) (find-symbol name to-package) (let* ((sp (symbol-package symbol)) (im (gethash name imported)) (in (gethash name inherited))) (cond ((or (null status) (and status (eq symbol existing)) (and in (eq sp (first in)))) (ensure-inherited name symbol to-package from-package t shadowed imported inherited)) (in (remhash name inherited) (ensure-shadowing-import name to-package (second in) shadowed imported)) (im (error "Symbol ~S import from ~S~:[~; actually ~:[uninterned~;~:*from ~S~]~] conflicts with existing symbol in ~S~:[~; actually ~:[uninterned~;from ~:*~S~]~]" name (package-name from-package) (home-package-p symbol from-package) (symbol-package-name symbol) (package-name to-package) (home-package-p existing to-package) (symbol-package-name existing))) (t (ensure-inherited name symbol to-package from-package t shadowed imported inherited))))))) (defun recycle-symbol (name recycle exported) ;; Takes a symbol NAME (a string), a list of package designators for RECYCLE ;; packages, and a hash-table of names (strings) of symbols scheduled to be ;; EXPORTED from the package being defined. It returns two values, the ;; symbol found (if any, or else NIL), and a boolean flag indicating whether ;; a symbol was found. The caller (DEFINE-PACKAGE) will then do the ;; re-homing of the symbol, etc. (check-type name string) (check-type recycle list) (check-type exported hash-table) (when (gethash name exported) ;; don't bother recycling private symbols (let (recycled foundp) (dolist (r recycle (values recycled foundp)) (multiple-value-bind (symbol status) (find-symbol name r) (when (and status (home-package-p symbol r)) (cond (foundp ;; (nuke-symbol symbol)) -- even simple variable names like O or C will do that. (note-package-fishiness :recycled-duplicate name (package-name foundp) (package-name r))) (t (setf recycled symbol foundp r))))))))) (defun symbol-recycled-p (sym recycle) (check-type sym symbol) (check-type recycle list) (and (member (symbol-package sym) recycle) t)) (defun ensure-symbol (name package intern recycle shadowed imported inherited exported) (check-type name string) (check-type package package) (check-type intern (member nil t)) ; no cl:boolean on Genera (check-type shadowed hash-table) (check-type imported hash-table) (check-type inherited hash-table) (unless (or (gethash name shadowed) (gethash name imported) (gethash name inherited)) (multiple-value-bind (existing status) (find-symbol name package) (multiple-value-bind (recycled previous) (recycle-symbol name recycle exported) (cond ((and status (eq existing recycled) (eq previous package))) (previous (rehome-symbol recycled package)) ((and status (eq package (symbol-package existing)))) (t (when status (note-package-fishiness :ensure-symbol name (reify-package (symbol-package existing) package) status intern) (unintern existing)) (when intern (intern* name package)))))))) (declaim (ftype (function (t t t &optional t) t) ensure-exported)) (defun ensure-exported-to-user (name symbol to-package &optional recycle) (check-type name string) (check-type symbol symbol) (check-type to-package package) (check-type recycle list) (assert (equal name (symbol-name symbol))) (multiple-value-bind (existing status) (find-symbol name to-package) (unless (and status (eq symbol existing)) (let ((accessible (or (null status) (let ((shadowing (symbol-shadowing-p existing to-package)) (recycled (symbol-recycled-p existing recycle))) (unless (and shadowing (not recycled)) (note-package-fishiness :ensure-export name (symbol-package-name symbol) (package-name to-package) (or (home-package-p existing to-package) (symbol-package-name existing)) status shadowing) (if (or (eq status :inherited) shadowing) (shadowing-import* symbol to-package) (unintern existing to-package)) t))))) (when (and accessible (eq status :external)) (ensure-exported name symbol to-package recycle)))))) (defun ensure-exported (name symbol from-package &optional recycle) (dolist (to-package (package-used-by-list from-package)) (ensure-exported-to-user name symbol to-package recycle)) (unless (eq from-package (symbol-package symbol)) (ensure-imported symbol from-package)) (export* name from-package)) (defun ensure-export (name from-package &optional recycle) (multiple-value-bind (symbol status) (find-symbol* name from-package) (unless (eq status :external) (ensure-exported name symbol from-package recycle)))) (defun ensure-package (name &key nicknames documentation use shadow shadowing-import-from import-from export intern recycle mix reexport unintern) #+genera (declare (ignore documentation)) (let* ((package-name (string name)) (nicknames (mapcar #'string nicknames)) (names (cons package-name nicknames)) (previous (packages-from-names names)) (discarded (cdr previous)) (to-delete ()) (package (or (first previous) (make-package package-name :nicknames nicknames))) (recycle (packages-from-names recycle)) (use (mapcar 'find-package* use)) (mix (mapcar 'find-package* mix)) (reexport (mapcar 'find-package* reexport)) (shadow (mapcar 'string shadow)) (export (mapcar 'string export)) (intern (mapcar 'string intern)) (unintern (mapcar 'string unintern)) (shadowed (make-hash-table :test 'equal)) ; string to bool (imported (make-hash-table :test 'equal)) ; string to bool (exported (make-hash-table :test 'equal)) ; string to bool ;; string to list home package and use package: (inherited (make-hash-table :test 'equal))) (when-package-fishiness (record-fishy package-name)) #-genera (when documentation (setf (documentation package t) documentation)) (loop :for p :in (set-difference (package-use-list package) (append mix use)) :do (note-package-fishiness :over-use name (package-names p)) (unuse-package p package)) (loop :for p :in discarded :for n = (remove-if #'(lambda (x) (member x names :test 'equal)) (package-names p)) :do (note-package-fishiness :nickname name (package-names p)) (cond (n (rename-package p (first n) (rest n))) (t (rename-package-away p) (push p to-delete)))) (rename-package package package-name nicknames) (dolist (name unintern) (multiple-value-bind (existing status) (find-symbol name package) (when status (unless (eq status :inherited) (note-package-fishiness :unintern (package-name package) name (symbol-package-name existing) status) (unintern* name package nil))))) (dolist (name export) (setf (gethash name exported) t)) (dolist (p reexport) (do-external-symbols (sym p) (setf (gethash (string sym) exported) t))) (do-external-symbols (sym package) (let ((name (symbol-name sym))) (unless (gethash name exported) (note-package-fishiness :over-export (package-name package) name (or (home-package-p sym package) (symbol-package-name sym))) (unexport sym package)))) (dolist (name shadow) (setf (gethash name shadowed) t) (multiple-value-bind (existing status) (find-symbol name package) (multiple-value-bind (recycled previous) (recycle-symbol name recycle exported) (let ((shadowing (and status (symbol-shadowing-p existing package)))) (cond ((eq previous package)) (previous (rehome-symbol recycled package)) ((or (member status '(nil :inherited)) (home-package-p existing package))) (t (let ((dummy (make-symbol name))) (note-package-fishiness :shadow-imported (package-name package) name (symbol-package-name existing) status shadowing) (shadowing-import* dummy package) (import* dummy package))))))) (shadow* name package)) (loop :for (p . syms) :in shadowing-import-from :for pp = (find-package* p) :do (dolist (sym syms) (ensure-shadowing-import (string sym) package pp shadowed imported))) (loop :for p :in mix :for pp = (find-package* p) :do (do-external-symbols (sym pp) (ensure-mix (symbol-name sym) sym package pp shadowed imported inherited))) (loop :for (p . syms) :in import-from :for pp = (find-package p) :do (dolist (sym syms) (ensure-import (symbol-name sym) package pp shadowed imported))) (dolist (p (append use mix)) (do-external-symbols (sym p) (ensure-inherited (string sym) sym package p nil shadowed imported inherited)) (use-package p package)) (loop :for name :being :the :hash-keys :of exported :do (ensure-symbol name package t recycle shadowed imported inherited exported) (ensure-export name package recycle)) (dolist (name intern) (ensure-symbol name package t recycle shadowed imported inherited exported)) (do-symbols (sym package) (ensure-symbol (symbol-name sym) package nil recycle shadowed imported inherited exported)) (map () 'delete-package* to-delete) package))) (eval-when (:load-toplevel :compile-toplevel :execute) (defun parse-define-package-form (package clauses) (loop :with use-p = nil :with recycle-p = nil :with documentation = nil :for (kw . args) :in clauses :when (eq kw :nicknames) :append args :into nicknames :else :when (eq kw :documentation) :do (cond (documentation (error "define-package: can't define documentation twice")) ((or (atom args) (cdr args)) (error "define-package: bad documentation")) (t (setf documentation (car args)))) :else :when (eq kw :use) :append args :into use :and :do (setf use-p t) :else :when (eq kw :shadow) :append args :into shadow :else :when (eq kw :shadowing-import-from) :collect args :into shadowing-import-from :else :when (eq kw :import-from) :collect args :into import-from :else :when (eq kw :export) :append args :into export :else :when (eq kw :intern) :append args :into intern :else :when (eq kw :recycle) :append args :into recycle :and :do (setf recycle-p t) :else :when (eq kw :mix) :append args :into mix :else :when (eq kw :reexport) :append args :into reexport :else :when (eq kw :use-reexport) :append args :into use :and :append args :into reexport :and :do (setf use-p t) :else :when (eq kw :mix-reexport) :append args :into mix :and :append args :into reexport :and :do (setf use-p t) :else :when (eq kw :unintern) :append args :into unintern :else :do (error "unrecognized define-package keyword ~S" kw) :finally (return `(,package :nicknames ,nicknames :documentation ,documentation :use ,(if use-p use '(:common-lisp)) :shadow ,shadow :shadowing-import-from ,shadowing-import-from :import-from ,import-from :export ,export :intern ,intern :recycle ,(if recycle-p recycle (cons package nicknames)) :mix ,mix :reexport ,reexport :unintern ,unintern))))) (defmacro define-package (package &rest clauses) "DEFINE-PACKAGE takes a PACKAGE and a number of CLAUSES, of the form \(KEYWORD . ARGS\). DEFINE-PACKAGE supports the following keywords: USE, SHADOW, SHADOWING-IMPORT-FROM, IMPORT-FROM, EXPORT, INTERN -- as per CL:DEFPACKAGE. RECYCLE -- Recycle the package's exported symbols from the specified packages, in order. For every symbol scheduled to be exported by the DEFINE-PACKAGE, either through an :EXPORT option or a :REEXPORT option, if the symbol exists in one of the :RECYCLE packages, the first such symbol is re-homed to the package being defined. For the sake of idempotence, it is important that the package being defined should appear in first position if it already exists, and even if it doesn't, ahead of any package that is not going to be deleted afterwards and never created again. In short, except for special cases, always make it the first package on the list if the list is not empty. MIX -- Takes a list of package designators. MIX behaves like \(:USE PKG1 PKG2 ... PKGn\) but additionally uses :SHADOWING-IMPORT-FROM to resolve conflicts in favor of the first found symbol. It may still yield an error if there is a conflict with an explicitly :IMPORT-FROM symbol. REEXPORT -- Takes a list of package designators. For each package, p, in the list, export symbols with the same name as those exported from p. Note that in the case of shadowing, etc. the symbols with the same name may not be the same symbols. UNINTERN -- Remove symbols here from PACKAGE." (let ((ensure-form `(apply 'ensure-package ',(parse-define-package-form package clauses)))) `(progn #+(or clasp ecl gcl mkcl) (defpackage ,package (:use)) (eval-when (:compile-toplevel :load-toplevel :execute) ,ensure-form)))) ;;;; ------------------------------------------------------------------------- ;;;; Handle compatibility with multiple implementations. ;;; This file is for papering over the deficiencies and peculiarities ;;; of various Common Lisp implementations. ;;; For implementation-specific access to the system, see os.lisp instead. ;;; A few functions are defined here, but actually exported from utility; ;;; from this package only common-lisp symbols are exported. (uiop/package:define-package :uiop/common-lisp (:nicknames :uoip/cl) (:use :uiop/package) (:use-reexport #-genera :common-lisp #+genera :future-common-lisp) #+allegro (:intern #:*acl-warn-save*) #+cormanlisp (:shadow #:user-homedir-pathname) #+cormanlisp (:export #:logical-pathname #:translate-logical-pathname #:make-broadcast-stream #:file-namestring) #+genera (:shadowing-import-from :scl #:boolean) #+genera (:export #:boolean #:ensure-directories-exist #:read-sequence #:write-sequence) #+(or mcl cmucl) (:shadow #:user-homedir-pathname)) (in-package :uiop/common-lisp) #-(or abcl allegro clasp clisp clozure cmucl cormanlisp ecl gcl genera lispworks mcl mkcl sbcl scl xcl) (error "ASDF is not supported on your implementation. Please help us port it.") ;; (declaim (optimize (speed 1) (debug 3) (safety 3))) ; DON'T: trust implementation defaults. ;;;; Early meta-level tweaks #+(or allegro clasp clisp clozure cmucl ecl mkcl sbcl) (eval-when (:load-toplevel :compile-toplevel :execute) (when (and #+allegro (member :ics *features*) #+(or clasp clisp cmucl ecl mkcl) (member :unicode *features*) #+clozure (member :openmcl-unicode-strings *features*) #+sbcl (member :sb-unicode *features*)) ;; Check for unicode at runtime, so that a hypothetical FASL compiled with unicode ;; but loaded in a non-unicode setting (e.g. on Allegro) won't tell a lie. (pushnew :asdf-unicode *features*))) #+allegro (eval-when (:load-toplevel :compile-toplevel :execute) ;; We need to disable autoloading BEFORE any mention of package ASDF. ;; In particular, there must NOT be a mention of package ASDF in the defpackage of this file ;; or any previous file. (setf excl::*autoload-package-name-alist* (remove "asdf" excl::*autoload-package-name-alist* :test 'equalp :key 'car)) (defparameter *acl-warn-save* (when (boundp 'excl:*warn-on-nested-reader-conditionals*) excl:*warn-on-nested-reader-conditionals*)) (when (boundp 'excl:*warn-on-nested-reader-conditionals*) (setf excl:*warn-on-nested-reader-conditionals* nil)) (setf *print-readably* nil)) #+clasp (eval-when (:load-toplevel :compile-toplevel :execute) (setf *load-verbose* nil) (defun use-ecl-byte-compiler-p () nil)) #+clozure (in-package :ccl) #+(and clozure windows-target) ;; See http://trac.clozure.com/ccl/ticket/1117 (eval-when (:load-toplevel :compile-toplevel :execute) (unless (fboundp 'external-process-wait) (in-development-mode (defun external-process-wait (proc) (when (and (external-process-pid proc) (eq (external-process-%status proc) :running)) (with-interrupts-enabled (wait-on-semaphore (external-process-completed proc)))) (values (external-process-%exit-code proc) (external-process-%status proc)))))) #+clozure (in-package :uiop/common-lisp) ;; back in this package. #+cmucl (eval-when (:load-toplevel :compile-toplevel :execute) (setf ext:*gc-verbose* nil) (defun user-homedir-pathname () (first (ext:search-list (cl:user-homedir-pathname))))) #+cormanlisp (eval-when (:load-toplevel :compile-toplevel :execute) (deftype logical-pathname () nil) (defun make-broadcast-stream () *error-output*) (defun translate-logical-pathname (x) x) (defun user-homedir-pathname (&optional host) (declare (ignore host)) (parse-namestring (format nil "~A\\" (cl:user-homedir-pathname)))) (defun file-namestring (p) (setf p (pathname p)) (format nil "~@[~A~]~@[.~A~]" (pathname-name p) (pathname-type p)))) #+(and ecl (not clasp)) (eval-when (:load-toplevel :compile-toplevel :execute) (setf *load-verbose* nil) (defun use-ecl-byte-compiler-p () (and (member :ecl-bytecmp *features*) t)) (unless (use-ecl-byte-compiler-p) (require :cmp))) #+gcl (eval-when (:load-toplevel :compile-toplevel :execute) (unless (member :ansi-cl *features*) (error "ASDF only supports GCL in ANSI mode. Aborting.~%")) (setf compiler::*compiler-default-type* (pathname "") compiler::*lsp-ext* "") #.(let ((code ;; Only support very recent GCL 2.7.0 from November 2013 or later. (cond #+gcl ((or (< system::*gcl-major-version* 2) (and (= system::*gcl-major-version* 2) (< system::*gcl-minor-version* 7))) '(error "GCL 2.7 or later required to use ASDF"))))) (eval code) code)) #+genera (eval-when (:load-toplevel :compile-toplevel :execute) (unless (fboundp 'lambda) (defmacro lambda (&whole form &rest bvl-decls-and-body) (declare (ignore bvl-decls-and-body)(zwei::indentation 1 1)) `#',(cons 'lisp::lambda (cdr form)))) (unless (fboundp 'ensure-directories-exist) (defun ensure-directories-exist (path) (fs:create-directories-recursively (pathname path)))) (unless (fboundp 'read-sequence) (defun read-sequence (sequence stream &key (start 0) end) (scl:send stream :string-in nil sequence start end))) (unless (fboundp 'write-sequence) (defun write-sequence (sequence stream &key (start 0) end) (scl:send stream :string-out sequence start end) sequence))) #+lispworks (eval-when (:load-toplevel :compile-toplevel :execute) ;; lispworks 3 and earlier cannot be checked for so we always assume ;; at least version 4 (unless (member :lispworks4 *features*) (pushnew :lispworks5+ *features*) (unless (member :lispworks5 *features*) (pushnew :lispworks6+ *features*) (unless (member :lispworks6 *features*) (pushnew :lispworks7+ *features*))))) #.(or #+mcl ;; the #$ doesn't work on other lisps, even protected by #+mcl, so we use this trick (read-from-string "(eval-when (:load-toplevel :compile-toplevel :execute) (ccl:define-entry-point (_getenv \"getenv\") ((name :string)) :string) (ccl:define-entry-point (_system \"system\") ((name :string)) :int) ;; Note: ASDF may expect user-homedir-pathname to provide ;; the pathname of the current user's home directory, whereas ;; MCL by default provides the directory from which MCL was started. ;; See http://code.google.com/p/mcl/wiki/Portability (defun user-homedir-pathname () (ccl::findfolder #$kuserdomain #$kCurrentUserFolderType)) (defun probe-posix (posix-namestring) \"If a file exists for the posix namestring, return the pathname\" (ccl::with-cstrs ((cpath posix-namestring)) (ccl::rlet ((is-dir :boolean) (fsref :fsref)) (when (eq #$noerr (#_fspathmakeref cpath fsref is-dir)) (ccl::%path-from-fsref fsref is-dir))))))")) #+mkcl (eval-when (:load-toplevel :compile-toplevel :execute) (require :cmp) (setq clos::*redefine-class-in-place* t)) ;; Make sure we have strict ANSI class redefinition semantics ;;;; Looping (eval-when (:load-toplevel :compile-toplevel :execute) (defmacro loop* (&rest rest) #-genera `(loop ,@rest) #+genera `(lisp:loop ,@rest))) ;; In genera, CL:LOOP can't destructure, so we use LOOP*. Sigh. ;;;; compatfmt: avoid fancy format directives when unsupported (eval-when (:load-toplevel :compile-toplevel :execute) (defun frob-substrings (string substrings &optional frob) "for each substring in SUBSTRINGS, find occurrences of it within STRING that don't use parts of matched occurrences of previous strings, and FROB them, that is to say, remove them if FROB is NIL, replace by FROB if FROB is a STRING, or if FROB is a FUNCTION, call FROB with the match and a function that emits a string in the output. Return a string made of the parts not omitted or emitted by FROB." (declare (optimize (speed 0) (safety #-gcl 3 #+gcl 0) (debug 3))) (let ((length (length string)) (stream nil)) (labels ((emit-string (x &optional (start 0) (end (length x))) (when (< start end) (unless stream (setf stream (make-string-output-stream))) (write-string x stream :start start :end end))) (emit-substring (start end) (when (and (zerop start) (= end length)) (return-from frob-substrings string)) (emit-string string start end)) (recurse (substrings start end) (cond ((>= start end)) ((null substrings) (emit-substring start end)) (t (let* ((sub-spec (first substrings)) (sub (if (consp sub-spec) (car sub-spec) sub-spec)) (fun (if (consp sub-spec) (cdr sub-spec) frob)) (found (search sub string :start2 start :end2 end)) (more (rest substrings))) (cond (found (recurse more start found) (etypecase fun (null) (string (emit-string fun)) (function (funcall fun sub #'emit-string))) (recurse substrings (+ found (length sub)) end)) (t (recurse more start end)))))))) (recurse substrings 0 length)) (if stream (get-output-stream-string stream) ""))) (defmacro compatfmt (format) #+(or gcl genera) (frob-substrings format `("~3i~_" #+genera ,@'("~@<" "~@;" "~@:>" "~:>"))) #-(or gcl genera) format)) ;;;; ------------------------------------------------------------------------- ;;;; General Purpose Utilities for ASDF (uiop/package:define-package :uiop/utility (:use :uiop/common-lisp :uiop/package) ;; import and reexport a few things defined in :uiop/common-lisp (:import-from :uiop/common-lisp #:compatfmt #:loop* #:frob-substrings #+(or clasp ecl) #:use-ecl-byte-compiler-p #+mcl #:probe-posix) (:export #:compatfmt #:loop* #:frob-substrings #:compatfmt #+(or clasp ecl) #:use-ecl-byte-compiler-p #+mcl #:probe-posix) (:export ;; magic helper to define debugging functions: #:uiop-debug #:load-uiop-debug-utility #:*uiop-debug-utility* #:with-upgradability ;; (un)defining functions in an upgrade-friendly way #:undefine-function #:undefine-functions #:defun* #:defgeneric* #:nest #:if-let ;; basic flow control #:while-collecting #:appendf #:length=n-p #:ensure-list ;; lists #:remove-plist-keys #:remove-plist-key ;; plists #:emptyp ;; sequences #:+non-base-chars-exist-p+ ;; characters #:+max-character-type-index+ #:character-type-index #:+character-types+ #:base-string-p #:strings-common-element-type #:reduce/strcat #:strcat ;; strings #:first-char #:last-char #:split-string #:stripln #:+cr+ #:+lf+ #:+crlf+ #:string-prefix-p #:string-enclosed-p #:string-suffix-p #:standard-case-symbol-name #:find-standard-case-symbol #:coerce-class ;; CLOS #:stamp< #:stamps< #:stamp*< #:stamp<= ;; stamps #:earlier-stamp #:stamps-earliest #:earliest-stamp #:later-stamp #:stamps-latest #:latest-stamp #:latest-stamp-f #:list-to-hash-set #:ensure-gethash ;; hash-table #:ensure-function #:access-at #:access-at-count ;; functions #:call-function #:call-functions #:register-hook-function #:lexicographic< #:lexicographic<= ;; version #:parse-version #:unparse-version #:version< #:version<= #:version-compatible-p #:match-condition-p #:match-any-condition-p ;; conditions #:call-with-muffled-conditions #:with-muffled-conditions #:not-implemented-error #:parameter-error)) (in-package :uiop/utility) ;;;; Defining functions in a way compatible with hot-upgrade: ;; DEFUN* and DEFGENERIC* use FMAKUNBOUND to delete any previous fdefinition, ;; thus replacing the function without warning or error ;; even if the signature and/or generic-ness of the function has changed. ;; For a generic function, this invalidates any previous DEFMETHOD. (eval-when (:load-toplevel :compile-toplevel :execute) (defun undefine-function (function-spec) (cond ((symbolp function-spec) ;; undefining the previous function is the portable way ;; of overriding any incompatible previous gf, ;; but CLISP needs extra help with getting rid of previous methods. #+clisp (let ((f (and (fboundp function-spec) (fdefinition function-spec)))) (when (typep f 'clos:standard-generic-function) (loop :for m :in (clos:generic-function-methods f) :do (remove-method f m)))) (fmakunbound function-spec)) ((and (consp function-spec) (eq (car function-spec) 'setf) (consp (cdr function-spec)) (null (cddr function-spec))) (fmakunbound function-spec)) (t (error "bad function spec ~S" function-spec)))) (defun undefine-functions (function-spec-list) (map () 'undefine-function function-spec-list)) (macrolet ((defdef (def* def) `(defmacro ,def* (name formals &rest rest) (destructuring-bind (name &key (supersede t)) (if (or (atom name) (eq (car name) 'setf)) (list name :supersede nil) name) (declare (ignorable supersede)) `(progn ;; We usually try to do it only for the functions that need it, ;; which happens in asdf/upgrade - however, for ECL, we need this hammer. ,@(when (or supersede #+(or clasp ecl) t) `((undefine-function ',name))) ,@(when (and #+(or clasp ecl) (symbolp name)) ; fails for setf functions on ecl `((declaim (notinline ,name)))) (,',def ,name ,formals ,@rest)))))) (defdef defgeneric* defgeneric) (defdef defun* defun)) (defmacro with-upgradability ((&optional) &body body) "Evaluate BODY at compile- load- and run- times, with DEFUN and DEFGENERIC modified to also declare the functions NOTINLINE and to accept a wrapping the function name specification into a list with keyword argument SUPERSEDE (which defaults to T if the name is not wrapped, and NIL if it is wrapped). If SUPERSEDE is true, call UNDEFINE-FUNCTION to supersede any previous definition." `(eval-when (:compile-toplevel :load-toplevel :execute) ,@(loop :for form :in body :collect (if (consp form) (destructuring-bind (car . cdr) form (case car ((defun) `(defun* ,@cdr)) ((defgeneric) `(defgeneric* ,@cdr)) (otherwise form))) form))))) ;;; Magic debugging help. See contrib/debug.lisp (with-upgradability () (defvar *uiop-debug-utility* '(or (ignore-errors (symbol-call :asdf :system-relative-pathname :uiop "contrib/debug.lisp")) (symbol-call :uiop/pathname :subpathname (user-homedir-pathname) "cl/asdf/uiop/contrib/debug.lisp")) "form that evaluates to the pathname to your favorite debugging utilities") (defmacro uiop-debug (&rest keys) `(eval-when (:compile-toplevel :load-toplevel :execute) (load-uiop-debug-utility ,@keys))) (defun load-uiop-debug-utility (&key package utility-file) (let* ((*package* (if package (find-package package) *package*)) (keyword (read-from-string (format nil ":DBG-~:@(~A~)" (package-name *package*))))) (unless (member keyword *features*) (let* ((utility-file (or utility-file *uiop-debug-utility*)) (file (ignore-errors (probe-file (eval utility-file))))) (if file (load file) (error "Failed to locate debug utility file: ~S" utility-file))))))) ;;; Flow control (with-upgradability () (defmacro nest (&rest things) "Macro to do keep code nesting and indentation under control." ;; Thanks to mbaringer (reduce #'(lambda (outer inner) `(,@outer ,inner)) things :from-end t)) (defmacro if-let (bindings &body (then-form &optional else-form)) ;; from alexandria ;; bindings can be (var form) or ((var1 form1) ...) (let* ((binding-list (if (and (consp bindings) (symbolp (car bindings))) (list bindings) bindings)) (variables (mapcar #'car binding-list))) `(let ,binding-list (if (and ,@variables) ,then-form ,else-form))))) ;;; List manipulation (with-upgradability () (defmacro while-collecting ((&rest collectors) &body body) "COLLECTORS should be a list of names for collections. A collector defines a function that, when applied to an argument inside BODY, will add its argument to the corresponding collection. Returns multiple values, a list for each collection, in order. E.g., \(while-collecting \(foo bar\) \(dolist \(x '\(\(a 1\) \(b 2\) \(c 3\)\)\) \(foo \(first x\)\) \(bar \(second x\)\)\)\) Returns two values: \(A B C\) and \(1 2 3\)." (let ((vars (mapcar #'(lambda (x) (gensym (symbol-name x))) collectors)) (initial-values (mapcar (constantly nil) collectors))) `(let ,(mapcar #'list vars initial-values) (flet ,(mapcar #'(lambda (c v) `(,c (x) (push x ,v) (values))) collectors vars) ,@body (values ,@(mapcar #'(lambda (v) `(reverse ,v)) vars)))))) (define-modify-macro appendf (&rest args) append "Append onto list") ;; only to be used on short lists. (defun length=n-p (x n) ;is it that (= (length x) n) ? (check-type n (integer 0 *)) (loop :for l = x :then (cdr l) :for i :downfrom n :do (cond ((zerop i) (return (null l))) ((not (consp l)) (return nil))))) (defun ensure-list (x) (if (listp x) x (list x)))) ;;; remove a key from a plist, i.e. for keyword argument cleanup (with-upgradability () (defun remove-plist-key (key plist) "Remove a single key from a plist" (loop* :for (k v) :on plist :by #'cddr :unless (eq k key) :append (list k v))) (defun remove-plist-keys (keys plist) "Remove a list of keys from a plist" (loop* :for (k v) :on plist :by #'cddr :unless (member k keys) :append (list k v)))) ;;; Sequences (with-upgradability () (defun emptyp (x) "Predicate that is true for an empty sequence" (or (null x) (and (vectorp x) (zerop (length x)))))) ;;; Characters (with-upgradability () ;; base-char != character on ECL, LW, SBCL, Genera. ;; NB: We assume a total order on character types. ;; If that's not true... this code will need to be updated. (defparameter +character-types+ ;; assuming a simple hierarchy #.(coerce (loop* :for (type next) :on '(;; In SCL, all characters seem to be 16-bit base-char ;; Yet somehow character fails to be a subtype of base-char #-scl base-char ;; LW6 has BASE-CHAR < SIMPLE-CHAR < CHARACTER ;; LW7 has BASE-CHAR < BMP-CHAR < SIMPLE-CHAR = CHARACTER #+lispworks7+ lw:bmp-char #+lispworks lw:simple-char character) :unless (and next (subtypep next type)) :collect type) 'vector)) (defparameter +max-character-type-index+ (1- (length +character-types+))) (defconstant +non-base-chars-exist-p+ (plusp +max-character-type-index+)) (when +non-base-chars-exist-p+ (pushnew :non-base-chars-exist-p *features*))) (with-upgradability () (defun character-type-index (x) (declare (ignorable x)) #.(case +max-character-type-index+ (0 0) (1 '(etypecase x (character (if (typep x 'base-char) 0 1)) (symbol (if (subtypep x 'base-char) 0 1)))) (otherwise '(or (position-if (etypecase x (character #'(lambda (type) (typep x type))) (symbol #'(lambda (type) (subtypep x type)))) +character-types+) (error "Not a character or character type: ~S" x)))))) ;;; Strings (with-upgradability () (defun base-string-p (string) "Does the STRING only contain BASE-CHARs?" (declare (ignorable string)) (and #+non-base-chars-exist-p (eq 'base-char (array-element-type string)))) (defun strings-common-element-type (strings) "What least subtype of CHARACTER can contain all the elements of all the STRINGS?" (declare (ignorable strings)) #.(if +non-base-chars-exist-p+ `(aref +character-types+ (loop :with index = 0 :for s :in strings :do (flet ((consider (i) (cond ((= i ,+max-character-type-index+) (return i)) ,@(when (> +max-character-type-index+ 1) `(((> i index) (setf index i))))))) (cond ((emptyp s)) ;; NIL or empty string ((characterp s) (consider (character-type-index s))) ((stringp s) (let ((string-type-index (character-type-index (array-element-type s)))) (unless (>= index string-type-index) (loop :for c :across s :for i = (character-type-index c) :do (consider i) ,@(when (> +max-character-type-index+ 1) `((when (= i string-type-index) (return)))))))) (t (error "Invalid string designator ~S for ~S" s 'strings-common-element-type)))) :finally (return index))) ''character)) (defun reduce/strcat (strings &key key start end) "Reduce a list as if by STRCAT, accepting KEY START and END keywords like REDUCE. NIL is interpreted as an empty string. A character is interpreted as a string of length one." (when (or start end) (setf strings (subseq strings start end))) (when key (setf strings (mapcar key strings))) (loop :with output = (make-string (loop :for s :in strings :sum (if (characterp s) 1 (length s))) :element-type (strings-common-element-type strings)) :with pos = 0 :for input :in strings :do (etypecase input (null) (character (setf (char output pos) input) (incf pos)) (string (replace output input :start1 pos) (incf pos (length input)))) :finally (return output))) (defun strcat (&rest strings) "Concatenate strings. NIL is interpreted as an empty string, a character as a string of length one." (reduce/strcat strings)) (defun first-char (s) "Return the first character of a non-empty string S, or NIL" (and (stringp s) (plusp (length s)) (char s 0))) (defun last-char (s) "Return the last character of a non-empty string S, or NIL" (and (stringp s) (plusp (length s)) (char s (1- (length s))))) (defun split-string (string &key max (separator '(#\Space #\Tab))) "Split STRING into a list of components separated by any of the characters in the sequence SEPARATOR. If MAX is specified, then no more than max(1,MAX) components will be returned, starting the separation from the end, e.g. when called with arguments \"a.b.c.d.e\" :max 3 :separator \".\" it will return (\"a.b.c\" \"d\" \"e\")." (block () (let ((list nil) (words 0) (end (length string))) (when (zerop end) (return nil)) (flet ((separatorp (char) (find char separator)) (done () (return (cons (subseq string 0 end) list)))) (loop :for start = (if (and max (>= words (1- max))) (done) (position-if #'separatorp string :end end :from-end t)) :do (when (null start) (done)) (push (subseq string (1+ start) end) list) (incf words) (setf end start)))))) (defun string-prefix-p (prefix string) "Does STRING begin with PREFIX?" (let* ((x (string prefix)) (y (string string)) (lx (length x)) (ly (length y))) (and (<= lx ly) (string= x y :end2 lx)))) (defun string-suffix-p (string suffix) "Does STRING end with SUFFIX?" (let* ((x (string string)) (y (string suffix)) (lx (length x)) (ly (length y))) (and (<= ly lx) (string= x y :start1 (- lx ly))))) (defun string-enclosed-p (prefix string suffix) "Does STRING begin with PREFIX and end with SUFFIX?" (and (string-prefix-p prefix string) (string-suffix-p string suffix))) (defvar +cr+ (coerce #(#\Return) 'string)) (defvar +lf+ (coerce #(#\Linefeed) 'string)) (defvar +crlf+ (coerce #(#\Return #\Linefeed) 'string)) (defun stripln (x) "Strip a string X from any ending CR, LF or CRLF. Return two values, the stripped string and the ending that was stripped, or the original value and NIL if no stripping took place. Since our STRCAT accepts NIL as empty string designator, the two results passed to STRCAT always reconstitute the original string" (check-type x string) (block nil (flet ((c (end) (when (string-suffix-p x end) (return (values (subseq x 0 (- (length x) (length end))) end))))) (when x (c +crlf+) (c +lf+) (c +cr+) (values x nil))))) (defun standard-case-symbol-name (name-designator) "Given a NAME-DESIGNATOR for a symbol, if it is a symbol, convert it to a string using STRING; if it is a string, use STRING-UPCASE on an ANSI CL platform, or STRING on a so-called \"modern\" platform such as Allegro with modern syntax." (check-type name-designator (or string symbol)) (cond ((or (symbolp name-designator) #+allegro (eq excl:*current-case-mode* :case-sensitive-lower)) (string name-designator)) ;; Should we be doing something on CLISP? (t (string-upcase name-designator)))) (defun find-standard-case-symbol (name-designator package-designator &optional (error t)) "Find a symbol designated by NAME-DESIGNATOR in a package designated by PACKAGE-DESIGNATOR, where STANDARD-CASE-SYMBOL-NAME is used to transform them if these designators are strings. If optional ERROR argument is NIL, return NIL instead of an error when the symbol is not found." (find-symbol* (standard-case-symbol-name name-designator) (etypecase package-designator ((or package symbol) package-designator) (string (standard-case-symbol-name package-designator))) error))) ;;; stamps: a REAL or a boolean where NIL=-infinity, T=+infinity (eval-when (#-lispworks :compile-toplevel :load-toplevel :execute) (deftype stamp () '(or real boolean))) (with-upgradability () (defun stamp< (x y) (etypecase x (null (and y t)) ((eql t) nil) (real (etypecase y (null nil) ((eql t) t) (real (< x y)))))) (defun stamps< (list) (loop :for y :in list :for x = nil :then y :always (stamp< x y))) (defun stamp*< (&rest list) (stamps< list)) (defun stamp<= (x y) (not (stamp< y x))) (defun earlier-stamp (x y) (if (stamp< x y) x y)) (defun stamps-earliest (list) (reduce 'earlier-stamp list :initial-value t)) (defun earliest-stamp (&rest list) (stamps-earliest list)) (defun later-stamp (x y) (if (stamp< x y) y x)) (defun stamps-latest (list) (reduce 'later-stamp list :initial-value nil)) (defun latest-stamp (&rest list) (stamps-latest list)) (define-modify-macro latest-stamp-f (&rest stamps) latest-stamp)) ;;; Function designators (with-upgradability () (defun ensure-function (fun &key (package :cl)) "Coerce the object FUN into a function. If FUN is a FUNCTION, return it. If the FUN is a non-sequence literal constant, return constantly that, i.e. for a boolean keyword character number or pathname. Otherwise if FUN is a non-literally constant symbol, return its FDEFINITION. If FUN is a CONS, return the function that applies its CAR to the appended list of the rest of its CDR and the arguments, unless the CAR is LAMBDA, in which case the expression is evaluated. If FUN is a string, READ a form from it in the specified PACKAGE (default: CL) and EVAL that in a (FUNCTION ...) context." (etypecase fun (function fun) ((or boolean keyword character number pathname) (constantly fun)) (hash-table #'(lambda (x) (gethash x fun))) (symbol (fdefinition fun)) (cons (if (eq 'lambda (car fun)) (eval fun) #'(lambda (&rest args) (apply (car fun) (append (cdr fun) args))))) (string (eval `(function ,(with-standard-io-syntax (let ((*package* (find-package package))) (read-from-string fun)))))))) (defun access-at (object at) "Given an OBJECT and an AT specifier, list of successive accessors, call each accessor on the result of the previous calls. An accessor may be an integer, meaning a call to ELT, a keyword, meaning a call to GETF, NIL, meaning identity, a function or other symbol, meaning itself, or a list of a function designator and arguments, interpreted as per ENSURE-FUNCTION. As a degenerate case, the AT specifier may be an atom of a single such accessor instead of a list." (flet ((access (object accessor) (etypecase accessor (function (funcall accessor object)) (integer (elt object accessor)) (keyword (getf object accessor)) (null object) (symbol (funcall accessor object)) (cons (funcall (ensure-function accessor) object))))) (if (listp at) (dolist (accessor at object) (setf object (access object accessor))) (access object at)))) (defun access-at-count (at) "From an AT specification, extract a COUNT of maximum number of sub-objects to read as per ACCESS-AT" (cond ((integerp at) (1+ at)) ((and (consp at) (integerp (first at))) (1+ (first at))))) (defun call-function (function-spec &rest arguments) "Call the function designated by FUNCTION-SPEC as per ENSURE-FUNCTION, with the given ARGUMENTS" (apply (ensure-function function-spec) arguments)) (defun call-functions (function-specs) "For each function in the list FUNCTION-SPECS, in order, call the function as per CALL-FUNCTION" (map () 'call-function function-specs)) (defun register-hook-function (variable hook &optional call-now-p) "Push the HOOK function (a designator as per ENSURE-FUNCTION) onto the hook VARIABLE. When CALL-NOW-P is true, also call the function immediately." (pushnew hook (symbol-value variable) :test 'equal) (when call-now-p (call-function hook)))) ;;; CLOS (with-upgradability () (defun coerce-class (class &key (package :cl) (super t) (error 'error)) "Coerce CLASS to a class that is subclass of SUPER if specified, or invoke ERROR handler as per CALL-FUNCTION. A keyword designates the name a symbol, which when found in either PACKAGE, designates a class. -- for backward compatibility, *PACKAGE* is also accepted for now, but this may go in the future. A string is read as a symbol while in PACKAGE, the symbol designates a class. A class object designates itself. NIL designates itself (no class). A symbol otherwise designates a class by name." (let* ((normalized (typecase class (keyword (or (find-symbol* class package nil) (find-symbol* class *package* nil))) (string (symbol-call :uiop :safe-read-from-string class :package package)) (t class))) (found (etypecase normalized ((or standard-class built-in-class) normalized) ((or null keyword) nil) (symbol (find-class normalized nil nil))))) (or (and found (or (eq super t) (#-cormanlisp subtypep #+cormanlisp cl::subclassp found super)) found) (call-function error "Can't coerce ~S to a ~:[class~;subclass of ~:*~S~]" class super))))) ;;; Hash-tables (with-upgradability () (defun ensure-gethash (key table default) "Lookup the TABLE for a KEY as by GETHASH, but if not present, call the (possibly constant) function designated by DEFAULT as per CALL-FUNCTION, set the corresponding entry to the result in the table. Return two values: the entry after its optional computation, and whether it was found" (multiple-value-bind (value foundp) (gethash key table) (values (if foundp value (setf (gethash key table) (call-function default))) foundp))) (defun list-to-hash-set (list &aux (h (make-hash-table :test 'equal))) "Convert a LIST into hash-table that has the same elements when viewed as a set, up to the given equality TEST" (dolist (x list h) (setf (gethash x h) t)))) ;;; Version handling (with-upgradability () (defun unparse-version (version-list) "From a parsed version (a list of natural numbers), compute the version string" (format nil "~{~D~^.~}" version-list)) (defun parse-version (version-string &optional on-error) "Parse a VERSION-STRING as a series of natural numbers separated by dots. Return a (non-null) list of integers if the string is valid; otherwise return NIL. When invalid, ON-ERROR is called as per CALL-FUNCTION before to return NIL, with format arguments explaining why the version is invalid. ON-ERROR is also called if the version is not canonical in that it doesn't print back to itself, but the list is returned anyway." (block nil (unless (stringp version-string) (call-function on-error "~S: ~S is not a string" 'parse-version version-string) (return)) (unless (loop :for prev = nil :then c :for c :across version-string :always (or (digit-char-p c) (and (eql c #\.) prev (not (eql prev #\.)))) :finally (return (and c (digit-char-p c)))) (call-function on-error "~S: ~S doesn't follow asdf version numbering convention" 'parse-version version-string) (return)) (let* ((version-list (mapcar #'parse-integer (split-string version-string :separator "."))) (normalized-version (unparse-version version-list))) (unless (equal version-string normalized-version) (call-function on-error "~S: ~S contains leading zeros" 'parse-version version-string)) version-list))) (defun lexicographic< (element< x y) "Lexicographically compare two lists of using the function element< to compare elements. element< is a strict total order; the resulting order on X and Y will also be strict." (cond ((null y) nil) ((null x) t) ((funcall element< (car x) (car y)) t) ((funcall element< (car y) (car x)) nil) (t (lexicographic< element< (cdr x) (cdr y))))) (defun lexicographic<= (element< x y) "Lexicographically compare two lists of using the function element< to compare elements. element< is a strict total order; the resulting order on X and Y will be a non-strict total order." (not (lexicographic< element< y x))) (defun version< (version1 version2) "Compare two version strings" (let ((v1 (parse-version version1 nil)) (v2 (parse-version version2 nil))) (lexicographic< '< v1 v2))) (defun version<= (version1 version2) "Compare two version strings" (not (version< version2 version1))) (defun version-compatible-p (provided-version required-version) "Is the provided version a compatible substitution for the required-version? If major versions differ, it's not compatible. If they are equal, then any later version is compatible, with later being determined by a lexicographical comparison of minor numbers." (let ((x (parse-version provided-version nil)) (y (parse-version required-version nil))) (and x y (= (car x) (car y)) (lexicographic<= '< (cdr y) (cdr x)))))) ;;; Condition control (with-upgradability () (defparameter +simple-condition-format-control-slot+ #+abcl 'system::format-control #+allegro 'excl::format-control #+(or clasp ecl mkcl) 'si::format-control #+clisp 'system::$format-control #+clozure 'ccl::format-control #+(or cmucl scl) 'conditions::format-control #+(or gcl lispworks) 'conditions::format-string #+sbcl 'sb-kernel:format-control #-(or abcl allegro clasp clisp clozure cmucl ecl gcl lispworks mkcl sbcl scl) nil "Name of the slot for FORMAT-CONTROL in simple-condition") (defun match-condition-p (x condition) "Compare received CONDITION to some pattern X: a symbol naming a condition class, a simple vector of length 2, arguments to find-symbol* with result as above, or a string describing the format-control of a simple-condition." (etypecase x (symbol (typep condition x)) ((simple-vector 2) (ignore-errors (typep condition (find-symbol* (svref x 0) (svref x 1) nil)))) (function (funcall x condition)) (string (and (typep condition 'simple-condition) ;; On SBCL, it's always set and the check triggers a warning #+(or allegro clozure cmucl lispworks scl) (slot-boundp condition +simple-condition-format-control-slot+) (ignore-errors (equal (simple-condition-format-control condition) x)))))) (defun match-any-condition-p (condition conditions) "match CONDITION against any of the patterns of CONDITIONS supplied" (loop :for x :in conditions :thereis (match-condition-p x condition))) (defun call-with-muffled-conditions (thunk conditions) "calls the THUNK in a context where the CONDITIONS are muffled" (handler-bind ((t #'(lambda (c) (when (match-any-condition-p c conditions) (muffle-warning c))))) (funcall thunk))) (defmacro with-muffled-conditions ((conditions) &body body) "Shorthand syntax for CALL-WITH-MUFFLED-CONDITIONS" `(call-with-muffled-conditions #'(lambda () ,@body) ,conditions))) ;;; Conditions (with-upgradability () (define-condition not-implemented-error (error) ((functionality :initarg :functionality) (format-control :initarg :format-control) (format-arguments :initarg :format-arguments)) (:report (lambda (condition stream) (format stream "Not implemented: ~s~@[ ~?~]" (slot-value condition 'functionality) (slot-value condition 'format-control) (slot-value condition 'format-arguments))))) (defun not-implemented-error (functionality &optional format-control &rest format-arguments) "Signal an error because some FUNCTIONALITY is not implemented in the current version of the software on the current platform; it may or may not be implemented in different combinations of version of the software and of the underlying platform. Optionally, report a formatted error message." (error 'not-implemented-error :functionality functionality :format-control format-control :format-arguments format-arguments)) (define-condition parameter-error (error) ((functionality :initarg :functionality) (format-control :initarg :format-control) (format-arguments :initarg :format-arguments)) (:report (lambda (condition stream) (apply 'format stream (slot-value condition 'format-control) (slot-value condition 'functionality) (slot-value condition 'format-arguments))))) ;; Note that functionality MUST be passed as the second argument to parameter-error, just after ;; the format-control. If you want it to not appear in first position in actual message, use ;; ~* and ~:* to adjust parameter order. (defun parameter-error (format-control functionality &rest format-arguments) "Signal an error because some FUNCTIONALITY or its specific implementation on a given underlying platform does not accept a given parameter or combination of parameters. Report a formatted error message, that takes the functionality as its first argument (that can be skipped with ~*)." (error 'parameter-error :functionality functionality :format-control format-control :format-arguments format-arguments))) ;;;; --------------------------------------------------------------------------- ;;;; Access to the Operating System (uiop/package:define-package :uiop/os (:use :uiop/common-lisp :uiop/package :uiop/utility) (:export #:featurep #:os-unix-p #:os-macosx-p #:os-windows-p #:os-genera-p #:detect-os ;; features #:os-cond #:getenv #:getenvp ;; environment variables #:implementation-identifier ;; implementation identifier #:implementation-type #:*implementation-type* #:operating-system #:architecture #:lisp-version-string #:hostname #:getcwd #:chdir ;; Windows shortcut support #:read-null-terminated-string #:read-little-endian #:parse-file-location-info #:parse-windows-shortcut)) (in-package :uiop/os) ;;; Features (with-upgradability () (defun featurep (x &optional (*features* *features*)) "Checks whether a feature expression X is true with respect to the *FEATURES* set, as per the CLHS standard for #+ and #-. Beware that just like the CLHS, we assume symbols from the KEYWORD package are used, but that unless you're using #+/#- your reader will not have magically used the KEYWORD package, so you need specify keywords explicitly." (cond ((atom x) (and (member x *features*) t)) ((eq :not (car x)) (assert (null (cddr x))) (not (featurep (cadr x)))) ((eq :or (car x)) (some #'featurep (cdr x))) ((eq :and (car x)) (every #'featurep (cdr x))) (t (error "Malformed feature specification ~S" x)))) ;; Starting with UIOP 3.1.5, these are runtime tests. ;; You may bind *features* with a copy of what your target system offers to test its properties. (defun os-macosx-p () "Is the underlying operating system MacOS X?" ;; OS-MACOSX is not mutually exclusive with OS-UNIX, ;; in fact the former implies the latter. (featurep '(:or :darwin (:and :allegro :macosx) (:and :clisp :macos)))) (defun os-unix-p () "Is the underlying operating system some Unix variant?" (or (featurep '(:or :unix :cygwin)) (os-macosx-p))) (defun os-windows-p () "Is the underlying operating system Microsoft Windows?" (and (not (os-unix-p)) (featurep '(:or :win32 :windows :mswindows :mingw32 :mingw64)))) (defun os-genera-p () "Is the underlying operating system Genera (running on a Symbolics Lisp Machine)?" (featurep :genera)) (defun os-oldmac-p () "Is the underlying operating system an (emulated?) MacOS 9 or earlier?" (featurep :mcl)) (defun os-haiku-p () "Is the underlying operating system Haiku?" (featurep :haiku)) (defun detect-os () "Detects the current operating system. Only needs be run at compile-time, except on ABCL where it might change between FASL compilation and runtime." (loop* :with o :for (feature . detect) :in '((:os-unix . os-unix-p) (:os-macosx . os-macosx-p) (:os-windows . os-windows-p) (:genera . os-genera-p) (:os-oldmac . os-oldmac-p) (:haiku . os-haiku-p)) :when (and (or (not o) (eq feature :os-macosx)) (funcall detect)) :do (setf o feature) (pushnew feature *features*) :else :do (setf *features* (remove feature *features*)) :finally (return (or o (error "Congratulations for trying ASDF on an operating system~%~ that is neither Unix, nor Windows, nor Genera, nor even old MacOS.~%Now you port it."))))) (defmacro os-cond (&rest clauses) #+abcl `(cond ,@clauses) #-abcl (loop* :for (test . body) :in clauses :when (eval test) :return `(progn ,@body))) (detect-os)) ;;;; Environment variables: getting them, and parsing them. (with-upgradability () (defun getenv (x) "Query the environment, as in C getenv. Beware: may return empty string if a variable is present but empty; use getenvp to return NIL in such a case." (declare (ignorable x)) #+(or abcl clasp clisp ecl xcl) (ext:getenv x) #+allegro (sys:getenv x) #+clozure (ccl:getenv x) #+cmucl (unix:unix-getenv x) #+scl (cdr (assoc x ext:*environment-list* :test #'string=)) #+cormanlisp (let* ((buffer (ct:malloc 1)) (cname (ct:lisp-string-to-c-string x)) (needed-size (win:getenvironmentvariable cname buffer 0)) (buffer1 (ct:malloc (1+ needed-size)))) (prog1 (if (zerop (win:getenvironmentvariable cname buffer1 needed-size)) nil (ct:c-string-to-lisp-string buffer1)) (ct:free buffer) (ct:free buffer1))) #+gcl (system:getenv x) #+genera nil #+lispworks (lispworks:environment-variable x) #+mcl (ccl:with-cstrs ((name x)) (let ((value (_getenv name))) (unless (ccl:%null-ptr-p value) (ccl:%get-cstring value)))) #+mkcl (#.(or (find-symbol* 'getenv :si nil) (find-symbol* 'getenv :mk-ext nil)) x) #+sbcl (sb-ext:posix-getenv x) #-(or abcl allegro clasp clisp clozure cmucl cormanlisp ecl gcl genera lispworks mcl mkcl sbcl scl xcl) (error "~S is not supported on your implementation" 'getenv)) (defsetf getenv (x) (val) "Set an environment variable." (declare (ignorable x val)) #+allegro `(setf (sys:getenv ,x) ,val) #+clisp `(system::setenv ,x ,val) #+clozure `(ccl:setenv ,x ,val) #+cmucl `(unix:unix-setenv ,x ,val 1) #+ecl `(ext:setenv ,x ,val) #+lispworks `(hcl:setenv ,x ,val) #+mkcl `(mkcl:setenv ,x ,val) #+sbcl `(progn (require :sb-posix) (symbol-call :sb-posix :setenv ,x ,val 1)) #-(or allegro clisp clozure cmucl ecl lispworks mkcl sbcl) '(error "~S ~S is not supported on your implementation" 'setf 'getenv)) (defun getenvp (x) "Predicate that is true if the named variable is present in the libc environment, then returning the non-empty string value of the variable" (let ((g (getenv x))) (and (not (emptyp g)) g)))) ;;;; implementation-identifier ;; ;; produce a string to identify current implementation. ;; Initially stolen from SLIME's SWANK, completely rewritten since. ;; We're back to runtime checking, for the sake of e.g. ABCL. (with-upgradability () (defun first-feature (feature-sets) "A helper for various feature detection functions" (dolist (x feature-sets) (multiple-value-bind (short long feature-expr) (if (consp x) (values (first x) (second x) (cons :or (rest x))) (values x x x)) (when (featurep feature-expr) (return (values short long)))))) (defun implementation-type () "The type of Lisp implementation used, as a short UIOP-standardized keyword" (first-feature '(:abcl (:acl :allegro) (:ccl :clozure) :clisp (:corman :cormanlisp) (:cmu :cmucl :cmu) :clasp :ecl :gcl (:lwpe :lispworks-personal-edition) (:lw :lispworks) :mcl :mkcl :sbcl :scl (:smbx :symbolics) :xcl))) (defvar *implementation-type* (implementation-type) "The type of Lisp implementation used, as a short UIOP-standardized keyword") (defun operating-system () "The operating system of the current host" (first-feature '(:cygwin (:win :windows :mswindows :win32 :mingw32) ;; try cygwin first! (:linux :linux :linux-target) ;; for GCL at least, must appear before :bsd (:macosx :macosx :darwin :darwin-target :apple) ; also before :bsd (:solaris :solaris :sunos) (:bsd :bsd :freebsd :netbsd :openbsd :dragonfly) :unix :genera))) (defun architecture () "The CPU architecture of the current host" (first-feature '((:x64 :x86-64 :x86_64 :x8664-target :amd64 (:and :word-size=64 :pc386)) (:x86 :x86 :i386 :i486 :i586 :i686 :pentium3 :pentium4 :pc386 :iapx386 :x8632-target) (:ppc64 :ppc64 :ppc64-target) (:ppc32 :ppc32 :ppc32-target :ppc :powerpc) :hppa64 :hppa :sparc64 (:sparc32 :sparc32 :sparc) :mipsel :mipseb :mips :alpha (:arm :arm :arm-target) :imach ;; Java comes last: if someone uses C via CFFI or otherwise JNA or JNI, ;; we may have to segregate the code still by architecture. (:java :java :java-1.4 :java-1.5 :java-1.6 :java-1.7)))) #+clozure (defun ccl-fasl-version () ;; the fasl version is target-dependent from CCL 1.8 on. (or (let ((s 'ccl::target-fasl-version)) (and (fboundp s) (funcall s))) (and (boundp 'ccl::fasl-version) (symbol-value 'ccl::fasl-version)) (error "Can't determine fasl version."))) (defun lisp-version-string () "return a string that identifies the current Lisp implementation version" (let ((s (lisp-implementation-version))) (car ; as opposed to OR, this idiom prevents some unreachable code warning (list #+allegro (format nil "~A~@[~A~]~@[~A~]~@[~A~]" excl::*common-lisp-version-number* ;; M means "modern", as opposed to ANSI-compatible mode (which I consider default) (and (eq excl:*current-case-mode* :case-sensitive-lower) "M") ;; Note if not using International ACL ;; see http://www.franz.com/support/documentation/8.1/doc/operators/excl/ics-target-case.htm (excl:ics-target-case (:-ics "8")) (and (member :smp *features*) "S")) #+armedbear (format nil "~a-fasl~a" s system::*fasl-version*) #+clisp (subseq s 0 (position #\space s)) ; strip build information (date, etc.) #+clozure (format nil "~d.~d-f~d" ; shorten for windows ccl::*openmcl-major-version* ccl::*openmcl-minor-version* (logand (ccl-fasl-version) #xFF)) #+cmucl (substitute #\- #\/ s) #+scl (format nil "~A~A" s ;; ANSI upper case vs lower case. (ecase ext:*case-mode* (:upper "") (:lower "l"))) #+ecl (format nil "~A~@[-~A~]" s (let ((vcs-id (ext:lisp-implementation-vcs-id))) (subseq vcs-id 0 (min (length vcs-id) 8)))) #+gcl (subseq s (1+ (position #\space s))) #+genera (multiple-value-bind (major minor) (sct:get-system-version "System") (format nil "~D.~D" major minor)) #+mcl (subseq s 8) ; strip the leading "Version " ;; seems like there should be a shorter way to do this, like ACALL. #+mkcl (or (let ((fname (find-symbol* '#:git-describe-this-mkcl :mkcl nil))) (when (and fname (fboundp fname)) (funcall fname))) s) s)))) (defun implementation-identifier () "Return a string that identifies the ABI of the current implementation, suitable for use as a directory name to segregate Lisp FASLs, C dynamic libraries, etc." (substitute-if #\_ #'(lambda (x) (find x " /:;&^\\|?<>(){}[]$#`'\"")) (format nil "~(~a~@{~@[-~a~]~}~)" (or (implementation-type) (lisp-implementation-type)) (lisp-version-string) (or (operating-system) (software-type)) (or (architecture) (machine-type)))))) ;;;; Other system information (with-upgradability () (defun hostname () "return the hostname of the current host" ;; Note: untested on RMCL #+(or abcl clasp clozure cmucl ecl genera lispworks mcl mkcl sbcl scl xcl) (machine-instance) #+cormanlisp "localhost" ;; is there a better way? Does it matter? #+allegro (symbol-call :excl.osi :gethostname) #+clisp (first (split-string (machine-instance) :separator " ")) #+gcl (system:gethostname))) ;;; Current directory (with-upgradability () #+cmucl (defun parse-unix-namestring* (unix-namestring) "variant of LISP::PARSE-UNIX-NAMESTRING that returns a pathname object" (multiple-value-bind (host device directory name type version) (lisp::parse-unix-namestring unix-namestring 0 (length unix-namestring)) (make-pathname :host (or host lisp::*unix-host*) :device device :directory directory :name name :type type :version version))) (defun getcwd () "Get the current working directory as per POSIX getcwd(3), as a pathname object" (or #+(or abcl genera xcl) (truename *default-pathname-defaults*) ;; d-p-d is canonical! #+allegro (excl::current-directory) #+clisp (ext:default-directory) #+clozure (ccl:current-directory) #+(or cmucl scl) (#+cmucl parse-unix-namestring* #+scl lisp::parse-unix-namestring (strcat (nth-value 1 (unix:unix-current-directory)) "/")) #+cormanlisp (pathname (pl::get-current-directory)) ;; Q: what type does it return? #+(or clasp ecl) (ext:getcwd) #+gcl (let ((*default-pathname-defaults* #p"")) (truename #p"")) #+lispworks (hcl:get-working-directory) #+mkcl (mk-ext:getcwd) #+sbcl (sb-ext:parse-native-namestring (sb-unix:posix-getcwd/)) #+xcl (extensions:current-directory) (error "getcwd not supported on your implementation"))) (defun chdir (x) "Change current directory, as per POSIX chdir(2), to a given pathname object" (if-let (x (pathname x)) #+(or abcl genera xcl) (setf *default-pathname-defaults* (truename x)) ;; d-p-d is canonical! #+allegro (excl:chdir x) #+clisp (ext:cd x) #+clozure (setf (ccl:current-directory) x) #+(or cmucl scl) (unix:unix-chdir (ext:unix-namestring x)) #+cormanlisp (unless (zerop (win32::_chdir (namestring x))) (error "Could not set current directory to ~A" x)) #+(or clasp ecl) (ext:chdir x) #+gcl (system:chdir x) #+lispworks (hcl:change-directory x) #+mkcl (mk-ext:chdir x) #+sbcl (progn (require :sb-posix) (symbol-call :sb-posix :chdir (sb-ext:native-namestring x))) #-(or abcl allegro clasp clisp clozure cmucl cormanlisp ecl gcl genera lispworks mkcl sbcl scl xcl) (error "chdir not supported on your implementation")))) ;;;; ----------------------------------------------------------------- ;;;; Windows shortcut support. Based on: ;;;; ;;;; Jesse Hager: The Windows Shortcut File Format. ;;;; http://www.wotsit.org/list.asp?fc=13 #-(or clisp genera) ; CLISP doesn't need it, and READ-SEQUENCE annoys old Genera that doesn't need it (with-upgradability () (defparameter *link-initial-dword* 76) (defparameter *link-guid* #(1 20 2 0 0 0 0 0 192 0 0 0 0 0 0 70)) (defun read-null-terminated-string (s) "Read a null-terminated string from an octet stream S" ;; note: doesn't play well with UNICODE (with-output-to-string (out) (loop :for code = (read-byte s) :until (zerop code) :do (write-char (code-char code) out)))) (defun read-little-endian (s &optional (bytes 4)) "Read a number in little-endian format from an byte (octet) stream S, the number having BYTES octets (defaulting to 4)." (loop :for i :from 0 :below bytes :sum (ash (read-byte s) (* 8 i)))) (defun parse-file-location-info (s) "helper to parse-windows-shortcut" (let ((start (file-position s)) (total-length (read-little-endian s)) (end-of-header (read-little-endian s)) (fli-flags (read-little-endian s)) (local-volume-offset (read-little-endian s)) (local-offset (read-little-endian s)) (network-volume-offset (read-little-endian s)) (remaining-offset (read-little-endian s))) (declare (ignore total-length end-of-header local-volume-offset)) (unless (zerop fli-flags) (cond ((logbitp 0 fli-flags) (file-position s (+ start local-offset))) ((logbitp 1 fli-flags) (file-position s (+ start network-volume-offset #x14)))) (strcat (read-null-terminated-string s) (progn (file-position s (+ start remaining-offset)) (read-null-terminated-string s)))))) (defun parse-windows-shortcut (pathname) "From a .lnk windows shortcut, extract the pathname linked to" ;; NB: doesn't do much checking & doesn't look like it will work well with UNICODE. (with-open-file (s pathname :element-type '(unsigned-byte 8)) (handler-case (when (and (= (read-little-endian s) *link-initial-dword*) (let ((header (make-array (length *link-guid*)))) (read-sequence header s) (equalp header *link-guid*))) (let ((flags (read-little-endian s))) (file-position s 76) ;skip rest of header (when (logbitp 0 flags) ;; skip shell item id list (let ((length (read-little-endian s 2))) (file-position s (+ length (file-position s))))) (cond ((logbitp 1 flags) (parse-file-location-info s)) (t (when (logbitp 2 flags) ;; skip description string (let ((length (read-little-endian s 2))) (file-position s (+ length (file-position s))))) (when (logbitp 3 flags) ;; finally, our pathname (let* ((length (read-little-endian s 2)) (buffer (make-array length))) (read-sequence buffer s) (map 'string #'code-char buffer))))))) (end-of-file (c) (declare (ignore c)) nil))))) ;;;; ------------------------------------------------------------------------- ;;;; Portability layer around Common Lisp pathnames ;; This layer allows for portable manipulation of pathname objects themselves, ;; which all is necessary prior to any access the filesystem or environment. (uiop/package:define-package :uiop/pathname (:nicknames :asdf/pathname) ;; deprecated. Used by ceramic (:use :uiop/common-lisp :uiop/package :uiop/utility :uiop/os) (:export ;; Making and merging pathnames, portably #:normalize-pathname-directory-component #:denormalize-pathname-directory-component #:merge-pathname-directory-components #:*unspecific-pathname-type* #:make-pathname* #:make-pathname-component-logical #:make-pathname-logical #:merge-pathnames* #:nil-pathname #:*nil-pathname* #:with-pathname-defaults ;; Predicates #:pathname-equal #:logical-pathname-p #:physical-pathname-p #:physicalize-pathname #:absolute-pathname-p #:relative-pathname-p #:hidden-pathname-p #:file-pathname-p ;; Directories #:pathname-directory-pathname #:pathname-parent-directory-pathname #:directory-pathname-p #:ensure-directory-pathname ;; Parsing filenames #:component-name-to-pathname-components #:split-name-type #:parse-unix-namestring #:unix-namestring #:split-unix-namestring-directory-components ;; Absolute and relative pathnames #:subpathname #:subpathname* #:ensure-absolute-pathname #:pathname-root #:pathname-host-pathname #:subpathp #:enough-pathname #:with-enough-pathname #:call-with-enough-pathname ;; Checking constraints #:ensure-pathname ;; implemented in filesystem.lisp to accommodate for existence constraints ;; Wildcard pathnames #:*wild* #:*wild-file* #:*wild-file-for-directory* #:*wild-directory* #:*wild-inferiors* #:*wild-path* #:wilden ;; Translate a pathname #:relativize-directory-component #:relativize-pathname-directory #:directory-separator-for-host #:directorize-pathname-host-device #:translate-pathname* #:*output-translation-function*)) (in-package :uiop/pathname) ;;; Normalizing pathnames across implementations (with-upgradability () (defun normalize-pathname-directory-component (directory) "Convert the DIRECTORY component from a format usable by the underlying implementation's MAKE-PATHNAME and other primitives to a CLHS-standard format that is a list and not a string." (cond #-(or cmucl sbcl scl) ;; these implementations already normalize directory components. ((stringp directory) `(:absolute ,directory)) ((or (null directory) (and (consp directory) (member (first directory) '(:absolute :relative)))) directory) #+gcl ((consp directory) (cons :relative directory)) (t (error (compatfmt "~@") directory)))) (defun denormalize-pathname-directory-component (directory-component) "Convert the DIRECTORY-COMPONENT from a CLHS-standard format to a format usable by the underlying implementation's MAKE-PATHNAME and other primitives" directory-component) (defun merge-pathname-directory-components (specified defaults) "Helper for MERGE-PATHNAMES* that handles directory components" (let ((directory (normalize-pathname-directory-component specified))) (ecase (first directory) ((nil) defaults) (:absolute specified) (:relative (let ((defdir (normalize-pathname-directory-component defaults)) (reldir (cdr directory))) (cond ((null defdir) directory) ((not (eq :back (first reldir))) (append defdir reldir)) (t (loop :with defabs = (first defdir) :with defrev = (reverse (rest defdir)) :while (and (eq :back (car reldir)) (or (and (eq :absolute defabs) (null defrev)) (stringp (car defrev)))) :do (pop reldir) (pop defrev) :finally (return (cons defabs (append (reverse defrev) reldir))))))))))) ;; Giving :unspecific as :type argument to make-pathname is not portable. ;; See CLHS make-pathname and 19.2.2.2.3. ;; This will be :unspecific if supported, or NIL if not. (defparameter *unspecific-pathname-type* #+(or abcl allegro clozure cmucl genera lispworks sbcl scl) :unspecific #+(or clasp clisp ecl mkcl gcl xcl #|These haven't been tested:|# cormanlisp mcl) nil "Unspecific type component to use with the underlying implementation's MAKE-PATHNAME") (defun make-pathname* (&rest keys &key directory host device name type version defaults #+scl &allow-other-keys) "Takes arguments like CL:MAKE-PATHNAME in the CLHS, and tries hard to make a pathname that will actually behave as documented, despite the peculiarities of each implementation. DEPRECATED: just use MAKE-PATHNAME." (declare (ignore host device directory name type version defaults)) (apply 'make-pathname keys)) (defun make-pathname-component-logical (x) "Make a pathname component suitable for use in a logical-pathname" (typecase x ((eql :unspecific) nil) #+clisp (string (string-upcase x)) #+clisp (cons (mapcar 'make-pathname-component-logical x)) (t x))) (defun make-pathname-logical (pathname host) "Take a PATHNAME's directory, name, type and version components, and make a new pathname with corresponding components and specified logical HOST" (make-pathname :host host :directory (make-pathname-component-logical (pathname-directory pathname)) :name (make-pathname-component-logical (pathname-name pathname)) :type (make-pathname-component-logical (pathname-type pathname)) :version (make-pathname-component-logical (pathname-version pathname)))) (defun merge-pathnames* (specified &optional (defaults *default-pathname-defaults*)) "MERGE-PATHNAMES* is like MERGE-PATHNAMES except that if the SPECIFIED pathname does not have an absolute directory, then the HOST and DEVICE both come from the DEFAULTS, whereas if the SPECIFIED pathname does have an absolute directory, then the HOST and DEVICE both come from the SPECIFIED pathname. This is what users want on a modern Unix or Windows operating system, unlike the MERGE-PATHNAMES behavior. Also, if either argument is NIL, then the other argument is returned unmodified; this is unlike MERGE-PATHNAMES which always merges with a pathname, by default *DEFAULT-PATHNAME-DEFAULTS*, which cannot be NIL." (when (null specified) (return-from merge-pathnames* defaults)) (when (null defaults) (return-from merge-pathnames* specified)) #+scl (ext:resolve-pathname specified defaults) #-scl (let* ((specified (pathname specified)) (defaults (pathname defaults)) (directory (normalize-pathname-directory-component (pathname-directory specified))) (name (or (pathname-name specified) (pathname-name defaults))) (type (or (pathname-type specified) (pathname-type defaults))) (version (or (pathname-version specified) (pathname-version defaults)))) (labels ((unspecific-handler (p) (if (typep p 'logical-pathname) #'make-pathname-component-logical #'identity))) (multiple-value-bind (host device directory unspecific-handler) (ecase (first directory) ((:absolute) (values (pathname-host specified) (pathname-device specified) directory (unspecific-handler specified))) ((nil :relative) (values (pathname-host defaults) (pathname-device defaults) (merge-pathname-directory-components directory (pathname-directory defaults)) (unspecific-handler defaults)))) (make-pathname :host host :device device :directory directory :name (funcall unspecific-handler name) :type (funcall unspecific-handler type) :version (funcall unspecific-handler version)))))) (defun logical-pathname-p (x) "is X a logical-pathname?" (typep x 'logical-pathname)) (defun physical-pathname-p (x) "is X a pathname that is not a logical-pathname?" (and (pathnamep x) (not (logical-pathname-p x)))) (defun physicalize-pathname (x) "if X is a logical pathname, use translate-logical-pathname on it." ;; Ought to be the same as translate-logical-pathname, except the latter borks on CLISP (let ((p (when x (pathname x)))) (if (logical-pathname-p p) (translate-logical-pathname p) p))) (defun nil-pathname (&optional (defaults *default-pathname-defaults*)) "A pathname that is as neutral as possible for use as defaults when merging, making or parsing pathnames" ;; 19.2.2.2.1 says a NIL host can mean a default host; ;; see also "valid physical pathname host" in the CLHS glossary, that suggests ;; strings and lists of strings or :unspecific ;; But CMUCL decides to die on NIL. ;; MCL has issues with make-pathname, nil and defaulting (declare (ignorable defaults)) #.`(make-pathname :directory nil :name nil :type nil :version nil :device (or #+(and mkcl unix) :unspecific) :host (or #+cmucl lisp::*unix-host* #+(and mkcl unix) "localhost") #+scl ,@'(:scheme nil :scheme-specific-part nil :username nil :password nil :parameters nil :query nil :fragment nil) ;; the default shouldn't matter, but we really want something physical #-mcl ,@'(:defaults defaults))) (defvar *nil-pathname* (nil-pathname (physicalize-pathname (user-homedir-pathname))) "A pathname that is as neutral as possible for use as defaults when merging, making or parsing pathnames") (defmacro with-pathname-defaults ((&optional defaults) &body body) "Execute BODY in a context where the *DEFAULT-PATHNAME-DEFAULTS* is as specified, where leaving the defaults NIL or unspecified means a (NIL-PATHNAME), except on ABCL, Genera and XCL, where it remains unchanged for it doubles as current-directory." `(let ((*default-pathname-defaults* ,(or defaults #-(or abcl genera xcl) '*nil-pathname* #+(or abcl genera xcl) '*default-pathname-defaults*))) ,@body))) ;;; Some pathname predicates (with-upgradability () (defun pathname-equal (p1 p2) "Are the two pathnames P1 and P2 reasonably equal in the paths they denote?" (when (stringp p1) (setf p1 (pathname p1))) (when (stringp p2) (setf p2 (pathname p2))) (flet ((normalize-component (x) (unless (member x '(nil :unspecific :newest (:relative)) :test 'equal) x))) (macrolet ((=? (&rest accessors) (flet ((frob (x) (reduce 'list (cons 'normalize-component accessors) :initial-value x :from-end t))) `(equal ,(frob 'p1) ,(frob 'p2))))) (or (and (null p1) (null p2)) (and (pathnamep p1) (pathnamep p2) (and (=? pathname-host) #-(and mkcl unix) (=? pathname-device) (=? normalize-pathname-directory-component pathname-directory) (=? pathname-name) (=? pathname-type) #-mkcl (=? pathname-version))))))) (defun absolute-pathname-p (pathspec) "If PATHSPEC is a pathname or namestring object that parses as a pathname possessing an :ABSOLUTE directory component, return the (parsed) pathname. Otherwise return NIL" (and pathspec (typep pathspec '(or null pathname string)) (let ((pathname (pathname pathspec))) (and (eq :absolute (car (normalize-pathname-directory-component (pathname-directory pathname)))) pathname)))) (defun relative-pathname-p (pathspec) "If PATHSPEC is a pathname or namestring object that parses as a pathname possessing a :RELATIVE or NIL directory component, return the (parsed) pathname. Otherwise return NIL" (and pathspec (typep pathspec '(or null pathname string)) (let* ((pathname (pathname pathspec)) (directory (normalize-pathname-directory-component (pathname-directory pathname)))) (when (or (null directory) (eq :relative (car directory))) pathname)))) (defun hidden-pathname-p (pathname) "Return a boolean that is true if the pathname is hidden as per Unix style, i.e. its name starts with a dot." (and pathname (equal (first-char (pathname-name pathname)) #\.))) (defun file-pathname-p (pathname) "Does PATHNAME represent a file, i.e. has a non-null NAME component? Accepts NIL, a string (converted through PARSE-NAMESTRING) or a PATHNAME. Note that this does _not_ check to see that PATHNAME points to an actually-existing file. Returns the (parsed) PATHNAME when true" (when pathname (let ((pathname (pathname pathname))) (unless (and (member (pathname-name pathname) '(nil :unspecific "") :test 'equal) (member (pathname-type pathname) '(nil :unspecific "") :test 'equal)) pathname))))) ;;; Directory pathnames (with-upgradability () (defun pathname-directory-pathname (pathname) "Returns a new pathname with same HOST, DEVICE, DIRECTORY as PATHNAME, and NIL NAME, TYPE and VERSION components" (when pathname (make-pathname :name nil :type nil :version nil :defaults pathname))) (defun pathname-parent-directory-pathname (pathname) "Returns a new pathname that corresponds to the parent of the current pathname's directory, i.e. removing one level of depth in the DIRECTORY component. e.g. if pathname is Unix pathname /foo/bar/baz/file.type then return /foo/bar/" (when pathname (make-pathname :name nil :type nil :version nil :directory (merge-pathname-directory-components '(:relative :back) (pathname-directory pathname)) :defaults pathname))) (defun directory-pathname-p (pathname) "Does PATHNAME represent a directory? A directory-pathname is a pathname _without_ a filename. The three ways that the filename components can be missing are for it to be NIL, :UNSPECIFIC or the empty string. Note that this does _not_ check to see that PATHNAME points to an actually-existing directory." (when pathname ;; I tried using Allegro's excl:file-directory-p, but this cannot be done, ;; because it rejects apparently legal pathnames as ;; ill-formed. [2014/02/10:rpg] (let ((pathname (pathname pathname))) (flet ((check-one (x) (member x '(nil :unspecific) :test 'equal))) (and (not (wild-pathname-p pathname)) (check-one (pathname-name pathname)) (check-one (pathname-type pathname)) t))))) (defun ensure-directory-pathname (pathspec &optional (on-error 'error)) "Converts the non-wild pathname designator PATHSPEC to directory form." (cond ((stringp pathspec) (ensure-directory-pathname (pathname pathspec))) ((not (pathnamep pathspec)) (call-function on-error (compatfmt "~@") pathspec)) ((wild-pathname-p pathspec) (call-function on-error (compatfmt "~@") pathspec)) ((directory-pathname-p pathspec) pathspec) (t (handler-case (make-pathname :directory (append (or (normalize-pathname-directory-component (pathname-directory pathspec)) (list :relative)) (list (file-namestring pathspec))) :name nil :type nil :version nil :defaults pathspec) (error (c) (call-function on-error (compatfmt "~@") pathspec c))))))) ;;; Parsing filenames (with-upgradability () (declaim (ftype function ensure-pathname)) ; forward reference (defun split-unix-namestring-directory-components (unix-namestring &key ensure-directory dot-dot) "Splits the path string UNIX-NAMESTRING, returning four values: A flag that is either :absolute or :relative, indicating how the rest of the values are to be interpreted. A directory path --- a list of strings and keywords, suitable for use with MAKE-PATHNAME when prepended with the flag value. Directory components with an empty name or the name . are removed. Any directory named .. is read as DOT-DOT, or :BACK if it's NIL (not :UP). A last-component, either a file-namestring including type extension, or NIL in the case of a directory pathname. A flag that is true iff the unix-style-pathname was just a file-namestring without / path specification. ENSURE-DIRECTORY forces the namestring to be interpreted as a directory pathname: the third return value will be NIL, and final component of the namestring will be treated as part of the directory path. An empty string is thus read as meaning a pathname object with all fields nil. Note that colon characters #\: will NOT be interpreted as host specification. Absolute pathnames are only appropriate on Unix-style systems. The intention of this function is to support structured component names, e.g., \(:file \"foo/bar\"\), which will be unpacked to relative pathnames." (check-type unix-namestring string) (check-type dot-dot (member nil :back :up)) (if (and (not (find #\/ unix-namestring)) (not ensure-directory) (plusp (length unix-namestring))) (values :relative () unix-namestring t) (let* ((components (split-string unix-namestring :separator "/")) (last-comp (car (last components)))) (multiple-value-bind (relative components) (if (equal (first components) "") (if (equal (first-char unix-namestring) #\/) (values :absolute (cdr components)) (values :relative nil)) (values :relative components)) (setf components (remove-if #'(lambda (x) (member x '("" ".") :test #'equal)) components)) (setf components (substitute (or dot-dot :back) ".." components :test #'equal)) (cond ((equal last-comp "") (values relative components nil nil)) ; "" already removed from components (ensure-directory (values relative components nil nil)) (t (values relative (butlast components) last-comp nil))))))) (defun split-name-type (filename) "Split a filename into two values NAME and TYPE that are returned. We assume filename has no directory component. The last . if any separates name and type from from type, except that if there is only one . and it is in first position, the whole filename is the NAME with an empty type. NAME is always a string. For an empty type, *UNSPECIFIC-PATHNAME-TYPE* is returned." (check-type filename string) (assert (plusp (length filename))) (destructuring-bind (name &optional (type *unspecific-pathname-type*)) (split-string filename :max 2 :separator ".") (if (equal name "") (values filename *unspecific-pathname-type*) (values name type)))) (defun parse-unix-namestring (name &rest keys &key type defaults dot-dot ensure-directory &allow-other-keys) "Coerce NAME into a PATHNAME using standard Unix syntax. Unix syntax is used whether or not the underlying system is Unix; on such non-Unix systems it is reliably usable only for relative pathnames. This function is especially useful to manipulate relative pathnames portably, where it is of crucial to possess a portable pathname syntax independent of the underlying OS. This is what PARSE-UNIX-NAMESTRING provides, and why we use it in ASDF. When given a PATHNAME object, just return it untouched. When given NIL, just return NIL. When given a non-null SYMBOL, first downcase its name and treat it as a string. When given a STRING, portably decompose it into a pathname as below. #\\/ separates directory components. The last #\\/-separated substring is interpreted as follows: 1- If TYPE is :DIRECTORY or ENSURE-DIRECTORY is true, the string is made the last directory component, and NAME and TYPE are NIL. if the string is empty, it's the empty pathname with all slots NIL. 2- If TYPE is NIL, the substring is a file-namestring, and its NAME and TYPE are separated by SPLIT-NAME-TYPE. 3- If TYPE is a string, it is the given TYPE, and the whole string is the NAME. Directory components with an empty name or the name \".\" are removed. Any directory named \"..\" is read as DOT-DOT, which must be one of :BACK or :UP and defaults to :BACK. HOST, DEVICE and VERSION components are taken from DEFAULTS, which itself defaults to *NIL-PATHNAME*, also used if DEFAULTS is NIL. No host or device can be specified in the string itself, which makes it unsuitable for absolute pathnames outside Unix. For relative pathnames, these components (and hence the defaults) won't matter if you use MERGE-PATHNAMES* but will matter if you use MERGE-PATHNAMES, which is an important reason to always use MERGE-PATHNAMES*. Arbitrary keys are accepted, and the parse result is passed to ENSURE-PATHNAME with those keys, removing TYPE DEFAULTS and DOT-DOT. When you're manipulating pathnames that are supposed to make sense portably even though the OS may not be Unixish, we recommend you use :WANT-RELATIVE T to throw an error if the pathname is absolute" (block nil (check-type type (or null string (eql :directory))) (when ensure-directory (setf type :directory)) (etypecase name ((or null pathname) (return name)) (symbol (setf name (string-downcase name))) (string)) (multiple-value-bind (relative path filename file-only) (split-unix-namestring-directory-components name :dot-dot dot-dot :ensure-directory (eq type :directory)) (multiple-value-bind (name type) (cond ((or (eq type :directory) (null filename)) (values nil nil)) (type (values filename type)) (t (split-name-type filename))) (apply 'ensure-pathname (make-pathname :directory (unless file-only (cons relative path)) :name name :type type :defaults (or #-mcl defaults *nil-pathname*)) (remove-plist-keys '(:type :dot-dot :defaults) keys)))))) (defun unix-namestring (pathname) "Given a non-wild PATHNAME, return a Unix-style namestring for it. If the PATHNAME is NIL or a STRING, return it unchanged. This only considers the DIRECTORY, NAME and TYPE components of the pathname. This is a portable solution for representing relative pathnames, But unless you are running on a Unix system, it is not a general solution to representing native pathnames. An error is signaled if the argument is not NULL, a STRING or a PATHNAME, or if it is a PATHNAME but some of its components are not recognized." (etypecase pathname ((or null string) pathname) (pathname (with-output-to-string (s) (flet ((err () #+lispworks (describe pathname) (error "Not a valid unix-namestring ~S" pathname))) (let* ((dir (normalize-pathname-directory-component (pathname-directory pathname))) (name (pathname-name pathname)) (name (and (not (eq name :unspecific)) name)) (type (pathname-type pathname)) (type (and (not (eq type :unspecific)) type))) (cond ((member dir '(nil :unspecific))) ((eq dir '(:relative)) (princ "./" s)) ((consp dir) (destructuring-bind (relabs &rest dirs) dir (or (member relabs '(:relative :absolute)) (err)) (when (eq relabs :absolute) (princ #\/ s)) (loop :for x :in dirs :do (cond ((member x '(:back :up)) (princ "../" s)) ((equal x "") (err)) ;;((member x '("." "..") :test 'equal) (err)) ((stringp x) (format s "~A/" x)) (t (err)))))) (t (err))) (cond (name (unless (and (stringp name) (or (null type) (stringp type))) (err)) (format s "~A~@[.~A~]" name type)) (t (or (null type) (err))))))))))) ;;; Absolute and relative pathnames (with-upgradability () (defun subpathname (pathname subpath &key type) "This function takes a PATHNAME and a SUBPATH and a TYPE. If SUBPATH is already a PATHNAME object (not namestring), and is an absolute pathname at that, it is returned unchanged; otherwise, SUBPATH is turned into a relative pathname with given TYPE as per PARSE-UNIX-NAMESTRING with :WANT-RELATIVE T :TYPE TYPE, then it is merged with the PATHNAME-DIRECTORY-PATHNAME of PATHNAME." (or (and (pathnamep subpath) (absolute-pathname-p subpath)) (merge-pathnames* (parse-unix-namestring subpath :type type :want-relative t) (pathname-directory-pathname pathname)))) (defun subpathname* (pathname subpath &key type) "returns NIL if the base pathname is NIL, otherwise like SUBPATHNAME." (and pathname (subpathname (ensure-directory-pathname pathname) subpath :type type))) (defun pathname-root (pathname) "return the root directory for the host and device of given PATHNAME" (make-pathname :directory '(:absolute) :name nil :type nil :version nil :defaults pathname ;; host device, and on scl, *some* ;; scheme-specific parts: port username password, not others: . #.(or #+scl '(:parameters nil :query nil :fragment nil)))) (defun pathname-host-pathname (pathname) "return a pathname with the same host as given PATHNAME, and all other fields NIL" (make-pathname :directory nil :name nil :type nil :version nil :device nil :defaults pathname ;; host device, and on scl, *some* ;; scheme-specific parts: port username password, not others: . #.(or #+scl '(:parameters nil :query nil :fragment nil)))) (defun ensure-absolute-pathname (path &optional defaults (on-error 'error)) "Given a pathname designator PATH, return an absolute pathname as specified by PATH considering the DEFAULTS, or, if not possible, use CALL-FUNCTION on the specified ON-ERROR behavior, with a format control-string and other arguments as arguments" (cond ((absolute-pathname-p path)) ((stringp path) (ensure-absolute-pathname (pathname path) defaults on-error)) ((not (pathnamep path)) (call-function on-error "not a valid pathname designator ~S" path)) ((let ((default-pathname (if (pathnamep defaults) defaults (call-function defaults)))) (or (if (absolute-pathname-p default-pathname) (absolute-pathname-p (merge-pathnames* path default-pathname)) (call-function on-error "Default pathname ~S is not an absolute pathname" default-pathname)) (call-function on-error "Failed to merge ~S with ~S into an absolute pathname" path default-pathname)))) (t (call-function on-error "Cannot ensure ~S is evaluated as an absolute pathname with defaults ~S" path defaults)))) (defun subpathp (maybe-subpath base-pathname) "if MAYBE-SUBPATH is a pathname that is under BASE-PATHNAME, return a pathname object that when used with MERGE-PATHNAMES* with defaults BASE-PATHNAME, returns MAYBE-SUBPATH." (and (pathnamep maybe-subpath) (pathnamep base-pathname) (absolute-pathname-p maybe-subpath) (absolute-pathname-p base-pathname) (directory-pathname-p base-pathname) (not (wild-pathname-p base-pathname)) (pathname-equal (pathname-root maybe-subpath) (pathname-root base-pathname)) (with-pathname-defaults (*nil-pathname*) (let ((enough (enough-namestring maybe-subpath base-pathname))) (and (relative-pathname-p enough) (pathname enough)))))) (defun enough-pathname (maybe-subpath base-pathname) "if MAYBE-SUBPATH is a pathname that is under BASE-PATHNAME, return a pathname object that when used with MERGE-PATHNAMES* with defaults BASE-PATHNAME, returns MAYBE-SUBPATH." (let ((sub (when maybe-subpath (pathname maybe-subpath))) (base (when base-pathname (ensure-absolute-pathname (pathname base-pathname))))) (or (and base (subpathp sub base)) sub))) (defun call-with-enough-pathname (maybe-subpath defaults-pathname thunk) "In a context where *DEFAULT-PATHNAME-DEFAULTS* is bound to DEFAULTS-PATHNAME (if not null, or else to its current value), call THUNK with ENOUGH-PATHNAME for MAYBE-SUBPATH given DEFAULTS-PATHNAME as a base pathname." (let ((enough (enough-pathname maybe-subpath defaults-pathname)) (*default-pathname-defaults* (or defaults-pathname *default-pathname-defaults*))) (funcall thunk enough))) (defmacro with-enough-pathname ((pathname-var &key (pathname pathname-var) (defaults *default-pathname-defaults*)) &body body) "Shorthand syntax for CALL-WITH-ENOUGH-PATHNAME" `(call-with-enough-pathname ,pathname ,defaults #'(lambda (,pathname-var) ,@body)))) ;;; Wildcard pathnames (with-upgradability () (defparameter *wild* (or #+cormanlisp "*" :wild) "Wild component for use with MAKE-PATHNAME") (defparameter *wild-directory-component* (or :wild) "Wild directory component for use with MAKE-PATHNAME") (defparameter *wild-inferiors-component* (or :wild-inferiors) "Wild-inferiors directory component for use with MAKE-PATHNAME") (defparameter *wild-file* (make-pathname :directory nil :name *wild* :type *wild* :version (or #-(or allegro abcl xcl) *wild*)) "A pathname object with wildcards for matching any file with TRANSLATE-PATHNAME") (defparameter *wild-file-for-directory* (make-pathname :directory nil :name *wild* :type (or #-(or clisp gcl) *wild*) :version (or #-(or allegro abcl clisp gcl xcl) *wild*)) "A pathname object with wildcards for matching any file with DIRECTORY") (defparameter *wild-directory* (make-pathname :directory `(:relative ,*wild-directory-component*) :name nil :type nil :version nil) "A pathname object with wildcards for matching any subdirectory") (defparameter *wild-inferiors* (make-pathname :directory `(:relative ,*wild-inferiors-component*) :name nil :type nil :version nil) "A pathname object with wildcards for matching any recursive subdirectory") (defparameter *wild-path* (merge-pathnames* *wild-file* *wild-inferiors*) "A pathname object with wildcards for matching any file in any recursive subdirectory") (defun wilden (path) "From a pathname, return a wildcard pathname matching any file in any subdirectory of given pathname's directory" (merge-pathnames* *wild-path* path))) ;;; Translate a pathname (with-upgradability () (defun relativize-directory-component (directory-component) "Given the DIRECTORY-COMPONENT of a pathname, return an otherwise similar relative directory component" (let ((directory (normalize-pathname-directory-component directory-component))) (cond ((stringp directory) (list :relative directory)) ((eq (car directory) :absolute) (cons :relative (cdr directory))) (t directory)))) (defun relativize-pathname-directory (pathspec) "Given a PATHNAME, return a relative pathname with otherwise the same components" (let ((p (pathname pathspec))) (make-pathname :directory (relativize-directory-component (pathname-directory p)) :defaults p))) (defun directory-separator-for-host (&optional (pathname *default-pathname-defaults*)) "Given a PATHNAME, return the character used to delimit directory names on this host and device." (let ((foo (make-pathname :directory '(:absolute "FOO") :defaults pathname))) (last-char (namestring foo)))) #-scl (defun directorize-pathname-host-device (pathname) "Given a PATHNAME, return a pathname that has representations of its HOST and DEVICE components added to its DIRECTORY component. This is useful for output translations." (os-cond ((os-unix-p) (when (physical-pathname-p pathname) (return-from directorize-pathname-host-device pathname)))) (let* ((root (pathname-root pathname)) (wild-root (wilden root)) (absolute-pathname (merge-pathnames* pathname root)) (separator (directory-separator-for-host root)) (root-namestring (namestring root)) (root-string (substitute-if #\/ #'(lambda (x) (or (eql x #\:) (eql x separator))) root-namestring))) (multiple-value-bind (relative path filename) (split-unix-namestring-directory-components root-string :ensure-directory t) (declare (ignore relative filename)) (let ((new-base (make-pathname :defaults root :directory `(:absolute ,@path)))) (translate-pathname absolute-pathname wild-root (wilden new-base)))))) #+scl (defun directorize-pathname-host-device (pathname) (let ((scheme (ext:pathname-scheme pathname)) (host (pathname-host pathname)) (port (ext:pathname-port pathname)) (directory (pathname-directory pathname))) (flet ((specificp (x) (and x (not (eq x :unspecific))))) (if (or (specificp port) (and (specificp host) (plusp (length host))) (specificp scheme)) (let ((prefix "")) (when (specificp port) (setf prefix (format nil ":~D" port))) (when (and (specificp host) (plusp (length host))) (setf prefix (strcat host prefix))) (setf prefix (strcat ":" prefix)) (when (specificp scheme) (setf prefix (strcat scheme prefix))) (assert (and directory (eq (first directory) :absolute))) (make-pathname :directory `(:absolute ,prefix ,@(rest directory)) :defaults pathname))) pathname))) (defun* (translate-pathname*) (path absolute-source destination &optional root source) "A wrapper around TRANSLATE-PATHNAME to be used by the ASDF output-translations facility. PATH is the pathname to be translated. ABSOLUTE-SOURCE is an absolute pathname to use as source for translate-pathname, DESTINATION is either a function, to be called with PATH and ABSOLUTE-SOURCE, or a relative pathname, to be merged with ROOT and used as destination for translate-pathname or an absolute pathname, to be used as destination for translate-pathname. In that last case, if ROOT is non-NIL, PATH is first transformated by DIRECTORIZE-PATHNAME-HOST-DEVICE." (declare (ignore source)) (cond ((functionp destination) (funcall destination path absolute-source)) ((eq destination t) path) ((not (pathnamep destination)) (error "Invalid destination")) ((not (absolute-pathname-p destination)) (translate-pathname path absolute-source (merge-pathnames* destination root))) (root (translate-pathname (directorize-pathname-host-device path) absolute-source destination)) (t (translate-pathname path absolute-source destination)))) (defvar *output-translation-function* 'identity "Hook for output translations. This function needs to be idempotent, so that actions can work whether their inputs were translated or not, which they will be if we are composing operations. e.g. if some create-lisp-op creates a lisp file from some higher-level input, you need to still be able to use compile-op on that lisp file.")) ;;;; ------------------------------------------------------------------------- ;;;; Portability layer around Common Lisp filesystem access (uiop/package:define-package :uiop/filesystem (:use :uiop/common-lisp :uiop/package :uiop/utility :uiop/os :uiop/pathname) (:export ;; Native namestrings #:native-namestring #:parse-native-namestring ;; Probing the filesystem #:truename* #:safe-file-write-date #:probe-file* #:directory-exists-p #:file-exists-p #:directory* #:filter-logical-directory-results #:directory-files #:subdirectories #:collect-sub*directories ;; Resolving symlinks somewhat #:truenamize #:resolve-symlinks #:*resolve-symlinks* #:resolve-symlinks* ;; merging with cwd #:get-pathname-defaults #:call-with-current-directory #:with-current-directory ;; Environment pathnames #:inter-directory-separator #:split-native-pathnames-string #:getenv-pathname #:getenv-pathnames #:getenv-absolute-directory #:getenv-absolute-directories #:lisp-implementation-directory #:lisp-implementation-pathname-p ;; Simple filesystem operations #:ensure-all-directories-exist #:rename-file-overwriting-target #:delete-file-if-exists #:delete-empty-directory #:delete-directory-tree)) (in-package :uiop/filesystem) ;;; Native namestrings, as seen by the operating system calls rather than Lisp (with-upgradability () (defun native-namestring (x) "From a non-wildcard CL pathname, a return namestring suitable for passing to the operating system" (when x (let ((p (pathname x))) #+clozure (with-pathname-defaults () (ccl:native-translated-namestring p)) ; see ccl bug 978 #+(or cmucl scl) (ext:unix-namestring p nil) #+sbcl (sb-ext:native-namestring p) #-(or clozure cmucl sbcl scl) (os-cond ((os-unix-p) (unix-namestring p)) (t (namestring p)))))) (defun parse-native-namestring (string &rest constraints &key ensure-directory &allow-other-keys) "From a native namestring suitable for use by the operating system, return a CL pathname satisfying all the specified constraints as per ENSURE-PATHNAME" (check-type string (or string null)) (let* ((pathname (when string (with-pathname-defaults () #+clozure (ccl:native-to-pathname string) #+cmucl (uiop/os::parse-unix-namestring* string) #+sbcl (sb-ext:parse-native-namestring string) #+scl (lisp::parse-unix-namestring string) #-(or clozure cmucl sbcl scl) (os-cond ((os-unix-p) (parse-unix-namestring string :ensure-directory ensure-directory)) (t (parse-namestring string)))))) (pathname (if ensure-directory (and pathname (ensure-directory-pathname pathname)) pathname))) (apply 'ensure-pathname pathname constraints)))) ;;; Probing the filesystem (with-upgradability () (defun truename* (p) "Nicer variant of TRUENAME that plays well with NIL, avoids logical pathname contexts, and tries both files and directories" (when p (when (stringp p) (setf p (with-pathname-defaults () (parse-namestring p)))) (values (or (ignore-errors (truename p)) ;; this is here because trying to find the truename of a directory pathname WITHOUT supplying ;; a trailing directory separator, causes an error on some lisps. #+(or clisp gcl) (if-let (d (ensure-directory-pathname p nil)) (ignore-errors (truename d))))))) (defun safe-file-write-date (pathname) "Safe variant of FILE-WRITE-DATE that may return NIL rather than raise an error." ;; If FILE-WRITE-DATE returns NIL, it's possible that ;; the user or some other agent has deleted an input file. ;; Also, generated files will not exist at the time planning is done ;; and calls compute-action-stamp which calls safe-file-write-date. ;; So it is very possible that we can't get a valid file-write-date, ;; and we can survive and we will continue the planning ;; as if the file were very old. ;; (or should we treat the case in a different, special way?) (and pathname (handler-case (file-write-date (physicalize-pathname pathname)) (file-error () nil)))) (defun probe-file* (p &key truename) "when given a pathname P (designated by a string as per PARSE-NAMESTRING), probes the filesystem for a file or directory with given pathname. If it exists, return its truename is ENSURE-PATHNAME is true, or the original (parsed) pathname if it is false (the default)." (values (ignore-errors (setf p (funcall 'ensure-pathname p :namestring :lisp :ensure-physical t :ensure-absolute t :defaults 'get-pathname-defaults :want-non-wild t :on-error nil)) (when p #+allegro (probe-file p :follow-symlinks truename) #+gcl (if truename (truename* p) (let ((kind (car (si::stat p)))) (when (eq kind :link) (setf kind (ignore-errors (car (si::stat (truename* p)))))) (ecase kind ((nil) nil) ((:file :link) (cond ((file-pathname-p p) p) ((directory-pathname-p p) (subpathname p (car (last (pathname-directory p))))))) (:directory (ensure-directory-pathname p))))) #+clisp #.(let* ((fs (or #-os-windows (find-symbol* '#:file-stat :posix nil))) (pp (find-symbol* '#:probe-pathname :ext nil))) `(if truename ,(if pp `(values (,pp p)) '(or (truename* p) (truename* (ignore-errors (ensure-directory-pathname p))))) ,(cond (fs `(and (,fs p) p)) (pp `(nth-value 1 (,pp p))) (t '(or (and (truename* p) p) (if-let (d (ensure-directory-pathname p)) (and (truename* d) d))))))) #-(or allegro clisp gcl) (if truename (probe-file p) (and #+(or cmucl scl) (unix:unix-stat (ext:unix-namestring p)) #+(and lispworks unix) (system:get-file-stat p) #+sbcl (sb-unix:unix-stat (sb-ext:native-namestring p)) #-(or cmucl (and lispworks unix) sbcl scl) (file-write-date p) p)))))) (defun directory-exists-p (x) "Is X the name of a directory that exists on the filesystem?" #+allegro (excl:probe-directory x) #+clisp (handler-case (ext:probe-directory x) (sys::simple-file-error () nil)) #-(or allegro clisp) (let ((p (probe-file* x :truename t))) (and (directory-pathname-p p) p))) (defun file-exists-p (x) "Is X the name of a file that exists on the filesystem?" (let ((p (probe-file* x :truename t))) (and (file-pathname-p p) p))) (defun directory* (pathname-spec &rest keys &key &allow-other-keys) "Return a list of the entries in a directory by calling DIRECTORY. Try to override the defaults to not resolving symlinks, if implementation allows." (apply 'directory pathname-spec (append keys '#.(or #+allegro '(:directories-are-files nil :follow-symbolic-links nil) #+(or clozure digitool) '(:follow-links nil) #+clisp '(:circle t :if-does-not-exist :ignore) #+(or cmucl scl) '(:follow-links nil :truenamep nil) #+lispworks '(:link-transparency nil) #+sbcl (when (find-symbol* :resolve-symlinks '#:sb-impl nil) '(:resolve-symlinks nil)))))) (defun filter-logical-directory-results (directory entries merger) "If DIRECTORY isn't a logical pathname, return ENTRIES. If it is, given ENTRIES in the DIRECTORY, remove the entries which are physical yet when transformed by MERGER have a different TRUENAME. Also remove duplicates as may appear with some translation rules. This function is used as a helper to DIRECTORY-FILES to avoid invalid entries when using logical-pathnames." (if (logical-pathname-p directory) (remove-duplicates ;; on CLISP, querying ~/ will return duplicates ;; Try hard to not resolve logical-pathname into physical pathnames; ;; otherwise logical-pathname users/lovers will be disappointed. ;; If directory* could use some implementation-dependent magic, ;; we will have logical pathnames already; otherwise, ;; we only keep pathnames for which specifying the name and ;; translating the LPN commute. (loop :for f :in entries :for p = (or (and (logical-pathname-p f) f) (let* ((u (ignore-errors (call-function merger f)))) ;; The first u avoids a cumbersome (truename u) error. ;; At this point f should already be a truename, ;; but isn't quite in CLISP, for it doesn't have :version :newest (and u (equal (truename* u) (truename* f)) u))) :when p :collect p) :test 'pathname-equal) entries)) (defun directory-files (directory &optional (pattern *wild-file-for-directory*)) "Return a list of the files in a directory according to the PATTERN. Subdirectories should NOT be returned. PATTERN defaults to a pattern carefully chosen based on the implementation; override the default at your own risk. DIRECTORY-FILES tries NOT to resolve symlinks if the implementation permits this, but the behavior in presence of symlinks is not portable. Use IOlib to handle such situations." (let ((dir (pathname directory))) (when (logical-pathname-p dir) ;; Because of the filtering we do below, ;; logical pathnames have restrictions on wild patterns. ;; Not that the results are very portable when you use these patterns on physical pathnames. (when (wild-pathname-p dir) (error "Invalid wild pattern in logical directory ~S" directory)) (unless (member (pathname-directory pattern) '(() (:relative)) :test 'equal) (error "Invalid file pattern ~S for logical directory ~S" pattern directory)) (setf pattern (make-pathname-logical pattern (pathname-host dir)))) (let* ((pat (merge-pathnames* pattern dir)) (entries (ignore-errors (directory* pat)))) (remove-if 'directory-pathname-p (filter-logical-directory-results directory entries #'(lambda (f) (make-pathname :defaults dir :name (make-pathname-component-logical (pathname-name f)) :type (make-pathname-component-logical (pathname-type f)) :version (make-pathname-component-logical (pathname-version f))))))))) (defun subdirectories (directory) "Given a DIRECTORY pathname designator, return a list of the subdirectories under it. The behavior in presence of symlinks is not portable. Use IOlib to handle such situations." (let* ((directory (ensure-directory-pathname directory)) #-(or abcl cormanlisp genera xcl) (wild (merge-pathnames* #-(or abcl allegro cmucl lispworks sbcl scl xcl) *wild-directory* #+(or abcl allegro cmucl lispworks sbcl scl xcl) "*.*" directory)) (dirs #-(or abcl cormanlisp genera xcl) (ignore-errors (directory* wild . #.(or #+clozure '(:directories t :files nil) #+mcl '(:directories t)))) #+(or abcl xcl) (system:list-directory directory) #+cormanlisp (cl::directory-subdirs directory) #+genera (handler-case (fs:directory-list directory) (fs:directory-not-found () nil))) #+(or abcl allegro cmucl genera lispworks sbcl scl xcl) (dirs (loop :for x :in dirs :for d = #+(or abcl xcl) (extensions:probe-directory x) #+allegro (excl:probe-directory x) #+(or cmucl sbcl scl) (directory-pathname-p x) #+genera (getf (cdr x) :directory) #+lispworks (lw:file-directory-p x) :when d :collect #+(or abcl allegro xcl) (ensure-directory-pathname d) #+genera (ensure-directory-pathname (first x)) #+(or cmucl lispworks sbcl scl) x))) (filter-logical-directory-results directory dirs (let ((prefix (or (normalize-pathname-directory-component (pathname-directory directory)) '(:absolute)))) ; because allegro returns NIL for #p"FOO:" #'(lambda (d) (let ((dir (normalize-pathname-directory-component (pathname-directory d)))) (and (consp dir) (consp (cdr dir)) (make-pathname :defaults directory :name nil :type nil :version nil :directory (append prefix (make-pathname-component-logical (last dir))))))))))) (defun collect-sub*directories (directory collectp recursep collector) "Given a DIRECTORY, when COLLECTP returns true when CALL-FUNCTION'ed with the directory, call-function the COLLECTOR function designator on the directory, and recurse each of its subdirectories on which the RECURSEP returns true when CALL-FUNCTION'ed with them. This function will thus let you traverse a filesystem hierarchy, superseding the functionality of CL-FAD:WALK-DIRECTORY. The behavior in presence of symlinks is not portable. Use IOlib to handle such situations." (when (call-function collectp directory) (call-function collector directory) (dolist (subdir (subdirectories directory)) (when (call-function recursep subdir) (collect-sub*directories subdir collectp recursep collector)))))) ;;; Resolving symlinks somewhat (with-upgradability () (defun truenamize (pathname) "Resolve as much of a pathname as possible" (block nil (when (typep pathname '(or null logical-pathname)) (return pathname)) (let ((p pathname)) (unless (absolute-pathname-p p) (setf p (or (absolute-pathname-p (ensure-absolute-pathname p 'get-pathname-defaults nil)) (return p)))) (when (logical-pathname-p p) (return p)) (let ((found (probe-file* p :truename t))) (when found (return found))) (let* ((directory (normalize-pathname-directory-component (pathname-directory p))) (up-components (reverse (rest directory))) (down-components ())) (assert (eq :absolute (first directory))) (loop :while up-components :do (if-let (parent (ignore-errors (probe-file* (make-pathname :directory `(:absolute ,@(reverse up-components)) :name nil :type nil :version nil :defaults p)))) (if-let (simplified (ignore-errors (merge-pathnames* (make-pathname :directory `(:relative ,@down-components) :defaults p) (ensure-directory-pathname parent)))) (return simplified))) (push (pop up-components) down-components) :finally (return p)))))) (defun resolve-symlinks (path) "Do a best effort at resolving symlinks in PATH, returning a partially or totally resolved PATH." #-allegro (truenamize path) #+allegro (if (physical-pathname-p path) (or (ignore-errors (excl:pathname-resolve-symbolic-links path)) path) path)) (defvar *resolve-symlinks* t "Determine whether or not ASDF resolves symlinks when defining systems. Defaults to T.") (defun resolve-symlinks* (path) "RESOLVE-SYMLINKS in PATH iff *RESOLVE-SYMLINKS* is T (the default)." (if *resolve-symlinks* (and path (resolve-symlinks path)) path))) ;;; Check pathname constraints (with-upgradability () (defun ensure-pathname (pathname &key on-error defaults type dot-dot namestring empty-is-nil want-pathname want-logical want-physical ensure-physical want-relative want-absolute ensure-absolute ensure-subpath want-non-wild want-wild wilden want-file want-directory ensure-directory want-existing ensure-directories-exist truename resolve-symlinks truenamize &aux (p pathname)) ;; mutable working copy, preserve original "Coerces its argument into a PATHNAME, optionally doing some transformations and checking specified constraints. If the argument is NIL, then NIL is returned unless the WANT-PATHNAME constraint is specified. If the argument is a STRING, it is first converted to a pathname via PARSE-UNIX-NAMESTRING, PARSE-NAMESTRING or PARSE-NATIVE-NAMESTRING respectively depending on the NAMESTRING argument being :UNIX, :LISP or :NATIVE respectively, or else by using CALL-FUNCTION on the NAMESTRING argument; if :UNIX is specified (or NIL, the default, which specifies the same thing), then PARSE-UNIX-NAMESTRING it is called with the keywords DEFAULTS TYPE DOT-DOT ENSURE-DIRECTORY WANT-RELATIVE, and the result is optionally merged into the DEFAULTS if ENSURE-ABSOLUTE is true. The pathname passed or resulting from parsing the string is then subjected to all the checks and transformations below are run. Each non-nil constraint argument can be one of the symbols T, ERROR, CERROR or IGNORE. The boolean T is an alias for ERROR. ERROR means that an error will be raised if the constraint is not satisfied. CERROR means that an continuable error will be raised if the constraint is not satisfied. IGNORE means just return NIL instead of the pathname. The ON-ERROR argument, if not NIL, is a function designator (as per CALL-FUNCTION) that will be called with the the following arguments: a generic format string for ensure pathname, the pathname, the keyword argument corresponding to the failed check or transformation, a format string for the reason ENSURE-PATHNAME failed, and a list with arguments to that format string. If ON-ERROR is NIL, ERROR is used instead, which does the right thing. You could also pass (CERROR \"CONTINUE DESPITE FAILED CHECK\"). The transformations and constraint checks are done in this order, which is also the order in the lambda-list: EMPTY-IS-NIL returns NIL if the argument is an empty string. WANT-PATHNAME checks that pathname (after parsing if needed) is not null. Otherwise, if the pathname is NIL, ensure-pathname returns NIL. WANT-LOGICAL checks that pathname is a LOGICAL-PATHNAME WANT-PHYSICAL checks that pathname is not a LOGICAL-PATHNAME ENSURE-PHYSICAL ensures that pathname is physical via TRANSLATE-LOGICAL-PATHNAME WANT-RELATIVE checks that pathname has a relative directory component WANT-ABSOLUTE checks that pathname does have an absolute directory component ENSURE-ABSOLUTE merges with the DEFAULTS, then checks again that the result absolute is an absolute pathname indeed. ENSURE-SUBPATH checks that the pathname is a subpath of the DEFAULTS. WANT-FILE checks that pathname has a non-nil FILE component WANT-DIRECTORY checks that pathname has nil FILE and TYPE components ENSURE-DIRECTORY uses ENSURE-DIRECTORY-PATHNAME to interpret any file and type components as being actually a last directory component. WANT-NON-WILD checks that pathname is not a wild pathname WANT-WILD checks that pathname is a wild pathname WILDEN merges the pathname with **/*.*.* if it is not wild WANT-EXISTING checks that a file (or directory) exists with that pathname. ENSURE-DIRECTORIES-EXIST creates any parent directory with ENSURE-DIRECTORIES-EXIST. TRUENAME replaces the pathname by its truename, or errors if not possible. RESOLVE-SYMLINKS replaces the pathname by a variant with symlinks resolved by RESOLVE-SYMLINKS. TRUENAMIZE uses TRUENAMIZE to resolve as many symlinks as possible." (block nil (flet ((report-error (keyword description &rest arguments) (call-function (or on-error 'error) "Invalid pathname ~S: ~*~?" pathname keyword description arguments))) (macrolet ((err (constraint &rest arguments) `(report-error ',(intern* constraint :keyword) ,@arguments)) (check (constraint condition &rest arguments) `(when ,constraint (unless ,condition (err ,constraint ,@arguments)))) (transform (transform condition expr) `(when ,transform (,@(if condition `(when ,condition) '(progn)) (setf p ,expr))))) (etypecase p ((or null pathname)) (string (when (and (emptyp p) empty-is-nil) (return-from ensure-pathname nil)) (setf p (case namestring ((:unix nil) (parse-unix-namestring p :defaults defaults :type type :dot-dot dot-dot :ensure-directory ensure-directory :want-relative want-relative)) ((:native) (parse-native-namestring p)) ((:lisp) (parse-namestring p)) (t (call-function namestring p)))))) (etypecase p (pathname) (null (check want-pathname (pathnamep p) "Expected a pathname, not NIL") (return nil))) (check want-logical (logical-pathname-p p) "Expected a logical pathname") (check want-physical (physical-pathname-p p) "Expected a physical pathname") (transform ensure-physical () (physicalize-pathname p)) (check ensure-physical (physical-pathname-p p) "Could not translate to a physical pathname") (check want-relative (relative-pathname-p p) "Expected a relative pathname") (check want-absolute (absolute-pathname-p p) "Expected an absolute pathname") (transform ensure-absolute (not (absolute-pathname-p p)) (ensure-absolute-pathname p defaults (list #'report-error :ensure-absolute "~@?"))) (check ensure-absolute (absolute-pathname-p p) "Could not make into an absolute pathname even after merging with ~S" defaults) (check ensure-subpath (absolute-pathname-p defaults) "cannot be checked to be a subpath of non-absolute pathname ~S" defaults) (check ensure-subpath (subpathp p defaults) "is not a sub pathname of ~S" defaults) (check want-file (file-pathname-p p) "Expected a file pathname") (check want-directory (directory-pathname-p p) "Expected a directory pathname") (transform ensure-directory (not (directory-pathname-p p)) (ensure-directory-pathname p)) (check want-non-wild (not (wild-pathname-p p)) "Expected a non-wildcard pathname") (check want-wild (wild-pathname-p p) "Expected a wildcard pathname") (transform wilden (not (wild-pathname-p p)) (wilden p)) (when want-existing (let ((existing (probe-file* p :truename truename))) (if existing (when truename (return existing)) (err want-existing "Expected an existing pathname")))) (when ensure-directories-exist (ensure-directories-exist p)) (when truename (let ((truename (truename* p))) (if truename (return truename) (err truename "Can't get a truename for pathname")))) (transform resolve-symlinks () (resolve-symlinks p)) (transform truenamize () (truenamize p)) p))))) ;;; Pathname defaults (with-upgradability () (defun get-pathname-defaults (&optional (defaults *default-pathname-defaults*)) "Find the actual DEFAULTS to use for pathnames, including resolving them with respect to GETCWD if the DEFAULTS were relative" (or (absolute-pathname-p defaults) (merge-pathnames* defaults (getcwd)))) (defun call-with-current-directory (dir thunk) "call the THUNK in a context where the current directory was changed to DIR, if not NIL. Note that this operation is usually NOT thread-safe." (if dir (let* ((dir (resolve-symlinks* (get-pathname-defaults (pathname-directory-pathname dir)))) (cwd (getcwd)) (*default-pathname-defaults* dir)) (chdir dir) (unwind-protect (funcall thunk) (chdir cwd))) (funcall thunk))) (defmacro with-current-directory ((&optional dir) &body body) "Call BODY while the POSIX current working directory is set to DIR" `(call-with-current-directory ,dir #'(lambda () ,@body)))) ;;; Environment pathnames (with-upgradability () (defun inter-directory-separator () "What character does the current OS conventionally uses to separate directories?" (os-cond ((os-unix-p) #\:) (t #\;))) (defun split-native-pathnames-string (string &rest constraints &key &allow-other-keys) "Given a string of pathnames specified in native OS syntax, separate them in a list, check constraints and normalize each one as per ENSURE-PATHNAME, where an empty string denotes NIL." (loop :for namestring :in (split-string string :separator (string (inter-directory-separator))) :collect (unless (emptyp namestring) (apply 'parse-native-namestring namestring constraints)))) (defun getenv-pathname (x &rest constraints &key ensure-directory want-directory on-error &allow-other-keys) "Extract a pathname from a user-configured environment variable, as per native OS, check constraints and normalize as per ENSURE-PATHNAME." ;; For backward compatibility with ASDF 2, want-directory implies ensure-directory (apply 'parse-native-namestring (getenvp x) :ensure-directory (or ensure-directory want-directory) :on-error (or on-error `(error "In (~S ~S), invalid pathname ~*~S: ~*~?" getenv-pathname ,x)) constraints)) (defun getenv-pathnames (x &rest constraints &key on-error &allow-other-keys) "Extract a list of pathname from a user-configured environment variable, as per native OS, check constraints and normalize each one as per ENSURE-PATHNAME. Any empty entries in the environment variable X will be returned as NILs." (unless (getf constraints :empty-is-nil t) (error "Cannot have EMPTY-IS-NIL false for GETENV-PATHNAMES.")) (apply 'split-native-pathnames-string (getenvp x) :on-error (or on-error `(error "In (~S ~S), invalid pathname ~*~S: ~*~?" getenv-pathnames ,x)) :empty-is-nil t constraints)) (defun getenv-absolute-directory (x) "Extract an absolute directory pathname from a user-configured environment variable, as per native OS" (getenv-pathname x :want-absolute t :ensure-directory t)) (defun getenv-absolute-directories (x) "Extract a list of absolute directories from a user-configured environment variable, as per native OS. Any empty entries in the environment variable X will be returned as NILs." (getenv-pathnames x :want-absolute t :ensure-directory t)) (defun lisp-implementation-directory (&key truename) "Where are the system files of the current installation of the CL implementation?" (declare (ignorable truename)) (let ((dir #+abcl extensions:*lisp-home* #+(or allegro clasp ecl mkcl) #p"SYS:" #+clisp custom:*lib-directory* #+clozure #p"ccl:" #+cmucl (ignore-errors (pathname-parent-directory-pathname (truename #p"modules:"))) #+gcl system::*system-directory* #+lispworks lispworks:*lispworks-directory* #+sbcl (if-let (it (find-symbol* :sbcl-homedir-pathname :sb-int nil)) (funcall it) (getenv-pathname "SBCL_HOME" :ensure-directory t)) #+scl (ignore-errors (pathname-parent-directory-pathname (truename #p"file://modules/"))) #+xcl ext:*xcl-home*)) (if (and dir truename) (truename* dir) dir))) (defun lisp-implementation-pathname-p (pathname) "Is the PATHNAME under the current installation of the CL implementation?" ;; Other builtin systems are those under the implementation directory (and (when pathname (if-let (impdir (lisp-implementation-directory)) (or (subpathp pathname impdir) (when *resolve-symlinks* (if-let (truename (truename* pathname)) (if-let (trueimpdir (truename* impdir)) (subpathp truename trueimpdir))))))) t))) ;;; Simple filesystem operations (with-upgradability () (defun ensure-all-directories-exist (pathnames) "Ensure that for every pathname in PATHNAMES, we ensure its directories exist" (dolist (pathname pathnames) (when pathname (ensure-directories-exist (physicalize-pathname pathname))))) (defun delete-file-if-exists (x) "Delete a file X if it already exists" (when x (handler-case (delete-file x) (file-error () nil)))) (defun rename-file-overwriting-target (source target) "Rename a file, overwriting any previous file with the TARGET name, in an atomic way if the implementation allows." (let ((source (ensure-pathname source :namestring :lisp :ensure-physical t :want-file t)) (target (ensure-pathname target :namestring :lisp :ensure-physical t :want-file t))) #+clisp ;; in recent enough versions of CLISP, :if-exists :overwrite would make it atomic (progn (funcall 'require "syscalls") (symbol-call :posix :copy-file source target :method :rename)) #+(and sbcl os-windows) (delete-file-if-exists target) ;; not atomic #-clisp (rename-file source target #+(or clasp clozure ecl) :if-exists #+clozure :rename-and-delete #+(or clasp ecl) t))) (defun delete-empty-directory (directory-pathname) "Delete an empty directory" #+(or abcl digitool gcl) (delete-file directory-pathname) #+allegro (excl:delete-directory directory-pathname) #+clisp (ext:delete-directory directory-pathname) #+clozure (ccl::delete-empty-directory directory-pathname) #+(or cmucl scl) (multiple-value-bind (ok errno) (unix:unix-rmdir (native-namestring directory-pathname)) (unless ok #+cmucl (error "Error number ~A when trying to delete directory ~A" errno directory-pathname) #+scl (error "~@" directory-pathname (unix:get-unix-error-msg errno)))) #+cormanlisp (win32:delete-directory directory-pathname) #+(or clasp ecl) (si:rmdir directory-pathname) #+genera (fs:delete-directory directory-pathname) #+lispworks (lw:delete-directory directory-pathname) #+mkcl (mkcl:rmdir directory-pathname) #+sbcl #.(if-let (dd (find-symbol* :delete-directory :sb-ext nil)) `(,dd directory-pathname) ;; requires SBCL 1.0.44 or later `(progn (require :sb-posix) (symbol-call :sb-posix :rmdir directory-pathname))) #+xcl (symbol-call :uiop :run-program `("rmdir" ,(native-namestring directory-pathname))) #-(or abcl allegro clasp clisp clozure cmucl cormanlisp digitool ecl gcl genera lispworks mkcl sbcl scl xcl) (not-implemented-error 'delete-empty-directory "(on your platform)")) ; genera (defun delete-directory-tree (directory-pathname &key (validate nil validatep) (if-does-not-exist :error)) "Delete a directory including all its recursive contents, aka rm -rf. To reduce the risk of infortunate mistakes, DIRECTORY-PATHNAME must be a physical non-wildcard directory pathname (not namestring). If the directory does not exist, the IF-DOES-NOT-EXIST argument specifies what happens: if it is :ERROR (the default), an error is signaled, whereas if it is :IGNORE, nothing is done. Furthermore, before any deletion is attempted, the DIRECTORY-PATHNAME must pass the validation function designated (as per ENSURE-FUNCTION) by the VALIDATE keyword argument which in practice is thus compulsory, and validates by returning a non-NIL result. If you're suicidal or extremely confident, just use :VALIDATE T." (check-type if-does-not-exist (member :error :ignore)) (cond ((not (and (pathnamep directory-pathname) (directory-pathname-p directory-pathname) (physical-pathname-p directory-pathname) (not (wild-pathname-p directory-pathname)))) (error "~S was asked to delete ~S but it is not a physical non-wildcard directory pathname" 'delete-directory-tree directory-pathname)) ((not validatep) (error "~S was asked to delete ~S but was not provided a validation predicate" 'delete-directory-tree directory-pathname)) ((not (call-function validate directory-pathname)) (error "~S was asked to delete ~S but it is not valid ~@[according to ~S~]" 'delete-directory-tree directory-pathname validate)) ((not (directory-exists-p directory-pathname)) (ecase if-does-not-exist (:error (error "~S was asked to delete ~S but the directory does not exist" 'delete-directory-tree directory-pathname)) (:ignore nil))) #-(or allegro cmucl clozure genera sbcl scl) ((os-unix-p) ;; On Unix, don't recursively walk the directory and delete everything in Lisp, ;; except on implementations where we can prevent DIRECTORY from following symlinks; ;; instead spawn a standard external program to do the dirty work. (symbol-call :uiop :run-program `("rm" "-rf" ,(native-namestring directory-pathname)))) (t ;; On supported implementation, call supported system functions #+allegro (symbol-call :excl.osi :delete-directory-and-files directory-pathname :if-does-not-exist if-does-not-exist) #+clozure (ccl:delete-directory directory-pathname) #+genera (fs:delete-directory directory-pathname :confirm nil) #+sbcl #.(if-let (dd (find-symbol* :delete-directory :sb-ext nil)) `(,dd directory-pathname :recursive t) ;; requires SBCL 1.0.44 or later '(error "~S requires SBCL 1.0.44 or later" 'delete-directory-tree)) ;; Outside Unix or on CMUCL and SCL that can avoid following symlinks, ;; do things the hard way. #-(or allegro clozure genera sbcl) (let ((sub*directories (while-collecting (c) (collect-sub*directories directory-pathname t t #'c)))) (dolist (d (nreverse sub*directories)) (map () 'delete-file (directory-files d)) (delete-empty-directory d))))))) ;;;; --------------------------------------------------------------------------- ;;;; Utilities related to streams (uiop/package:define-package :uiop/stream (:use :uiop/common-lisp :uiop/package :uiop/utility :uiop/os :uiop/pathname :uiop/filesystem) (:export #:*default-stream-element-type* #:*stdin* #:setup-stdin #:*stdout* #:setup-stdout #:*stderr* #:setup-stderr #:detect-encoding #:*encoding-detection-hook* #:always-default-encoding #:encoding-external-format #:*encoding-external-format-hook* #:default-encoding-external-format #:*default-encoding* #:*utf-8-external-format* #:with-safe-io-syntax #:call-with-safe-io-syntax #:safe-read-from-string #:with-output #:output-string #:with-input #:input-string #:with-input-file #:call-with-input-file #:with-output-file #:call-with-output-file #:null-device-pathname #:call-with-null-input #:with-null-input #:call-with-null-output #:with-null-output #:finish-outputs #:format! #:safe-format! #:copy-stream-to-stream #:concatenate-files #:copy-file #:slurp-stream-string #:slurp-stream-lines #:slurp-stream-line #:slurp-stream-forms #:slurp-stream-form #:read-file-string #:read-file-line #:read-file-lines #:safe-read-file-line #:read-file-forms #:read-file-form #:safe-read-file-form #:eval-input #:eval-thunk #:standard-eval-thunk #:println #:writeln #:file-stream-p #:file-or-synonym-stream-p ;; Temporary files #:*temporary-directory* #:temporary-directory #:default-temporary-directory #:setup-temporary-directory #:call-with-temporary-file #:with-temporary-file #:add-pathname-suffix #:tmpize-pathname #:call-with-staging-pathname #:with-staging-pathname)) (in-package :uiop/stream) (with-upgradability () (defvar *default-stream-element-type* (or #+(or abcl cmucl cormanlisp scl xcl) 'character #+lispworks 'lw:simple-char :default) "default element-type for open (depends on the current CL implementation)") (defvar *stdin* *standard-input* "the original standard input stream at startup") (defun setup-stdin () (setf *stdin* #.(or #+clozure 'ccl::*stdin* #+(or cmucl scl) 'system:*stdin* #+(or clasp ecl) 'ext::+process-standard-input+ #+sbcl 'sb-sys:*stdin* '*standard-input*))) (defvar *stdout* *standard-output* "the original standard output stream at startup") (defun setup-stdout () (setf *stdout* #.(or #+clozure 'ccl::*stdout* #+(or cmucl scl) 'system:*stdout* #+(or clasp ecl) 'ext::+process-standard-output+ #+sbcl 'sb-sys:*stdout* '*standard-output*))) (defvar *stderr* *error-output* "the original error output stream at startup") (defun setup-stderr () (setf *stderr* #.(or #+allegro 'excl::*stderr* #+clozure 'ccl::*stderr* #+(or cmucl scl) 'system:*stderr* #+(or clasp ecl) 'ext::+process-error-output+ #+sbcl 'sb-sys:*stderr* '*error-output*))) ;; Run them now. In image.lisp, we'll register them to be run at image restart. (setup-stdin) (setup-stdout) (setup-stderr)) ;;; Encodings (mostly hooks only; full support requires asdf-encodings) (with-upgradability () (defparameter *default-encoding* ;; preserve explicit user changes to something other than the legacy default :default (or (if-let (previous (and (boundp '*default-encoding*) (symbol-value '*default-encoding*))) (unless (eq previous :default) previous)) :utf-8) "Default encoding for source files. The default value :utf-8 is the portable thing. The legacy behavior was :default. If you (asdf:load-system :asdf-encodings) then you will have autodetection via *encoding-detection-hook* below, reading emacs-style -*- coding: utf-8 -*- specifications, and falling back to utf-8 or latin1 if nothing is specified.") (defparameter *utf-8-external-format* (if (featurep :asdf-unicode) (or #+clisp charset:utf-8 :utf-8) :default) "Default :external-format argument to pass to CL:OPEN and also CL:LOAD or CL:COMPILE-FILE to best process a UTF-8 encoded file. On modern implementations, this will decode UTF-8 code points as CL characters. On legacy implementations, it may fall back on some 8-bit encoding, with non-ASCII code points being read as several CL characters; hopefully, if done consistently, that won't affect program behavior too much.") (defun always-default-encoding (pathname) "Trivial function to use as *encoding-detection-hook*, always 'detects' the *default-encoding*" (declare (ignore pathname)) *default-encoding*) (defvar *encoding-detection-hook* #'always-default-encoding "Hook for an extension to define a function to automatically detect a file's encoding") (defun detect-encoding (pathname) "Detects the encoding of a specified file, going through user-configurable hooks" (if (and pathname (not (directory-pathname-p pathname)) (probe-file* pathname)) (funcall *encoding-detection-hook* pathname) *default-encoding*)) (defun default-encoding-external-format (encoding) "Default, ignorant, function to transform a character ENCODING as a portable keyword to an implementation-dependent EXTERNAL-FORMAT specification. Load system ASDF-ENCODINGS to hook in a better one." (case encoding (:default :default) ;; for backward-compatibility only. Explicit usage discouraged. (:utf-8 *utf-8-external-format*) (otherwise (cerror "Continue using :external-format :default" (compatfmt "~@") encoding) :default))) (defvar *encoding-external-format-hook* #'default-encoding-external-format "Hook for an extension (e.g. ASDF-ENCODINGS) to define a better mapping from non-default encodings to and implementation-defined external-format's") (defun encoding-external-format (encoding) "Transform a portable ENCODING keyword to an implementation-dependent EXTERNAL-FORMAT, going through all the proper hooks." (funcall *encoding-external-format-hook* (or encoding *default-encoding*)))) ;;; Safe syntax (with-upgradability () (defvar *standard-readtable* (with-standard-io-syntax *readtable*) "The standard readtable, implementing the syntax specified by the CLHS. It must never be modified, though only good implementations will even enforce that.") (defmacro with-safe-io-syntax ((&key (package :cl)) &body body) "Establish safe CL reader options around the evaluation of BODY" `(call-with-safe-io-syntax #'(lambda () (let ((*package* (find-package ,package))) ,@body)))) (defun call-with-safe-io-syntax (thunk &key (package :cl)) (with-standard-io-syntax (let ((*package* (find-package package)) (*read-default-float-format* 'double-float) (*print-readably* nil) (*read-eval* nil)) (funcall thunk)))) (defun safe-read-from-string (string &key (package :cl) (eof-error-p t) eof-value (start 0) end preserve-whitespace) "Read from STRING using a safe syntax, as per WITH-SAFE-IO-SYNTAX" (with-safe-io-syntax (:package package) (read-from-string string eof-error-p eof-value :start start :end end :preserve-whitespace preserve-whitespace)))) ;;; Output helpers (with-upgradability () (defun call-with-output-file (pathname thunk &key (element-type *default-stream-element-type*) (external-format *utf-8-external-format*) (if-exists :error) (if-does-not-exist :create)) "Open FILE for input with given recognizes options, call THUNK with the resulting stream. Other keys are accepted but discarded." (with-open-file (s pathname :direction :output :element-type element-type :external-format external-format :if-exists if-exists :if-does-not-exist if-does-not-exist) (funcall thunk s))) (defmacro with-output-file ((var pathname &rest keys &key element-type external-format if-exists if-does-not-exist) &body body) (declare (ignore element-type external-format if-exists if-does-not-exist)) `(call-with-output-file ,pathname #'(lambda (,var) ,@body) ,@keys)) (defun call-with-output (output function &key keys) "Calls FUNCTION with an actual stream argument, behaving like FORMAT with respect to how stream designators are interpreted: If OUTPUT is a STREAM, use it as the stream. If OUTPUT is NIL, use a STRING-OUTPUT-STREAM as the stream, and return the resulting string. If OUTPUT is T, use *STANDARD-OUTPUT* as the stream. If OUTPUT is a STRING with a fill-pointer, use it as a string-output-stream. If OUTPUT is a PATHNAME, open the file and write to it, passing KEYS to WITH-OUTPUT-FILE -- this latter as an extension since ASDF 3.1. Otherwise, signal an error." (etypecase output (null (with-output-to-string (stream) (funcall function stream))) ((eql t) (funcall function *standard-output*)) (stream (funcall function output)) (string (assert (fill-pointer output)) (with-output-to-string (stream output) (funcall function stream))) (pathname (apply 'call-with-output-file output function keys)))) (defmacro with-output ((output-var &optional (value output-var)) &body body) "Bind OUTPUT-VAR to an output stream, coercing VALUE (default: previous binding of OUTPUT-VAR) as per FORMAT, and evaluate BODY within the scope of this binding." `(call-with-output ,value #'(lambda (,output-var) ,@body))) (defun output-string (string &optional output) "If the desired OUTPUT is not NIL, print the string to the output; otherwise return the string" (if output (with-output (output) (princ string output)) string))) ;;; Input helpers (with-upgradability () (defun call-with-input-file (pathname thunk &key (element-type *default-stream-element-type*) (external-format *utf-8-external-format*) (if-does-not-exist :error)) "Open FILE for input with given recognizes options, call THUNK with the resulting stream. Other keys are accepted but discarded." (with-open-file (s pathname :direction :input :element-type element-type :external-format external-format :if-does-not-exist if-does-not-exist) (funcall thunk s))) (defmacro with-input-file ((var pathname &rest keys &key element-type external-format if-does-not-exist) &body body) (declare (ignore element-type external-format if-does-not-exist)) `(call-with-input-file ,pathname #'(lambda (,var) ,@body) ,@keys)) (defun call-with-input (input function &key keys) "Calls FUNCTION with an actual stream argument, interpreting stream designators like READ, but also coercing strings to STRING-INPUT-STREAM, and PATHNAME to FILE-STREAM. If INPUT is a STREAM, use it as the stream. If INPUT is NIL, use a *STANDARD-INPUT* as the stream. If INPUT is T, use *TERMINAL-IO* as the stream. If INPUT is a STRING, use it as a string-input-stream. If INPUT is a PATHNAME, open it, passing KEYS to WITH-INPUT-FILE -- the latter is an extension since ASDF 3.1. Otherwise, signal an error." (etypecase input (null (funcall function *standard-input*)) ((eql t) (funcall function *terminal-io*)) (stream (funcall function input)) (string (with-input-from-string (stream input) (funcall function stream))) (pathname (apply 'call-with-input-file input function keys)))) (defmacro with-input ((input-var &optional (value input-var)) &body body) "Bind INPUT-VAR to an input stream, coercing VALUE (default: previous binding of INPUT-VAR) as per CALL-WITH-INPUT, and evaluate BODY within the scope of this binding." `(call-with-input ,value #'(lambda (,input-var) ,@body))) (defun input-string (&optional input) "If the desired INPUT is a string, return that string; otherwise slurp the INPUT into a string and return that" (if (stringp input) input (with-input (input) (funcall 'slurp-stream-string input))))) ;;; Null device (with-upgradability () (defun null-device-pathname () "Pathname to a bit bucket device that discards any information written to it and always returns EOF when read from" (os-cond ((os-unix-p) #p"/dev/null") ((os-windows-p) #p"NUL") ;; Q: how many Lisps accept the #p"NUL:" syntax? (t (error "No /dev/null on your OS")))) (defun call-with-null-input (fun &rest keys &key element-type external-format if-does-not-exist) "Call FUN with an input stream from the null device; pass keyword arguments to OPEN." (declare (ignore element-type external-format if-does-not-exist)) (apply 'call-with-input-file (null-device-pathname) fun keys)) (defmacro with-null-input ((var &rest keys &key element-type external-format if-does-not-exist) &body body) (declare (ignore element-type external-format if-does-not-exist)) "Evaluate BODY in a context when VAR is bound to an input stream accessing the null device. Pass keyword arguments to OPEN." `(call-with-null-input #'(lambda (,var) ,@body) ,@keys)) (defun call-with-null-output (fun &key (element-type *default-stream-element-type*) (external-format *utf-8-external-format*) (if-exists :overwrite) (if-does-not-exist :error)) "Call FUN with an output stream to the null device; pass keyword arguments to OPEN." (call-with-output-file (null-device-pathname) fun :element-type element-type :external-format external-format :if-exists if-exists :if-does-not-exist if-does-not-exist)) (defmacro with-null-output ((var &rest keys &key element-type external-format if-does-not-exist if-exists) &body body) "Evaluate BODY in a context when VAR is bound to an output stream accessing the null device. Pass keyword arguments to OPEN." (declare (ignore element-type external-format if-exists if-does-not-exist)) `(call-with-null-output #'(lambda (,var) ,@body) ,@keys))) ;;; Ensure output buffers are flushed (with-upgradability () (defun finish-outputs (&rest streams) "Finish output on the main output streams as well as any specified one. Useful for portably flushing I/O before user input or program exit." ;; CCL notably buffers its stream output by default. (dolist (s (append streams (list *stdout* *stderr* *error-output* *standard-output* *trace-output* *debug-io* *terminal-io* *query-io*))) (ignore-errors (finish-output s))) (values)) (defun format! (stream format &rest args) "Just like format, but call finish-outputs before and after the output." (finish-outputs stream) (apply 'format stream format args) (finish-outputs stream)) (defun safe-format! (stream format &rest args) "Variant of FORMAT that is safe against both dangerous syntax configuration and errors while printing." (with-safe-io-syntax () (ignore-errors (apply 'format! stream format args)) (finish-outputs stream)))) ; just in case format failed ;;; Simple Whole-Stream processing (with-upgradability () (defun copy-stream-to-stream (input output &key element-type buffer-size linewise prefix) "Copy the contents of the INPUT stream into the OUTPUT stream. If LINEWISE is true, then read and copy the stream line by line, with an optional PREFIX. Otherwise, using WRITE-SEQUENCE using a buffer of size BUFFER-SIZE." (with-open-stream (input input) (if linewise (loop* :for (line eof) = (multiple-value-list (read-line input nil nil)) :while line :do (when prefix (princ prefix output)) (princ line output) (unless eof (terpri output)) (finish-output output) (when eof (return))) (loop :with buffer-size = (or buffer-size 8192) :with buffer = (make-array (list buffer-size) :element-type (or element-type 'character)) :for end = (read-sequence buffer input) :until (zerop end) :do (write-sequence buffer output :end end) (when (< end buffer-size) (return)))))) (defun concatenate-files (inputs output) "create a new OUTPUT file the contents of which a the concatenate of the INPUTS files." (with-open-file (o output :element-type '(unsigned-byte 8) :direction :output :if-exists :rename-and-delete) (dolist (input inputs) (with-open-file (i input :element-type '(unsigned-byte 8) :direction :input :if-does-not-exist :error) (copy-stream-to-stream i o :element-type '(unsigned-byte 8)))))) (defun copy-file (input output) "Copy contents of the INPUT file to the OUTPUT file" ;; Not available on LW personal edition or LW 6.0 on Mac: (lispworks:copy-file i f) #+allegro (excl.osi:copy-file input output) #+ecl (ext:copy-file input output) #-(or allegro ecl) (concatenate-files (list input) output)) (defun slurp-stream-string (input &key (element-type 'character) stripped) "Read the contents of the INPUT stream as a string" (let ((string (with-open-stream (input input) (with-output-to-string (output) (copy-stream-to-stream input output :element-type element-type))))) (if stripped (stripln string) string))) (defun slurp-stream-lines (input &key count) "Read the contents of the INPUT stream as a list of lines, return those lines. Note: relies on the Lisp's READ-LINE, but additionally removes any remaining CR from the line-ending if the file or stream had CR+LF but Lisp only removed LF. Read no more than COUNT lines." (check-type count (or null integer)) (with-open-stream (input input) (loop :for n :from 0 :for l = (and (or (not count) (< n count)) (read-line input nil nil)) ;; stripln: to remove CR when the OS sends CRLF and Lisp only remove LF :while l :collect (stripln l)))) (defun slurp-stream-line (input &key (at 0)) "Read the contents of the INPUT stream as a list of lines, then return the ACCESS-AT of that list of lines using the AT specifier. PATH defaults to 0, i.e. return the first line. PATH is typically an integer, or a list of an integer and a function. If PATH is NIL, it will return all the lines in the file. The stream will not be read beyond the Nth lines, where N is the index specified by path if path is either an integer or a list that starts with an integer." (access-at (slurp-stream-lines input :count (access-at-count at)) at)) (defun slurp-stream-forms (input &key count) "Read the contents of the INPUT stream as a list of forms, and return those forms. If COUNT is null, read to the end of the stream; if COUNT is an integer, stop after COUNT forms were read. BEWARE: be sure to use WITH-SAFE-IO-SYNTAX, or some variant thereof" (check-type count (or null integer)) (loop :with eof = '#:eof :for n :from 0 :for form = (if (and count (>= n count)) eof (read-preserving-whitespace input nil eof)) :until (eq form eof) :collect form)) (defun slurp-stream-form (input &key (at 0)) "Read the contents of the INPUT stream as a list of forms, then return the ACCESS-AT of these forms following the AT. AT defaults to 0, i.e. return the first form. AT is typically a list of integers. If AT is NIL, it will return all the forms in the file. The stream will not be read beyond the Nth form, where N is the index specified by path, if path is either an integer or a list that starts with an integer. BEWARE: be sure to use WITH-SAFE-IO-SYNTAX, or some variant thereof" (access-at (slurp-stream-forms input :count (access-at-count at)) at)) (defun read-file-string (file &rest keys) "Open FILE with option KEYS, read its contents as a string" (apply 'call-with-input-file file 'slurp-stream-string keys)) (defun read-file-lines (file &rest keys) "Open FILE with option KEYS, read its contents as a list of lines BEWARE: be sure to use WITH-SAFE-IO-SYNTAX, or some variant thereof" (apply 'call-with-input-file file 'slurp-stream-lines keys)) (defun read-file-line (file &rest keys &key (at 0) &allow-other-keys) "Open input FILE with option KEYS (except AT), and read its contents as per SLURP-STREAM-LINE with given AT specifier. BEWARE: be sure to use WITH-SAFE-IO-SYNTAX, or some variant thereof" (apply 'call-with-input-file file #'(lambda (input) (slurp-stream-line input :at at)) (remove-plist-key :at keys))) (defun read-file-forms (file &rest keys &key count &allow-other-keys) "Open input FILE with option KEYS (except COUNT), and read its contents as per SLURP-STREAM-FORMS with given COUNT. BEWARE: be sure to use WITH-SAFE-IO-SYNTAX, or some variant thereof" (apply 'call-with-input-file file #'(lambda (input) (slurp-stream-forms input :count count)) (remove-plist-key :count keys))) (defun read-file-form (file &rest keys &key (at 0) &allow-other-keys) "Open input FILE with option KEYS (except AT), and read its contents as per SLURP-STREAM-FORM with given AT specifier. BEWARE: be sure to use WITH-SAFE-IO-SYNTAX, or some variant thereof" (apply 'call-with-input-file file #'(lambda (input) (slurp-stream-form input :at at)) (remove-plist-key :at keys))) (defun safe-read-file-line (pathname &rest keys &key (package :cl) &allow-other-keys) "Reads the specified line from the top of a file using a safe standardized syntax. Extracts the line using READ-FILE-LINE, within an WITH-SAFE-IO-SYNTAX using the specified PACKAGE." (with-safe-io-syntax (:package package) (apply 'read-file-line pathname (remove-plist-key :package keys)))) (defun safe-read-file-form (pathname &rest keys &key (package :cl) &allow-other-keys) "Reads the specified form from the top of a file using a safe standardized syntax. Extracts the form using READ-FILE-FORM, within an WITH-SAFE-IO-SYNTAX using the specified PACKAGE." (with-safe-io-syntax (:package package) (apply 'read-file-form pathname (remove-plist-key :package keys)))) (defun eval-input (input) "Portably read and evaluate forms from INPUT, return the last values." (with-input (input) (loop :with results :with eof ='#:eof :for form = (read input nil eof) :until (eq form eof) :do (setf results (multiple-value-list (eval form))) :finally (return (values-list results))))) (defun eval-thunk (thunk) "Evaluate a THUNK of code: If a function, FUNCALL it without arguments. If a constant literal and not a sequence, return it. If a cons or a symbol, EVAL it. If a string, repeatedly read and evaluate from it, returning the last values." (etypecase thunk ((or boolean keyword number character pathname) thunk) ((or cons symbol) (eval thunk)) (function (funcall thunk)) (string (eval-input thunk)))) (defun standard-eval-thunk (thunk &key (package :cl)) "Like EVAL-THUNK, but in a more standardized evaluation context." ;; Note: it's "standard-" not "safe-", because evaluation is never safe. (when thunk (with-safe-io-syntax (:package package) (let ((*read-eval* t)) (eval-thunk thunk)))))) (with-upgradability () (defun println (x &optional (stream *standard-output*)) "Variant of PRINC that also calls TERPRI afterwards" (princ x stream) (terpri stream) (finish-output stream) (values)) (defun writeln (x &rest keys &key (stream *standard-output*) &allow-other-keys) "Variant of WRITE that also calls TERPRI afterwards" (apply 'write x keys) (terpri stream) (finish-output stream) (values))) ;;; Using temporary files (with-upgradability () (defun default-temporary-directory () "Return a default directory to use for temporary files" (os-cond ((os-unix-p) (or (getenv-pathname "TMPDIR" :ensure-directory t) (parse-native-namestring "/tmp/"))) ((os-windows-p) (getenv-pathname "TEMP" :ensure-directory t)) (t (subpathname (user-homedir-pathname) "tmp/")))) (defvar *temporary-directory* nil "User-configurable location for temporary files") (defun temporary-directory () "Return a directory to use for temporary files" (or *temporary-directory* (default-temporary-directory))) (defun setup-temporary-directory () "Configure a default temporary directory to use." (setf *temporary-directory* (default-temporary-directory)) #+gcl (setf system::*tmp-dir* *temporary-directory*)) (defun call-with-temporary-file (thunk &key (want-stream-p t) (want-pathname-p t) (direction :io) keep after directory (type "tmp" typep) prefix (suffix (when typep "-tmp")) (element-type *default-stream-element-type*) (external-format *utf-8-external-format*)) "Call a THUNK with stream and/or pathname arguments identifying a temporary file. The temporary file's pathname will be based on concatenating PREFIX (or \"tmp\" if it's NIL), a random alphanumeric string, and optional SUFFIX (defaults to \"-tmp\" if a type was provided) and TYPE (defaults to \"tmp\", using a dot as separator if not NIL), within DIRECTORY (defaulting to the TEMPORARY-DIRECTORY) if the PREFIX isn't absolute. The file will be open with specified DIRECTION (defaults to :IO), ELEMENT-TYPE (defaults to *DEFAULT-STREAM-ELEMENT-TYPE*) and EXTERNAL-FORMAT (defaults to *UTF-8-EXTERNAL-FORMAT*). If WANT-STREAM-P is true (the defaults to T), then THUNK will then be CALL-FUNCTION'ed with the stream and the pathname (if WANT-PATHNAME-P is true, defaults to T), and stream will be closed after the THUNK exits (either normally or abnormally). If WANT-STREAM-P is false, then WANT-PATHAME-P must be true, and then THUNK is only CALL-FUNCTION'ed after the stream is closed, with the pathname as argument. Upon exit of THUNK, the AFTER thunk if defined is CALL-FUNCTION'ed with the pathname as argument. If AFTER is defined, its results are returned, otherwise, the results of THUNK are returned. Finally, the file will be deleted, unless the KEEP argument when CALL-FUNCTION'ed returns true." #+xcl (declare (ignorable typep)) (check-type direction (member :output :io)) (assert (or want-stream-p want-pathname-p)) (loop :with prefix-pn = (ensure-absolute-pathname (or prefix "tmp") (or (ensure-pathname directory :namestring :native :ensure-directory t :ensure-physical t) #'temporary-directory)) :with prefix-nns = (native-namestring prefix-pn) :with results = (progn (ensure-directories-exist prefix-pn) ()) :for counter :from (random (expt 36 #-gcl 8 #+gcl 5)) :for pathname = (parse-native-namestring (format nil "~A~36R~@[~A~]~@[.~A~]" prefix-nns counter suffix (unless (eq type :unspecific) type))) :for okp = nil :do ;; TODO: on Unix, do something about umask ;; TODO: on Unix, audit the code so we make sure it uses O_CREAT|O_EXCL ;; TODO: on Unix, use CFFI and mkstemp -- ;; except UIOP is precisely meant to not depend on CFFI or on anything! Grrrr. ;; Can we at least design some hook? (unwind-protect (progn (ensure-directories-exist pathname) (with-open-file (stream pathname :direction direction :element-type element-type :external-format external-format :if-exists nil :if-does-not-exist :create) (when stream (setf okp pathname) (when want-stream-p ;; Note: can't return directly from within with-open-file ;; or the non-local return causes the file creation to be undone. (setf results (multiple-value-list (if want-pathname-p (funcall thunk stream pathname) (funcall thunk stream))))))) (cond ((not okp) nil) (after (return (call-function after okp))) ((and want-pathname-p (not want-stream-p)) (return (call-function thunk okp))) (t (return (values-list results))))) (when (and okp (not (call-function keep))) (ignore-errors (delete-file-if-exists okp)))))) (defmacro with-temporary-file ((&key (stream (gensym "STREAM") streamp) (pathname (gensym "PATHNAME") pathnamep) directory prefix suffix type keep direction element-type external-format) &body body) "Evaluate BODY where the symbols specified by keyword arguments STREAM and PATHNAME (if respectively specified) are bound corresponding to a newly created temporary file ready for I/O, as per CALL-WITH-TEMPORARY-FILE. At least one of STREAM or PATHNAME must be specified. If the STREAM is not specified, it will be closed before the BODY is evaluated. If STREAM is specified, then the :CLOSE-STREAM label if it appears in the BODY, separates forms run before and after the stream is closed. The values of the last form of the BODY (not counting the separating :CLOSE-STREAM) are returned. Upon success, the KEEP form is evaluated and the file is is deleted unless it evaluates to TRUE." (check-type stream symbol) (check-type pathname symbol) (assert (or streamp pathnamep)) (let* ((afterp (position :close-stream body)) (before (if afterp (subseq body 0 afterp) body)) (after (when afterp (subseq body (1+ afterp)))) (beforef (gensym "BEFORE")) (afterf (gensym "AFTER"))) `(flet (,@(when before `((,beforef (,@(when streamp `(,stream)) ,@(when pathnamep `(,pathname))) ,@(when after `((declare (ignorable ,pathname)))) ,@before))) ,@(when after (assert pathnamep) `((,afterf (,pathname) ,@after)))) #-gcl (declare (dynamic-extent ,@(when before `(#',beforef)) ,@(when after `(#',afterf)))) (call-with-temporary-file ,(when before `#',beforef) :want-stream-p ,streamp :want-pathname-p ,pathnamep ,@(when direction `(:direction ,direction)) ,@(when directory `(:directory ,directory)) ,@(when prefix `(:prefix ,prefix)) ,@(when suffix `(:suffix ,suffix)) ,@(when type `(:type ,type)) ,@(when keep `(:keep ,keep)) ,@(when after `(:after #',afterf)) ,@(when element-type `(:element-type ,element-type)) ,@(when external-format `(:external-format ,external-format)))))) (defun get-temporary-file (&key directory prefix suffix type) (with-temporary-file (:pathname pn :keep t :directory directory :prefix prefix :suffix suffix :type type) pn)) ;; Temporary pathnames in simple cases where no contention is assumed (defun add-pathname-suffix (pathname suffix &rest keys) "Add a SUFFIX to the name of a PATHNAME, return a new pathname. Further KEYS can be passed to MAKE-PATHNAME." (apply 'make-pathname :name (strcat (pathname-name pathname) suffix) :defaults pathname keys)) (defun tmpize-pathname (x) "Return a new pathname modified from X by adding a trivial random suffix. A new empty file with said temporary pathname is created, to ensure there is no clash with any concurrent process attempting the same thing." (let* ((px (ensure-pathname x :ensure-physical t)) (prefix (if-let (n (pathname-name px)) (strcat n "-tmp") "tmp")) (directory (pathname-directory-pathname px))) (get-temporary-file :directory directory :prefix prefix :type (pathname-type px)))) (defun call-with-staging-pathname (pathname fun) "Calls FUN with a staging pathname, and atomically renames the staging pathname to the PATHNAME in the end. NB: this protects only against failure of the program, not against concurrent attempts. For the latter case, we ought pick a random suffix and atomically open it." (let* ((pathname (pathname pathname)) (staging (tmpize-pathname pathname))) (unwind-protect (multiple-value-prog1 (funcall fun staging) (rename-file-overwriting-target staging pathname)) (delete-file-if-exists staging)))) (defmacro with-staging-pathname ((pathname-var &optional (pathname-value pathname-var)) &body body) "Trivial syntax wrapper for CALL-WITH-STAGING-PATHNAME" `(call-with-staging-pathname ,pathname-value #'(lambda (,pathname-var) ,@body)))) (with-upgradability () (defun file-stream-p (stream) (typep stream 'file-stream)) (defun file-or-synonym-stream-p (stream) (or (file-stream-p stream) (and (typep stream 'synonym-stream) (file-or-synonym-stream-p (symbol-value (synonym-stream-symbol stream))))))) ;;;; ------------------------------------------------------------------------- ;;;; Starting, Stopping, Dumping a Lisp image (uiop/package:define-package :uiop/image (:use :uiop/common-lisp :uiop/package :uiop/utility :uiop/pathname :uiop/stream :uiop/os) (:export #:*image-dumped-p* #:raw-command-line-arguments #:*command-line-arguments* #:command-line-arguments #:raw-command-line-arguments #:setup-command-line-arguments #:argv0 #:*lisp-interaction* #:fatal-condition #:fatal-condition-p #:handle-fatal-condition #:call-with-fatal-condition-handler #:with-fatal-condition-handler #:*image-restore-hook* #:*image-prelude* #:*image-entry-point* #:*image-postlude* #:*image-dump-hook* #:quit #:die #:raw-print-backtrace #:print-backtrace #:print-condition-backtrace #:shell-boolean-exit #:register-image-restore-hook #:register-image-dump-hook #:call-image-restore-hook #:call-image-dump-hook #:restore-image #:dump-image #:create-image )) (in-package :uiop/image) (with-upgradability () (defvar *lisp-interaction* t "Is this an interactive Lisp environment, or is it batch processing?") (defvar *command-line-arguments* nil "Command-line arguments") (defvar *image-dumped-p* nil ; may matter as to how to get to command-line-arguments "Is this a dumped image? As a standalone executable?") (defvar *image-restore-hook* nil "Functions to call (in reverse order) when the image is restored") (defvar *image-restored-p* nil "Has the image been restored? A boolean, or :in-progress while restoring, :in-regress while dumping") (defvar *image-prelude* nil "a form to evaluate, or string containing forms to read and evaluate when the image is restarted, but before the entry point is called.") (defvar *image-entry-point* nil "a function with which to restart the dumped image when execution is restored from it.") (defvar *image-postlude* nil "a form to evaluate, or string containing forms to read and evaluate before the image dump hooks are called and before the image is dumped.") (defvar *image-dump-hook* nil "Functions to call (in order) when before an image is dumped") (deftype fatal-condition () `(and serious-condition #+clozure (not ccl:process-reset)))) ;;; Exiting properly or im- (with-upgradability () (defun quit (&optional (code 0) (finish-output t)) "Quits from the Lisp world, with the given exit status if provided. This is designed to abstract away the implementation specific quit forms." (when finish-output ;; essential, for ClozureCL, and for standard compliance. (finish-outputs)) #+(or abcl xcl) (ext:quit :status code) #+allegro (excl:exit code :quiet t) #+(or clasp ecl) (si:quit code) #+clisp (ext:quit code) #+clozure (ccl:quit code) #+cormanlisp (win32:exitprocess code) #+(or cmucl scl) (unix:unix-exit code) #+gcl (system:quit code) #+genera (error "~S: You probably don't want to Halt Genera. (code: ~S)" 'quit code) #+lispworks (lispworks:quit :status code :confirm nil :return nil :ignore-errors-p t) #+mcl (progn code (ccl:quit)) ;; or should we use FFI to call libc's exit(3) ? #+mkcl (mk-ext:quit :exit-code code) #+sbcl #.(let ((exit (find-symbol* :exit :sb-ext nil)) (quit (find-symbol* :quit :sb-ext nil))) (cond (exit `(,exit :code code :abort (not finish-output))) (quit `(,quit :unix-status code :recklessly-p (not finish-output))))) #-(or abcl allegro clasp clisp clozure cmucl ecl gcl genera lispworks mcl mkcl sbcl scl xcl) (error "~S called with exit code ~S but there's no quitting on this implementation" 'quit code)) (defun die (code format &rest arguments) "Die in error with some error message" (with-safe-io-syntax () (ignore-errors (format! *stderr* "~&~?~&" format arguments))) (quit code)) (defun raw-print-backtrace (&key (stream *debug-io*) count condition) "Print a backtrace, directly accessing the implementation" (declare (ignorable stream count condition)) #+abcl (loop :for i :from 0 :for frame :in (sys:backtrace (or count most-positive-fixnum)) :do (safe-format! stream "~&~D: ~A~%" i frame)) #+allegro (let ((*terminal-io* stream) (*standard-output* stream) (tpl:*zoom-print-circle* *print-circle*) (tpl:*zoom-print-level* *print-level*) (tpl:*zoom-print-length* *print-length*)) (tpl:do-command "zoom" :from-read-eval-print-loop nil :count (or count t) :all t)) #+(or clasp ecl mkcl) (let* ((top (si:ihs-top)) (repeats (if count (min top count) top)) (backtrace (loop :for ihs :from 0 :below top :collect (list (si::ihs-fun ihs) (si::ihs-env ihs))))) (loop :for i :from 0 :below repeats :for frame :in (nreverse backtrace) :do (safe-format! stream "~&~D: ~S~%" i frame))) #+clisp (system::print-backtrace :out stream :limit count) #+(or clozure mcl) (let ((*debug-io* stream)) #+clozure (ccl:print-call-history :count count :start-frame-number 1) #+mcl (ccl:print-call-history :detailed-p nil) (finish-output stream)) #+(or cmucl scl) (let ((debug:*debug-print-level* *print-level*) (debug:*debug-print-length* *print-length*)) (debug:backtrace (or count most-positive-fixnum) stream)) #+gcl (let ((*debug-io* stream)) (ignore-errors (with-safe-io-syntax () (if condition (conditions::condition-backtrace condition) (system::simple-backtrace))))) #+lispworks (let ((dbg::*debugger-stack* (dbg::grab-stack nil :how-many (or count most-positive-fixnum))) (*debug-io* stream) (dbg:*debug-print-level* *print-level*) (dbg:*debug-print-length* *print-length*)) (dbg:bug-backtrace nil)) #+sbcl (sb-debug:print-backtrace :stream stream :count (or count most-positive-fixnum)) #+xcl (loop :for i :from 0 :below (or count most-positive-fixnum) :for frame :in (extensions:backtrace-as-list) :do (safe-format! stream "~&~D: ~S~%" i frame))) (defun print-backtrace (&rest keys &key stream count condition) "Print a backtrace" (declare (ignore stream count condition)) (with-safe-io-syntax (:package :cl) (let ((*print-readably* nil) (*print-circle* t) (*print-miser-width* 75) (*print-length* nil) (*print-level* nil) (*print-pretty* t)) (ignore-errors (apply 'raw-print-backtrace keys))))) (defun print-condition-backtrace (condition &key (stream *stderr*) count) "Print a condition after a backtrace triggered by that condition" ;; We print the condition *after* the backtrace, ;; for the sake of who sees the backtrace at a terminal. ;; It is up to the caller to print the condition *before*, with some context. (print-backtrace :stream stream :count count :condition condition) (when condition (safe-format! stream "~&Above backtrace due to this condition:~%~A~&" condition))) (defun fatal-condition-p (condition) "Is the CONDITION fatal?" (typep condition 'fatal-condition)) (defun handle-fatal-condition (condition) "Handle a fatal CONDITION: depending on whether *LISP-INTERACTION* is set, enter debugger or die" (cond (*lisp-interaction* (invoke-debugger condition)) (t (safe-format! *stderr* "~&Fatal condition:~%~A~%" condition) (print-condition-backtrace condition :stream *stderr*) (die 99 "~A" condition)))) (defun call-with-fatal-condition-handler (thunk) "Call THUNK in a context where fatal conditions are appropriately handled" (handler-bind ((fatal-condition #'handle-fatal-condition)) (funcall thunk))) (defmacro with-fatal-condition-handler ((&optional) &body body) "Execute BODY in a context where fatal conditions are appropriately handled" `(call-with-fatal-condition-handler #'(lambda () ,@body))) (defun shell-boolean-exit (x) "Quit with a return code that is 0 iff argument X is true" (quit (if x 0 1)))) ;;; Using image hooks (with-upgradability () (defun register-image-restore-hook (hook &optional (call-now-p t)) "Regiter a hook function to be run when restoring a dumped image" (register-hook-function '*image-restore-hook* hook call-now-p)) (defun register-image-dump-hook (hook &optional (call-now-p nil)) "Register a the hook function to be run before to dump an image" (register-hook-function '*image-dump-hook* hook call-now-p)) (defun call-image-restore-hook () "Call the hook functions registered to be run when restoring a dumped image" (call-functions (reverse *image-restore-hook*))) (defun call-image-dump-hook () "Call the hook functions registered to be run before to dump an image" (call-functions *image-dump-hook*))) ;;; Proper command-line arguments (with-upgradability () (defun raw-command-line-arguments () "Find what the actual command line for this process was." #+abcl ext:*command-line-argument-list* ; Use 1.0.0 or later! #+allegro (sys:command-line-arguments) ; default: :application t #+(or clasp ecl) (loop :for i :from 0 :below (si:argc) :collect (si:argv i)) #+clisp (coerce (ext:argv) 'list) #+clozure ccl:*command-line-argument-list* #+(or cmucl scl) extensions:*command-line-strings* #+gcl si:*command-args* #+(or genera mcl) nil #+lispworks sys:*line-arguments-list* #+mkcl (loop :for i :from 0 :below (mkcl:argc) :collect (mkcl:argv i)) #+sbcl sb-ext:*posix-argv* #+xcl system:*argv* #-(or abcl allegro clasp clisp clozure cmucl ecl gcl genera lispworks mcl mkcl sbcl scl xcl) (not-implemented-error 'raw-command-line-arguments)) (defun command-line-arguments (&optional (arguments (raw-command-line-arguments))) "Extract user arguments from command-line invocation of current process. Assume the calling conventions of a generated script that uses -- if we are not called from a directly executable image." (block nil #+abcl (return arguments) ;; SBCL and Allegro already separate user arguments from implementation arguments. #-(or sbcl allegro) (unless (eq *image-dumped-p* :executable) ;; LispWorks command-line processing isn't transparent to the user ;; unless you create a standalone executable; in that case, ;; we rely on cl-launch or some other script to set the arguments for us. #+lispworks (return *command-line-arguments*) ;; On other implementations, on non-standalone executables, ;; we trust cl-launch or whichever script starts the program ;; to use -- as a delimiter between implementation arguments and user arguments. #-lispworks (setf arguments (member "--" arguments :test 'string-equal))) (rest arguments))) (defun argv0 () "On supported implementations (most that matter), or when invoked by a proper wrapper script, return a string that for the name with which the program was invoked, i.e. argv[0] in C. Otherwise, return NIL." (cond ((eq *image-dumped-p* :executable) ; yes, this ARGV0 is our argv0 ! ;; NB: not currently available on ABCL, Corman, Genera, MCL (or #+(or allegro clisp clozure cmucl gcl lispworks sbcl scl xcl) (first (raw-command-line-arguments)) #+(or clasp ecl) (si:argv 0) #+mkcl (mkcl:argv 0))) (t ;; argv[0] is the name of the interpreter. ;; The wrapper script can export __CL_ARGV0. cl-launch does as of 4.0.1.8. (getenvp "__CL_ARGV0")))) (defun setup-command-line-arguments () (setf *command-line-arguments* (command-line-arguments))) (defun restore-image (&key (lisp-interaction *lisp-interaction*) (restore-hook *image-restore-hook*) (prelude *image-prelude*) (entry-point *image-entry-point*) (if-already-restored '(cerror "RUN RESTORE-IMAGE ANYWAY"))) "From a freshly restarted Lisp image, restore the saved Lisp environment by setting appropriate variables, running various hooks, and calling any specified entry point. If the image has already been restored or is already being restored, as per *IMAGE-RESTORED-P*, call the IF-ALREADY-RESTORED error handler (by default, a continuable error), and do return immediately to the surrounding restore process if allowed to continue. Then, comes the restore process itself: First, call each function in the RESTORE-HOOK, in the order they were registered with REGISTER-IMAGE-RESTORE-HOOK. Second, evaluate the prelude, which is often Lisp text that is read, as per EVAL-INPUT. Third, call the ENTRY-POINT function, if any is specified, with no argument. The restore process happens in a WITH-FATAL-CONDITION-HANDLER, so that if LISP-INTERACTION is NIL, any unhandled error leads to a backtrace and an exit with an error status. If LISP-INTERACTION is NIL, the process also exits when no error occurs: if neither restart nor entry function is provided, the program will exit with status 0 (success); if a function was provided, the program will exit after the function returns (if it returns), with status 0 if and only if the primary return value of result is generalized boolean true, and with status 1 if this value is NIL. If LISP-INTERACTION is true, unhandled errors will take you to the debugger, and the result of the function will be returned rather than interpreted as a boolean designating an exit code." (when *image-restored-p* (if if-already-restored (call-function if-already-restored "Image already ~:[being ~;~]restored" (eq *image-restored-p* t)) (return-from restore-image))) (with-fatal-condition-handler () (setf *lisp-interaction* lisp-interaction) (setf *image-restore-hook* restore-hook) (setf *image-prelude* prelude) (setf *image-restored-p* :in-progress) (call-image-restore-hook) (standard-eval-thunk prelude) (setf *image-restored-p* t) (let ((results (multiple-value-list (if entry-point (call-function entry-point) t)))) (if lisp-interaction (values-list results) (shell-boolean-exit (first results))))))) ;;; Dumping an image (with-upgradability () (defun dump-image (filename &key output-name executable (postlude *image-postlude*) (dump-hook *image-dump-hook*) #+clozure prepend-symbols #+clozure (purify t) #+sbcl compression #+(and sbcl os-windows) application-type) "Dump an image of the current Lisp environment at pathname FILENAME, with various options. First, finalize the image, by evaluating the POSTLUDE as per EVAL-INPUT, then calling each of the functions in DUMP-HOOK, in reverse order of registration by REGISTER-DUMP-HOOK. If EXECUTABLE is true, create an standalone executable program that calls RESTORE-IMAGE on startup. Pass various implementation-defined options, such as PREPEND-SYMBOLS and PURITY on CCL, or COMPRESSION on SBCL, and APPLICATION-TYPE on SBCL/Windows." ;; Note: at least SBCL saves only global values of variables in the heap image, ;; so make sure things you want to dump are NOT just local bindings shadowing the global values. (declare (ignorable filename output-name executable)) (setf *image-dumped-p* (if executable :executable t)) (setf *image-restored-p* :in-regress) (setf *image-postlude* postlude) (standard-eval-thunk *image-postlude*) (setf *image-dump-hook* dump-hook) (call-image-dump-hook) (setf *image-restored-p* nil) #-(or clisp clozure (and cmucl executable) lispworks sbcl scl) (when executable (error "Dumping an executable is not supported on this implementation! Aborting.")) #+allegro (progn (sys:resize-areas :global-gc t :pack-heap t :sift-old-areas t :tenure t) ; :new 5000000 (excl:dumplisp :name filename :suppress-allegro-cl-banner t)) #+clisp (apply #'ext:saveinitmem filename :quiet t :start-package *package* :keep-global-handlers nil :executable (if executable 0 t) ;--- requires clisp 2.48 or later, still catches --clisp-x (when executable (list ;; :parse-options nil ;--- requires a non-standard patch to clisp. :norc t :script nil :init-function #'restore-image))) #+clozure (flet ((dump (prepend-kernel) (ccl:save-application filename :prepend-kernel prepend-kernel :purify purify :toplevel-function (when executable #'restore-image)))) ;;(setf ccl::*application* (make-instance 'ccl::lisp-development-system)) (if prepend-symbols (with-temporary-file (:prefix "ccl-symbols-" :direction :output :pathname path) (require 'elf) (funcall (fdefinition 'ccl::write-elf-symbols-to-file) path) (dump path)) (dump t))) #+(or cmucl scl) (progn (ext:gc :full t) (setf ext:*batch-mode* nil) (setf ext::*gc-run-time* 0) (apply 'ext:save-lisp filename :allow-other-keys t ;; hush SCL and old versions of CMUCL #+(and cmucl executable) :executable #+(and cmucl executable) t (when executable '(:init-function restore-image :process-command-line nil :quiet t :load-init-file nil :site-init nil)))) #+gcl (progn (si::set-hole-size 500) (si::gbc nil) (si::sgc-on t) (si::save-system filename)) #+lispworks (if executable (lispworks:deliver 'restore-image filename 0 :interface nil) (hcl:save-image filename :environment nil)) #+sbcl (progn ;;(sb-pcl::precompile-random-code-segments) ;--- it is ugly slow at compile-time (!) when the initial core is a big CLOS program. If you want it, do it yourself (setf sb-ext::*gc-run-time* 0) (apply 'sb-ext:save-lisp-and-die filename :executable t ;--- always include the runtime that goes with the core (append (when compression (list :compression compression)) ;;--- only save runtime-options for standalone executables (when executable (list :toplevel #'restore-image :save-runtime-options t)) #+(and sbcl os-windows) ;; passing :application-type :gui will disable the console window. ;; the default is :console - only works with SBCL 1.1.15 or later. (when application-type (list :application-type application-type))))) #-(or allegro clisp clozure cmucl gcl lispworks sbcl scl) (error "Can't ~S ~S: UIOP doesn't support image dumping with ~A.~%" 'dump-image filename (nth-value 1 (implementation-type)))) (defun create-image (destination lisp-object-files &key kind output-name prologue-code epilogue-code extra-object-files (prelude () preludep) (postlude () postludep) (entry-point () entry-point-p) build-args no-uiop) (declare (ignorable destination lisp-object-files extra-object-files kind output-name prologue-code epilogue-code prelude preludep postlude postludep entry-point entry-point-p build-args no-uiop)) "On ECL, create an executable at pathname DESTINATION from the specified OBJECT-FILES and options" ;; Is it meaningful to run these in the current environment? ;; only if we also track the object files that constitute the "current" image, ;; and otherwise simulate dump-image, including quitting at the end. #-(or clasp ecl mkcl) (not-implemented-error 'create-image) #+(or clasp ecl mkcl) (let ((epilogue-code (if no-uiop epilogue-code (let ((forms (append (when epilogue-code `(,epilogue-code)) (when postludep `((setf *image-postlude* ',postlude))) (when preludep `((setf *image-prelude* ',prelude))) (when entry-point-p `((setf *image-entry-point* ',entry-point))) (case kind ((:image) (setf kind :program) ;; to ECL, it's just another program. `((setf *image-dumped-p* t) (si::top-level #+(or clasp ecl) t) (quit))) ((:program) `((setf *image-dumped-p* :executable) (shell-boolean-exit (restore-image)))))))) (when forms `(progn ,@forms)))))) #+(or clasp ecl) (check-type kind (member :dll :lib :static-library :program :object :fasl)) (apply #+clasp 'cmp:builder #+clasp kind #+(and ecl (not clasp)) 'c::builder #+(and ecl (not clasp)) kind #+mkcl (ecase kind ((:dll) 'compiler::build-shared-library) ((:lib :static-library) 'compiler::build-static-library) ((:fasl) 'compiler::build-bundle) ((:program) 'compiler::build-program)) (pathname destination) #+(or clasp ecl) :lisp-files #+mkcl :lisp-object-files (append lisp-object-files #+(or clasp ecl) extra-object-files) #+(or clasp ecl) :init-name #+(or clasp ecl) (c::compute-init-name (or output-name destination) :kind kind) (append (when prologue-code `(:prologue-code ,prologue-code)) (when epilogue-code `(:epilogue-code ,epilogue-code)) #+mkcl (when extra-object-files `(:object-files ,extra-object-files)) build-args))))) ;;; Some universal image restore hooks (with-upgradability () (map () 'register-image-restore-hook '(setup-stdin setup-stdout setup-stderr setup-command-line-arguments setup-temporary-directory #+abcl detect-os))) ;;;; ------------------------------------------------------------------------- ;;;; run-program initially from xcvb-driver. (uiop/package:define-package :uiop/run-program (:nicknames :asdf/run-program) ; OBSOLETE. Used by cl-sane, printv. (:use :uiop/common-lisp :uiop/package :uiop/utility :uiop/pathname :uiop/os :uiop/filesystem :uiop/stream) (:export ;;; Escaping the command invocation madness #:easy-sh-character-p #:escape-sh-token #:escape-sh-command #:escape-windows-token #:escape-windows-command #:escape-token #:escape-command ;;; run-program #:slurp-input-stream #:vomit-output-stream #:close-streams #:launch-program #:process-alive-p #:run-program #:terminate-process #:wait-process #:process-info-error-output #:process-info-input #:process-info-output #:process-info-pid #:subprocess-error #:subprocess-error-code #:subprocess-error-command #:subprocess-error-process )) (in-package :uiop/run-program) ;;;; ----- Escaping strings for the shell ----- (with-upgradability () (defun requires-escaping-p (token &key good-chars bad-chars) "Does this token require escaping, given the specification of either good chars that don't need escaping or bad chars that do need escaping, as either a recognizing function or a sequence of characters." (some (cond ((and good-chars bad-chars) (error "only one of good-chars and bad-chars can be provided")) ((typep good-chars 'function) (complement good-chars)) ((typep bad-chars 'function) bad-chars) ((and good-chars (typep good-chars 'sequence)) #'(lambda (c) (not (find c good-chars)))) ((and bad-chars (typep bad-chars 'sequence)) #'(lambda (c) (find c bad-chars))) (t (error "requires-escaping-p: no good-char criterion"))) token)) (defun escape-token (token &key stream quote good-chars bad-chars escaper) "Call the ESCAPER function on TOKEN string if it needs escaping as per REQUIRES-ESCAPING-P using GOOD-CHARS and BAD-CHARS, otherwise output TOKEN, using STREAM as output (or returning result as a string if NIL)" (if (requires-escaping-p token :good-chars good-chars :bad-chars bad-chars) (with-output (stream) (apply escaper token stream (when quote `(:quote ,quote)))) (output-string token stream))) (defun escape-windows-token-within-double-quotes (x &optional s) "Escape a string token X within double-quotes for use within a MS Windows command-line, outputing to S." (labels ((issue (c) (princ c s)) (issue-backslash (n) (loop :repeat n :do (issue #\\)))) (loop :initially (issue #\") :finally (issue #\") :with l = (length x) :with i = 0 :for i+1 = (1+ i) :while (< i l) :do (case (char x i) ((#\") (issue-backslash 1) (issue #\") (setf i i+1)) ((#\\) (let* ((j (and (< i+1 l) (position-if-not #'(lambda (c) (eql c #\\)) x :start i+1))) (n (- (or j l) i))) (cond ((null j) (issue-backslash (* 2 n)) (setf i l)) ((and (< j l) (eql (char x j) #\")) (issue-backslash (1+ (* 2 n))) (issue #\") (setf i (1+ j))) (t (issue-backslash n) (setf i j))))) (otherwise (issue (char x i)) (setf i i+1)))))) (defun easy-windows-character-p (x) "Is X an \"easy\" character that does not require quoting by the shell?" (or (alphanumericp x) (find x "+-_.,@:/="))) (defun escape-windows-token (token &optional s) "Escape a string TOKEN within double-quotes if needed for use within a MS Windows command-line, outputing to S." (escape-token token :stream s :good-chars #'easy-windows-character-p :quote nil :escaper 'escape-windows-token-within-double-quotes)) (defun escape-sh-token-within-double-quotes (x s &key (quote t)) "Escape a string TOKEN within double-quotes for use within a POSIX Bourne shell, outputing to S; omit the outer double-quotes if key argument :QUOTE is NIL" (when quote (princ #\" s)) (loop :for c :across x :do (when (find c "$`\\\"") (princ #\\ s)) (princ c s)) (when quote (princ #\" s))) (defun easy-sh-character-p (x) "Is X an \"easy\" character that does not require quoting by the shell?" (or (alphanumericp x) (find x "+-_.,%@:/="))) (defun escape-sh-token (token &optional s) "Escape a string TOKEN within double-quotes if needed for use within a POSIX Bourne shell, outputing to S." (escape-token token :stream s :quote #\" :good-chars #'easy-sh-character-p :escaper 'escape-sh-token-within-double-quotes)) (defun escape-shell-token (token &optional s) "Escape a token for the current operating system shell" (os-cond ((os-unix-p) (escape-sh-token token s)) ((os-windows-p) (escape-windows-token token s)))) (defun escape-command (command &optional s (escaper 'escape-shell-token)) "Given a COMMAND as a list of tokens, return a string of the spaced, escaped tokens, using ESCAPER to escape." (etypecase command (string (output-string command s)) (list (with-output (s) (loop :for first = t :then nil :for token :in command :do (unless first (princ #\space s)) (funcall escaper token s)))))) (defun escape-windows-command (command &optional s) "Escape a list of command-line arguments into a string suitable for parsing by CommandLineToArgv in MS Windows" ;; http://msdn.microsoft.com/en-us/library/bb776391(v=vs.85).aspx ;; http://msdn.microsoft.com/en-us/library/17w5ykft(v=vs.85).aspx (escape-command command s 'escape-windows-token)) (defun escape-sh-command (command &optional s) "Escape a list of command-line arguments into a string suitable for parsing by /bin/sh in POSIX" (escape-command command s 'escape-sh-token)) (defun escape-shell-command (command &optional stream) "Escape a command for the current operating system's shell" (escape-command command stream 'escape-shell-token))) ;;;; Slurping a stream, typically the output of another program (with-upgradability () (defun call-stream-processor (fun processor stream) "Given FUN (typically SLURP-INPUT-STREAM or VOMIT-OUTPUT-STREAM, a PROCESSOR specification which is either an atom or a list specifying a processor an keyword arguments, call the specified processor with the given STREAM as input" (if (consp processor) (apply fun (first processor) stream (rest processor)) (funcall fun processor stream))) (defgeneric slurp-input-stream (processor input-stream &key) (:documentation "SLURP-INPUT-STREAM is a generic function with two positional arguments PROCESSOR and INPUT-STREAM and additional keyword arguments, that consumes (slurps) the contents of the INPUT-STREAM and processes them according to a method specified by PROCESSOR. Built-in methods include the following: * if PROCESSOR is a function, it is called with the INPUT-STREAM as its argument * if PROCESSOR is a list, its first element should be a function. It will be applied to a cons of the INPUT-STREAM and the rest of the list. That is (x . y) will be treated as \(APPLY x y\) * if PROCESSOR is an output-stream, the contents of INPUT-STREAM is copied to the output-stream, per copy-stream-to-stream, with appropriate keyword arguments. * if PROCESSOR is the symbol CL:STRING or the keyword :STRING, then the contents of INPUT-STREAM are returned as a string, as per SLURP-STREAM-STRING. * if PROCESSOR is the keyword :LINES then the INPUT-STREAM will be handled by SLURP-STREAM-LINES. * if PROCESSOR is the keyword :LINE then the INPUT-STREAM will be handled by SLURP-STREAM-LINE. * if PROCESSOR is the keyword :FORMS then the INPUT-STREAM will be handled by SLURP-STREAM-FORMS. * if PROCESSOR is the keyword :FORM then the INPUT-STREAM will be handled by SLURP-STREAM-FORM. * if PROCESSOR is T, it is treated the same as *standard-output*. If it is NIL, NIL is returned. Programmers are encouraged to define their own methods for this generic function.")) #-genera (defmethod slurp-input-stream ((function function) input-stream &key) (funcall function input-stream)) (defmethod slurp-input-stream ((list cons) input-stream &key) (apply (first list) input-stream (rest list))) #-genera (defmethod slurp-input-stream ((output-stream stream) input-stream &key linewise prefix (element-type 'character) buffer-size) (copy-stream-to-stream input-stream output-stream :linewise linewise :prefix prefix :element-type element-type :buffer-size buffer-size)) (defmethod slurp-input-stream ((x (eql 'string)) stream &key stripped) (slurp-stream-string stream :stripped stripped)) (defmethod slurp-input-stream ((x (eql :string)) stream &key stripped) (slurp-stream-string stream :stripped stripped)) (defmethod slurp-input-stream ((x (eql :lines)) stream &key count) (slurp-stream-lines stream :count count)) (defmethod slurp-input-stream ((x (eql :line)) stream &key (at 0)) (slurp-stream-line stream :at at)) (defmethod slurp-input-stream ((x (eql :forms)) stream &key count) (slurp-stream-forms stream :count count)) (defmethod slurp-input-stream ((x (eql :form)) stream &key (at 0)) (slurp-stream-form stream :at at)) (defmethod slurp-input-stream ((x (eql t)) stream &rest keys &key &allow-other-keys) (apply 'slurp-input-stream *standard-output* stream keys)) (defmethod slurp-input-stream ((x null) (stream t) &key) nil) (defmethod slurp-input-stream ((pathname pathname) input &key (element-type *default-stream-element-type*) (external-format *utf-8-external-format*) (if-exists :rename-and-delete) (if-does-not-exist :create) buffer-size linewise) (with-output-file (output pathname :element-type element-type :external-format external-format :if-exists if-exists :if-does-not-exist if-does-not-exist) (copy-stream-to-stream input output :element-type element-type :buffer-size buffer-size :linewise linewise))) (defmethod slurp-input-stream (x stream &key linewise prefix (element-type 'character) buffer-size) (declare (ignorable stream linewise prefix element-type buffer-size)) (cond #+genera ((functionp x) (funcall x stream)) #+genera ((output-stream-p x) (copy-stream-to-stream stream x :linewise linewise :prefix prefix :element-type element-type :buffer-size buffer-size)) (t (error "Invalid ~S destination ~S" 'slurp-input-stream x))))) (with-upgradability () (defgeneric vomit-output-stream (processor output-stream &key) (:documentation "VOMIT-OUTPUT-STREAM is a generic function with two positional arguments PROCESSOR and OUTPUT-STREAM and additional keyword arguments, that produces (vomits) some content onto the OUTPUT-STREAM, according to a method specified by PROCESSOR. Built-in methods include the following: * if PROCESSOR is a function, it is called with the OUTPUT-STREAM as its argument * if PROCESSOR is a list, its first element should be a function. It will be applied to a cons of the OUTPUT-STREAM and the rest of the list. That is (x . y) will be treated as \(APPLY x y\) * if PROCESSOR is an input-stream, its contents will be copied the OUTPUT-STREAM, per copy-stream-to-stream, with appropriate keyword arguments. * if PROCESSOR is a string, its contents will be printed to the OUTPUT-STREAM. * if PROCESSOR is T, it is treated the same as *standard-input*. If it is NIL, nothing is done. Programmers are encouraged to define their own methods for this generic function.")) #-genera (defmethod vomit-output-stream ((function function) output-stream &key) (funcall function output-stream)) (defmethod vomit-output-stream ((list cons) output-stream &key) (apply (first list) output-stream (rest list))) #-genera (defmethod vomit-output-stream ((input-stream stream) output-stream &key linewise prefix (element-type 'character) buffer-size) (copy-stream-to-stream input-stream output-stream :linewise linewise :prefix prefix :element-type element-type :buffer-size buffer-size)) (defmethod vomit-output-stream ((x string) stream &key fresh-line terpri) (princ x stream) (when fresh-line (fresh-line stream)) (when terpri (terpri stream)) (values)) (defmethod vomit-output-stream ((x (eql t)) stream &rest keys &key &allow-other-keys) (apply 'vomit-output-stream *standard-input* stream keys)) (defmethod vomit-output-stream ((x null) (stream t) &key) (values)) (defmethod vomit-output-stream ((pathname pathname) input &key (element-type *default-stream-element-type*) (external-format *utf-8-external-format*) (if-exists :rename-and-delete) (if-does-not-exist :create) buffer-size linewise) (with-output-file (output pathname :element-type element-type :external-format external-format :if-exists if-exists :if-does-not-exist if-does-not-exist) (copy-stream-to-stream input output :element-type element-type :buffer-size buffer-size :linewise linewise))) (defmethod vomit-output-stream (x stream &key linewise prefix (element-type 'character) buffer-size) (declare (ignorable stream linewise prefix element-type buffer-size)) (cond #+genera ((functionp x) (funcall x stream)) #+genera ((input-stream-p x) (copy-stream-to-stream x stream :linewise linewise :prefix prefix :element-type element-type :buffer-size buffer-size)) (t (error "Invalid ~S source ~S" 'vomit-output-stream x))))) ;;;; ----- Running an external program ----- ;;; Simple variant of run-program with no input, and capturing output ;;; On some implementations, may output to a temporary file... (with-upgradability () (define-condition subprocess-error (error) ((code :initform nil :initarg :code :reader subprocess-error-code) (command :initform nil :initarg :command :reader subprocess-error-command) (process :initform nil :initarg :process :reader subprocess-error-process)) (:report (lambda (condition stream) (format stream "Subprocess ~@[~S~% ~]~@[with command ~S~% ~]exited with error~@[ code ~D~]" (subprocess-error-process condition) (subprocess-error-command condition) (subprocess-error-code condition))))) ;;; find CMD.exe on windows (defun %cmd-shell-pathname () (os-cond ((os-windows-p) (strcat (native-namestring (getenv-absolute-directory "WINDIR")) "System32\\cmd.exe")) (t (error "CMD.EXE is not the command shell for this OS.")))) ;;; Internal helpers for run-program (defun %normalize-command (command) "Given a COMMAND as a list or string, transform it in a format suitable for the implementation's underlying run-program function" (etypecase command #+os-unix (string `("/bin/sh" "-c" ,command)) #+os-unix (list command) #+os-windows (string ;; NB: We do NOT add cmd /c here. You might want to. #+(or allegro clisp) command ;; On ClozureCL for Windows, we assume you are using ;; r15398 or later in 1.9 or later, ;; so that bug 858 is fixed http://trac.clozure.com/ccl/ticket/858 #+clozure (cons "cmd" (strcat "/c " command)) #+mkcl (list "cmd" "/c" command) #+sbcl (list (%cmd-shell-pathname) "/c" command) ;; NB: On other Windows implementations, this is utterly bogus ;; except in the most trivial cases where no quoting is needed. ;; Use at your own risk. #-(or allegro clisp clozure mkcl sbcl) (list "cmd" "/c" command)) #+os-windows (list #+allegro (escape-windows-command command) #-allegro command))) (defun %active-io-specifier-p (specifier) "Determines whether a run-program I/O specifier requires Lisp-side processing via SLURP-INPUT-STREAM or VOMIT-OUTPUT-STREAM (return T), or whether it's already taken care of by the implementation's underlying run-program." (not (typep specifier '(or null string pathname (member :interactive :output) #+(or cmucl (and sbcl os-unix) scl) (or stream (eql t)) #+lispworks file-stream)))) (defun %normalize-io-specifier (specifier &optional role) "Normalizes a portable I/O specifier for %RUN-PROGRAM into an implementation-dependent argument to pass to the internal RUN-PROGRAM" (declare (ignorable role)) (etypecase specifier (null (or #+(or allegro lispworks) (null-device-pathname))) (string (parse-native-namestring specifier)) (pathname specifier) (stream specifier) ((eql :stream) :stream) ((eql :interactive) #+allegro nil #+clisp :terminal #+(or clozure cmucl ecl mkcl sbcl scl) t) #+(or abcl allegro clozure cmucl ecl lispworks mkcl sbcl scl) ((eql :output) (if (eq role :error-output) :output (error "Wrong specifier ~S for role ~S" specifier role))))) (defun %normalize-if-exists (action) (ecase action (:supersede #+clisp :overwrite #-clisp action) ((:append :error) action))) (defun %interactivep (input output error-output) (member :interactive (list input output error-output))) (defun %signal-to-exit-code (signum) (+ 128 signum)) #+mkcl (defun %mkcl-signal-to-number (signal) (require :mk-unix) (symbol-value (find-symbol signal :mk-unix))) (defclass process-info () ((process :initform nil) (input-stream :initform nil) (output-stream :initform nil) (bidir-stream :initform nil) (error-output-stream :initform nil) ;; For backward-compatibility, to maintain the property (zerop ;; exit-code) <-> success, an exit in response to a signal is ;; encoded as 128+signum. (exit-code :initform nil) ;; If the platform allows it, distinguish exiting with a code ;; >128 from exiting in response to a signal by setting this code (signal-code :initform nil))) (defun %run-program (command &rest keys &key input (if-input-does-not-exist :error) output (if-output-exists :supersede) error-output (if-error-output-exists :supersede) directory wait #+allegro separate-streams &allow-other-keys) "A portable abstraction of a low-level call to the implementation's run-program or equivalent. It spawns a subprocess that runs the specified COMMAND (a list of program and arguments). INPUT, OUTPUT and ERROR-OUTPUT specify a portable IO specifer, to be normalized by %NORMALIZE-IO-SPECIFIER. It returns a process-info object." ;; NB: these implementations have Unix vs Windows set at compile-time. (declare (ignorable directory if-input-does-not-exist if-output-exists if-error-output-exists)) #-(or abcl allegro clisp clozure cmucl ecl (and lispworks os-unix) mkcl sbcl scl) (progn command keys input output error-output directory wait ;; ignore (not-implemented-error '%run-program)) #-(or abcl cmucl ecl mkcl sbcl) (when (and wait (member :stream (list input output error-output))) (parameter-error "~S: I/O parameters cannot be ~S when ~S is ~S on this lisp" '%run-program :stream :wait t)) #+allegro (when (some #'(lambda (stream) (and (streamp stream) (not (file-stream-p stream)))) (list input output error-output)) (parameter-error "~S: Streams passed as I/O parameters need to be file streams on this lisp" '%run-program)) #+(or abcl clisp lispworks) (when (some #'streamp (list input output error-output)) (parameter-error "~S: I/O parameters cannot be foreign streams on this lisp" '%run-program)) #+clisp (unless (eq error-output :interactive) (parameter-error "~S: The only admissible value for ~S is ~S on this lisp" '%run-program :error-output :interactive)) #+clisp (when (or (stringp input) (pathnamep input)) (unless (file-exists-p input) (parameter-error "~S: Files passed as arguments to ~S need to exist on this lisp" '%run-program :input))) #+ecl (when (some #'(lambda (stream) (and (streamp stream) (not (file-or-synonym-stream-p stream)))) (list input output error-output)) (parameter-error "~S: Streams passed as I/O parameters need to be (synonymous with) file streams on this lisp" '%run-program)) #+(or abcl allegro clisp clozure cmucl ecl (and lispworks os-unix) mkcl sbcl scl) (let* ((%command (%normalize-command command)) (%if-output-exists (%normalize-if-exists if-output-exists)) (%input (%normalize-io-specifier input :input)) (%output (%normalize-io-specifier output :output)) (%error-output (%normalize-io-specifier error-output :error-output)) #+(and allegro os-windows) (interactive (%interactivep input output error-output)) (process* (nest #-(or allegro mkcl sbcl) (with-current-directory (directory)) #+(or allegro clisp ecl lispworks mkcl) (multiple-value-list) (apply #+abcl #'sys:run-program #+allegro 'excl:run-shell-command #+(and allegro os-unix) (coerce (cons (first %command) %command) 'vector) #+(and allegro os-windows) %command #+clisp (etypecase %command #+os-windows (string (lambda (&rest keys) (apply 'ext:run-shell-command %command keys))) (list (lambda (&rest keys) (apply 'ext:run-program (car %command) :arguments (cdr %command) keys)))) #+clozure 'ccl:run-program #+(or cmucl ecl scl) 'ext:run-program #+lispworks 'system:run-shell-command #+lispworks (cons "/usr/bin/env" %command) ; LW wants a full path #+mkcl 'mk-ext:run-program #+sbcl 'sb-ext:run-program (append #+(or abcl clozure cmucl ecl mkcl sbcl scl) `(,(car %command) ,(cdr %command)) `(:input ,%input :output ,%output :wait ,wait :allow-other-keys t) #-clisp `(#+(or allegro lispworks) :error-output #-(or allegro lispworks) :error ,%error-output) #+(and allegro os-windows) `(:show-window ,(if interactive nil :hide)) #+clisp `(:if-output-exists ,%if-output-exists) #+(or abcl allegro clozure cmucl ecl lispworks mkcl sbcl scl) `(:if-input-does-not-exist ,if-input-does-not-exist :if-output-exists ,%if-output-exists #-(or allegro lispworks) :if-error-exists #+(or allegro lispworks) :if-error-output-exists ,if-error-output-exists) #+lispworks `(:save-exit-status t) #+mkcl `(:directory ,(native-namestring directory)) #+sbcl `(:search t) #-sbcl keys #+sbcl (if directory keys (remove-plist-key :directory keys)))))) (process-info (make-instance 'process-info))) #+clisp (declare (ignore %error-output)) (labels ((prop (key value) (setf (slot-value process-info key) value)) #+(or allegro clisp ecl lispworks mkcl) (store-codes (exit-code &optional signal-code) (if signal-code (progn (prop 'exit-code (%signal-to-exit-code signal-code)) (prop 'signal-code signal-code)) (prop 'exit-code exit-code)))) #+allegro (cond (wait (store-codes (first process*))) (separate-streams (destructuring-bind (in out err pid) process* (prop 'process pid) (when (eq input :stream) (prop 'input-stream in)) (when (eq output :stream) (prop 'output-stream out)) (when (eq error-output :stream) (prop 'error-stream err)))) (t (prop 'process (third process*)) (let ((x (first process*))) (ecase (+ (if (eq input :stream) 1 0) (if (eq output :stream) 2 0)) (0) (1 (prop 'input-stream x)) (2 (prop 'output-stream x)) (3 (prop 'bidir-stream x)))) (when (eq error-output :stream) (prop 'error-stream (second process*))))) #+clisp (if wait (let ((raw-exit-code (or (first process*) 0))) (if (minusp raw-exit-code) (store-codes 0 (- raw-exit-code)) (store-codes raw-exit-code))) (ecase (+ (if (eq input :stream) 1 0) (if (eq output :stream) 2 0)) (0) (1 (prop 'input-stream (first process*))) (2 (prop 'output-stream (first process*))) (3 (prop 'bidir-stream (pop process*)) (prop 'input-stream (pop process*)) (prop 'output-stream (pop process*))))) #+(or abcl clozure cmucl sbcl scl) (progn (prop 'process process*) (when (eq input :stream) (prop 'input-stream #+abcl (symbol-call :sys :process-input process*) #+clozure (ccl:external-process-input-stream process*) #+(or cmucl scl) (ext:process-input process*) #+sbcl (sb-ext:process-input process*))) (when (eq output :stream) (prop 'output-stream #+abcl (symbol-call :sys :process-output process*) #+clozure (ccl:external-process-output-stream process*) #+(or cmucl scl) (ext:process-output process*) #+sbcl (sb-ext:process-output process*))) (when (eq error-output :stream) (prop 'error-output-stream #+abcl (symbol-call :sys :process-error process*) #+clozure (ccl:external-process-error-stream process*) #+(or cmucl scl) (ext:process-error process*) #+sbcl (sb-ext:process-error process*)))) #+(or ecl mkcl) (destructuring-bind #+ecl (stream code process) #+mkcl (stream process code) process* (let ((mode (+ (if (eq input :stream) 1 0) (if (eq output :stream) 2 0)))) (cond ((zerop mode)) ((null process*) (store-codes -1)) (t (prop (case mode (1 'input-stream) (2 'output-stream) (3 'bidir-stream)) stream)))) (when code (let ((signum #+mkcl (and (stringp code) (%mkcl-signal-to-number code)) #-mkcl (and (eq (ext:external-process-wait process) :signaled) code))) (store-codes code signum))) (when process (prop 'process process))) #+lispworks (if wait (store-codes (first process*) (second process*)) (let ((mode (+ (if (eq input :stream) 1 0) (if (eq output :stream) 2 0)))) (if (or (plusp mode) (eq error-output :stream)) (destructuring-bind (io err pid) process* #+lispworks7+ (declare (ignore pid)) (prop 'process #+lispworks7+ io #-lispworks7+ pid) (when (plusp mode) (prop (ecase mode (1 'input-stream) (2 'output-stream) (3 'bidir-stream)) io)) (when (eq error-output :stream) (prop 'error-stream err))) ;; lispworks6 returns (pid), lispworks7 returns (io,err,pid). (prop 'process (first process*))))) process-info))) (defun process-info-error-output (process-info) (slot-value process-info 'error-output-stream)) (defun process-info-input (process-info) (or (slot-value process-info 'bidir-stream) (slot-value process-info 'input-stream))) (defun process-info-output (process-info) (or (slot-value process-info 'bidir-stream) (slot-value process-info 'output-stream))) (defun process-info-pid (process-info) (let ((process (slot-value process-info 'process))) (declare (ignorable process)) #+abcl (symbol-call :sys :process-pid process) #+allegro process #+clozure (ccl:external-process-id process) #+ecl (ext:external-process-pid process) #+(or cmucl scl) (ext:process-pid process) #+lispworks7+ (sys:pipe-pid process) #+(and lispworks (not lispworks7+)) process #+mkcl (mkcl:process-id process) #+sbcl (sb-ext:process-pid process) #-(or abcl allegro clozure cmucl ecl mkcl lispworks sbcl scl) (not-implemented-error 'process-info-pid))) (defun %process-status (process-info) (if-let (exit-code (slot-value process-info 'exit-code)) (return-from %process-status (if-let (signal-code (slot-value process-info 'signal-code)) (values :signaled signal-code) (values :exited exit-code)))) #-(or allegro clozure cmucl ecl lispworks mkcl sbcl scl) (not-implemented-error '%process-status) (if-let (process (slot-value process-info 'process)) (multiple-value-bind (status code) (progn #+allegro (multiple-value-bind (exit-code pid signal) (sys:reap-os-subprocess :pid process :wait nil) (assert pid) (cond ((null exit-code) :running) ((null signal) (values :exited exit-code)) (t (values :signaled signal)))) #+clozure (ccl:external-process-status process) #+(or cmucl scl) (let ((status (ext:process-status process))) (values status (if (member status '(:exited :signaled)) (ext:process-exit-code process)))) #+ecl (ext:external-process-status process) #+lispworks ;; a signal is only returned on LispWorks 7+ (multiple-value-bind (exit-code signal) (funcall #+lispworks7+ #'sys:pipe-exit-status #-lispworks7+ #'sys:pid-exit-status process :wait nil) (cond ((null exit-code) :running) ((null signal) (values :exited exit-code)) (t (values :signaled signal)))) #+mkcl (let ((status (mk-ext:process-status process)) (code (mk-ext:process-exit-code process))) (if (stringp code) (values :signaled (%mkcl-signal-to-number code)) (values status code))) #+sbcl (let ((status (sb-ext:process-status process))) (values status (if (member status '(:exited :signaled)) (sb-ext:process-exit-code process))))) (case status (:exited (setf (slot-value process-info 'exit-code) code)) (:signaled (let ((%code (%signal-to-exit-code code))) (setf (slot-value process-info 'exit-code) %code (slot-value process-info 'signal-code) code)))) (values status code)))) (defun process-alive-p (process-info) "Check if a process has yet to exit." (unless (slot-value process-info 'exit-code) #+abcl (sys:process-alive-p (slot-value process-info 'process)) #+(or cmucl scl) (ext:process-alive-p (slot-value process-info 'process)) #+sbcl (sb-ext:process-alive-p (slot-value process-info 'process)) #-(or abcl cmucl sbcl scl) (member (%process-status process-info) '(:running :sleeping)))) (defun wait-process (process-info) "Wait for the process to terminate, if it is still running. Otherwise, return immediately. An exit code (a number) will be returned, with 0 indicating success, and anything else indicating failure. If the process exits after receiving a signal, the exit code will be the sum of 128 and the (positive) numeric signal code. A second value may be returned in this case: the numeric signal code itself. Any asynchronously spawned process requires this function to be run before it is garbage-collected in order to free up resources that might otherwise be irrevocably lost." (if-let (exit-code (slot-value process-info 'exit-code)) (if-let (signal-code (slot-value process-info 'signal-code)) (values exit-code signal-code) exit-code) (let ((process (slot-value process-info 'process))) #-(or abcl allegro clozure cmucl ecl lispworks mkcl sbcl scl) (not-implemented-error 'wait-process) (when process ;; 1- wait #+clozure (ccl::external-process-wait process) #+(or cmucl scl) (ext:process-wait process) #+sbcl (sb-ext:process-wait process) ;; 2- extract result (multiple-value-bind (exit-code signal-code) (progn #+abcl (sys:process-wait process) #+allegro (multiple-value-bind (exit-code pid signal) (sys:reap-os-subprocess :pid process :wait t) (assert pid) (values exit-code signal)) #+clozure (multiple-value-bind (status code) (ccl:external-process-status process) (if (eq status :signaled) (values nil code) code)) #+(or cmucl scl) (let ((status (ext:process-status process)) (code (ext:process-exit-code process))) (if (eq status :signaled) (values nil code) code)) #+ecl (multiple-value-bind (status code) (ext:external-process-wait process t) (if (eq status :signaled) (values nil code) code)) #+lispworks (funcall #+lispworks7+ #'sys:pipe-exit-status #-lispworks7+ #'sys:pid-exit-status process :wait t) #+mkcl (let ((code (mkcl:join-process process))) (if (stringp code) (values nil (%mkcl-signal-to-number code)) code)) #+sbcl (let ((status (sb-ext:process-status process)) (code (sb-ext:process-exit-code process))) (if (eq status :signaled) (values nil code) code))) (if signal-code (let ((%exit-code (%signal-to-exit-code signal-code))) (setf (slot-value process-info 'exit-code) %exit-code (slot-value process-info 'signal-code) signal-code) (values %exit-code signal-code)) (progn (setf (slot-value process-info 'exit-code) exit-code) exit-code))))))) (defun %check-result (exit-code &key command process ignore-error-status) (unless ignore-error-status (unless (eql exit-code 0) (cerror "IGNORE-ERROR-STATUS" 'subprocess-error :command command :code exit-code :process process))) exit-code) (defun close-streams (process-info) "Close any stream that the process might own. Needs to be run whenever streams were requested by passing :stream to :input, :output, or :error-output." (dolist (stream (cons (slot-value process-info 'error-output-stream) (if-let (bidir-stream (slot-value process-info 'bidir-stream)) (list bidir-stream) (list (slot-value process-info 'input-stream) (slot-value process-info 'output-stream))))) (when stream (close stream)))) ;; WARNING: For signals other than SIGTERM and SIGKILL this may not ;; do what you expect it to. Sending SIGSTOP to a process spawned ;; via %run-program, e.g., will stop the shell /bin/sh that is used ;; to run the command (via `sh -c command`) but not the actual ;; command. #+os-unix (defun %posix-send-signal (process-info signal) #+allegro (excl.osi:kill (slot-value process-info 'process) signal) #+clozure (ccl:signal-external-process (slot-value process-info 'process) signal :error-if-exited nil) #+(or cmucl scl) (ext:process-kill (slot-value process-info 'process) signal) #+sbcl (sb-ext:process-kill (slot-value process-info 'process) signal) #-(or allegro clozure cmucl sbcl scl) (if-let (pid (process-info-pid process-info)) (%run-program (format nil "kill -~a ~a" signal pid) :wait t))) ;;; this function never gets called on Windows, but the compiler cannot tell ;;; that. [2016/09/25:rpg] #+os-windows (defun %posix-send-signal (process-info signal) (declare (ignore process-info signal)) (values)) (defun terminate-process (process-info &key urgent) "Cause the process to exit. To that end, the process may or may not be sent a signal, which it will find harder (or even impossible) to ignore if URGENT is T. On some platforms, it may also be subject to race conditions." (declare (ignorable urgent)) #+abcl (sys:process-kill (slot-value process-info 'process)) #+ecl (symbol-call :ext :terminate-process (slot-value process-info 'process) urgent) #+lispworks7+ (sys:pipe-kill-process (slot-value process-info 'process)) #+mkcl (mk-ext:terminate-process (slot-value process-info 'process) :force urgent) #-(or abcl ecl lispworks7+ mkcl) (os-cond ((os-unix-p) (%posix-send-signal process-info (if urgent 9 15))) ((os-windows-p) (if-let (pid (process-info-pid process-info)) (%run-program (format nil "taskkill ~a /pid ~a" (if urgent "/f" "") pid)))) (t (not-implemented-error 'terminate-process)))) (defun %call-with-program-io (gf tval stream-easy-p fun direction spec activep returner &key element-type external-format &allow-other-keys) ;; handle redirection for run-program and system ;; SPEC is the specification for the subprocess's input or output or error-output ;; TVAL is the value used if the spec is T ;; GF is the generic function to call to handle arbitrary values of SPEC ;; STREAM-EASY-P is T if we're going to use a RUN-PROGRAM that copies streams in the background ;; (it's only meaningful on CMUCL, SBCL, SCL that actually do it) ;; DIRECTION is :INPUT, :OUTPUT or :ERROR-OUTPUT for the direction of this io argument ;; FUN is a function of the new reduced spec and an activity function to call with a stream ;; when the subprocess is active and communicating through that stream. ;; ACTIVEP is a boolean true if we will get to run code while the process is running ;; ELEMENT-TYPE and EXTERNAL-FORMAT control what kind of temporary file we may open. ;; RETURNER is a function called with the value of the activity. ;; --- TODO (fare@tunes.org): handle if-output-exists and such when doing it the hard way. (declare (ignorable stream-easy-p)) (let* ((actual-spec (if (eq spec t) tval spec)) (activity-spec (if (eq actual-spec :output) (ecase direction ((:input :output) (error "~S not allowed as a ~S ~S spec" :output 'run-program direction)) ((:error-output) nil)) actual-spec))) (labels ((activity (stream) (call-function returner (call-stream-processor gf activity-spec stream))) (easy-case () (funcall fun actual-spec nil)) (hard-case () (if activep (funcall fun :stream #'activity) (with-temporary-file (:pathname tmp) (ecase direction (:input (with-output-file (s tmp :if-exists :overwrite :external-format external-format :element-type element-type) (activity s)) (funcall fun tmp nil)) ((:output :error-output) (multiple-value-prog1 (funcall fun tmp nil) (with-input-file (s tmp :external-format external-format :element-type element-type) (activity s))))))))) (typecase activity-spec ((or null string pathname (eql :interactive)) (easy-case)) #+(or cmucl (and sbcl os-unix) scl) ;; streams are only easy on implementations that try very hard (stream (if stream-easy-p (easy-case) (hard-case))) (t (hard-case)))))) (defmacro place-setter (place) (when place (let ((value (gensym))) `#'(lambda (,value) (setf ,place ,value))))) (defmacro with-program-input (((reduced-input-var &optional (input-activity-var (gensym) iavp)) input-form &key setf stream-easy-p active keys) &body body) `(apply '%call-with-program-io 'vomit-output-stream *standard-input* ,stream-easy-p #'(lambda (,reduced-input-var ,input-activity-var) ,@(unless iavp `((declare (ignore ,input-activity-var)))) ,@body) :input ,input-form ,active (place-setter ,setf) ,keys)) (defmacro with-program-output (((reduced-output-var &optional (output-activity-var (gensym) oavp)) output-form &key setf stream-easy-p active keys) &body body) `(apply '%call-with-program-io 'slurp-input-stream *standard-output* ,stream-easy-p #'(lambda (,reduced-output-var ,output-activity-var) ,@(unless oavp `((declare (ignore ,output-activity-var)))) ,@body) :output ,output-form ,active (place-setter ,setf) ,keys)) (defmacro with-program-error-output (((reduced-error-output-var &optional (error-output-activity-var (gensym) eoavp)) error-output-form &key setf stream-easy-p active keys) &body body) `(apply '%call-with-program-io 'slurp-input-stream *error-output* ,stream-easy-p #'(lambda (,reduced-error-output-var ,error-output-activity-var) ,@(unless eoavp `((declare (ignore ,error-output-activity-var)))) ,@body) :error-output ,error-output-form ,active (place-setter ,setf) ,keys)) (defun %use-run-program (command &rest keys &key input output error-output ignore-error-status &allow-other-keys) ;; helper for RUN-PROGRAM when using %run-program #+(or cormanlisp gcl (and lispworks os-windows) mcl xcl) (progn command keys input output error-output ignore-error-status ;; ignore (not-implemented-error '%use-run-program)) (assert (not (member :stream (list input output error-output)))) (let* ((active-input-p (%active-io-specifier-p input)) (active-output-p (%active-io-specifier-p output)) (active-error-output-p (%active-io-specifier-p error-output)) (activity (cond (active-output-p :output) (active-input-p :input) (active-error-output-p :error-output) (t nil))) (wait (not activity)) output-result error-output-result exit-code process-info) (with-program-output ((reduced-output output-activity) output :keys keys :setf output-result :stream-easy-p t :active (eq activity :output)) (with-program-error-output ((reduced-error-output error-output-activity) error-output :keys keys :setf error-output-result :stream-easy-p t :active (eq activity :error-output)) (with-program-input ((reduced-input input-activity) input :keys keys :stream-easy-p t :active (eq activity :input)) (setf process-info (apply '%run-program command :wait wait :input reduced-input :output reduced-output :error-output (if (eq error-output :output) :output reduced-error-output) keys)) (labels ((get-stream (stream-name &optional fallbackp) (or (slot-value process-info stream-name) (when fallbackp (slot-value process-info 'bidir-stream)))) (run-activity (activity stream-name &optional fallbackp) (if-let (stream (get-stream stream-name fallbackp)) (funcall activity stream) (error 'subprocess-error :code `(:missing ,stream-name) :command command :process process-info)))) (unwind-protect (ecase activity ((nil)) (:input (run-activity input-activity 'input-stream t)) (:output (run-activity output-activity 'output-stream t)) (:error-output (run-activity error-output-activity 'error-output-stream))) (close-streams process-info) (setf exit-code (wait-process process-info))))))) (%check-result exit-code :command command :process process-info :ignore-error-status ignore-error-status) (values output-result error-output-result exit-code))) (defun %normalize-system-command (command) ;; helper for %USE-SYSTEM (etypecase command (string (os-cond ((os-windows-p) #+(or allegro clisp) (strcat (%cmd-shell-pathname) " /c " command) #-(or allegro clisp) command) (t command))) (list (escape-shell-command (os-cond ((os-unix-p) (cons "exec" command)) ((os-windows-p) #+(or allegro sbcl clisp) (cons (%cmd-shell-pathname) (cons "/c" command)) #-(or allegro sbcl clisp) command) (t command)))))) (defun %redirected-system-command (command in out err directory) ;; helper for %USE-SYSTEM (flet ((redirect (spec operator) (let ((pathname (typecase spec (null (null-device-pathname)) (string (parse-native-namestring spec)) (pathname spec) ((eql :output) (assert (equal operator " 2>")) (return-from redirect '(" 2>&1")))))) (when pathname (list operator " " (escape-shell-token (native-namestring pathname))))))) (let* ((redirections (append (redirect in " <") (redirect out " >") (redirect err " 2>"))) (normalized (%normalize-system-command command)) (directory (or directory #+(or abcl xcl) (getcwd))) (chdir (when directory (let ((dir-arg (escape-shell-token (native-namestring directory)))) (os-cond ((os-unix-p) `("cd " ,dir-arg " ; ")) ((os-windows-p) `("cd /d " ,dir-arg " & "))))))) (reduce/strcat (os-cond ((os-unix-p) `(,@(when redirections `("exec " ,@redirections " ; ")) ,@chdir ,normalized)) ((os-windows-p) `(,@chdir ,@redirections " " ,normalized))))))) (defun %system (command &rest keys &key input output error-output directory &allow-other-keys) "A portable abstraction of a low-level call to libc's system()." (declare (ignorable input output error-output directory keys)) #+(or allegro clozure cmucl (and lispworks os-unix) sbcl scl) (wait-process (apply '%run-program (%normalize-system-command command) :wait t keys)) #+(or abcl clasp clisp cormanlisp ecl gcl genera (and lispworks os-windows) mkcl xcl) (let ((%command (%redirected-system-command command input output error-output directory))) #+(and lispworks os-windows) (system:call-system %command :current-directory directory :wait t) #+clisp (wait-process (apply '%run-program %command :wait t :input :interactive :output :interactive :error-output :interactive keys)) #-(or clisp (and lispworks os-windows)) (with-current-directory ((os-cond ((not (os-unix-p)) directory))) #+abcl (ext:run-shell-command %command) ;; FIXME: deprecated #+cormanlisp (win32:system %command) #+(or clasp ecl) (let ((*standard-input* *stdin*) (*standard-output* *stdout*) (*error-output* *stderr*)) (ext:system %command)) #+gcl (system:system %command) #+genera (not-implemented-error '%system) #+mcl (ccl::with-cstrs ((%%command %command)) (_system %%command)) #+mkcl (mkcl:system %command) #+xcl (system:%run-shell-command %command)))) (defun %use-system (command &rest keys &key input output error-output ignore-error-status &allow-other-keys) ;; helper for RUN-PROGRAM when using %system (let (output-result error-output-result exit-code) (with-program-output ((reduced-output) output :keys keys :setf output-result) (with-program-error-output ((reduced-error-output) error-output :keys keys :setf error-output-result) (with-program-input ((reduced-input) input :keys keys) (setf exit-code (apply '%system command :input reduced-input :output reduced-output :error-output reduced-error-output keys))))) (%check-result exit-code :command command :ignore-error-status ignore-error-status) (values output-result error-output-result exit-code))) (defun launch-program (command &rest keys &key input (if-input-does-not-exist :error) output (if-output-exists :supersede) error-output (if-error-output-exists :supersede) (element-type #-clozure *default-stream-element-type* #+clozure 'character) (external-format *utf-8-external-format*) &allow-other-keys) "Launch program specified by COMMAND, either a list of strings specifying a program and list of arguments, or a string specifying a shell command (/bin/sh on Unix, CMD.EXE on Windows) _asynchronously_. If OUTPUT is a pathname, a string designating a pathname, or NIL designating the null device, the file at that path is used as output. If it's :INTERACTIVE, output is inherited from the current process; beware that this may be different from your *STANDARD-OUTPUT*, and under SLIME will be on your *inferior-lisp* buffer. If it's T, output goes to your current *STANDARD-OUTPUT* stream. If it's :STREAM, a new stream will be made available that can be accessed via PROCESS-INFO-OUTPUT and read from. Otherwise, OUTPUT should be a value that the underlying lisp implementation knows how to handle. ERROR-OUTPUT is similar to OUTPUT. T designates the *ERROR-OUTPUT*, :OUTPUT means redirecting the error output to the output stream, and :STREAM causes a stream to be made available via PROCESS-INFO-ERROR-OUTPUT. INPUT is similar to OUTPUT, except that T designates the *STANDARD-INPUT* and a stream requested through the :STREAM keyword would be available through PROCESS-INFO-INPUT. ELEMENT-TYPE and EXTERNAL-FORMAT are passed on to your Lisp implementation, when applicable, for creation of the output stream. LAUNCH-PROGRAM returns a process-info object." (apply '%run-program command :wait nil :input input :if-input-does-not-exist if-input-does-not-exist :output output :if-output-exists if-output-exists :error-output error-output :if-error-output-exists if-error-output-exists :element-type element-type :external-format external-format keys)) (defun run-program (command &rest keys &key ignore-error-status (force-shell nil force-shell-suppliedp) (input nil inputp) (if-input-does-not-exist :error) output (if-output-exists :supersede) (error-output nil error-output-p) (if-error-output-exists :supersede) (element-type #-clozure *default-stream-element-type* #+clozure 'character) (external-format *utf-8-external-format*) &allow-other-keys) "Run program specified by COMMAND, either a list of strings specifying a program and list of arguments, or a string specifying a shell command (/bin/sh on Unix, CMD.EXE on Windows); _synchronously_ process its output as specified and return the processing results when the program and its output processing are complete. Always call a shell (rather than directly execute the command when possible) if FORCE-SHELL is specified. Similarly, never call a shell if FORCE-SHELL is specified to be NIL. Signal a continuable SUBPROCESS-ERROR if the process wasn't successful (exit-code 0), unless IGNORE-ERROR-STATUS is specified. If OUTPUT is a pathname, a string designating a pathname, or NIL designating the null device, the file at that path is used as output. If it's :INTERACTIVE, output is inherited from the current process; beware that this may be different from your *STANDARD-OUTPUT*, and under SLIME will be on your *inferior-lisp* buffer. If it's T, output goes to your current *STANDARD-OUTPUT* stream. Otherwise, OUTPUT should be a value that is a suitable first argument to SLURP-INPUT-STREAM (qv.), or a list of such a value and keyword arguments. In this case, RUN-PROGRAM will create a temporary stream for the program output; the program output, in that stream, will be processed by a call to SLURP-INPUT-STREAM, using OUTPUT as the first argument (or the first element of OUTPUT, and the rest as keywords). The primary value resulting from that call (or NIL if no call was needed) will be the first value returned by RUN-PROGRAM. E.g., using :OUTPUT :STRING will have it return the entire output stream as a string. And using :OUTPUT '(:STRING :STRIPPED T) will have it return the same string stripped of any ending newline. ERROR-OUTPUT is similar to OUTPUT, except that the resulting value is returned as the second value of RUN-PROGRAM. T designates the *ERROR-OUTPUT*. Also :OUTPUT means redirecting the error output to the output stream, in which case NIL is returned. INPUT is similar to OUTPUT, except that VOMIT-OUTPUT-STREAM is used, no value is returned, and T designates the *STANDARD-INPUT*. ELEMENT-TYPE and EXTERNAL-FORMAT are passed on to your Lisp implementation, when applicable, for creation of the output stream. One and only one of the stream slurping or vomiting may or may not happen in parallel in parallel with the subprocess, depending on options and implementation, and with priority being given to output processing. Other streams are completely produced or consumed before or after the subprocess is spawned, using temporary files. RUN-PROGRAM returns 3 values: 0- the result of the OUTPUT slurping if any, or NIL 1- the result of the ERROR-OUTPUT slurping if any, or NIL 2- either 0 if the subprocess exited with success status, or an indication of failure via the EXIT-CODE of the process" (declare (ignorable ignore-error-status)) #-(or abcl allegro clasp clisp clozure cmucl cormanlisp ecl gcl lispworks mcl mkcl sbcl scl xcl) (not-implemented-error 'run-program) ;; per doc string, set FORCE-SHELL to T if we get command as a string. But ;; don't override user's specified preference. [2015/06/29:rpg] (when (stringp command) (unless force-shell-suppliedp #-(and sbcl os-windows) ;; force-shell t isn't working properly on windows as of sbcl 1.2.16 (setf force-shell t))) (flet ((default (x xp output) (cond (xp x) ((eq output :interactive) :interactive)))) (apply (if (or force-shell #+(or clasp clisp) t ;; A race condition in ECL <= 16.0.0 prevents using ext:run-program #+ecl #.(if-let (ver (parse-version (lisp-implementation-version))) (lexicographic<= '< ver '(16 0 1))) #+(and lispworks os-unix) (%interactivep input output error-output) #+(or cormanlisp gcl (and lispworks os-windows) mcl xcl) t) '%use-system '%use-run-program) command :input (default input inputp output) :error-output (default error-output error-output-p output) :if-input-does-not-exist if-input-does-not-exist :if-output-exists if-output-exists :if-error-output-exists if-error-output-exists :element-type element-type :external-format external-format keys)))) ;;;; ------------------------------------------------------------------------- ;;;; Support to build (compile and load) Lisp files (uiop/package:define-package :uiop/lisp-build (:nicknames :asdf/lisp-build) ;; OBSOLETE, used by slime/contrib/swank-asdf.lisp (:use :uiop/common-lisp :uiop/package :uiop/utility :uiop/os :uiop/pathname :uiop/filesystem :uiop/stream :uiop/image) (:export ;; Variables #:*compile-file-warnings-behaviour* #:*compile-file-failure-behaviour* #:*output-translation-function* #:*optimization-settings* #:*previous-optimization-settings* #:*base-build-directory* #:compile-condition #:compile-file-error #:compile-warned-error #:compile-failed-error #:compile-warned-warning #:compile-failed-warning #:check-lisp-compile-results #:check-lisp-compile-warnings #:*uninteresting-conditions* #:*usual-uninteresting-conditions* #:*uninteresting-compiler-conditions* #:*uninteresting-loader-conditions* ;; Types #+sbcl #:sb-grovel-unknown-constant-condition ;; Functions & Macros #:get-optimization-settings #:proclaim-optimization-settings #:with-optimization-settings #:call-with-muffled-compiler-conditions #:with-muffled-compiler-conditions #:call-with-muffled-loader-conditions #:with-muffled-loader-conditions #:reify-simple-sexp #:unreify-simple-sexp #:reify-deferred-warnings #:unreify-deferred-warnings #:reset-deferred-warnings #:save-deferred-warnings #:check-deferred-warnings #:with-saved-deferred-warnings #:warnings-file-p #:warnings-file-type #:*warnings-file-type* #:enable-deferred-warnings-check #:disable-deferred-warnings-check #:current-lisp-file-pathname #:load-pathname #:lispize-pathname #:compile-file-type #:call-around-hook #:compile-file* #:compile-file-pathname* #:*compile-check* #:load* #:load-from-string #:combine-fasls) (:intern #:defaults #:failure-p #:warnings-p #:s #:y #:body)) (in-package :uiop/lisp-build) (with-upgradability () (defvar *compile-file-warnings-behaviour* (or #+clisp :ignore :warn) "How should ASDF react if it encounters a warning when compiling a file? Valid values are :error, :warn, and :ignore.") (defvar *compile-file-failure-behaviour* (or #+(or mkcl sbcl) :error #+clisp :ignore :warn) "How should ASDF react if it encounters a failure (per the ANSI spec of COMPILE-FILE) when compiling a file, which includes any non-style-warning warning. Valid values are :error, :warn, and :ignore. Note that ASDF ALWAYS raises an error if it fails to create an output file when compiling.") (defvar *base-build-directory* nil "When set to a non-null value, it should be an absolute directory pathname, which will serve as the *DEFAULT-PATHNAME-DEFAULTS* around a COMPILE-FILE, what more while the input-file is shortened if possible to ENOUGH-PATHNAME relative to it. This can help you produce more deterministic output for FASLs.")) ;;; Optimization settings (with-upgradability () (defvar *optimization-settings* nil "Optimization settings to be used by PROCLAIM-OPTIMIZATION-SETTINGS") (defvar *previous-optimization-settings* nil "Optimization settings saved by PROCLAIM-OPTIMIZATION-SETTINGS") (defparameter +optimization-variables+ ;; TODO: allegro genera corman mcl (or #+(or abcl xcl) '(system::*speed* system::*space* system::*safety* system::*debug*) #+clisp '() ;; system::*optimize* is a constant hash-table! (with non-constant contents) #+clozure '(ccl::*nx-speed* ccl::*nx-space* ccl::*nx-safety* ccl::*nx-debug* ccl::*nx-cspeed*) #+(or cmucl scl) '(c::*default-cookie*) #+(and ecl (not clasp)) (unless (use-ecl-byte-compiler-p) '(c::*speed* c::*space* c::*safety* c::*debug*)) #+clasp '() #+gcl '(compiler::*speed* compiler::*space* compiler::*compiler-new-safety* compiler::*debug*) #+lispworks '(compiler::*optimization-level*) #+mkcl '(si::*speed* si::*space* si::*safety* si::*debug*) #+sbcl '(sb-c::*policy*))) (defun get-optimization-settings () "Get current compiler optimization settings, ready to PROCLAIM again" #-(or abcl allegro clasp clisp clozure cmucl ecl lispworks mkcl sbcl scl xcl) (warn "~S does not support ~S. Please help me fix that." 'get-optimization-settings (implementation-type)) #+(or abcl allegro clasp clisp clozure cmucl ecl lispworks mkcl sbcl scl xcl) (let ((settings '(speed space safety debug compilation-speed #+(or cmucl scl) c::brevity))) #.`(loop #+(or allegro clozure) ,@'(:with info = #+allegro (sys:declaration-information 'optimize) #+clozure (ccl:declaration-information 'optimize nil)) :for x :in settings ,@(or #+(or abcl clasp ecl gcl mkcl xcl) '(:for v :in +optimization-variables+)) :for y = (or #+(or allegro clozure) (second (assoc x info)) ; normalize order #+clisp (gethash x system::*optimize* 1) #+(or abcl clasp ecl mkcl xcl) (symbol-value v) #+(or cmucl scl) (slot-value c::*default-cookie* (case x (compilation-speed 'c::cspeed) (otherwise x))) #+lispworks (slot-value compiler::*optimization-level* x) #+sbcl (sb-c::policy-quality sb-c::*policy* x)) :when y :collect (list x y)))) (defun proclaim-optimization-settings () "Proclaim the optimization settings in *OPTIMIZATION-SETTINGS*" (proclaim `(optimize ,@*optimization-settings*)) (let ((settings (get-optimization-settings))) (unless (equal *previous-optimization-settings* settings) (setf *previous-optimization-settings* settings)))) (defmacro with-optimization-settings ((&optional (settings *optimization-settings*)) &body body) #+(or allegro clisp) (let ((previous-settings (gensym "PREVIOUS-SETTINGS"))) `(let ((,previous-settings (get-optimization-settings))) ,@(when settings `((proclaim `(optimize ,@,settings)))) (unwind-protect (progn ,@body) (proclaim `(optimize ,@,previous-settings))))) #-(or allegro clisp) `(let ,(loop :for v :in +optimization-variables+ :collect `(,v ,v)) ,@(when settings `((proclaim `(optimize ,@,settings)))) ,@body))) ;;; Condition control (with-upgradability () #+sbcl (progn (defun sb-grovel-unknown-constant-condition-p (c) "Detect SB-GROVEL unknown-constant conditions on older versions of SBCL" (and (typep c 'sb-int:simple-style-warning) (string-enclosed-p "Couldn't grovel for " (simple-condition-format-control c) " (unknown to the C compiler)."))) (deftype sb-grovel-unknown-constant-condition () '(and style-warning (satisfies sb-grovel-unknown-constant-condition-p)))) (defvar *usual-uninteresting-conditions* (append ;;#+clozure '(ccl:compiler-warning) #+cmucl '("Deleting unreachable code.") #+lispworks '("~S being redefined in ~A (previously in ~A)." "~S defined more than once in ~A.") ;; lispworks gets confused by eval-when. #+sbcl '(sb-c::simple-compiler-note "&OPTIONAL and &KEY found in the same lambda list: ~S" #+sb-eval sb-kernel:lexical-environment-too-complex sb-kernel:undefined-alien-style-warning sb-grovel-unknown-constant-condition ; defined above. sb-ext:implicit-generic-function-warning ;; Controversial. sb-int:package-at-variance sb-kernel:uninteresting-redefinition ;; BEWARE: the below four are controversial to include here. sb-kernel:redefinition-with-defun sb-kernel:redefinition-with-defgeneric sb-kernel:redefinition-with-defmethod sb-kernel::redefinition-with-defmacro) ; not exported by old SBCLs '("No generic function ~S present when encountering macroexpansion of defmethod. Assuming it will be an instance of standard-generic-function.")) ;; from closer2mop "A suggested value to which to set or bind *uninteresting-conditions*.") (defvar *uninteresting-conditions* '() "Conditions that may be skipped while compiling or loading Lisp code.") (defvar *uninteresting-compiler-conditions* '() "Additional conditions that may be skipped while compiling Lisp code.") (defvar *uninteresting-loader-conditions* (append '("Overwriting already existing readtable ~S." ;; from named-readtables #(#:finalizers-off-warning :asdf-finalizers)) ;; from asdf-finalizers #+clisp '(clos::simple-gf-replacing-method-warning)) "Additional conditions that may be skipped while loading Lisp code.")) ;;;; ----- Filtering conditions while building ----- (with-upgradability () (defun call-with-muffled-compiler-conditions (thunk) "Call given THUNK in a context where uninteresting conditions and compiler conditions are muffled" (call-with-muffled-conditions thunk (append *uninteresting-conditions* *uninteresting-compiler-conditions*))) (defmacro with-muffled-compiler-conditions ((&optional) &body body) "Trivial syntax for CALL-WITH-MUFFLED-COMPILER-CONDITIONS" `(call-with-muffled-compiler-conditions #'(lambda () ,@body))) (defun call-with-muffled-loader-conditions (thunk) "Call given THUNK in a context where uninteresting conditions and loader conditions are muffled" (call-with-muffled-conditions thunk (append *uninteresting-conditions* *uninteresting-loader-conditions*))) (defmacro with-muffled-loader-conditions ((&optional) &body body) "Trivial syntax for CALL-WITH-MUFFLED-LOADER-CONDITIONS" `(call-with-muffled-loader-conditions #'(lambda () ,@body)))) ;;;; Handle warnings and failures (with-upgradability () (define-condition compile-condition (condition) ((context-format :initform nil :reader compile-condition-context-format :initarg :context-format) (context-arguments :initform nil :reader compile-condition-context-arguments :initarg :context-arguments) (description :initform nil :reader compile-condition-description :initarg :description)) (:report (lambda (c s) (format s (compatfmt "~@<~A~@[ while ~?~]~@:>") (or (compile-condition-description c) (type-of c)) (compile-condition-context-format c) (compile-condition-context-arguments c))))) (define-condition compile-file-error (compile-condition error) ()) (define-condition compile-warned-warning (compile-condition warning) ()) (define-condition compile-warned-error (compile-condition error) ()) (define-condition compile-failed-warning (compile-condition warning) ()) (define-condition compile-failed-error (compile-condition error) ()) (defun check-lisp-compile-warnings (warnings-p failure-p &optional context-format context-arguments) "Given the warnings or failures as resulted from COMPILE-FILE or checking deferred warnings, raise an error or warning as appropriate" (when failure-p (case *compile-file-failure-behaviour* (:warn (warn 'compile-failed-warning :description "Lisp compilation failed" :context-format context-format :context-arguments context-arguments)) (:error (error 'compile-failed-error :description "Lisp compilation failed" :context-format context-format :context-arguments context-arguments)) (:ignore nil))) (when warnings-p (case *compile-file-warnings-behaviour* (:warn (warn 'compile-warned-warning :description "Lisp compilation had style-warnings" :context-format context-format :context-arguments context-arguments)) (:error (error 'compile-warned-error :description "Lisp compilation had style-warnings" :context-format context-format :context-arguments context-arguments)) (:ignore nil)))) (defun check-lisp-compile-results (output warnings-p failure-p &optional context-format context-arguments) "Given the results of COMPILE-FILE, raise an error or warning as appropriate" (unless output (error 'compile-file-error :context-format context-format :context-arguments context-arguments)) (check-lisp-compile-warnings warnings-p failure-p context-format context-arguments))) ;;;; Deferred-warnings treatment, originally implemented by Douglas Katzman. ;;; ;;; To support an implementation, three functions must be implemented: ;;; reify-deferred-warnings unreify-deferred-warnings reset-deferred-warnings ;;; See their respective docstrings. (with-upgradability () (defun reify-simple-sexp (sexp) "Given a simple SEXP, return a representation of it as a portable SEXP. Simple means made of symbols, numbers, characters, simple-strings, pathnames, cons cells." (etypecase sexp (symbol (reify-symbol sexp)) ((or number character simple-string pathname) sexp) (cons (cons (reify-simple-sexp (car sexp)) (reify-simple-sexp (cdr sexp)))) (simple-vector (vector (mapcar 'reify-simple-sexp (coerce sexp 'list)))))) (defun unreify-simple-sexp (sexp) "Given the portable output of REIFY-SIMPLE-SEXP, return the simple SEXP it represents" (etypecase sexp ((or symbol number character simple-string pathname) sexp) (cons (cons (unreify-simple-sexp (car sexp)) (unreify-simple-sexp (cdr sexp)))) ((simple-vector 2) (unreify-symbol sexp)) ((simple-vector 1) (coerce (mapcar 'unreify-simple-sexp (aref sexp 0)) 'vector)))) #+clozure (progn (defun reify-source-note (source-note) (when source-note (with-accessors ((source ccl::source-note-source) (filename ccl:source-note-filename) (start-pos ccl:source-note-start-pos) (end-pos ccl:source-note-end-pos)) source-note (declare (ignorable source)) (list :filename filename :start-pos start-pos :end-pos end-pos #|:source (reify-source-note source)|#)))) (defun unreify-source-note (source-note) (when source-note (destructuring-bind (&key filename start-pos end-pos source) source-note (ccl::make-source-note :filename filename :start-pos start-pos :end-pos end-pos :source (unreify-source-note source))))) (defun unsymbolify-function-name (name) (if-let (setfed (gethash name ccl::%setf-function-name-inverses%)) `(setf ,setfed) name)) (defun symbolify-function-name (name) (if (and (consp name) (eq (first name) 'setf)) (let ((setfed (second name))) (gethash setfed ccl::%setf-function-names%)) name)) (defun reify-function-name (function-name) (let ((name (or (first function-name) ;; defun: extract the name (let ((sec (second function-name))) (or (and (atom sec) sec) ; scoped method: drop scope (first sec)))))) ; method: keep gf name, drop method specializers (list name))) (defun unreify-function-name (function-name) function-name) (defun nullify-non-literals (sexp) (typecase sexp ((or number character simple-string symbol pathname) sexp) (cons (cons (nullify-non-literals (car sexp)) (nullify-non-literals (cdr sexp)))) (t nil))) (defun reify-deferred-warning (deferred-warning) (with-accessors ((warning-type ccl::compiler-warning-warning-type) (args ccl::compiler-warning-args) (source-note ccl:compiler-warning-source-note) (function-name ccl:compiler-warning-function-name)) deferred-warning (list :warning-type warning-type :function-name (reify-function-name function-name) :source-note (reify-source-note source-note) :args (destructuring-bind (fun &rest more) args (cons (unsymbolify-function-name fun) (nullify-non-literals more)))))) (defun unreify-deferred-warning (reified-deferred-warning) (destructuring-bind (&key warning-type function-name source-note args) reified-deferred-warning (make-condition (or (cdr (ccl::assq warning-type ccl::*compiler-whining-conditions*)) 'ccl::compiler-warning) :function-name (unreify-function-name function-name) :source-note (unreify-source-note source-note) :warning-type warning-type :args (destructuring-bind (fun . more) args (cons (symbolify-function-name fun) more)))))) #+(or cmucl scl) (defun reify-undefined-warning (warning) ;; Extracting undefined-warnings from the compilation-unit ;; To be passed through the above reify/unreify link, it must be a "simple-sexp" (list* (c::undefined-warning-kind warning) (c::undefined-warning-name warning) (c::undefined-warning-count warning) (mapcar #'(lambda (frob) ;; the lexenv slot can be ignored for reporting purposes `(:enclosing-source ,(c::compiler-error-context-enclosing-source frob) :source ,(c::compiler-error-context-source frob) :original-source ,(c::compiler-error-context-original-source frob) :context ,(c::compiler-error-context-context frob) :file-name ,(c::compiler-error-context-file-name frob) ; a pathname :file-position ,(c::compiler-error-context-file-position frob) ; an integer :original-source-path ,(c::compiler-error-context-original-source-path frob))) (c::undefined-warning-warnings warning)))) #+sbcl (defun reify-undefined-warning (warning) ;; Extracting undefined-warnings from the compilation-unit ;; To be passed through the above reify/unreify link, it must be a "simple-sexp" (list* (sb-c::undefined-warning-kind warning) (sb-c::undefined-warning-name warning) (sb-c::undefined-warning-count warning) (mapcar #'(lambda (frob) ;; the lexenv slot can be ignored for reporting purposes `(:enclosing-source ,(sb-c::compiler-error-context-enclosing-source frob) :source ,(sb-c::compiler-error-context-source frob) :original-source ,(sb-c::compiler-error-context-original-source frob) :context ,(sb-c::compiler-error-context-context frob) :file-name ,(sb-c::compiler-error-context-file-name frob) ; a pathname :file-position ,(sb-c::compiler-error-context-file-position frob) ; an integer :original-source-path ,(sb-c::compiler-error-context-original-source-path frob))) (sb-c::undefined-warning-warnings warning)))) (defun reify-deferred-warnings () "return a portable S-expression, portably readable and writeable in any Common Lisp implementation using READ within a WITH-SAFE-IO-SYNTAX, that represents the warnings currently deferred by WITH-COMPILATION-UNIT. One of three functions required for deferred-warnings support in ASDF." #+allegro (list :functions-defined excl::.functions-defined. :functions-called excl::.functions-called.) #+clozure (mapcar 'reify-deferred-warning (if-let (dw ccl::*outstanding-deferred-warnings*) (let ((mdw (ccl::ensure-merged-deferred-warnings dw))) (ccl::deferred-warnings.warnings mdw)))) #+(or cmucl scl) (when lisp::*in-compilation-unit* ;; Try to send nothing through the pipe if nothing needs to be accumulated `(,@(when c::*undefined-warnings* `((c::*undefined-warnings* ,@(mapcar #'reify-undefined-warning c::*undefined-warnings*)))) ,@(loop :for what :in '(c::*compiler-error-count* c::*compiler-warning-count* c::*compiler-note-count*) :for value = (symbol-value what) :when (plusp value) :collect `(,what . ,value)))) #+sbcl (when sb-c::*in-compilation-unit* ;; Try to send nothing through the pipe if nothing needs to be accumulated `(,@(when sb-c::*undefined-warnings* `((sb-c::*undefined-warnings* ,@(mapcar #'reify-undefined-warning sb-c::*undefined-warnings*)))) ,@(loop :for what :in '(sb-c::*aborted-compilation-unit-count* sb-c::*compiler-error-count* sb-c::*compiler-warning-count* sb-c::*compiler-style-warning-count* sb-c::*compiler-note-count*) :for value = (symbol-value what) :when (plusp value) :collect `(,what . ,value))))) (defun unreify-deferred-warnings (reified-deferred-warnings) "given a S-expression created by REIFY-DEFERRED-WARNINGS, reinstantiate the corresponding deferred warnings as to be handled at the end of the current WITH-COMPILATION-UNIT. Handle any warning that has been resolved already, such as an undefined function that has been defined since. One of three functions required for deferred-warnings support in ASDF." (declare (ignorable reified-deferred-warnings)) #+allegro (destructuring-bind (&key functions-defined functions-called) reified-deferred-warnings (setf excl::.functions-defined. (append functions-defined excl::.functions-defined.) excl::.functions-called. (append functions-called excl::.functions-called.))) #+clozure (let ((dw (or ccl::*outstanding-deferred-warnings* (setf ccl::*outstanding-deferred-warnings* (ccl::%defer-warnings t))))) (appendf (ccl::deferred-warnings.warnings dw) (mapcar 'unreify-deferred-warning reified-deferred-warnings))) #+(or cmucl scl) (dolist (item reified-deferred-warnings) ;; Each item is (symbol . adjustment) where the adjustment depends on the symbol. ;; For *undefined-warnings*, the adjustment is a list of initargs. ;; For everything else, it's an integer. (destructuring-bind (symbol . adjustment) item (case symbol ((c::*undefined-warnings*) (setf c::*undefined-warnings* (nconc (mapcan #'(lambda (stuff) (destructuring-bind (kind name count . rest) stuff (unless (case kind (:function (fboundp name))) (list (c::make-undefined-warning :name name :kind kind :count count :warnings (mapcar #'(lambda (x) (apply #'c::make-compiler-error-context x)) rest)))))) adjustment) c::*undefined-warnings*))) (otherwise (set symbol (+ (symbol-value symbol) adjustment)))))) #+sbcl (dolist (item reified-deferred-warnings) ;; Each item is (symbol . adjustment) where the adjustment depends on the symbol. ;; For *undefined-warnings*, the adjustment is a list of initargs. ;; For everything else, it's an integer. (destructuring-bind (symbol . adjustment) item (case symbol ((sb-c::*undefined-warnings*) (setf sb-c::*undefined-warnings* (nconc (mapcan #'(lambda (stuff) (destructuring-bind (kind name count . rest) stuff (unless (case kind (:function (fboundp name))) (list (sb-c::make-undefined-warning :name name :kind kind :count count :warnings (mapcar #'(lambda (x) (apply #'sb-c::make-compiler-error-context x)) rest)))))) adjustment) sb-c::*undefined-warnings*))) (otherwise (set symbol (+ (symbol-value symbol) adjustment))))))) (defun reset-deferred-warnings () "Reset the set of deferred warnings to be handled at the end of the current WITH-COMPILATION-UNIT. One of three functions required for deferred-warnings support in ASDF." #+allegro (setf excl::.functions-defined. nil excl::.functions-called. nil) #+clozure (if-let (dw ccl::*outstanding-deferred-warnings*) (let ((mdw (ccl::ensure-merged-deferred-warnings dw))) (setf (ccl::deferred-warnings.warnings mdw) nil))) #+(or cmucl scl) (when lisp::*in-compilation-unit* (setf c::*undefined-warnings* nil c::*compiler-error-count* 0 c::*compiler-warning-count* 0 c::*compiler-note-count* 0)) #+sbcl (when sb-c::*in-compilation-unit* (setf sb-c::*undefined-warnings* nil sb-c::*aborted-compilation-unit-count* 0 sb-c::*compiler-error-count* 0 sb-c::*compiler-warning-count* 0 sb-c::*compiler-style-warning-count* 0 sb-c::*compiler-note-count* 0))) (defun save-deferred-warnings (warnings-file) "Save forward reference conditions so they may be issued at a latter time, possibly in a different process." (with-open-file (s warnings-file :direction :output :if-exists :supersede :element-type *default-stream-element-type* :external-format *utf-8-external-format*) (with-safe-io-syntax () (write (reify-deferred-warnings) :stream s :pretty t :readably t) (terpri s)))) (defun warnings-file-type (&optional implementation-type) "The pathname type for warnings files on given IMPLEMENTATION-TYPE, where NIL designates the current one" (case (or implementation-type *implementation-type*) ((:acl :allegro) "allegro-warnings") ;;((:clisp) "clisp-warnings") ((:cmu :cmucl) "cmucl-warnings") ((:sbcl) "sbcl-warnings") ((:clozure :ccl) "ccl-warnings") ((:scl) "scl-warnings"))) (defvar *warnings-file-type* nil "Pathname type for warnings files, or NIL if disabled") (defun enable-deferred-warnings-check () "Enable the saving of deferred warnings" (setf *warnings-file-type* (warnings-file-type))) (defun disable-deferred-warnings-check () "Disable the saving of deferred warnings" (setf *warnings-file-type* nil)) (defun warnings-file-p (file &optional implementation-type) "Is FILE a saved warnings file for the given IMPLEMENTATION-TYPE? If that given type is NIL, use the currently configured *WARNINGS-FILE-TYPE* instead." (if-let (type (if implementation-type (warnings-file-type implementation-type) *warnings-file-type*)) (equal (pathname-type file) type))) (defun check-deferred-warnings (files &optional context-format context-arguments) "Given a list of FILES containing deferred warnings saved by CALL-WITH-SAVED-DEFERRED-WARNINGS, re-intern and raise any warnings that are still meaningful." (let ((file-errors nil) (failure-p nil) (warnings-p nil)) (handler-bind ((warning #'(lambda (c) (setf warnings-p t) (unless (typep c 'style-warning) (setf failure-p t))))) (with-compilation-unit (:override t) (reset-deferred-warnings) (dolist (file files) (unreify-deferred-warnings (handler-case (safe-read-file-form file) (error (c) ;;(delete-file-if-exists file) ;; deleting forces rebuild but prevents debugging (push c file-errors) nil)))))) (dolist (error file-errors) (error error)) (check-lisp-compile-warnings (or failure-p warnings-p) failure-p context-format context-arguments))) #| Mini-guide to adding support for deferred warnings on an implementation. First, look at what such a warning looks like: (describe (handler-case (and (eval '(lambda () (some-undefined-function))) nil) (t (c) c))) Then you can grep for the condition type in your compiler sources and see how to catch those that have been deferred, and/or read, clear and restore the deferred list. Also look at (macroexpand-1 '(with-compilation-unit () foo)) |# (defun call-with-saved-deferred-warnings (thunk warnings-file &key source-namestring) "If WARNINGS-FILE is not nil, record the deferred-warnings around a call to THUNK and save those warnings to the given file for latter use, possibly in a different process. Otherwise just call THUNK." (declare (ignorable source-namestring)) (if warnings-file (with-compilation-unit (:override t #+sbcl :source-namestring #+sbcl source-namestring) (unwind-protect (let (#+sbcl (sb-c::*undefined-warnings* nil)) (multiple-value-prog1 (funcall thunk) (save-deferred-warnings warnings-file))) (reset-deferred-warnings))) (funcall thunk))) (defmacro with-saved-deferred-warnings ((warnings-file &key source-namestring) &body body) "Trivial syntax for CALL-WITH-SAVED-DEFERRED-WARNINGS" `(call-with-saved-deferred-warnings #'(lambda () ,@body) ,warnings-file :source-namestring ,source-namestring))) ;;; from ASDF (with-upgradability () (defun current-lisp-file-pathname () "Portably return the PATHNAME of the current Lisp source file being compiled or loaded" (or *compile-file-pathname* *load-pathname*)) (defun load-pathname () "Portably return the LOAD-PATHNAME of the current source file or fasl" *load-pathname*) ;; magic no longer needed for GCL. (defun lispize-pathname (input-file) "From a INPUT-FILE pathname, return a corresponding .lisp source pathname" (make-pathname :type "lisp" :defaults input-file)) (defun compile-file-type (&rest keys) "pathname TYPE for lisp FASt Loading files" (declare (ignorable keys)) #-(or clasp ecl mkcl) (load-time-value (pathname-type (compile-file-pathname "foo.lisp"))) #+(or clasp ecl mkcl) (pathname-type (apply 'compile-file-pathname "foo" keys))) (defun call-around-hook (hook function) "Call a HOOK around the execution of FUNCTION" (call-function (or hook 'funcall) function)) (defun compile-file-pathname* (input-file &rest keys &key output-file &allow-other-keys) "Variant of COMPILE-FILE-PATHNAME that works well with COMPILE-FILE*" (let* ((keys (remove-plist-keys `(#+(or (and allegro (not (version>= 8 2)))) :external-format ,@(unless output-file '(:output-file))) keys))) (if (absolute-pathname-p output-file) ;; what cfp should be doing, w/ mp* instead of mp (let* ((type (pathname-type (apply 'compile-file-type keys))) (defaults (make-pathname :type type :defaults (merge-pathnames* input-file)))) (merge-pathnames* output-file defaults)) (funcall *output-translation-function* (apply 'compile-file-pathname input-file keys))))) (defvar *compile-check* nil "A hook for user-defined compile-time invariants") (defun* (compile-file*) (input-file &rest keys &key (compile-check *compile-check*) output-file warnings-file #+clisp lib-file #+(or clasp ecl mkcl) object-file #+sbcl emit-cfasl &allow-other-keys) "This function provides a portable wrapper around COMPILE-FILE. It ensures that the OUTPUT-FILE value is only returned and the file only actually created if the compilation was successful, even though your implementation may not do that. It also checks an optional user-provided consistency function COMPILE-CHECK to determine success; it will call this function if not NIL at the end of the compilation with the arguments sent to COMPILE-FILE*, except with :OUTPUT-FILE TMP-FILE where TMP-FILE is the name of a temporary output-file. It also checks two flags (with legacy british spelling from ASDF1), *COMPILE-FILE-FAILURE-BEHAVIOUR* and *COMPILE-FILE-WARNINGS-BEHAVIOUR* with appropriate implementation-dependent defaults, and if a failure (respectively warnings) are reported by COMPILE-FILE, it will consider that an error unless the respective behaviour flag is one of :SUCCESS :WARN :IGNORE. If WARNINGS-FILE is defined, deferred warnings are saved to that file. On ECL or MKCL, it creates both the linkable object and loadable fasl files. On implementations that erroneously do not recognize standard keyword arguments, it will filter them appropriately." #+(or clasp ecl) (when (and object-file (equal (compile-file-type) (pathname object-file))) (format t "Whoa, some funky ASDF upgrade switched ~S calling convention for ~S and ~S~%" 'compile-file* output-file object-file) (rotatef output-file object-file)) (let* ((keywords (remove-plist-keys `(:output-file :compile-check :warnings-file #+clisp :lib-file #+(or clasp ecl mkcl) :object-file) keys)) (output-file (or output-file (apply 'compile-file-pathname* input-file :output-file output-file keywords))) (physical-output-file (physicalize-pathname output-file)) #+(or clasp ecl) (object-file (unless (use-ecl-byte-compiler-p) (or object-file #+ecl (compile-file-pathname output-file :type :object) #+clasp (compile-file-pathname output-file :output-type :object)))) #+mkcl (object-file (or object-file (compile-file-pathname output-file :fasl-p nil))) (tmp-file (tmpize-pathname physical-output-file)) #+sbcl (cfasl-file (etypecase emit-cfasl (null nil) ((eql t) (make-pathname :type "cfasl" :defaults physical-output-file)) (string (parse-namestring emit-cfasl)) (pathname emit-cfasl))) #+sbcl (tmp-cfasl (when cfasl-file (make-pathname :type "cfasl" :defaults tmp-file))) #+clisp (tmp-lib (make-pathname :type "lib" :defaults tmp-file))) (multiple-value-bind (output-truename warnings-p failure-p) (with-enough-pathname (input-file :defaults *base-build-directory*) (with-saved-deferred-warnings (warnings-file :source-namestring (namestring input-file)) (with-muffled-compiler-conditions () (or #-(or clasp ecl mkcl) (apply 'compile-file input-file :output-file tmp-file #+sbcl (if emit-cfasl (list* :emit-cfasl tmp-cfasl keywords) keywords) #-sbcl keywords) #+ecl (apply 'compile-file input-file :output-file (if object-file (list* object-file :system-p t keywords) (list* tmp-file keywords))) #+clasp (apply 'compile-file input-file :output-file (if object-file (list* object-file :output-type :object #|:system-p t|# keywords) (list* tmp-file keywords))) #+mkcl (apply 'compile-file input-file :output-file object-file :fasl-p nil keywords))))) (cond ((and output-truename (flet ((check-flag (flag behaviour) (or (not flag) (member behaviour '(:success :warn :ignore))))) (and (check-flag failure-p *compile-file-failure-behaviour*) (check-flag warnings-p *compile-file-warnings-behaviour*))) (progn #+(or clasp ecl mkcl) (when (and #+(or clasp ecl) object-file) (setf output-truename (compiler::build-fasl tmp-file #+(or clasp ecl) :lisp-files #+mkcl :lisp-object-files (list object-file)))) (or (not compile-check) (apply compile-check input-file :output-file output-truename keywords)))) (delete-file-if-exists physical-output-file) (when output-truename #+clasp (when output-truename (rename-file-overwriting-target tmp-file output-truename)) ;; see CLISP bug 677 #+clisp (progn (setf tmp-lib (make-pathname :type "lib" :defaults output-truename)) (unless lib-file (setf lib-file (make-pathname :type "lib" :defaults physical-output-file))) (rename-file-overwriting-target tmp-lib lib-file)) #+sbcl (when cfasl-file (rename-file-overwriting-target tmp-cfasl cfasl-file)) (rename-file-overwriting-target output-truename physical-output-file) (setf output-truename (truename physical-output-file))) #+clasp (delete-file-if-exists tmp-file) #+clisp (progn (delete-file-if-exists tmp-file) ;; this one works around clisp BUG 677 (delete-file-if-exists tmp-lib))) ;; this one is "normal" defensive cleanup (t ;; error or failed check (delete-file-if-exists output-truename) #+clisp (delete-file-if-exists tmp-lib) #+sbcl (delete-file-if-exists tmp-cfasl) (setf output-truename nil))) (values output-truename warnings-p failure-p)))) (defun load* (x &rest keys &key &allow-other-keys) "Portable wrapper around LOAD that properly handles loading from a stream." (with-muffled-loader-conditions () (etypecase x ((or pathname string #-(or allegro clozure genera) stream #+clozure file-stream) (apply 'load x keys)) ;; Genera can't load from a string-input-stream ;; ClozureCL 1.6 can only load from file input stream ;; Allegro 5, I don't remember but it must have been broken when I tested. #+(or allegro clozure genera) (stream ;; make do this way (let ((*package* *package*) (*readtable* *readtable*) (*load-pathname* nil) (*load-truename* nil)) (eval-input x)))))) (defun load-from-string (string) "Portably read and evaluate forms from a STRING." (with-input-from-string (s string) (load* s)))) ;;; Links FASLs together (with-upgradability () (defun combine-fasls (inputs output) "Combine a list of FASLs INPUTS into a single FASL OUTPUT" #-(or abcl allegro clisp clozure cmucl lispworks sbcl scl xcl) (error "~A does not support ~S~%inputs ~S~%output ~S" (implementation-type) 'combine-fasls inputs output) #+abcl (funcall 'sys::concatenate-fasls inputs output) ; requires ABCL 1.2.0 #+(or allegro clisp cmucl sbcl scl xcl) (concatenate-files inputs output) #+clozure (ccl:fasl-concatenate output inputs :if-exists :supersede) #+lispworks (let (fasls) (unwind-protect (progn (loop :for i :in inputs :for n :from 1 :for f = (add-pathname-suffix output (format nil "-FASL~D" n)) :do (copy-file i f) (push f fasls)) (ignore-errors (lispworks:delete-system :fasls-to-concatenate)) (eval `(scm:defsystem :fasls-to-concatenate (:default-pathname ,(pathname-directory-pathname output)) :members ,(loop :for f :in (reverse fasls) :collect `(,(namestring f) :load-only t)))) (scm:concatenate-system output :fasls-to-concatenate :force t)) (loop :for f :in fasls :do (ignore-errors (delete-file f))) (ignore-errors (lispworks:delete-system :fasls-to-concatenate)))))) ;;;; --------------------------------------------------------------------------- ;;;; Generic support for configuration files (uiop/package:define-package :uiop/configuration (:recycle :uiop/configuration :asdf/configuration) ;; necessary to upgrade from 2.27. (:use :uiop/common-lisp :uiop/utility :uiop/os :uiop/pathname :uiop/filesystem :uiop/stream :uiop/image :uiop/lisp-build) (:export #:user-configuration-directories #:system-configuration-directories ;; implemented in backward-driver #:in-first-directory #:in-user-configuration-directory #:in-system-configuration-directory ;; idem #:get-folder-path #:xdg-data-home #:xdg-config-home #:xdg-data-dirs #:xdg-config-dirs #:xdg-cache-home #:xdg-runtime-dir #:system-config-pathnames #:filter-pathname-set #:xdg-data-pathnames #:xdg-config-pathnames #:find-preferred-file #:xdg-data-pathname #:xdg-config-pathname #:validate-configuration-form #:validate-configuration-file #:validate-configuration-directory #:configuration-inheritance-directive-p #:report-invalid-form #:invalid-configuration #:*ignored-configuration-form* #:*user-cache* #:*clear-configuration-hook* #:clear-configuration #:register-clear-configuration-hook #:resolve-location #:location-designator-p #:location-function-p #:*here-directory* #:resolve-relative-location #:resolve-absolute-location #:upgrade-configuration)) (in-package :uiop/configuration) (with-upgradability () (define-condition invalid-configuration () ((form :reader condition-form :initarg :form) (location :reader condition-location :initarg :location) (format :reader condition-format :initarg :format) (arguments :reader condition-arguments :initarg :arguments :initform nil)) (:report (lambda (c s) (format s (compatfmt "~@<~? (will be skipped)~@:>") (condition-format c) (list* (condition-form c) (condition-location c) (condition-arguments c)))))) (defun configuration-inheritance-directive-p (x) "Is X a configuration inheritance directive?" (let ((kw '(:inherit-configuration :ignore-inherited-configuration))) (or (member x kw) (and (length=n-p x 1) (member (car x) kw))))) (defun report-invalid-form (reporter &rest args) "Report an invalid form according to REPORTER and various ARGS" (etypecase reporter (null (apply 'error 'invalid-configuration args)) (function (apply reporter args)) ((or symbol string) (apply 'error reporter args)) (cons (apply 'apply (append reporter args))))) (defvar *ignored-configuration-form* nil "Have configuration forms been ignored while parsing the configuration?") (defun validate-configuration-form (form tag directive-validator &key location invalid-form-reporter) "Validate a configuration FORM. By default it will raise an error if the FORM is not valid. Otherwise it will return the validated form. Arguments control the behavior: The configuration FORM should be of the form (TAG . ) Each element of will be checked by first seeing if it's a configuration inheritance directive (see CONFIGURATION-INHERITANCE-DIRECTIVE-P) then invoking DIRECTIVE-VALIDATOR on it. In the event of an invalid form, INVALID-FORM-REPORTER will be used to control reporting (see REPORT-INVALID-FORM) with LOCATION providing information about where the configuration form appeared." (unless (and (consp form) (eq (car form) tag)) (setf *ignored-configuration-form* t) (report-invalid-form invalid-form-reporter :form form :location location) (return-from validate-configuration-form nil)) (loop :with inherit = 0 :with ignore-invalid-p = nil :with x = (list tag) :for directive :in (cdr form) :when (cond ((configuration-inheritance-directive-p directive) (incf inherit) t) ((eq directive :ignore-invalid-entries) (setf ignore-invalid-p t) t) ((funcall directive-validator directive) t) (ignore-invalid-p nil) (t (setf *ignored-configuration-form* t) (report-invalid-form invalid-form-reporter :form directive :location location) nil)) :do (push directive x) :finally (unless (= inherit 1) (report-invalid-form invalid-form-reporter :form form :location location ;; we throw away the form and location arguments, hence the ~2* ;; this is necessary because of the report in INVALID-CONFIGURATION :format (compatfmt "~@") :arguments '(:inherit-configuration :ignore-inherited-configuration))) (return (nreverse x)))) (defun validate-configuration-file (file validator &key description) "Validate a configuration FILE. The configuration file should have only one s-expression in it, which will be checked with the VALIDATOR FORM. DESCRIPTION argument used for error reporting." (let ((forms (read-file-forms file))) (unless (length=n-p forms 1) (error (compatfmt "~@~%") description forms)) (funcall validator (car forms) :location file))) (defun validate-configuration-directory (directory tag validator &key invalid-form-reporter) "Map the VALIDATOR across the .conf files in DIRECTORY, the TAG will be applied to the results to yield a configuration form. Current values of TAG include :source-registry and :output-translations." (let ((files (sort (ignore-errors ;; SORT w/o COPY-LIST is OK: DIRECTORY returns a fresh list (remove-if 'hidden-pathname-p (directory* (make-pathname :name *wild* :type "conf" :defaults directory)))) #'string< :key #'namestring))) `(,tag ,@(loop :for file :in files :append (loop :with ignore-invalid-p = nil :for form :in (read-file-forms file) :when (eq form :ignore-invalid-entries) :do (setf ignore-invalid-p t) :else :when (funcall validator form) :collect form :else :when ignore-invalid-p :do (setf *ignored-configuration-form* t) :else :do (report-invalid-form invalid-form-reporter :form form :location file))) :inherit-configuration))) (defun resolve-relative-location (x &key ensure-directory wilden) "Given a designator X for an relative location, resolve it to a pathname." (ensure-pathname (etypecase x (null nil) (pathname x) (string (parse-unix-namestring x :ensure-directory ensure-directory)) (cons (if (null (cdr x)) (resolve-relative-location (car x) :ensure-directory ensure-directory :wilden wilden) (let* ((car (resolve-relative-location (car x) :ensure-directory t :wilden nil))) (merge-pathnames* (resolve-relative-location (cdr x) :ensure-directory ensure-directory :wilden wilden) car)))) ((eql :*/) *wild-directory*) ((eql :**/) *wild-inferiors*) ((eql :*.*.*) *wild-file*) ((eql :implementation) (parse-unix-namestring (implementation-identifier) :ensure-directory t)) ((eql :implementation-type) (parse-unix-namestring (string-downcase (implementation-type)) :ensure-directory t)) ((eql :hostname) (parse-unix-namestring (hostname) :ensure-directory t))) :wilden (and wilden (not (pathnamep x)) (not (member x '(:*/ :**/ :*.*.*)))) :want-relative t)) (defvar *here-directory* nil "This special variable is bound to the currect directory during calls to PROCESS-SOURCE-REGISTRY in order that we be able to interpret the :here directive.") (defvar *user-cache* nil "A specification as per RESOLVE-LOCATION of where the user keeps his FASL cache") (defun resolve-absolute-location (x &key ensure-directory wilden) "Given a designator X for an absolute location, resolve it to a pathname" (ensure-pathname (etypecase x (null nil) (pathname x) (string (let ((p #-mcl (parse-namestring x) #+mcl (probe-posix x))) #+mcl (unless p (error "POSIX pathname ~S does not exist" x)) (if ensure-directory (ensure-directory-pathname p) p))) (cons (return-from resolve-absolute-location (if (null (cdr x)) (resolve-absolute-location (car x) :ensure-directory ensure-directory :wilden wilden) (merge-pathnames* (resolve-relative-location (cdr x) :ensure-directory ensure-directory :wilden wilden) (resolve-absolute-location (car x) :ensure-directory t :wilden nil))))) ((eql :root) ;; special magic! we return a relative pathname, ;; but what it means to the output-translations is ;; "relative to the root of the source pathname's host and device". (return-from resolve-absolute-location (let ((p (make-pathname :directory '(:relative)))) (if wilden (wilden p) p)))) ((eql :home) (user-homedir-pathname)) ((eql :here) (resolve-absolute-location (or *here-directory* (pathname-directory-pathname (load-pathname))) :ensure-directory t :wilden nil)) ((eql :user-cache) (resolve-absolute-location *user-cache* :ensure-directory t :wilden nil))) :wilden (and wilden (not (pathnamep x))) :resolve-symlinks *resolve-symlinks* :want-absolute t)) ;; Try to override declaration in previous versions of ASDF. (declaim (ftype (function (t &key (:directory boolean) (:wilden boolean) (:ensure-directory boolean)) t) resolve-location)) (defun* (resolve-location) (x &key ensure-directory wilden directory) "Resolve location designator X into a PATHNAME" ;; :directory backward compatibility, until 2014-01-16: accept directory as well as ensure-directory (loop* :with dirp = (or directory ensure-directory) :with (first . rest) = (if (atom x) (list x) x) :with path = (or (resolve-absolute-location first :ensure-directory (and (or dirp rest) t) :wilden (and wilden (null rest))) (return nil)) :for (element . morep) :on rest :for dir = (and (or morep dirp) t) :for wild = (and wilden (not morep)) :for sub = (merge-pathnames* (resolve-relative-location element :ensure-directory dir :wilden wild) path) :do (setf path (if (absolute-pathname-p sub) (resolve-symlinks* sub) sub)) :finally (return path))) (defun location-designator-p (x) "Is X a designator for a location?" ;; NIL means "skip this entry", or as an output translation, same as translation input. ;; T means "any input" for a translation, or as output, same as translation input. (flet ((absolute-component-p (c) (typep c '(or string pathname (member :root :home :here :user-cache)))) (relative-component-p (c) (typep c '(or string pathname (member :*/ :**/ :*.*.* :implementation :implementation-type))))) (or (typep x 'boolean) (absolute-component-p x) (and (consp x) (absolute-component-p (first x)) (every #'relative-component-p (rest x)))))) (defun location-function-p (x) "Is X the specification of a location function?" ;; Location functions are allowed in output translations, and notably used by ABCL for JAR file support. (and (length=n-p x 2) (eq (car x) :function))) (defvar *clear-configuration-hook* '()) (defun register-clear-configuration-hook (hook-function &optional call-now-p) "Register a function to be called when clearing configuration" (register-hook-function '*clear-configuration-hook* hook-function call-now-p)) (defun clear-configuration () "Call the functions in *CLEAR-CONFIGURATION-HOOK*" (call-functions *clear-configuration-hook*)) (register-image-dump-hook 'clear-configuration) (defun upgrade-configuration () "If a previous version of ASDF failed to read some configuration, try again now." (when *ignored-configuration-form* (clear-configuration) (setf *ignored-configuration-form* nil))) (defun get-folder-path (folder) "Semi-portable implementation of a subset of LispWorks' sys:get-folder-path, this function tries to locate the Windows FOLDER for one of :LOCAL-APPDATA, :APPDATA or :COMMON-APPDATA. Returns NIL when the folder is not defined (e.g., not on Windows)." (or #+(and lispworks mswindows) (sys:get-folder-path folder) ;; read-windows-registry HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows\CurrentVersion\Explorer\User Shell Folders\AppData (ecase folder (:local-appdata (or (getenv-absolute-directory "LOCALAPPDATA") (subpathname* (get-folder-path :appdata) "Local"))) (:appdata (getenv-absolute-directory "APPDATA")) (:common-appdata (or (getenv-absolute-directory "ALLUSERSAPPDATA") (subpathname* (getenv-absolute-directory "ALLUSERSPROFILE") "Application Data/")))))) ;; Support for the XDG Base Directory Specification (defun xdg-data-home (&rest more) "Returns an absolute pathname for the directory containing user-specific data files. MORE may contain specifications for a subpath relative to this directory: a subpathname specification and keyword arguments as per RESOLVE-LOCATION \(see also \"Configuration DSL\"\) in the ASDF manual." (resolve-absolute-location `(,(or (getenv-absolute-directory "XDG_DATA_HOME") (os-cond ((os-windows-p) (get-folder-path :local-appdata)) (t (subpathname (user-homedir-pathname) ".local/share/")))) ,more))) (defun xdg-config-home (&rest more) "Returns a pathname for the directory containing user-specific configuration files. MORE may contain specifications for a subpath relative to this directory: a subpathname specification and keyword arguments as per RESOLVE-LOCATION \(see also \"Configuration DSL\"\) in the ASDF manual." (resolve-absolute-location `(,(or (getenv-absolute-directory "XDG_CONFIG_HOME") (os-cond ((os-windows-p) (xdg-data-home "config/")) (t (subpathname (user-homedir-pathname) ".config/")))) ,more))) (defun xdg-data-dirs (&rest more) "The preference-ordered set of additional paths to search for data files. Returns a list of absolute directory pathnames. MORE may contain specifications for a subpath relative to these directories: a subpathname specification and keyword arguments as per RESOLVE-LOCATION \(see also \"Configuration DSL\"\) in the ASDF manual." (mapcar #'(lambda (d) (resolve-location `(,d ,more))) (or (getenv-absolute-directories "XDG_DATA_DIRS") (os-cond ((os-windows-p) (mapcar 'get-folder-path '(:appdata :common-appdata))) (t (mapcar 'parse-unix-namestring '("/usr/local/share/" "/usr/share/"))))))) (defun xdg-config-dirs (&rest more) "The preference-ordered set of additional base paths to search for configuration files. Returns a list of absolute directory pathnames. MORE may contain specifications for a subpath relative to these directories: subpathname specification and keyword arguments as per RESOLVE-LOCATION \(see also \"Configuration DSL\"\) in the ASDF manual." (mapcar #'(lambda (d) (resolve-location `(,d ,more))) (or (getenv-absolute-directories "XDG_CONFIG_DIRS") (os-cond ((os-windows-p) (xdg-data-dirs "config/")) (t (mapcar 'parse-unix-namestring '("/etc/xdg/"))))))) (defun xdg-cache-home (&rest more) "The base directory relative to which user specific non-essential data files should be stored. Returns an absolute directory pathname. MORE may contain specifications for a subpath relative to this directory: a subpathname specification and keyword arguments as per RESOLVE-LOCATION \(see also \"Configuration DSL\"\) in the ASDF manual." (resolve-absolute-location `(,(or (getenv-absolute-directory "XDG_CACHE_HOME") (os-cond ((os-windows-p) (xdg-data-home "cache/")) (t (subpathname* (user-homedir-pathname) ".cache/")))) ,more))) (defun xdg-runtime-dir (&rest more) "Pathname for user-specific non-essential runtime files and other file objects, such as sockets, named pipes, etc. Returns an absolute directory pathname. MORE may contain specifications for a subpath relative to this directory: a subpathname specification and keyword arguments as per RESOLVE-LOCATION \(see also \"Configuration DSL\"\) in the ASDF manual." ;; The XDG spec says that if not provided by the login system, the application should ;; issue a warning and provide a replacement. UIOP is not equipped to do that and returns NIL. (resolve-absolute-location `(,(getenv-absolute-directory "XDG_RUNTIME_DIR") ,more))) ;;; NOTE: modified the docstring because "system user configuration ;;; directories" seems self-contradictory. I'm not sure my wording is right. (defun system-config-pathnames (&rest more) "Return a list of directories where are stored the system's default user configuration information. MORE may contain specifications for a subpath relative to these directories: a subpathname specification and keyword arguments as per RESOLVE-LOCATION \(see also \"Configuration DSL\"\) in the ASDF manual." (declare (ignorable more)) (os-cond ((os-unix-p) (list (resolve-absolute-location `(,(parse-unix-namestring "/etc/") ,more)))))) (defun filter-pathname-set (dirs) "Parse strings as unix namestrings and remove duplicates and non absolute-pathnames in a list." (remove-duplicates (remove-if-not #'absolute-pathname-p dirs) :from-end t :test 'equal)) (defun xdg-data-pathnames (&rest more) "Return a list of absolute pathnames for application data directories. With APP, returns directory for data for that application, without APP, returns the set of directories for storing all application configurations. MORE may contain specifications for a subpath relative to these directories: a subpathname specification and keyword arguments as per RESOLVE-LOCATION \(see also \"Configuration DSL\"\) in the ASDF manual." (filter-pathname-set `(,(xdg-data-home more) ,@(xdg-data-dirs more)))) (defun xdg-config-pathnames (&rest more) "Return a list of pathnames for application configuration. MORE may contain specifications for a subpath relative to these directories: a subpathname specification and keyword arguments as per RESOLVE-LOCATION \(see also \"Configuration DSL\"\) in the ASDF manual." (filter-pathname-set `(,(xdg-config-home more) ,@(xdg-config-dirs more)))) (defun find-preferred-file (files &key (direction :input)) "Find first file in the list of FILES that exists (for direction :input or :probe) or just the first one (for direction :output or :io). Note that when we say \"file\" here, the files in question may be directories." (find-if (ecase direction ((:probe :input) 'probe-file*) ((:output :io) 'identity)) files)) (defun xdg-data-pathname (&optional more (direction :input)) (find-preferred-file (xdg-data-pathnames more) :direction direction)) (defun xdg-config-pathname (&optional more (direction :input)) (find-preferred-file (xdg-config-pathnames more) :direction direction)) (defun compute-user-cache () "Compute (and return) the location of the default user-cache for translate-output objects. Side-effects for cached file location computation." (setf *user-cache* (xdg-cache-home "common-lisp" :implementation))) (register-image-restore-hook 'compute-user-cache)) ;;;; ------------------------------------------------------------------------- ;;; Hacks for backward-compatibility of the driver (uiop/package:define-package :uiop/backward-driver (:use :uiop/common-lisp :uiop/package :uiop/utility :uiop/pathname :uiop/stream :uiop/os :uiop/image :uiop/run-program :uiop/lisp-build :uiop/configuration) (:export #:coerce-pathname #:user-configuration-directories #:system-configuration-directories #:in-first-directory #:in-user-configuration-directory #:in-system-configuration-directory )) (in-package :uiop/backward-driver) ;;;; Backward compatibility with various pathname functions. (with-upgradability () (defun coerce-pathname (name &key type defaults) ;; For backward-compatibility only, for people using internals ;; Reported users in quicklisp 2015-11: hu.dwim.asdf (removed in next release) ;; Will be removed after 2015-12. ;;(warn "Please don't use ASDF::COERCE-PATHNAME. Use ASDF/PATHNAME:PARSE-UNIX-NAMESTRING.") (parse-unix-namestring name :type type :defaults defaults)) ;; Backward compatibility for ASDF 2.27 to 3.1.4 (defun user-configuration-directories () "Return the current user's list of user configuration directories for configuring common-lisp. DEPRECATED. Use uiop:xdg-config-pathnames instead." (xdg-config-pathnames "common-lisp")) (defun system-configuration-directories () "Return the list of system configuration directories for common-lisp. DEPRECATED. Use uiop:config-system-pathnames instead." (system-config-pathnames "common-lisp")) (defun in-first-directory (dirs x &key (direction :input)) "Finds the first appropriate file named X in the list of DIRS for I/O in DIRECTION \(which may be :INPUT, :OUTPUT, :IO, or :PROBE). If direction is :INPUT or :PROBE, will return the first extant file named X in one of the DIRS. If direction is :OUTPUT or :IO, will simply return the file named X in the first element of DIRS that exists. DEPRECATED." (find-preferred-file (mapcar #'(lambda (dir) (subpathname (ensure-directory-pathname dir) x)) dirs) :direction direction)) (defun in-user-configuration-directory (x &key (direction :input)) "Return the file named X in the user configuration directory for common-lisp. DEPRECATED." (xdg-config-pathname `("common-lisp" ,x) direction)) (defun in-system-configuration-directory (x &key (direction :input)) "Return the pathname for the file named X under the system configuration directory for common-lisp. DEPRECATED." (find-preferred-file (system-config-pathnames "common-lisp" x) :direction direction))) ;;;; --------------------------------------------------------------------------- ;;;; Re-export all the functionality in UIOP (uiop/package:define-package :uiop/driver (:nicknames :uiop :asdf/driver) ;; asdf/driver is obsolete (uiop isn't); ;; but asdf/driver is still used by swap-bytes, static-vectors. (:use :uiop/common-lisp) ;; NB: not reexporting uiop/common-lisp ;; which include all of CL with compatibility modifications on select platforms, ;; that could cause potential conflicts for packages that would :use (cl uiop) ;; or :use (closer-common-lisp uiop), etc. (:use-reexport :uiop/package :uiop/utility :uiop/os :uiop/pathname :uiop/filesystem :uiop/stream :uiop/image :uiop/run-program :uiop/lisp-build :uiop/configuration :uiop/backward-driver)) ;; Provide both lowercase and uppercase, to satisfy more people. (provide "uiop") (provide "UIOP") ;;;; ------------------------------------------------------------------------- ;;;; Handle upgrade as forward- and backward-compatibly as possible ;; See https://bugs.launchpad.net/asdf/+bug/485687 (uiop/package:define-package :asdf/upgrade (:recycle :asdf/upgrade :asdf) (:use :uiop/common-lisp :uiop) (:export #:asdf-version #:*previous-asdf-versions* #:*asdf-version* #:asdf-message #:*verbose-out* #:upgrading-p #:when-upgrading #:upgrade-asdf #:defparameter* #:*post-upgrade-cleanup-hook* #:cleanup-upgraded-asdf ;; There will be no symbol left behind! #:intern*) (:import-from :uiop/package #:intern* #:find-symbol*)) (in-package :asdf/upgrade) ;;; Special magic to detect if this is an upgrade (with-upgradability () (defun asdf-version () "Exported interface to the version of ASDF currently installed. A string. You can compare this string with e.g.: (ASDF:VERSION-SATISFIES (ASDF:ASDF-VERSION) \"3.4.5.67\")." (when (find-package :asdf) (or (symbol-value (find-symbol (string :*asdf-version*) :asdf)) (let* ((revsym (find-symbol (string :*asdf-revision*) :asdf)) (rev (and revsym (boundp revsym) (symbol-value revsym)))) (etypecase rev (string rev) (cons (format nil "~{~D~^.~}" rev)) (null "1.0")))))) ;; This (private) variable contains a list of versions of previously loaded variants of ASDF, ;; from which ASDF was upgraded. ;; Important: define *p-a-v* /before/ *a-v* so that they initialize correctly. (defvar *previous-asdf-versions* (let ((previous (asdf-version))) (when previous ;; Punt on hard package upgrade: from ASDF1 or ASDF2 (when (version< previous "2.27") ;; 2.27 is the first to have the :asdf3 feature. (let ((away (format nil "~A-~A" :asdf previous))) (rename-package :asdf away) (when *load-verbose* (format t "~&; Renamed old ~A package away to ~A~%" :asdf away))))) (list previous))) ;; This public variable will be bound shortly to the currently loaded version of ASDF. (defvar *asdf-version* nil) ;; We need to clear systems from versions older than the one in this (private) parameter: (defparameter *oldest-forward-compatible-asdf-version* "2.33") ;; 2.32.13 renames a slot in component. ;; Semi-private variable: a designator for a stream on which to output ASDF progress messages (defvar *verbose-out* nil) ;; Private function by which ASDF outputs progress messages and warning messages: (defun asdf-message (format-string &rest format-args) (when *verbose-out* (apply 'format *verbose-out* format-string format-args))) ;; Private hook for functions to run after ASDF has upgraded itself from an older variant: (defvar *post-upgrade-cleanup-hook* ()) ;; Private function to detect whether the current upgrade counts as an incompatible ;; data schema upgrade implying the need to drop data. (defun upgrading-p (&optional (oldest-compatible-version *oldest-forward-compatible-asdf-version*)) (and *previous-asdf-versions* (version< (first *previous-asdf-versions*) oldest-compatible-version))) ;; Private variant of defparameter that works in presence of incompatible upgrades: ;; behaves like defvar in a compatible upgrade (e.g. reloading system after simple code change), ;; but behaves like defparameter if in presence of an incompatible upgrade. (defmacro defparameter* (var value &optional docstring (version *oldest-forward-compatible-asdf-version*)) (let* ((name (string-trim "*" var)) (valfun (intern (format nil "%~A-~A-~A" :compute name :value)))) `(progn (defun ,valfun () ,value) (defvar ,var (,valfun) ,@(ensure-list docstring)) (when (upgrading-p ,version) (setf ,var (,valfun)))))) ;; Private macro to declare sections of code that are only compiled and run when upgrading. ;; The use of eval portably ensures that the code will not have adverse compile-time side-effects, ;; whereas the use of handler-bind portably ensures that it will not issue warnings when it runs. (defmacro when-upgrading ((&key (version *oldest-forward-compatible-asdf-version*) (upgrading-p `(upgrading-p ,version)) when) &body body) "A wrapper macro for code that should only be run when upgrading a previously-loaded version of ASDF." `(with-upgradability () (when (and ,upgrading-p ,@(when when `(,when))) (handler-bind ((style-warning #'muffle-warning)) (eval '(progn ,@body)))))) ;; Only now can we safely update the version. (let* (;; For bug reporting sanity, please always bump this version when you modify this file. ;; Please also modify asdf.asd to reflect this change. make bump-version v=3.4.5.67.8 ;; can help you do these changes in synch (look at the source for documentation). ;; Relying on its automation, the version is now redundantly present on top of asdf.lisp. ;; "3.4" would be the general branch for major version 3, minor version 4. ;; "3.4.5" would be an official release in the 3.4 branch. ;; "3.4.5.67" would be a development version in the official branch, on top of 3.4.5. ;; "3.4.5.0.8" would be your eighth local modification of official release 3.4.5 ;; "3.4.5.67.8" would be your eighth local modification of development version 3.4.5.67 (asdf-version "3.1.7.27") (existing-version (asdf-version))) (setf *asdf-version* asdf-version) (when (and existing-version (not (equal asdf-version existing-version))) (push existing-version *previous-asdf-versions*) (when (or *verbose-out* *load-verbose*) (format (or *verbose-out* *trace-output*) (compatfmt "~&~@<; ~@;Upgrading ASDF ~@[from version ~A ~]to version ~A~@:>~%") existing-version asdf-version))))) ;;; Upon upgrade, specially frob some functions and classes that are being incompatibly redefined (when-upgrading () (let ((redefined-functions ;; gf signature and/or semantics changed incompatibly. Oops. ;; NB: it's too late to do anything about functions in UIOP! ;; If you introduce some critically incompatibility there, you must change name. '()) ;; empty now that we don't unintern, but wholly punt on ASDF 2.26 or earlier. (redefined-classes ;; redefining the classes causes interim circularities ;; with the old ASDF during upgrade, and many implementations bork '((#:compile-concatenated-source-op (#:operation) ())))) (loop :for name :in redefined-functions :for sym = (find-symbol* name :asdf nil) :do (when sym ;; CLISP seemingly can't fmakunbound and define a function in the same fasl. Sigh. #-clisp (fmakunbound sym))) (labels ((asym (x) (multiple-value-bind (s p) (if (consp x) (values (car x) (cadr x)) (values x :asdf)) (find-symbol* s p nil))) (asyms (l) (mapcar #'asym l))) (loop* :for (name superclasses slots) :in redefined-classes :for sym = (find-symbol* name :asdf nil) :when (and sym (find-class sym)) :do (eval `(defclass ,sym ,(asyms superclasses) ,(asyms slots))))))) ;;; Self-upgrade functions (with-upgradability () ;; This private function is called at the end of asdf/footer and ensures that, ;; *if* this loading of ASDF was an upgrade, then all registered cleanup functions will be called. (defun cleanup-upgraded-asdf (&optional (old-version (first *previous-asdf-versions*))) (let ((new-version (asdf-version))) (unless (equal old-version new-version) (push new-version *previous-asdf-versions*) (when old-version (if (version<= new-version old-version) (error (compatfmt "~&~@<; ~@;Downgraded ASDF from version ~A to version ~A~@:>~%") old-version new-version) (asdf-message (compatfmt "~&~@<; ~@;Upgraded ASDF from version ~A to version ~A~@:>~%") old-version new-version)) ;; In case the previous version was too old to be forward-compatible, clear systems. ;; TODO: if needed, we may have to define a separate hook to run ;; in case of forward-compatible upgrade. ;; Or to move the tests forward-compatibility test inside each hook function? (unless (version<= *oldest-forward-compatible-asdf-version* old-version) (call-functions (reverse *post-upgrade-cleanup-hook*))) t)))) (defun upgrade-asdf () "Try to upgrade of ASDF. If a different version was used, return T. We need do that before we operate on anything that may possibly depend on ASDF." (let ((*load-print* nil) (*compile-print* nil)) (handler-bind (((or style-warning) #'muffle-warning)) (symbol-call :asdf :load-system :asdf :verbose nil))))) ;;;; ------------------------------------------------------------------------- ;;;; Components (uiop/package:define-package :asdf/component (:recycle :asdf/component :asdf/defsystem :asdf/find-system :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade) (:export #:component #:component-find-path #:component-name #:component-pathname #:component-relative-pathname #:component-parent #:component-system #:component-parent-pathname #:child-component #:parent-component #:module #:file-component #:source-file #:c-source-file #:java-source-file #:static-file #:doc-file #:html-file #:file-type #:source-file-type #:source-file-explicit-type ;; backward-compatibility #:component-in-order-to #:component-sideway-dependencies #:component-if-feature #:around-compile-hook #:component-description #:component-long-description #:component-version #:version-satisfies #:component-inline-methods ;; backward-compatibility only. DO NOT USE! #:component-operation-times ;; For internal use only. ;; portable ASDF encoding and implementation-specific external-format #:component-external-format #:component-encoding #:component-children-by-name #:component-children #:compute-children-by-name #:component-build-operation #:module-default-component-class #:module-components ;; backward-compatibility. DO NOT USE. #:sub-components ;; conditions #:system-definition-error ;; top level, moved here because this is the earliest place for it. #:duplicate-names ;; Internals we'd like to share with the ASDF package, especially for upgrade purposes #:name #:version #:description #:long-description #:author #:maintainer #:licence #:components-by-name #:components #:children #:children-by-name #:default-component-class #:source-file #:defsystem-depends-on ; This symbol retained for backward compatibility. #:sideway-dependencies #:if-feature #:in-order-to #:inline-methods #:relative-pathname #:absolute-pathname #:operation-times #:around-compile #:%encoding #:properties #:component-properties #:parent)) (in-package :asdf/component) (with-upgradability () (defgeneric component-name (component) (:documentation "Name of the COMPONENT, unique relative to its parent")) (defgeneric component-system (component) (:documentation "Top-level system containing the COMPONENT")) (defgeneric component-pathname (component) (:documentation "Pathname of the COMPONENT if any, or NIL.")) (defgeneric* (component-relative-pathname) (component) ;; in ASDF4, rename that to component-specified-pathname ? (:documentation "Specified pathname of the COMPONENT, intended to be merged with the pathname of that component's parent if any, using merged-pathnames*. Despite the function's name, the return value can be an absolute pathname, in which case the merge will leave it unmodified.")) (defgeneric component-external-format (component) (:documentation "The external-format of the COMPONENT. By default, deduced from the COMPONENT-ENCODING.")) (defgeneric component-encoding (component) (:documentation "The encoding of the COMPONENT. By default, only :utf-8 is supported. Use asdf-encodings to support more encodings.")) (defgeneric version-satisfies (component version) (:documentation "Check whether a COMPONENT satisfies the constraint of being at least as recent as the specified VERSION, which must be a string of dot-separated natural numbers, or NIL.")) (defgeneric component-version (component) (:documentation "Return the version of a COMPONENT, which must be a string of dot-separated natural numbers, or NIL.")) (defgeneric (setf component-version) (new-version component) (:documentation "Updates the version of a COMPONENT, which must be a string of dot-separated natural numbers, or NIL.")) (defgeneric component-parent (component) (:documentation "The parent of a child COMPONENT, or NIL for top-level components (a.k.a. systems)")) ;; NIL is a designator for the absence of a component, in which case the parent is also absent. (defmethod component-parent ((component null)) nil) ;; Deprecated: Backward compatible way of computing the FILE-TYPE of a component. ;; TODO: find users, have them stop using that, remove it for ASDF4. (defgeneric* (source-file-type) (component system) (:documentation "DEPRECATED. Use the FILE-TYPE of a COMPONENT instead.")) (define-condition system-definition-error (error) () ;; [this use of :report should be redundant, but unfortunately it's not. ;; cmucl's lisp::output-instance prefers the kernel:slot-class-print-function ;; over print-object; this is always conditions::%print-condition for ;; condition objects, which in turn does inheritance of :report options at ;; run-time. fortunately, inheritance means we only need this kludge here in ;; order to fix all conditions that build on it. -- rgr, 28-Jul-02.] #+cmucl (:report print-object)) (define-condition duplicate-names (system-definition-error) ((name :initarg :name :reader duplicate-names-name)) (:report (lambda (c s) (format s (compatfmt "~@") (duplicate-names-name c)))))) (with-upgradability () (defclass component () ((name :accessor component-name :initarg :name :type string :documentation "Component name: designator for a string composed of portable pathname characters") ;; We might want to constrain version with ;; :type (and string (satisfies parse-version)) ;; but we cannot until we fix all systems that don't use it correctly! (version :accessor component-version :initarg :version :initform nil) (description :accessor component-description :initarg :description :initform nil) (long-description :accessor component-long-description :initarg :long-description :initform nil) (sideway-dependencies :accessor component-sideway-dependencies :initform nil) (if-feature :accessor component-if-feature :initform nil :initarg :if-feature) ;; In the ASDF object model, dependencies exist between *actions*, ;; where an action is a pair of an operation and a component. ;; Dependencies are represented as alists of operations ;; to a list where each entry is a pair of an operation and a list of component specifiers. ;; Up until ASDF 2.26.9, there used to be two kinds of dependencies: ;; in-order-to and do-first, each stored in its own slot. Now there is only in-order-to. ;; in-order-to used to represent things that modify the filesystem (such as compiling a fasl) ;; and do-first things that modify the current image (such as loading a fasl). ;; These are now unified because we now correctly propagate timestamps between dependencies. ;; Happily, no one seems to have used do-first too much (especially since until ASDF 2.017, ;; anything you specified was overridden by ASDF itself anyway), but the name in-order-to remains. ;; The names are bad, but they have been the official API since Dan Barlow's ASDF 1.52! ;; LispWorks's defsystem has caused-by and requires for in-order-to and do-first respectively. ;; Maybe rename the slots in ASDF? But that's not very backward-compatible. ;; See our ASDF 2 paper for more complete explanations. (in-order-to :initform nil :initarg :in-order-to :accessor component-in-order-to) ;; Methods defined using the "inline" style inside a defsystem form: ;; we store them here so we can delete them when the system is re-evaluated. (inline-methods :accessor component-inline-methods :initform nil) ;; ASDF4: rename it from relative-pathname to specified-pathname. It need not be relative. ;; There is no initform and no direct accessor for this specified pathname, ;; so we only access the information through appropriate methods, after it has been processed. ;; Unhappily, some braindead systems directly access the slot. Make them stop before ASDF4. (relative-pathname :initarg :pathname) ;; The absolute-pathname is computed based on relative-pathname and parent pathname. ;; The slot is but a cache used by component-pathname. (absolute-pathname) (operation-times :initform (make-hash-table) :accessor component-operation-times) (around-compile :initarg :around-compile) ;; Properties are for backward-compatibility with ASDF2 only. DO NOT USE! (properties :accessor component-properties :initarg :properties :initform nil) (%encoding :accessor %component-encoding :initform nil :initarg :encoding) ;; For backward-compatibility, this slot is part of component rather than of child-component. ASDF4: stop it. (parent :initarg :parent :initform nil :reader component-parent) (build-operation :initarg :build-operation :initform nil :reader component-build-operation)) (:documentation "Base class for all components of a build")) (defun component-find-path (component) "Return a path from a root system to the COMPONENT. The return value is a list of component NAMES; a list of strings." (check-type component (or null component)) (reverse (loop :for c = component :then (component-parent c) :while c :collect (component-name c)))) (defmethod print-object ((c component) stream) (print-unreadable-object (c stream :type t :identity nil) (format stream "~{~S~^ ~}" (component-find-path c)))) (defmethod component-system ((component component)) (if-let (system (component-parent component)) (component-system system) component))) ;;;; Component hierarchy within a system ;; The tree typically but not necessarily follows the filesystem hierarchy. (with-upgradability () (defclass child-component (component) () (:documentation "A CHILD-COMPONENT is a COMPONENT that may be part of a PARENT-COMPONENT.")) (defclass file-component (child-component) ((type :accessor file-type :initarg :type)) ; no default (:documentation "a COMPONENT that represents a file")) (defclass source-file (file-component) ((type :accessor source-file-explicit-type ;; backward-compatibility :initform nil))) ;; NB: many systems have come to rely on this default. (defclass c-source-file (source-file) ((type :initform "c"))) (defclass java-source-file (source-file) ((type :initform "java"))) (defclass static-file (source-file) ((type :initform nil)) (:documentation "Component for a file to be included as is in the build output")) (defclass doc-file (static-file) ()) (defclass html-file (doc-file) ((type :initform "html"))) (defclass parent-component (component) ((children :initform nil :initarg :components :reader module-components ; backward-compatibility :accessor component-children) (children-by-name :reader module-components-by-name ; backward-compatibility :accessor component-children-by-name) (default-component-class :initform nil :initarg :default-component-class :accessor module-default-component-class)) (:documentation "A PARENT-COMPONENT is a component that may have children."))) (with-upgradability () ;; (Private) Function that given a PARENT component, ;; the list of children of which has been initialized, ;; compute the hash-table in slot children-by-name that allows to retrieve its children by name. ;; If ONLY-IF-NEEDED-P is defined, skip any (re)computation if the slot is already populated. (defun compute-children-by-name (parent &key only-if-needed-p) (unless (and only-if-needed-p (slot-boundp parent 'children-by-name)) (let ((hash (make-hash-table :test 'equal))) (setf (component-children-by-name parent) hash) (loop :for c :in (component-children parent) :for name = (component-name c) :for previous = (gethash name hash) :do (when previous (error 'duplicate-names :name name)) (setf (gethash name hash) c)) hash)))) (with-upgradability () (defclass module (child-component parent-component) (#+clisp (components)) ;; backward compatibility during upgrade only (:documentation "A module is a intermediate component with both a parent and children, typically but not necessarily representing the files in a subdirectory of the build source."))) ;;;; component pathnames (with-upgradability () (defgeneric* (component-parent-pathname) (component) (:documentation "The pathname of the COMPONENT's parent, if any, or NIL")) (defmethod component-parent-pathname (component) (component-pathname (component-parent component))) ;; The default method for component-pathname tries to extract a cached precomputed ;; absolute-pathname from the relevant slot, and if not, computes it by merging the ;; component-relative-pathname (which should be component-specified-pathname, it can be absolute) ;; with the directory of the component-parent-pathname. (defmethod component-pathname ((component component)) (if (slot-boundp component 'absolute-pathname) (slot-value component 'absolute-pathname) (let ((pathname (merge-pathnames* (component-relative-pathname component) (pathname-directory-pathname (component-parent-pathname component))))) (unless (or (null pathname) (absolute-pathname-p pathname)) (error (compatfmt "~@") pathname (component-find-path component))) (setf (slot-value component 'absolute-pathname) pathname) pathname))) ;; Default method for component-relative-pathname: ;; combine the contents of slot relative-pathname (from specified initarg :pathname) ;; with the appropriate source-file-type, which defaults to the file-type of the component. (defmethod component-relative-pathname ((component component)) ;; SOURCE-FILE-TYPE below is strictly for backward-compatibility with ASDF1. ;; We ought to be able to extract this from the component alone with FILE-TYPE. ;; TODO: track who uses it in Quicklisp, and have them not use it anymore; ;; maybe issue a WARNING (then eventually CERROR) if the two methods diverge? (parse-unix-namestring (or (and (slot-boundp component 'relative-pathname) (slot-value component 'relative-pathname)) (component-name component)) :want-relative t :type (source-file-type component (component-system component)) :defaults (component-parent-pathname component))) (defmethod source-file-type ((component parent-component) (system parent-component)) :directory) (defmethod source-file-type ((component file-component) (system parent-component)) (file-type component))) ;;;; Encodings (with-upgradability () (defmethod component-encoding ((c component)) (or (loop :for x = c :then (component-parent x) :while x :thereis (%component-encoding x)) (detect-encoding (component-pathname c)))) (defmethod component-external-format ((c component)) (encoding-external-format (component-encoding c)))) ;;;; around-compile-hook (with-upgradability () (defgeneric around-compile-hook (component) (:documentation "An optional hook function that will be called with one argument, a thunk. The hook function must call the thunk, that will compile code from the component, and may or may not also evaluate the compiled results. The hook function may establish dynamic variable bindings around this compilation, or check its results, etc.")) (defmethod around-compile-hook ((c component)) (cond ((slot-boundp c 'around-compile) (slot-value c 'around-compile)) ((component-parent c) (around-compile-hook (component-parent c)))))) ;;;; version-satisfies (with-upgradability () ;; short-circuit testing of null version specifications. ;; this is an all-pass, without warning (defmethod version-satisfies :around ((c t) (version null)) t) (defmethod version-satisfies ((c component) version) (unless (and version (slot-boundp c 'version) (component-version c)) (when version (warn "Requested version ~S but ~S has no version" version c)) (return-from version-satisfies nil)) (version-satisfies (component-version c) version)) (defmethod version-satisfies ((cver string) version) (version<= version cver))) ;;; all sub-components (of a given type) (with-upgradability () (defun sub-components (component &key (type t)) "Compute the transitive sub-components of given COMPONENT that are of given TYPE" (while-collecting (c) (labels ((recurse (x) (when (if-let (it (component-if-feature x)) (featurep it) t) (when (typep x type) (c x)) (when (typep x 'parent-component) (map () #'recurse (component-children x)))))) (recurse component))))) ;;;; ------------------------------------------------------------------------- ;;;; Systems (uiop/package:define-package :asdf/system (:recycle :asdf :asdf/system) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/component) (:export #:system #:proto-system #:system-source-file #:system-source-directory #:system-relative-pathname #:reset-system #:system-description #:system-long-description #:system-author #:system-maintainer #:system-licence #:system-license #:system-defsystem-depends-on #:system-depends-on #:system-weakly-depends-on #:component-build-pathname #:build-pathname #:component-entry-point #:entry-point #:homepage #:system-homepage #:bug-tracker #:system-bug-tracker #:mailto #:system-mailto #:long-name #:system-long-name #:source-control #:system-source-control #:find-system #:builtin-system-p)) ;; forward-reference, defined in find-system (in-package :asdf/system) (with-upgradability () ;; The method is actually defined in asdf/find-system, ;; but we declare the function here to avoid a forward reference. (defgeneric* (find-system) (system &optional error-p) (:documentation "Given a system designator, find the actual corresponding system object. If no system is found, then signal an error if ERROR-P is true (the default), or else return NIL. A system designator is usually a string (conventionally all lowercase) or a symbol, designating the same system as its downcased name; it can also be a system object (designating itself).")) (defgeneric* (system-source-file :supersede #-clisp t #+clisp nil) (system) (:documentation "Return the source file in which system is defined.")) ;; This is bad design, but was the easiest kluge I found to let the user specify that ;; some special actions create outputs at locations controled by the user that are not affected ;; by the usual output-translations. ;; TODO: Fix operate to stop passing flags to operation (which in the current design shouldn't ;; have any flags, since the stamp cache, etc., can't distinguish them), and instead insert ;; *there* the ability of specifying special output paths, not in the system definition. (defgeneric component-build-pathname (component) (:documentation "The COMPONENT-BUILD-PATHNAME, when defined and not null, specifies the output pathname for the action using the COMPONENT-BUILD-OPERATION. NB: This interface is subject to change. Please contact ASDF maintainers if you use it.")) ;; TODO: Should this have been made a SYSTEM-ENTRY-POINT instead? (defgeneric component-entry-point (component) (:documentation "The COMPONENT-ENTRY-POINT, when defined, specifies what function to call (with no argument) when running an image dumped from the COMPONENT. NB: This interface is subject to change. Please contact ASDF maintainers if you use it.")) (defmethod component-entry-point ((c component)) nil)) ;;;; The system class (with-upgradability () (defclass proto-system () ; slots to keep when resetting a system ;; To preserve identity for all objects, we'd need keep the components slots ;; but also to modify parse-component-form to reset the recycled objects. ((name) (source-file) #|(children) (children-by-names)|#) (:documentation "PROTO-SYSTEM defines the elements of identity that are preserved when a SYSTEM is redefined and its class is modified.")) (defclass system (module proto-system) ;; Backward-compatibility: inherit from module. ASDF4: only inherit from parent-component. (;; {,long-}description is now inherited from component, but we add the legacy accessors (description :accessor system-description) (long-description :accessor system-long-description) (author :accessor system-author :initarg :author :initform nil) (maintainer :accessor system-maintainer :initarg :maintainer :initform nil) (licence :accessor system-licence :initarg :licence :accessor system-license :initarg :license :initform nil) (homepage :accessor system-homepage :initarg :homepage :initform nil) (bug-tracker :accessor system-bug-tracker :initarg :bug-tracker :initform nil) (mailto :accessor system-mailto :initarg :mailto :initform nil) (long-name :accessor system-long-name :initarg :long-name :initform nil) ;; Conventions for this slot aren't clear yet as of ASDF 2.27, but whenever they are, they will be enforced. ;; I'm introducing the slot before the conventions are set for maximum compatibility. (source-control :accessor system-source-control :initarg :source-control :initform nil) (builtin-system-p :accessor builtin-system-p :initform nil :initarg :builtin-system-p) (build-pathname :initform nil :initarg :build-pathname :accessor component-build-pathname) (entry-point :initform nil :initarg :entry-point :accessor component-entry-point) (source-file :initform nil :initarg :source-file :accessor system-source-file) (defsystem-depends-on :reader system-defsystem-depends-on :initarg :defsystem-depends-on :initform nil) ;; these two are specially set in parse-component-form, so have no :INITARGs. (depends-on :reader system-depends-on :initform nil) (weakly-depends-on :reader system-weakly-depends-on :initform nil)) (:documentation "SYSTEM is the base class for top-level components that users may request ASDF to build.")) (defun reset-system (system &rest keys &key &allow-other-keys) "Erase any data from a SYSTEM except its basic identity, then reinitialize it based on supplied KEYS." (change-class (change-class system 'proto-system) 'system) (apply 'reinitialize-instance system keys))) ;;;; Pathnames (with-upgradability () ;; Resolve a system designator to a system before extracting its system-source-file (defmethod system-source-file ((system-name string)) (system-source-file (find-system system-name))) (defmethod system-source-file ((system-name symbol)) (when system-name (system-source-file (find-system system-name)))) (defun system-source-directory (system-designator) "Return a pathname object corresponding to the directory in which the system specification (.asd file) is located." (pathname-directory-pathname (system-source-file system-designator))) (defun* (system-relative-pathname) (system name &key type) "Given a SYSTEM, and a (Unix-style relative path) NAME of a file (or directory) of given TYPE, return the absolute pathname of a corresponding file under that system's source code pathname." (subpathname (system-source-directory system) name :type type)) (defmethod component-pathname ((system system)) "Given a SYSTEM, and a (Unix-style relative path) NAME of a file (or directory) of given TYPE, return the absolute pathname of a corresponding file under that system's source code pathname." (let ((pathname (or (call-next-method) (system-source-directory system)))) (unless (and (slot-boundp system 'relative-pathname) ;; backward-compatibility with ASDF1-age (slot-value system 'relative-pathname)) ;; systems that directly access this slot. (setf (slot-value system 'relative-pathname) pathname)) pathname)) ;; The default method of component-relative-pathname for a system: ;; if a pathname was specified in the .asd file, it must be relative to the .asd file ;; (actually, to its truename* if *resolve-symlinks* it true, the default). ;; The method will return an *absolute* pathname, once again showing that the historical name ;; component-relative-pathname is misleading and should have been component-specified-pathname. (defmethod component-relative-pathname ((system system)) (parse-unix-namestring (and (slot-boundp system 'relative-pathname) (slot-value system 'relative-pathname)) :want-relative t :type :directory :ensure-absolute t :defaults (system-source-directory system))) ;; A system has no parent; if some method wants to make a path "relative to its parent", ;; it will instead be relative to the system itself. (defmethod component-parent-pathname ((system system)) (system-source-directory system)) ;; Most components don't have a specified component-build-pathname, and therefore ;; no magic redirection of their output that disregards the output-translations. (defmethod component-build-pathname ((c component)) nil)) ;;;; ------------------------------------------------------------------------- ;;;; Session cache (uiop/package:define-package :asdf/cache (:use :uiop/common-lisp :uiop :asdf/upgrade) (:export #:get-file-stamp #:compute-file-stamp #:register-file-stamp #:set-asdf-cache-entry #:unset-asdf-cache-entry #:consult-asdf-cache #:do-asdf-cache #:normalize-namestring #:call-with-asdf-cache #:with-asdf-cache #:*asdf-cache* #:clear-configuration-and-retry #:retry)) (in-package :asdf/cache) ;;; The ASDF session cache is used to memoize some computations. It is instrumental in achieving: ;; * Consistency in the view of the world relied on by ASDF within a given session. ;; Inconsistencies in file stamps, system definitions, etc., could cause infinite loops ;; (a.k.a. stack overflows) and other erratic behavior. ;; * Speed and reliability of ASDF, with fewer side-effects from access to the filesystem, and ;; no expensive recomputations of transitive dependencies for some input-files or output-files. ;; * Testability of ASDF with the ability to fake timestamps without actually touching files. (with-upgradability () ;; The session cache variable. ;; NIL when outside a session, an equal hash-table when inside a session. (defvar *asdf-cache* nil) ;; Set a session cache entry for KEY to a list of values VALUE-LIST, when inside a session. ;; Return those values. (defun set-asdf-cache-entry (key value-list) (values-list (if *asdf-cache* (setf (gethash key *asdf-cache*) value-list) value-list))) ;; Unset the session cache entry for KEY, when inside a session. (defun unset-asdf-cache-entry (key) (when *asdf-cache* (remhash key *asdf-cache*))) ;; Consult the session cache entry for KEY if present and in a session; ;; if not present, compute it by calling the THUNK, ;; and set the session cache entry accordingly, if in a session. ;; Return the values from the cache and/or the thunk computation. (defun consult-asdf-cache (key &optional thunk) (if *asdf-cache* (multiple-value-bind (results foundp) (gethash key *asdf-cache*) (if foundp (values-list results) (set-asdf-cache-entry key (multiple-value-list (call-function thunk))))) (call-function thunk))) ;; Syntactic sugar for consult-asdf-cache (defmacro do-asdf-cache (key &body body) `(consult-asdf-cache ,key #'(lambda () ,@body))) ;; Compute inside a ASDF session with a cache. ;; First, make sure an ASDF session is underway, by binding the session cache variable ;; to a new hash-table if it's currently null (or even if it isn't, if OVERRIDE is true). ;; Second, if a new session was started, establish restarts for retrying the overall computation. ;; Finally, consult the cache if a KEY was specified with the THUNK as a fallback when the cache ;; entry isn't found, or just call the THUNK if no KEY was specified. (defun call-with-asdf-cache (thunk &key override key) (let ((fun (if key #'(lambda () (consult-asdf-cache key thunk)) thunk))) (if (and *asdf-cache* (not override)) (funcall fun) (loop (restart-case (let ((*asdf-cache* (make-hash-table :test 'equal))) (return (funcall fun))) (retry () :report (lambda (s) (format s (compatfmt "~@")))) (clear-configuration-and-retry () :report (lambda (s) (format s (compatfmt "~@"))) (clear-configuration))))))) ;; Syntactic sugar for call-with-asdf-cache (defmacro with-asdf-cache ((&key key override) &body body) `(call-with-asdf-cache #'(lambda () ,@body) :override ,override :key ,key)) ;;; Define specific accessor for file (date) stamp. ;; Normalize a namestring for use as a key in the session cache. (defun normalize-namestring (pathname) (let ((resolved (resolve-symlinks* (ensure-absolute-pathname (physicalize-pathname pathname) 'get-pathname-defaults)))) (with-pathname-defaults () (namestring resolved)))) ;; Compute the file stamp for a normalized namestring (defun compute-file-stamp (normalized-namestring) (with-pathname-defaults () (safe-file-write-date normalized-namestring))) ;; Override the time STAMP associated to a given FILE in the session cache. ;; If no STAMP is specified, recompute a new one from the filesystem. (defun register-file-stamp (file &optional (stamp nil stampp)) (let* ((namestring (normalize-namestring file)) (stamp (if stampp stamp (compute-file-stamp namestring)))) (set-asdf-cache-entry `(get-file-stamp ,namestring) (list stamp)))) ;; Get or compute a memoized stamp for given FILE from the session cache. (defun get-file-stamp (file) (when file (let ((namestring (normalize-namestring file))) (do-asdf-cache `(get-file-stamp ,namestring) (compute-file-stamp namestring)))))) ;;;; ------------------------------------------------------------------------- ;;;; Finding systems (uiop/package:define-package :asdf/find-system (:recycle :asdf/find-system :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/cache :asdf/component :asdf/system) (:export #:remove-entry-from-registry #:coerce-entry-to-directory #:coerce-name #:primary-system-name #:coerce-filename #:find-system #:locate-system #:load-asd #:system-registered-p #:registered-system #:register-system #:registered-systems* #:registered-systems #:clear-system #:map-systems #:missing-component #:missing-requires #:missing-parent #:formatted-system-definition-error #:format-control #:format-arguments #:sysdef-error #:load-system-definition-error #:error-name #:error-pathname #:error-condition #:*system-definition-search-functions* #:search-for-system-definition #:*central-registry* #:probe-asd #:sysdef-central-registry-search #:find-system-if-being-defined #:contrib-sysdef-search #:sysdef-find-asdf ;; backward compatibility symbols, functions removed #:sysdef-preloaded-system-search #:register-preloaded-system #:*preloaded-systems* #:mark-component-preloaded ;; forward reference to asdf/operate #:sysdef-immutable-system-search #:register-immutable-system #:*immutable-systems* #:*defined-systems* #:clear-defined-systems ;; defined in source-registry, but specially mentioned here: #:initialize-source-registry #:sysdef-source-registry-search)) (in-package :asdf/find-system) (with-upgradability () (declaim (ftype (function (&optional t) t) initialize-source-registry)) ; forward reference (define-condition missing-component (system-definition-error) ((requires :initform "(unnamed)" :reader missing-requires :initarg :requires) (parent :initform nil :reader missing-parent :initarg :parent))) (define-condition formatted-system-definition-error (system-definition-error) ((format-control :initarg :format-control :reader format-control) (format-arguments :initarg :format-arguments :reader format-arguments)) (:report (lambda (c s) (apply 'format s (format-control c) (format-arguments c))))) (define-condition load-system-definition-error (system-definition-error) ((name :initarg :name :reader error-name) (pathname :initarg :pathname :reader error-pathname) (condition :initarg :condition :reader error-condition)) (:report (lambda (c s) (format s (compatfmt "~@") (error-name c) (error-pathname c) (error-condition c))))) (defun sysdef-error (format &rest arguments) (error 'formatted-system-definition-error :format-control format :format-arguments arguments)) ;;; Canonicalizing system names (defun coerce-name (name) "Given a designator for a component NAME, return the name as a string. The designator can be a COMPONENT (designing its name; note that a SYSTEM is a component), a SYMBOL (designing its name, downcased), or a STRING (designing itself)." (typecase name (component (component-name name)) (symbol (string-downcase name)) (string name) (t (sysdef-error (compatfmt "~@") name)))) (defun primary-system-name (name) "Given a system designator NAME, return the name of the corresponding primary system, after which the .asd file is named. That's the first component when dividing the name as a string by / slashes." (first (split-string (coerce-name name) :separator "/"))) (defun coerce-filename (name) "Coerce a system designator NAME into a string suitable as a filename component. The (current) transformation is to replace characters /:\\ each by --, the former being forbidden in a filename component. NB: The onus is unhappily on the user to avoid clashes." (frob-substrings (coerce-name name) '("/" ":" "\\") "--")) ;;; Registry of Defined Systems (defvar *defined-systems* (make-hash-table :test 'equal) "This is a hash table whose keys are strings -- the names of systems -- and whose values are pairs, the first element of which is a universal-time indicating when the system definition was last updated, and the second element of which is a system object. A system is referred to as \"registered\" if it is present in this table.") (defun system-registered-p (name) "Return a generalized boolean that is true if a system of given NAME was registered already. NAME is a system designator, to be normalized by COERCE-NAME. The value returned if true is a pair of a timestamp and a system object." (gethash (coerce-name name) *defined-systems*)) (defun registered-system (name) "Return a system of given NAME that was registered already, if such a system exists. NAME is a system designator, to be normalized by COERCE-NAME. The value returned is a system object, or NIL if not found." (cdr (system-registered-p name))) (defun registered-systems* () "Return a list containing every registered system (as a system object)." (loop :for registered :being :the :hash-values :of *defined-systems* :collect (cdr registered))) (defun registered-systems () "Return a list of the names of every registered system." (mapcar 'coerce-name (registered-systems*))) (defun register-system (system) "Given a SYSTEM object, register it." (check-type system system) (let ((name (component-name system))) (check-type name string) (asdf-message (compatfmt "~&~@<; ~@;Registering ~3i~_~A~@:>~%") system) (unless (eq system (registered-system name)) (setf (gethash name *defined-systems*) (cons (ignore-errors (get-file-stamp (system-source-file system))) system))))) (defun map-systems (fn) "Apply FN to each defined system. FN should be a function of one argument. It will be called with an object of type asdf:system." (loop :for registered :being :the :hash-values :of *defined-systems* :do (funcall fn (cdr registered)))) ;;; Preloaded systems: in the image even if you can't find source files backing them. (defvar *preloaded-systems* (make-hash-table :test 'equal) "Registration table for preloaded systems.") (declaim (ftype (function (t) t) mark-component-preloaded)) ; defined in asdf/operate (defun make-preloaded-system (name keys) "Make a preloaded system of given NAME with build information from KEYS" (let ((system (apply 'make-instance (getf keys :class 'system) :name name :source-file (getf keys :source-file) (remove-plist-keys '(:class :name :source-file) keys)))) (mark-component-preloaded system) system)) (defun sysdef-preloaded-system-search (requested) "If REQUESTED names a system registered as preloaded, return a new system with its registration information." (let ((name (coerce-name requested))) (multiple-value-bind (keys foundp) (gethash name *preloaded-systems*) (when foundp (make-preloaded-system name keys))))) (defun ensure-preloaded-system-registered (name) "If there isn't a registered _defined_ system of given NAME, and a there is a registered _preloaded_ system of given NAME, then define and register said preloaded system." (if-let (system (and (not (registered-system name)) (sysdef-preloaded-system-search name))) (register-system system))) (defun register-preloaded-system (system-name &rest keys &key (version t) &allow-other-keys) "Register a system as being preloaded. If the system has not been loaded from the filesystem yet, or if its build information is later cleared with CLEAR-SYSTEM, a dummy system will be registered without backing filesystem information, based on KEYS (e.g. to provide a VERSION). If VERSION is the default T, and a system was already loaded, then its version will be preserved." (let ((name (coerce-name system-name))) (when (eql version t) (if-let (system (registered-system name)) (setf (getf keys :version) (component-version system)))) (setf (gethash name *preloaded-systems*) keys) (ensure-preloaded-system-registered system-name))) ;;; Immutable systems: in the image and can't be reloaded from source. (defvar *immutable-systems* nil "A hash-set (equal hash-table mapping keys to T) of systems that are immutable, i.e. already loaded in memory and not to be refreshed from the filesystem. They will be treated specially by find-system, and passed as :force-not argument to make-plan. For instance, to can deliver an image with many systems precompiled, that *will not* check the filesystem for them every time a user loads an extension, what more risk a problematic upgrade or catastrophic downgrade, before you dump an image, you may use: (map () 'asdf:register-immutable-system (asdf:already-loaded-systems)) Note that direct access to this variable from outside ASDF is not supported. Please call REGISTER-IMMUTABLE-SYSTEM to add new immutable systems, and contact maintainers if you need a stable API to do more than that.") (defun sysdef-immutable-system-search (requested) (let ((name (coerce-name requested))) (when (and *immutable-systems* (gethash name *immutable-systems*)) (or (registered-system requested) (error 'formatted-system-definition-error :format-control "Requested system ~A registered as an immutable-system, ~ but not even registered as defined" :format-arguments (list name)))))) (defun register-immutable-system (system-name &rest keys) "Register SYSTEM-NAME as preloaded and immutable. It will automatically be considered as passed to FORCE-NOT in a plan." (let ((system-name (coerce-name system-name))) (apply 'register-preloaded-system system-name keys) (unless *immutable-systems* (setf *immutable-systems* (list-to-hash-set nil))) (setf (gethash system-name *immutable-systems*) t))) ;;; Making systems undefined. (defun clear-system (system) "Clear the entry for a SYSTEM in the database of systems previously defined. However if the system was registered as PRELOADED (which it is if it is IMMUTABLE), then a new system with the same name will be defined and registered in its place from which build details will have been cleared. Note that this does NOT in any way cause any of the code of the system to be unloaded. Returns T if system was or is now undefined, NIL if a new preloaded system was redefined." ;; There is no "unload" operation in Common Lisp, and ;; a general such operation cannot be portably written, ;; considering how much CL relies on side-effects to global data structures. (let ((name (coerce-name system))) (remhash name *defined-systems*) (unset-asdf-cache-entry `(find-system ,name)) (not (ensure-preloaded-system-registered name)))) (defun clear-defined-systems () "Clear all currently registered defined systems. Preloaded systems (including immutable ones) will be reset, other systems will be de-registered." (loop :for name :being :the :hash-keys :of *defined-systems* :unless (member name '("asdf" "uiop") :test 'equal) :do (clear-system name))) ;;; Searching for system definitions ;; For the sake of keeping things reasonably neat, we adopt a convention that ;; only symbols are to be pushed to this list (rather than e.g. function objects), ;; which makes upgrade easier. Also, the name of these symbols shall start with SYSDEF- (defvar *system-definition-search-functions* '() "A list that controls the ways that ASDF looks for system definitions. It contains symbols to be funcalled in order, with a requested system name as argument, until one returns a non-NIL result (if any), which must then be a fully initialized system object with that name.") ;; Initialize and/or upgrade the *system-definition-search-functions* ;; so it doesn't contain obsolete symbols, and does contain the current ones. (defun cleanup-system-definition-search-functions () (setf *system-definition-search-functions* (append ;; Remove known-incompatible sysdef functions from old versions of asdf. ;; Order matters, so we can't just use set-difference. (let ((obsolete '(contrib-sysdef-search sysdef-find-asdf sysdef-preloaded-system-search))) (remove-if #'(lambda (x) (member x obsolete)) *system-definition-search-functions*)) ;; Tuck our defaults at the end of the list if they were absent. ;; This is imperfect, in case they were removed on purpose, ;; but then it will be the responsibility of whoever removes these symmbols ;; to upgrade asdf before he does such a thing rather than after. (remove-if #'(lambda (x) (member x *system-definition-search-functions*)) '(sysdef-central-registry-search sysdef-source-registry-search))))) (cleanup-system-definition-search-functions) ;; This (private) function does the search for a system definition using *s-d-s-f*; ;; it is to be called by locate-system. (defun search-for-system-definition (system) ;; Search for valid definitions of the system available in the current session. ;; Previous definitions as registered in *defined-systems* MUST NOT be considered; ;; they will be reconciled by locate-system then find-system. ;; There are two special treatments: first, specially search for objects being defined ;; in the current session, to avoid definition races between several files; ;; second, specially search for immutable systems, so they cannot be redefined. ;; Finally, use the search functions specified in *system-definition-search-functions*. (let ((name (coerce-name system))) (flet ((try (f) (if-let ((x (funcall f name))) (return-from search-for-system-definition x)))) (try 'find-system-if-being-defined) (try 'sysdef-immutable-system-search) (map () #'try *system-definition-search-functions*)))) ;;; The legacy way of finding a system: the *central-registry* ;; This variable contains a list of directories to be lazily searched for the requested asd ;; by sysdef-central-registry-search. (defvar *central-registry* nil "A list of 'system directory designators' ASDF uses to find systems. A 'system directory designator' is a pathname or an expression which evaluates to a pathname. For example: (setf asdf:*central-registry* (list '*default-pathname-defaults* #p\"/home/me/cl/systems/\" #p\"/usr/share/common-lisp/systems/\")) This variable is for backward compatibility. Going forward, we recommend new users should be using the source-registry.") ;; Function to look for an asd file of given NAME under a directory provided by DEFAULTS. ;; Return the truename of that file if it is found and TRUENAME is true. ;; Return NIL if the file is not found. ;; On Windows, follow shortcuts to .asd files. (defun probe-asd (name defaults &key truename) (block nil (when (directory-pathname-p defaults) (if-let (file (probe-file* (ensure-absolute-pathname (parse-unix-namestring name :type "asd") #'(lambda () (ensure-absolute-pathname defaults 'get-pathname-defaults nil)) nil) :truename truename)) (return file)) #-(or clisp genera) ; clisp doesn't need it, plain genera doesn't have read-sequence(!) (os-cond ((os-windows-p) (when (physical-pathname-p defaults) (let ((shortcut (make-pathname :defaults defaults :case :local :name (strcat name ".asd") :type "lnk"))) (when (probe-file* shortcut) (ensure-pathname (parse-windows-shortcut shortcut) :namestring :native))))))))) ;; Function to push onto *s-d-s-f* to use the *central-registry* (defun sysdef-central-registry-search (system) (let ((name (primary-system-name system)) (to-remove nil) (to-replace nil)) (block nil (unwind-protect (dolist (dir *central-registry*) (let ((defaults (eval dir)) directorized) (when defaults (cond ((directory-pathname-p defaults) (let* ((file (probe-asd name defaults :truename *resolve-symlinks*))) (when file (return file)))) (t (restart-case (let* ((*print-circle* nil) (message (format nil (compatfmt "~@") system dir defaults))) (error message)) (remove-entry-from-registry () :report "Remove entry from *central-registry* and continue" (push dir to-remove)) (coerce-entry-to-directory () :test (lambda (c) (declare (ignore c)) (and (not (directory-pathname-p defaults)) (directory-pathname-p (setf directorized (ensure-directory-pathname defaults))))) :report (lambda (s) (format s (compatfmt "~@") directorized dir)) (push (cons dir directorized) to-replace)))))))) ;; cleanup (dolist (dir to-remove) (setf *central-registry* (remove dir *central-registry*))) (dolist (pair to-replace) (let* ((current (car pair)) (new (cdr pair)) (position (position current *central-registry*))) (setf *central-registry* (append (subseq *central-registry* 0 position) (list new) (subseq *central-registry* (1+ position)))))))))) ;;; Methods for find-system ;; Reject NIL as a system designator. (defmethod find-system ((name null) &optional (error-p t)) (when error-p (sysdef-error (compatfmt "~@")))) ;; Default method for find-system: resolve the argument using COERCE-NAME. (defmethod find-system (name &optional (error-p t)) (find-system (coerce-name name) error-p)) (defun find-system-if-being-defined (name) ;; This function finds systems being defined *in the current ASDF session*, as embodied by ;; its session cache, even before they are fully defined and registered in *defined-systems*. ;; The purpose of this function is to prevent races between two files that might otherwise ;; try overwrite each other's system objects, resulting in infinite loops and stack overflow. ;; This function explicitly MUST NOT find definitions merely registered in previous sessions. ;; NB: this function depends on a corresponding side-effect in parse-defsystem; ;; the precise protocol between the two functions may change in the future (or not). (first (gethash `(find-system ,(coerce-name name)) *asdf-cache*))) (defun load-asd (pathname &key name (external-format (encoding-external-format (detect-encoding pathname))) &aux (readtable *readtable*) (print-pprint-dispatch *print-pprint-dispatch*)) "Load system definitions from PATHNAME. NAME if supplied is the name of a system expected to be defined in that file. Do NOT try to load a .asd file directly with CL:LOAD. Always use ASDF:LOAD-ASD." (with-asdf-cache () (with-standard-io-syntax (let ((*package* (find-package :asdf-user)) ;; Note that our backward-compatible *readtable* is ;; a global readtable that gets globally side-effected. Ouch. ;; Same for the *print-pprint-dispatch* table. ;; We should do something about that for ASDF3 if possible, or else ASDF4. (*readtable* readtable) (*print-pprint-dispatch* print-pprint-dispatch) (*print-readably* nil) (*default-pathname-defaults* ;; resolve logical-pathnames so they won't wreak havoc in parsing namestrings. (pathname-directory-pathname (physicalize-pathname pathname)))) (handler-bind (((and error (not missing-component)) #'(lambda (condition) (error 'load-system-definition-error :name name :pathname pathname :condition condition)))) (asdf-message (compatfmt "~&~@<; ~@;Loading system definition~@[ for ~A~] from ~A~@:>~%") name pathname) (load* pathname :external-format external-format)))))) (defvar *old-asdf-systems* (make-hash-table :test 'equal)) ;; (Private) function to check that a system that was found isn't an asdf downgrade. ;; Returns T if everything went right, NIL if the system was an ASDF of the same or older version, ;; that shall not be loaded. Also issue a warning if it was a strictly older version of ASDF. (defun check-not-old-asdf-system (name pathname) (or (not (equal name "asdf")) (null pathname) (let* ((version-pathname (subpathname pathname "version.lisp-expr")) (version (and (probe-file* version-pathname :truename nil) (read-file-form version-pathname))) (old-version (asdf-version))) (cond ((version< old-version version) t) ;; newer version: good! ((equal old-version version) nil) ;; same version: don't load, but don't warn (t ;; old version: bad (ensure-gethash (list (namestring pathname) version) *old-asdf-systems* #'(lambda () (let ((old-pathname (system-source-file (registered-system "asdf")))) (warn "~@<~ You are using ASDF version ~A ~:[(probably from (require \"asdf\") ~ or loaded by quicklisp)~;from ~:*~S~] and have an older version of ASDF ~ ~:[(and older than 2.27 at that)~;~:*~A~] registered at ~S. ~ Having an ASDF installed and registered is the normal way of configuring ASDF to upgrade itself, ~ and having an old version registered is a configuration error. ~ ASDF will ignore this configured system rather than downgrade itself. ~ In the future, you may want to either: ~ (a) upgrade this configured ASDF to a newer version, ~ (b) install a newer ASDF and register it in front of the former in your configuration, or ~ (c) uninstall or unregister this and any other old version of ASDF from your configuration. ~ Note that the older ASDF might be registered implicitly through configuration inherited ~ from your system installation, in which case you might have to specify ~ :ignore-inherited-configuration in your in your ~~/.config/common-lisp/source-registry.conf ~ or other source-registry configuration file, environment variable or lisp parameter. ~ Indeed, a likely offender is an obsolete version of the cl-asdf debian or ubuntu package, ~ that you might want to upgrade (if a recent enough version is available) ~ or else remove altogether (since most implementations ship with a recent asdf); ~ if you lack the system administration rights to upgrade or remove this package, ~ then you might indeed want to either install and register a more recent version, ~ or use :ignore-inherited-configuration to avoid registering the old one. ~ Please consult ASDF documentation and/or experts.~@:>~%" old-version old-pathname version pathname)))) nil))))) ;; only issue the warning the first time, but always return nil (defun locate-system (name) "Given a system NAME designator, try to locate where to load the system from. Returns five values: FOUNDP FOUND-SYSTEM PATHNAME PREVIOUS PREVIOUS-TIME FOUNDP is true when a system was found, either a new unregistered one or a previously registered one. FOUND-SYSTEM when not null is a SYSTEM object that may be REGISTER-SYSTEM'ed. PATHNAME when not null is a path from which to load the system, either associated with FOUND-SYSTEM, or with the PREVIOUS system. PREVIOUS when not null is a previously loaded SYSTEM object of same name. PREVIOUS-TIME when not null is the time at which the PREVIOUS system was loaded." (with-asdf-cache () ;; NB: We don't cache the results. We once used to, but it wasn't useful, ;; and keeping a negative cache was a bug (see lp#1335323), which required ;; explicit invalidation in clear-system and find-system (when unsucccessful). (let* ((name (coerce-name name)) (in-memory (system-registered-p name)) ; load from disk if absent or newer on disk (previous (cdr in-memory)) (previous (and (typep previous 'system) previous)) (previous-time (car in-memory)) (found (search-for-system-definition name)) (found-system (and (typep found 'system) found)) (pathname (ensure-pathname (or (and (typep found '(or pathname string)) (pathname found)) (system-source-file found-system) (system-source-file previous)) :want-absolute t :resolve-symlinks *resolve-symlinks*)) (foundp (and (or found-system pathname previous) t))) (check-type found (or null pathname system)) (unless (check-not-old-asdf-system name pathname) (check-type previous system) ;; asdf is preloaded, so there should be a previous one. (setf found-system nil pathname nil)) (values foundp found-system pathname previous previous-time)))) ;; Main method for find-system: first, make sure the computation is memoized in a session cache. ;; unless the system is immutable, use locate-system to find the primary system; ;; reconcile the finding (if any) with any previous definition (in a previous session, ;; preloaded, with a previous configuration, or before filesystem changes), and ;; load a found .asd if appropriate. Finally, update registration table and return results. (defmethod find-system ((name string) &optional (error-p t)) (with-asdf-cache (:key `(find-system ,name)) (let ((primary-name (primary-system-name name))) (unless (equal name primary-name) (find-system primary-name nil))) (or (and *immutable-systems* (gethash name *immutable-systems*) (registered-system name)) (multiple-value-bind (foundp found-system pathname previous previous-time) (locate-system name) (assert (eq foundp (and (or found-system pathname previous) t))) (let ((previous-pathname (system-source-file previous)) (system (or previous found-system))) (when (and found-system (not previous)) (register-system found-system)) (when (and system pathname) (setf (system-source-file system) pathname)) (when (and pathname (let ((stamp (get-file-stamp pathname))) (and stamp (not (and previous (or (pathname-equal pathname previous-pathname) (and pathname previous-pathname (pathname-equal (physicalize-pathname pathname) (physicalize-pathname previous-pathname)))) (stamp<= stamp previous-time)))))) ;; Only load when it's a pathname that is different or has newer content. (load-asd pathname :name name))) ;; Try again after having loaded from disk if needed (let ((in-memory (system-registered-p name))) (cond (in-memory (when pathname (setf (car in-memory) (get-file-stamp pathname))) (cdr in-memory)) (error-p (error 'missing-component :requires name)) (t (return-from find-system nil))))))))) ;;;; ------------------------------------------------------------------------- ;;;; Finding components (uiop/package:define-package :asdf/find-component (:recycle :asdf/find-component :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/cache :asdf/component :asdf/system :asdf/find-system) (:export #:find-component #:resolve-dependency-name #:resolve-dependency-spec #:resolve-dependency-combination ;; Conditions #:missing-component #:missing-component-of-version #:retry #:missing-dependency #:missing-dependency-of-version #:missing-requires #:missing-parent #:missing-required-by #:missing-version)) (in-package :asdf/find-component) ;;;; Missing component conditions (with-upgradability () (define-condition missing-component-of-version (missing-component) ((version :initform nil :reader missing-version :initarg :version))) (define-condition missing-dependency (missing-component) ((required-by :initarg :required-by :reader missing-required-by))) (defmethod print-object ((c missing-dependency) s) (format s (compatfmt "~@<~A, required by ~A~@:>") (call-next-method c nil) (missing-required-by c))) (define-condition missing-dependency-of-version (missing-dependency missing-component-of-version) ()) (defmethod print-object ((c missing-component) s) (format s (compatfmt "~@") (missing-requires c) (when (missing-parent c) (coerce-name (missing-parent c))))) (defmethod print-object ((c missing-component-of-version) s) (format s (compatfmt "~@") (missing-requires c) (missing-version c) (when (missing-parent c) (coerce-name (missing-parent c)))))) ;;;; Finding components (with-upgradability () (defgeneric* (find-component) (base path &key registered) (:documentation "Find a component by resolving the PATH starting from BASE parent. If REGISTERED is true, only search currently registered systems.")) (defgeneric resolve-dependency-combination (component combinator arguments) (:documentation "Return a component satisfying the dependency specification (COMBINATOR . ARGUMENTS) in the context of COMPONENT")) ;; Methods for find-component ;; If the base component is a string, resolve it as a system, then if not nil follow the path. (defmethod find-component ((base string) path &key registered) (if-let ((s (if registered (registered-system base) (find-system base nil)))) (find-component s path :registered registered))) ;; If the base component is a symbol, coerce it to a name if not nil, and resolve that. ;; If nil, use the path as base if not nil, or else return nil. (defmethod find-component ((base symbol) path &key registered) (cond (base (find-component (coerce-name base) path :registered registered)) (path (find-component path nil :registered registered)) (t nil))) ;; If the base component is a cons cell, resolve its car, and add its cdr to the path. (defmethod find-component ((base cons) path &key registered) (find-component (car base) (cons (cdr base) path) :registered registered)) ;; If the base component is a parent-component and the path a string, find the named child. (defmethod find-component ((parent parent-component) (name string) &key registered) (declare (ignorable registered)) (compute-children-by-name parent :only-if-needed-p t) (values (gethash name (component-children-by-name parent)))) ;; If the path is a symbol, coerce it to a name if non-nil, or else just return the base. (defmethod find-component (base (name symbol) &key registered) (if name (find-component base (coerce-name name) :registered registered) base)) ;; If the path is a cons, first resolve its car as path, then its cdr. (defmethod find-component ((c component) (name cons) &key registered) (find-component (find-component c (car name) :registered registered) (cdr name) :registered registered)) ;; If the path is a component, return it, disregarding the base. (defmethod find-component ((base t) (actual component) &key registered) (declare (ignorable registered)) actual) ;; Resolve dependency NAME in the context of a COMPONENT, with given optional VERSION constraint. ;; This (private) function is used below by RESOLVE-DEPENDENCY-SPEC and by the :VERSION spec. (defun resolve-dependency-name (component name &optional version) (loop (restart-case (return (let ((comp (find-component (component-parent component) name))) (unless comp (error 'missing-dependency :required-by component :requires name)) (when version (unless (version-satisfies comp version) (error 'missing-dependency-of-version :required-by component :version version :requires name))) comp)) (retry () :report (lambda (s) (format s (compatfmt "~@") name)) :test (lambda (c) (or (null c) (and (typep c 'missing-dependency) (eq (missing-required-by c) component) (equal (missing-requires c) name)))) (unless (component-parent component) (let ((name (coerce-name name))) (unset-asdf-cache-entry `(find-system ,name)))))))) ;; Resolve dependency specification DEP-SPEC in the context of COMPONENT. ;; This is notably used by MAP-DIRECT-DEPENDENCIES to process the results of COMPONENT-DEPENDS-ON ;; and by PARSE-DEFSYSTEM to process DEFSYSTEM-DEPENDS-ON. (defun resolve-dependency-spec (component dep-spec) (let ((component (find-component () component))) (if (atom dep-spec) (resolve-dependency-name component dep-spec) (resolve-dependency-combination component (car dep-spec) (cdr dep-spec))))) ;; Methods for RESOLVE-DEPENDENCY-COMBINATION to parse lists as dependency specifications. (defmethod resolve-dependency-combination (component combinator arguments) (parameter-error (compatfmt "~@") 'resolve-dependency-combination (cons combinator arguments) component)) (defmethod resolve-dependency-combination (component (combinator (eql :feature)) arguments) (when (featurep (first arguments)) (resolve-dependency-spec component (second arguments)))) (defmethod resolve-dependency-combination (component (combinator (eql :version)) arguments) (resolve-dependency-name component (first arguments) (second arguments)))) ;; See lp#527788 ;;;; ------------------------------------------------------------------------- ;;;; Operations (uiop/package:define-package :asdf/operation (:recycle :asdf/operation :asdf/action :asdf) ;; asdf/action for FEATURE pre 2.31.5. (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/find-system) (:export #:operation #:operation-original-initargs #:original-initargs ;; backward-compatibility only. DO NOT USE. #:*operations* #:make-operation #:find-operation #:feature)) ;; TODO: stop exporting the deprecated FEATURE feature. (in-package :asdf/operation) ;;; Operation Classes (when-upgrading (:when (find-class 'operation nil)) ;; override any obsolete shared-initialize method when upgrading from ASDF2. (defmethod shared-initialize :after ((o operation) (slot-names t) &key) (values))) (with-upgradability () (defclass operation () ((original-initargs ;; for backward-compat -- used by GBBopen, and swank (via operation-forced) :initform nil :initarg :original-initargs :accessor operation-original-initargs)) (:documentation "The base class for all ASDF operations. ASDF does NOT, never did and never will distinguish between multiple operations of the same class. Therefore, all slots of all operations must have (:allocation class) and no initargs. Any exceptions currently maintained for backward-compatibility are deprecated, and support for them may be discontinued at any moment. ")) ;; Cache a copy of the INITARGS in the ORIGINAL-INITARGS slot, if that slot is not already bound. ;; This is a deprecated feature temporarily maintained for backward compatibility. ;; It will be removed at some point in the future. (defmethod initialize-instance :after ((o operation) &rest initargs &key force force-not system verbose &allow-other-keys) (declare (ignore force force-not system verbose)) (unless (slot-boundp o 'original-initargs) (setf (operation-original-initargs o) initargs))) (defmethod print-object ((o operation) stream) (print-unreadable-object (o stream :type t :identity nil) (ignore-errors (format stream "~{~S~^ ~}" (operation-original-initargs o)))))) ;;; make-operation, find-operation (with-upgradability () ;; A table to memoize instances of a given operation. There shall be only one. (defparameter* *operations* (make-hash-table :test 'equal)) ;; A memoizing way of creating instances of operation. (defun make-operation (operation-class &rest initargs) "This function creates and memoizes an instance of OPERATION-CLASS. All operation instances MUST be created through this function. Use of INITARGS is for backward compatibility and may be discontinued at any time." (let ((class (coerce-class operation-class :package :asdf/interface :super 'operation :error 'sysdef-error))) (ensure-gethash (cons class initargs) *operations* (list* 'make-instance class initargs)))) ;; We preserve the operation-original-initargs of the context, ;; but only as an unsupported feature. ;; This is all done purely for the temporary sake of backwards compatibility. (defgeneric find-operation (context spec) (:documentation "Find an operation by resolving the SPEC in the CONTEXT")) (defmethod find-operation ((context t) (spec operation)) spec) (defmethod find-operation (context (spec symbol)) (when spec ;; NIL designates itself, i.e. absence of operation (apply 'make-operation spec (operation-original-initargs context)))) (defmethod find-operation (context (spec string)) (apply 'make-operation spec (operation-original-initargs context))) (defmethod operation-original-initargs ((context symbol)) (declare (ignorable context)) nil)) ;;;; ------------------------------------------------------------------------- ;;;; Actions (uiop/package:define-package :asdf/action (:nicknames :asdf-action) (:recycle :asdf/action :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/component :asdf/system #:asdf/cache :asdf/find-system :asdf/find-component :asdf/operation) (:export #:action #:define-convenience-action-methods #:action-description #:downward-operation #:upward-operation #:sideway-operation #:selfward-operation #:non-propagating-operation #:component-depends-on #:input-files #:output-files #:output-file #:operation-done-p #:action-status #:action-stamp #:action-done-p #:component-operation-time #:mark-operation-done #:compute-action-stamp #:perform #:perform-with-restarts #:retry #:accept #:action-path #:find-action #:stamp #:done-p #:operation-definition-warning #:operation-definition-error ;; condition )) (in-package :asdf/action) (eval-when (#-lispworks :compile-toplevel :load-toplevel :execute) ;; LispWorks issues spurious warning (deftype action () "A pair of operation and component uniquely identifies a node in the dependency graph of steps to be performed while building a system." '(cons operation component)) (deftype operation-designator () "An operation designates itself. NIL designates a context-dependent current operation, and a class-name or class designates the canonical instance of the designated class." '(or operation null symbol class))) ;;;; Reified representation for storage or debugging. Note: it drops the operation-original-initargs (with-upgradability () (defun action-path (action) "A readable data structure that identifies the action." (destructuring-bind (o . c) action (cons (type-of o) (component-find-path c)))) (defun find-action (path) "Reconstitute an action from its action-path" (destructuring-bind (o . c) path (cons (make-operation o) (find-component () c))))) ;;;; Convenience methods (with-upgradability () ;; A macro that defines convenience methods for a generic function (gf) that ;; dispatches on operation and component. The convenience methods allow users ;; to call the gf with operation and/or component designators, that the ;; methods will resolve into actual operation and component objects, so that ;; the users can interact using readable designators, but developers only have ;; to write methods that handle operation and component objects. ;; FUNCTION is the generic function name ;; FORMALS is its list of arguments, which must include OPERATION and COMPONENT. ;; IF-NO-OPERATION is a form (defaults to NIL) describing what to do if no operation is found. ;; IF-NO-COMPONENT is a form (defaults to NIL) describing what to do if no component is found. ;; If OPERATION-INITARGS is true, then for backward compatibility the function has ;; a &rest argument that is passed into the operation's initargs if and when it is created. (defmacro define-convenience-action-methods (function formals &key if-no-operation if-no-component operation-initargs) (let* ((rest (gensym "REST")) (found (gensym "FOUND")) (keyp (equal (last formals) '(&key))) (formals-no-key (if keyp (butlast formals) formals)) (len (length formals-no-key)) (operation 'operation) (component 'component) (opix (position operation formals)) (coix (position component formals)) (prefix (subseq formals 0 opix)) (suffix (subseq formals (1+ coix) len)) (more-args (when keyp `(&rest ,rest &key &allow-other-keys)))) (assert (and (integerp opix) (integerp coix) (= coix (1+ opix)))) (flet ((next-method (o c) (if keyp `(apply ',function ,@prefix ,o ,c ,@suffix ,rest) `(,function ,@prefix ,o ,c ,@suffix)))) `(progn (defmethod ,function (,@prefix (,operation string) ,component ,@suffix ,@more-args) (let ((,component (find-component () ,component))) ;; do it first, for defsystem-depends-on ,(next-method `(safe-read-from-string ,operation :package :asdf/interface) component))) (defmethod ,function (,@prefix (,operation symbol) ,component ,@suffix ,@more-args) (if ,operation ,(next-method (if operation-initargs ;backward-compatibility with ASDF1's operate. Yuck. `(apply 'make-operation ,operation :original-initargs ,rest ,rest) `(make-operation ,operation)) `(or (find-component () ,component) ,if-no-component)) ,if-no-operation)) (defmethod ,function (,@prefix (,operation operation) ,component ,@suffix ,@more-args) (if (typep ,component 'component) (error "No defined method for ~S on ~/asdf-action:format-action/" ',function (cons ,operation ,component)) (if-let (,found (find-component () ,component)) ,(next-method operation found) ,if-no-component)))))))) ;;;; self-description (with-upgradability () (defgeneric action-description (operation component) (:documentation "returns a phrase that describes performing this operation on this component, e.g. \"loading /a/b/c\". You can put together sentences using this phrase.")) (defmethod action-description (operation component) (format nil (compatfmt "~@<~A on ~A~@:>") (type-of operation) component)) (defun format-action (stream action &optional colon-p at-sign-p) "FORMAT helper to display an action's action-description. Use it in FORMAT control strings as ~/asdf-action:format-action/" (assert (null colon-p)) (assert (null at-sign-p)) (destructuring-bind (operation . component) action (princ (action-description operation component) stream)))) ;;;; Dependencies (with-upgradability () (defgeneric* (component-depends-on) (operation component) ;; ASDF4: rename to component-dependencies (:documentation "Returns a list of dependencies needed by the component to perform the operation. A dependency has one of the following forms: ( *), where is an operation designator with respect to FIND-OPERATION in the context of the OPERATION argument, and each is a component designator with respect to FIND-COMPONENT in the context of the COMPONENT argument, and means that the component depends on having been performed on each ; [Note: an is an operation designator -- it can be either an operation name or an operation object. Similarly, a may be a component name or a component object. Also note that, the degenerate case of () is a no-op.] Methods specialized on subclasses of existing component types should usually append the results of CALL-NEXT-METHOD to the list.")) (define-convenience-action-methods component-depends-on (operation component)) (defmethod component-depends-on :around ((o operation) (c component)) (do-asdf-cache `(component-depends-on ,o ,c) (call-next-method)))) ;;;; upward-operation, downward-operation, sideway-operation, selfward-operation ;; These together handle actions that propagate along the component hierarchy or operation universe. (with-upgradability () (defclass downward-operation (operation) ((downward-operation :initform nil :reader downward-operation :type operation-designator :allocation :class)) (:documentation "A DOWNWARD-OPERATION's dependencies propagate down the component hierarchy. I.e., if O is a DOWNWARD-OPERATION and its DOWNWARD-OPERATION slot designates operation D, then the action (O . M) of O on module M will depends on each of (D . C) for each child C of module M. The default value for slot DOWNWARD-OPERATION is NIL, which designates the operation O itself. E.g. in order for a MODULE to be loaded with LOAD-OP (resp. compiled with COMPILE-OP), all the children of the MODULE must have been loaded with LOAD-OP (resp. compiled with COMPILE-OP.")) (defun downward-operation-depends-on (o c) `((,(or (downward-operation o) o) ,@(component-children c)))) (defmethod component-depends-on ((o downward-operation) (c parent-component)) `(,@(downward-operation-depends-on o c) ,@(call-next-method))) (defclass upward-operation (operation) ((upward-operation :initform nil :reader upward-operation :type operation-designator :allocation :class)) (:documentation "An UPWARD-OPERATION has dependencies that propagate up the component hierarchy. I.e., if O is an instance of UPWARD-OPERATION, and its UPWARD-OPERATION slot designates operation U, then the action (O . C) of O on a component C that has the parent P will depends on (U . P). The default value for slot UPWARD-OPERATION is NIL, which designates the operation O itself. E.g. in order for a COMPONENT to be prepared for loading or compiling with PREPARE-OP, its PARENT must first be prepared for loading or compiling with PREPARE-OP.")) ;; For backward-compatibility reasons, a system inherits from module and is a child-component ;; so we must guard against this case. ASDF4: remove that. (defun upward-operation-depends-on (o c) (if-let (p (component-parent c)) `((,(or (upward-operation o) o) ,p)))) (defmethod component-depends-on ((o upward-operation) (c child-component)) `(,@(upward-operation-depends-on o c) ,@(call-next-method))) (defclass sideway-operation (operation) ((sideway-operation :initform nil :reader sideway-operation :type operation-designator :allocation :class)) (:documentation "A SIDEWAY-OPERATION has dependencies that propagate \"sideway\" to siblings that a component depends on. I.e. if O is a SIDEWAY-OPERATION, and its SIDEWAY-OPERATION slot designates operation S (where NIL designates O itself), then the action (O . C) of O on component C depends on each of (S . D) where D is a declared dependency of C. E.g. in order for a COMPONENT to be prepared for loading or compiling with PREPARE-OP, each of its declared dependencies must first be loaded as by LOAD-OP.")) (defun sideway-operation-depends-on (o c) `((,(or (sideway-operation o) o) ,@(component-sideway-dependencies c)))) (defmethod component-depends-on ((o sideway-operation) (c component)) `(,@(sideway-operation-depends-on o c) ,@(call-next-method))) (defclass selfward-operation (operation) ((selfward-operation ;; NB: no :initform -- if an operation depends on others, it must explicitly specify which :type (or operation-designator list) :reader selfward-operation :allocation :class)) (:documentation "A SELFWARD-OPERATION depends on another operation on the same component. I.e., if O is a SELFWARD-OPERATION, and its SELFWARD-OPERATION designates a list of operations L, then the action (O . C) of O on component C depends on each (S . C) for S in L. E.g. before a component may be loaded by LOAD-OP, it must have been compiled by COMPILE-OP. A operation-designator designates a singleton list of the designated operation; a list of operation-designators designates the list of designated operations; NIL is not a valid operation designator in that context. Note that any dependency ordering between the operations in a list of SELFWARD-OPERATION should be specified separately in the respective operation's COMPONENT-DEPENDS-ON methods so that they be scheduled properly.")) (defun selfward-operation-depends-on (o c) (loop :for op :in (ensure-list (selfward-operation o)) :collect `(,op ,c))) (defmethod component-depends-on ((o selfward-operation) (c component)) `(,@(selfward-operation-depends-on o c) ,@(call-next-method))) (defclass non-propagating-operation (operation) () (:documentation "A NON-PROPAGATING-OPERATION is an operation that propagates no dependencies whatsoever. It is supplied in order that the programmer be able to specify that s/he is intentionally specifying an operation which invokes no dependencies."))) ;;;--------------------------------------------------------------------------- ;;; Help programmers catch obsolete OPERATION subclasses ;;;--------------------------------------------------------------------------- (with-upgradability () (define-condition operation-definition-warning (simple-warning) () (:documentation "Warning condition related to definition of obsolete OPERATION objects.")) (define-condition operation-definition-error (simple-error) () (:documentation "Error condition related to definition of incorrect OPERATION objects.")) (defmethod initialize-instance :before ((o operation) &key) (unless (typep o '(or downward-operation upward-operation sideway-operation selfward-operation non-propagating-operation)) (warn 'operation-definition-warning :format-control "No dependency propagating scheme specified for operation class ~S. The class needs to be updated for ASDF 3.1 and specify appropriate propagation mixins." :format-arguments (list (type-of o))))) (defmethod initialize-instance :before ((o non-propagating-operation) &key) (when (typep o '(or downward-operation upward-operation sideway-operation selfward-operation)) (error 'operation-definition-error :format-control "Inconsistent class: ~S NON-PROPAGATING-OPERATION is incompatible with propagating operation classes as superclasses." :format-arguments (list (type-of o))))) (defmethod component-depends-on ((o operation) (c component)) `(;; Normal behavior, to allow user-specified in-order-to dependencies ,@(cdr (assoc (type-of o) (component-in-order-to c))) ;; For backward-compatibility with ASDF2, any operation that doesn't specify propagation ;; or non-propagation through an appropriate mixin will be downward and sideway. ,@(unless (typep o '(or downward-operation upward-operation sideway-operation selfward-operation non-propagating-operation)) `(,@(sideway-operation-depends-on o c) ,@(when (typep c 'parent-component) (downward-operation-depends-on o c)))))) (defmethod downward-operation ((o operation)) nil) (defmethod sideway-operation ((o operation)) nil)) ;;;--------------------------------------------------------------------------- ;;; End of OPERATION class checking ;;;--------------------------------------------------------------------------- ;;;; Inputs, Outputs, and invisible dependencies (with-upgradability () (defgeneric* (output-files) (operation component) (:documentation "Methods for this function return two values: a list of output files corresponding to this action, and a boolean indicating if they have already been subjected to relevant output translations and should not be further translated. Methods on PERFORM *must* call this function to determine where their outputs are to be located. They may rely on the order of the files to discriminate between outputs. ")) (defgeneric* (input-files) (operation component) (:documentation "A list of input files corresponding to this action. Methods on PERFORM *must* call this function to determine where their inputs are located. They may rely on the order of the files to discriminate between inputs. ")) (defgeneric* (operation-done-p) (operation component) (:documentation "Returns a boolean which is NIL if the action must be performed (again).")) (define-convenience-action-methods output-files (operation component)) (define-convenience-action-methods input-files (operation component)) (define-convenience-action-methods operation-done-p (operation component)) (defmethod operation-done-p ((o operation) (c component)) t) ;; Translate output files, unless asked not to. Memoize the result. (defmethod output-files :around (operation component) operation component ;; hush genera, not convinced by declare ignorable(!) (do-asdf-cache `(output-files ,operation ,component) (values (multiple-value-bind (pathnames fixedp) (call-next-method) ;; 1- Make sure we have absolute pathnames (let* ((directory (pathname-directory-pathname (component-pathname (find-component () component)))) (absolute-pathnames (loop :for pathname :in pathnames :collect (ensure-absolute-pathname pathname directory)))) ;; 2- Translate those pathnames as required (if fixedp absolute-pathnames (mapcar *output-translation-function* absolute-pathnames)))) t))) (defmethod output-files ((o operation) (c component)) nil) (defun output-file (operation component) "The unique output file of performing OPERATION on COMPONENT" (let ((files (output-files operation component))) (assert (length=n-p files 1)) (first files))) ;; Memoize input files. (defmethod input-files :around (operation component) (do-asdf-cache `(input-files ,operation ,component) (call-next-method))) ;; By default an action has no input-files. (defmethod input-files ((o operation) (c component)) nil) ;; An action with a selfward-operation by default gets its input-files from the output-files of ;; the actions using selfward-operations it depends on (and the same component), ;; or if there are none, on the component-pathname of the component if it's a file ;; -- and then on the results of the next-method. (defmethod input-files ((o selfward-operation) (c component)) `(,@(or (loop :for dep-o :in (ensure-list (selfward-operation o)) :append (or (output-files dep-o c) (input-files dep-o c))) (if-let ((pathname (component-pathname c))) (and (file-pathname-p pathname) (list pathname)))) ,@(call-next-method)))) ;;;; Done performing (with-upgradability () ;; ASDF4: hide it behind plan-action-stamp (defgeneric component-operation-time (operation component) (:documentation "Return the timestamp for when an action was last performed")) (defgeneric (setf component-operation-time) (time operation component) (:documentation "Update the timestamp for when an action was last performed")) (define-convenience-action-methods component-operation-time (operation component)) ;; ASDF4: hide it behind (setf plan-action-stamp) (defgeneric mark-operation-done (operation component) (:documentation "Mark a action as having been just done. Updates the action's COMPONENT-OPERATION-TIME to match the COMPUTE-ACTION-STAMP using the JUST-DONE flag.")) (defgeneric compute-action-stamp (plan operation component &key just-done) (:documentation "Has this action been successfully done already, and at what known timestamp has it been done at or will it be done at? Takes two keywords JUST-DONE and PLAN: * JUST-DONE is a boolean that is true if the action was just successfully performed, at which point we want compute the actual stamp and warn if files are missing; otherwise we are making plans, anticipating the effects of the action. * PLAN is a plan object modelling future effects of actions, or NIL to denote what actually happened. Returns two values: * a STAMP saying when it was done or will be done, or T if the action involves files that need to be recomputed. * a boolean DONE-P that indicates whether the action has actually been done, and both its output-files and its in-image side-effects are up to date.")) (defclass action-status () ((stamp :initarg :stamp :reader action-stamp :documentation "STAMP associated with the ACTION if it has been completed already in some previous image, or T if it needs to be done.") (done-p :initarg :done-p :reader action-done-p :documentation "a boolean, true iff the action was already done (before any planned action).")) (:documentation "Status of an action")) (defmethod print-object ((status action-status) stream) (print-unreadable-object (status stream :type t) (with-slots (stamp done-p) status (format stream "~@{~S~^ ~}" :stamp stamp :done-p done-p)))) (defmethod component-operation-time ((o operation) (c component)) (gethash (type-of o) (component-operation-times c))) (defmethod (setf component-operation-time) (stamp (o operation) (c component)) (setf (gethash (type-of o) (component-operation-times c)) stamp)) (defmethod mark-operation-done ((o operation) (c component)) (setf (component-operation-time o c) (compute-action-stamp nil o c :just-done t)))) ;;;; Perform (with-upgradability () (defgeneric* (perform) (operation component) (:documentation "PERFORM an action, consuming its input-files and building its output-files")) (define-convenience-action-methods perform (operation component)) (defmethod perform :before ((o operation) (c component)) (ensure-all-directories-exist (output-files o c))) (defmethod perform :after ((o operation) (c component)) (mark-operation-done o c)) (defmethod perform ((o operation) (c parent-component)) nil) (defmethod perform ((o operation) (c source-file)) ;; For backward compatibility, don't error on operations that don't specify propagation. (when (typep o '(or downward-operation upward-operation sideway-operation selfward-operation non-propagating-operation)) (sysdef-error (compatfmt "~@") 'perform (cons o c)))) ;; The restarts of the perform-with-restarts variant matter in an interactive context. ;; The retry strategies of p-w-r itself, and/or the background workers of a multiprocess build ;; may call perform directly rather than call p-w-r. (defgeneric* (perform-with-restarts) (operation component) (:documentation "PERFORM an action in a context where suitable restarts are in place.")) (defmethod perform-with-restarts (operation component) (perform operation component)) (defmethod perform-with-restarts :around (operation component) (loop (restart-case (return (call-next-method)) (retry () :report (lambda (s) (format s (compatfmt "~@") (action-description operation component)))) (accept () :report (lambda (s) (format s (compatfmt "~@") (action-description operation component))) (mark-operation-done operation component) (return)))))) ;;;; ------------------------------------------------------------------------- ;;;; Actions to build Common Lisp software (uiop/package:define-package :asdf/lisp-action (:recycle :asdf/lisp-action :asdf) (:intern #:proclamations #:flags) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/cache :asdf/component :asdf/system :asdf/find-component :asdf/find-system :asdf/operation :asdf/action) (:export #:try-recompiling #:cl-source-file #:cl-source-file.cl #:cl-source-file.lsp #:basic-load-op #:basic-compile-op #:compile-op-flags #:compile-op-proclamations #:load-op #:prepare-op #:compile-op #:test-op #:load-source-op #:prepare-source-op #:call-with-around-compile-hook #:perform-lisp-compilation #:perform-lisp-load-fasl #:perform-lisp-load-source #:lisp-compilation-output-files #:flags)) (in-package :asdf/lisp-action) ;;;; Component classes (with-upgradability () (defclass cl-source-file (source-file) ((type :initform "lisp")) (:documentation "Component class for a Common Lisp source file (using type \"lisp\")")) (defclass cl-source-file.cl (cl-source-file) ((type :initform "cl")) (:documentation "Component class for a Common Lisp source file using type \"cl\"")) (defclass cl-source-file.lsp (cl-source-file) ((type :initform "lsp")) (:documentation "Component class for a Common Lisp source file using type \"lsp\""))) ;;;; Operation classes (with-upgradability () (defclass basic-load-op (operation) () (:documentation "Base class for operations that apply the load-time effects of a file")) (defclass basic-compile-op (operation) ;; NB: These slots are deprecated. They are for backward compatibility only, ;; and will be removed at some point in the future. ((proclamations :initarg :proclamations :accessor compile-op-proclamations :initform nil) (flags :initarg :flags :accessor compile-op-flags :initform nil)) (:documentation "Base class for operations that apply the compile-time effects of a file"))) ;;; Our default operations: loading into the current lisp image (with-upgradability () (defclass prepare-op (upward-operation sideway-operation) ((sideway-operation :initform 'load-op :allocation :class)) (:documentation "Load the dependencies for the COMPILE-OP or LOAD-OP of a given COMPONENT.")) (defclass load-op (basic-load-op downward-operation selfward-operation) ;; NB: even though compile-op depends on prepare-op it is not needed-in-image-p, ;; so we need to directly depend on prepare-op for its side-effects in the current image. ((selfward-operation :initform '(prepare-op compile-op) :allocation :class)) (:documentation "Operation for loading the compiled FASL for a Lisp file")) (defclass compile-op (basic-compile-op downward-operation selfward-operation) ((selfward-operation :initform 'prepare-op :allocation :class)) (:documentation "Operation for compiling a Lisp file to a FASL")) (defclass prepare-source-op (upward-operation sideway-operation) ((sideway-operation :initform 'load-source-op :allocation :class)) (:documentation "Operation for loading the dependencies of a Lisp file as source.")) (defclass load-source-op (basic-load-op downward-operation selfward-operation) ((selfward-operation :initform 'prepare-source-op :allocation :class)) (:documentation "Operation for loading a Lisp file as source.")) (defclass test-op (selfward-operation) ((selfward-operation :initform 'load-op :allocation :class)) (:documentation "Operation for running the tests for system. If the tests fail, an error will be signaled."))) ;;;; Methods for prepare-op, compile-op and load-op ;;; prepare-op (with-upgradability () (defmethod action-description ((o prepare-op) (c component)) (format nil (compatfmt "~@") c)) (defmethod perform ((o prepare-op) (c component)) nil) (defmethod input-files ((o prepare-op) (s system)) (if-let (it (system-source-file s)) (list it)))) ;;; compile-op (with-upgradability () (defmethod action-description ((o compile-op) (c component)) (format nil (compatfmt "~@") c)) (defmethod action-description ((o compile-op) (c parent-component)) (format nil (compatfmt "~@") c)) (defgeneric call-with-around-compile-hook (component thunk) (:documentation "A method to be called around the PERFORM'ing of actions that apply the compile-time side-effects of file (i.e., COMPILE-OP or LOAD-SOURCE-OP). This method can be used to setup readtables and other variables that control reading, macroexpanding, and compiling, etc. Note that it will NOT be called around the performing of LOAD-OP.")) (defmethod call-with-around-compile-hook ((c component) function) (call-around-hook (around-compile-hook c) function)) (defun perform-lisp-compilation (o c) "Perform the compilation of the Lisp file associated to the specified action (O . C)." (let (;; Before 2.26.53, that was unfortunately component-pathname. Now, ;; we consult input-files, the first of which should be the one to compile-file (input-file (first (input-files o c))) ;; On some implementations, there are more than one output-file, ;; but the first one should always be the primary fasl that gets loaded. (outputs (output-files o c))) (multiple-value-bind (output warnings-p failure-p) (destructuring-bind (output-file &optional #+(or clasp ecl mkcl) object-file #+clisp lib-file warnings-file &rest rest) outputs ;; Allow for extra outputs that are not of type warnings-file ;; The way we do it is kludgy. In ASDF4, output-files shall not be positional. (declare (ignore rest)) (when warnings-file (unless (equal (pathname-type warnings-file) (warnings-file-type)) (setf warnings-file nil))) (call-with-around-compile-hook c #'(lambda (&rest flags) (apply 'compile-file* input-file :output-file output-file :external-format (component-external-format c) :warnings-file warnings-file (append #+clisp (list :lib-file lib-file) #+(or clasp ecl mkcl) (list :object-file object-file) flags (compile-op-flags o)))))) (check-lisp-compile-results output warnings-p failure-p "~/asdf-action::format-action/" (list (cons o c)))))) (defun report-file-p (f) "Is F a build report file containing, e.g., warnings to check?" (equalp (pathname-type f) "build-report")) (defun perform-lisp-warnings-check (o c) "Check the warnings associated with the dependencies of an action." (let* ((expected-warnings-files (remove-if-not #'warnings-file-p (input-files o c))) (actual-warnings-files (loop :for w :in expected-warnings-files :when (get-file-stamp w) :collect w :else :do (warn "Missing warnings file ~S while ~A" w (action-description o c))))) (check-deferred-warnings actual-warnings-files) (let* ((output (output-files o c)) (report (find-if #'report-file-p output))) (when report (with-open-file (s report :direction :output :if-exists :supersede) (format s ":success~%")))))) (defmethod perform ((o compile-op) (c cl-source-file)) (perform-lisp-compilation o c)) (defun lisp-compilation-output-files (o c) "Compute the output-files for compiling the Lisp file for the specified action (O . C), an OPERATION and a COMPONENT." (let* ((i (first (input-files o c))) (f (compile-file-pathname i #+clasp :output-type #+ecl :type #+(or clasp ecl) :fasl #+mkcl :fasl-p #+mkcl t))) `(,f ;; the fasl is the primary output, in first position #+clasp ,@(unless nil ;; was (use-ecl-byte-compiler-p) `(,(compile-file-pathname i :output-type :object))) #+clisp ,@`(,(make-pathname :type "lib" :defaults f)) #+ecl ,@(unless (use-ecl-byte-compiler-p) `(,(compile-file-pathname i :type :object))) #+mkcl ,(compile-file-pathname i :fasl-p nil) ;; object file ,@(when (and *warnings-file-type* (not (builtin-system-p (component-system c)))) `(,(make-pathname :type *warnings-file-type* :defaults f)))))) (defmethod output-files ((o compile-op) (c cl-source-file)) (lisp-compilation-output-files o c)) (defmethod perform ((o compile-op) (c static-file)) nil) ;; Performing compile-op on a system will check the deferred warnings for the system (defmethod perform ((o compile-op) (c system)) (when (and *warnings-file-type* (not (builtin-system-p c))) (perform-lisp-warnings-check o c))) (defmethod input-files ((o compile-op) (c system)) (when (and *warnings-file-type* (not (builtin-system-p c))) ;; The most correct way to do it would be to use: ;; (traverse-sub-actions o c :other-systems nil :keep-operation 'compile-op :keep-component 'cl-source-file) ;; but it's expensive and we don't care too much about file order or ASDF extensions. (loop :for sub :in (sub-components c :type 'cl-source-file) :nconc (remove-if-not 'warnings-file-p (output-files o sub))))) (defmethod output-files ((o compile-op) (c system)) (when (and *warnings-file-type* (not (builtin-system-p c))) (if-let ((pathname (component-pathname c))) (list (subpathname pathname (coerce-filename c) :type "build-report")))))) ;;; load-op (with-upgradability () (defmethod action-description ((o load-op) (c cl-source-file)) (format nil (compatfmt "~@") c)) (defmethod action-description ((o load-op) (c parent-component)) (format nil (compatfmt "~@") c)) (defmethod action-description ((o load-op) (c component)) (format nil (compatfmt "~@") c)) (defmethod perform-with-restarts ((o load-op) (c cl-source-file)) (loop (restart-case (return (call-next-method)) (try-recompiling () :report (lambda (s) (format s "Recompile ~a and try loading it again" (component-name c))) (perform (find-operation o 'compile-op) c))))) (defun perform-lisp-load-fasl (o c) "Perform the loading of a FASL associated to specified action (O . C), an OPERATION and a COMPONENT." (if-let (fasl (first (input-files o c))) (load* fasl))) (defmethod perform ((o load-op) (c cl-source-file)) (perform-lisp-load-fasl o c)) (defmethod perform ((o load-op) (c static-file)) nil)) ;;;; prepare-source-op, load-source-op ;;; prepare-source-op (with-upgradability () (defmethod action-description ((o prepare-source-op) (c component)) (format nil (compatfmt "~@") c)) (defmethod input-files ((o prepare-source-op) (s system)) (if-let (it (system-source-file s)) (list it))) (defmethod perform ((o prepare-source-op) (c component)) nil)) ;;; load-source-op (with-upgradability () (defmethod action-description ((o load-source-op) (c component)) (format nil (compatfmt "~@") c)) (defmethod action-description ((o load-source-op) (c parent-component)) (format nil (compatfmt "~@") c)) (defun perform-lisp-load-source (o c) "Perform the loading of a Lisp file as associated to specified action (O . C)" (call-with-around-compile-hook c #'(lambda () (load* (first (input-files o c)) :external-format (component-external-format c))))) (defmethod perform ((o load-source-op) (c cl-source-file)) (perform-lisp-load-source o c)) (defmethod perform ((o load-source-op) (c static-file)) nil)) ;;;; test-op (with-upgradability () (defmethod perform ((o test-op) (c component)) nil) (defmethod operation-done-p ((o test-op) (c system)) "Testing a system is _never_ done." nil)) ;;;; ------------------------------------------------------------------------- ;;;; Plan (uiop/package:define-package :asdf/plan (:recycle :asdf/plan :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/component :asdf/operation :asdf/system :asdf/cache :asdf/find-system :asdf/find-component :asdf/operation :asdf/action :asdf/lisp-action) (:export #:component-operation-time #:plan #:plan-traversal #:sequential-plan #:*default-plan-class* #:planned-action-status #:plan-action-status #:action-already-done-p #:circular-dependency #:circular-dependency-actions #:node-for #:needed-in-image-p #:action-index #:action-planned-p #:action-valid-p #:plan-record-dependency #:normalize-forced-systems #:action-forced-p #:action-forced-not-p #:map-direct-dependencies #:reduce-direct-dependencies #:direct-dependencies #:compute-action-stamp #:traverse-action #:circular-dependency #:circular-dependency-actions #:call-while-visiting-action #:while-visiting-action #:make-plan #:plan-actions #:perform-plan #:plan-operates-on-p #:planned-p #:index #:forced #:forced-not #:total-action-count #:planned-action-count #:planned-output-action-count #:visited-actions #:visiting-action-set #:visiting-action-list #:plan-actions-r #:required-components #:filtered-sequential-plan #:plan-system #:plan-action-filter #:plan-component-type #:plan-keep-operation #:plan-keep-component #:traverse-actions #:traverse-sub-actions)) (in-package :asdf/plan) ;;;; Generic plan traversal class (with-upgradability () (defclass plan () () (:documentation "Base class for a plan based on which ASDF can build a system")) (defclass plan-traversal (plan) (;; The system for which the plan is computed (system :initform nil :initarg :system :accessor plan-system) ;; Table of systems specified via :force arguments (forced :initform nil :initarg :force :accessor plan-forced) ;; Table of systems specified via :force-not argument (and/or immutable) (forced-not :initform nil :initarg :force-not :accessor plan-forced-not) ;; Counts of total actions in plan (total-action-count :initform 0 :accessor plan-total-action-count) ;; Count of actions that need to be performed (planned-action-count :initform 0 :accessor plan-planned-action-count) ;; Count of actions that need to be performed that have a non-empty list of output-files. (planned-output-action-count :initform 0 :accessor plan-planned-output-action-count) ;; Table that to actions already visited while walking the dependencies associates status (visited-actions :initform (make-hash-table :test 'equal) :accessor plan-visited-actions) ;; Actions that depend on those being currently walked through, to detect circularities (visiting-action-set ;; as a set :initform (make-hash-table :test 'equal) :accessor plan-visiting-action-set) (visiting-action-list :initform () :accessor plan-visiting-action-list)) ;; as a list (:documentation "Base class for plans that simply traverse dependencies"))) ;;;; Planned action status (with-upgradability () (defgeneric plan-action-status (plan operation component) (:documentation "Returns the ACTION-STATUS associated to the action of OPERATION on COMPONENT in the PLAN")) (defgeneric (setf plan-action-status) (new-status plan operation component) (:documentation "Sets the ACTION-STATUS associated to the action of OPERATION on COMPONENT in the PLAN")) (defclass planned-action-status (action-status) ((planned-p :initarg :planned-p :reader action-planned-p :documentation "a boolean, true iff the action was included in the plan.") (index :initarg :index :reader action-index :documentation "an integer, counting all traversed actions in traversal order.")) (:documentation "Status of an action in a plan")) (defmethod print-object ((status planned-action-status) stream) (print-unreadable-object (status stream :type t :identity nil) (with-slots (stamp done-p planned-p index) status (format stream "~@{~S~^ ~}" :stamp stamp :done-p done-p :planned-p planned-p :index index)))) (defmethod action-planned-p ((action-status t)) t) ; default method for non planned-action-status objects ;; TODO: either confirm there are no operation-original-initargs, eliminate NODE-FOR, ;; and use (CONS O C); or keep the operation initargs, and here use MAKE-OPERATION. ;; However, see also component-operation-time and mark-operation-done (defun node-for (o c) "Given operation O and component C, return an object to use as key in action-indexed tables." (cons (type-of o) c)) (defun action-already-done-p (plan operation component) "According to this plan, is this action already done and up to date?" (action-done-p (plan-action-status plan operation component))) (defmethod plan-action-status ((plan null) (o operation) (c component)) (multiple-value-bind (stamp done-p) (component-operation-time o c) (make-instance 'action-status :stamp stamp :done-p done-p))) (defmethod (setf plan-action-status) (new-status (plan null) (o operation) (c component)) (let ((to (type-of o)) (times (component-operation-times c))) (if (action-done-p new-status) (remhash to times) (setf (gethash to times) (action-stamp new-status)))) new-status)) ;;;; forcing (with-upgradability () (defgeneric action-forced-p (plan operation component) (:documentation "Is this action forced to happen in this plan?")) (defgeneric action-forced-not-p (plan operation component) (:documentation "Is this action forced to not happen in this plan? Takes precedence over action-forced-p.")) (defun normalize-forced-systems (force system) "Given a SYSTEM on which operate is called and the specified FORCE argument, extract a hash-set of systems that are forced, or a predicate on system names, or NIL if none are forced, or :ALL if all are." (etypecase force ((or (member nil :all) hash-table function) force) (cons (list-to-hash-set (mapcar #'coerce-name force))) ((eql t) (when system (list-to-hash-set (list (coerce-name system))))))) (defun normalize-forced-not-systems (force-not system) "Given a SYSTEM on which operate is called, the specified FORCE-NOT argument, and the set of IMMUTABLE systems, extract a hash-set of systems that are effectively forced-not, or predicate on system names, or NIL if none are forced, or :ALL if all are." (let ((requested (etypecase force-not ((or (member nil :all) hash-table function) force-not) (cons (list-to-hash-set (mapcar #'coerce-name force-not))) ((eql t) (if system (let ((name (coerce-name system))) #'(lambda (x) (not (equal x name)))) :all))))) (if (and *immutable-systems* requested) #'(lambda (x) (or (call-function requested x) (call-function *immutable-systems* x))) (or *immutable-systems* requested)))) ;; TODO: shouldn't we be looking up the primary system name, rather than the system name? (defun action-override-p (plan operation component override-accessor) "Given a plan, an action, and a function that given the plan accesses a set of overrides (i.e. force or force-not), see if the override applies to the current action." (declare (ignore operation)) (call-function (funcall override-accessor plan) (coerce-name (component-system (find-component () component))))) (defmethod action-forced-p (plan operation component) (and ;; Did the user ask us to re-perform the action? (action-override-p plan operation component 'plan-forced) ;; You really can't force a builtin system and :all doesn't apply to it, ;; except if it's the specifically the system currently being built. (not (let ((system (component-system component))) (and (builtin-system-p system) (not (eq system (plan-system plan)))))))) (defmethod action-forced-not-p (plan operation component) ;; Did the user ask us to not re-perform the action? ;; NB: force-not takes precedence over force, as it should (action-override-p plan operation component 'plan-forced-not)) (defmethod action-forced-p ((plan null) (operation operation) (component component)) nil) (defmethod action-forced-not-p ((plan null) (operation operation) (component component)) nil)) ;;;; action-valid-p (with-upgradability () (defgeneric action-valid-p (plan operation component) (:documentation "Is this action valid to include amongst dependencies?")) ;; :if-feature will invalidate actions on components for which the features don't apply. (defmethod action-valid-p ((plan t) (o operation) (c component)) (if-let (it (component-if-feature c)) (featurep it) t)) ;; If either the operation or component was resolved to nil, the action is invalid. (defmethod action-valid-p ((plan t) (o null) (c t)) nil) (defmethod action-valid-p ((plan t) (o t) (c null)) nil) ;; If the plan is null, i.e., we're looking at reality, ;; then any action with actual operation and component objects is valid. (defmethod action-valid-p ((plan null) (o operation) (c component)) t)) ;;;; Is the action needed in this image? (with-upgradability () (defgeneric needed-in-image-p (operation component) (:documentation "Is the action of OPERATION on COMPONENT needed in the current image to be meaningful, or could it just as well have been done in another Lisp image?")) (defmethod needed-in-image-p ((o operation) (c component)) ;; We presume that actions that modify the filesystem don't need be run ;; in the current image if they have already been done in another, ;; and can be run in another process (e.g. a fork), ;; whereas those that don't are meant to side-effect the current image and can't. (not (output-files o c)))) ;;;; Visiting dependencies of an action and computing action stamps (with-upgradability () (defun* (map-direct-dependencies) (plan operation component fun) "Call FUN on all the valid dependencies of the given action in the given plan" (loop* :for (dep-o-spec . dep-c-specs) :in (component-depends-on operation component) :for dep-o = (find-operation operation dep-o-spec) :when dep-o :do (loop :for dep-c-spec :in dep-c-specs :for dep-c = (and dep-c-spec (resolve-dependency-spec component dep-c-spec)) :when (and dep-c (action-valid-p plan dep-o dep-c)) :do (funcall fun dep-o dep-c)))) (defun* (reduce-direct-dependencies) (plan operation component combinator seed) "Reduce the direct dependencies to a value computed by iteratively calling COMBINATOR for each dependency action on the dependency's operation and component and an accumulator initialized with SEED." (map-direct-dependencies plan operation component #'(lambda (dep-o dep-c) (setf seed (funcall combinator dep-o dep-c seed)))) seed) (defun* (direct-dependencies) (plan operation component) "Compute a list of the direct dependencies of the action within the plan" (reduce-direct-dependencies plan operation component #'acons nil)) ;; In a distant future, get-file-stamp, component-operation-time and latest-stamp ;; shall also be parametrized by the plan, or by a second model object, ;; so they need not refer to the state of the filesystem, ;; and the stamps could be cryptographic checksums rather than timestamps. ;; Such a change remarkably would only affect COMPUTE-ACTION-STAMP. (defmethod compute-action-stamp (plan (o operation) (c component) &key just-done) ;; Given an action, figure out at what time in the past it has been done, ;; or if it has just been done, return the time that it has. ;; Returns two values: ;; 1- the TIMESTAMP of the action if it has already been done and is up to date, ;; or T is either hasn't been done or is out of date. ;; 2- the DONE-IN-IMAGE-P boolean flag that is T if the action has already been done ;; in the current image, or NIL if it hasn't. ;; Note that if e.g. LOAD-OP only depends on up-to-date files, but ;; hasn't been done in the current image yet, then it can have a non-T timestamp, ;; yet a NIL done-in-image-p flag: we can predict what timestamp it will have once loaded, ;; i.e. that of the input-files. (nest (block ()) (let ((dep-stamp ; collect timestamp from dependencies (or T if forced or out-of-date) (reduce-direct-dependencies plan o c #'(lambda (o c stamp) (if-let (it (plan-action-status plan o c)) (latest-stamp stamp (action-stamp it)) t)) nil))) ;; out-of-date dependency: don't bother expensively querying the filesystem (when (and (eq dep-stamp t) (not just-done)) (return (values t nil)))) ;; collect timestamps from inputs, and exit early if any is missing (let* ((in-files (input-files o c)) (in-stamps (mapcar #'get-file-stamp in-files)) (missing-in (loop :for f :in in-files :for s :in in-stamps :unless s :collect f)) (latest-in (stamps-latest (cons dep-stamp in-stamps)))) (when (and missing-in (not just-done)) (return (values t nil)))) ;; collect timestamps from outputs, and exit early if any is missing (let* ((out-files (remove-if 'null (output-files o c))) (out-stamps (mapcar (if just-done 'register-file-stamp 'get-file-stamp) out-files)) (missing-out (loop :for f :in out-files :for s :in out-stamps :unless s :collect f)) (earliest-out (stamps-earliest out-stamps))) (when (and missing-out (not just-done)) (return (values t nil)))) (let* (;; There are three kinds of actions: (out-op (and out-files t)) ; those that create files on the filesystem ;;(image-op (and in-files (null out-files))) ; those that load stuff into the image ;;(null-op (and (null out-files) (null in-files))) ; placeholders that do nothing ;; When was the thing last actually done? (Now, or ask.) (op-time (or just-done (component-operation-time o c))) ;; Time stamps from the files at hand, and whether any is missing (all-present (not (or missing-in missing-out))) ;; Has any input changed since we last generated the files? (up-to-date-p (stamp<= latest-in earliest-out)) ;; If everything is up to date, the latest of inputs and outputs is our stamp (done-stamp (stamps-latest (cons latest-in out-stamps)))) ;; Warn if some files are missing: ;; either our model is wrong or some other process is messing with our files. (when (and just-done (not all-present)) (warn "~A completed without ~:[~*~;~*its input file~:p~2:*~{ ~S~}~*~]~ ~:[~; or ~]~:[~*~;~*its output file~:p~2:*~{ ~S~}~*~]" (action-description o c) missing-in (length missing-in) (and missing-in missing-out) missing-out (length missing-out)))) ;; Note that we use stamp<= instead of stamp< to play nice with generated files. ;; Any race condition is intrinsic to the limited timestamp resolution. (if (or just-done ;; The done-stamp is valid: if we're just done, or ;; if all filesystem effects are up-to-date and there's no invalidating reason. (and all-present up-to-date-p (operation-done-p o c) (not (action-forced-p plan o c)))) (values done-stamp ;; return the hard-earned timestamp (or just-done out-op ;; a file-creating op is done when all files are up to date ;; a image-effecting a placeholder op is done when it was actually run, (and op-time (eql op-time done-stamp)))) ;; with the matching stamp ;; done-stamp invalid: return a timestamp in an indefinite future, action not done yet (values t nil))))) ;;;; Generic support for plan-traversal (with-upgradability () (defmethod initialize-instance :after ((plan plan-traversal) &key force force-not system &allow-other-keys) (with-slots (forced forced-not) plan (setf forced (normalize-forced-systems force system)) (setf forced-not (normalize-forced-not-systems force-not system)))) (defgeneric plan-actions (plan) (:documentation "Extract from a plan a list of actions to perform in sequence")) (defmethod plan-actions ((plan list)) plan) (defmethod (setf plan-action-status) (new-status (p plan-traversal) (o operation) (c component)) (setf (gethash (node-for o c) (plan-visited-actions p)) new-status)) (defmethod plan-action-status ((p plan-traversal) (o operation) (c component)) (or (and (action-forced-not-p p o c) (plan-action-status nil o c)) (values (gethash (node-for o c) (plan-visited-actions p))))) (defmethod action-valid-p ((p plan-traversal) (o operation) (s system)) (and (not (action-forced-not-p p o s)) (call-next-method))) (defgeneric plan-record-dependency (plan operation component) (:documentation "Record an action as a dependency in the current plan"))) ;;;; Detection of circular dependencies (with-upgradability () (define-condition circular-dependency (system-definition-error) ((actions :initarg :actions :reader circular-dependency-actions)) (:report (lambda (c s) (format s (compatfmt "~@") (circular-dependency-actions c))))) (defgeneric call-while-visiting-action (plan operation component function) (:documentation "Detect circular dependencies")) (defmethod call-while-visiting-action ((plan plan-traversal) operation component fun) (with-accessors ((action-set plan-visiting-action-set) (action-list plan-visiting-action-list)) plan (let ((action (cons operation component))) (when (gethash action action-set) (error 'circular-dependency :actions (member action (reverse action-list) :test 'equal))) (setf (gethash action action-set) t) (push action action-list) (unwind-protect (funcall fun) (pop action-list) (setf (gethash action action-set) nil))))) ;; Syntactic sugar for call-while-visiting-action (defmacro while-visiting-action ((p o c) &body body) `(call-while-visiting-action ,p ,o ,c #'(lambda () ,@body)))) ;;;; Actual traversal: traverse-action (with-upgradability () (defgeneric traverse-action (plan operation component needed-in-image-p)) ;; TRAVERSE-ACTION, in the context of a given PLAN object that accumulates dependency data, ;; visits the action defined by its OPERATION and COMPONENT arguments, ;; and all its transitive dependencies (unless already visited), ;; in the context of the action being (or not) NEEDED-IN-IMAGE-P, ;; i.e. needs to be done in the current image vs merely have been done in a previous image. ;; For actions that are up-to-date, it returns a STAMP identifying the state of the action ;; (that's timestamp, but it could be a cryptographic digest in some ASDF extension), ;; or T if the action needs to be done again. ;; ;; Note that for an XCVB-like plan with one-image-per-file-outputting-action, ;; the below method would be insufficient, since it assumes a single image ;; to traverse each node at most twice; non-niip actions would be traversed only once, ;; but niip nodes could be traversed once per image, i.e. once plus once per non-niip action. (defmethod traverse-action (plan operation component needed-in-image-p) (block nil ;; ACTION-VALID-P among other things, handles forcing logic, including FORCE-NOT, ;; and IF-FEATURE filtering. (unless (action-valid-p plan operation component) (return nil)) ;; the following hook is needed by POIU, which tracks a full dependency graph, ;; instead of just a dependency order as in vanilla ASDF (plan-record-dependency plan operation component) ;; needed in image distinguishes b/w things that must happen in the ;; current image and those things that simply need to have been done in a previous one. (let* ((aniip (needed-in-image-p operation component)) ; action-specific needed-in-image ;; effective niip: meaningful for the action and required by the plan as traversed (eniip (and aniip needed-in-image-p)) ;; status: have we traversed that action previously, and if so what was its status? (status (plan-action-status plan operation component))) (when (and status (or (action-done-p status) (action-planned-p status) (not eniip))) (return (action-stamp status))) ; Already visited with sufficient need-in-image level! (labels ((visit-action (niip) ; We may visit the action twice, once with niip NIL, then T (map-direct-dependencies ; recursively traverse dependencies plan operation component #'(lambda (o c) (traverse-action plan o c niip))) (multiple-value-bind (stamp done-p) ; AFTER dependencies have been traversed, (compute-action-stamp plan operation component) ; compute action stamp (let ((add-to-plan-p (or (eql stamp t) (and niip (not done-p))))) (cond ; it needs be done if it's out of date or needed in image but absent ((and add-to-plan-p (not niip)) ; if we need to do it, (visit-action t)) ; then we need to do it *in the (current) image*! (t (setf (plan-action-status plan operation component) ; update status: (make-instance 'planned-action-status :stamp stamp ; computed stamp :done-p (and done-p (not add-to-plan-p)) ; done *and* up-to-date? :planned-p add-to-plan-p ; included in list of things to be done? :index (if status ; index of action amongst all nodes in traversal (action-index status) ;; if already visited, keep index (incf (plan-total-action-count plan))))) ; else new index (when (and done-p (not add-to-plan-p)) (setf (component-operation-time operation component) stamp)) (when add-to-plan-p ; if it needs to be added to the plan, (incf (plan-planned-action-count plan)) ; count it (unless aniip ; if it's output-producing, (incf (plan-planned-output-action-count plan)))) ; count it stamp)))))) ; return the stamp (while-visiting-action (plan operation component) ; maintain context, handle circularity. (visit-action eniip))))))) ; visit the action ;;;; Sequential plans (the default) (with-upgradability () (defclass sequential-plan (plan-traversal) ((actions-r :initform nil :accessor plan-actions-r)) (:documentation "Simplest, default plan class, accumulating a sequence of actions")) (defmethod plan-actions ((plan sequential-plan)) (reverse (plan-actions-r plan))) ;; No need to record a dependency to build a full graph, just accumulate nodes in order. (defmethod plan-record-dependency ((plan sequential-plan) (o operation) (c component)) (values)) (defmethod (setf plan-action-status) :after (new-status (p sequential-plan) (o operation) (c component)) (when (action-planned-p new-status) (push (cons o c) (plan-actions-r p))))) ;;;; High-level interface: traverse, perform-plan, plan-operates-on-p (with-upgradability () (defgeneric make-plan (plan-class operation component &key &allow-other-keys) (:documentation "Generate and return a plan for performing OPERATION on COMPONENT.")) (define-convenience-action-methods make-plan (plan-class operation component &key)) (defgeneric perform-plan (plan &key) (:documentation "Actually perform a plan and build the requested actions")) (defgeneric plan-operates-on-p (plan component) (:documentation "Does this PLAN include any operation on given COMPONENT?")) (defvar *default-plan-class* 'sequential-plan "The default plan class to use when building with ASDF") (defmethod make-plan (plan-class (o operation) (c component) &rest keys &key &allow-other-keys) (let ((plan (apply 'make-instance (or plan-class *default-plan-class*) :system (component-system c) keys))) (traverse-action plan o c t) plan)) (defmethod perform-plan :around ((plan t) &key) #+xcl (declare (ignorable plan)) (let ((*package* *package*) (*readtable* *readtable*)) (with-compilation-unit () ;; backward-compatibility. (call-next-method)))) ;; Going forward, see deferred-warning support in lisp-build. (defmethod perform-plan ((plan t) &rest keys &key &allow-other-keys) (apply 'perform-plan (plan-actions plan) keys)) (defmethod perform-plan ((steps list) &key force &allow-other-keys) (loop* :for (o . c) :in steps :when (or force (not (nth-value 1 (compute-action-stamp nil o c)))) :do (perform-with-restarts o c))) (defmethod plan-operates-on-p ((plan plan-traversal) (component-path list)) (plan-operates-on-p (plan-actions plan) component-path)) (defmethod plan-operates-on-p ((plan list) (component-path list)) (find component-path (mapcar 'cdr plan) :test 'equal :key 'component-find-path))) ;;;; Incidental traversals ;;; Making a FILTERED-SEQUENTIAL-PLAN can be used to, e.g., all of the source ;;; files required by a bundling operation. (with-upgradability () (defclass filtered-sequential-plan (sequential-plan) ((action-filter :initform t :initarg :action-filter :reader plan-action-filter) (component-type :initform t :initarg :component-type :reader plan-component-type) (keep-operation :initform t :initarg :keep-operation :reader plan-keep-operation) (keep-component :initform t :initarg :keep-component :reader plan-keep-component)) (:documentation "A variant of SEQUENTIAL-PLAN that only records a subset of actions.")) (defmethod initialize-instance :after ((plan filtered-sequential-plan) &key force force-not other-systems) (declare (ignore force force-not)) ;; Ignore force and force-not, rely on other-systems: ;; force traversal of what we're interested in, i.e. current system or also others; ;; force-not traversal of what we're not interested in, i.e. other systems unless other-systems. (with-slots (forced forced-not action-filter system) plan (setf forced (normalize-forced-systems (if other-systems :all t) system)) (setf forced-not (normalize-forced-not-systems (if other-systems nil t) system)) (setf action-filter (ensure-function action-filter)))) (defmethod action-valid-p ((plan filtered-sequential-plan) o c) (and (funcall (plan-action-filter plan) o c) (typep c (plan-component-type plan)) (call-next-method))) (defun* (traverse-actions) (actions &rest keys &key plan-class &allow-other-keys) "Given a list of actions, build a plan with these actions as roots." (let ((plan (apply 'make-instance (or plan-class 'filtered-sequential-plan) keys))) (loop* :for (o . c) :in actions :do (traverse-action plan o c t)) plan)) (defgeneric traverse-sub-actions (operation component &key &allow-other-keys)) (define-convenience-action-methods traverse-sub-actions (operation component &key)) (defmethod traverse-sub-actions ((operation operation) (component component) &rest keys &key &allow-other-keys) (apply 'traverse-actions (direct-dependencies t operation component) :system (component-system component) keys)) (defmethod plan-actions ((plan filtered-sequential-plan)) (with-slots (keep-operation keep-component) plan (loop* :for (o . c) :in (call-next-method) :when (and (typep o keep-operation) (typep c keep-component)) :collect (cons o c)))) (defun* (required-components) (system &rest keys &key (goal-operation 'load-op) &allow-other-keys) "Given a SYSTEM and a GOAL-OPERATION (default LOAD-OP), traverse the dependencies and return a list of the components involved in building the desired action." (remove-duplicates (mapcar 'cdr (plan-actions (apply 'traverse-sub-actions goal-operation system (remove-plist-key :goal-operation keys)))) :from-end t))) ;;;; ------------------------------------------------------------------------- ;;;; Invoking Operations (uiop/package:define-package :asdf/operate (:recycle :asdf/operate :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/cache :asdf/component :asdf/system :asdf/operation :asdf/action :asdf/find-system :asdf/find-component :asdf/lisp-action :asdf/plan) (:export #:operate #:oos #:build-op #:make #:load-system #:load-systems #:load-systems* #:compile-system #:test-system #:require-system #:*load-system-operation* #:module-provide-asdf #:component-loaded-p #:already-loaded-systems)) (in-package :asdf/operate) (with-upgradability () (defgeneric* (operate) (operation component &key &allow-other-keys) (:documentation "Operate does mainly four things for the user: 1. Resolves the OPERATION designator into an operation object. OPERATION is typically a symbol denoting an operation class, instantiated with MAKE-OPERATION. 2. Resolves the COMPONENT designator into a component object. COMPONENT is typically a string or symbol naming a system, loaded from disk using FIND-SYSTEM. 3. It then calls MAKE-PLAN with the operation and system as arguments. 4. Finally calls PERFORM-PLAN on the resulting plan to actually build the system. The entire computation is wrapped in WITH-COMPILATION-UNIT and error handling code. If a VERSION argument is supplied, then operate also ensures that the system found satisfies it using the VERSION-SATISFIES method. If a PLAN-CLASS argument is supplied, that class is used for the plan. The :FORCE or :FORCE-NOT argument to OPERATE can be: T to force the inside of the specified system to be rebuilt (resp. not), without recursively forcing the other systems we depend on. :ALL to force all systems including other systems we depend on to be rebuilt (resp. not). (SYSTEM1 SYSTEM2 ... SYSTEMN) to force systems named in a given list :FORCE-NOT has precedence over :FORCE; builtin systems cannot be forced. For backward compatibility, all keyword arguments are passed to MAKE-OPERATION when instantiating a new operation, that will in turn be inherited by new operations. But do NOT depend on it, for this is deprecated behavior.")) (define-convenience-action-methods operate (operation component &key) ;; I'd like to at least remove-plist-keys :force :force-not :verbose, ;; but swank.asd relies on :force (!). :operation-initargs t ;; backward-compatibility with ASDF1. Deprecated. :if-no-component (error 'missing-component :requires component)) (defvar *in-operate* nil "Are we in operate?") ;; This method ensures that an ASDF upgrade is attempted as the very first thing, ;; with suitable state preservation in case in case it actually happens, ;; and that a few suitable dynamic bindings are established. (defmethod operate :around (operation component &rest keys &key verbose (on-warnings *compile-file-warnings-behaviour*) (on-failure *compile-file-failure-behaviour*) &allow-other-keys) (nest (with-asdf-cache ()) (let ((in-operate *in-operate*) (*in-operate* t) (operation-remaker ;; how to remake the operation after ASDF was upgraded (if it was) (etypecase operation (operation (let ((name (type-of operation)) (initargs (operation-original-initargs operation))) #'(lambda () (apply 'make-operation name :original-initargs initargs initargs)))) ((or symbol string) (constantly operation)))) (component-path (typecase component ;; to remake the component after ASDF upgrade (component (component-find-path component)) (t component))))) ;; Before we operate on any system, make sure ASDF is up-to-date, ;; for if an upgrade is ever attempted at any later time, there may be BIG trouble. (progn (unless in-operate (when (upgrade-asdf) ;; If we were upgraded, restart OPERATE the hardest of ways, for ;; its function may have been redefined, its symbol uninterned, its package deleted. (return-from operate (apply 'operate (funcall operation-remaker) component-path keys))))) ;; Setup proper bindings around any operate call. (let* ((*verbose-out* (and verbose *standard-output*)) (*compile-file-warnings-behaviour* on-warnings) (*compile-file-failure-behaviour* on-failure)) (call-next-method)))) (defmethod operate :before ((operation operation) (component component) &key version &allow-other-keys) (unless (version-satisfies component version) (error 'missing-component-of-version :requires component :version version))) (defmethod operate ((operation operation) (component component) &rest keys &key plan-class &allow-other-keys) (let ((plan (apply 'make-plan plan-class operation component keys))) (apply 'perform-plan plan keys) (values operation plan))) (defun oos (operation component &rest args &key &allow-other-keys) (apply 'operate operation component args)) (setf (documentation 'oos 'function) (format nil "Short for _operate on system_ and an alias for the OPERATE function.~%~%~a" (documentation 'operate 'function)))) ;;;; Common operations (with-upgradability () (defvar *load-system-operation* 'load-op "Operation used by ASDF:LOAD-SYSTEM. By default, ASDF:LOAD-OP. You may override it with e.g. ASDF:LOAD-BUNDLE-OP from asdf/bundle or ASDF:LOAD-SOURCE-OP if your fasl loading is somehow broken. The default operation may change in the future if we implement a component-directed strategy for how to load or compile systems.") ;; In prepare-op for a system, propagate *load-system-operation* rather than load-op (defmethod component-depends-on ((o prepare-op) (s system)) (loop :for (do . dc) :in (call-next-method) :collect (cons (if (eq do 'load-op) *load-system-operation* do) dc))) (defclass build-op (non-propagating-operation) () (:documentation "Since ASDF3, BUILD-OP is the recommended 'master' operation, to operate by default on a system or component, via the function BUILD. Its meaning is configurable via the :BUILD-OPERATION option of a component. which typically specifies the name of a specific operation to which to delegate the build, as a symbol or as a string later read as a symbol (after loading the defsystem-depends-on); if NIL is specified (the default), BUILD-OP falls back to the *LOAD-SYSTEM-OPERATION* that will load the system in the current image, and its typically LOAD-OP.")) (defmethod component-depends-on ((o build-op) (c component)) `((,(or (component-build-operation c) *load-system-operation*) ,c) ,@(call-next-method))) (defun make (system &rest keys) "The recommended way to interact with ASDF3.1 is via (ASDF:MAKE :FOO). It will build system FOO using the operation BUILD-OP, the meaning of which is configurable by the system, and defaults to *LOAD-SYSTEM-OPERATION*, usually LOAD-OP, to load it in current image." (apply 'operate 'build-op system keys) t) (defun load-system (system &rest keys &key force force-not verbose version &allow-other-keys) "Shorthand for `(operate 'asdf:load-op system)`. See OPERATE for details." (declare (ignore force force-not verbose version)) (apply 'operate *load-system-operation* system keys) t) (defun load-systems* (systems &rest keys) "Loading multiple systems at once." (dolist (s systems) (apply 'load-system s keys))) (defun load-systems (&rest systems) "Loading multiple systems at once." (load-systems* systems)) (defun compile-system (system &rest args &key force force-not verbose version &allow-other-keys) "Shorthand for `(asdf:operate 'asdf:compile-op system)`. See OPERATE for details." (declare (ignore force force-not verbose version)) (apply 'operate 'compile-op system args) t) (defun test-system (system &rest args &key force force-not verbose version &allow-other-keys) "Shorthand for `(asdf:operate 'asdf:test-op system)`. See OPERATE for details." (declare (ignore force force-not verbose version)) (apply 'operate 'test-op system args) t)) ;;;;; Define the function REQUIRE-SYSTEM, that, similarly to REQUIRE, ;; only tries to load its specified target if it's not loaded yet. (with-upgradability () (defun component-loaded-p (component) "Has the given COMPONENT been successfully loaded in the current image (yet)? Note that this returns true even if the component is not up to date." (if-let ((component (find-component component () :registered t))) (action-already-done-p nil (make-operation 'load-op) component))) (defun already-loaded-systems () "return a list of the names of the systems that have been successfully loaded so far" (mapcar 'coerce-name (remove-if-not 'component-loaded-p (registered-systems*)))) (defun require-system (system &rest keys &key &allow-other-keys) "Ensure the specified SYSTEM is loaded, passing the KEYS to OPERATE, but do not update the system or its dependencies if they have already been loaded." (unless (component-loaded-p system) (apply 'load-system system :force-not (already-loaded-systems) keys)))) ;;;; Define the class REQUIRE-SYSTEM, to be hooked into CL:REQUIRE when possible, ;; i.e. for ABCL, CLISP, ClozureCL, CMUCL, ECL, MKCL and SBCL ;; Note that despite the two being homonyms, the _function_ require-system ;; and the _class_ require-system are quite distinct entities, fulfilling independent purposes. (with-upgradability () (defvar *modules-being-required* nil) (defclass require-system (system) ((module :initarg :module :initform nil :accessor required-module)) (:documentation "A SYSTEM subclass whose processing is handled by the implementation's REQUIRE rather than by internal ASDF mechanisms.")) (defmethod perform ((o compile-op) (c require-system)) nil) (defmethod perform ((o load-op) (s require-system)) (let* ((module (or (required-module s) (coerce-name s))) (*modules-being-required* (cons module *modules-being-required*))) (assert (null (component-children s))) ;; CMUCL likes its module names to be all upcase. (require #-cmucl module #+cmucl (string-upcase module)))) (defmethod resolve-dependency-combination (component (combinator (eql :require)) arguments) (unless (and (length=n-p arguments 1) (typep (car arguments) '(or string (and symbol (not null))))) (parameter-error (compatfmt "~@") 'resolve-dependency-combination (cons combinator arguments) component combinator)) ;; :require must be prepared for some implementations providing modules using ASDF, ;; as SBCL used to do, and others may might do. Thus, the system provided in the end ;; would be a downcased name as per module-provide-asdf above. For the same reason, ;; we cannot assume that the system in the end will be of type require-system, ;; but must check whether we can use find-system and short-circuit cl:require. ;; Otherwise, calling cl:require could result in nasty reentrant calls between ;; cl:require and asdf:operate that could potentially blow up the stack, ;; all the while defeating the consistency of the dependency graph. (let* ((module (car arguments)) ;; NB: we already checked that it was not null (name (string-downcase module)) (system (find-system name nil))) (or system (let ((system (make-instance 'require-system :name name))) (register-system system) system)))) (defun module-provide-asdf (name) ;; We must use string-downcase, because modules are traditionally specified as symbols, ;; that implementations traditionally normalize as uppercase, for which we seek a system ;; with a name that is traditionally in lowercase. Case is lost along the way. That's fine. ;; We could make complex, non-portable rules to try to preserve case, and just documenting ;; them would be a hell that it would be a disservice to inflict on users. (let ((module (string-downcase name))) (unless (member module *modules-being-required* :test 'equal) (let ((*modules-being-required* (cons module *modules-being-required*)) #+sbcl (sb-impl::*requiring* (remove module sb-impl::*requiring* :test 'equal))) (handler-bind ((style-warning #'muffle-warning) (missing-component (constantly nil)) (fatal-condition #'(lambda (e) (format *error-output* (compatfmt "~@~%") name e)))) (let ((*verbose-out* (make-broadcast-stream))) (let ((system (find-system module nil))) (when system (require-system system :verbose nil) t))))))))) ;;;; Some upgrade magic (with-upgradability () (defun restart-upgraded-asdf () ;; If we're in the middle of something, restart it. (let ((systems-being-defined (when *asdf-cache* (prog1 (loop :for k :being :the hash-keys :of *asdf-cache* :when (eq (first k) 'find-system) :collect (second k)) (clrhash *asdf-cache*))))) ;; Regardless, clear defined systems, since they might be invalid ;; after an incompatible ASDF upgrade. (clear-defined-systems) ;; The configuration also may have to be upgraded. (upgrade-configuration) ;; If we were in the middle of an operation, be sure to restore the system being defined. (dolist (s systems-being-defined) (find-system s nil)))) (register-hook-function '*post-upgrade-cleanup-hook* 'restart-upgraded-asdf) ;; The following function's symbol is from asdf/find-system. ;; It is defined here to resolve what would otherwise be forward package references. (defun mark-component-preloaded (component) "Mark a component as preloaded." (let ((component (find-component component nil :registered t))) ;; Recurse to children, so asdf/plan will hopefully be happy. (map () 'mark-component-preloaded (component-children component)) ;; Mark the timestamps of the common lisp-action operations as 0. (let ((times (component-operation-times component))) (dolist (o '(load-op compile-op prepare-op)) (setf (gethash o times) 0)))))) ;;;; --------------------------------------------------------------------------- ;;;; asdf-output-translations (uiop/package:define-package :asdf/output-translations (:recycle :asdf/output-translations :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade) (:export #:*output-translations* #:*output-translations-parameter* #:invalid-output-translation #:output-translations #:output-translations-initialized-p #:initialize-output-translations #:clear-output-translations #:disable-output-translations #:ensure-output-translations #:apply-output-translations #:validate-output-translations-directive #:validate-output-translations-form #:validate-output-translations-file #:validate-output-translations-directory #:parse-output-translations-string #:wrapping-output-translations #:user-output-translations-pathname #:system-output-translations-pathname #:user-output-translations-directory-pathname #:system-output-translations-directory-pathname #:environment-output-translations #:process-output-translations #:compute-output-translations #+abcl #:translate-jar-pathname )) (in-package :asdf/output-translations) ;; (setf output-translations) at some point used to be a macro for the sake of ;; obsolete versions of GCL. Make sure that macro doesn't come to haunt us. (when-upgrading () (undefine-function '(setf output-translations))) (with-upgradability () (define-condition invalid-output-translation (invalid-configuration warning) ((format :initform (compatfmt "~@")))) (defvar *output-translations* () "Either NIL (for uninitialized), or a list of one element, said element itself being a sorted list of mappings. Each mapping is a pair of a source pathname and destination pathname, and the order is by decreasing length of namestring of the source pathname.") (defun output-translations () "Return the configured output-translations, if any" (car *output-translations*)) ;; Set the output-translations, by sorting the provided new-value. (defun set-output-translations (new-value) (setf *output-translations* (list (stable-sort (copy-list new-value) #'> :key #'(lambda (x) (etypecase (car x) ((eql t) -1) (pathname (let ((directory (normalize-pathname-directory-component (pathname-directory (car x))))) (if (listp directory) (length directory) 0)))))))) new-value) (defun* ((setf output-translations)) (new-value) (set-output-translations new-value)) (defun output-translations-initialized-p () "Have the output-translations been initialized yet?" (and *output-translations* t)) (defun clear-output-translations () "Undoes any initialization of the output translations." (setf *output-translations* '()) (values)) (register-clear-configuration-hook 'clear-output-translations) ;;; Validation of the configuration directives... (defun validate-output-translations-directive (directive) (or (member directive '(:enable-user-cache :disable-cache nil)) (and (consp directive) (or (and (length=n-p directive 2) (or (and (eq (first directive) :include) (typep (second directive) '(or string pathname null))) (and (location-designator-p (first directive)) (or (location-designator-p (second directive)) (location-function-p (second directive)))))) (and (length=n-p directive 1) (location-designator-p (first directive))))))) (defun validate-output-translations-form (form &key location) (validate-configuration-form form :output-translations 'validate-output-translations-directive :location location :invalid-form-reporter 'invalid-output-translation)) (defun validate-output-translations-file (file) (validate-configuration-file file 'validate-output-translations-form :description "output translations")) (defun validate-output-translations-directory (directory) (validate-configuration-directory directory :output-translations 'validate-output-translations-directive :invalid-form-reporter 'invalid-output-translation)) ;;; Parse the ASDF_OUTPUT_TRANSLATIONS environment variable and/or some file contents (defun parse-output-translations-string (string &key location) (cond ((or (null string) (equal string "")) '(:output-translations :inherit-configuration)) ((not (stringp string)) (error (compatfmt "~@") string)) ((eql (char string 0) #\") (parse-output-translations-string (read-from-string string) :location location)) ((eql (char string 0) #\() (validate-output-translations-form (read-from-string string) :location location)) (t (loop :with inherit = nil :with directives = () :with start = 0 :with end = (length string) :with source = nil :with separator = (inter-directory-separator) :for i = (or (position separator string :start start) end) :do (let ((s (subseq string start i))) (cond (source (push (list source (if (equal "" s) nil s)) directives) (setf source nil)) ((equal "" s) (when inherit (error (compatfmt "~@") string)) (setf inherit t) (push :inherit-configuration directives)) (t (setf source s))) (setf start (1+ i)) (when (> start end) (when source (error (compatfmt "~@") string)) (unless inherit (push :ignore-inherited-configuration directives)) (return `(:output-translations ,@(nreverse directives))))))))) ;; The default sources of configuration for output-translations (defparameter* *default-output-translations* '(environment-output-translations user-output-translations-pathname user-output-translations-directory-pathname system-output-translations-pathname system-output-translations-directory-pathname)) ;; Compulsory implementation-dependent wrapping for the translations: ;; handle implementation-provided systems. (defun wrapping-output-translations () `(:output-translations ;; Some implementations have precompiled ASDF systems, ;; so we must disable translations for implementation paths. #+(or clasp #|clozure|# ecl mkcl sbcl) ,@(let ((h (resolve-symlinks* (lisp-implementation-directory)))) (when h `(((,h ,*wild-path*) ())))) #+mkcl (,(translate-logical-pathname "CONTRIB:") ()) ;; All-import, here is where we want user stuff to be: :inherit-configuration ;; These are for convenience, and can be overridden by the user: #+abcl (#p"/___jar___file___root___/**/*.*" (:user-cache #p"**/*.*")) #+abcl (#p"jar:file:/**/*.jar!/**/*.*" (:function translate-jar-pathname)) ;; We enable the user cache by default, and here is the place we do: :enable-user-cache)) ;; Relative pathnames of output-translations configuration to XDG configuration directory (defparameter *output-translations-file* (parse-unix-namestring "common-lisp/asdf-output-translations.conf")) (defparameter *output-translations-directory* (parse-unix-namestring "common-lisp/asdf-output-translations.conf.d/")) ;; Locating various configuration pathnames, depending on input or output intent. (defun user-output-translations-pathname (&key (direction :input)) (xdg-config-pathname *output-translations-file* direction)) (defun system-output-translations-pathname (&key (direction :input)) (find-preferred-file (system-config-pathnames *output-translations-file*) :direction direction)) (defun user-output-translations-directory-pathname (&key (direction :input)) (xdg-config-pathname *output-translations-directory* direction)) (defun system-output-translations-directory-pathname (&key (direction :input)) (find-preferred-file (system-config-pathnames *output-translations-directory*) :direction direction)) (defun environment-output-translations () (getenv "ASDF_OUTPUT_TRANSLATIONS")) ;;; Processing the configuration. (defgeneric process-output-translations (spec &key inherit collect)) (defun inherit-output-translations (inherit &key collect) (when inherit (process-output-translations (first inherit) :collect collect :inherit (rest inherit)))) (defun* (process-output-translations-directive) (directive &key inherit collect) (if (atom directive) (ecase directive ((:enable-user-cache) (process-output-translations-directive '(t :user-cache) :collect collect)) ((:disable-cache) (process-output-translations-directive '(t t) :collect collect)) ((:inherit-configuration) (inherit-output-translations inherit :collect collect)) ((:ignore-inherited-configuration :ignore-invalid-entries nil) nil)) (let ((src (first directive)) (dst (second directive))) (if (eq src :include) (when dst (process-output-translations (pathname dst) :inherit nil :collect collect)) (when src (let ((trusrc (or (eql src t) (let ((loc (resolve-location src :ensure-directory t :wilden t))) (if (absolute-pathname-p loc) (resolve-symlinks* loc) loc))))) (cond ((location-function-p dst) (funcall collect (list trusrc (ensure-function (second dst))))) ((typep dst 'boolean) (funcall collect (list trusrc t))) (t (let* ((trudst (resolve-location dst :ensure-directory t :wilden t))) (funcall collect (list trudst t)) (funcall collect (list trusrc trudst))))))))))) (defmethod process-output-translations ((x symbol) &key (inherit *default-output-translations*) collect) (process-output-translations (funcall x) :inherit inherit :collect collect)) (defmethod process-output-translations ((pathname pathname) &key inherit collect) (cond ((directory-pathname-p pathname) (process-output-translations (validate-output-translations-directory pathname) :inherit inherit :collect collect)) ((probe-file* pathname :truename *resolve-symlinks*) (process-output-translations (validate-output-translations-file pathname) :inherit inherit :collect collect)) (t (inherit-output-translations inherit :collect collect)))) (defmethod process-output-translations ((string string) &key inherit collect) (process-output-translations (parse-output-translations-string string) :inherit inherit :collect collect)) (defmethod process-output-translations ((x null) &key inherit collect) (inherit-output-translations inherit :collect collect)) (defmethod process-output-translations ((form cons) &key inherit collect) (dolist (directive (cdr (validate-output-translations-form form))) (process-output-translations-directive directive :inherit inherit :collect collect))) ;;; Top-level entry-points to configure output-translations (defun compute-output-translations (&optional parameter) "read the configuration, return it" (remove-duplicates (while-collecting (c) (inherit-output-translations `(wrapping-output-translations ,parameter ,@*default-output-translations*) :collect #'c)) :test 'equal :from-end t)) ;; Saving the user-provided parameter to output-translations, if any, ;; so we can recompute the translations after code upgrade. (defvar *output-translations-parameter* nil) ;; Main entry-point for users. (defun initialize-output-translations (&optional (parameter *output-translations-parameter*)) "read the configuration, initialize the internal configuration variable, return the configuration" (setf *output-translations-parameter* parameter (output-translations) (compute-output-translations parameter))) (defun disable-output-translations () "Initialize output translations in a way that maps every file to itself, effectively disabling the output translation facility." (initialize-output-translations '(:output-translations :disable-cache :ignore-inherited-configuration))) ;; checks an initial variable to see whether the state is initialized ;; or cleared. In the former case, return current configuration; in ;; the latter, initialize. ASDF will call this function at the start ;; of (asdf:find-system). (defun ensure-output-translations () (if (output-translations-initialized-p) (output-translations) (initialize-output-translations))) ;; Top-level entry-point to _use_ output-translations (defun* (apply-output-translations) (path) (etypecase path (logical-pathname path) ((or pathname string) (ensure-output-translations) (loop* :with p = (resolve-symlinks* path) :for (source destination) :in (car *output-translations*) :for root = (when (or (eq source t) (and (pathnamep source) (not (absolute-pathname-p source)))) (pathname-root p)) :for absolute-source = (cond ((eq source t) (wilden root)) (root (merge-pathnames* source root)) (t source)) :when (or (eq source t) (pathname-match-p p absolute-source)) :return (translate-pathname* p absolute-source destination root source) :finally (return p))))) ;; Hook into uiop's output-translation mechanism #-cormanlisp (setf *output-translation-function* 'apply-output-translations) ;;; Implementation-dependent hacks #+abcl ;; ABCL: make it possible to use systems provided in the ABCL jar. (defun translate-jar-pathname (source wildcard) (declare (ignore wildcard)) (flet ((normalize-device (pathname) (if (find :windows *features*) pathname (make-pathname :defaults pathname :device :unspecific)))) (let* ((jar (pathname (first (pathname-device source)))) (target-root-directory-namestring (format nil "/___jar___file___root___/~@[~A/~]" (and (find :windows *features*) (pathname-device jar)))) (relative-source (relativize-pathname-directory source)) (relative-jar (relativize-pathname-directory (ensure-directory-pathname jar))) (target-root-directory (normalize-device (pathname-directory-pathname (parse-namestring target-root-directory-namestring)))) (target-root (merge-pathnames* relative-jar target-root-directory)) (target (merge-pathnames* relative-source target-root))) (normalize-device (apply-output-translations target)))))) ;;;; ----------------------------------------------------------------- ;;;; Source Registry Configuration, by Francois-Rene Rideau ;;;; See the Manual and https://bugs.launchpad.net/asdf/+bug/485918 (uiop/package:define-package :asdf/source-registry (:recycle :asdf/source-registry :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/find-system) (:export #:*source-registry-parameter* #:*default-source-registries* #:invalid-source-registry #:source-registry-initialized-p #:initialize-source-registry #:clear-source-registry #:*source-registry* #:ensure-source-registry #:*source-registry-parameter* #:*default-source-registry-exclusions* #:*source-registry-exclusions* #:*wild-asd* #:directory-asd-files #:register-asd-directory #:*recurse-beyond-asds* #:collect-asds-in-directory #:collect-sub*directories-asd-files #:validate-source-registry-directive #:validate-source-registry-form #:validate-source-registry-file #:validate-source-registry-directory #:parse-source-registry-string #:wrapping-source-registry #:default-user-source-registry #:default-system-source-registry #:user-source-registry #:system-source-registry #:user-source-registry-directory #:system-source-registry-directory #:environment-source-registry #:process-source-registry #:inherit-source-registry #:compute-source-registry #:flatten-source-registry #:sysdef-source-registry-search)) (in-package :asdf/source-registry) (with-upgradability () (define-condition invalid-source-registry (invalid-configuration warning) ((format :initform (compatfmt "~@")))) ;; Default list of directories under which the source-registry tree search won't recurse (defvar *default-source-registry-exclusions* '(;;-- Using ack 1.2 exclusions ".bzr" ".cdv" ;; "~.dep" "~.dot" "~.nib" "~.plst" ; we don't support ack wildcards ".git" ".hg" ".pc" ".svn" "CVS" "RCS" "SCCS" "_darcs" "_sgbak" "autom4te.cache" "cover_db" "_build" ;;-- debian often builds stuff under the debian directory... BAD. "debian")) ;; Actual list of directories under which the source-registry tree search won't recurse (defvar *source-registry-exclusions* *default-source-registry-exclusions*) ;; The state of the source-registry after search in configured locations (defvar *source-registry* nil "Either NIL (for uninitialized), or an equal hash-table, mapping system names to pathnames of .asd files") ;; Saving the user-provided parameter to the source-registry, if any, ;; so we can recompute the source-registry after code upgrade. (defvar *source-registry-parameter* nil) (defun source-registry-initialized-p () (typep *source-registry* 'hash-table)) (defun clear-source-registry () "Undoes any initialization of the source registry." (setf *source-registry* nil) (values)) (register-clear-configuration-hook 'clear-source-registry) (defparameter *wild-asd* (make-pathname :directory nil :name *wild* :type "asd" :version :newest)) (defun directory-asd-files (directory) (directory-files directory *wild-asd*)) (defun collect-asds-in-directory (directory collect) (let ((asds (directory-asd-files directory))) (map () collect asds) asds)) (defvar *recurse-beyond-asds* t "Should :tree entries of the source-registry recurse in subdirectories after having found a .asd file? True by default.") ;; When walking down a filesystem tree, if in a directory there is a .cl-source-registry.cache, ;; read its contents instead of further recursively querying the filesystem. (defun process-source-registry-cache (directory collect) (let ((cache (ignore-errors (safe-read-file-form (subpathname directory ".cl-source-registry.cache"))))) (when (and (listp cache) (eq :source-registry-cache (first cache))) (loop :for s :in (rest cache) :do (funcall collect (subpathname directory s))) t))) (defun collect-sub*directories-asd-files (directory &key (exclude *default-source-registry-exclusions*) collect (recurse-beyond-asds *recurse-beyond-asds*) ignore-cache) (let ((visited (make-hash-table :test 'equalp))) (flet ((collectp (dir) (unless (and (not ignore-cache) (process-source-registry-cache directory collect)) (let ((asds (collect-asds-in-directory dir collect))) (or recurse-beyond-asds (not asds))))) (recursep (x) ; x will be a directory pathname (and (not (member (car (last (pathname-directory x))) exclude :test #'equal)) (flet ((pathname-key (x) (namestring (truename* x)))) (let ((visitedp (gethash (pathname-key x) visited))) (if visitedp nil (setf (gethash (pathname-key x) visited) t))))))) (collect-sub*directories directory #'collectp #'recursep (constantly nil))))) ;;; Validate the configuration forms (defun validate-source-registry-directive (directive) (or (member directive '(:default-registry)) (and (consp directive) (let ((rest (rest directive))) (case (first directive) ((:include :directory :tree) (and (length=n-p rest 1) (location-designator-p (first rest)))) ((:exclude :also-exclude) (every #'stringp rest)) ((:default-registry) (null rest))))))) (defun validate-source-registry-form (form &key location) (validate-configuration-form form :source-registry 'validate-source-registry-directive :location location :invalid-form-reporter 'invalid-source-registry)) (defun validate-source-registry-file (file) (validate-configuration-file file 'validate-source-registry-form :description "a source registry")) (defun validate-source-registry-directory (directory) (validate-configuration-directory directory :source-registry 'validate-source-registry-directive :invalid-form-reporter 'invalid-source-registry)) ;;; Parse the configuration string (defun parse-source-registry-string (string &key location) (cond ((or (null string) (equal string "")) '(:source-registry :inherit-configuration)) ((not (stringp string)) (error (compatfmt "~@") string)) ((find (char string 0) "\"(") (validate-source-registry-form (read-from-string string) :location location)) (t (loop :with inherit = nil :with directives = () :with start = 0 :with end = (length string) :with separator = (inter-directory-separator) :for pos = (position separator string :start start) :do (let ((s (subseq string start (or pos end)))) (flet ((check (dir) (unless (absolute-pathname-p dir) (error (compatfmt "~@") string)) dir)) (cond ((equal "" s) ; empty element: inherit (when inherit (error (compatfmt "~@") string)) (setf inherit t) (push ':inherit-configuration directives)) ((string-suffix-p s "//") ;; TODO: allow for doubling of separator even outside Unix? (push `(:tree ,(check (subseq s 0 (- (length s) 2)))) directives)) (t (push `(:directory ,(check s)) directives)))) (cond (pos (setf start (1+ pos))) (t (unless inherit (push '(:ignore-inherited-configuration) directives)) (return `(:source-registry ,@(nreverse directives)))))))))) (defun register-asd-directory (directory &key recurse exclude collect) (if (not recurse) (collect-asds-in-directory directory collect) (collect-sub*directories-asd-files directory :exclude exclude :collect collect))) (defparameter* *default-source-registries* '(environment-source-registry user-source-registry user-source-registry-directory default-user-source-registry system-source-registry system-source-registry-directory default-system-source-registry) "List of default source registries" "3.1.0.102") (defparameter *source-registry-file* (parse-unix-namestring "common-lisp/source-registry.conf")) (defparameter *source-registry-directory* (parse-unix-namestring "common-lisp/source-registry.conf.d/")) (defun wrapping-source-registry () `(:source-registry #+(or clasp ecl sbcl) (:tree ,(resolve-symlinks* (lisp-implementation-directory))) :inherit-configuration #+mkcl (:tree ,(translate-logical-pathname "SYS:")) #+cmucl (:tree #p"modules:") #+scl (:tree #p"file://modules/"))) (defun default-user-source-registry () `(:source-registry (:tree (:home "common-lisp/")) #+sbcl (:directory (:home ".sbcl/systems/")) (:directory ,(xdg-data-home "common-lisp/systems/")) (:tree ,(xdg-data-home "common-lisp/source/")) :inherit-configuration)) (defun default-system-source-registry () `(:source-registry ,@(loop :for dir :in (xdg-data-dirs "common-lisp/") :collect `(:directory (,dir "systems/")) :collect `(:tree (,dir "source/"))) :inherit-configuration)) (defun user-source-registry (&key (direction :input)) (xdg-config-pathname *source-registry-file* direction)) (defun system-source-registry (&key (direction :input)) (find-preferred-file (system-config-pathnames *source-registry-file*) :direction direction)) (defun user-source-registry-directory (&key (direction :input)) (xdg-config-pathname *source-registry-directory* direction)) (defun system-source-registry-directory (&key (direction :input)) (find-preferred-file (system-config-pathnames *source-registry-directory*) :direction direction)) (defun environment-source-registry () (getenv "CL_SOURCE_REGISTRY")) ;;; Process the source-registry configuration (defgeneric* (process-source-registry) (spec &key inherit register)) (defun* (inherit-source-registry) (inherit &key register) (when inherit (process-source-registry (first inherit) :register register :inherit (rest inherit)))) (defun* (process-source-registry-directive) (directive &key inherit register) (destructuring-bind (kw &rest rest) (if (consp directive) directive (list directive)) (ecase kw ((:include) (destructuring-bind (pathname) rest (process-source-registry (resolve-location pathname) :inherit nil :register register))) ((:directory) (destructuring-bind (pathname) rest (when pathname (funcall register (resolve-location pathname :ensure-directory t))))) ((:tree) (destructuring-bind (pathname) rest (when pathname (funcall register (resolve-location pathname :ensure-directory t) :recurse t :exclude *source-registry-exclusions*)))) ((:exclude) (setf *source-registry-exclusions* rest)) ((:also-exclude) (appendf *source-registry-exclusions* rest)) ((:default-registry) (inherit-source-registry '(default-user-source-registry default-system-source-registry) :register register)) ((:inherit-configuration) (inherit-source-registry inherit :register register)) ((:ignore-inherited-configuration) nil))) nil) (defmethod process-source-registry ((x symbol) &key inherit register) (process-source-registry (funcall x) :inherit inherit :register register)) (defmethod process-source-registry ((pathname pathname) &key inherit register) (cond ((directory-pathname-p pathname) (let ((*here-directory* (resolve-symlinks* pathname))) (process-source-registry (validate-source-registry-directory pathname) :inherit inherit :register register))) ((probe-file* pathname :truename *resolve-symlinks*) (let ((*here-directory* (pathname-directory-pathname pathname))) (process-source-registry (validate-source-registry-file pathname) :inherit inherit :register register))) (t (inherit-source-registry inherit :register register)))) (defmethod process-source-registry ((string string) &key inherit register) (process-source-registry (parse-source-registry-string string) :inherit inherit :register register)) (defmethod process-source-registry ((x null) &key inherit register) (inherit-source-registry inherit :register register)) (defmethod process-source-registry ((form cons) &key inherit register) (let ((*source-registry-exclusions* *default-source-registry-exclusions*)) (dolist (directive (cdr (validate-source-registry-form form))) (process-source-registry-directive directive :inherit inherit :register register)))) ;; Flatten the user-provided configuration into an ordered list of directories and trees (defun flatten-source-registry (&optional (parameter *source-registry-parameter*)) (remove-duplicates (while-collecting (collect) (with-pathname-defaults () ;; be location-independent (inherit-source-registry `(wrapping-source-registry ,parameter ,@*default-source-registries*) :register #'(lambda (directory &key recurse exclude) (collect (list directory :recurse recurse :exclude exclude)))))) :test 'equal :from-end t)) ;; Will read the configuration and initialize all internal variables. (defun compute-source-registry (&optional (parameter *source-registry-parameter*) (registry *source-registry*)) (dolist (entry (flatten-source-registry parameter)) (destructuring-bind (directory &key recurse exclude) entry (let* ((h (make-hash-table :test 'equal))) ; table to detect duplicates (register-asd-directory directory :recurse recurse :exclude exclude :collect #'(lambda (asd) (let* ((name (pathname-name asd)) (name (if (typep asd 'logical-pathname) ;; logical pathnames are upper-case, ;; at least in the CLHS and on SBCL, ;; yet (coerce-name :foo) is lower-case. ;; won't work well with (load-system "Foo") ;; instead of (load-system 'foo) (string-downcase name) name))) (cond ((gethash name registry) ; already shadowed by something else nil) ((gethash name h) ; conflict at current level (when *verbose-out* (warn (compatfmt "~@") directory recurse name (gethash name h) asd))) (t (setf (gethash name registry) asd) (setf (gethash name h) asd)))))) h))) (values)) (defun initialize-source-registry (&optional (parameter *source-registry-parameter*)) ;; Record the parameter used to configure the registry (setf *source-registry-parameter* parameter) ;; Clear the previous registry database: (setf *source-registry* (make-hash-table :test 'equal)) ;; Do it! (compute-source-registry parameter)) ;; Checks an initial variable to see whether the state is initialized ;; or cleared. In the former case, return current configuration; in ;; the latter, initialize. ASDF will call this function at the start ;; of (asdf:find-system) to make sure the source registry is initialized. ;; However, it will do so *without* a parameter, at which point it ;; will be too late to provide a parameter to this function, though ;; you may override the configuration explicitly by calling ;; initialize-source-registry directly with your parameter. (defun ensure-source-registry (&optional parameter) (unless (source-registry-initialized-p) (initialize-source-registry parameter)) (values)) (defun sysdef-source-registry-search (system) (ensure-source-registry) (values (gethash (primary-system-name system) *source-registry*)))) ;;;; ------------------------------------------------------------------------- ;;;; Defsystem (uiop/package:define-package :asdf/parse-defsystem (:recycle :asdf/parse-defsystem :asdf/defsystem :asdf) (:nicknames :asdf/defsystem) ;; previous name, to be compatible with, in case anyone cares (:use :uiop/common-lisp :asdf/driver :asdf/upgrade :asdf/cache :asdf/component :asdf/system :asdf/find-system :asdf/find-component :asdf/action :asdf/lisp-action :asdf/operate) (:import-from :asdf/system #:depends-on #:weakly-depends-on) (:export #:defsystem #:register-system-definition #:class-for-type #:*default-component-class* #:determine-system-directory #:parse-component-form #:non-toplevel-system #:non-system-system #:sysdef-error-component #:check-component-input)) (in-package :asdf/parse-defsystem) ;;; Pathname (with-upgradability () (defun determine-system-directory (pathname) ;; The defsystem macro calls this function to determine the pathname of a system as follows: ;; 1. If the pathname argument is an pathname object (NOT a namestring), ;; that is already an absolute pathname, return it. ;; 2. Otherwise, the directory containing the LOAD-PATHNAME ;; is considered (as deduced from e.g. *LOAD-PATHNAME*), and ;; if it is indeed available and an absolute pathname, then ;; the PATHNAME argument is normalized to a relative pathname ;; as per PARSE-UNIX-NAMESTRING (with ENSURE-DIRECTORY T) ;; and merged into that DIRECTORY as per SUBPATHNAME. ;; Note: avoid *COMPILE-FILE-PATHNAME* because the .asd is loaded as source, ;; but may be from within the EVAL-WHEN of a file compilation. ;; If no absolute pathname was found, we return NIL. (check-type pathname (or null string pathname)) (pathname-directory-pathname (resolve-symlinks* (ensure-absolute-pathname (parse-unix-namestring pathname :type :directory) #'(lambda () (ensure-absolute-pathname (load-pathname) 'get-pathname-defaults nil)) nil))))) ;;; Component class (with-upgradability () ;; What :file gets interpreted as, unless overridden by a :default-component-class (defvar *default-component-class* 'cl-source-file) (defun class-for-type (parent type) (or (coerce-class type :package :asdf/interface :super 'component :error nil) (and (eq type :file) (coerce-class (or (loop :for p = parent :then (component-parent p) :while p :thereis (module-default-component-class p)) *default-component-class*) :package :asdf/interface :super 'component :error nil)) (sysdef-error "don't recognize component type ~S" type)))) ;;; Check inputs (with-upgradability () (define-condition non-system-system (system-definition-error) ((name :initarg :name :reader non-system-system-name) (class-name :initarg :class-name :reader non-system-system-class-name)) (:report (lambda (c s) (format s (compatfmt "~@") (non-system-system-name c) (non-system-system-class-name c) 'system)))) (define-condition non-toplevel-system (system-definition-error) ((parent :initarg :parent :reader non-toplevel-system-parent) (name :initarg :name :reader non-toplevel-system-name)) (:report (lambda (c s) (format s (compatfmt "~@") (non-toplevel-system-parent c) (non-toplevel-system-name c))))) (defun sysdef-error-component (msg type name value) (sysdef-error (strcat msg (compatfmt "~&~@")) type name value)) (defun check-component-input (type name weakly-depends-on depends-on components) "A partial test of the values of a component." (unless (listp depends-on) (sysdef-error-component ":depends-on must be a list." type name depends-on)) (unless (listp weakly-depends-on) (sysdef-error-component ":weakly-depends-on must be a list." type name weakly-depends-on)) (unless (listp components) (sysdef-error-component ":components must be NIL or a list of components." type name components))) ;; Given a form used as :version specification, in the context of a system definition ;; in a file at PATHNAME, for given COMPONENT with given PARENT, normalize the form ;; to an acceptable ASDF-format version. (defun* (normalize-version) (form &key pathname component parent) (labels ((invalid (&optional (continuation "using NIL instead")) (warn (compatfmt "~@") form component parent pathname continuation)) (invalid-parse (control &rest args) (unless (if-let (target (find-component parent component)) (builtin-system-p target)) (apply 'warn control args) (invalid)))) (if-let (v (typecase form ((or string null) form) (real (invalid "Substituting a string") (format nil "~D" form)) ;; 1.0 becomes "1.0" (cons (case (first form) ((:read-file-form) (destructuring-bind (subpath &key (at 0)) (rest form) (safe-read-file-form (subpathname pathname subpath) :at at :package :asdf-user))) ((:read-file-line) (destructuring-bind (subpath &key (at 0)) (rest form) (safe-read-file-line (subpathname pathname subpath) :at at))) (otherwise (invalid)))) (t (invalid)))) (if-let (pv (parse-version v #'invalid-parse)) (unparse-version pv) (invalid)))))) ;;; "inline methods" (with-upgradability () (defparameter* +asdf-methods+ '(perform-with-restarts perform explain output-files operation-done-p)) (defun %remove-component-inline-methods (component) (dolist (name +asdf-methods+) (map () ;; this is inefficient as most of the stored ;; methods will not be for this particular gf ;; But this is hardly performance-critical #'(lambda (m) (remove-method (symbol-function name) m)) (component-inline-methods component))) (component-inline-methods component) nil) (defun %define-component-inline-methods (ret rest) (loop* :for (key value) :on rest :by #'cddr :for name = (and (keywordp key) (find key +asdf-methods+ :test 'string=)) :when name :do (destructuring-bind (op &rest body) value (loop :for arg = (pop body) :while (atom arg) :collect arg :into qualifiers :finally (destructuring-bind (o c) arg (pushnew (eval `(defmethod ,name ,@qualifiers ((,o ,op) (,c (eql ,ret))) ,@body)) (component-inline-methods ret))))))) (defun %refresh-component-inline-methods (component rest) ;; clear methods, then add the new ones (%remove-component-inline-methods component) (%define-component-inline-methods component rest))) ;;; Main parsing function (with-upgradability () (defun parse-dependency-def (dd) (if (listp dd) (case (first dd) (:feature (unless (= (length dd) 3) (sysdef-error "Ill-formed feature dependency: ~s" dd)) (let ((embedded (parse-dependency-def (third dd)))) `(:feature ,(second dd) ,embedded))) (feature (sysdef-error "`feature' has been removed from the dependency spec language of ASDF. Use :feature instead in ~s." dd)) (:require (unless (= (length dd) 2) (sysdef-error "Ill-formed require dependency: ~s" dd)) dd) (:version (unless (= (length dd) 3) (sysdef-error "Ill-formed version dependency: ~s" dd)) `(:version ,(coerce-name (second dd)) ,(third dd))) (otherwise (sysdef-error "Ill-formed dependency: ~s" dd))) (coerce-name dd))) (defun parse-dependency-defs (dd-list) "Parse the dependency defs in DD-LIST into canonical form by translating all system names contained using COERCE-NAME. Return the result." (mapcar 'parse-dependency-def dd-list)) (defun* (parse-component-form) (parent options &key previous-serial-component) (destructuring-bind (type name &rest rest &key (builtin-system-p () bspp) ;; the following list of keywords is reproduced below in the ;; remove-plist-keys form. important to keep them in sync components pathname perform explain output-files operation-done-p weakly-depends-on depends-on serial do-first if-component-dep-fails version ;; list ends &allow-other-keys) options (declare (ignore perform explain output-files operation-done-p builtin-system-p)) (check-component-input type name weakly-depends-on depends-on components) (when (and parent (find-component parent name) (not ;; ignore the same object when rereading the defsystem (typep (find-component parent name) (class-for-type parent type)))) (error 'duplicate-names :name name)) (when do-first (error "DO-FIRST is not supported anymore as of ASDF 3")) (let* ((name (coerce-name name)) (args `(:name ,name :pathname ,pathname ,@(when parent `(:parent ,parent)) ,@(remove-plist-keys '(:components :pathname :if-component-dep-fails :version :perform :explain :output-files :operation-done-p :weakly-depends-on :depends-on :serial) rest))) (component (find-component parent name)) (class (class-for-type parent type))) (when (and parent (subtypep class 'system)) (error 'non-toplevel-system :parent parent :name name)) (if component ; preserve identity (apply 'reinitialize-instance component args) (setf component (apply 'make-instance class args))) (component-pathname component) ; eagerly compute the absolute pathname (when (typep component 'system) ;; cache information for introspection (setf (slot-value component 'depends-on) (parse-dependency-defs depends-on) (slot-value component 'weakly-depends-on) ;; these must be a list of systems, cannot be features or versioned systems (mapcar 'coerce-name weakly-depends-on))) (let ((sysfile (system-source-file (component-system component)))) ;; requires the previous (when (and (typep component 'system) (not bspp)) (setf (builtin-system-p component) (lisp-implementation-pathname-p sysfile))) (setf version (normalize-version version :component name :parent parent :pathname sysfile))) ;; Don't use the accessor: kluge to avoid upgrade issue on CCL 1.8. ;; A better fix is required. (setf (slot-value component 'version) version) (when (typep component 'parent-component) (setf (component-children component) (loop :with previous-component = nil :for c-form :in components :for c = (parse-component-form component c-form :previous-serial-component previous-component) :for name = (component-name c) :collect c :when serial :do (setf previous-component name))) (compute-children-by-name component)) (when previous-serial-component (push previous-serial-component depends-on)) (when weakly-depends-on ;; ASDF4: deprecate this feature and remove it. (appendf depends-on (remove-if (complement #'(lambda (x) (find-system x nil))) weakly-depends-on))) ;; Used by POIU. ASDF4: rename to component-depends-on? (setf (component-sideway-dependencies component) depends-on) (%refresh-component-inline-methods component rest) (when if-component-dep-fails (error "The system definition for ~S uses deprecated ~ ASDF option :IF-COMPONENT-DEP-FAILS. ~ Starting with ASDF 3, please use :IF-FEATURE instead" (coerce-name (component-system component)))) component))) (defun register-system-definition (name &rest options &key pathname (class 'system) (source-file () sfp) defsystem-depends-on &allow-other-keys) ;; The system must be registered before we parse the body, ;; otherwise we recur when trying to find an existing system ;; of the same name to reuse options (e.g. pathname) from. ;; To avoid infinite recursion in cases where you defsystem a system ;; that is registered to a different location to find-system, ;; we also need to remember it in the asdf-cache. (with-asdf-cache () (let* ((name (coerce-name name)) (source-file (if sfp source-file (resolve-symlinks* (load-pathname)))) ;; NB: handle defsystem-depends-on BEFORE to create the system object, ;; so that in case it fails, there is no incomplete object polluting the build. (checked-defsystem-depends-on (let* ((dep-forms (parse-dependency-defs defsystem-depends-on)) (deps (loop :for spec :in dep-forms :when (resolve-dependency-spec nil spec) :collect :it))) (load-systems* deps) dep-forms)) (registered (system-registered-p name)) (registered! (if registered (rplaca registered (get-file-stamp source-file)) (register-system (make-instance 'system :name name :source-file source-file)))) (system (reset-system (cdr registered!) :name name :source-file source-file)) (component-options (append (remove-plist-keys '(:defsystem-depends-on :class) options) ;; cache defsystem-depends-on in canonical form (when checked-defsystem-depends-on `(:defsystem-depends-on ,checked-defsystem-depends-on))))) ;; This works hand in hand with asdf/find-system:find-system-if-being-defined: (set-asdf-cache-entry `(find-system ,name) (list system)) ;; We change-class AFTER we loaded the defsystem-depends-on ;; since the class might be defined as part of those. (let ((class (class-for-type nil class))) (unless (subtypep class 'system) (error 'non-system-system :name name :class-name (class-name class))) (unless (eq (type-of system) class) (change-class system class))) (parse-component-form nil (list* :module name :pathname (determine-system-directory pathname) component-options))))) (defmacro defsystem (name &body options) `(apply 'register-system-definition ',name ',options))) ;;;; ------------------------------------------------------------------------- ;;;; ASDF-Bundle (uiop/package:define-package :asdf/bundle (:recycle :asdf/bundle :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/component :asdf/system :asdf/find-system :asdf/find-component :asdf/operation :asdf/action :asdf/lisp-action :asdf/plan :asdf/operate :asdf/defsystem) (:export #:bundle-op #:bundle-type #:program-system #:bundle-system #:bundle-pathname-type #:direct-dependency-files #:monolithic-op #:monolithic-bundle-op #:operation-monolithic-p #:basic-compile-bundle-op #:prepare-bundle-op #:compile-bundle-op #:load-bundle-op #:monolithic-compile-bundle-op #:monolithic-load-bundle-op #:lib-op #:monolithic-lib-op #:dll-op #:monolithic-dll-op #:deliver-asd-op #:monolithic-deliver-asd-op #:program-op #:image-op #:compiled-file #:precompiled-system #:prebuilt-system #:user-system-p #:user-system #:trivial-system-p #:make-build #:build-args #:name-suffix #:prologue-code #:epilogue-code #:static-library)) (in-package :asdf/bundle) (with-upgradability () (defclass bundle-op (basic-compile-op) ;; NB: use of instance-allocated slots for operations is DEPRECATED ;; and only supported in a temporary fashion for backward compatibility. ;; Supported replacement: Define slots on program-system instead. ((build-args :initarg :args :initform nil :accessor extra-build-args) (name-suffix :initarg :name-suffix :initform nil) (bundle-type :initform :no-output-file :reader bundle-type) #+(or clasp ecl) (lisp-files :initform nil :accessor extra-object-files)) (:documentation "base class for operations that bundle outputs from multiple components")) (defclass monolithic-op (operation) () (:documentation "A MONOLITHIC operation operates on a system *and all of its dependencies*. So, for example, a monolithic concatenate operation will concatenate together a system's components and all of its dependencies, but a simple concatenate operation will concatenate only the components of the system itself.")) (defclass monolithic-bundle-op (monolithic-op bundle-op) ;; Old style way of specifying prologue and epilogue on ECL: in the monolithic operation. ;; DEPRECATED. Supported replacement: Define slots on program-system instead. ((prologue-code :initform nil :accessor prologue-code) (epilogue-code :initform nil :accessor epilogue-code)) (:documentation "operations that are both monolithic-op and bundle-op")) (defclass program-system (system) ;; New style (ASDF3.1) way of specifying prologue and epilogue on ECL: in the system ((prologue-code :initform nil :initarg :prologue-code :reader prologue-code) (epilogue-code :initform nil :initarg :epilogue-code :reader epilogue-code) (no-uiop :initform nil :initarg :no-uiop :reader no-uiop) (prefix-lisp-object-files :initarg :prefix-lisp-object-files :initform nil :accessor prefix-lisp-object-files) (postfix-lisp-object-files :initarg :postfix-lisp-object-files :initform nil :accessor postfix-lisp-object-files) (extra-object-files :initarg :extra-object-files :initform nil :accessor extra-object-files) (extra-build-args :initarg :extra-build-args :initform nil :accessor extra-build-args))) (defmethod prologue-code ((x t)) nil) (defmethod epilogue-code ((x t)) nil) (defmethod no-uiop ((x t)) nil) (defmethod prefix-lisp-object-files ((x t)) nil) (defmethod postfix-lisp-object-files ((x t)) nil) (defmethod extra-object-files ((x t)) nil) (defmethod extra-build-args ((x t)) nil) (defclass link-op (bundle-op) () (:documentation "Abstract operation for linking files together")) (defclass gather-operation (bundle-op) ((gather-operation :initform nil :allocation :class :reader gather-operation) (gather-type :initform :no-output-file :allocation :class :reader gather-type)) (:documentation "Abstract operation for gathering many input files from a system")) (defun operation-monolithic-p (op) (typep op 'monolithic-op)) ;; Dependencies of a gather-op are the actions of the dependent operation ;; for all the (sorted) required components for loading the system. ;; Monolithic operations typically use lib-op as the dependent operation, ;; and all system-level dependencies as required components. ;; Non-monolithic operations typically use compile-op as the dependent operation, ;; and all transitive sub-components as required components (excluding other systems). (defmethod component-depends-on ((o gather-operation) (s system)) (let* ((mono (operation-monolithic-p o)) (deps (required-components s :other-systems mono :component-type (if mono 'system '(not system)) :goal-operation (find-operation o 'load-op) :keep-operation 'compile-op))) ;; NB: the explicit make-operation on ECL and MKCL ;; ensures that we drop the original-initargs and its magic flags when recursing. `((,(or (gather-operation o) (if mono 'lib-op 'compile-op)) ,@deps) ,@(call-next-method)))) ;; Create a single fasl for the entire library (defclass basic-compile-bundle-op (bundle-op) ((gather-type :initform #-(or clasp ecl mkcl) :fasl #+(or clasp ecl mkcl) :object :allocation :class) (bundle-type :initform :fasl :allocation :class)) (:documentation "Base class for compiling into a bundle")) ;; Analog to prepare-op, for load-bundle-op and compile-bundle-op (defclass prepare-bundle-op (sideway-operation) ((sideway-operation :initform #+(or clasp ecl mkcl) 'load-bundle-op #-(or clasp ecl mkcl) 'load-op :allocation :class)) (:documentation "Operation class for loading the bundles of a system's dependencies")) (defclass lib-op (link-op gather-operation non-propagating-operation) ((gather-type :initform :object :allocation :class) (bundle-type :initform :lib :allocation :class)) (:documentation "Compile the system and produce a linkable static library (.a/.lib) for all the linkable object files associated with the system. Compare with DLL-OP. On most implementations, these object files only include extensions to the runtime written in C or another language with a compiler producing linkable object files. On CLASP, ECL, MKCL, these object files _also_ include the contents of Lisp files themselves. In any case, this operation will produce what you need to further build a static runtime for your system, or a dynamic library to load in an existing runtime.")) (defclass compile-bundle-op (basic-compile-bundle-op selfward-operation #+(or clasp ecl mkcl) link-op #-(or clasp ecl) gather-operation) ((selfward-operation :initform '(prepare-bundle-op #+(or clasp ecl) lib-op) :allocation :class)) (:documentation "This operator is an alternative to COMPILE-OP. Build a system and all of its dependencies, but build only a single (\"monolithic\") FASL, instead of one per source file, which may be more resource efficient. That monolithic FASL should be loaded with LOAD-BUNDLE-OP, rather than LOAD-OP.")) (defclass load-bundle-op (basic-load-op selfward-operation) ((selfward-operation :initform '(prepare-bundle-op compile-bundle-op) :allocation :class)) (:documentation "This operator is an alternative to LOAD-OP. Build a system and all of its dependencies, using COMPILE-BUNDLE-OP. The difference with respect to LOAD-OP is that it builds only a single FASL, which may be faster and more resource efficient.")) ;; NB: since the monolithic-op's can't be sideway-operation's, ;; if we wanted lib-op, dll-op, deliver-asd-op to be sideway-operation's, ;; we'd have to have the monolithic-op not inherit from the main op, ;; but instead inherit from a basic-FOO-op as with basic-compile-bundle-op above. (defclass dll-op (link-op gather-operation non-propagating-operation) ((gather-type :initform :object :allocation :class) (bundle-type :initform :dll :allocation :class)) (:documentation "Compile the system and produce a dynamic loadable library (.so/.dll) for all the linkable object files associated with the system. Compare with LIB-OP.")) (defclass deliver-asd-op (basic-compile-op selfward-operation) ((selfward-operation ;; TODO: implement link-op on all implementations, and make that ;; '(compile-bundle-op lib-op #-(or clasp ecl mkcl) dll-op) :initform '(compile-bundle-op #+(or clasp ecl mkcl) lib-op) :allocation :class)) (:documentation "produce an asd file for delivering the system as a single fasl")) (defclass monolithic-deliver-asd-op (monolithic-bundle-op deliver-asd-op) ((selfward-operation ;; TODO: implement link-op on all implementations, and make that ;; '(monolithic-compile-bundle-op monolithic-lib-op #-(or clasp ecl mkcl) monolithic-dll-op) :initform '(monolithic-compile-bundle-op #+(or clasp ecl mkcl) monolithic-lib-op) :allocation :class)) (:documentation "produce fasl and asd files for combined system and dependencies.")) (defclass monolithic-compile-bundle-op (monolithic-bundle-op basic-compile-bundle-op #+(or clasp ecl mkcl) link-op gather-operation non-propagating-operation) ((gather-operation :initform #-(or clasp ecl mkcl) 'compile-bundle-op #+(or clasp ecl mkcl) 'lib-op :allocation :class) (gather-type :initform #-(or clasp ecl mkcl) :fasl #+(or clasp ecl mkcl) :static-library :allocation :class)) (:documentation "Create a single fasl for the system and its dependencies.")) (defclass monolithic-load-bundle-op (monolithic-bundle-op load-bundle-op) ((selfward-operation :initform 'monolithic-compile-bundle-op :allocation :class)) (:documentation "Load a single fasl for the system and its dependencies.")) (defclass monolithic-lib-op (monolithic-bundle-op lib-op non-propagating-operation) ((gather-type :initform :static-library :allocation :class)) (:documentation "Compile the system and produce a linkable static library (.a/.lib) for all the linkable object files associated with the system or its dependencies. See LIB-OP.")) (defclass monolithic-dll-op (monolithic-bundle-op dll-op non-propagating-operation) ((gather-type :initform :static-library :allocation :class)) (:documentation "Compile the system and produce a dynamic loadable library (.so/.dll) for all the linkable object files associated with the system or its dependencies. See LIB-OP")) (defclass image-op (monolithic-bundle-op selfward-operation #+(or clasp ecl mkcl) link-op #+(or clasp ecl mkcl) gather-operation) ((bundle-type :initform :image) #+(or clasp ecl mkcl) (gather-type :initform :static-library :allocation :class) (selfward-operation :initform '(#-(or clasp ecl mkcl) load-op) :allocation :class)) (:documentation "create an image file from the system and its dependencies")) (defclass program-op (image-op) ((bundle-type :initform :program)) (:documentation "create an executable file from the system and its dependencies")) ;; From the ASDF-internal bundle-type identifier, get a filesystem-usable pathname type. (defun bundle-pathname-type (bundle-type) (etypecase bundle-type ((or null string) ;; pass through nil or string literal bundle-type) ((eql :no-output-file) ;; marker for a bundle-type that has NO output file (error "No output file, therefore no pathname type")) ((eql :fasl) ;; the type of a fasl #-(or clasp ecl mkcl) (compile-file-type) ; on image-based platforms, used as input and output #+(or clasp ecl mkcl) "fasb") ; on C-linking platforms, only used as output for system bundles ((member :image) #+allegro "dxl" #+(and clisp os-windows) "exe" #-(or allegro (and clisp os-windows)) "image") ;; NB: on CLASP and ECL these implementations, we better agree with ;; (compile-file-type :type bundle-type)) ((eql :object) ;; the type of a linkable object file (os-cond ((os-unix-p) "o") ((os-windows-p) (if (featurep '(:or :mingw32 :mingw64)) "o" "obj")))) ((member :lib :static-library) ;; the type of a linkable library (os-cond ((os-unix-p) "a") ((os-windows-p) (if (featurep '(:or :mingw32 :mingw64)) "a" "lib")))) ((member :dll :shared-library) ;; the type of a shared library (os-cond ((os-macosx-p) "dylib") ((os-unix-p) "so") ((os-windows-p) "dll"))) ((eql :program) ;; the type of an executable program (os-cond ((os-unix-p) nil) ((os-windows-p) "exe"))))) ;; Compute the output-files for a given bundle action (defun bundle-output-files (o c) (let ((bundle-type (bundle-type o))) (unless (or (eq bundle-type :no-output-file) ;; NIL already means something regarding type. (and (null (input-files o c)) (not (member bundle-type '(:image :program))))) (let ((name (or (component-build-pathname c) (format nil "~A~@[~A~]" (component-name c) (slot-value o 'name-suffix)))) (type (bundle-pathname-type bundle-type))) (values (list (subpathname (component-pathname c) name :type type)) (eq (class-of o) (coerce-class (component-build-operation c) :package :asdf/interface :super 'operation :error nil))))))) (defmethod output-files ((o bundle-op) (c system)) (bundle-output-files o c)) #-(or clasp ecl mkcl) (progn (defmethod perform ((o image-op) (c system)) (dump-image (output-file o c) :executable (typep o 'program-op))) (defmethod perform :before ((o program-op) (c system)) (setf *image-entry-point* (ensure-function (component-entry-point c))))) (defclass compiled-file (file-component) ((type :initform #-(or clasp ecl mkcl) (compile-file-type) #+(or clasp ecl mkcl) "fasb")) (:documentation "Class for a file that is already compiled, e.g. as part of the implementation, of an outer build system that calls into ASDF, or of opaque libraries shipped along the source code.")) (defclass precompiled-system (system) ((build-pathname :initarg :fasl)) (:documentation "Class For a system that is delivered as a precompiled fasl")) (defclass prebuilt-system (system) ((build-pathname :initarg :static-library :initarg :lib :accessor prebuilt-system-static-library)) (:documentation "Class for a system delivered with a linkable static library (.a/.lib)"))) ;;; ;;; BUNDLE-OP ;;; ;;; This operation takes all components from one or more systems and ;;; creates a single output file, which may be ;;; a FASL, a statically linked library, a shared library, etc. ;;; The different targets are defined by specialization. ;;; (with-upgradability () (defmethod initialize-instance :after ((instance bundle-op) &rest initargs &key (name-suffix nil name-suffix-p) &allow-other-keys) (declare (ignore initargs name-suffix)) ;; TODO: make that class slots or methods, not instance slots (unless name-suffix-p (setf (slot-value instance 'name-suffix) (unless (typep instance 'program-op) ;; "." is no good separator for Logical Pathnames, so we use "--" (if (operation-monolithic-p instance) "--all-systems" #-(or clasp ecl mkcl) "--system")))) (when (typep instance 'monolithic-bundle-op) (destructuring-bind (&key lisp-files prologue-code epilogue-code &allow-other-keys) (operation-original-initargs instance) (setf (prologue-code instance) prologue-code (epilogue-code instance) epilogue-code) #-(or clasp ecl) (assert (null (or lisp-files #-mkcl epilogue-code #-mkcl prologue-code))) #+(or clasp ecl) (setf (extra-object-files instance) lisp-files))) (setf (extra-build-args instance) (remove-plist-keys '(:type :monolithic :name-suffix :epilogue-code :prologue-code :lisp-files :force :force-not :plan-class) ;; TODO: refactor so we don't mix plan and operation arguments (operation-original-initargs instance)))) (defgeneric* (trivial-system-p) (component)) (defun user-system-p (s) (and (typep s 'system) (not (builtin-system-p s)) (not (trivial-system-p s))))) (eval-when (#-lispworks :compile-toplevel :load-toplevel :execute) (deftype user-system () '(and system (satisfies user-system-p)))) ;;; ;;; First we handle monolithic bundles. ;;; These are standalone systems which contain everything, ;;; including other ASDF systems required by the current one. ;;; A PROGRAM is always monolithic. ;;; ;;; MONOLITHIC SHARED LIBRARIES, PROGRAMS, FASL ;;; (with-upgradability () (defun direct-dependency-files (o c &key (test 'identity) (key 'output-files) &allow-other-keys) ;; This function selects output files from direct dependencies; ;; your component-depends-on method must gather the correct dependencies in the correct order. (while-collecting (collect) (map-direct-dependencies t o c #'(lambda (sub-o sub-c) (loop :for f :in (funcall key sub-o sub-c) :when (funcall test f) :do (collect f)))))) (defun pathname-type-equal-function (type) #'(lambda (p) (equalp (pathname-type p) type))) (defmethod input-files ((o gather-operation) (c system)) (unless (eq (bundle-type o) :no-output-file) (direct-dependency-files o c :key 'output-files :test (pathname-type-equal-function (bundle-pathname-type (gather-type o)))))) ;; Find the operation that produces a given bundle-type (defun select-bundle-operation (type &optional monolithic) (ecase type ((:dll :shared-library) (if monolithic 'monolithic-dll-op 'dll-op)) ((:lib :static-library) (if monolithic 'monolithic-lib-op 'lib-op)) ((:fasl) (if monolithic 'monolithic-compile-bundle-op 'compile-bundle-op)) ((:image) 'image-op) ((:program) 'program-op))) ;; DEPRECATED. This is originally from asdf-ecl.lisp. ;; It must die, and so must any use of initargs in operation, ;; unless keys to the asdf-cache are substantially modified to accommodate for them. ;; Coordinate with the ECL maintainers to get them to stop using it. ;; SUPPORTED REPLACEMENT: Use program-op and program-system (defun make-build (system &rest args &key (monolithic nil) (type :fasl) (move-here nil move-here-p) &allow-other-keys) (let* ((operation-name (select-bundle-operation type monolithic)) (move-here-path (if (and move-here (typep move-here '(or pathname string))) (ensure-pathname move-here :namestring :lisp :ensure-directory t) (system-relative-pathname system "asdf-output/"))) (operation (apply 'operate operation-name system (remove-plist-keys '(:monolithic :type :move-here) args))) (system (find-system system)) (files (and system (output-files operation system)))) (if (or move-here (and (null move-here-p) (member operation-name '(:program :image)))) (loop :with dest-path = (resolve-symlinks* (ensure-directories-exist move-here-path)) :for f :in files :for new-f = (make-pathname :name (pathname-name f) :type (pathname-type f) :defaults dest-path) :do (handler-case (rename-file-overwriting-target f new-f) (file-error (c) (declare (ignore c)) (copy-file f new-f) (delete-file-if-exists f))) :collect new-f) files))) ;; DEPRECATED. Apparently, some users of ECL, MKCL and ABCL may still be using it; ;; but at the very least, this function should be renamed, and/or ;; some way of specifying the output directory should be provided. ;; As is, it is not such a useful interface. (defun bundle-system (system &rest args &key force (verbose t) version &allow-other-keys) (declare (ignore force verbose version)) (apply 'operate 'deliver-asd-op system args))) ;;; ;;; LOAD-BUNDLE-OP ;;; ;;; This is like ASDF's LOAD-OP, but using bundle fasl files. ;;; (with-upgradability () (defmethod component-depends-on ((o load-bundle-op) (c system)) `((,o ,@(component-sideway-dependencies c)) (,(if (user-system-p c) 'compile-bundle-op 'load-op) ,c) ,@(call-next-method))) (defmethod input-files ((o load-bundle-op) (c system)) (when (user-system-p c) (output-files (find-operation o 'compile-bundle-op) c))) (defmethod perform ((o load-bundle-op) (c system)) (when (input-files o c) (perform-lisp-load-fasl o c))) (defmethod mark-operation-done :after ((o load-bundle-op) (c system)) (mark-operation-done (find-operation o 'load-op) c))) ;;; ;;; PRECOMPILED FILES ;;; ;;; This component can be used to distribute ASDF systems in precompiled form. ;;; Only useful when the dependencies have also been precompiled. ;;; (with-upgradability () (defmethod trivial-system-p ((s system)) (every #'(lambda (c) (typep c 'compiled-file)) (component-children s))) (defmethod input-files ((o operation) (c compiled-file)) (list (component-pathname c))) (defmethod perform ((o load-op) (c compiled-file)) (perform-lisp-load-fasl o c)) (defmethod perform ((o load-source-op) (c compiled-file)) (perform (find-operation o 'load-op) c)) (defmethod perform ((o operation) (c compiled-file)) nil)) ;;; ;;; Pre-built systems ;;; (with-upgradability () (defmethod trivial-system-p ((s prebuilt-system)) t) (defmethod perform ((o link-op) (c prebuilt-system)) nil) (defmethod perform ((o basic-compile-bundle-op) (c prebuilt-system)) nil) (defmethod perform ((o lib-op) (c prebuilt-system)) nil) (defmethod perform ((o dll-op) (c prebuilt-system)) nil) (defmethod component-depends-on ((o gather-operation) (c prebuilt-system)) nil) (defmethod output-files ((o lib-op) (c prebuilt-system)) (values (list (prebuilt-system-static-library c)) t))) ;;; ;;; PREBUILT SYSTEM CREATOR ;;; (with-upgradability () (defmethod output-files ((o deliver-asd-op) (s system)) (list (make-pathname :name (component-name s) :type "asd" :defaults (component-pathname s)))) (defmethod perform ((o deliver-asd-op) (s system)) (let* ((inputs (input-files o s)) (fasl (first inputs)) (library (second inputs)) (asd (first (output-files o s))) (name (if (and fasl asd) (pathname-name asd) (return-from perform))) (version (component-version s)) (dependencies (if (operation-monolithic-p o) (remove-if-not 'builtin-system-p (required-components s :component-type 'system :keep-operation 'load-op)) (while-collecting (x) ;; resolve the sideway-dependencies of s (map-direct-dependencies t 'load-op s #'(lambda (o c) (when (and (typep o 'load-op) (typep c 'system)) (x c))))))) (depends-on (mapcar 'coerce-name dependencies))) (when (pathname-equal asd (system-source-file s)) (cerror "overwrite the asd file" "~/asdf-action:format-action/ is going to overwrite the system definition file ~S which is probably not what you want; you probably need to tweak your output translations." (cons o s) asd)) (with-open-file (s asd :direction :output :if-exists :supersede :if-does-not-exist :create) (format s ";;; Prebuilt~:[~; monolithic~] ASDF definition for system ~A~%" (operation-monolithic-p o) name) (format s ";;; Built for ~A ~A on a ~A/~A ~A~%" (lisp-implementation-type) (lisp-implementation-version) (software-type) (machine-type) (software-version)) (let ((*package* (find-package :asdf-user))) (pprint `(defsystem ,name :class prebuilt-system :version ,version :depends-on ,depends-on :components ((:compiled-file ,(pathname-name fasl))) ,@(when library `(:lib ,(file-namestring library)))) s) (terpri s))))) #-(or clasp ecl mkcl) (defmethod perform ((o basic-compile-bundle-op) (c system)) (let* ((input-files (input-files o c)) (fasl-files (remove (compile-file-type) input-files :key #'pathname-type :test-not #'equalp)) (non-fasl-files (remove (compile-file-type) input-files :key #'pathname-type :test #'equalp)) (output-files (output-files o c)) (output-file (first output-files))) (assert (eq (not input-files) (not output-files))) (when input-files (when non-fasl-files (error "On ~A, asdf/bundle can only bundle FASL files, but these were also produced: ~S" (implementation-type) non-fasl-files)) (when (or (prologue-code o) (epilogue-code o) (prologue-code c) (epilogue-code c)) (error "prologue-code and epilogue-code are not supported on ~A" (implementation-type))) (with-staging-pathname (output-file) (combine-fasls fasl-files output-file))))) (defmethod input-files ((o load-op) (s precompiled-system)) (bundle-output-files (find-operation o 'compile-bundle-op) s)) (defmethod perform ((o load-op) (s precompiled-system)) (perform-lisp-load-fasl o s)) (defmethod component-depends-on ((o load-bundle-op) (s precompiled-system)) #+xcl (declare (ignorable o)) `((load-op ,s) ,@(call-next-method)))) #| ;; Example use: (asdf:defsystem :precompiled-asdf-utils :class asdf::precompiled-system :fasl (asdf:apply-output-translations (asdf:system-relative-pathname :asdf-utils "asdf-utils.system.fasl"))) (asdf:load-system :precompiled-asdf-utils) |# #+(or clasp ecl mkcl) (with-upgradability () #+ecl ;; doesn't work on clasp or mkcl (yet?). (unless (use-ecl-byte-compiler-p) (setf *load-system-operation* 'load-bundle-op)) (defun system-module-pathname (module) (let ((name (coerce-name module))) (some 'file-exists-p (list #+clasp (compile-file-pathname (make-pathname :name name :defaults "sys:") :output-type :object) #+ecl (compile-file-pathname (make-pathname :name name :defaults "sys:") :type :lib) #+ecl (compile-file-pathname (make-pathname :name name :defaults "sys:") :type :object) #+mkcl (make-pathname :name name :type (bundle-pathname-type :lib) :defaults #p"sys:") #+mkcl (make-pathname :name name :type (bundle-pathname-type :lib) :defaults #p"sys:contrib;"))))) (defun make-prebuilt-system (name &optional (pathname (system-module-pathname name))) "Creates a prebuilt-system if PATHNAME isn't NIL." (when pathname (make-instance 'prebuilt-system :name (coerce-name name) :static-library (resolve-symlinks* pathname)))) (defmethod component-depends-on :around ((o image-op) (c system)) (destructuring-bind ((lib-op . deps)) (call-next-method) (labels ((has-it-p (x) (find x deps :test 'equal :key 'coerce-name)) (ensure-linkable-system (x) (unless (has-it-p x) (or (if-let (s (find-system x)) (and (system-source-directory x) (list s))) (if-let (p (system-module-pathname x)) (list (make-prebuilt-system x p))))))) `((,lib-op ,@(unless (no-uiop c) (append (ensure-linkable-system "cmp") (or (ensure-linkable-system "uiop") (ensure-linkable-system "asdf")))) ,@deps))))) (defmethod perform ((o link-op) (c system)) (let* ((object-files (input-files o c)) (output (output-files o c)) (bundle (first output)) (programp (typep o 'program-op)) (kind (bundle-type o))) (when output (apply 'create-image bundle (append (when programp (prefix-lisp-object-files c)) object-files (when programp (postfix-lisp-object-files c))) :kind kind :prologue-code (or (prologue-code o) (when programp (prologue-code c))) :epilogue-code (or (epilogue-code o) (when programp (epilogue-code c))) :build-args (or (extra-build-args o) (when programp (extra-build-args c))) :extra-object-files (or (extra-object-files o) (when programp (extra-object-files c))) :no-uiop (no-uiop c) (when programp `(:entry-point ,(component-entry-point c)))))))) ;;;; ------------------------------------------------------------------------- ;;;; Concatenate-source (uiop/package:define-package :asdf/concatenate-source (:recycle :asdf/concatenate-source :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/component :asdf/operation :asdf/system :asdf/find-system :asdf/action :asdf/lisp-action :asdf/plan :asdf/bundle) (:export #:concatenate-source-op #:load-concatenated-source-op #:compile-concatenated-source-op #:load-compiled-concatenated-source-op #:monolithic-concatenate-source-op #:monolithic-load-concatenated-source-op #:monolithic-compile-concatenated-source-op #:monolithic-load-compiled-concatenated-source-op)) (in-package :asdf/concatenate-source) ;;; ;;; Concatenate sources ;;; (with-upgradability () ;; Base classes for both regular and monolithic concatenate-source operations (defclass basic-concatenate-source-op (bundle-op) ((bundle-type :initform "lisp" :allocation :class))) (defclass basic-load-concatenated-source-op (basic-load-op selfward-operation) ()) (defclass basic-compile-concatenated-source-op (basic-compile-op selfward-operation) ()) (defclass basic-load-compiled-concatenated-source-op (basic-load-op selfward-operation) ()) ;; Regular concatenate-source operations (defclass concatenate-source-op (basic-concatenate-source-op non-propagating-operation) () (:documentation "Operation to concatenate all sources in a system into a single file")) (defclass load-concatenated-source-op (basic-load-concatenated-source-op) ((selfward-operation :initform '(prepare-op concatenate-source-op) :allocation :class)) (:documentation "Operation to load the result of concatenate-source-op as source")) (defclass compile-concatenated-source-op (basic-compile-concatenated-source-op) ((selfward-operation :initform '(prepare-op concatenate-source-op) :allocation :class)) (:documentation "Operation to compile the result of concatenate-source-op")) (defclass load-compiled-concatenated-source-op (basic-load-compiled-concatenated-source-op) ((selfward-operation :initform '(prepare-op compile-concatenated-source-op) :allocation :class)) (:documentation "Operation to load the result of compile-concatenated-source-op")) (defclass monolithic-concatenate-source-op (basic-concatenate-source-op monolithic-bundle-op non-propagating-operation) () (:documentation "Operation to concatenate all sources in a system and its dependencies into a single file")) (defclass monolithic-load-concatenated-source-op (basic-load-concatenated-source-op) ((selfward-operation :initform 'monolithic-concatenate-source-op :allocation :class)) (:documentation "Operation to load the result of monolithic-concatenate-source-op as source")) (defclass monolithic-compile-concatenated-source-op (basic-compile-concatenated-source-op) ((selfward-operation :initform 'monolithic-concatenate-source-op :allocation :class)) (:documentation "Operation to compile the result of monolithic-concatenate-source-op")) (defclass monolithic-load-compiled-concatenated-source-op (basic-load-compiled-concatenated-source-op) ((selfward-operation :initform 'monolithic-compile-concatenated-source-op :allocation :class)) (:documentation "Operation to load the result of monolithic-compile-concatenated-source-op")) (defmethod input-files ((operation basic-concatenate-source-op) (s system)) (loop :with encoding = (or (component-encoding s) *default-encoding*) :with other-encodings = '() :with around-compile = (around-compile-hook s) :with other-around-compile = '() :for c :in (required-components s :goal-operation 'compile-op :keep-operation 'compile-op :other-systems (operation-monolithic-p operation)) :append (when (typep c 'cl-source-file) (let ((e (component-encoding c))) (unless (equal e encoding) (let ((a (assoc e other-encodings))) (if a (push (component-find-path c) (cdr a)) (push (list a (component-find-path c)) other-encodings))))) (unless (equal around-compile (around-compile-hook c)) (push (component-find-path c) other-around-compile)) (input-files (make-operation 'compile-op) c)) :into inputs :finally (when other-encodings (warn "~S uses encoding ~A but has sources that use these encodings:~{ ~A~}" operation encoding (mapcar #'(lambda (x) (cons (car x) (list (reverse (cdr x))))) other-encodings))) (when other-around-compile (warn "~S uses around-compile hook ~A but has sources that use these hooks: ~A" operation around-compile other-around-compile)) (return inputs))) (defmethod output-files ((o basic-compile-concatenated-source-op) (s system)) (lisp-compilation-output-files o s)) (defmethod perform ((o basic-concatenate-source-op) (s system)) (let* ((ins (input-files o s)) (out (output-file o s)) (tmp (tmpize-pathname out))) (concatenate-files ins tmp) (rename-file-overwriting-target tmp out))) (defmethod perform ((o basic-load-concatenated-source-op) (s system)) (perform-lisp-load-source o s)) (defmethod perform ((o basic-compile-concatenated-source-op) (s system)) (perform-lisp-compilation o s)) (defmethod perform ((o basic-load-compiled-concatenated-source-op) (s system)) (perform-lisp-load-fasl o s))) ;;;; ------------------------------------------------------------------------- ;;;; Package systems in the style of quick-build or faslpath (uiop:define-package :asdf/package-inferred-system (:recycle :asdf/package-inferred-system :asdf/package-system :asdf) (:use :uiop/common-lisp :uiop :asdf/defsystem ;; Using the old name of :asdf/parse-defsystem for compatibility :asdf/upgrade :asdf/component :asdf/system :asdf/find-system :asdf/lisp-action) (:export #:package-inferred-system #:sysdef-package-inferred-system-search #:package-system ;; backward compatibility only. To be removed. #:register-system-packages #:*defpackage-forms* #:*package-inferred-systems* #:package-inferred-system-missing-package-error)) (in-package :asdf/package-inferred-system) (with-upgradability () ;; The names of the recognized defpackage forms. (defparameter *defpackage-forms* '(defpackage define-package)) (defun initial-package-inferred-systems-table () ;; Mark all existing packages are preloaded. (let ((h (make-hash-table :test 'equal))) (dolist (p (list-all-packages)) (dolist (n (package-names p)) (setf (gethash n h) t))) h)) ;; Mapping from package names to systems that provide them. (defvar *package-inferred-systems* (initial-package-inferred-systems-table)) (defclass package-inferred-system (system) () (:documentation "Class for primary systems for which secondary systems are automatically in the one-file, one-file, one-system style: system names are mapped to files under the primary system's system-source-directory, dependencies are inferred from the first defpackage form in every such file")) ;; DEPRECATED. For backward compatibility only. To be removed in an upcoming release: (defclass package-system (package-inferred-system) ()) ;; Is a given form recognizable as a defpackage form? (defun defpackage-form-p (form) (and (consp form) (member (car form) *defpackage-forms*))) ;; Find the first defpackage form in a stream, if any (defun stream-defpackage-form (stream) (loop :for form = (read stream nil nil) :while form :when (defpackage-form-p form) :return form)) (defun file-defpackage-form (file) "Return the first DEFPACKAGE form in FILE." (with-input-file (f file) (stream-defpackage-form f))) (define-condition package-inferred-system-missing-package-error (system-definition-error) ((system :initarg :system :reader error-system) (pathname :initarg :pathname :reader error-pathname)) (:report (lambda (c s) (format s (compatfmt "~@") (error-system c) (error-pathname c))))) (defun package-dependencies (defpackage-form) "Return a list of packages depended on by the package defined in DEFPACKAGE-FORM. A package is depended upon if the DEFPACKAGE-FORM uses it or imports a symbol from it." (assert (defpackage-form-p defpackage-form)) (remove-duplicates (while-collecting (dep) (loop* :for (option . arguments) :in (cddr defpackage-form) :do (ecase option ((:use :mix :reexport :use-reexport :mix-reexport) (dolist (p arguments) (dep (string p)))) ((:import-from :shadowing-import-from) (dep (string (first arguments)))) ((:nicknames :documentation :shadow :export :intern :unintern :recycle))))) :from-end t :test 'equal)) (defun package-designator-name (package) "Normalize a package designator to a string" (etypecase package (package (package-name package)) (string package) (symbol (string package)))) (defun register-system-packages (system packages) "Register SYSTEM as providing PACKAGES." (let ((name (or (eq system t) (coerce-name system)))) (dolist (p (ensure-list packages)) (setf (gethash (package-designator-name p) *package-inferred-systems*) name)))) (defun package-name-system (package-name) "Return the name of the SYSTEM providing PACKAGE-NAME, if such exists, otherwise return a default system name computed from PACKAGE-NAME." (check-type package-name string) (if-let ((system-name (gethash package-name *package-inferred-systems*))) system-name (string-downcase package-name))) ;; Given a file in package-inferred-system style, find its dependencies (defun package-inferred-system-file-dependencies (file &optional system) (if-let (defpackage-form (file-defpackage-form file)) (remove t (mapcar 'package-name-system (package-dependencies defpackage-form))) (error 'package-inferred-system-missing-package-error :system system :pathname file))) ;; Given package-inferred-system object, check whether its specification matches ;; the provided parameters (defun same-package-inferred-system-p (system name directory subpath around-compile dependencies) (and (eq (type-of system) 'package-inferred-system) (equal (component-name system) name) (pathname-equal directory (component-pathname system)) (equal dependencies (component-sideway-dependencies system)) (equal around-compile (around-compile-hook system)) (let ((children (component-children system))) (and (length=n-p children 1) (let ((child (first children))) (and (eq (type-of child) 'cl-source-file) (equal (component-name child) "lisp") (and (slot-boundp child 'relative-pathname) (equal (slot-value child 'relative-pathname) subpath)))))))) ;; sysdef search function to push into *system-definition-search-functions* (defun sysdef-package-inferred-system-search (system) (let ((primary (primary-system-name system))) (unless (equal primary system) (let ((top (find-system primary nil))) (when (typep top 'package-inferred-system) (if-let (dir (component-pathname top)) (let* ((sub (subseq system (1+ (length primary)))) (f (probe-file* (subpathname dir sub :type "lisp") :truename *resolve-symlinks*))) (when (file-pathname-p f) (let ((dependencies (package-inferred-system-file-dependencies f system)) (previous (registered-system system)) (around-compile (around-compile-hook top))) (if (same-package-inferred-system-p previous system dir sub around-compile dependencies) previous (eval `(defsystem ,system :class package-inferred-system :source-file nil :pathname ,dir :depends-on ,dependencies :around-compile ,around-compile :components ((cl-source-file "lisp" :pathname ,sub))))))))))))))) (with-upgradability () (pushnew 'sysdef-package-inferred-system-search *system-definition-search-functions*) (setf *system-definition-search-functions* (remove (find-symbol* :sysdef-package-system-search :asdf/package-system nil) *system-definition-search-functions*))) ;;;; ------------------------------------------------------------------------- ;;; Internal hacks for backward-compatibility (uiop/package:define-package :asdf/backward-internals (:recycle :asdf/backward-internals :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/find-system) (:export #:load-sysdef)) (in-package :asdf/backward-internals) (with-upgradability () (defun load-sysdef (name pathname) (declare (ignore name pathname)) ;; Needed for backward compatibility with swank-asdf from SLIME 2015-12-01 or older. (error "Use asdf:load-asd instead of asdf::load-sysdef"))) ;;;; ------------------------------------------------------------------------- ;;; Backward-compatible interfaces (uiop/package:define-package :asdf/backward-interface (:recycle :asdf/backward-interface :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/component :asdf/system :asdf/find-system :asdf/operation :asdf/action :asdf/lisp-action :asdf/plan :asdf/operate :asdf/output-translations) (:export #:*asdf-verbose* #:operation-error #:compile-error #:compile-failed #:compile-warned #:error-component #:error-operation #:traverse #:component-load-dependencies #:enable-asdf-binary-locations-compatibility #:operation-forced #:operation-on-failure #:operation-on-warnings #:on-failure #:on-warnings #:component-property #:run-shell-command #:system-definition-pathname #:explain)) (in-package :asdf/backward-interface) (with-upgradability () ;; These conditions from ASDF 1 and 2 are used by many packages in Quicklisp; ;; but ASDF3 replaced them with somewhat different variants of uiop:compile-condition ;; that do not involve ASDF actions. ;; TODO: find the offenders and stop them. (define-condition operation-error (error) ;; Bad, backward-compatible name ;; Used by SBCL, cffi-tests, clsql-mysql, clsql-uffi, qt, elephant, uffi-tests, sb-grovel ((component :reader error-component :initarg :component) (operation :reader error-operation :initarg :operation)) (:report (lambda (c s) (format s (compatfmt "~@<~A while invoking ~A on ~A~@:>") (type-of c) (error-operation c) (error-component c))))) (define-condition compile-error (operation-error) ()) (define-condition compile-failed (compile-error) ()) (define-condition compile-warned (compile-error) ()) (defun component-load-dependencies (component) "DEPRECATED. Please use COMPONENT-SIDEWAY-DEPENDENCIES instead." ;; Old deprecated name for the same thing. Please update your software. (component-sideway-dependencies component)) (defgeneric operation-forced (operation) (:documentation "DEPRECATED. Assume it's (constantly t) instead.")) ;; This method exists for backward compatibility with swank.asd, its only user, ;; that still uses it as of 2016-09-21. ;; ;; The magic PERFORM method in swank.asd only actually loads swank if it sees that ;; the operation was forced. But except for the first time, the only reason the action ;; would be performed to begin with is because it was forced; and the first time over, ;; it doesn't hurt that :reload t :delete t should be used. So the check is redundant. ;; More generally, if you have to do something when the operation was forced, ;; you should also do it when not, and vice-versa, because it really shouldn't matter. ;; Thus, the backward-compatible thing to do is to always return T. (defmethod operation-forced ((o operation)) t) ;; These old interfaces from ASDF1 have never been very meaningful ;; but are still used in obscure places. (defgeneric operation-on-warnings (operation) (:documentation "DEPRECATED. Please use UIOP:*COMPILE-FILE-WARNINGS-BEHAVIOUR* instead.")) (defgeneric operation-on-failure (operation) (:documentation "DEPRECATED. Please use UIOP:*COMPILE-FILE-FAILURE-BEHAVIOUR* instead.")) (defgeneric (setf operation-on-warnings) (x operation) (:documentation "DEPRECATED. Please SETF UIOP:*COMPILE-FILE-WARNINGS-BEHAVIOUR* instead.")) (defgeneric (setf operation-on-failure) (x operation) (:documentation "DEPRECATED. Please SETF UIOP:*COMPILE-FILE-FAILURE-BEHAVIOUR* instead.")) (defmethod operation-on-warnings ((o operation)) *compile-file-warnings-behaviour*) (defmethod operation-on-failure ((o operation)) *compile-file-failure-behaviour*) (defmethod (setf operation-on-warnings) (x (o operation)) (setf *compile-file-warnings-behaviour* x)) (defmethod (setf operation-on-failure) (x (o operation)) (setf *compile-file-failure-behaviour* x)) (defun system-definition-pathname (x) ;; As of 2.014.8, we mean to make this function obsolete, ;; but that won't happen until all clients have been updated. ;;(cerror "Use ASDF:SYSTEM-SOURCE-FILE instead" "DEPRECATED. This function used to expose ASDF internals with subtle differences with respect to user expectations, that have been refactored away since. We recommend you use ASDF:SYSTEM-SOURCE-FILE instead for a mostly compatible replacement that we're supporting, or even ASDF:SYSTEM-SOURCE-DIRECTORY or ASDF:SYSTEM-RELATIVE-PATHNAME if that's whay you mean." ;;) (system-source-file x)) ;; TRAVERSE is the function used to compute a plan in ASDF 1 and 2. ;; It was never officially exposed but some people still used it. (defgeneric* (traverse) (operation component &key &allow-other-keys) (:documentation "Generate and return a plan for performing OPERATION on COMPONENT. The plan returned is a list of dotted-pairs. Each pair is the CONS of ASDF operation object and a COMPONENT object. The pairs will be processed in order by OPERATE.")) (define-convenience-action-methods traverse (operation component &key)) (defmethod traverse ((o operation) (c component) &rest keys &key plan-class &allow-other-keys) (plan-actions (apply 'make-plan plan-class o c keys)))) ;;;; ASDF-Binary-Locations compatibility ;; This remains supported for legacy user, but not recommended for new users. ;; We suspect there are no more legacy users in 2016. (with-upgradability () (defun enable-asdf-binary-locations-compatibility (&key (centralize-lisp-binaries nil) (default-toplevel-directory (subpathname (user-homedir-pathname) ".fasls/")) ;; Use ".cache/common-lisp/" instead ??? (include-per-user-information nil) (map-all-source-files (or #+(or clasp clisp ecl mkcl) t nil)) (source-to-target-mappings nil) (file-types `(,(compile-file-type) "build-report" #+clasp (compile-file-type :output-type :object) #+ecl (compile-file-type :type :object) #+mkcl (compile-file-type :fasl-p nil) #+clisp "lib" #+sbcl "cfasl" #+sbcl "sbcl-warnings" #+clozure "ccl-warnings"))) #+(or clasp clisp ecl mkcl) (when (null map-all-source-files) (error "asdf:enable-asdf-binary-locations-compatibility doesn't support :map-all-source-files nil on CLISP, ECL and MKCL")) (let* ((patterns (if map-all-source-files (list *wild-file*) (loop :for type :in file-types :collect (make-pathname :type type :defaults *wild-file*)))) (destination-directory (if centralize-lisp-binaries `(,default-toplevel-directory ,@(when include-per-user-information (cdr (pathname-directory (user-homedir-pathname)))) :implementation ,*wild-inferiors*) `(:root ,*wild-inferiors* :implementation)))) (initialize-output-translations `(:output-translations ,@source-to-target-mappings #+abcl (#p"jar:file:/**/*.jar!/**/*.*" (:function translate-jar-pathname)) #+abcl (#p"/___jar___file___root___/**/*.*" (,@destination-directory)) ,@(loop :for pattern :in patterns :collect `((:root ,*wild-inferiors* ,pattern) (,@destination-directory ,pattern))) (t t) :ignore-inherited-configuration)))) (defmethod operate :before (operation-class system &rest args &key &allow-other-keys) (declare (ignore operation-class system args)) (when (find-symbol* '#:output-files-for-system-and-operation :asdf nil) (error "ASDF 2 is not compatible with ASDF-BINARY-LOCATIONS, which you are using. ASDF 2 now achieves the same purpose with its builtin ASDF-OUTPUT-TRANSLATIONS, which should be easier to configure. Please stop using ASDF-BINARY-LOCATIONS, and instead use ASDF-OUTPUT-TRANSLATIONS. See the ASDF manual for details. In case you insist on preserving your previous A-B-L configuration, but do not know how to achieve the same effect with A-O-T, you may use function ASDF:ENABLE-ASDF-BINARY-LOCATIONS-COMPATIBILITY as documented in the manual; call that function where you would otherwise have loaded and configured A-B-L.")))) ;;; run-shell-command ;; WARNING! The function below is not just deprecated but also dysfunctional. ;; Please use asdf/run-program:run-program instead. (with-upgradability () (defun run-shell-command (control-string &rest args) "Interpolate ARGS into CONTROL-STRING as if by FORMAT, and synchronously execute the result using a Bourne-compatible shell, with output to *VERBOSE-OUT*. Returns the shell's exit code. PLEASE DO NOT USE. Deprecated function, for backward-compatibility only. Please use UIOP:RUN-PROGRAM instead." (let ((command (apply 'format nil control-string args))) (asdf-message "; $ ~A~%" command) (let ((exit-code (ignore-errors (nth-value 2 (run-program command :force-shell t :ignore-error-status t :output *verbose-out*))))) (typecase exit-code ((integer 0 255) exit-code) (t 255)))))) (with-upgradability () (defvar *asdf-verbose* nil)) ;; backward-compatibility with ASDF2 only. Unused. ;;; backward-compatibility methods. Do NOT use in new code. NOT SUPPORTED. (with-upgradability () (defgeneric component-property (component property)) (defgeneric (setf component-property) (new-value component property)) (defmethod component-property ((c component) property) (cdr (assoc property (slot-value c 'properties) :test #'equal))) (defmethod (setf component-property) (new-value (c component) property) (let ((a (assoc property (slot-value c 'properties) :test #'equal))) (if a (setf (cdr a) new-value) (setf (slot-value c 'properties) (acons property new-value (slot-value c 'properties))))) new-value)) ;;; This method survives from ASDF 1, but really it is superseded by action-description. (with-upgradability () (defgeneric* (explain) (operation component) (:documentation "Display a message describing an action. DEPRECATED. Use ASDF:ACTION-DESCRIPTION and/or ASDF::FORMAT-ACTION instead.")) (defmethod explain ((o operation) (c component)) (asdf-message (compatfmt "~&~@<; ~@;~A~:>~%") (action-description o c))) (define-convenience-action-methods explain (operation component))) ;;;; --------------------------------------------------------------------------- ;;;; Handle ASDF package upgrade, including implementation-dependent magic. (uiop/package:define-package :asdf/interface (:nicknames :asdf :asdf-utilities) (:recycle :asdf/interface :asdf) (:unintern #:loaded-systems ; makes for annoying SLIME completion #:output-files-for-system-and-operation) ; ASDF-BINARY-LOCATION function we use to detect ABL (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/cache :asdf/component :asdf/system :asdf/find-system :asdf/find-component :asdf/operation :asdf/action :asdf/lisp-action :asdf/output-translations :asdf/source-registry :asdf/plan :asdf/operate :asdf/parse-defsystem :asdf/bundle :asdf/concatenate-source :asdf/backward-internals :asdf/backward-interface :asdf/package-inferred-system) ;; Note: (1) we are NOT automatically reexporting everything from previous packages. ;; (2) we only reexport UIOP functionality when backward-compatibility requires it. (:export #:defsystem #:find-system #:load-asd #:locate-system #:coerce-name #:primary-system-name #:oos #:operate #:make-plan #:perform-plan #:sequential-plan #:system-definition-pathname #:search-for-system-definition #:find-component #:component-find-path #:compile-system #:load-system #:load-systems #:load-systems* #:require-system #:test-system #:clear-system #:operation #:make-operation #:find-operation #:upward-operation #:downward-operation #:sideway-operation #:selfward-operation #:non-propagating-operation #:build-op #:make #:load-op #:prepare-op #:compile-op #:prepare-source-op #:load-source-op #:test-op #:feature #:version #:version-satisfies #:upgrade-asdf #:implementation-identifier #:implementation-type #:hostname #:input-files #:output-files #:output-file #:perform #:perform-with-restarts #:operation-done-p #:explain #:action-description #:component-sideway-dependencies #:needed-in-image-p #:component-load-dependencies #:run-shell-command ; deprecated, do not use #:bundle-op #:monolithic-bundle-op #:precompiled-system #:compiled-file #:bundle-system #:program-system #:make-build #:basic-compile-bundle-op #:prepare-bundle-op #:compile-bundle-op #:load-bundle-op #:monolithic-compile-bundle-op #:monolithic-load-bundle-op #:lib-op #:dll-op #:deliver-asd-op #:program-op #:image-op #:monolithic-lib-op #:monolithic-dll-op #:monolithic-deliver-asd-op #:concatenate-source-op #:load-concatenated-source-op #:compile-concatenated-source-op #:load-compiled-concatenated-source-op #:monolithic-concatenate-source-op #:monolithic-load-concatenated-source-op #:monolithic-compile-concatenated-source-op #:monolithic-load-compiled-concatenated-source-op #:operation-monolithic-p #:required-components #:component-loaded-p #:component #:parent-component #:child-component #:system #:module #:file-component #:source-file #:c-source-file #:java-source-file #:cl-source-file #:cl-source-file.cl #:cl-source-file.lsp #:static-file #:doc-file #:html-file #:file-type #:source-file-type #:register-preloaded-system #:sysdef-preloaded-system-search #:register-immutable-system #:sysdef-immutable-system-search #:package-inferred-system #:register-system-packages #:package-system ;; backward-compatibility during migration, to be removed in a further release. #:component-children ; component accessors #:component-children-by-name #:component-pathname #:component-relative-pathname #:component-name #:component-version #:component-parent #:component-system #:component-encoding #:component-external-format #:component-depends-on ; backward-compatible name rather than action-depends-on #:module-components ; backward-compatibility #:operation-on-warnings #:operation-on-failure ; backward-compatibility #:component-property ; backward-compatibility #:traverse ; backward-compatibility #:system-description #:system-long-description #:system-author #:system-maintainer #:system-license #:system-licence #:system-source-file #:system-source-directory #:system-relative-pathname #:system-homepage #:system-mailto #:system-bug-tracker #:system-long-name #:system-source-control #:map-systems #:system-defsystem-depends-on #:system-depends-on #:system-weakly-depends-on #:*system-definition-search-functions* ; variables #:*central-registry* #:*compile-file-warnings-behaviour* #:*compile-file-failure-behaviour* #:*resolve-symlinks* #:*load-system-operation* #:*asdf-verbose* ;; unused. For backward-compatibility only. #:*verbose-out* #:asdf-version #:compile-condition #:compile-file-error #:compile-warned-error #:compile-failed-error #:compile-warned-warning #:compile-failed-warning #:operation-error #:compile-failed #:compile-warned #:compile-error ;; backward compatibility #:error-name #:error-pathname #:load-system-definition-error #:error-component #:error-operation #:system-definition-error #:missing-component #:missing-component-of-version #:missing-dependency #:missing-dependency-of-version #:circular-dependency ; errors #:duplicate-names #:non-toplevel-system #:non-system-system #:package-inferred-system-missing-package-error #:operation-definition-warning #:operation-definition-error #:try-recompiling ; restarts #:retry #:accept #:coerce-entry-to-directory #:remove-entry-from-registry #:clear-configuration-and-retry #:*encoding-detection-hook* #:*encoding-external-format-hook* #:*default-encoding* #:*utf-8-external-format* #:clear-configuration #:*output-translations-parameter* #:initialize-output-translations #:disable-output-translations #:clear-output-translations #:ensure-output-translations #:apply-output-translations #:compile-file* #:compile-file-pathname* #:*warnings-file-type* #:enable-deferred-warnings-check #:disable-deferred-warnings-check #:enable-asdf-binary-locations-compatibility #:*default-source-registries* #:*source-registry-parameter* #:initialize-source-registry #:compute-source-registry #:clear-source-registry #:ensure-source-registry #:process-source-registry #:system-registered-p #:registered-systems #:already-loaded-systems #:resolve-location #:asdf-message #:*user-cache* #:user-output-translations-pathname #:system-output-translations-pathname #:user-output-translations-directory-pathname #:system-output-translations-directory-pathname #:user-source-registry #:system-source-registry #:user-source-registry-directory #:system-source-registry-directory )) ;;;; --------------------------------------------------------------------------- ;;;; ASDF-USER, where the action happens. (uiop/package:define-package :asdf/user (:nicknames :asdf-user) ;; NB: releases before 3.1.2 this :use'd only uiop/package instead of uiop below. ;; They also :use'd uiop/common-lisp, that reexports common-lisp and is not included in uiop. ;; ASDF3 releases from 2.27 to 2.31 called uiop asdf-driver and asdf/foo uiop/foo. ;; ASDF1 and ASDF2 releases (2.26 and earlier) create a temporary package ;; that only :use's :cl and :asdf (:use :uiop/common-lisp :uiop :asdf/interface)) ;;;; ----------------------------------------------------------------------- ;;;; ASDF Footer: last words and cleanup (uiop/package:define-package :asdf/footer (:recycle :asdf/footer :asdf) (:use :uiop/common-lisp :uiop :asdf/upgrade :asdf/find-system :asdf/operate :asdf/bundle) ;; Happily, all those implementations all have the same module-provider hook interface. #+(or abcl clasp cmucl clozure ecl mkcl sbcl) (:import-from #+abcl :sys #+(or clasp cmucl ecl) :ext #+clozure :ccl #+mkcl :mk-ext #+sbcl sb-ext #:*module-provider-functions* #+ecl #:*load-hooks*) #+(or clasp mkcl) (:import-from :si #:*load-hooks*)) (in-package :asdf/footer) ;;;; Register ASDF itself and all its subsystems as preloaded. (with-upgradability () (dolist (s '("asdf" "uiop" "asdf-defsystem" "asdf-package-system")) ;; Don't bother with these system names, no one relies on them anymore: ;; "asdf-utils" "asdf-bundle" "asdf-driver" (register-preloaded-system s :version *asdf-version*))) ;;;; Hook ASDF into the implementation's REQUIRE and other entry points. #+(or abcl clasp clisp clozure cmucl ecl mkcl sbcl) (with-upgradability () ;; Hook into CL:REQUIRE. #-clisp (pushnew 'module-provide-asdf *module-provider-functions*) #+clisp (if-let (x (and #+clisp (find-symbol* '#:*module-provider-functions* :custom nil))) (eval `(pushnew 'module-provide-asdf ,x))) #+(or clasp ecl mkcl) (progn (pushnew '("fasb" . si::load-binary) *load-hooks* :test 'equal :key 'car) #+os-windows (unless (assoc "asd" *load-hooks* :test 'equal) (appendf *load-hooks* '(("asd" . si::load-source)))) ;; Wrap module provider functions in an idempotent, upgrade friendly way (defvar *wrapped-module-provider* (make-hash-table)) (setf (gethash 'module-provide-asdf *wrapped-module-provider*) 'module-provide-asdf) (defun wrap-module-provider (provider name) (let ((results (multiple-value-list (funcall provider name)))) (when (first results) (register-preloaded-system (coerce-name name))) (values-list results))) (defun wrap-module-provider-function (provider) (ensure-gethash provider *wrapped-module-provider* (constantly #'(lambda (module-name) (wrap-module-provider provider module-name))))) (setf *module-provider-functions* (mapcar #'wrap-module-provider-function *module-provider-functions*)))) #+cmucl ;; Hook into the CMUCL herald. (with-upgradability () (defun herald-asdf (stream) (format stream " ASDF ~A" (asdf-version))) (setf (getf ext:*herald-items* :asdf) '(herald-asdf))) ;;;; Done! (with-upgradability () #+allegro ;; restore *w-o-n-r-c* setting as saved in uiop/common-lisp (when (boundp 'excl:*warn-on-nested-reader-conditionals*) (setf excl:*warn-on-nested-reader-conditionals* uiop/common-lisp::*acl-warn-save*)) ;; Advertise the features we provide. (dolist (f '(:asdf :asdf2 :asdf3 :asdf3.1 :asdf-package-system)) (pushnew f *features*)) ;; Provide both lowercase and uppercase, to satisfy more people, especially LispWorks users. (provide "asdf") (provide "ASDF") ;; Finally, call a function that will cleanup in case this is an upgrade of an older ASDF. (cleanup-upgraded-asdf)) (when *load-verbose* (asdf-message ";; ASDF, version ~a~%" (asdf-version)))