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;;; -*- mode: Lisp; Base: 10 ; Syntax: ANSI-Common-Lisp ; buffer-read-only: t; -*-
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;;; This is ASDF 3.1.7.43: Another System Definition Facility.
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;;;
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;;; Feedback, bug reports, and patches are all welcome:
;;; please mail to <asdf-devel@common-lisp.net>.
;;; Note first that the canonical source for ASDF is presently
;;; <URL:http://common-lisp.net/project/asdf/>.
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;;;
;;; 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
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;;; 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'
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;;; -- 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)
;;;
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;;; Copyright (c) 2001-2016 Daniel Barlow and contributors
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;;;
;;; 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.
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;;;
;;; -- LICENSE END

;;; The problem with writing a defsystem replacement is bootstrapping:
;;; we can't use defsystem to compile it.  Hence, all in one file.

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;;;; ---------------------------------------------------------------------------
;;;; Handle ASDF package upgrade, including implementation-dependent magic.
;;
;; See https://bugs.launchpad.net/asdf/+bug/485687
;;
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(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.
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  ;; Until then, uiop/package is frozen to forever
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  ;; 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.
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  (:use :common-lisp)
  (:export
   #:find-package* #:find-symbol* #:symbol-call
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   #:intern* #:export* #:import* #:shadowing-import* #:shadow* #:make-symbol* #:unintern*
   #:symbol-shadowing-p #:home-package-p
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   #:symbol-package-name #:standard-common-lisp-symbol-p
   #:reify-package #:unreify-package #:reify-symbol #:unreify-symbol
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   #:nuke-symbol-in-package #:nuke-symbol #:rehome-symbol
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   #:ensure-package-unused #:delete-package*
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   #:package-names #:packages-from-names #:fresh-package-name #:rename-package-away
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   #:package-definition-form #:parse-define-package-form
   #:ensure-package #:define-package))

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(in-package :uiop/package)
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;;;; General purpose package utilities
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(eval-when (:load-toplevel :compile-toplevel :execute)
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  (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;
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unlike CL:FIND-SYMBOL, work well with 'modern' case sensitive syntax
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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)))
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  (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)
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    (shadow (list (string name)) (find-package* package-designator)))
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  (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))))))))

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(eval-when (:load-toplevel :compile-toplevel :execute)
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  (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)))))))
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(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)
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    (push info *all-package-fishiness*))
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  (defmacro when-package-fishiness (&body body)
    `(when *all-package-fishiness* ,@body))
  (defmacro note-package-fishiness (&rest info)
    `(when-package-fishiness (record-fishy (list ,@info)))))
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(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)
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              (shadowing-import* (get-dummy-symbol symbol) package)
              (unintern* symbol package))))))
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  (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
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             :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)
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            (when old-package
              (if shadowing
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                  (shadowing-import* shadowing old-package))
              (unintern* symbol old-package))
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            (cond
              (overwritten-symbol-shadowing-p
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               (shadowing-import* symbol package))
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              (t
               (when overwritten-symbol-status
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                 (unintern* overwritten-symbol package))
               (import* symbol package)))
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            (if shadowing
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                (shadowing-import* symbol old-package)
                (import* symbol old-package))
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            #+(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)
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                    (unintern* setf-symbol (symbol-package setf-symbol)))
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                  (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
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(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)
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                   (sort (copy-list names) #'string<))
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                 (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)
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  (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)))))
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           (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))
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  (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))
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        (setf import-me (intern* name from-package)))
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      (multiple-value-bind (existing status) (find-symbol name to-package)
        (cond
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          ((and imported (gethash name imported))
           (unless (and status (eq import-me existing))
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             (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
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           (setf (gethash name imported) t))))
      (ensure-imported import-me to-package from-package)))
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  (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)
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          (import* symbol from-package)
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          (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)))))))
534

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  (defun recycle-symbol (name recycle exported)
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    ;; 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.
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    (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)
559
    (and (member (symbol-package sym) recycle) t))
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  (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))))))))
587
  (declaim (ftype (function (t t t &optional t) t) ensure-exported))
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  (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)
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    (assert (equal name (symbol-name symbol)))
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    (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)
607
                            (shadowing-import* symbol to-package)
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                            (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))
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    (unless (eq from-package (symbol-package symbol))
      (ensure-imported symbol from-package))
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    (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))))
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  (defun ensure-package (name &key
                                nicknames documentation use
                                shadow shadowing-import-from
                                import-from export intern
                                recycle mix reexport
                                unintern)
628
    #+genera (declare (ignore documentation))
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    (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))
650
      #-genera
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      (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)
698 699 700
                   (shadowing-import* dummy package)
                   (import* dummy package)))))))
        (shadow* name package))
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      (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)))
722

723 724 725 726 727 728 729
(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
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      :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
735
      :when (eq kw :use) :append args :into use :and :do (setf use-p t) :else
736 737 738 739 740 741 742 743 744 745 746 747 748 749
      :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)
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      :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)
759
  "DEFINE-PACKAGE takes a PACKAGE and a number of CLAUSES, of the form
760 761 762 763 764 765 766 767 768 769 770 771 772
\(KEYWORD . ARGS\).
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.
773
MIX -- Takes a list of package designators.  MIX behaves like
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\(:USE PKG1 PKG2 ... PKGn\) but additionally uses :SHADOWING-IMPORT-FROM to
resolve conflicts in favor of the first found symbol.  It may still yield
776
an error if there is a conflict with an explicitly :IMPORT-FROM symbol.
777 778 779 780
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."
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  (let ((ensure-form
          `(apply 'ensure-package ',(parse-define-package-form package clauses))))
    `(progn
784
       #+(or clasp ecl gcl mkcl) (defpackage ,package (:use))
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       (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.

795
(uiop/package:define-package :uiop/common-lisp
796
  (:nicknames :uoip/cl)
797 798
  (:use :uiop/package)
  (:use-reexport #-genera :common-lisp #+genera :future-common-lisp)
799
  #+allegro (:intern #:*acl-warn-save*)
800
  #+cormanlisp (:shadow #:user-homedir-pathname)
801 802 803 804 805
  #+cormanlisp
  (:export
   #:logical-pathname #:translate-logical-pathname
   #:make-broadcast-stream #:file-namestring)
  #+genera (:shadowing-import-from :scl #:boolean)
806
  #+genera (:export #:boolean #:ensure-directories-exist #:read-sequence #:write-sequence)
807
  #+(or mcl cmucl) (:shadow #:user-homedir-pathname))
808
(in-package :uiop/common-lisp)
809

810
#-(or abcl allegro clasp clisp clozure cmucl cormanlisp ecl gcl genera lispworks mcl mkcl sbcl scl xcl)
811
(error "ASDF is not supported on your implementation. Please help us port it.")
812

813
;; (declaim (optimize (speed 1) (debug 3) (safety 3))) ; DON'T: trust implementation defaults.
814 815


816 817
;;;; Early meta-level tweaks

818
#+(or allegro clasp clisp clozure cmucl ecl mkcl sbcl)
819
(eval-when (:load-toplevel :compile-toplevel :execute)
820
  (when (and #+allegro (member :ics *features*)
821
             #+(or clasp clisp cmucl ecl mkcl) (member :unicode *features*)
822
             #+clozure (member :openmcl-unicode-strings *features*)
823
             #+sbcl (member :sb-unicode *features*))
824 825
    ;; 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.
826
    (pushnew :asdf-unicode *features*)))
827

828
#+allegro
829
(eval-when (:load-toplevel :compile-toplevel :execute)
830 831 832 833 834 835
  ;; 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))
836
  (defparameter *acl-warn-save*
837 838
    (when (boundp 'excl:*warn-on-nested-reader-conditionals*)
      excl:*warn-on-nested-reader-conditionals*))
839
  (when (boundp 'excl:*warn-on-nested-reader-conditionals*)
840 841
    (setf excl:*warn-on-nested-reader-conditionals* nil))
  (setf *print-readably* nil))
842

843 844 845 846 847
#+clasp
(eval-when (:load-toplevel :compile-toplevel :execute)
  (setf *load-verbose* nil)
  (defun use-ecl-byte-compiler-p () nil))

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#+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))))))
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#+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)))))
866

867
#+cormanlisp
868
(eval-when (:load-toplevel :compile-toplevel :execute)
869
  (deftype logical-pathname () nil)
870
  (defun make-broadcast-stream () *error-output*)
871
  (defun translate-logical-pathname (x) x)
872 873 874
  (defun user-homedir-pathname (&optional host)
    (declare (ignore host))
    (parse-namestring (format nil "~A\\" (cl:user-homedir-pathname))))
875
  (defun file-namestring (p)
876
    (setf p (pathname p))
877
    (format nil "~@[~A~]~@[.~A~]" (pathname-name p) (pathname-type p))))
878

879
#+ecl
880 881 882 883 884
(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)))

885
#+gcl
886 887 888 889
(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 "")
890 891 892 893 894 895 896 897 898 899
        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))
900 901

#+genera
902
(eval-when (:load-toplevel :compile-toplevel :execute)
903 904 905 906
  (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))))
907 908
  (unless (fboundp 'ensure-directories-exist)
    (defun ensure-directories-exist (path)
909 910 911 912 913 914 915 916
      (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)))
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918 919 920 921 922 923 924 925 926 927 928
#+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*)))))

929
#.(or #+mcl ;; the #$ doesn't work on other lisps, even protected by #+mcl, so we use this trick
930
      (read-from-string
931
       "(eval-when (:load-toplevel :compile-toplevel :execute)
932 933 934 935 936 937
          (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
938
          (defun user-homedir-pathname ()
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            (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))))))"))

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#+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


954
;;;; Looping
955 956 957 958
(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.
959

960 961

;;;; compatfmt: avoid fancy format directives when unsupported
962
(eval-when (:load-toplevel :compile-toplevel :execute)
963
  (defun frob-substrings (string substrings &optional frob)
964 965 966 967 968 969
    "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."
970
    (declare (optimize (speed 0) (safety #-gcl 3 #+gcl 0) (debug 3)))
971
    (let ((length (length string)) (stream nil))
972
      (labels ((emit-string (x &optional (start 0) (end (length x)))
973 974
                 (when (< start end)
                   (unless stream (setf stream (make-string-output-stream)))
975 976 977 978 979
                   (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))
980 981
               (recurse (substrings start end)
                 (cond
982
                   ((>= start end))
983 984 985 986
                   ((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))
987
                             (found (search sub string :start2 start :end2 end))
988 989 990 991
                             (more (rest substrings)))
                        (cond
                          (found
                           (recurse more start found)
992 993 994 995
                           (etypecase fun
                             (null)
                             (string (emit-string fun))
                             (function (funcall fun sub #'emit-string)))
996
                           (recurse substrings (+ found (length sub)) end))
997 998 999
                          (t
                           (recurse more start end))))))))
        (recurse substrings 0 length))
1000
      (if stream (get-output-stream-string stream) "")))
1001

1002 1003
  (defmacro compatfmt (format)
    #+(or gcl genera)
1004
    (frob-substrings format `("~3i~_" #+genera ,@'("~@<" "~@;" "~@:>" "~:>")))
1005
    #-(or gcl genera) format))
1006
;;;; -------------------------------------------------------------------------
1007 1008
;;;; General Purpose Utilities for ASDF

1009 1010
(uiop/package:define-package :uiop/utility
  (:use :uiop/common-lisp :uiop/package)
1011
  ;; import and reexport a few things defined in :uiop/common-lisp
1012
  (:import-from :uiop/common-lisp #:compatfmt #:loop* #:frob-substrings
1013
   #+(or clasp ecl) #:use-ecl-byte-compiler-p #+mcl #:probe-posix)
1014
  (:export #:compatfmt #:loop* #:frob-substrings #:compatfmt
1015
   #+(or clasp ecl) #:use-ecl-byte-compiler-p #+mcl #:probe-posix)
1016 1017
  (:export
   ;; magic helper to define debugging functions:
1018
   #:uiop-debug #:load-uiop-debug-utility #:*uiop-debug-utility*
1019
   #:with-upgradability ;; (un)defining functions in an upgrade-friendly way
1020
   #:defun* #:defgeneric*
1021
   #:nest #:if-let ;; basic flow control
1022
   #:parse-body ;; macro definition helper
1023 1024
   #:while-collecting #:appendf #:length=n-p #:ensure-list ;; lists
   #:remove-plist-keys #:remove-plist-key ;; plists
1025
   #:emptyp ;; sequences
1026
   #:+non-base-chars-exist-p+ ;; characters
1027
   #:+max-character-type-index+ #:character-type-index #:+character-types+
1028
   #:base-string-p #:strings-common-element-type #:reduce/strcat #:strcat ;; strings
1029
   #:first-char #:last-char #:split-string #:stripln #:+cr+ #:+lf+ #:+crlf+
1030
   #:string-prefix-p #:string-enclosed-p #:string-suffix-p
1031
   #:standard-case-symbol-name #:find-standard-case-symbol ;; symbols
1032
   #:coerce-class ;; CLOS
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   #:stamp< #:stamps< #:stamp*< #:stamp<= ;; stamps
   #:earlier-stamp #:stamps-earliest #:earliest-stamp
   #:later-stamp #:stamps-latest #:latest-stamp #:latest-stamp-f
1036
   #:list-to-hash-set #:ensure-gethash ;; hash-table
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   #:ensure-function #:access-at #:access-at-count ;; functions
   #:call-function #:call-functions #:register-hook-function
1039
   #:lexicographic< #:lexicographic<= ;; version
1040
   #:simple-style-warning #:style-warn ;; simple style warnings
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   #:match-condition-p #:match-any-condition-p ;; conditions
   #:call-with-muffled-conditions #:with-muffled-conditions
1043
   #:not-implemented-error #:parameter-error))
1044
(in-package :uiop/utility)
1045 1046 1047 1048 1049 1050 1051

;;;; 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)
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  (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,
1062
                 ;; which happens in asdf/upgrade - however, for ECL, we need this hammer.
1063 1064
                 ,@(when supersede
                     `((fmakunbound ',name)))
1065
                 ,@(when (and #+(or clasp ecl) (symbolp name)) ; fails for setf functions on ecl
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                     `((declaim (notinline ,name))))
                 (,',def ,name ,formals ,@rest))))))
    (defdef defgeneric* defgeneric)
    (defdef defun* defun))
  (defmacro with-upgradability ((&optional) &body body)
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    "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."
1076 1077 1078 1079 1080 1081
    `(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))
1082
                       ((defgeneric) `(defgeneric* ,@cdr))
1083 1084
                       (otherwise form)))
                   form)))))
1085 1086

;;; Magic debugging help. See contrib/debug.lisp
1087
(with-upgradability ()
1088
  (defvar *uiop-debug-utility*
1089
    '(or (ignore-errors
1090
          (symbol-call :asdf :system-relative-pathname :uiop "contrib/debug.lisp"))
1091
      (symbol-call :uiop/pathname :subpathname (user-homedir-pathname) "common-lisp/asdf/uiop/contrib/debug.lisp"))
1092 1093
    "form that evaluates to the pathname to your favorite debugging utilities")

1094
  (defmacro uiop-debug (&rest keys)
1095
    `(eval-when (:compile-toplevel :load-toplevel :execute)
1096
       (load-uiop-debug-utility ,@keys)))
1097

1098
  (defun load-uiop-debug-utility (&key package utility-file)
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    (let* ((*package* (if package (find-package package) *package*))
           (keyword (read-from-string
                     (format nil ":DBG-~:@(~A~)" (package-name *package*)))))
      (unless (member keyword *features*)
1103
        (let* ((utility-file (or utility-file *uiop-debug-utility*))
1104 1105 1106
               (file (ignore-errors (probe-file (eval utility-file)))))
          (if file (load file)
              (error "Failed to locate debug utility file: ~S" utility-file)))))))
1107 1108

;;; Flow control
1109
(with-upgradability ()
1110 1111 1112 1113 1114
  (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))

1115 1116 1117 1118 1119 1120 1121 1122 1123 1124
  (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)))))
1125

1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149
;;; Macro definition helper
(with-upgradability ()
  (defun parse-body (body &key documentation whole) ;; from alexandria
    "Parses BODY into (values remaining-forms declarations doc-string).
Documentation strings are recognized only if DOCUMENTATION is true.
Syntax errors in body are signalled and WHOLE is used in the signal
arguments when given."
    (let ((doc nil)
          (decls nil)
          (current nil))
      (tagbody
       :declarations
         (setf current (car body))
         (when (and documentation (stringp current) (cdr body))
           (if doc
               (error "Too many documentation strings in ~S." (or whole body))
               (setf doc (pop body)))
           (go :declarations))
         (when (and (listp current) (eql (first current) 'declare))
           (push (pop body) decls)
           (go :declarations)))
      (values body (nreverse decls) doc))))


1150
;;; List manipulation
1151 1152 1153
(with-upgradability ()
  (defmacro while-collecting ((&rest collectors) &body body)
    "COLLECTORS should be a list of names for collections.  A collector
1154 1155 1156 1157 1158 1159 1160 1161 1162
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 \(1 2 3\)."
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    (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)))
1180 1181 1182 1183 1184
          ((not (consp l)) (return nil)))))

  (defun ensure-list (x)
    (if (listp x) x (list x))))

1185

1186
;;; Remove a key from a plist, i.e. for keyword argument cleanup
1187 1188 1189 1190 1191 1192
(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)))
1193

1194 1195 1196 1197 1198
  (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))))
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;;; Sequences
1202 1203 1204 1205
(with-upgradability ()
  (defun emptyp (x)
    "Predicate that is true for an empty sequence"
    (or (null x) (and (vectorp x) (zerop (length x))))))
1206 1207


1208
;;; Characters
1209
(with-upgradability ()
1210 1211 1212
  ;; 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.
1213
  (defparameter +character-types+ ;; assuming a simple hierarchy
1214 1215 1216 1217 1218 1219
    #.(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
1220
                       #+lispworks7+ lw:bmp-char
1221 1222 1223 1224 1225 1226 1227
                       #+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*)))
1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238

(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
1239
                             (character #'(lambda (type) (typep x type)))
1240 1241 1242 1243
                             (symbol #'(lambda (type) (subtypep x type))))
               +character-types+)
           (error "Not a character or character type: ~S" x))))))

1244

1245
;;; Strings
1246
(with-upgradability ()
1247
  (defun base-string-p (string)
1248
    "Does the STRING only contain BASE-CHARs?"
1249 1250 1251 1252
    (declare (ignorable string))
    (and #+non-base-chars-exist-p (eq 'base-char (array-element-type string))))

  (defun strings-common-element-type (strings)
1253
    "What least subtype of CHARACTER can contain all the elements of all the STRINGS?"
1254
    (declare (ignorable strings))
1255 1256 1257
    #.(if +non-base-chars-exist-p+
          `(aref +character-types+
            (loop :with index = 0 :for s :in strings :do
1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271
              (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))))
1272 1273
                  :finally (return index)))
          ''character))
1274 1275 1276 1277 1278 1279

  (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)))
1280 1281
    (loop :with output = (make-string (loop :for s :in strings
                                            :sum (if (characterp s) 1 (length s)))
1282 1283 1284 1285 1286 1287 1288 1289 1290
                                      :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)))

1291
  (defun strcat (&rest strings)
1292 1293
    "Concatenate strings.
NIL is interpreted as an empty string, a character as a string of length one."
1294
    (reduce/strcat strings))
1295

1296
  (defun first-char (s)
1297
    "Return the first character of a non-empty string S, or NIL"
1298
    (and (stringp s) (plusp (length s)) (char s 0)))
1299

1300
  (defun last-char (s)
1301
    "Return the last character of a non-empty string S, or NIL"
1302
    (and (stringp s) (plusp (length s)) (char s (1- (length s)))))
1303

1304 1305
  (defun split-string (string &key max (separator '(#\Space #\Tab)))
    "Split STRING into a list of components separated by
1306 1307 1308 1309
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\")."
1310 1311
    (block ()
      (let ((list nil) (words 0) (end (length string)))
1312
        (when (zerop end) (return nil))
1313 1314 1315 1316 1317
        (flet ((separatorp (char) (find char separator))
               (done () (return (cons (subseq string 0 end) list))))
          (loop
            :for start = (if (and max (>= words (1- max)))
                             (done)
1318 1319 1320 1321 1322
                             (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))))))
1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342

  (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)
1343
         (string-suffix-p string suffix)))