Mercurial > hg > xemacs-beta
view tests/automated/symbol-tests.el @ 4995:8431b52e43b1
Move the various map* functions to C; add #'map-into.
src/ChangeLog addition:
2010-01-31 Aidan Kehoe <kehoea@parhasard.net>
Move #'mapcar*, #'mapcan, #'mapc, #'map, #'mapl, #'mapcon to C;
extend #'mapvector, #'mapconcat, #'mapcar to support more
SEQUENCES; have them all error with circular lists.
* fns.c (Fsubseq): Call CHECK_SEQUENCE here; Flength can return
from the debugger if it errors with a non-sequence, leading to a
crash in Fsubseq if sequence really is *not* a sequence.
(mapcarX): Rename mapcar1 to mapcarX; rework it comprehensively to
take an optional lisp output argument, and a varying number of
sequences.
Special-case a single list argument, as we used to, saving its
elements in the stack space for the results before calling
FUNCTION, so FUNCTION can corrupt the list all it
wants. dead_wrong_type_argument() in the other cases if we
encounter a non-cons where we expected a cons.
(Fmapconcat):
Accept further SEQUENCES after separator here. Special-case
the idiom (mapconcat 'identity SEQUENCE), don't even funcall.
(FmapcarX): Rename this from Fmapcar. Accept optional SEQUENCES.
(Fmapvector): Accept optional SEQUENCES.
(Fmapcan, Fmapc, Fmap): Move these here from cl-extra.el.
(Fmap_into): New function, as specified by Common Lisp.
(maplist): New function, the guts of the implementation of
Fmaplist and Fmapl.
(Fmaplist, Fmapl, Fmapcon): Move these from cl-extra.el.
(syms_of_fns):
Add a few needed symbols here, for the type tests
used by #'map. Add the new subrs, with aliases for #'mapc-internal
and #'mapcar.
* general-slots.h: Declare Qcoerce here, now it's used in both
indent.c and fns.c
* indent.c (syms_of_indent): Qcoerce is gone from here.
* lisp.h: Add ARRAYP(), SEQUENCEP(), and the corresponding CHECK_*
macros. Declare Fbit_vector, Fstring, FmapcarX, now other files
need to use them.
* data.c (Farrayp, Fsequencep): Use ARRAYP and SEQUENCEP, just
added to lisp.h
* buffer.c (Fbuffer_list): Now Fmapcar has been renamed FmapcarX
and takes MANY arguments, update this function to reflect that.
lisp/ChangeLog addition:
2010-01-31 Aidan Kehoe <kehoea@parhasard.net>
* cl.el (mapcar*): Delete; this is now in fns.c.
Use #'mapc, not #'mapc-internal in a couple of places.
* cl-macs.el (mapc, mapcar*, map): Delete these compiler macros
now the corresponding functions are in fns.c; there's no run-time
advantage to the macros.
* cl-extra.el (coerce): Extend the possible conversions here a
little; it's not remotely comprehensive yet, though it does allow
running slightly more Common Lisp code than previously.
(cl-mapcar-many): Delete.
(map, maplist, mapc, mapl, mapcan, mapcon): Move these to fns.c.
* bytecomp.el (byte-compile-maybe-mapc):
Use #'mapc itself, not #'mapc-internal, now the former is in C.
(mapcar*): Use #'byte-compile-maybe-mapc as this function's
byte-compile method, now a #'mapc that can take more than one
sequence is in C.
* obsolete.el (cl-mapc): Move this compatibility alias to this file.
* update-elc.el (do-autoload-commands): Use #'mapc, not
#'mapc-internal here.
| author | Aidan Kehoe <kehoea@parhasard.net> |
|---|---|
| date | Sun, 31 Jan 2010 18:29:48 +0000 |
| parents | 189fb67ca31a |
| children | 0f66906b6e37 |
line wrap: on
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;; Copyright (C) 1999 Free Software Foundation, Inc. ;; Author: Hrvoje Niksic <hniksic@xemacs.org> ;; Maintainer: Hrvoje Niksic <hniksic@xemacs.org> ;; Created: 1999 ;; Keywords: tests ;; This file is part of XEmacs. ;; XEmacs is free software; you can redistribute it and/or modify it ;; under the terms of the GNU General Public License as published by ;; the Free Software Foundation; either version 2, or (at your option) ;; any later version. ;; XEmacs is distributed in the hope that it will be useful, but ;; WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ;; General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with XEmacs; see the file COPYING. If not, write to the Free ;; Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ;; 02111-1307, USA. ;;; Synched up with: Not in FSF. ;;; Commentary: ;; Test symbols operations. ;; See test-harness.el for instructions on how to run these tests. (eval-when-compile (condition-case nil (require 'test-harness) (file-error (push "." load-path) (when (and (boundp 'load-file-name) (stringp load-file-name)) (push (file-name-directory load-file-name) load-path)) (require 'test-harness)))) (defun ts-fresh-symbol-name (name) "Return a variant of NAME (a string) that is not interned." (when (intern-soft name) (let ((count 1) (orig name)) (while (progn (setq name (format "%s-%d" orig count)) (intern-soft name)) (incf count)))) name) ;;----------------------------------------------------- ;; Creating, reading, and printing symbols ;;----------------------------------------------------- (dolist (name '("foo" "bar" "" "something with space in it" "a string with \0 in the middle." "100" "10.0" "#<>[]]]];'\\';" "!@#$%^^&*(()__")) (let ((interned (intern name)) (uninterned (make-symbol name))) (Assert (symbolp interned)) (Assert (symbolp uninterned)) (Assert-equal (symbol-name interned) name) (Assert-equal (symbol-name uninterned) name) (Assert (not (eq interned uninterned))) (Assert (not (equal interned uninterned))))) (flet ((check-weak-list-unique (weak-list &optional reversep) "Check that elements of WEAK-LIST are referenced only there." (let ((len (length (weak-list-list weak-list)))) (if (string-match "Using the new GC algorithms." Installation-string) (Implementation-Incomplete-Expect-Failure (Assert (not (zerop len))) (garbage-collect) (Assert-eq (length (weak-list-list weak-list)) (if (not reversep) 0 len))) (Assert (not (zerop len))) (garbage-collect) (Assert-eq (length (weak-list-list weak-list)) (if (not reversep) 0 len)))))) (let ((weak-list (make-weak-list)) (gc-cons-threshold most-positive-fixnum)) ;; Symbols created with `make-symbol' and `gensym' should be fresh ;; and not referenced anywhere else. We check that no other ;; references are available using a weak list. (eval ;; This statement must not be run byte-compiled, or the values ;; remain referenced on the bytecode interpreter stack. '(set-weak-list-list weak-list (list (make-symbol "foo") (gensym "foo")))) (check-weak-list-unique weak-list) ;; Equivalent test for `intern' and `gentemp'. (eval '(set-weak-list-list weak-list (list (intern (ts-fresh-symbol-name "foo")) (gentemp (ts-fresh-symbol-name "bar"))))) (check-weak-list-unique weak-list 'not))) (Assert (not (intern-soft (make-symbol "foo")))) (Assert (not (intern-soft (gensym "foo")))) (Assert (intern-soft (intern (ts-fresh-symbol-name "foo")))) (Assert (intern-soft (gentemp (ts-fresh-symbol-name "bar")))) ;; Reading a symbol should intern it automatically, unless the symbol ;; is marked specially. (dolist (string (mapcar #'ts-fresh-symbol-name '("foo" "bar" "\\\0\\\1"))) (setq symbol (read string) string (read (concat "\"" string "\""))) (Assert (intern-soft string)) (Assert (intern-soft symbol)) (Assert-eq (intern-soft string) (intern-soft symbol))) (let ((fresh (read (concat "#:" (ts-fresh-symbol-name "foo"))))) (Assert (not (intern-soft fresh)))) ;; Check #N=OBJECT and #N# read syntax. (let* ((list (read "(#1=#:foo #1# #2=#:bar #2# #1# #2#)")) (foo (nth 0 list)) (foo2 (nth 1 list)) (bar (nth 2 list)) (bar2 (nth 3 list)) (foo3 (nth 4 list)) (bar3 (nth 5 list))) (Assert (symbolp foo)) (Assert (not (intern-soft foo))) (Assert-equal (symbol-name foo) "foo") (Assert (symbolp bar)) (Assert (not (intern-soft bar))) (Assert-equal (symbol-name bar) "bar") (Assert-eq foo foo2) (Assert-eq foo2 foo3) (Assert-eq bar bar2) (Assert-eq bar2 bar3)) ;; Check #N=OBJECT and #N# print syntax. (let* ((foo (make-symbol "foo")) (bar (make-symbol "bar")) (list (list foo foo bar bar foo bar))) (let* ((print-gensym nil) (printed-list (prin1-to-string list))) (Assert-equal printed-list "(foo foo bar bar foo bar)")) (let* ((print-gensym t) (printed-list (prin1-to-string list))) (Assert-equal printed-list "(#1=#:foo #1# #2=#:bar #2# #1# #2#)"))) ;;----------------------------------------------------- ;; Read-only symbols ;;----------------------------------------------------- (Check-Error setting-constant (set nil nil)) (Check-Error setting-constant (set t nil)) ;;----------------------------------------------------- ;; Variable indirections ;;----------------------------------------------------- (let ((foo 0) (bar 1)) (defvaralias 'foo 'bar) (Assert-eq foo bar) (Assert-eq foo 1) (Assert-eq (variable-alias 'foo) 'bar) (defvaralias 'bar 'foo) (Check-Error cyclic-variable-indirection (symbol-value 'foo)) (Check-Error cyclic-variable-indirection (symbol-value 'bar)) (defvaralias 'foo nil) (Assert-eq foo 0) (defvaralias 'bar nil) (Assert-eq bar 1)) ;;----------------------------------------------------- ;; Keywords ;;----------------------------------------------------- ;;; Reading keywords ;; In Elisp, a keyword is by definition a symbol beginning with `:' ;; that is interned in the global obarray. ;; In Elisp, a keyword is interned as any other symbol. (Assert-eq (read ":foo") (intern ":foo")) ;; A keyword is self-quoting and evaluates to itself. (Assert-eq (eval (intern ":foo")) :foo) ;; Keywords are recognized as such only if interned in the global ;; obarray, and `keywordp' is aware of that. (Assert (keywordp :foo)) (Assert (not (keywordp (intern ":foo" [0])))) ;; Keywords used to be initialized at read-time, which resulted in ;; (symbol-value (intern ":some-new-keyword")) signaling an error. ;; Now we handle keywords at the time when the symbol is interned, so ;; that (intern ":something) and (read ":something) will be ;; equivalent. These tests check various operations on symbols that ;; are guaranteed to be freshly interned. ;; Interning a fresh keyword string should produce a regular ;; keyword. (let* ((fresh-keyword-name (ts-fresh-symbol-name ":foo")) (fresh-keyword (intern fresh-keyword-name))) (Assert-eq (symbol-value fresh-keyword) fresh-keyword) (Assert (keywordp fresh-keyword))) ;; Likewise, reading a fresh keyword string should produce a regular ;; keyword. (let* ((fresh-keyword-name (ts-fresh-symbol-name ":foo")) (fresh-keyword (read fresh-keyword-name))) (Assert-eq (symbol-value fresh-keyword) fresh-keyword) (Assert (keywordp fresh-keyword))) ;;; Assigning to keywords ;; You shouldn't be able to set its value to something bogus. (Check-Error setting-constant (set :foo 5)) ;; But, for backward compatibility, setting to the same value is OK. (Assert (eq (set :foo :foo) :foo)) ;; Playing games with `intern' shouldn't fool us. (Check-Error setting-constant (set (intern ":foo" obarray) 5)) (Assert (eq (set (intern ":foo" obarray) :foo) :foo)) ;; But symbols not interned in the global obarray are not real ;; keywords (in elisp): (Assert-eq (set (intern ":foo" [0]) 5) 5) ;;; Printing keywords (let ((print-gensym t)) (Assert-equal (prin1-to-string :foo) ":foo") (Assert-equal (prin1-to-string (intern ":foo")) ":foo") (Assert-equal (prin1-to-string (intern ":foo" [0])) "#::foo")) (let ((print-gensym nil)) (Assert-equal (prin1-to-string :foo) ":foo") (Assert-equal (prin1-to-string (intern ":foo")) ":foo") (Assert-equal (prin1-to-string (intern ":foo" [0])) ":foo")) ;; #### Add many more tests for printing and reading symbols, as well ;; as print-gensym and print-gensym-alist! ;;----------------------------------------------------- ;; Magic symbols ;;----------------------------------------------------- ;; Magic symbols are only half implemented. However, a subset of the ;; functionality is being used to implement backward compatibility or ;; clearer error messages for new features such as specifiers and ;; glyphs. These tests try to test that working subset. (let ((mysym (make-symbol "test-symbol")) save) (dontusethis-set-symbol-value-handler mysym 'set-value (lambda (&rest args) (throw 'test-tag args))) (Assert (not (boundp mysym))) (Assert-equal (catch 'test-tag (set mysym 'foo)) `(,mysym (foo) set nil nil)) (Assert (not (boundp mysym))) (dontusethis-set-symbol-value-handler mysym 'set-value (lambda (&rest args) (setq save (nth 1 args)))) (set mysym 'foo) (Assert-equal save '(foo)) (Assert-eq (symbol-value mysym) 'foo) ) (let ((mysym (make-symbol "test-symbol")) save) (dontusethis-set-symbol-value-handler mysym 'make-unbound (lambda (&rest args) (throw 'test-tag args))) (Assert-equal (catch 'test-tag (makunbound mysym)) `(,mysym nil makunbound nil nil)) (dontusethis-set-symbol-value-handler mysym 'make-unbound (lambda (&rest args) (setq save (nth 2 args)))) (Assert (not (boundp mysym))) (set mysym 'bar) (Assert (null save)) (Assert-eq (symbol-value mysym) 'bar) (makunbound mysym) (Assert (not (boundp mysym))) (Assert-eq save 'makunbound) ) ;; pathname-coding-system is no more. ; (when (featurep 'file-coding) ; (Assert-eq pathname-coding-system file-name-coding-system) ; (let ((val1 file-name-coding-system) ; (val2 pathname-coding-system)) ; (Assert-eq val1 val2) ; (let ((file-name-coding-system 'no-conversion-dos)) ; (Assert-eq file-name-coding-system 'no-conversion-dos) ; (Assert-eq pathname-coding-system file-name-coding-system)) ; (let ((pathname-coding-system 'no-conversion-mac)) ; (Assert-eq file-name-coding-system 'no-conversion-mac) ; (Assert-eq pathname-coding-system file-name-coding-system)) ; (Assert-eq file-name-coding-system pathname-coding-system) ; (Assert-eq val1 file-name-coding-system)) ; (Assert-eq pathname-coding-system file-name-coding-system)) ;(let ((mysym (make-symbol "test-symbol"))) ; (dontusethis-set-symbol-value-handler ; mysym ; 'make-local ; (lambda (&rest args) ; (throw 'test-tag args))) ; (Assert (equal (catch 'test-tag ; (set mysym 'foo)) ; `(,mysym (foo) make-local nil nil)))) ;; ---------------------------------------------------------------- ;; Symbol documentation ;; ---------------------------------------------------------------- ;; built-in variable documentation (Assert (string= (built-in-symbol-file 'internal-doc-file-name) "doc.c")) ;; built-in function documentation (Assert (string= (built-in-symbol-file 'built-in-symbol-file) "doc.c")) ;; built-in macro documentation (Assert (string= (built-in-symbol-file 'when) "eval.c")) ;; #### we should handle symbols defined in Lisp, dumped, autoloaded, ;; and required, too.