Mercurial > hg > xemacs-beta
view tests/automated/byte-compiler-tests.el @ 5038:9410323e4b0d
major dynarr fixes
-------------------- ChangeLog entries follow: --------------------
src/ChangeLog addition:
2010-02-20 Ben Wing <ben@xemacs.org>
* device-x.c (Fx_get_resource):
* dynarr.c:
* dynarr.c (Dynarr_realloc):
* dynarr.c (Dynarr_newf):
* dynarr.c (Dynarr_lisp_realloc):
* dynarr.c (Dynarr_lisp_newf):
* dynarr.c (Dynarr_resize):
* dynarr.c (Dynarr_insert_many):
* dynarr.c (Dynarr_delete_many):
* dynarr.c (Dynarr_memory_usage):
* dynarr.c (stack_like_free):
* file-coding.c (coding_reader):
* file-coding.c (gzip_convert):
* gutter.c (output_gutter):
* lisp.h:
* lisp.h (Dynarr_declare):
* lisp.h (DYNARR_SET_LISP_IMP):
* lisp.h (CHECK_NATNUM):
* profile.c (create_timing_profile_table):
* redisplay-output.c (sync_rune_structs):
* redisplay-output.c (sync_display_line_structs):
* redisplay-output.c (redisplay_output_window):
* redisplay.c:
* redisplay.c (get_display_block_from_line):
* redisplay.c (add_ichar_rune_1):
* redisplay.c (ensure_modeline_generated):
* redisplay.c (generate_displayable_area):
* redisplay.c (regenerate_window):
* redisplay.c (update_line_start_cache):
* signal.c:
* signal.c (check_quit):
Lots of rewriting of dynarr code.
(1) Lots of documentation added. Also fix places that
referenced a now-bogus internals node concerning redisplay
critical sections.
(2) Rename:
Dynarr_add_lisp_string -> Dynarr_add_ext_lisp_string
Dynarr_set_length -> Dynarr_set_lengthr ("restricted")
Dynarr_increment -> Dynarr_incrementr
Dynarr_resize_if -> Dynarr_resize_to_add
(3) New functions:
Dynarr_elsize = dy->elsize_
Dynarr_set_length(): Set length, resizing as necessary
Dynarr_set_length_and_zero(): Set length, resizing as necessary,
zeroing out new elements
Dynarr_increase_length(), Dynarr_increase_length_and_zero():
Optimization of Dynarr_set_length(), Dynarr_set_length_and_zero()
when size is known to increase
Dynarr_resize_to_fit(): Resize as necessary to fit a given length.
Dynarr_set(): Set element at a given position, increasing length
as necessary and setting any newly created positions to 0
(4) Use Elemcount, Bytecount.
(5) Rewrite many macros as inline functions.
| author | Ben Wing <ben@xemacs.org> |
|---|---|
| date | Sat, 20 Feb 2010 03:46:22 -0600 |
| parents | 189fb67ca31a |
| children | 0f66906b6e37 |
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;; Copyright (C) 1998 Free Software Foundation, Inc. ;; Author: Martin Buchholz <martin@xemacs.org> ;; Maintainer: Martin Buchholz <martin@xemacs.org> ;; Created: 1998 ;; 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 byte-compiler functionality ;;; See test-harness.el (condition-case err (require 'test-harness) (file-error (when (and (boundp 'load-file-name) (stringp load-file-name)) (push (file-name-directory load-file-name) load-path) (require 'test-harness)))) (require 'bytecomp) ;; test constant symbol warnings (defmacro check-byte-compiler-message (message-regexp &rest body) `(Check-Message ,message-regexp (byte-compile '(lambda () ,@body)))) (check-byte-compiler-message "Attempt to set non-symbol" (setq 1 1)) (check-byte-compiler-message "Attempt to set constant symbol" (setq t 1)) (check-byte-compiler-message "Attempt to set constant symbol" (setq nil 1)) (check-byte-compiler-message "^$" (defconst :foo 1)) (check-byte-compiler-message "Attempt to let-bind non-symbol" (let ((1 'x)) 1)) (check-byte-compiler-message "Attempt to let-bind constant symbol" (let ((t 'x)) (foo))) (check-byte-compiler-message "Attempt to let-bind constant symbol" (let ((nil 'x)) (foo))) (check-byte-compiler-message "Attempt to let-bind constant symbol" (let ((:foo 'x)) (foo))) (check-byte-compiler-message "bound but not referenced" (let ((foo 'x)) 1)) (Assert (not (boundp 'free-variable))) (Assert (boundp 'byte-compile-warnings)) (check-byte-compiler-message "assignment to free variable" (setq free-variable 1)) (check-byte-compiler-message "reference to free variable" (car free-variable)) (check-byte-compiler-message "called with 2 args, but requires 1" (car 'x 'y)) (check-byte-compiler-message "^$" (setq :foo 1)) (let ((fun '(lambda () (setq :foo 1)))) (fset 'test-byte-compiler-fun fun)) (Check-Error setting-constant (test-byte-compiler-fun)) (byte-compile 'test-byte-compiler-fun) (Check-Error setting-constant (test-byte-compiler-fun)) (eval-when-compile (defvar setq-test-foo nil) (defvar setq-test-bar nil)) (progn (check-byte-compiler-message "set called with 1 arg, but requires 2" (setq setq-test-foo)) (check-byte-compiler-message "set called with 1 arg, but requires 2" (setq setq-test-foo 1 setq-test-bar)) (check-byte-compiler-message "set-default called with 1 arg, but requires 2" (setq-default setq-test-foo)) (check-byte-compiler-message "set-default called with 1 arg, but requires 2" (setq-default setq-test-foo 1 setq-test-bar)) ) ;;----------------------------------------------------- ;; let, let* ;;----------------------------------------------------- ;; Test interpreted and compiled lisp separately here (check-byte-compiler-message "malformed let binding" (let ((x 1 2)) 3)) (check-byte-compiler-message "malformed let binding" (let* ((x 1 2)) 3)) (Check-Error-Message error "`let' bindings can have only one value-form" (eval '(let ((x 1 2)) 3))) (Check-Error-Message error "`let' bindings can have only one value-form" (eval '(let* ((x 1 2)) 3))) (defmacro before-and-after-compile-equal (&rest form) `(Assert-equal (funcall (quote (lambda () ,@form))) (funcall (byte-compile (quote (lambda () ,@form)))))) (defvar simplyamarker (point-min-marker)) ;; The byte optimizer must be careful with +/- with a single argument. (before-and-after-compile-equal (+)) (before-and-after-compile-equal (+ 2 2)) (before-and-after-compile-equal (+ 2 1)) (before-and-after-compile-equal (+ 1 2)) ;; (+ 1) is OK. but (+1) signals an error. (before-and-after-compile-equal (+ 1)) (before-and-after-compile-equal (+ 3)) (before-and-after-compile-equal (+ simplyamarker 1)) ;; The optimization (+ m) --> m is invalid when m is a marker. ;; Currently the following test fails - controversial. ;; (before-and-after-compile-equal (+ simplyamarker)) ;; Same tests for minus. (before-and-after-compile-equal (- 2 2)) (before-and-after-compile-equal (- 2 1)) (before-and-after-compile-equal (- 1 2)) (before-and-after-compile-equal (- 1)) (before-and-after-compile-equal (- 3)) (before-and-after-compile-equal (- simplyamarker 1)) (before-and-after-compile-equal (- simplyamarker)) (before-and-after-compile-equal (let ((z 1)) (or (setq z 42)) z)) ;; byte-after-unbind-ops ;; byte-constant ;; byte-dup ;; byte-symbolp (before-and-after-compile-equal (let ((x 's)) (unwind-protect (symbolp x) (setq x 1)))) ;; byte-consp (before-and-after-compile-equal (let ((x '(a b))) (unwind-protect (consp x) (setq x 1)))) ;; byte-stringp (before-and-after-compile-equal (let ((x "a")) (unwind-protect (stringp x) (setq x 1)))) ;; byte-listp (before-and-after-compile-equal (let ((x '(a b c))) (unwind-protect (listp x) (setq x 1)))) ;; byte-numberp (before-and-after-compile-equal (let ((x 1)) (unwind-protect (numberp x) (setq x nil)))) ;; byte-integerp (before-and-after-compile-equal (let ((x 1)) (unwind-protect (integerp x) (setq x nil)))) ;; byte-equal (before-and-after-compile-equal (let ((x 'a) (y 'a)) (unwind-protect (eq x y) (setq x 'c)))) ;; byte-not (before-and-after-compile-equal (let (x) (unwind-protect (not x) (setq x t)))) ;; byte-cons (before-and-after-compile-equal (equal '(1 . 2) (let ((x 1) (y 2)) (unwind-protect (cons x y) (setq x t))))) ;; byte-list1 (before-and-after-compile-equal (equal '(1) (let ((x 1)) (unwind-protect (list x) (setq x t))))) ;; byte-list2 (before-and-after-compile-equal (equal '(1 . 2) (let ((x 1) (y 2)) (unwind-protect (list x y) (setq x t))))) ;; byte-interactive-p ;; byte-equal (before-and-after-compile-equal (let (x y) (setq x '(1 . 2)) (setq y '(1 . 2)) (unwind-protect (equal x y) (setq y '(1 . 3)))))