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fix compile problems in intl-encap* under VS6 -------------------- ChangeLog entries follow: -------------------- lib-src/ChangeLog addition: 2010-01-30 Ben Wing <ben@xemacs.org> * make-mswin-unicode.pl: Make it possible to specify an overridden prototype in cases where either Cygwin or Visual Studio has errors in their headers that can be corrected by falling back to a less qualified type (typically without const). src/ChangeLog addition: 2010-01-30 Ben Wing <ben@xemacs.org> * intl-auto-encap-win32.c: * intl-auto-encap-win32.c (qxeExtractAssociatedIcon): * intl-auto-encap-win32.c (qxeExtractIconEx): * intl-auto-encap-win32.c (qxeCreateMDIWindow): * intl-auto-encap-win32.c (qxeCreateWindowStation): * intl-auto-encap-win32.c (qxeDdeCreateStringHandle): * intl-auto-encap-win32.c (qxeAbortSystemShutdown): * intl-auto-encap-win32.c (qxeRegConnectRegistry): * intl-auto-encap-win32.c (qxeGetICMProfile): * intl-auto-encap-win32.h: Rebuild. * intl-encap-win32.c: * intl-encap-win32.c (qxeUpdateICMRegKey): Delete manual definitions of functions with former errors in Cygwin headers but no longer. Use "override" with some functions where Cygwin or VS6 accidentally omits a const declaration or includes an extra one. Use "no" on SendMessageTimeout, which has an error in the VS6 prototype (you could manually fix this with an ifdef to split the Cygwin vs. VS6 calls, if we ever actually used this function).
author Ben Wing <ben@xemacs.org>
date Sat, 30 Jan 2010 20:34:23 -0600
parents 189fb67ca31a
children 0f66906b6e37
line wrap: on
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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, database

;; 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 hash tables implementation
;;; 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))))

;; Test all combinations of make-hash-table keywords
(dolist (test '(eq eql equal))
  (dolist (size '(0 1 100))
    (dolist (rehash-size '(1.1 9.9))
      (dolist (rehash-threshold '(0.2 .9))
	(dolist (weakness '(nil key value key-or-value key-and-value))
	  (dolist (data '(() (1 2) (1 2 3 4)))
	    (let ((ht (make-hash-table
		       :test test
		       :size size
		       :rehash-size rehash-size
		       :rehash-threshold rehash-threshold
		       :weakness weakness)))
	      (Assert-equal ht (car (let ((print-readably t))
				       (read-from-string (prin1-to-string ht)))))
	      (Assert-eq test (hash-table-test ht))
	      (Assert (<= size (hash-table-size ht)))
	      (Assert-eql rehash-size (hash-table-rehash-size ht))
	      (Assert-eql rehash-threshold (hash-table-rehash-threshold ht))
	      (Assert-eq weakness (hash-table-weakness ht)))))))))

(loop for (fun weakness) in '((make-hashtable nil)
			      (make-weak-hashtable key-and-value)
			      (make-key-weak-hashtable key)
			      (make-value-weak-hashtable value))
  do (Assert-eq weakness (hash-table-weakness (funcall fun 10))))

(loop for (type weakness) in '((non-weak nil)
			       (weak key-and-value)
			       (key-weak key)
			       (value-weak value))
  do (Assert-equal (make-hash-table :type type)
		    (make-hash-table :weakness weakness)))

(Assert (not (equal (make-hash-table :weakness nil)
		    (make-hash-table :weakness t))))

(let ((ht (make-hash-table :size 20 :rehash-threshold .75 :test 'eq))
      (size 80))
  (Assert (hashtablep ht))
  (Assert (hash-table-p ht))
  (Assert-eq 'eq (hash-table-test ht))
  (Assert-eq 'non-weak (hash-table-type ht))
  (Assert-eq 'non-weak (hashtable-type ht))
  (Assert-eq 'nil (hash-table-weakness ht))
  (dotimes (j size)
    (puthash j (- j) ht)
    (Assert-eq (gethash j ht) (- j))
    (Assert= (hash-table-count ht) (1+ j))
    (Assert= (hashtable-fullness ht) (hash-table-count ht))
    (puthash j j ht)
    (Assert-eq (gethash j ht 'foo) j)
    (Assert= (hash-table-count ht) (1+ j))
    (setf (gethash j ht) (- j))
    (Assert-eq (gethash j ht) (- j))
    (Assert= (hash-table-count ht) (1+ j)))

  (clrhash ht)
  (Assert= 0 (hash-table-count ht))

  (dotimes (j size)
    (puthash j (- j) ht)
    (Assert-eq (gethash j ht) (- j))
    (Assert= (hash-table-count ht) (1+ j)))

  (let ((k-sum 0) (v-sum 0))
    (maphash #'(lambda (k v) (incf k-sum k) (incf v-sum v)) ht)
    (Assert= k-sum (/ (* size (- size 1)) 2))
    (Assert= v-sum (- k-sum)))

  (let ((count size))
    (dotimes (j size)
      (remhash j ht)
      (Assert-eq (gethash j ht) nil)
      (Assert-eq (gethash j ht 'foo) 'foo)
      (Assert= (hash-table-count ht) (decf count)))))

(let ((ht (make-hash-table :size 30 :rehash-threshold .25 :test 'equal))
      (size 70))
  (Assert (hashtablep ht))
  (Assert (hash-table-p ht))
  (Assert (>= (hash-table-size ht) (/ 30 .25)))
  (Assert-eql .25 (hash-table-rehash-threshold ht))
  (Assert-eq 'equal (hash-table-test ht))
  (Assert-eq (hash-table-test ht) (hashtable-test-function ht))
  (Assert-eq 'non-weak (hash-table-type ht))
  (dotimes (j size)
    (puthash (int-to-string j) (- j) ht)
    (Assert-eq (gethash (int-to-string j) ht) (- j))
    (Assert= (hash-table-count ht) (1+ j))
    (puthash (int-to-string j) j ht)
    (Assert-eq (gethash (int-to-string j) ht 'foo) j)
    (Assert= (hash-table-count ht) (1+ j)))

  (clrhash ht)
  (Assert= 0 (hash-table-count ht))
  (Assert-equal ht (copy-hash-table ht))

  (dotimes (j size)
    (setf (gethash (int-to-string j) ht) (- j))
    (Assert-eq (gethash (int-to-string j) ht) (- j))
    (Assert= (hash-table-count ht) (1+ j)))

  (let ((count size))
    (dotimes (j size)
      (remhash (int-to-string j) ht)
      (Assert-eq (gethash (int-to-string j) ht) nil)
      (Assert-eq (gethash (int-to-string j) ht 'foo) 'foo)
      (Assert= (hash-table-count ht) (decf count)))))

(let ((iterations 5) (one 1.0) (two 2.0))
  (flet ((check-copy
	  (ht)
	  (let ((copy-of-ht (copy-hash-table ht)))
	    (Assert-equal ht copy-of-ht)
	    (Assert (not (eq ht copy-of-ht)))
	    (Assert-eq  (hash-table-count ht) (hash-table-count copy-of-ht))
	    (Assert-eq  (hash-table-type  ht) (hash-table-type  copy-of-ht))
	    (Assert-eq  (hash-table-size  ht) (hash-table-size  copy-of-ht))
	    (Assert-eql (hash-table-rehash-size ht) (hash-table-rehash-size copy-of-ht))
	    (Assert-eql (hash-table-rehash-threshold ht) (hash-table-rehash-threshold copy-of-ht)))))

  (let ((ht (make-hash-table :size 100 :rehash-threshold .6 :test 'eq)))
    (dotimes (j iterations)
      (puthash (+ one 0.0) t ht)
      (puthash (+ two 0.0) t ht)
      (puthash (cons 1 2) t ht)
      (puthash (cons 3 4) t ht))
    (Assert-eq (hashtable-test-function ht) 'eq)
    (Assert-eq (hash-table-test ht) 'eq)
    (Assert= (* iterations 4) (hash-table-count ht))
    (Assert-eq nil (gethash 1.0 ht))
    (Assert-eq nil (gethash '(1 . 2) ht))
    (check-copy ht)
    )

  (let ((ht (make-hash-table :size 100 :rehash-threshold .6 :test 'eql)))
    (dotimes (j iterations)
      (puthash (+ one 0.0) t ht)
      (puthash (+ two 0.0) t ht)
      (puthash (cons 1 2) t ht)
      (puthash (cons 3 4) t ht))
    (Assert-eq (hashtable-test-function ht) 'eql)
    (Assert-eq (hash-table-test ht) 'eql)
    (Assert= (+ 2 (* 2 iterations)) (hash-table-count ht))
    (Assert-eq t (gethash 1.0 ht))
    (Assert-eq nil (gethash '(1 . 2) ht))
    (check-copy ht)
    )

  (let ((ht (make-hash-table :size 100 :rehash-threshold .6 :test 'equal)))
    (dotimes (j iterations)
      (puthash (+ one 0.0) t ht)
      (puthash (+ two 0.0) t ht)
      (puthash (cons 1 2) t ht)
      (puthash (cons 3 4) t ht))
    (Assert-eq (hashtable-test-function ht) 'equal)
    (Assert-eq (hash-table-test ht) 'equal)
    (Assert= 4 (hash-table-count ht))
    (Assert-eq t (gethash 1.0 ht))
    (Assert-eq t (gethash '(1 . 2) ht))
    (check-copy ht)
    )

  ))

;; Test that weak hash-tables are properly handled
(loop for (weakness expected-count expected-k-sum expected-v-sum) in
  '((nil 6 38 25)
    (t 3 6 9)
    (key 4 38 9)
    (value 4 6 25))
  do
  (let* ((ht (make-hash-table :weakness weakness))
       (my-obj (cons ht ht)))
  (garbage-collect)
  (puthash my-obj 1 ht)
  (puthash 2 my-obj ht)
  (puthash 4 8 ht)
  (puthash (cons ht ht) 16 ht)
  (puthash 32 (cons ht ht) ht)
  (puthash (cons ht ht) (cons ht ht) ht)
  (let ((k-sum 0) (v-sum 0))
    (maphash #'(lambda (k v)
		 (when (integerp k) (incf k-sum k))
		 (when (integerp v) (incf v-sum v)))
	     ht)
    (Assert-eq 38 k-sum)
    (Assert-eq 25 v-sum))
  (Assert-eq 6 (hash-table-count ht))
  (garbage-collect)
  (Assert-eq expected-count (hash-table-count ht))
  (let ((k-sum 0) (v-sum 0))
    (maphash #'(lambda (k v)
		 (when (integerp k) (incf k-sum k))
		 (when (integerp v) (incf v-sum v)))
	     ht)
    (Assert-eq expected-k-sum k-sum)
    (Assert-eq expected-v-sum v-sum))))

;;; Test the ability to puthash and remhash the current elt of a maphash
(let ((ht (make-hash-table :test 'eql)))
  (dotimes (j 100) (setf (gethash j ht) (- j)))
  (maphash #'(lambda (k v)
	       (if (oddp k) (remhash k ht) (puthash k (- v) ht)))
	   ht)
  (let ((k-sum 0) (v-sum 0))
    (maphash #'(lambda (k v) (incf k-sum k) (incf v-sum v)) ht)
    (Assert= (* 50 49) k-sum)
    (Assert= v-sum k-sum)))

;;; Test reading and printing of hash-table objects
(let ((h1 #s(hashtable  weakness t rehash-size 3.0 rehash-threshold .2 test eq data (1 2 3 4)))
      (h2 #s(hash-table weakness t rehash-size 3.0 rehash-threshold .2 test eq data (1 2 3 4)))
      (h3 (make-hash-table :weakness t :rehash-size 3.0 :rehash-threshold .2 :test 'eq)))
  (Assert-equal h1 h2)
  (Assert (not (equal h1 h3)))
  (puthash 1 2 h3)
  (puthash 3 4 h3)
  (Assert-equal h1 h3))

;;; Testing equality of hash tables
(Assert-equal (make-hash-table :test 'eql :size 300 :rehash-threshold .9 :rehash-size 3.0)
	       (make-hash-table :test 'eql))
(Assert (not (equal (make-hash-table :test 'eq)
		    (make-hash-table :test 'equal))))
(let ((h1 (make-hash-table))
      (h2 (make-hash-table)))
  (Assert-equal h1 h2)
  (Assert (not (eq h1 h2)))
  (puthash 1 2 h1)
  (Assert (not (equal h1 h2)))
  (puthash 1 2 h2)
  (Assert-equal h1 h2)
  (puthash 1 3 h2)
  (Assert (not (equal h1 h2)))
  (clrhash h1)
  (Assert (not (equal h1 h2)))
  (clrhash h2)
  (Assert-equal h1 h2)
  )

;;; Test sxhash
(Assert= (sxhash "foo") (sxhash "foo"))
(Assert= (sxhash '(1 2 3)) (sxhash '(1 2 3)))
(Assert (/= (sxhash '(1 2 3)) (sxhash '(3 2 1))))