source: tests/heap.cfa@ ce9ed84

ADT arm-eh ast-experimental enum forall-pointer-decay jacob/cs343-translation new-ast-unique-expr pthread-emulation qualifiedEnum
Last change on this file since ce9ed84 was 5dc5da7, checked in by Peter A. Buhr <pabuhr@…>, 5 years ago

set default heap expansion to 10M
  • Property mode set to 100644
File size: 19.0 KB
RevLine 
[dc8511c]1//
2// Cforall Version 1.0.0 Copyright (C) 2017 University of Waterloo
3//
4// The contents of this file are covered under the licence agreement in the
5// file "LICENCE" distributed with Cforall.
6//
7// heap.cfa --
8//
9// Author : Peter A. Buhr
10// Created On : Tue Nov 6 17:54:56 2018
11// Last Modified By : Peter A. Buhr
[5dc5da7]12// Last Modified On : Tue Dec 15 12:11:51 2020
13// Update Count : 79
[dc8511c]14//
15
[73abe95]16#include <thread.hfa>
[80228a7]17#include <kernel.hfa> // processor
18#include <stdlib.hfa> // *allocs
[5d4fa18]19#include <malloc.h> // malloc_*
20
[73abe95]21// #include <time.hfa>
[5d4fa18]22// #define __CFA_DEFAULT_PREEMPTION__ 1000`us
23// //#define __CFA_DEFAULT_PREEMPTION__ 0
24
25// Duration default_preemption() {
26// return __CFA_DEFAULT_PREEMPTION__;
27// }
28
[5dc5da7]29size_t default_heap_expansion() {
30 return 10 * 1024 * 1024;
31} // default_heap_expansion
32
33size_t default_mmap_start() {
34 return 512 * 1024 + 1;
[5d4fa18]35} // default_mmap_start
36
37thread Worker {
38}; // Worker
39
40void main( Worker & ) {
[3e91703d]41 enum { NoOfAllocs = 5000, NoOfMmaps = 10 };
42 char * locns[NoOfAllocs];
[58e280f4]43 size_t amount;
44 enum { limit = 64 * 1024 }; // check alignments up to here
[5d4fa18]45
[3e91703d]46 // check alloc/free
[5d4fa18]47
[3e91703d]48 for ( j; 40 ) {
[80228a7]49 for ( i; NoOfAllocs ) {
[5d4fa18]50 locns[i] = alloc( i );
[200fcb3]51 //sout | (void *)locns[i];
[80228a7]52 for ( k; i ) locns[i][k] = '\345';
[5d4fa18]53 } // for
[200fcb3]54 //sout | (char *)sbrk(0) - start | " bytes";
[5d4fa18]55
[80228a7]56 for ( i; NoOfAllocs ) {
[200fcb3]57 //sout | (void *)locns[i];
[80228a7]58 for ( k; i ) if ( locns[i][k] != '\345' ) abort( "new/delete corrupt storage1" );
[5d4fa18]59 free( locns[i] );
60 } // for
[200fcb3]61 //sout | (char *)sbrk(0) - start | " bytes";
[5d4fa18]62
[80228a7]63 for ( i; NoOfAllocs ) {
[5d4fa18]64 locns[i] = alloc( i );
[200fcb3]65 //sout | (void *)locns[i];
[80228a7]66 for ( k; i ) locns[i][k] = '\345';
[5d4fa18]67 } // for
[80228a7]68 for ( i; NoOfAllocs - 1 -~= 0 ) {
[200fcb3]69 //sout | (void *)locns[i];
[80228a7]70 for ( k; i ) if ( locns[i][k] != '\345' ) abort( "new/delete corrupt storage2" );
[5d4fa18]71 free( locns[i] );
72 } // for
[3e91703d]73 } // for
[5d4fa18]74
[3e91703d]75 // check malloc/free (sbrk)
[5d4fa18]76
[3e91703d]77 for ( i; NoOfAllocs ) {
[5d4fa18]78 size_t s = (i + 1) * 20;
[80228a7]79 char * area = (char *)malloc( s );
[5d4fa18]80 area[0] = '\345'; area[s - 1] = '\345'; // fill first/last
81 area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
82 free( area );
[3e91703d]83 } // for
[5d4fa18]84
[3e91703d]85 for ( i; NoOfAllocs ) {
[80228a7]86 size_t s = i + 1; // +1 to make initialization simpler
[5d4fa18]87 locns[i] = (char *)malloc( s );
88 locns[i][0] = '\345'; locns[i][s - 1] = '\345'; // fill first/last
89 locns[i][malloc_usable_size( locns[i] ) - 1] = '\345'; // fill ultimate byte
[3e91703d]90 } // for
91 for ( i; NoOfAllocs ) {
[5d4fa18]92 size_t s = i + 1;
93 if ( locns[i][0] != '\345' || locns[i][s - 1] != '\345' ||
94 locns[i][malloc_usable_size( locns[i] ) - 1] != '\345' ) abort( "malloc/free corrupt storage" );
95 free( locns[i] );
[3e91703d]96 } // for
[5d4fa18]97
[3e91703d]98 // check malloc/free (mmap)
[5d4fa18]99
[3e91703d]100 for ( i; NoOfMmaps ) {
[80228a7]101 size_t s = i + default_mmap_start(); // cross over point
102 char * area = (char *)malloc( s );
[5d4fa18]103 area[0] = '\345'; area[s - 1] = '\345'; // fill first/last
104 area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
105 free( area );
[3e91703d]106 } // for
[5d4fa18]107
[3e91703d]108 for ( i; NoOfMmaps ) {
[80228a7]109 size_t s = i + default_mmap_start(); // cross over point
[5d4fa18]110 locns[i] = (char *)malloc( s );
111 locns[i][0] = '\345'; locns[i][s - 1] = '\345'; // fill first/last
112 locns[i][malloc_usable_size( locns[i] ) - 1] = '\345'; // fill ultimate byte
[3e91703d]113 } // for
114 for ( i; NoOfMmaps ) {
[80228a7]115 size_t s = i + default_mmap_start(); // cross over point
[5d4fa18]116 if ( locns[i][0] != '\345' || locns[i][s - 1] != '\345' ||
117 locns[i][malloc_usable_size( locns[i] ) - 1] != '\345' ) abort( "malloc/free corrupt storage" );
118 free( locns[i] );
[3e91703d]119 } // for
[5d4fa18]120
[3e91703d]121 // check calloc/free (sbrk)
[5d4fa18]122
[3e91703d]123 for ( i; NoOfAllocs ) {
[5d4fa18]124 size_t s = (i + 1) * 20;
[80228a7]125 char * area = (char *)calloc( 5, s );
[5d4fa18]126 if ( area[0] != '\0' || area[s - 1] != '\0' ||
[25cbd99]127 area[malloc_size( area ) - 1] != '\0' ||
[5d4fa18]128 ! malloc_zero_fill( area ) ) abort( "calloc/free corrupt storage1" );
129 area[0] = '\345'; area[s - 1] = '\345'; // fill first/last
130 area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
131 free( area );
[3e91703d]132 } // for
[5d4fa18]133
[3e91703d]134 for ( i; NoOfAllocs ) {
[5d4fa18]135 size_t s = i + 1;
136 locns[i] = (char *)calloc( 5, s );
137 if ( locns[i][0] != '\0' || locns[i][s - 1] != '\0' ||
[25cbd99]138 locns[i][malloc_size( locns[i] ) - 1] != '\0' ||
[5d4fa18]139 ! malloc_zero_fill( locns[i] ) ) abort( "calloc/free corrupt storage2" );
140 locns[i][0] = '\345'; locns[i][s - 1] = '\345'; // fill first/last
141 locns[i][malloc_usable_size( locns[i] ) - 1] = '\345'; // fill ultimate byte
[3e91703d]142 } // for
143 for ( i; NoOfAllocs ) {
[5d4fa18]144 size_t s = i + 1;
145 if ( locns[i][0] != '\345' || locns[i][s - 1] != '\345' ||
146 locns[i][malloc_usable_size( locns[i] ) - 1] != '\345' ) abort( "calloc/free corrupt storage3" );
147 free( locns[i] );
[3e91703d]148 } // for
[5d4fa18]149
[3e91703d]150 // check calloc/free (mmap)
[5d4fa18]151
[3e91703d]152 for ( i; NoOfMmaps ) {
[80228a7]153 size_t s = i + default_mmap_start(); // cross over point
154 char * area = (char *)calloc( 1, s );
[5d4fa18]155 if ( area[0] != '\0' || area[s - 1] != '\0' ) abort( "calloc/free corrupt storage4.1" );
[25cbd99]156 if ( area[malloc_size( area ) - 1] != '\0' ) abort( "calloc/free corrupt storage4.2" );
[5d4fa18]157 if ( ! malloc_zero_fill( area ) ) abort( "calloc/free corrupt storage4.3" );
158 area[0] = '\345'; area[s - 1] = '\345'; // fill first/last
159 area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
160 free( area );
[3e91703d]161 } // for
[5d4fa18]162
[3e91703d]163 for ( i; NoOfMmaps ) {
[80228a7]164 size_t s = i + default_mmap_start(); // cross over point
[5d4fa18]165 locns[i] = (char *)calloc( 1, s );
166 if ( locns[i][0] != '\0' || locns[i][s - 1] != '\0' ||
[25cbd99]167 locns[i][malloc_size( locns[i] ) - 1] != '\0' ||
[5d4fa18]168 ! malloc_zero_fill( locns[i] ) ) abort( "calloc/free corrupt storage5" );
169 locns[i][0] = '\345'; locns[i][s - 1] = '\345'; // fill first/last
170 locns[i][malloc_usable_size( locns[i] ) - 1] = '\345'; // fill ultimate byte
[3e91703d]171 } // for
172 for ( i; NoOfMmaps ) {
[80228a7]173 size_t s = i + default_mmap_start(); // cross over point
[5d4fa18]174 if ( locns[i][0] != '\345' || locns[i][s - 1] != '\345' ||
175 locns[i][malloc_usable_size( locns[i] ) - 1] != '\345' ) abort( "calloc/free corrupt storage6" );
176 free( locns[i] );
[3e91703d]177 } // for
[5d4fa18]178
[3e91703d]179 // check memalign/free (sbrk)
[5d4fa18]180
[80228a7]181 for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
[200fcb3]182 //sout | alignments[a];
[80228a7]183 for ( s; 1 ~ NoOfAllocs ) { // allocation of size 0 can return null
184 char * area = (char *)memalign( a, s );
[6a25b8f]185 //sout | i | area;
[5d4fa18]186 if ( (size_t)area % a != 0 || malloc_alignment( area ) != a ) { // check for initial alignment
187 abort( "memalign/free bad alignment : memalign(%d,%d) = %p", (int)a, s, area );
188 } // if
[6a25b8f]189 area[0] = '\345'; area[s - 1] = '\345'; // fill first/last byte
[5d4fa18]190 area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
191 free( area );
192 } // for
[3e91703d]193 } // for
[5d4fa18]194
[3e91703d]195 // check memalign/free (mmap)
[5d4fa18]196
[80228a7]197 for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
[200fcb3]198 //sout | alignments[a];
[80228a7]199 for ( i; 1 ~ NoOfMmaps ) {
200 size_t s = i + default_mmap_start(); // cross over point
201 char * area = (char *)memalign( a, s );
[6a25b8f]202 //sout | i | area;
[5d4fa18]203 if ( (size_t)area % a != 0 || malloc_alignment( area ) != a ) { // check for initial alignment
204 abort( "memalign/free bad alignment : memalign(%d,%d) = %p", (int)a, (int)s, area );
205 } // if
206 area[0] = '\345'; area[s - 1] = '\345'; // fill first/last byte
207 area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
208 free( area );
209 } // for
[3e91703d]210 } // for
[5d4fa18]211
[943a079]212 // check malloc/resize/free (sbrk)
213
214 for ( i; 2 ~ NoOfAllocs ~ 12 ) {
215 // initial N byte allocation
216 char * area = (char *)malloc( i );
217 area[0] = '\345'; area[i - 1] = '\345'; // fill first/penultimate byte
218
219 // Do not start this loop index at 0 because resize of 0 bytes frees the storage.
220 int prev = i;
221 for ( s; i ~ 256 * 1024 ~ 26 ) { // start at initial memory request
222 if ( area[0] != '\345' || area[prev - 1] != '\345' ) abort( "malloc/resize/free corrupt storage" );
223 area = (char *)resize( area, s ); // attempt to reuse storage
224 area[0] = area[s - 1] = '\345'; // fill last byte
225 prev = s;
226 } // for
227 free( area );
228 } // for
229
230 // check malloc/resize/free (mmap)
231
[dfc13bb]232 for ( i; 2 ~ NoOfAllocs ~ 12 ) {
[943a079]233 // initial N byte allocation
234 size_t s = i + default_mmap_start(); // cross over point
235 char * area = (char *)malloc( s );
236 area[0] = '\345'; area[s - 1] = '\345'; // fill first/penultimate byte
237
238 // Do not start this loop index at 0 because resize of 0 bytes frees the storage.
239 int prev = s;
240 for ( r; s ~ 256 * 1024 ~ 26 ) { // start at initial memory request
241 if ( area[0] != '\345' || area[prev - 1] != '\345' ) abort( "malloc/resize/free corrupt storage" );
242 area = (char *)resize( area, s ); // attempt to reuse storage
243 area[0] = area[r - 1] = '\345'; // fill last byte
244 prev = r;
245 } // for
246 free( area );
247 } // for
248
249 // check malloc/realloc/free (sbrk)
250
251 for ( i; 2 ~ NoOfAllocs ~ 12 ) {
252 // initial N byte allocation
253 char * area = (char *)malloc( i );
254 area[0] = '\345'; area[i - 1] = '\345'; // fill first/penultimate byte
255
256 // Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
257 int prev = i;
258 for ( s; i ~ 256 * 1024 ~ 26 ) { // start at initial memory request
259 if ( area[0] != '\345' || area[prev - 1] != '\345' ) abort( "malloc/realloc/free corrupt storage" );
260 area = (char *)realloc( area, s ); // attempt to reuse storage
261 area[s - 1] = '\345'; // fill last byte
262 prev = s;
263 } // for
264 free( area );
265 } // for
266
267 // check malloc/realloc/free (mmap)
268
[dfc13bb]269 for ( i; 2 ~ NoOfAllocs ~ 12 ) {
[943a079]270 // initial N byte allocation
271 size_t s = i + default_mmap_start(); // cross over point
272 char * area = (char *)malloc( s );
273 area[0] = '\345'; area[s - 1] = '\345'; // fill first/penultimate byte
274
275 // Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
276 int prev = s;
277 for ( r; s ~ 256 * 1024 ~ 26 ) { // start at initial memory request
278 if ( area[0] != '\345' || area[prev - 1] != '\345' ) abort( "malloc/realloc/free corrupt storage" );
279 area = (char *)realloc( area, s ); // attempt to reuse storage
280 area[r - 1] = '\345'; // fill last byte
281 prev = r;
282 } // for
283 free( area );
284 } // for
285
[3e91703d]286 // check calloc/realloc/free (sbrk)
[5d4fa18]287
[3e91703d]288 for ( i; 1 ~ 10_000 ~ 12 ) {
[5d4fa18]289 // initial N byte allocation
[80228a7]290 char * area = (char *)calloc( 5, i );
[5d4fa18]291 if ( area[0] != '\0' || area[i - 1] != '\0' ||
[25cbd99]292 area[malloc_size( area ) - 1] != '\0' ||
[5d4fa18]293 ! malloc_zero_fill( area ) ) abort( "calloc/realloc/free corrupt storage1" );
294
295 // Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
[80228a7]296 for ( s; i ~ 256 * 1024 ~ 26 ) { // start at initial memory request
[5d4fa18]297 area = (char *)realloc( area, s ); // attempt to reuse storage
298 if ( area[0] != '\0' || area[s - 1] != '\0' ||
[25cbd99]299 area[malloc_size( area ) - 1] != '\0' ||
[5d4fa18]300 ! malloc_zero_fill( area ) ) abort( "calloc/realloc/free corrupt storage2" );
301 } // for
302 free( area );
[3e91703d]303 } // for
[5d4fa18]304
[3e91703d]305 // check calloc/realloc/free (mmap)
[5d4fa18]306
[3e91703d]307 for ( i; 1 ~ 10_000 ~ 12 ) {
[5d4fa18]308 // initial N byte allocation
[80228a7]309 size_t s = i + default_mmap_start(); // cross over point
310 char * area = (char *)calloc( 1, s );
[5d4fa18]311 if ( area[0] != '\0' || area[s - 1] != '\0' ||
[25cbd99]312 area[malloc_size( area ) - 1] != '\0' ||
[505450a]313 ! malloc_zero_fill( area ) ) abort( "calloc/realloc/free corrupt storage3" );
[5d4fa18]314
315 // Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
[80228a7]316 for ( r; i ~ 256 * 1024 ~ 26 ) { // start at initial memory request
317 area = (char *)realloc( area, r ); // attempt to reuse storage
[5d4fa18]318 if ( area[0] != '\0' || area[r - 1] != '\0' ||
[25cbd99]319 area[malloc_size( area ) - 1] != '\0' ||
320 ! malloc_zero_fill( area ) ) abort( "calloc/realloc/free corrupt storage4" );
[5d4fa18]321 } // for
322 free( area );
[3e91703d]323 } // for
[5d4fa18]324
[3e91703d]325 // check memalign/realloc/free
[5d4fa18]326
[58e280f4]327 amount = 2;
[80228a7]328 for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
[5d4fa18]329 // initial N byte allocation
[80228a7]330 char * area = (char *)memalign( a, amount ); // aligned N-byte allocation
[6a25b8f]331 //sout | alignments[a] | area;
[5d4fa18]332 if ( (size_t)area % a != 0 || malloc_alignment( area ) != a ) { // check for initial alignment
333 abort( "memalign/realloc/free bad alignment : memalign(%d,%d) = %p", (int)a, (int)amount, area );
334 } // if
335 area[0] = '\345'; area[amount - 2] = '\345'; // fill first/penultimate byte
336
337 // Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
[80228a7]338 for ( s; amount ~ 256 * 1024 ) { // start at initial memory request
[5d4fa18]339 if ( area[0] != '\345' || area[s - 2] != '\345' ) abort( "memalign/realloc/free corrupt storage" );
340 area = (char *)realloc( area, s ); // attempt to reuse storage
[6a25b8f]341 //sout | i | area;
[5d4fa18]342 if ( (size_t)area % a != 0 ) { // check for initial alignment
343 abort( "memalign/realloc/free bad alignment %p", area );
344 } // if
345 area[s - 1] = '\345'; // fill last byte
346 } // for
347 free( area );
[3e91703d]348 } // for
[5d4fa18]349
[3e91703d]350 // check cmemalign/free
[5d4fa18]351
[80228a7]352 for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
[200fcb3]353 //sout | alignments[a];
[80228a7]354 for ( s; 1 ~ limit ) { // allocation of size 0 can return null
355 char * area = (char *)cmemalign( a, 1, s );
[6a25b8f]356 //sout | i | area;
[5d4fa18]357 if ( (size_t)area % a != 0 || malloc_alignment( area ) != a ) { // check for initial alignment
358 abort( "cmemalign/free bad alignment : cmemalign(%d,%d) = %p", (int)a, s, area );
359 } // if
360 if ( area[0] != '\0' || area[s - 1] != '\0' ||
[25cbd99]361 area[malloc_size( area ) - 1] != '\0' ||
[5d4fa18]362 ! malloc_zero_fill( area ) ) abort( "cmemalign/free corrupt storage" );
363 area[0] = '\345'; area[s - 1] = '\345'; // fill first/last byte
364 free( area );
365 } // for
[3e91703d]366 } // for
[5d4fa18]367
[3e91703d]368 // check cmemalign/realloc/free
[5d4fa18]369
[3e91703d]370 amount = 2;
[80228a7]371 for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
[5d4fa18]372 // initial N byte allocation
[80228a7]373 char * area = (char *)cmemalign( a, 1, amount ); // aligned N-byte allocation
[6a25b8f]374 //sout | alignments[a] | area;
[5d4fa18]375 if ( (size_t)area % a != 0 || malloc_alignment( area ) != a ) { // check for initial alignment
376 abort( "cmemalign/realloc/free bad alignment : cmemalign(%d,%d) = %p", (int)a, (int)amount, area );
377 } // if
378 if ( area[0] != '\0' || area[amount - 1] != '\0' ||
[25cbd99]379 area[malloc_size( area ) - 1] != '\0' ||
[5d4fa18]380 ! malloc_zero_fill( area ) ) abort( "cmemalign/realloc/free corrupt storage1" );
381 area[0] = '\345'; area[amount - 2] = '\345'; // fill first/penultimate byte
382
383 // Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
[80228a7]384 for ( s; amount ~ 256 * 1024 ) { // start at initial memory request
[5d4fa18]385 if ( area[0] != '\345' || area[s - 2] != '\345' ) abort( "cmemalign/realloc/free corrupt storage2" );
386 area = (char *)realloc( area, s ); // attempt to reuse storage
[6a25b8f]387 //sout | i | area;
[5d4fa18]388 if ( (size_t)area % a != 0 || malloc_alignment( area ) != a ) { // check for initial alignment
389 abort( "cmemalign/realloc/free bad alignment %p", area );
390 } // if
[25cbd99]391 if ( area[0] != '\345' || area[s - 1] != '\0' ||
392 area[malloc_size( area ) - 1] != '\0' ||
[5d4fa18]393 ! malloc_zero_fill( area ) ) abort( "cmemalign/realloc/free corrupt storage3" );
394 area[s - 1] = '\345'; // fill last byte
395 } // for
396 free( area );
[3e91703d]397 } // for
[6a25b8f]398
[943a079]399 // check memalign/resize with align/free
400
401 amount = 2;
402 for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
403 // initial N byte allocation
404 char * area = (char *)memalign( a, amount ); // aligned N-byte allocation
405 //sout | alignments[a] | area | endl;
406 if ( (size_t)area % a != 0 || malloc_alignment( area ) != a ) { // check for initial alignment
407 abort( "memalign/resize with align/free bad alignment : memalign(%d,%d) = %p", (int)a, (int)amount, area );
408 } // if
409 area[0] = '\345'; area[amount - 2] = '\345'; // fill first/penultimate byte
410
411 // Do not start this loop index at 0 because resize of 0 bytes frees the storage.
412 for ( s; amount ~ 256 * 1024 ) { // start at initial memory request
413 area = (char *)resize( area, a * 2, s ); // attempt to reuse storage
414 //sout | i | area | endl;
415 if ( (size_t)area % a * 2 != 0 ) { // check for initial alignment
416 abort( "memalign/resize with align/free bad alignment %p", area );
417 } // if
418 area[s - 1] = '\345'; // fill last byte
419 } // for
420 free( area );
421 } // for
422
[6a25b8f]423 // check memalign/realloc with align/free
424
425 amount = 2;
426 for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
427 // initial N byte allocation
428 char * area = (char *)memalign( a, amount ); // aligned N-byte allocation
429 //sout | alignments[a] | area | endl;
430 if ( (size_t)area % a != 0 || malloc_alignment( area ) != a ) { // check for initial alignment
431 abort( "memalign/realloc with align/free bad alignment : memalign(%d,%d) = %p", (int)a, (int)amount, area );
432 } // if
433 area[0] = '\345'; area[amount - 2] = '\345'; // fill first/penultimate byte
434
435 // Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
436 for ( s; amount ~ 256 * 1024 ) { // start at initial memory request
437 if ( area[0] != '\345' || area[s - 2] != '\345' ) abort( "memalign/realloc/free corrupt storage" );
438 area = (char *)realloc( area, a * 2, s ); // attempt to reuse storage
439 //sout | i | area | endl;
440 if ( (size_t)area % a * 2 != 0 ) { // check for initial alignment
441 abort( "memalign/realloc with align/free bad alignment %p", area );
442 } // if
443 area[s - 1] = '\345'; // fill last byte
444 } // for
445 free( area );
446 } // for
447
448 // check cmemalign/realloc with align/free
449
450 amount = 2;
451 for ( size_t a = libAlign() + libAlign(); a <= limit; a += a ) { // generate powers of 2
452 // initial N byte allocation
[2ff42f4]453 char * area = (char *)cmemalign( a, 1, amount ); // aligned N-byte allocation
[6a25b8f]454 //sout | alignments[a] | area | endl;
455 if ( (size_t)area % a != 0 || malloc_alignment( area ) != a ) { // check for initial alignment
456 abort( "cmemalign/realloc with align/free bad alignment : cmemalign(%d,%d) = %p", (int)a, (int)amount, area );
457 } // if
458 if ( area[0] != '\0' || area[amount - 1] != '\0' ||
[25cbd99]459 area[malloc_size( area ) - 1] != '\0' ||
[6a25b8f]460 ! malloc_zero_fill( area ) ) abort( "cmemalign/realloc with align/free corrupt storage1" );
461 area[0] = '\345'; area[amount - 2] = '\345'; // fill first/penultimate byte
462
463 // Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
464 for ( int s = amount; s < 256 * 1024; s += 1 ) { // start at initial memory request
465 if ( area[0] != '\345' || area[s - 2] != '\345' ) abort( "cmemalign/realloc with align/free corrupt storage2" );
466 area = (char *)realloc( area, a * 2, s ); // attempt to reuse storage
467 //sout | i | area | endl;
468 if ( (size_t)area % a * 2 != 0 || malloc_alignment( area ) != a * 2 ) { // check for initial alignment
[2ff42f4]469 abort( "cmemalign/realloc with align/free bad alignment %p %zd %zd", area, malloc_alignment( area ), a * 2 );
[6a25b8f]470 } // if
471 if ( area[s - 1] != '\0' || area[s - 1] != '\0' ||
[25cbd99]472 area[malloc_size( area ) - 1] != '\0' ||
[6a25b8f]473 ! malloc_zero_fill( area ) ) abort( "cmemalign/realloc/free corrupt storage3" );
474 area[s - 1] = '\345'; // fill last byte
475 } // for
476 free( area );
477 } // for
[58e280f4]478
[200fcb3]479 //sout | "worker" | thisTask() | "successful completion";
[5d4fa18]480} // Worker main
481
482int main() {
[3e91703d]483 const unsigned int NoOfWorkers = 4;
484 {
[5d4fa18]485 processor processors[NoOfWorkers - 1] __attribute__(( unused )); // more than one processor
486 Worker workers[NoOfWorkers] __attribute__(( unused ));
[3e91703d]487 }
[5d4fa18]488 // checkFreeOn();
[3e91703d]489 // malloc_stats();
[66812dd]490 printf( "done\n" ); // non-empty .expect file
[5d4fa18]491}
492
493// Local Variables: //
494// tab-width: 4 //
[dc8511c]495// compile-command: "cfa -nodebug -O2 heap.cfa" //
[5d4fa18]496// End: //
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