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source: tests/heap.cfa @ 5715d43

ADTarm-ehast-experimentalenumforall-pointer-decayjacob/cs343-translationnew-astnew-ast-unique-exprpthread-emulationqualifiedEnum

Last change on this file since 5715d43 was 2ff42f4, checked in by Peter A. Buhr <pabuhr@…>, 4 years ago
fix 32-bit heap-test warning for format codes
Property mode set to `100644`
File size: 15.5 KB

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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
12	// Last Modified On : Tue Aug 4 06:36:17 2020
13	// Update Count : 56
14	//
15
16	#include <thread.hfa>
17	#include <kernel.hfa> // processor
18	#include <stdlib.hfa> // *allocs
19	#include <malloc.h> // malloc_*
20
21	// #include <time.hfa>
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
29	#define __U_DEFAULT_MMAP_START__ (512 * 1024 + 1)
30	size_t default_mmap_start() __attribute__(( weak )) {
31	return __U_DEFAULT_MMAP_START__;
32	} // default_mmap_start
33
34	thread Worker {
35	}; // Worker
36
37	void main( Worker & ) {
38	enum { NoOfAllocs = 5000, NoOfMmaps = 10 };
39	char * locns[NoOfAllocs];
40	size_t amount;
41	enum { limit = 64 * 1024 }; // check alignments up to here
42
43	// check alloc/free
44
45	for ( j; 40 ) {
46	for ( i; NoOfAllocs ) {
47	locns[i] = alloc( i );
48	//sout \| (void *)locns[i];
49	for ( k; i ) locns[i][k] = '\345';
50	} // for
51	//sout \| (char *)sbrk(0) - start \| " bytes";
52
53	for ( i; NoOfAllocs ) {
54	//sout \| (void *)locns[i];
55	for ( k; i ) if ( locns[i][k] != '\345' ) abort( "new/delete corrupt storage1" );
56	free( locns[i] );
57	} // for
58	//sout \| (char *)sbrk(0) - start \| " bytes";
59
60	for ( i; NoOfAllocs ) {
61	locns[i] = alloc( i );
62	//sout \| (void *)locns[i];
63	for ( k; i ) locns[i][k] = '\345';
64	} // for
65	for ( i; NoOfAllocs - 1 -~= 0 ) {
66	//sout \| (void *)locns[i];
67	for ( k; i ) if ( locns[i][k] != '\345' ) abort( "new/delete corrupt storage2" );
68	free( locns[i] );
69	} // for
70	} // for
71
72	// check malloc/free (sbrk)
73
74	for ( i; NoOfAllocs ) {
75	size_t s = (i + 1) * 20;
76	char * area = (char *)malloc( s );
77	area[0] = '\345'; area[s - 1] = '\345'; // fill first/last
78	area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
79	free( area );
80	} // for
81
82	for ( i; NoOfAllocs ) {
83	size_t s = i + 1; // +1 to make initialization simpler
84	locns[i] = (char *)malloc( s );
85	locns[i][0] = '\345'; locns[i][s - 1] = '\345'; // fill first/last
86	locns[i][malloc_usable_size( locns[i] ) - 1] = '\345'; // fill ultimate byte
87	} // for
88	for ( i; NoOfAllocs ) {
89	size_t s = i + 1;
90	if ( locns[i][0] != '\345' \|\| locns[i][s - 1] != '\345' \|\|
91	locns[i][malloc_usable_size( locns[i] ) - 1] != '\345' ) abort( "malloc/free corrupt storage" );
92	free( locns[i] );
93	} // for
94
95	// check malloc/free (mmap)
96
97	for ( i; NoOfMmaps ) {
98	size_t s = i + default_mmap_start(); // cross over point
99	char * area = (char *)malloc( s );
100	area[0] = '\345'; area[s - 1] = '\345'; // fill first/last
101	area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
102	free( area );
103	} // for
104
105	for ( i; NoOfMmaps ) {
106	size_t s = i + default_mmap_start(); // cross over point
107	locns[i] = (char *)malloc( s );
108	locns[i][0] = '\345'; locns[i][s - 1] = '\345'; // fill first/last
109	locns[i][malloc_usable_size( locns[i] ) - 1] = '\345'; // fill ultimate byte
110	} // for
111	for ( i; NoOfMmaps ) {
112	size_t s = i + default_mmap_start(); // cross over point
113	if ( locns[i][0] != '\345' \|\| locns[i][s - 1] != '\345' \|\|
114	locns[i][malloc_usable_size( locns[i] ) - 1] != '\345' ) abort( "malloc/free corrupt storage" );
115	free( locns[i] );
116	} // for
117
118	// check calloc/free (sbrk)
119
120	for ( i; NoOfAllocs ) {
121	size_t s = (i + 1) * 20;
122	char * area = (char *)calloc( 5, s );
123	if ( area[0] != '\0' \|\| area[s - 1] != '\0' \|\|
124	area[malloc_size( area ) - 1] != '\0' \|\|
125	! malloc_zero_fill( area ) ) abort( "calloc/free corrupt storage1" );
126	area[0] = '\345'; area[s - 1] = '\345'; // fill first/last
127	area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
128	free( area );
129	} // for
130
131	for ( i; NoOfAllocs ) {
132	size_t s = i + 1;
133	locns[i] = (char *)calloc( 5, s );
134	if ( locns[i][0] != '\0' \|\| locns[i][s - 1] != '\0' \|\|
135	locns[i][malloc_size( locns[i] ) - 1] != '\0' \|\|
136	! malloc_zero_fill( locns[i] ) ) abort( "calloc/free corrupt storage2" );
137	locns[i][0] = '\345'; locns[i][s - 1] = '\345'; // fill first/last
138	locns[i][malloc_usable_size( locns[i] ) - 1] = '\345'; // fill ultimate byte
139	} // for
140	for ( i; NoOfAllocs ) {
141	size_t s = i + 1;
142	if ( locns[i][0] != '\345' \|\| locns[i][s - 1] != '\345' \|\|
143	locns[i][malloc_usable_size( locns[i] ) - 1] != '\345' ) abort( "calloc/free corrupt storage3" );
144	free( locns[i] );
145	} // for
146
147	// check calloc/free (mmap)
148
149	for ( i; NoOfMmaps ) {
150	size_t s = i + default_mmap_start(); // cross over point
151	char * area = (char *)calloc( 1, s );
152	if ( area[0] != '\0' \|\| area[s - 1] != '\0' ) abort( "calloc/free corrupt storage4.1" );
153	if ( area[malloc_size( area ) - 1] != '\0' ) abort( "calloc/free corrupt storage4.2" );
154	if ( ! malloc_zero_fill( area ) ) abort( "calloc/free corrupt storage4.3" );
155	area[0] = '\345'; area[s - 1] = '\345'; // fill first/last
156	area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
157	free( area );
158	} // for
159
160	for ( i; NoOfMmaps ) {
161	size_t s = i + default_mmap_start(); // cross over point
162	locns[i] = (char *)calloc( 1, s );
163	if ( locns[i][0] != '\0' \|\| locns[i][s - 1] != '\0' \|\|
164	locns[i][malloc_size( locns[i] ) - 1] != '\0' \|\|
165	! malloc_zero_fill( locns[i] ) ) abort( "calloc/free corrupt storage5" );
166	locns[i][0] = '\345'; locns[i][s - 1] = '\345'; // fill first/last
167	locns[i][malloc_usable_size( locns[i] ) - 1] = '\345'; // fill ultimate byte
168	} // for
169	for ( i; NoOfMmaps ) {
170	size_t s = i + default_mmap_start(); // cross over point
171	if ( locns[i][0] != '\345' \|\| locns[i][s - 1] != '\345' \|\|
172	locns[i][malloc_usable_size( locns[i] ) - 1] != '\345' ) abort( "calloc/free corrupt storage6" );
173	free( locns[i] );
174	} // for
175
176	// check memalign/free (sbrk)
177
178	for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
179	//sout \| alignments[a];
180	for ( s; 1 ~ NoOfAllocs ) { // allocation of size 0 can return null
181	char * area = (char *)memalign( a, s );
182	//sout \| i \| area;
183	if ( (size_t)area % a != 0 \|\| malloc_alignment( area ) != a ) { // check for initial alignment
184	abort( "memalign/free bad alignment : memalign(%d,%d) = %p", (int)a, s, area );
185	} // if
186	area[0] = '\345'; area[s - 1] = '\345'; // fill first/last byte
187	area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
188	free( area );
189	} // for
190	} // for
191
192	// check memalign/free (mmap)
193
194	for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
195	//sout \| alignments[a];
196	for ( i; 1 ~ NoOfMmaps ) {
197	size_t s = i + default_mmap_start(); // cross over point
198	char * area = (char *)memalign( a, s );
199	//sout \| i \| area;
200	if ( (size_t)area % a != 0 \|\| malloc_alignment( area ) != a ) { // check for initial alignment
201	abort( "memalign/free bad alignment : memalign(%d,%d) = %p", (int)a, (int)s, area );
202	} // if
203	area[0] = '\345'; area[s - 1] = '\345'; // fill first/last byte
204	area[malloc_usable_size( area ) - 1] = '\345'; // fill ultimate byte
205	free( area );
206	} // for
207	} // for
208
209	// check calloc/realloc/free (sbrk)
210
211	for ( i; 1 ~ 10_000 ~ 12 ) {
212	// initial N byte allocation
213	char * area = (char *)calloc( 5, i );
214	if ( area[0] != '\0' \|\| area[i - 1] != '\0' \|\|
215	area[malloc_size( area ) - 1] != '\0' \|\|
216	! malloc_zero_fill( area ) ) abort( "calloc/realloc/free corrupt storage1" );
217
218	// Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
219	for ( s; i ~ 256 * 1024 ~ 26 ) { // start at initial memory request
220	area = (char *)realloc( area, s ); // attempt to reuse storage
221	if ( area[0] != '\0' \|\| area[s - 1] != '\0' \|\|
222	area[malloc_size( area ) - 1] != '\0' \|\|
223	! malloc_zero_fill( area ) ) abort( "calloc/realloc/free corrupt storage2" );
224	} // for
225	free( area );
226	} // for
227
228	// check calloc/realloc/free (mmap)
229
230	for ( i; 1 ~ 10_000 ~ 12 ) {
231	// initial N byte allocation
232	size_t s = i + default_mmap_start(); // cross over point
233	char * area = (char *)calloc( 1, s );
234	// if ( area == 0p ) abort( "calloc/realloc/free out of memory" );
235	if ( area[0] != '\0' \|\| area[s - 1] != '\0' \|\|
236	area[malloc_size( area ) - 1] != '\0' \|\|
237	! malloc_zero_fill( area ) ) //abort( "calloc/realloc/free corrupt storage3" );
238	printf( "C %zd %d %d %d %d\n", s, area[0] != '\0', area[s - 1] != '\0', area[malloc_size( area ) - 1] != '\0', ! malloc_zero_fill( area ) );
239
240	// Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
241	for ( r; i ~ 256 * 1024 ~ 26 ) { // start at initial memory request
242	area = (char *)realloc( area, r ); // attempt to reuse storage
243	// if ( area == 0p ) abort( "calloc/realloc/free out of memory" );
244	if ( area[0] != '\0' \|\| area[r - 1] != '\0' \|\|
245	area[malloc_size( area ) - 1] != '\0' \|\|
246	! malloc_zero_fill( area ) ) abort( "calloc/realloc/free corrupt storage4" );
247	} // for
248	free( area );
249	} // for
250
251	// check memalign/realloc/free
252
253	amount = 2;
254	for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
255	// initial N byte allocation
256	char * area = (char *)memalign( a, amount ); // aligned N-byte allocation
257	// if ( area == 0p ) abort( "memalign/realloc/free out of memory" ); // no storage ?
258	//sout \| alignments[a] \| area;
259	if ( (size_t)area % a != 0 \|\| malloc_alignment( area ) != a ) { // check for initial alignment
260	abort( "memalign/realloc/free bad alignment : memalign(%d,%d) = %p", (int)a, (int)amount, area );
261	} // if
262	area[0] = '\345'; area[amount - 2] = '\345'; // fill first/penultimate byte
263
264	// Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
265	for ( s; amount ~ 256 * 1024 ) { // start at initial memory request
266	if ( area[0] != '\345' \|\| area[s - 2] != '\345' ) abort( "memalign/realloc/free corrupt storage" );
267	area = (char *)realloc( area, s ); // attempt to reuse storage
268	//sout \| i \| area;
269	if ( (size_t)area % a != 0 ) { // check for initial alignment
270	abort( "memalign/realloc/free bad alignment %p", area );
271	} // if
272	area[s - 1] = '\345'; // fill last byte
273	} // for
274	free( area );
275	} // for
276
277	// check cmemalign/free
278
279	for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
280	//sout \| alignments[a];
281	for ( s; 1 ~ limit ) { // allocation of size 0 can return null
282	char * area = (char *)cmemalign( a, 1, s );
283	//sout \| i \| area;
284	if ( (size_t)area % a != 0 \|\| malloc_alignment( area ) != a ) { // check for initial alignment
285	abort( "cmemalign/free bad alignment : cmemalign(%d,%d) = %p", (int)a, s, area );
286	} // if
287	if ( area[0] != '\0' \|\| area[s - 1] != '\0' \|\|
288	area[malloc_size( area ) - 1] != '\0' \|\|
289	! malloc_zero_fill( area ) ) abort( "cmemalign/free corrupt storage" );
290	area[0] = '\345'; area[s - 1] = '\345'; // fill first/last byte
291	free( area );
292	} // for
293	} // for
294
295	// check cmemalign/realloc/free
296
297	amount = 2;
298	for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
299	// initial N byte allocation
300	char * area = (char *)cmemalign( a, 1, amount ); // aligned N-byte allocation
301	//sout \| alignments[a] \| area;
302	if ( (size_t)area % a != 0 \|\| malloc_alignment( area ) != a ) { // check for initial alignment
303	abort( "cmemalign/realloc/free bad alignment : cmemalign(%d,%d) = %p", (int)a, (int)amount, area );
304	} // if
305	if ( area[0] != '\0' \|\| area[amount - 1] != '\0' \|\|
306	area[malloc_size( area ) - 1] != '\0' \|\|
307	! malloc_zero_fill( area ) ) abort( "cmemalign/realloc/free corrupt storage1" );
308	area[0] = '\345'; area[amount - 2] = '\345'; // fill first/penultimate byte
309
310	// Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
311	for ( s; amount ~ 256 * 1024 ) { // start at initial memory request
312	if ( area[0] != '\345' \|\| area[s - 2] != '\345' ) abort( "cmemalign/realloc/free corrupt storage2" );
313	area = (char *)realloc( area, s ); // attempt to reuse storage
314	//sout \| i \| area;
315	if ( (size_t)area % a != 0 \|\| malloc_alignment( area ) != a ) { // check for initial alignment
316	abort( "cmemalign/realloc/free bad alignment %p", area );
317	} // if
318	if ( area[0] != '\345' \|\| area[s - 1] != '\0' \|\|
319	area[malloc_size( area ) - 1] != '\0' \|\|
320	! malloc_zero_fill( area ) ) abort( "cmemalign/realloc/free corrupt storage3" );
321	area[s - 1] = '\345'; // fill last byte
322	} // for
323	free( area );
324	} // for
325
326	// check memalign/realloc with align/free
327
328	amount = 2;
329	for ( a; libAlign() ~= limit ~ a ) { // generate powers of 2
330	// initial N byte allocation
331	char * area = (char *)memalign( a, amount ); // aligned N-byte allocation
332	//sout \| alignments[a] \| area \| endl;
333	if ( (size_t)area % a != 0 \|\| malloc_alignment( area ) != a ) { // check for initial alignment
334	abort( "memalign/realloc with align/free bad alignment : memalign(%d,%d) = %p", (int)a, (int)amount, area );
335	} // if
336	area[0] = '\345'; area[amount - 2] = '\345'; // fill first/penultimate byte
337
338	// Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
339	for ( s; amount ~ 256 * 1024 ) { // start at initial memory request
340	if ( area[0] != '\345' \|\| area[s - 2] != '\345' ) abort( "memalign/realloc/free corrupt storage" );
341	area = (char )realloc( area, a 2, s ); // attempt to reuse storage
342	//sout \| i \| area \| endl;
343	if ( (size_t)area % a * 2 != 0 ) { // check for initial alignment
344	abort( "memalign/realloc with align/free bad alignment %p", area );
345	} // if
346	area[s - 1] = '\345'; // fill last byte
347	} // for
348	free( area );
349	} // for
350
351	// check cmemalign/realloc with align/free
352
353	amount = 2;
354	for ( size_t a = libAlign() + libAlign(); a <= limit; a += a ) { // generate powers of 2
355	// initial N byte allocation
356	char * area = (char *)cmemalign( a, 1, amount ); // aligned N-byte allocation
357	//sout \| alignments[a] \| area \| endl;
358	if ( (size_t)area % a != 0 \|\| malloc_alignment( area ) != a ) { // check for initial alignment
359	abort( "cmemalign/realloc with align/free bad alignment : cmemalign(%d,%d) = %p", (int)a, (int)amount, area );
360	} // if
361	if ( area[0] != '\0' \|\| area[amount - 1] != '\0' \|\|
362	area[malloc_size( area ) - 1] != '\0' \|\|
363	! malloc_zero_fill( area ) ) abort( "cmemalign/realloc with align/free corrupt storage1" );
364	area[0] = '\345'; area[amount - 2] = '\345'; // fill first/penultimate byte
365
366	// Do not start this loop index at 0 because realloc of 0 bytes frees the storage.
367	for ( int s = amount; s < 256 * 1024; s += 1 ) { // start at initial memory request
368	if ( area[0] != '\345' \|\| area[s - 2] != '\345' ) abort( "cmemalign/realloc with align/free corrupt storage2" );
369	area = (char )realloc( area, a 2, s ); // attempt to reuse storage
370	//sout \| i \| area \| endl;
371	if ( (size_t)area % a * 2 != 0 \|\| malloc_alignment( area ) != a * 2 ) { // check for initial alignment
372	abort( "cmemalign/realloc with align/free bad alignment %p %zd %zd", area, malloc_alignment( area ), a * 2 );
373	} // if
374	if ( area[s - 1] != '\0' \|\| area[s - 1] != '\0' \|\|
375	area[malloc_size( area ) - 1] != '\0' \|\|
376	! malloc_zero_fill( area ) ) abort( "cmemalign/realloc/free corrupt storage3" );
377	area[s - 1] = '\345'; // fill last byte
378	} // for
379	free( area );
380	} // for
381
382	//sout \| "worker" \| thisTask() \| "successful completion";
383	} // Worker main
384
385	int main() {
386	const unsigned int NoOfWorkers = 4;
387	{
388	processor processors[NoOfWorkers - 1] __attribute__(( unused )); // more than one processor
389	Worker workers[NoOfWorkers] __attribute__(( unused ));
390	}
391	// checkFreeOn();
392	// malloc_stats();
393	}
394
395	// Local Variables: //
396	// tab-width: 4 //
397	// compile-command: "cfa -nodebug -O2 heap.cfa" //
398	// End: //

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