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source: tests/alloc2.cfa @ ad861ef

ADTast-experimental

Last change on this file since ad861ef was 116a2ea, checked in by Peter A. Buhr <pabuhr@…>, 18 months ago
new heap and associated tests updated
Property mode set to `100644`
File size: 23.5 KB

Line
1	#include <fstream.hfa> // sout
2	#include <malloc.h> // malloc_usable_size
3	#include <stdint.h> // uintptr_t
4	#include <stdlib.hfa> // access C malloc, realloc
5	#include <string.h> // memcmp
6
7	int tests_total;
8	int tests_failed;
9	size_t tAlign = 32;
10	struct S1 { int data; } __attribute__((aligned(32)));
11	typedef struct S1 T1;
12
13	void test_base( void * ip, size_t size, size_t align ) {
14	tests_total += 1;
15	// sout \| "DEBUG: starting test" \| tests_total;
16	bool passed = (malloc_size( ip ) == size) && (malloc_usable_size( ip ) >= size) && (malloc_alignment( ip ) == align) && ((uintptr_t)ip % align == 0);
17	if ( ! passed ) {
18	sout \| "base failed test" \| tests_total \| "ip" \| ip \| "size" \| size \| "align" \| align \| "but got size" \| malloc_size( ip ) \| "usable" \| malloc_usable_size( ip ) \| "align" \| malloc_alignment( ip );
19	tests_failed += 1;
20	} // if
21	// sout \| "DEBUG: done test" \| tests_total;
22	}
23
24	void test_fill( void * ip_, size_t start, size_t end, char fill ) {
25	tests_total += 1;
26	// sout \| "DEBUG: starting test" \| tests_total;
27	bool passed = true;
28	char * ip = (char *) ip_;
29	for ( i; start ~ end ) passed = passed && (ip[i] == fill);
30	if ( ! passed ) {
31	sout \| "fill1 failed test" \| tests_total \| "fill C";
32	tests_failed += 1;
33	} // if
34	// sout \| "DEBUG: done test" \| tests_total;
35	}
36
37	void test_fill( void * ip_, size_t start, size_t end, int fill ) {
38	tests_total += 1;
39	// sout \| "DEBUG: starting test" tests_total;
40	bool passed = true;
41	int * ip = (int *)ip_;
42	for ( i; start ~ end ) passed = passed && (ip[i] == fill);
43	if ( ! passed ) {
44	sout \| "fill2 failed test" \| tests_total \| "fill int";
45	tests_failed += 1;
46	} // if
47	// sout \| "DEBUG: done test" \| tests_total;
48	}
49
50	void test_fill( void * ip_, size_t start, size_t end, int * fill ) {
51	tests_total += 1;
52	// sout \| "DEBUG: starting test" \| tests_total;
53	bool passed = memcmp((void)((uintptr_t )ip_ + start ), (void)fill, end ) == 0;
54	if ( ! passed ) {
55	sout \| "fill3 failed test" \| tests_total \| "fill int A";
56	tests_failed += 1;
57	} // if
58	// sout \| "DEBUG: done test" \| tests_total;
59	}
60
61	void test_fill( void * ip_, size_t start, size_t end, T1 fill ) {
62	tests_total += 1;
63	// sout \| "DEBUG: starting test" \| tests_total;
64	bool passed = true;
65	T1 * ip = (T1 *) ip_;
66	for ( i; start ~ end ) passed = passed && (ip[i].data == fill.data );
67	if ( ! passed ) {
68	sout \| "fill4 failed test" \| tests_total \| "fill T1";
69	tests_failed += 1;
70	} // if
71	// sout \| "DEBUG: done test" \| tests_total;
72	}
73
74	void test_fill( void * ip_, size_t start, size_t end, T1 * fill ) {
75	tests_total += 1;
76	// sout \| "DEBUG: starting test" \| tests_total;
77	bool passed = memcmp( (void)((uintptr_t )ip_ + start ), (void)fill, end ) == 0;
78	if ( ! passed ) {
79	sout \| "fill5 failed test" \| tests_total \| "fill T1 A";
80	tests_failed += 1;
81	} // if
82	// sout \| "DEBUG: done test" \| tests_total;
83	}
84
85	void test_use( int * ip, size_t dim ) {
86	tests_total += 1;
87	// sout \| "DEBUG: starting test" \| tests_total;
88	bool passed = true;
89	for ( i; 0 ~ dim ) ip[i] = 0xdeadbeef;
90	for ( i; 0 ~ dim ) passed = passed && (ip[i] == 0xdeadbeef);
91	if ( ! passed ) {
92	sout \| "use1 failed test" \| tests_total \| "use int";
93	tests_failed += 1;
94	} // if
95	// sout \| "DEBUG: done test" \| tests_total;
96	}
97
98	void test_use( T1 * ip, size_t dim ) {
99	tests_total += 1;
100	// sout \| "DEBUG: starting test" \| tests_total;
101	bool passed = true;
102	for ( i; 0 ~ dim ) ip[i].data = 0xdeadbeef;
103	for ( i; 0 ~ dim ) passed = passed && (ip[i].data == 0xdeadbeef);
104	if ( ! passed ) {
105	sout \| "use2 failed test" \| tests_total \| "use T1";
106	tests_failed += 1;
107	} // if
108	// sout \| "DEBUG: done test" \| tests_total;
109	}
110
111	int main( void ) {
112	enum { dim = 8, align = 64, libAlign = libAlign() };
113	size_t elemSize = sizeof(int);
114	size_t size = dim * elemSize;
115
116	int FillT = 9;
117	char FillC = 'a';
118	int * FillA = calloc( dim / 4 );
119
120	T1 FillT1 = { FillT };
121	T1 * FillT1A = (T1 )(void ) malloc( (dim / 4) * sizeof(T1) );
122	for ( i; 0 ~ (dim / 4) ) FillT1A[i] = FillT1;
123
124	int * ip;
125	int * op;
126	double * dp;
127	T1 * t1p;
128	T1 * t1op;
129
130	// testing alloc
131
132	tests_total = 0;
133	tests_failed = 0;
134
135	ip = alloc();
136	test_base( ip, elemSize, libAlign );
137	test_use( ip, elemSize / elemSize );
138	free( ip );
139
140	ip = alloc( dim );
141	test_base( ip, size, libAlign );
142	test_use( ip, size / elemSize );
143	free( ip );
144
145	ip = alloc( 0 );
146	test_base( ip, 0, libAlign );
147	free( ip );
148
149	dp = alloc( dim );
150	ip = alloc( dp`resize );
151	test_base( ip, elemSize, libAlign );
152	test_use( ip, elemSize / elemSize );
153	free( ip );
154
155	ip = alloc( 0p`resize );
156	test_base( ip, elemSize, libAlign );
157	test_use( ip, elemSize / elemSize );
158	free( ip );
159
160	dp = alloc( dim );
161	ip = alloc( dim, dp`resize );
162	test_base( ip, size, libAlign );
163	test_use( ip, size / elemSize );
164	free( ip );
165
166	dp = alloc( dim );
167	ip = alloc( 0, dp`resize );
168	test_base( ip, 0, libAlign );
169	free( ip );
170
171	ip = alloc( dim, 0p`resize );
172	test_base( ip, size, libAlign );
173	test_use( ip, size / elemSize );
174	free( ip );
175
176	ip = alloc( 0, 0p`resize );
177	test_base( ip, 0, libAlign );
178	free( ip );
179
180	op = alloc( dim, 0xdeadbeefN`fill );
181	ip = alloc( dim, op`realloc );
182	test_base( ip, size, libAlign );
183	test_fill( ip, 0, dim, 0xdeadbeefN );
184	test_use( ip, size / elemSize );
185	free( ip );
186
187	op = alloc( dim, 0xdeadbeefN`fill );
188	ip = alloc( 0, op`realloc );
189	test_base( ip, 0, libAlign );
190	free( ip );
191
192	ip = alloc( dim, 0p`realloc );
193	test_base( ip, size, libAlign );
194	test_use( ip, size / elemSize );
195	free( ip );
196
197	ip = alloc( 0, 0p`realloc );
198	test_base( ip, 0, libAlign );
199	free( ip );
200
201	op = alloc( dim, 0xdeadbeefN`fill );
202	ip = alloc( dim, op`resize );
203	test_base( ip, size, libAlign );
204	test_use( ip, size / elemSize );
205	free( ip );
206
207	ip = alloc( FillC`fill );
208	test_base( ip, elemSize, libAlign );
209	test_fill( ip, 0, elemSize, FillC );
210	test_use( ip, elemSize / elemSize );
211	free( ip );
212
213	ip = alloc( FillT`fill );
214	test_base( ip, elemSize, libAlign );
215	test_fill( ip, 0, 1, FillT );
216	test_use( ip, elemSize / elemSize );
217	free( ip );
218
219	ip = alloc( dim, FillC`fill );
220	test_base( ip, size, libAlign );
221	test_fill( ip, 0, size, FillC );
222	test_use( ip, size / elemSize );
223	free( ip );
224
225	ip = alloc( 0, FillC`fill );
226	test_base( ip, 0, libAlign );
227	free( ip );
228
229	ip = alloc( dim, FillT`fill );
230	test_base( ip, size, libAlign );
231	test_fill( ip, 0, dim, FillT );
232	test_use( ip, size / elemSize );
233	free( ip );
234
235	ip = alloc( 0, FillT`fill );
236	test_base( ip, 0, libAlign );
237	free( ip );
238
239	ip = alloc( dim, [FillA, dim/4]`fill );
240	test_base( ip, size, libAlign );
241	test_fill( ip, 0, size/4, FillA );
242	test_use( ip, size / elemSize );
243	free( ip );
244
245	ip = alloc( 0, [FillA, dim/4]`fill );
246	test_base( ip, 0, libAlign );
247	free( ip );
248
249	op = alloc( dim, 0xdeadbeefN`fill );
250	ip = alloc( dim, op`realloc, FillC`fill );
251	test_base( ip, size, libAlign );
252	test_fill( ip, 0, dim, 0xdeadbeefN );
253	test_use( ip, size / elemSize );
254	free( ip );
255
256	op = alloc( dim, 0xdeadbeefN`fill );
257	ip = alloc( dim / 4, op`realloc, FillC`fill );
258	test_base( ip, size / 4, libAlign );
259	test_fill( ip, 0, dim / 4, 0xdeadbeefN );
260	test_use( ip, size / 4 / elemSize );
261	free( ip );
262
263	op = alloc( dim, 0xdeadbeefN`fill );
264	ip = alloc( dim * 4, op`realloc, FillC`fill );
265	test_base( ip, size * 4, libAlign );
266	test_fill( ip, 0, dim, 0xdeadbeefN );
267	test_fill( ip, size, size * 4, FillC );
268	test_use( ip, size * 4 / elemSize );
269	free( ip );
270
271	op = alloc( dim, 0xdeadbeefN`fill );
272	ip = alloc( 0, op`realloc, FillC`fill );
273	test_base( ip, 0, libAlign );
274	free( ip );
275
276	ip = alloc( dim, 0p`realloc, FillC`fill );
277	test_base( ip, size, libAlign );
278	test_fill( ip, 0, size, FillC );
279	test_use( ip, size / elemSize );
280	free( ip );
281
282	ip = alloc( 0, 0p`realloc, FillC`fill );
283	test_base( ip, 0, libAlign );
284	free( ip );
285
286	op = alloc( dim, 0xdeadbeefN`fill );
287	ip = alloc( dim, op`realloc, FillT`fill );
288	test_base( ip, size, libAlign );
289	test_fill( ip, 0, dim, 0xdeadbeefN );
290	test_use( ip, size / elemSize );
291	free( ip );
292
293	op = alloc( dim, 0xdeadbeefN`fill );
294	ip = alloc( dim / 4, op`realloc, FillT`fill );
295	test_base( ip, size / 4, libAlign );
296	test_fill( ip, 0, dim / 4, 0xdeadbeefN );
297	test_use( ip, size / 4 / elemSize );
298	free( ip );
299
300	op = alloc( dim, 0xdeadbeefN`fill );
301	ip = alloc( dim * 4, op`realloc, FillT`fill );
302	test_base( ip, size * 4, libAlign );
303	test_fill( ip, 0, dim, 0xdeadbeefN );
304	test_fill( ip, dim, dim * 4, FillT );
305	test_use( ip, size * 4 / elemSize );
306	free( ip );
307
308	op = alloc( dim, 0xdeadbeefN`fill );
309	ip = alloc( 0, op`realloc, FillT`fill );
310	test_base( ip, 0, libAlign );
311	free( ip );
312
313	ip = alloc( dim, 0p`realloc, FillT`fill );
314	test_base( ip, size, libAlign );
315	test_fill( ip, 0, dim, FillT );
316	test_use( ip, size / elemSize );
317	free( ip );
318
319	ip = alloc( 0, 0p`realloc, FillT`fill );
320	test_base( ip, 0, libAlign );
321	free( ip );
322
323	ip = alloc( align`align );
324	test_base( ip, elemSize, align );
325	test_use( ip, elemSize / elemSize );
326	free( ip );
327
328	ip = alloc( dim, align`align );
329	test_base( ip, size, align );
330	test_use( ip, size / elemSize );
331	free( ip );
332
333	ip = alloc( 0, align`align );
334	test_base( ip, 0, libAlign );
335	free( ip );
336
337	op = alloc( dim, 0xdeadbeefN`fill );
338	ip = alloc( op`realloc, align`align );
339	test_base( ip, elemSize, align );
340	test_fill( ip, 0, 1, 0xdeadbeefN );
341	test_use( ip, elemSize / elemSize );
342	free( ip );
343
344	ip = alloc( 0p`realloc, align`align );
345	test_base( ip, elemSize, align );
346	test_use( ip, elemSize / elemSize );
347	free( ip );
348
349	dp = alloc( dim );
350	ip = alloc( dp`resize, align`align );
351	test_base( ip, elemSize, align );
352	test_use( ip, elemSize / elemSize );
353	free( ip );
354
355	ip = alloc( 0p`resize, align`align );
356	test_base( ip, elemSize, align );
357	test_use( ip, elemSize / elemSize );
358	free( ip );
359
360	op = alloc( dim, 0xdeadbeefN`fill );
361	ip = alloc( dim, op`realloc, align`align );
362	test_base( ip, size, align );
363	test_fill( ip, 0, dim, 0xdeadbeefN );
364	test_use( ip, size / elemSize );
365	free( ip );
366
367	op = alloc( dim, 0xdeadbeefN`fill );
368	ip = alloc( 0, op`realloc, align`align );
369	test_base( ip, 0, libAlign );
370	free( ip );
371
372	ip = alloc( dim, 0p`realloc, align`align );
373	test_base( ip, size, align );
374	test_use( ip, size / elemSize );
375	free( ip );
376
377	ip = alloc( 0, 0p`realloc, align`align );
378	test_base( ip, 0, libAlign );
379	free( ip );
380
381	ip = alloc( align`align, FillC`fill );
382	test_base( ip, elemSize, align );
383	test_fill( ip, 0, elemSize, FillC );
384	test_use( ip, elemSize / elemSize );
385	free( ip );
386
387	ip = alloc( align`align, FillT`fill );
388	test_base( ip, elemSize, align );
389	test_fill( ip, 0, 1, FillT );
390	test_use( ip, elemSize / elemSize );
391	free( ip );
392
393	ip = alloc( dim, align`align, FillC`fill );
394	test_base( ip, size, align );
395	test_fill( ip, 0, size, FillC );
396	test_use( ip, size / elemSize );
397	free( ip );
398
399	ip = alloc( 0, align`align, FillC`fill );
400	test_base( ip, 0, libAlign );
401	free( ip );
402
403	ip = alloc( dim, align`align, FillT`fill );
404	test_base( ip, size, align );
405	test_fill( ip, 0, dim, FillT );
406	test_use( ip, size / elemSize );
407	free( ip );
408
409	ip = alloc( 0, align`align, FillT`fill );
410	test_base( ip, 0, libAlign );
411	free( ip );
412
413	ip = alloc( dim, align`align, [FillA, dim/4]`fill );
414	test_base( ip, size, align );
415	test_fill( ip, 0, size/4, FillA );
416	test_use( ip, size / elemSize );
417	free( ip );
418
419	ip = alloc( 0, align`align, [FillA, dim/4]`fill );
420	test_base( ip, 0, libAlign );
421	free( ip );
422
423	op = alloc( dim, 0xdeadbeefN`fill );
424	ip = alloc( dim, op`realloc, align`align, FillC`fill );
425	test_base( ip, size, align );
426	test_fill( ip, 0, dim, 0xdeadbeefN );
427	test_use( ip, size / elemSize );
428	free( ip );
429
430	op = alloc( dim, 0xdeadbeefN`fill );
431	ip = alloc( dim / 4, op`realloc, align`align, FillC`fill );
432	test_base( ip, size / 4, align );
433	test_fill( ip, 0, dim / 4, 0xdeadbeefN );
434	test_use( ip, size / 4 / elemSize );
435	free( ip );
436
437	op = alloc( dim, 0xdeadbeefN`fill );
438	ip = alloc( dim * 4, op`realloc, align`align, FillC`fill );
439	test_base( ip, size * 4, align );
440	test_fill( ip, 0, dim, 0xdeadbeefN );
441	test_fill( ip, size, size * 4, FillC );
442	test_use( ip, size * 4 / elemSize );
443	free( ip );
444
445	op = alloc( dim, 0xdeadbeefN`fill );
446	ip = alloc( 0, op`realloc, align`align, FillC`fill );
447	test_base( ip, 0, libAlign );
448	free( ip );
449
450	ip = alloc( dim, 0p`realloc, align`align, FillC`fill );
451	test_base( ip, size, align );
452	test_fill( ip, 0, size, FillC );
453	test_use( ip, size / elemSize );
454	free( ip );
455
456	ip = alloc( 0, 0p`realloc, align`align, FillC`fill );
457	test_base( ip, 0, libAlign );
458	free( ip );
459
460	op = alloc( dim, 0xdeadbeefN`fill );
461	ip = alloc( dim, op`realloc, align`align, FillT`fill );
462	test_base( ip, size, align );
463	test_fill( ip, 0, dim, 0xdeadbeefN );
464	test_use( ip, size / elemSize );
465	free( ip );
466
467	op = alloc( dim, 0xdeadbeefN`fill );
468	ip = alloc( dim / 4, op`realloc, align`align, FillT`fill );
469	test_base( ip, size / 4, align );
470	test_fill( ip, 0, dim / 4, 0xdeadbeefN );
471	test_use( ip, size / 4 / elemSize );
472	free( ip );
473
474	op = alloc( dim, 0xdeadbeefN`fill );
475	ip = alloc( dim * 4, op`realloc, align`align, FillT`fill );
476	test_base( ip, size * 4, align );
477	test_fill( ip, 0, dim, 0xdeadbeefN );
478	test_fill( ip, dim, dim * 4, FillT );
479	test_use( ip, size * 4 / elemSize );
480	free( ip );
481
482	op = alloc( dim, 0xdeadbeefN`fill );
483	ip = alloc( 0, op`realloc, align`align, FillT`fill );
484	test_base( ip, 0, libAlign );
485	free( ip );
486
487	ip = alloc( dim, 0p`realloc, align`align, FillT`fill );
488	test_base( ip, size, align );
489	test_fill( ip, 0, dim, FillT );
490	test_use( ip, size / elemSize );
491	free( ip );
492
493	ip = alloc( 0, 0p`realloc, align`align, FillT`fill );
494	test_base( ip, 0, libAlign );
495	free( ip );
496
497	if ( tests_failed == 0 ) sout \| "PASSED alloc tests" \| nl \| nl;
498	else sout \| "failed alloc tests :" \| tests_failed \| tests_total \| nl \| nl;
499
500	// testing alloc (aligned struct)
501
502	elemSize = sizeof(T1);
503	size = dim * elemSize;
504	tests_total = 0;
505	tests_failed = 0;
506
507	t1p = alloc();
508	test_base( t1p, elemSize, tAlign );
509	test_use( t1p, elemSize / elemSize );
510	free( t1p );
511
512	t1p = alloc( dim );
513	test_base( t1p, size, tAlign );
514	test_use( t1p, size / elemSize );
515	free( t1p );
516
517	t1p = alloc( 0 );
518	test_base( t1p, 0, libAlign );
519	free( t1p );
520
521	dp = alloc( dim );
522	t1p = alloc( dp`resize );
523	test_base( t1p, elemSize, tAlign );
524	test_use( t1p, elemSize / elemSize );
525	free( t1p );
526
527	t1p = alloc( 0p`resize );
528	test_base( t1p, elemSize, tAlign );
529	test_use( t1p, elemSize / elemSize );
530	free( t1p );
531
532	dp = alloc( dim );
533	t1p = alloc( dim, dp`resize );
534	test_base( t1p, size, tAlign );
535	test_use( t1p, size / elemSize );
536	free( t1p );
537
538	dp = alloc( dim );
539	t1p = alloc( 0, dp`resize );
540	test_base( t1p, 0, libAlign );
541	free( t1p );
542
543	t1p = alloc( dim, 0p`resize );
544	test_base( t1p, size, tAlign );
545	test_use( t1p, size / elemSize );
546	free( t1p );
547
548	t1p = alloc( 0, 0p`resize );
549	test_base( t1p, 0, libAlign );
550	free( t1p );
551
552	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
553	t1p = alloc( dim, t1op`realloc );
554	test_base( t1p, size, tAlign );
555	test_fill( t1p, 0, dim, (T1){0xdeadbeef});
556	test_use( t1p, size / elemSize );
557	free( t1p );
558
559	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
560	t1p = alloc( 0, t1op`realloc );
561	test_base( t1p, 0, libAlign );
562	free( t1p );
563
564	t1p = alloc( dim, 0p`realloc );
565	test_base( t1p, size, tAlign );
566	test_use( t1p, size / elemSize );
567	free( t1p );
568
569	t1p = alloc( 0, 0p`realloc );
570	test_base( t1p, 0, libAlign );
571	free( t1p );
572
573	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
574	t1p = alloc( dim, t1op`resize );
575	test_base( t1p, size, tAlign );
576	test_use( t1p, size / elemSize );
577	free( t1p );
578
579	t1p = alloc( FillC`fill );
580	test_base( t1p, elemSize, tAlign );
581	test_fill( t1p, 0, elemSize, FillC );
582	test_use( t1p, elemSize / elemSize );
583	free( t1p );
584
585	t1p = alloc( FillT1`fill );
586	test_base( t1p, elemSize, tAlign );
587	test_fill( t1p, 0, 1, FillT1);
588	test_use( t1p, elemSize / elemSize );
589	free( t1p );
590
591	t1p = alloc( dim, FillC`fill );
592	test_base( t1p, size, tAlign );
593	test_fill( t1p, 0, size, FillC );
594	test_use( t1p, size / elemSize );
595	free( t1p );
596
597	t1p = alloc( 0, FillC`fill );
598	test_base( t1p, 0, libAlign );
599	free( t1p );
600
601	t1p = alloc( dim, FillT1`fill );
602	test_base( t1p, size, tAlign );
603	test_fill( t1p, 0, dim, FillT1);
604	test_use( t1p, size / elemSize );
605	free( t1p );
606
607	t1p = alloc( 0, FillT1`fill );
608	test_base( t1p, 0, libAlign );
609	free( t1p );
610
611	t1p = alloc( dim, [FillT1A, dim / 4]`fill );
612	test_base( t1p, size, tAlign );
613	test_fill( t1p, 0, size/4, FillT1A );
614	test_use( t1p, size / elemSize );
615	free( t1p );
616
617	t1p = alloc( 0, [FillT1A, dim / 4]`fill );
618	test_base( t1p, 0, libAlign );
619	free( t1p );
620
621	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
622	t1p = alloc( dim, t1op`realloc, FillC`fill );
623	test_base( t1p, size, tAlign );
624	test_fill( t1p, 0, dim, (T1){0xdeadbeef});
625	test_use( t1p, size / elemSize );
626	free( t1p );
627
628	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
629	t1p = alloc( dim / 4, t1op`realloc, FillC`fill );
630	test_base( t1p, size / 4, tAlign );
631	test_fill( t1p, 0, dim / 4, (T1){0xdeadbeef});
632	test_use( t1p, size / 4 / elemSize );
633	free( t1p );
634
635	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
636	t1p = alloc( dim * 4, t1op`realloc, FillC`fill );
637	test_base( t1p, size * 4, tAlign );
638	test_fill( t1p, 0, dim, (T1){0xdeadbeef});
639	test_fill( t1p, size, size * 4, FillC );
640	test_use( t1p, size * 4 / elemSize );
641	free( t1p );
642
643	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
644	t1p = alloc( 0, t1op`realloc, FillC`fill );
645	test_base( t1p, 0, libAlign );
646	free( t1p );
647
648	t1p = alloc( dim, 0p`realloc, FillC`fill );
649	test_base( t1p, size, tAlign );
650	test_fill( t1p, 0, size, FillC );
651	test_use( t1p, size / elemSize );
652	free( t1p );
653
654	t1p = alloc( 0, 0p`realloc, FillC`fill );
655	test_base( t1p, 0, libAlign );
656	free( t1p );
657
658	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
659	t1p = alloc( dim, t1op`realloc, FillT1`fill );
660	test_base( t1p, size, tAlign );
661	test_fill( t1p, 0, dim, (T1){0xdeadbeef});
662	test_use( t1p, size / elemSize );
663	free( t1p );
664
665	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
666	t1p = alloc( dim / 4, t1op`realloc, FillT1`fill );
667	test_base( t1p, size / 4, tAlign );
668	test_fill( t1p, 0, dim / 4, (T1){0xdeadbeef});
669	test_use( t1p, size / 4 / elemSize );
670	free( t1p );
671
672	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
673	t1p = alloc( dim * 4, t1op`realloc, FillT1`fill );
674	test_base( t1p, size * 4, tAlign );
675	test_fill( t1p, 0, dim, (T1){0xdeadbeef});
676	test_fill( t1p, dim, dim * 4, FillT1);
677	test_use( t1p, size * 4 / elemSize );
678	free( t1p );
679
680	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
681	t1p = alloc( 0, t1op`realloc, FillT1`fill );
682	test_base( t1p, 0, libAlign );
683	free( t1p );
684
685	t1p = alloc( dim, 0p`realloc, FillT1`fill );
686	test_base( t1p, size, tAlign );
687	test_fill( t1p, 0, dim, FillT1);
688	test_use( t1p, size / elemSize );
689	free( t1p );
690
691	t1p = alloc( 0, 0p`realloc, FillT1`fill );
692	test_base( t1p, 0, libAlign );
693	free( t1p );
694
695	t1p = alloc( align`align );
696	test_base( t1p, elemSize, align );
697	test_use( t1p, elemSize / elemSize );
698	free( t1p );
699
700	t1p = alloc( dim, align`align );
701	test_base( t1p, size, align );
702	test_use( t1p, size / elemSize );
703	free( t1p );
704
705	t1p = alloc( 0, align`align );
706	test_base( t1p, 0, libAlign );
707	free( t1p );
708
709	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
710	t1p = alloc( t1op`realloc, align`align );
711	test_base( t1p, elemSize, align );
712	test_fill( t1p, 0, 1, (T1){0xdeadbeef});
713	test_use( t1p, elemSize / elemSize );
714	free( t1p );
715
716	t1p = alloc( 0p`realloc, align`align );
717	test_base( t1p, elemSize, align );
718	test_use( t1p, elemSize / elemSize );
719	free( t1p );
720
721	dp = alloc( dim );
722	t1p = alloc( dp`resize, align`align );
723	test_base( t1p, elemSize, align );
724	test_use( t1p, elemSize / elemSize );
725	free( t1p );
726
727	t1p = alloc( 0p`resize, align`align );
728	test_base( t1p, elemSize, align );
729	test_use( t1p, elemSize / elemSize );
730	free( t1p );
731
732	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
733	t1p = alloc( dim, t1op`realloc, align`align );
734	test_base( t1p, size, align );
735	test_fill( t1p, 0, dim, (T1){0xdeadbeef});
736	test_use( t1p, size / elemSize );
737	free( t1p );
738
739	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
740	t1p = alloc( 0, t1op`realloc, align`align );
741	test_base( t1p, 0, libAlign );
742	free( t1p );
743
744	t1p = alloc( dim, 0p`realloc, align`align );
745	test_base( t1p, size, align );
746	test_use( t1p, size / elemSize );
747	free( t1p );
748
749	t1p = alloc( 0, 0p`realloc, align`align );
750	test_base( t1p, 0, libAlign );
751	free( t1p );
752
753	t1p = alloc( align`align, FillC`fill );
754	test_base( t1p, elemSize, align );
755	test_fill( t1p, 0, elemSize, FillC );
756	test_use( t1p, elemSize / elemSize );
757	free( t1p );
758
759	t1p = alloc( align`align, FillT1`fill );
760	test_base( t1p, elemSize, align );
761	test_fill( t1p, 0, 1, FillT1);
762	test_use( t1p, elemSize / elemSize );
763	free( t1p );
764
765	t1p = alloc( dim, align`align, FillC`fill );
766	test_base( t1p, size, align );
767	test_fill( t1p, 0, size, FillC );
768	test_use( t1p, size / elemSize );
769	free( t1p );
770
771	t1p = alloc( 0, align`align, FillC`fill );
772	test_base( t1p, 0, libAlign );
773	free( t1p );
774
775	t1p = alloc( dim, align`align, FillT1`fill );
776	test_base( t1p, size, align );
777	test_fill( t1p, 0, dim, FillT1);
778	test_use( t1p, size / elemSize );
779	free( t1p );
780
781	t1p = alloc( 0, align`align, FillT1`fill );
782	test_base( t1p, 0, libAlign );
783	free( t1p );
784
785	t1p = alloc( dim, align`align, [FillT1A, dim / 4]`fill );
786	test_base( t1p, size, align );
787	test_fill( t1p, 0, size/4, FillT1A );
788	test_use( t1p, size / elemSize );
789	free( t1p );
790
791	t1p = alloc( 0, align`align, [FillT1A, dim / 4]`fill );
792	test_base( t1p, 0, libAlign );
793	free( t1p );
794
795	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
796	t1p = alloc( dim, t1op`realloc, align`align, FillC`fill );
797	test_base( t1p, size, align );
798	test_fill( t1p, 0, dim, (T1){0xdeadbeef});
799	test_use( t1p, size / elemSize );
800	free( t1p );
801
802	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
803	t1p = alloc( dim / 4, t1op`realloc, align`align, FillC`fill );
804	test_base( t1p, size / 4, align );
805	test_fill( t1p, 0, dim / 4, (T1){0xdeadbeef});
806	test_use( t1p, size / 4 / elemSize );
807	free( t1p );
808
809	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
810	t1p = alloc( dim * 4, t1op`realloc, align`align, FillC`fill );
811	test_base( t1p, size * 4, align );
812	test_fill( t1p, 0, dim, (T1){0xdeadbeef});
813	test_fill( t1p, size, size * 4, FillC );
814	test_use( t1p, size * 4 / elemSize );
815	free( t1p );
816
817	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
818	t1p = alloc( 0, t1op`realloc, align`align, FillC`fill );
819	test_base( t1p, 0, libAlign );
820	free( t1p );
821
822	t1p = alloc( dim, 0p`realloc, align`align, FillC`fill );
823	test_base( t1p, size, align );
824	test_fill( t1p, 0, size, FillC );
825	test_use( t1p, size / elemSize );
826	free( t1p );
827
828	t1p = alloc( 0, 0p`realloc, align`align, FillC`fill );
829	test_base( t1p, 0, libAlign );
830	free( t1p );
831
832	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
833	t1p = alloc( dim, t1op`realloc, align`align, FillT1`fill );
834	test_base( t1p, size, align );
835	test_fill( t1p, 0, dim, (T1){0xdeadbeef});
836	test_use( t1p, size / elemSize );
837	free( t1p );
838
839	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
840	t1p = alloc( dim / 4, t1op`realloc, align`align, FillT1`fill );
841	test_base( t1p, size / 4, align );
842	test_fill( t1p, 0, dim / 4, (T1){0xdeadbeef});
843	test_use( t1p, size / 4 / elemSize );
844	free( t1p );
845
846	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
847	t1p = alloc( dim * 4, t1op`realloc, align`align, FillT1`fill );
848	test_base( t1p, size * 4, align );
849	test_fill( t1p, 0, dim, (T1){0xdeadbeef});
850	test_fill( t1p, dim, dim * 4, FillT1);
851	test_use( t1p, size * 4 / elemSize );
852	free( t1p );
853
854	t1op = alloc( dim, ((T1){0xdeadbeef})`fill );
855	t1p = alloc( 0, t1op`realloc, align`align, FillT1`fill );
856	test_base( t1p, 0, libAlign );
857	free( t1p );
858
859	t1p = alloc( dim, 0p`realloc, align`align, FillT1`fill );
860	test_base( t1p, size, align );
861	test_fill( t1p, 0, dim, FillT1);
862	test_use( t1p, size / elemSize );
863	free( t1p );
864
865	t1p = alloc( 0, 0p`realloc, align`align, FillT1`fill );
866	test_base( t1p, 0, libAlign );
867	free( t1p );
868
869	if ( tests_failed == 0) sout \| "PASSED alloc tests (aligned struct)" \| nl \| nl;
870	else sout \| "failed alloc tests ( aligned struct ) :" \| tests_failed \| tests_total \| nl;
871
872	sout \| "(if applicable) alignment error below indicates memory trashing caused by test_use." \| nl \| nl;
873	free( FillA );
874	free( FillT1A );
875	} // main

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