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source: src/tests/alloc.c @ d56cc219

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsdeferred_resndemanglerenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxnew-astnew-ast-unique-exprnew-envno_listpersistent-indexerpthread-emulationqualifiedEnumwith_gc

Last change on this file since d56cc219 was 6ea0408, checked in by Peter A. Buhr <pabuhr@…>, 6 years ago
fixed format and output for printing fill character
Property mode set to `100644`
File size: 8.3 KB

Rev	Line
[2afec66]	1	//
[fab700b]	2	// Cforall Version 1.0.0 Copyright (C) 2016 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	//
[2afec66]	7	// alloc.c --
	8	//
[fab700b]	9	// Author : Peter A. Buhr
	10	// Created On : Wed Feb 3 07:56:22 2016
	11	// Last Modified By : Peter A. Buhr
[6ea0408]	12	// Last Modified On : Fri Feb 16 15:42:31 2018
	13	// Update Count : 330
[2afec66]	14	//
[fab700b]	15
[91c389a]	16	#include <assert.h>
[fab700b]	17	#include <malloc.h> // malloc_usable_size
	18	#include <stdint.h> // uintptr_t
[6065b3aa]	19	#include <stdlib.h> // posix_memalign
[fab700b]	20	#include <fstream>
[e672372]	21	#include <stdlib> // access C malloc, realloc
[fab700b]	22
	23	int * foo( int * p, int c ) { return p; }
	24	int * bar( int * p, int c ) { return p; }
	25	int * baz( int * p, int c ) { return p; }
	26
	27	int main( void ) {
[2afec66]	28	size_t dim = 10;
[2dcb750]	29	char fill = '\xff';
[2afec66]	30	int * p;
[fab700b]	31
	32	// allocation, non-array types
	33
[fc67d6f]	34	// int & r = malloc();
[e672372]	35	// r = 0xdeadbeef;
	36	// printf( "C malloc %#x\n", r );
	37	// free( &r );
	38
[fc67d6f]	39	p = (int )malloc( sizeof(p) ); // C malloc, type unsafe
[fab700b]	40	*p = 0xdeadbeef;
[6065b3aa]	41	printf( "C malloc %#x\n", *p );
[2afec66]	42	free( p );
[fab700b]	43
[2afec66]	44	p = malloc(); // CFA malloc, type safe
[6065b3aa]	45	*p = 0xdeadbeef;
	46	printf( "CFA malloc %#x\n", *p );
[2afec66]	47	free( p );
[6065b3aa]	48
[2afec66]	49	p = alloc(); // CFA alloc, type safe
[6065b3aa]	50	*p = 0xdeadbeef;
	51	printf( "CFA alloc %#x\n", *p );
[2afec66]	52	free( p );
[fab700b]	53
[2afec66]	54	p = alloc( fill ); // CFA alloc, fill
[6065b3aa]	55	printf( "CFA alloc, fill %08x\n", *p );
[fab700b]	56
	57
	58	// allocation, array types
	59	printf( "\n" );
	60
[e672372]	61	p = (int )calloc( dim, sizeof( p ) ); // C array calloc, type unsafe
[6065b3aa]	62	printf( "C array calloc, fill 0\n" );
	63	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	64	printf( "\n" );
[2afec66]	65	free( p );
[fab700b]	66
[2afec66]	67	p = calloc( dim ); // CFA array calloc, type safe
[6065b3aa]	68	printf( "CFA array calloc, fill 0\n" );
	69	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	70	printf( "\n" );
[2afec66]	71	free( p );
[fab700b]	72
[2afec66]	73	p = alloc( dim ); // CFA array alloc, type safe
[6065b3aa]	74	for ( int i = 0; i < dim; i += 1 ) { p[i] = 0xdeadbeef; }
	75	printf( "CFA array alloc, no fill\n" );
	76	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	77	printf( "\n" );
[2afec66]	78	free( p );
[fab700b]	79
[2afec66]	80	p = alloc( 2 * dim, fill ); // CFA array alloc, fill
[6ea0408]	81	printf( "CFA array alloc, fill %#hhx\n", fill );
[6065b3aa]	82	for ( int i = 0; i < 2 * dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	83	printf( "\n" );
	84	// do not free
	85
	86
	87	// resize, non-array types
	88	printf( "\n" );
	89
[fc67d6f]	90	p = (int )realloc( p, dim sizeof(*p) ); // C realloc
[6065b3aa]	91	for ( int i = 0; i < dim; i += 1 ) { p[i] = 0xdeadbeef; }
[a4683611]	92	printf( "C realloc\n" );
[6065b3aa]	93	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	94	printf( "\n" );
	95
[2afec66]	96	p = realloc( p, 2 * dim * sizeof(*p) ); // CFA realloc
[6065b3aa]	97	for ( int i = dim; i < 2 * dim; i += 1 ) { p[i] = 0x1010101; }
[a4683611]	98	printf( "CFA realloc\n" );
[6065b3aa]	99	for ( int i = 0; i < 2 * dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	100	printf( "\n" );
[6065b3aa]	101	// do not free
[fab700b]	102
	103
[6065b3aa]	104	// resize, array types
[fab700b]	105	printf( "\n" );
	106
[2afec66]	107	p = alloc( p, dim ); // CFA resize array alloc
[6065b3aa]	108	for ( int i = 0; i < dim; i += 1 ) { p[i] = 0xdeadbeef; }
[a4683611]	109	printf( "CFA resize alloc\n" );
[6065b3aa]	110	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	111	printf( "\n" );
	112
[2afec66]	113	p = alloc( p, 2 * dim ); // CFA resize array alloc
[6065b3aa]	114	for ( int i = dim; i < 2 * dim; i += 1 ) { p[i] = 0x1010101; }
[a4683611]	115	printf( "CFA resize array alloc\n" );
[6065b3aa]	116	for ( int i = 0; i < 2 * dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	117	printf( "\n" );
	118
[2afec66]	119	p = alloc( p, dim ); // CFA array alloc
[a4683611]	120	printf( "CFA resize array alloc\n" );
[6065b3aa]	121	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	122	printf( "\n" );
	123
[6065b3aa]	124	free( p );
	125	p = 0;
[fab700b]	126
[2afec66]	127	p = alloc( p, dim, fill ); // CFA array alloc, fill
[a4683611]	128	printf( "CFA resize array alloc, fill\n" );
[6065b3aa]	129	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	130	printf( "\n" );
	131
[2afec66]	132	p = alloc( p, 2 * dim, fill ); // CFA array alloc, fill
[a4683611]	133	printf( "CFA resize array alloc, fill\n" );
[6065b3aa]	134	for ( int i = 0; i < 2 * dim; i += 1 ) { printf( "%#x ", p[i] ); }
[fab700b]	135	printf( "\n" );
	136
[2afec66]	137	p = alloc( p, dim, fill ); // CFA array alloc, fill
[a4683611]	138	printf( "CFA resize array alloc, fill\n" );
[6065b3aa]	139	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x ", p[i] );; }
[fab700b]	140	printf( "\n" );
[6065b3aa]	141	free( p );
[fab700b]	142
	143
[2afec66]	144	struct Struct { int x; double y; };
	145	Struct st, st1, sta[dim], sta1[dim], * stp, * stp1;
[fab700b]	146
	147	// alignment, non-array types
	148	printf( "\n" );
	149	enum { Alignment = 128 };
[6065b3aa]	150
[6cfe8bb]	151	stp = &((Struct)memalign( Alignment, sizeof( *stp ) ) ){ 42, 42.5 }; // C memalign
[fab700b]	152	assert( (uintptr_t)stp % Alignment == 0 );
[6065b3aa]	153	printf( "C memalign %d %g\n", stp->x, stp->y );
[2afec66]	154	free( stp );
[fab700b]	155
[6cfe8bb]	156	stp = &(*memalign( Alignment )){ 42, 42.5 }; // CFA memalign
[fab700b]	157	assert( (uintptr_t)stp % Alignment == 0 );
	158	printf( "CFA memalign %d %g\n", stp->x, stp->y );
[2afec66]	159	free( stp );
[fab700b]	160
[2afec66]	161	posix_memalign( (void *)&stp, Alignment, sizeof( stp ) ); // C posix_memalign
[6065b3aa]	162	*stp = (Struct){ 42, 42.5 };
	163	assert( (uintptr_t)stp % Alignment == 0 );
	164	printf( "CFA posix_memalign %d %g\n", stp->x, stp->y );
[2afec66]	165	free( stp );
[6065b3aa]	166
[2afec66]	167	posix_memalign( &stp, Alignment ); // CFA posix_memalign
[fab700b]	168	*stp = (Struct){ 42, 42.5 };
	169	assert( (uintptr_t)stp % Alignment == 0 );
	170	printf( "CFA posix_memalign %d %g\n", stp->x, stp->y );
[2afec66]	171	free( stp );
[fab700b]	172
[6cfe8bb]	173	stp = &(*aligned_alloc( Alignment )){ 42, 42.5 }; // CFA aligned_alloc
[fab700b]	174	assert( (uintptr_t)stp % Alignment == 0 );
[6065b3aa]	175	printf( "CFA aligned_alloc %d %g\n", stp->x, stp->y );
[2afec66]	176	free( stp );
[6065b3aa]	177
[6cfe8bb]	178	stp = &(*align_alloc( Alignment )){ 42, 42.5 }; // CFA align_alloc
[6065b3aa]	179	assert( (uintptr_t)stp % Alignment == 0 );
	180	printf( "CFA align_alloc %d %g\n", stp->x, stp->y );
[2afec66]	181	free( stp );
[6065b3aa]	182
[2afec66]	183	stp = align_alloc( Alignment, fill ); // CFA memalign, fill
[6065b3aa]	184	assert( (uintptr_t)stp % Alignment == 0 );
	185	printf( "CFA align_alloc fill %#x %a\n", stp->x, stp->y );
[2afec66]	186	free( stp );
[fab700b]	187
	188
	189	// alignment, array types
	190	printf( "\n" );
	191
[2afec66]	192	stp = align_alloc( Alignment, dim ); // CFA array memalign
[fab700b]	193	assert( (uintptr_t)stp % Alignment == 0 );
[6065b3aa]	194	for ( int i = 0; i < dim; i += 1 ) { stp[i] = (Struct){ 42, 42.5 }; }
	195	printf( "CFA array align_alloc\n" );
	196	for ( int i = 0; i < dim; i += 1 ) { printf( "%d %g, ", stp[i].x, stp[i].y ); }
[fab700b]	197	printf( "\n" );
[2afec66]	198	free( stp );
[fab700b]	199
[2afec66]	200	stp = align_alloc( Alignment, dim, fill ); // CFA array memalign, fill
[fab700b]	201	assert( (uintptr_t)stp % Alignment == 0 );
[6065b3aa]	202	printf( "CFA array align_alloc, fill\n" );
	203	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x %a, ", stp[i].x, stp[i].y ); }
[fab700b]	204	printf( "\n" );
[2afec66]	205	free( stp );
[fab700b]	206
	207
	208	// data, non-array types
	209	printf( "\n" );
	210
[2afec66]	211	memset( &st, fill ); // CFA memset, type safe
[6065b3aa]	212	printf( "CFA memset %#x %a\n", st.x, st.y );
[2afec66]	213	memcpy( &st1, &st ); // CFA memcpy, type safe
[6065b3aa]	214	printf( "CFA memcpy %#x %a\n", st1.x, st1.y );
[fab700b]	215
	216
	217	// data, array types
	218	printf( "\n" );
	219
[2afec66]	220	memset( sta, dim, fill ); // CFA array memset, type safe
[fab700b]	221	printf( "CFA array memset\n" );
[6065b3aa]	222	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x %a, ", sta[i].x, sta[i].y ); }
[fab700b]	223	printf( "\n" );
	224
[2afec66]	225	memcpy( sta1, sta, dim ); // CFA array memcpy, type safe
[fab700b]	226	printf( "CFA memcpy\n" );
[6065b3aa]	227	for ( int i = 0; i < dim; i += 1 ) { printf( "%#x %a, ", sta1[i].x, sta1[i].y ); }
	228	printf( "\n" );
	229
	230
	231	// new, non-array types
	232	printf( "\n" );
	233
	234	stp = new( 42, 42.5 );
	235	stp1 = new( 42, 42.5 );
	236	printf( "CFA new initialize\n%d %g %d %g\n", stp->x, stp->y, stp1->x, stp1->y );
	237	delete( stp, stp1 );
	238
	239	// new, array types
	240	stp = anew( dim, 42, 42.5 );
	241	printf( "CFA array new initialize\n" );
	242	for ( int i = 0; i < dim; i += 1 ) { printf( "%d %g, ", stp[i].x, stp[i].y ); }
	243	printf( "\n" );
	244	stp1 = anew( dim, 42, 42.5 );
	245	for ( int i = 0; i < dim; i += 1 ) { printf( "%d %g, ", stp1[i].x, stp1[i].y ); }
	246	printf( "\n" );
	247	adelete( dim, stp, dim, stp1 );
	248
	249	// extras
[fab700b]	250	printf( "\n" );
	251
[2afec66]	252	float * fp = malloc() + 1;
	253	printf( "pointer arithmetic %d\n", fp == fp - 1 );
	254	free( fp - 1 );
[fab700b]	255
[2afec66]	256	p = foo( bar( baz( malloc(), 0 ), 0 ), 0 );
[fab700b]	257	*p = 0xdeadbeef;
[6065b3aa]	258	printf( "CFA deep malloc %#x\n", *p );
[2afec66]	259	free( p );
[fab700b]	260
[fc67d6f]	261	#ifdef ERR1
[fab700b]	262	stp = malloc();
	263	printf( "\nSHOULD FAIL\n" );
[fc67d6f]	264	p = realloc( stp, dim * sizeof( *stp ) );
	265	p = alloc( stp, dim * sizeof( *stp ) );
[2afec66]	266	p = memset( stp, 10 );
	267	p = memcpy( &st1, &st );
[cdbfab0]	268	#endif
[fab700b]	269	} // main
	270
	271	// Local Variables: //
	272	// tab-width: 4 //
	273	// compile-command: "cfa alloc.c" //
	274	// End: //

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