[2afec66] | 1 | // |
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[fab700b] | 2 | // Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo |
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| 3 | // |
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| 4 | // The contents of this file are covered under the licence agreement in the |
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| 5 | // file "LICENCE" distributed with Cforall. |
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| 6 | // |
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[dc8511c] | 7 | // alloc.cfa -- |
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[2afec66] | 8 | // |
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[fab700b] | 9 | // Author : Peter A. Buhr |
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| 10 | // Created On : Wed Feb 3 07:56:22 2016 |
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| 11 | // Last Modified By : Peter A. Buhr |
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[a33704d] | 12 | // Last Modified On : Fri Oct 9 23:03:11 2020 |
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| 13 | // Update Count : 431 |
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[2afec66] | 14 | // |
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[fab700b] | 15 | |
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[91c389a] | 16 | #include <assert.h> |
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[fab700b] | 17 | #include <malloc.h> // malloc_usable_size |
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| 18 | #include <stdint.h> // uintptr_t |
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[6065b3aa] | 19 | #include <stdlib.h> // posix_memalign |
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[73abe95] | 20 | #include <fstream.hfa> |
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[eb5a115] | 21 | #include <stdlib.hfa> // access C malloc, realloc |
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[fab700b] | 22 | |
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| 23 | int * foo( int * p, int c ) { return p; } |
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| 24 | int * bar( int * p, int c ) { return p; } |
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| 25 | int * baz( int * p, int c ) { return p; } |
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| 26 | |
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| 27 | int main( void ) { |
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[2afec66] | 28 | size_t dim = 10; |
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[eb5a115] | 29 | char fill = '\xde'; |
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[cfbc703d] | 30 | int * ip, * ip1; |
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[fab700b] | 31 | |
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| 32 | // allocation, non-array types |
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| 33 | |
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[cfbc703d] | 34 | ip = (int *)malloc( sizeof(*ip) ); // C malloc, type unsafe |
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| 35 | *ip = 0xdeadbeef; |
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| 36 | printf( "C malloc %#x\n", *ip ); |
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| 37 | free( ip ); |
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[fab700b] | 38 | |
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[cfbc703d] | 39 | ip = malloc(); // CFA malloc, type safe |
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| 40 | *ip = 0xdeadbeef; |
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| 41 | printf( "CFA malloc %#x\n", *ip ); |
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| 42 | free( ip ); |
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[6065b3aa] | 43 | |
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[cfbc703d] | 44 | ip = alloc(); // CFA alloc, type safe |
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| 45 | *ip = 0xdeadbeef; |
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| 46 | printf( "CFA alloc %#x\n", *ip ); |
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| 47 | free( ip ); |
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[fab700b] | 48 | |
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[191a190] | 49 | ip = alloc( fill`fill ); // CFA alloc, fill |
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[cfbc703d] | 50 | printf( "CFA alloc, fill %08x\n", *ip ); |
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| 51 | free( ip ); |
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[fab700b] | 52 | |
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[191a190] | 53 | ip = alloc( 3`fill ); // CFA alloc, fill |
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[cfbc703d] | 54 | printf( "CFA alloc, fill %d\n", *ip ); |
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| 55 | free( ip ); |
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[eb5a115] | 56 | |
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[fab700b] | 57 | |
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| 58 | // allocation, array types |
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| 59 | printf( "\n" ); |
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| 60 | |
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[cfbc703d] | 61 | ip = (int *)calloc( dim, sizeof( *ip ) ); // C array calloc, type unsafe |
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[6065b3aa] | 62 | printf( "C array calloc, fill 0\n" ); |
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[cfbc703d] | 63 | for ( i; dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 64 | printf( "\n" ); |
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[cfbc703d] | 65 | free( ip ); |
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[fab700b] | 66 | |
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[cfbc703d] | 67 | ip = calloc( dim ); // CFA array calloc, type safe |
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[6065b3aa] | 68 | printf( "CFA array calloc, fill 0\n" ); |
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[cfbc703d] | 69 | for ( i; dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 70 | printf( "\n" ); |
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[cfbc703d] | 71 | free( ip ); |
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[fab700b] | 72 | |
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[cfbc703d] | 73 | ip = alloc( dim ); // CFA array alloc, type safe |
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| 74 | for ( i; dim ) { ip[i] = 0xdeadbeef; } |
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[6065b3aa] | 75 | printf( "CFA array alloc, no fill\n" ); |
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[cfbc703d] | 76 | for ( i; dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 77 | printf( "\n" ); |
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[cfbc703d] | 78 | free( ip ); |
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[fab700b] | 79 | |
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[191a190] | 80 | ip = alloc( 2 * dim, fill`fill ); // CFA array alloc, fill |
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[6ea0408] | 81 | printf( "CFA array alloc, fill %#hhx\n", fill ); |
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[cfbc703d] | 82 | for ( i; 2 * dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 83 | printf( "\n" ); |
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[cfbc703d] | 84 | free( ip ); |
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[eb5a115] | 85 | |
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[191a190] | 86 | ip = alloc( 2 * dim, ((int)0xdeadbeef)`fill ); // CFA array alloc, fill |
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[eb5a115] | 87 | printf( "CFA array alloc, fill %#hhx\n", 0xdeadbeef ); |
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[cfbc703d] | 88 | for ( i; 2 * dim ) { printf( "%#x ", ip[i] ); } |
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[eb5a115] | 89 | printf( "\n" ); |
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[fab700b] | 90 | // do not free |
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| 91 | |
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[191a190] | 92 | ip1 = alloc( 2 * dim, [ip, 2 * dim]`fill ); // CFA array alloc, fill |
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[eb5a115] | 93 | printf( "CFA array alloc, fill from array\n" ); |
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[cfbc703d] | 94 | for ( i; 2 * dim ) { printf( "%#x %#x, ", ip[i], ip1[i] ); } |
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| 95 | free( ip1 ); |
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[eb5a115] | 96 | printf( "\n" ); |
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| 97 | |
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[fab700b] | 98 | |
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[cfbc703d] | 99 | // realloc, non-array types |
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[fab700b] | 100 | printf( "\n" ); |
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| 101 | |
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[cfbc703d] | 102 | ip = (int *)realloc( ip, dim * sizeof(*ip) ); // C realloc |
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[eb5a115] | 103 | printf( "C realloc\n" ); |
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[cfbc703d] | 104 | for ( i; dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 105 | printf( "\n" ); |
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[eb5a115] | 106 | // do not free |
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[fab700b] | 107 | |
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[cfbc703d] | 108 | ip = realloc( ip, 2 * dim * sizeof(*ip) ); // CFA realloc |
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| 109 | for ( i; dim ~ 2 * dim ) { ip[i] = 0x1010101; } |
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[a4683611] | 110 | printf( "CFA realloc\n" ); |
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[cfbc703d] | 111 | for ( i; 2 * dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 112 | printf( "\n" ); |
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[6065b3aa] | 113 | // do not free |
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[fab700b] | 114 | |
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| 115 | |
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[cfbc703d] | 116 | // realloc, array types |
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| 117 | printf( "\n" ); |
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| 118 | |
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[191a190] | 119 | ip = alloc( dim, ip`realloc ); // CFA realloc array alloc |
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[cfbc703d] | 120 | for ( i; dim ) { ip[i] = 0xdeadbeef; } |
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| 121 | printf( "CFA realloc array alloc\n" ); |
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| 122 | for ( i; dim ) { printf( "%#x ", ip[i] ); } |
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| 123 | printf( "\n" ); |
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| 124 | // do not free |
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| 125 | |
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[191a190] | 126 | ip = alloc( 2 * dim, ip`realloc ); // CFA realloc array alloc |
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[cfbc703d] | 127 | for ( i; dim ~ 2 * dim ) { ip[i] = 0x1010101; } // fill upper part |
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| 128 | printf( "CFA realloc array alloc\n" ); |
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| 129 | for ( i; 2 * dim ) { printf( "%#x ", ip[i] ); } |
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| 130 | printf( "\n" ); |
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| 131 | // do not free |
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| 132 | |
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[191a190] | 133 | ip = alloc( dim, ip`realloc ); // CFA realloc array alloc |
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[cfbc703d] | 134 | printf( "CFA realloc array alloc\n" ); |
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| 135 | for ( i; dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 136 | printf( "\n" ); |
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[cfbc703d] | 137 | // do not free |
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[fab700b] | 138 | |
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[191a190] | 139 | ip = alloc( 3 * dim, ip`realloc, fill`fill ); // CFA realloc array alloc, fill |
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[cfbc703d] | 140 | printf( "CFA realloc array alloc, fill\n" ); |
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| 141 | for ( i; 3 * dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 142 | printf( "\n" ); |
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[eb5a115] | 143 | // do not free |
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[fab700b] | 144 | |
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[191a190] | 145 | ip = alloc( dim, ip`realloc, fill`fill ); // CFA realloc array alloc, fill |
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[cfbc703d] | 146 | printf( "CFA realloc array alloc, fill\n" ); |
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| 147 | for ( i; dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 148 | printf( "\n" ); |
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[eb5a115] | 149 | // do not free |
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[fab700b] | 150 | |
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[191a190] | 151 | ip = alloc( 3 * dim, ip`realloc, fill`fill ); // CFA realloc array alloc, fill |
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[cfbc703d] | 152 | printf( "CFA realloc array alloc, fill\n" ); |
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[23ecea4] | 153 | for ( i; 3 * dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 154 | printf( "\n" ); |
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[eb5a115] | 155 | // do not free |
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[23ecea4] | 156 | #if 0 // FIX ME |
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[191a190] | 157 | ip = alloc( 5 * dim, ip`realloc, 5`fill ); // CFA realloc array alloc, 5 |
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[cfbc703d] | 158 | printf( "CFA realloc array alloc, 5\n" ); |
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[23ecea4] | 159 | for ( i; 5 * dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 160 | printf( "\n" ); |
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[eb5a115] | 161 | // do not free |
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[fab700b] | 162 | |
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[191a190] | 163 | ip = alloc( dim, ip`realloc, 5`fill ); // CFA realloc array alloc, 5 |
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[cfbc703d] | 164 | printf( "CFA realloc array alloc, 5\n" ); |
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| 165 | for ( i; dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 166 | printf( "\n" ); |
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[eb5a115] | 167 | // do not free |
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[fab700b] | 168 | |
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[191a190] | 169 | ip = alloc( 5 * dim, ip`realloc, 5`fill ); // CFA realloc array alloc, 5 |
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[cfbc703d] | 170 | printf( "CFA realloc array alloc, 5\n" ); |
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[23ecea4] | 171 | for ( i; 5 * dim ) { printf( "%#x ", ip[i] ); } |
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[fab700b] | 172 | printf( "\n" ); |
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[23ecea4] | 173 | #endif // 0 |
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[9d5d01f] | 174 | free( ip ); |
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[cfbc703d] | 175 | |
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| 176 | // resize, non-array types |
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| 177 | |
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| 178 | struct S { |
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| 179 | int a[5]; |
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| 180 | }; |
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| 181 | |
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| 182 | ip = alloc(); |
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| 183 | *ip = 5; |
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[191a190] | 184 | double * dp = alloc( ip`resize ); |
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[cfbc703d] | 185 | *dp = 5.5; |
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[191a190] | 186 | S * sp = alloc( dp`resize ); |
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[cfbc703d] | 187 | *sp = (S){ {0, 1, 2, 3, 4} }; |
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[191a190] | 188 | ip = alloc( sp`resize ); |
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[cfbc703d] | 189 | *ip = 3; |
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| 190 | free( ip ); |
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| 191 | |
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| 192 | |
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| 193 | // resize, array types |
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| 194 | |
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| 195 | ip = alloc( 5 ); |
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| 196 | for ( i; 5 ) { ip[i] = 5; } |
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[191a190] | 197 | dp = alloc( 5, ip`resize ); |
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[cfbc703d] | 198 | for ( i; 5 ) { dp[i] = 5.5; } |
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[191a190] | 199 | sp = alloc( 5, dp`resize ); |
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[cfbc703d] | 200 | for ( i; 5 ) { sp[i] = (S){ {0, 1, 2, 3, 4} }; } |
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[191a190] | 201 | ip = alloc( 3, sp`resize ); |
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[cfbc703d] | 202 | for ( i; 3 ) { ip[i] = 3; } |
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[191a190] | 203 | ip = alloc( 7, ip`realloc ); |
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[cfbc703d] | 204 | for ( i; 7 ) { ip[i] = 7; } |
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[191a190] | 205 | ip = alloc( 7, ip`resize ); |
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[cfbc703d] | 206 | for ( i; 7 ) { ip[i] = 7; } |
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| 207 | free( ip ); |
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[fab700b] | 208 | |
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| 209 | |
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[55acc3a] | 210 | int const_count, dest_count; |
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[2afec66] | 211 | struct Struct { int x; double y; }; |
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[55acc3a] | 212 | void ?{}( Struct & a ) { // construct |
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| 213 | a.[ x, y ] = [ -1, -1.0 ]; |
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| 214 | } |
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| 215 | void ?{}( Struct & a, int x, double y ) { // initialize |
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| 216 | a.[ x, y ] = [ x, y ]; |
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| 217 | const_count++; |
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| 218 | } |
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| 219 | void ^?{}( Struct & a ) { dest_count++; } // destruct |
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[2afec66] | 220 | Struct st, st1, sta[dim], sta1[dim], * stp, * stp1; |
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[fab700b] | 221 | |
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| 222 | // alignment, non-array types |
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| 223 | printf( "\n" ); |
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| 224 | enum { Alignment = 128 }; |
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[6065b3aa] | 225 | |
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[6cfe8bb] | 226 | stp = &(*(Struct*)memalign( Alignment, sizeof( *stp ) ) ){ 42, 42.5 }; // C memalign |
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[fab700b] | 227 | assert( (uintptr_t)stp % Alignment == 0 ); |
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[6065b3aa] | 228 | printf( "C memalign %d %g\n", stp->x, stp->y ); |
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[2afec66] | 229 | free( stp ); |
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[fab700b] | 230 | |
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[cfbc703d] | 231 | stp = &(*memalign( Alignment )){ 42, 42.5 }; // CFA memalign |
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[fab700b] | 232 | assert( (uintptr_t)stp % Alignment == 0 ); |
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| 233 | printf( "CFA memalign %d %g\n", stp->x, stp->y ); |
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[2afec66] | 234 | free( stp ); |
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[fab700b] | 235 | |
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[2afec66] | 236 | posix_memalign( (void **)&stp, Alignment, sizeof( *stp ) ); // C posix_memalign |
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[6065b3aa] | 237 | *stp = (Struct){ 42, 42.5 }; |
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| 238 | assert( (uintptr_t)stp % Alignment == 0 ); |
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| 239 | printf( "CFA posix_memalign %d %g\n", stp->x, stp->y ); |
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[2afec66] | 240 | free( stp ); |
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[6065b3aa] | 241 | |
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[2afec66] | 242 | posix_memalign( &stp, Alignment ); // CFA posix_memalign |
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[fab700b] | 243 | *stp = (Struct){ 42, 42.5 }; |
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| 244 | assert( (uintptr_t)stp % Alignment == 0 ); |
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| 245 | printf( "CFA posix_memalign %d %g\n", stp->x, stp->y ); |
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[2afec66] | 246 | free( stp ); |
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[fab700b] | 247 | |
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[191a190] | 248 | stp = &(*alloc( Alignment`align)){ 42, 42.5 }; // CFA alloc_align |
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[fab700b] | 249 | assert( (uintptr_t)stp % Alignment == 0 ); |
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[eb5a115] | 250 | printf( "CFA alloc_align %d %g\n", stp->x, stp->y ); |
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[2afec66] | 251 | free( stp ); |
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[6065b3aa] | 252 | |
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[191a190] | 253 | stp = &(*alloc( Alignment`align )){ 42, 42.5 }; // CFA alloc_align |
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[6065b3aa] | 254 | assert( (uintptr_t)stp % Alignment == 0 ); |
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[eb5a115] | 255 | printf( "CFA alloc_align %d %g\n", stp->x, stp->y ); |
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[2afec66] | 256 | free( stp ); |
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[6065b3aa] | 257 | |
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[191a190] | 258 | stp = alloc( Alignment`align, fill`fill ); // CFA memalign, fill |
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[6065b3aa] | 259 | assert( (uintptr_t)stp % Alignment == 0 ); |
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[eb5a115] | 260 | printf( "CFA alloc_align fill %#x %a\n", stp->x, stp->y ); |
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| 261 | free( stp ); |
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| 262 | |
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[191a190] | 263 | stp = alloc( Alignment`align, (Struct){ 42, 42.5 }`fill ); // CFA memalign, fill |
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[eb5a115] | 264 | assert( (uintptr_t)stp % Alignment == 0 ); |
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| 265 | printf( "CFA alloc_align fill %d %g\n", stp->x, stp->y ); |
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| 266 | // do not free |
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| 267 | |
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[191a190] | 268 | stp = &(*alloc( stp`realloc, 4096`align )){ 42, 42.5 }; // CFA realign |
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[eb5a115] | 269 | assert( (uintptr_t)stp % 4096 == 0 ); |
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| 270 | printf( "CFA alloc_align %d %g\n", stp->x, stp->y ); |
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[2afec66] | 271 | free( stp ); |
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[fab700b] | 272 | |
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| 273 | |
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| 274 | // alignment, array types |
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| 275 | printf( "\n" ); |
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| 276 | |
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[191a190] | 277 | stp = alloc( dim, Alignment`align ); // CFA array memalign |
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[fab700b] | 278 | assert( (uintptr_t)stp % Alignment == 0 ); |
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[8f34661] | 279 | for ( i; dim ) { stp[i] = (Struct){ 42, 42.5 }; } |
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[eb5a115] | 280 | printf( "CFA array alloc_align\n" ); |
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[8f34661] | 281 | for ( i; dim ) { printf( "%d %g, ", stp[i].x, stp[i].y ); } |
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[fab700b] | 282 | printf( "\n" ); |
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[2afec66] | 283 | free( stp ); |
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[fab700b] | 284 | |
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[191a190] | 285 | stp = alloc( dim, Alignment`align, fill`fill ); // CFA array memalign, fill |
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[fab700b] | 286 | assert( (uintptr_t)stp % Alignment == 0 ); |
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[eb5a115] | 287 | printf( "CFA array alloc_align, fill\n" ); |
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[8f34661] | 288 | for ( i; dim ) { printf( "%#x %a, ", stp[i].x, stp[i].y ); } |
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[fab700b] | 289 | printf( "\n" ); |
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[2afec66] | 290 | free( stp ); |
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[fab700b] | 291 | |
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[191a190] | 292 | stp = alloc( dim, Alignment`align, ((Struct){ 42, 42.5 })`fill ); // CFA array memalign, fill |
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[eb5a115] | 293 | assert( (uintptr_t)stp % Alignment == 0 ); |
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| 294 | printf( "CFA array alloc_align, fill\n" ); |
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| 295 | for ( i; dim ) { printf( "%d %g, ", stp[i].x, stp[i].y ); } |
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| 296 | printf( "\n" ); |
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| 297 | // do not free |
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| 298 | |
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[191a190] | 299 | stp1 = alloc( dim, Alignment`align, [stp, dim]`fill ); // CFA array memalign, fill |
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[eb5a115] | 300 | assert( (uintptr_t)stp % Alignment == 0 ); |
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| 301 | printf( "CFA array alloc_align, fill array\n" ); |
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| 302 | for ( i; dim ) { printf( "%d %g, ", stp1[i].x, stp1[i].y ); } |
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| 303 | printf( "\n" ); |
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| 304 | free( stp1 ); |
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| 305 | |
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[191a190] | 306 | stp = alloc( dim, stp`realloc, 4096`align ); // CFA aligned realloc array |
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[eb5a115] | 307 | assert( (uintptr_t)stp % 4096 == 0 ); |
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| 308 | for ( i; dim ) { stp[i] = (Struct){ 42, 42.5 }; } |
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| 309 | printf( "CFA realloc array alloc_align\n" ); |
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| 310 | for ( i; dim ) { printf( "%d %g, ", stp[i].x, stp[i].y ); } |
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| 311 | printf( "\n" ); |
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| 312 | free( stp ); |
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| 313 | |
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[fab700b] | 314 | |
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| 315 | // data, non-array types |
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| 316 | printf( "\n" ); |
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| 317 | |
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[2afec66] | 318 | memset( &st, fill ); // CFA memset, type safe |
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[6065b3aa] | 319 | printf( "CFA memset %#x %a\n", st.x, st.y ); |
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[2afec66] | 320 | memcpy( &st1, &st ); // CFA memcpy, type safe |
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[6065b3aa] | 321 | printf( "CFA memcpy %#x %a\n", st1.x, st1.y ); |
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[fab700b] | 322 | |
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| 323 | |
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| 324 | // data, array types |
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| 325 | printf( "\n" ); |
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| 326 | |
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[b9c04946] | 327 | amemset( sta, fill, dim ); // CFA array memset, type safe |
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[fab700b] | 328 | printf( "CFA array memset\n" ); |
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[8f34661] | 329 | for ( i; dim ) { printf( "%#x %a, ", sta[i].x, sta[i].y ); } |
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[fab700b] | 330 | printf( "\n" ); |
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| 331 | |
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[b9c04946] | 332 | amemcpy( sta1, sta, dim ); // CFA array memcpy, type safe |
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| 333 | printf( "CFA array memcpy\n" ); |
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[8f34661] | 334 | for ( i; dim ) { printf( "%#x %a, ", sta1[i].x, sta1[i].y ); } |
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[6065b3aa] | 335 | printf( "\n" ); |
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| 336 | |
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| 337 | // new, non-array types |
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| 338 | printf( "\n" ); |
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| 339 | |
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[55acc3a] | 340 | const_count = dest_count = 0; |
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[6065b3aa] | 341 | stp = new( 42, 42.5 ); |
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[55acc3a] | 342 | assert( const_count == 1 && dest_count == 0 ); // assertion for testing |
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[6065b3aa] | 343 | stp1 = new( 42, 42.5 ); |
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[55acc3a] | 344 | assert( const_count == 2 && dest_count == 0 ); // assertion for testing |
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| 345 | |
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[6065b3aa] | 346 | printf( "CFA new initialize\n%d %g %d %g\n", stp->x, stp->y, stp1->x, stp1->y ); |
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| 347 | delete( stp, stp1 ); |
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[55acc3a] | 348 | assert( const_count == 2 && dest_count == 2 ); // assertion for testing |
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[6065b3aa] | 349 | |
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| 350 | // new, array types |
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| 351 | stp = anew( dim, 42, 42.5 ); |
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[55acc3a] | 352 | assert( const_count == 2 + dim && dest_count == 2 ); // assertion for testing |
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[6065b3aa] | 353 | printf( "CFA array new initialize\n" ); |
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[8f34661] | 354 | for ( i; dim ) { printf( "%d %g, ", stp[i].x, stp[i].y ); } |
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[6065b3aa] | 355 | printf( "\n" ); |
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[55acc3a] | 356 | |
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[6065b3aa] | 357 | stp1 = anew( dim, 42, 42.5 ); |
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[55acc3a] | 358 | assert( const_count == 2 + 2 * dim && dest_count == 2 ); // assertion for testing |
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[8f34661] | 359 | for ( i; dim ) { printf( "%d %g, ", stp1[i].x, stp1[i].y ); } |
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[6065b3aa] | 360 | printf( "\n" ); |
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[45444c3] | 361 | adelete( stp, stp1 ); |
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[55acc3a] | 362 | assert( const_count == 2 + 2 * dim && dest_count == 2 + 2 * dim); // assertion for testing |
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[6065b3aa] | 363 | |
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| 364 | // extras |
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[fab700b] | 365 | printf( "\n" ); |
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| 366 | |
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[2afec66] | 367 | float * fp = malloc() + 1; |
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| 368 | printf( "pointer arithmetic %d\n", fp == fp - 1 ); |
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| 369 | free( fp - 1 ); |
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[fab700b] | 370 | |
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[cfbc703d] | 371 | ip = foo( bar( baz( malloc(), 0 ), 0 ), 0 ); |
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| 372 | *ip = 0xdeadbeef; |
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| 373 | printf( "CFA deep malloc %#x\n", *ip ); |
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[55acc3a] | 374 | |
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| 375 | dp = alloc(5.0`fill); // just for testing multiple free |
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| 376 | assert(*dp == 5.0); |
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| 377 | free( ip, dp ); |
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[fab700b] | 378 | |
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[fc67d6f] | 379 | #ifdef ERR1 |
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[fab700b] | 380 | stp = malloc(); |
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| 381 | printf( "\nSHOULD FAIL\n" ); |
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[cfbc703d] | 382 | ip = realloc( stp, dim * sizeof( *stp ) ); |
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| 383 | ip = memset( stp, 10 ); |
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| 384 | ip = memcpy( &st1, &st ); |
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[a33704d] | 385 | #endif // ERR1 |
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[fab700b] | 386 | } // main |
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| 387 | |
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| 388 | // Local Variables: // |
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| 389 | // tab-width: 4 // |
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[dc8511c] | 390 | // compile-command: "cfa alloc.cfa" // |
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[fab700b] | 391 | // End: // |
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