1 | #include <collections/array.hfa> |
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2 | |
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3 | // Shows support for many required ways a user can index into a new array. |
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4 | // |
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5 | // A successful run of this test on 32 bit is necessary, before concluding |
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6 | // that a relevant change has good quality. Even though the test has no |
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7 | // differentiated 64/32-bit versions. |
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8 | // |
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9 | // Repetition, within this test, beween indexing directly into an `array(...)` |
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10 | // and indexing into a `A`, as in `forall(A...|ar(A...))`, represents indexing |
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11 | // into a (statically programmer-known) contiguous view, and a (potentially) |
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12 | // noncontiguous view, respectively. Users obtain noncontiguous views by |
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13 | // slicing or transposing higher-dimensional arrays. The limited uses of |
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14 | // `a[..., all, ...]` within this test create such situations. Working via |
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15 | // the `ar` trait is the first of two ways that users depend on the array |
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16 | // implementation tunneling subscript operators through the CFA assertion |
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17 | // system. |
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18 | // |
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19 | // This test uses the `a[i,j]` form for subscriping higher-dimensional arrays, |
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20 | // which is the "new" form, compared with the C-style `a[i][j]` form. The |
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21 | // "new" subscripting form is the second of two ways that users depend on the |
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22 | // array implementation tunneling subscript operators through the CFA |
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23 | // assertion system. |
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24 | // |
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25 | // This test covers types and syntactic forms that can convey a numeric value |
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26 | // to `a[-]` or `a[-,-,-]`. The array-md-sbscr-cases test covers combinations |
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27 | // of `a[i][j,k]` vs `a[i,j,k]` and `a[all,3][42]` vs `a[42,3]`, though |
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28 | // generally using ptrdiff_t-typed variables to convey numeric values. |
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29 | |
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30 | #include <assert.h> |
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31 | |
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32 | #define show( expr ) printf( "%.1f\n", expr ) |
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33 | |
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34 | #define singleDimTestBody(testName) { \ |
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35 | \ |
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36 | printf(testName "\n\n"); \ |
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37 | \ |
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38 | assert( 3 < N ); \ |
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39 | \ |
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40 | show( a[i1] ); \ |
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41 | show( a[i2] ); \ |
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42 | printf("\n"); \ |
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43 | \ |
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44 | for( i_dynbounded; N ) show( a[i_dynbounded] ); \ |
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45 | printf("\n"); \ |
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46 | \ |
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47 | for( i_stabounded; 4 ) show( a[i_stabounded] ); \ |
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48 | printf("\n"); \ |
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49 | } |
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50 | |
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51 | forall( [N] ) |
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52 | void test_common_arg_types(array(float, N) & a, ptrdiff_t i1, size_t i2) |
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53 | singleDimTestBody("Simple array") |
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54 | |
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55 | forall( [N], A& | ar(A, float, N) ) |
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56 | void test_common_arg_types__via_trait(A & a, ptrdiff_t i1, size_t i2) |
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57 | singleDimTestBody("Via trait") |
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58 | |
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59 | void do1dimTest() { |
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60 | array(float, 5) a; |
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61 | a[0] = 100.0; |
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62 | a[1] = 100.1; |
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63 | a[2] = 100.2; |
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64 | a[3] = 100.3; |
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65 | a[4] = 100.4; |
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66 | |
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67 | test_common_arg_types(a, 3, 3); |
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68 | test_common_arg_types__via_trait(a, 3, 3); |
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69 | } |
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70 | |
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71 | #define multiDimTestBody(testName) { \ |
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72 | \ |
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73 | printf(testName "\n\n"); \ |
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74 | \ |
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75 | assert( 3 < M ); \ |
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76 | assert( 3 < N ); \ |
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77 | \ |
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78 | show(( a[x1,x1] )); \ |
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79 | show(( a[x1,x2] )); \ |
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80 | show(( a[x2,x1] )); \ |
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81 | show(( a[x2,x2] )); \ |
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82 | printf("\n"); \ |
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83 | \ |
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84 | for( i_dynbounded; M ) show(( a[i_dynbounded, 3] )); \ |
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85 | printf("\n"); \ |
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86 | \ |
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87 | for( i_stabounded; 4 ) show(( a[i_stabounded, 3] )); \ |
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88 | printf("\n"); \ |
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89 | \ |
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90 | for( j_dynbounded; N ) show(( a[3, j_dynbounded] )); \ |
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91 | printf("\n"); \ |
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92 | \ |
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93 | for( j_stabounded; 4 ) show(( a[3, j_stabounded] )); \ |
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94 | printf("\n"); \ |
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95 | } |
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96 | |
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97 | forall( [M], [N] ) |
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98 | void test_common_arg_types__md(array(float, M, N) & a, ptrdiff_t x1, size_t x2) |
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99 | multiDimTestBody("Simple array, multidim") |
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100 | |
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101 | |
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102 | forall( [M], [N], A_outer &, A_inner & | ar(A_outer, A_inner, M) | ar(A_inner, float, N) ) |
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103 | void test_common_arg_types__md__via_trait(A_outer & a, ptrdiff_t x1, size_t x2) |
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104 | multiDimTestBody("Via trait, multidim") |
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105 | |
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106 | |
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107 | void doMdimTest() { |
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108 | |
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109 | array(float, 5, 4) b; |
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110 | b[ix0,ix0] = 0.0; b[ix0,1] = 0.1; b[ix0,2] = 0.2; b[ix0,3] = 0.3; |
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111 | b[ 1,ix0] = 1.0; b[ 1,1] = 1.1; b[ 1,2] = 1.2; b[ 1,3] = 1.3; |
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112 | b[ 2,ix0] = 2.0; b[ 2,1] = 2.1; b[ 2,2] = 2.2; b[ 2,3] = 2.3; |
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113 | b[ 3,ix0] = 3.0; b[ 3,1] = 3.1; b[ 3,2] = 3.2; b[ 3,3] = 3.3; |
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114 | b[ 4,ix0] = 4.0; b[ 4,1] = 4.1; b[ 4,2] = 4.2; b[ 4,3] = 4.3; |
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115 | |
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116 | test_common_arg_types__md(b, 3, 3); |
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117 | test_common_arg_types__md__via_trait(b, 3, 3); |
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118 | printf("Transposed, "); |
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119 | test_common_arg_types__md__via_trait(b[all], 3, 3); |
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120 | |
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121 | printf("Slice giving "); |
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122 | test_common_arg_types(b[2], 3, 3); |
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123 | |
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124 | printf("Same slice "); |
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125 | test_common_arg_types__via_trait(b[2], 3, 3); |
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126 | |
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127 | printf("Strided slice "); |
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128 | test_common_arg_types__via_trait(b[all,2], 3, 3); |
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129 | } |
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130 | |
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131 | int main() { |
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132 | |
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133 | // can't be inlined in same func due to Trac #175. |
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134 | do1dimTest(); |
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135 | doMdimTest(); |
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136 | } |
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