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1// Test hlfir.product operation lowering to fir runtime call2// RUN: fir-opt %s -lower-hlfir-intrinsics | FileCheck %s3 4// one argument product5func.func @_QPproduct1(%arg0: !fir.box<!fir.array<?xi32>> {fir.bindc_name = "a"}, %arg1: !fir.ref<i32> {fir.bindc_name = "s"}) {6  %0:2 = hlfir.declare %arg0 {uniq_name = "_QFsum1Ea"} : (!fir.box<!fir.array<?xi32>>) -> (!fir.box<!fir.array<?xi32>>, !fir.box<!fir.array<?xi32>>)7  %1:2 = hlfir.declare %arg1 {uniq_name = "_QFsum1Es"} : (!fir.ref<i32>) -> (!fir.ref<i32>, !fir.ref<i32>)8  %2 = hlfir.product %0#0 {fastmath = #arith.fastmath<contract>} : (!fir.box<!fir.array<?xi32>>) -> i329  hlfir.assign %2 to %1#0 : i32, !fir.ref<i32>10  return11}12 13// CHECK-LABEL: func.func @_QPproduct1(14// CHECK:           %[[ARG0:.*]]: !fir.box<!fir.array<?xi32>>15// CHECK:           %[[ARG1:.*]]: !fir.ref<i32>16// CHECK-DAG:     %[[ARRAY:.*]]:2 = hlfir.declare %[[ARG0]]17// CHECK-DAG:     %[[RES:.*]]:2 = hlfir.declare %[[ARG1]]18// CHECK-DAG:     %[[MASK:.*]] = fir.absent !fir.box<i1>19// CHECK-DAG:     %[[ARRAY_ARG:.*]] = fir.convert %[[ARRAY]]#1 :  (!fir.box<!fir.array<?xi32>>) -> !fir.box<none>20// CHECK-DAG:     %[[MASK_ARG:.*]] = fir.convert %[[MASK]] : (!fir.box<i1>) -> !fir.box<none>21// CHECK:         %[[RET:.*]] = fir.call @_FortranAProductInteger4(%[[ARRAY_ARG]], %[[LOC_STR:.*]], %[[LOC_N:.*]], %[[INT:.*]], %[[MASK_ARG]]) fastmath<contract> : (!fir.box<none>, !fir.ref<i8>, i32, i32, !fir.box<none>) -> i3222// CHECK-NEXT:    hlfir.assign %[[RET]] to %[[RES]]#0 : i32, !fir.ref<i32>23// CHECK-NEXT:    return24// CHECK-NEXT:  }25 26// product with DIM argument by-ref27func.func @_QPproduct2(%arg0: !fir.box<!fir.array<?x?xi32>> {fir.bindc_name = "a"}, %arg1: !fir.box<!fir.array<?xi32>> {fir.bindc_name = "s"}, %arg2: !fir.ref<index> {fir.bindc_name = "d"}) {28  %0:2 = hlfir.declare %arg0 {uniq_name = "_QFproduct2Ea"} : (!fir.box<!fir.array<?x?xi32>>) -> (!fir.box<!fir.array<?x?xi32>>, !fir.box<!fir.array<?x?xi32>>)29  %1:2 = hlfir.declare %arg2 {uniq_name = "_QFproduct2Ed"} : (!fir.ref<index>) -> (!fir.ref<index>, !fir.ref<index>)30  %2:2 = hlfir.declare %arg1 {uniq_name = "_QFproduct2Es"} : (!fir.box<!fir.array<?xi32>>) -> (!fir.box<!fir.array<?xi32>>, !fir.box<!fir.array<?xi32>>)31  %3 = fir.load %1#0 : !fir.ref<index>32  %4 = hlfir.product %0#0 dim %3 {fastmath = #arith.fastmath<contract>} : (!fir.box<!fir.array<?x?xi32>>, index) -> !hlfir.expr<?xi32>33  hlfir.assign %4 to %2#0 : !hlfir.expr<?xi32>, !fir.box<!fir.array<?xi32>>34  hlfir.destroy %4 : !hlfir.expr<?xi32>35  return36}37 38// CHECK-LABEL: func.func @_QPproduct2(39// CHECK:           %[[ARG0:.*]]: !fir.box<!fir.array<?x?xi32>>40// CHECK:           %[[ARG1:.*]]: !fir.box<!fir.array<?xi32>>41// CHECK:           %[[ARG2:.*]]: !fir.ref<index>42// CHECK-DAG:     %[[TRUE:.*]] = arith.constant true43// CHECK-DAG:     %[[ARRAY:.*]]:2 = hlfir.declare %[[ARG0]]44// CHECK-DAG:     %[[DIM_VAR:.*]]:2 = hlfir.declare %[[ARG2]]45// CHECK-DAG:     %[[RES:.*]]:2 = hlfir.declare %[[ARG1]]46 47// CHECK-DAG:     %[[RET_BOX:.*]] = fir.alloca !fir.box<!fir.heap<!fir.array<?xi32>>>48// CHECK-DAG:     %[[RET_ADDR:.*]] = fir.zero_bits !fir.heap<!fir.array<?xi32>>49// CHECK-DAG:     %[[C0:.*]] = arith.constant 0 : index50// CHECK-DAG:     %[[RET_SHAPE:.*]] = fir.shape %[[C0]] : (index) -> !fir.shape<1>51// CHECK-DAG:     %[[RET_EMBOX:.*]] = fir.embox %[[RET_ADDR]](%[[RET_SHAPE]])52// CHECK-DAG:     fir.store %[[RET_EMBOX]] to %[[RET_BOX]]53 54// CHECK-DAG:     %[[MASK:.*]] = fir.absent !fir.box<i1>55// CHECK-DAG:     %[[DIM_IDX:.*]] = fir.load %[[DIM_VAR]]#0 : !fir.ref<index>56// CHECK-DAG:     %[[DIM:.*]] = fir.convert %[[DIM_IDX]] : (index) -> i3257 58// CHECK-DAG:     %[[RET_ARG:.*]] = fir.convert %[[RET_BOX]]59// CHECK-DAG:     %[[ARRAY_ARG:.*]] = fir.convert %[[ARRAY]]60// CHECK-DAG:     %[[MASK_ARG:.*]] = fir.convert %[[MASK]]61 62// CHECK:         fir.call @_FortranAProductDim(%[[RET_ARG]], %[[ARRAY_ARG]], %[[DIM]], %[[LOC_STR:.*]], %[[LOC_N:.*]], %[[MASK_ARG]]) fastmath<contract> : (!fir.ref<!fir.box<none>>, !fir.box<none>, i32, !fir.ref<i8>, i32, !fir.box<none>) -> ()63// CHECK:         %[[RET:.*]] = fir.load %[[RET_BOX]]64// CHECK:         %[[BOX_DIMS:.*]]:3 = fir.box_dims %[[RET]]65// CHECK-NEXT:    %[[ADDR:.*]] = fir.box_addr %[[RET]]66// CHECK-NEXT:    %[[SHIFT:.*]] = fir.shape_shift %[[BOX_DIMS]]#0, %[[BOX_DIMS]]#167// CHECK-NEXT:    %[[TMP:.*]]:2 = hlfir.declare %[[ADDR]](%[[SHIFT]]) {uniq_name = ".tmp.intrinsic_result"}68// CHECK:         %[[EXPR:.*]] = hlfir.as_expr %[[TMP]]#0 move %[[TRUE]] : (!fir.box<!fir.array<?xi32>>, i1) -> !hlfir.expr<?xi32>69// CHECK:         hlfir.assign %[[EXPR]] to %[[RES]]#070// CHECK:         hlfir.destroy %[[EXPR]]71// CHECK-NEXT:    return72// CHECK-NEXT:  }73 74// product with scalar mask75func.func @_QPproduct3(%arg0: !fir.box<!fir.array<?xi32>> {fir.bindc_name = "a"}, %arg1: !fir.ref<i32> {fir.bindc_name = "s"}, %arg2: !fir.ref<!fir.logical<4>> {fir.bindc_name = "m"}) {76  %0:2 = hlfir.declare %arg0 {uniq_name = "_QFproduct3Ea"} : (!fir.box<!fir.array<?xi32>>) -> (!fir.box<!fir.array<?xi32>>, !fir.box<!fir.array<?xi32>>)77  %1:2 = hlfir.declare %arg2 {uniq_name = "_QFproduct3Em"} : (!fir.ref<!fir.logical<4>>) -> (!fir.ref<!fir.logical<4>>, !fir.ref<!fir.logical<4>>)78  %2:2 = hlfir.declare %arg1 {uniq_name = "_QFproduct3Es"} : (!fir.ref<i32>) -> (!fir.ref<i32>, !fir.ref<i32>)79  %3 = hlfir.product %0#0 mask %1#0 {fastmath = #arith.fastmath<contract>} : (!fir.box<!fir.array<?xi32>>, !fir.ref<!fir.logical<4>>) -> i3280  hlfir.assign %3 to %2#0 : i32, !fir.ref<i32>81  return82}83 84// CHECK-LABEL: func.func @_QPproduct3(85// CHECK:            %[[ARG0:.*]]: !fir.box<!fir.array<?xi32>>86// CHECK:            %[[ARG1:.*]]: !fir.ref<i32>87// CHECK:            %[[ARG2:.*]]: !fir.ref<!fir.logical<4>>88// CHECK-DAG:      %[[ARRAY:.*]]:2 = hlfir.declare %[[ARG0]]89// CHECK-DAG:      %[[RES:.*]]:2 = hlfir.declare %[[ARG1]]90// CHECK-DAG:      %[[MASK:.*]]:2 = hlfir.declare %[[ARG2]]91// CHECK-DAG:      %[[MASK_BOX:.*]] = fir.embox %[[MASK]]#0 : (!fir.ref<!fir.logical<4>>) -> !fir.box<!fir.logical<4>>92// CHECK-DAG:      %[[ARRAY_ARG:.*]] = fir.convert %[[ARRAY]]#1 : (!fir.box<!fir.array<?xi32>>) -> !fir.box<none>93// CHECK-DAG:      %[[MASK_ARG:.*]] = fir.convert %[[MASK_BOX]]  : (!fir.box<!fir.logical<4>>) -> !fir.box<none>94// CHECK:          %[[RET:.*]] = fir.call @_FortranAProductInteger4(%[[ARRAY_ARG]], %[[LOC_STR:.*]], %[[LOC_N:.*]], %[[INT:.*]], %[[MASK_ARG]]) fastmath<contract> : (!fir.box<none>, !fir.ref<i8>, i32, i32, !fir.box<none>) -> i3295// CHECK-NEXT:     hlfir.assign %[[RET]] to %[[RES]]#0 : i32, !fir.ref<i32>96// CHECK-NEXT:     return97// CHECK-NEXT:   }98 99// product with array mask100func.func @_QPproduct4(%arg0: !fir.box<!fir.array<?xi32>> {fir.bindc_name = "a"}, %arg1: !fir.ref<i32> {fir.bindc_name = "s"}, %arg2: !fir.box<!fir.array<?x!fir.logical<4>>> {fir.bindc_name = "m"}) {101  %0:2 = hlfir.declare %arg0 {uniq_name = "_QFproduct4Ea"} : (!fir.box<!fir.array<?xi32>>) -> (!fir.box<!fir.array<?xi32>>, !fir.box<!fir.array<?xi32>>)102  %1:2 = hlfir.declare %arg2 {uniq_name = "_QFproduct4Em"} : (!fir.box<!fir.array<?x!fir.logical<4>>>) -> (!fir.box<!fir.array<?x!fir.logical<4>>>, !fir.box<!fir.array<?x!fir.logical<4>>>)103  %2:2 = hlfir.declare %arg1 {uniq_name = "_QFproduct4Es"} : (!fir.ref<i32>) -> (!fir.ref<i32>, !fir.ref<i32>)104  %3 = hlfir.product %0#0 mask %1#0 {fastmath = #arith.fastmath<contract>} : (!fir.box<!fir.array<?xi32>>, !fir.box<!fir.array<?x!fir.logical<4>>>) -> i32105  hlfir.assign %3 to %2#0 : i32, !fir.ref<i32>106  return107}108 109// CHECK-LABEL: func.func @_QPproduct4(110// CHECK:           %[[ARG0:.*]]: !fir.box<!fir.array<?xi32>111// CHECK:           %[[ARG1:.*]]: !fir.ref<i32>112// CHECK:           %[[ARG2:.*]]: !fir.box<!fir.array<?x!fir.logical<4>>>113// CHECK-DAG:     %[[ARRAY]]:2 = hlfir.declare %[[ARG0]]114// CHECK-DAG:     %[[RES]]:2 = hlfir.declare %[[ARG1]]115// CHECK-DAG:     %[[MASK]]:2 = hlfir.declare %[[ARG2]]116// CHECK-DAG:     %[[ARRAY_ARG:.*]] = fir.convert %[[ARRAY]]#1  : (!fir.box<!fir.array<?xi32>>) -> !fir.box<none>117// CHECK-DAG:     %[[MASK_ARG:.*]] = fir.convert %[[MASK]]#1 : (!fir.box<!fir.array<?x!fir.logical<4>>>) -> !fir.box<none>118// CHECK:         %[[RET:.*]] = fir.call @_FortranAProductInteger4(%[[ARRAY_ARG]], %[[LOC_STR:.*]], %[[LOC_N:.*]], %[[INT:.*]], %[[MASK_ARG]]) fastmath<contract> : (!fir.box<none>, !fir.ref<i8>, i32, i32, !fir.box<none>) -> i32119// CHECK-NEXT:    hlfir.assign %[[RET]] to %[[RES]]#0 : i32, !fir.ref<i32>120// CHECK-NEXT:    return121// CHECK-NEXT:  }122 123 124// product with all 3 arguments125func.func @_QPproduct5(%arg0: !fir.ref<!fir.array<2xi32>> {fir.bindc_name = "s"}) {126  %0 = fir.address_of(@_QFproduct5Ea) : !fir.ref<!fir.array<2x2xi32>>127  %c2 = arith.constant 2 : index128  %c2_0 = arith.constant 2 : index129  %1 = fir.shape %c2, %c2_0 : (index, index) -> !fir.shape<2>130  %2:2 = hlfir.declare %0(%1) {uniq_name = "_QFproduct5Ea"} : (!fir.ref<!fir.array<2x2xi32>>, !fir.shape<2>) -> (!fir.ref<!fir.array<2x2xi32>>, !fir.ref<!fir.array<2x2xi32>>)131  %c2_1 = arith.constant 2 : index132  %3 = fir.shape %c2_1 : (index) -> !fir.shape<1>133  %4:2 = hlfir.declare %arg0(%3) {uniq_name = "_QFproduct5Es"} : (!fir.ref<!fir.array<2xi32>>, !fir.shape<1>) -> (!fir.ref<!fir.array<2xi32>>, !fir.ref<!fir.array<2xi32>>)134  %c1_i32 = arith.constant 1 : i32135  %true = arith.constant true136  %5 = hlfir.product %2#0 dim %c1_i32 mask %true {fastmath = #arith.fastmath<contract>} : (!fir.ref<!fir.array<2x2xi32>>, i32, i1) -> !hlfir.expr<2xi32>137  hlfir.assign %5 to %4#0 : !hlfir.expr<2xi32>, !fir.ref<!fir.array<2xi32>>138  hlfir.destroy %5 : !hlfir.expr<2xi32>139  return140}141 142// CHECK-LABEL: func.func @_QPproduct5(143// CHECK:           %[[ARG0:.*]]: !fir.ref<!fir.array<2xi32>>144// CHECK-DAG:     %[[TRUE:.*]] = arith.constant true145// CHECK-DAG:     %[[RET_BOX:.*]] = fir.alloca !fir.box<!fir.heap<!fir.array<?xi32>>>146// CHECK-DAG:     %[[RET_ADDR:.*]] = fir.zero_bits !fir.heap<!fir.array<?xi32>>147// CHECK-DAG:     %[[C0:.*]] = arith.constant 0 : index148// CHECK-DAG:     %[[RET_SHAPE:.*]] = fir.shape %[[C0]] : (index) -> !fir.shape<1>149// CHECK-DAG:     %[[RET_EMBOX:.*]] = fir.embox %[[RET_ADDR]](%[[RET_SHAPE]])150// CHECK-DAG:     fir.store %[[RET_EMBOX]] to %[[RET_BOX]]151 152// CHECK-DAG:     %[[RES_VAR:.*]] = hlfir.declare %[[ARG0]](%[[RES_SHAPE:.*]])153 154// CHECK-DAG:     %[[MASK_ALLOC:.*]] = fir.alloca !fir.logical<4>155// CHECK-DAG:     %[[MASK_VAL:.*]]  = fir.convert %[[TRUE]] : (i1) -> !fir.logical<4>156// CHECK-DAG:     fir.store %[[MASK_VAL]] to %[[MASK_ALLOC]] : !fir.ref<!fir.logical<4>>157// CHECK-DAG:     %[[MASK_BOX:.*]] = fir.embox %[[MASK_ALLOC]]158 159// CHECK-DAG:     %[[ARRAY_ADDR:.*]] = fir.address_of160// CHECK-DAG:     %[[ARRAY_VAR:.*]]:2 = hlfir.declare %[[ARRAY_ADDR]](%[[ARRAY_SHAPE:.*]])161// CHECK-DAG:     %[[ARRAY_BOX:.*]] = fir.embox %[[ARRAY_VAR]]#0(%[[ARRAY_SHAPE:.*]])162 163// CHECK-DAG:     %[[DIM:.*]] = arith.constant 1 : i32164 165// CHECK-DAG:     %[[RET_ARG:.*]] = fir.convert %[[RET_BOX]]166// CHECK-DAG:     %[[ARRAY_ARG:.*]] = fir.convert %[[ARRAY_BOX]] : (!fir.box<!fir.array<2x2xi32>>) -> !fir.box<none>167// CHECK-DAG:     %[[MASK_ARG:.*]] = fir.convert %[[MASK_BOX]] : (!fir.box<!fir.logical<4>>) -> !fir.box<none>168// CHECK:         fir.call @_FortranAProductDim(%[[RET_ARG]], %[[ARRAY_ARG]], %[[DIM]], %[[LOC_STR:.*]], %[[LOC_N:.*]], %[[MASK_ARG]]) fastmath<contract> : (!fir.ref<!fir.box<none>>, !fir.box<none>, i32, !fir.ref<i8>, i32, !fir.box<none>) -> ()169