| ! Test lowering of PRODUCT intrinsic to HLFIR |
| ! RUN: bbc -emit-hlfir -o - %s 2>&1 | FileCheck %s |
| |
| ! simple 1 argument PRODUCT |
| subroutine product1(a, s) |
| integer :: a(:), s |
| s = PRODUCT(a) |
| end subroutine |
| ! CHECK-LABEL: func.func @_QPproduct1( |
| ! CHECK: %[[ARG0:.*]]: !fir.box<!fir.array<?xi32>> {fir.bindc_name = "a"}, %[[ARG1:.*]]: !fir.ref<i32> |
| ! CHECK-DAG: %[[ARRAY:.*]]:2 = hlfir.declare %[[ARG0]] |
| ! CHECK-DAG: %[[OUT:.*]]:2 = hlfir.declare %[[ARG1]] |
| ! CHECK-NEXT: %[[EXPR:.*]] = hlfir.product %[[ARRAY]]#0 {fastmath = #arith.fastmath<contract>} : (!fir.box<!fir.array<?xi32>>) -> i32 |
| ! CHECK-NEXT: hlfir.assign %[[EXPR]] to %[[OUT]]#0 : i32, !fir.ref<i32> |
| ! CHECK-NEXT: return |
| ! CHECK-NEXT: } |
| |
| ! product with by-ref DIM argument |
| subroutine product2(a, s, d) |
| integer :: a(:,:), s(:), d |
| s = PRODUCT(a, d) |
| end subroutine |
| ! CHECK-LABEL: func.func @_QPproduct2( |
| ! CHECK: %[[ARG0:.*]]: !fir.box<!fir.array<?x?xi32>> {fir.bindc_name = "a"}, %[[ARG1:.*]]: !fir.box<!fir.array<?xi32>> {fir.bindc_name = "s"}, %[[ARG2:.*]]: !fir.ref<i32> |
| ! CHECK-DAG: %[[ARRAY:.*]]:2 = hlfir.declare %[[ARG0]] |
| ! CHECK-DAG: %[[OUT:.*]]:2 = hlfir.declare %[[ARG1]] |
| ! CHECK-DAG: %[[DIM_REF:.*]]:2 = hlfir.declare %[[ARG2]] |
| ! CHECK-NEXT: %[[DIM:.*]] = fir.load %[[DIM_REF]]#0 : !fir.ref<i32> |
| ! CHECK-NEXT: %[[EXPR:.*]] = hlfir.product %[[ARRAY]]#0 dim %[[DIM]] {fastmath = #arith.fastmath<contract>} : (!fir.box<!fir.array<?x?xi32>>, i32) -> !hlfir.expr<?xi32> |
| ! CHECK-NEXT: hlfir.assign %[[EXPR]] to %[[OUT]]#0 : !hlfir.expr<?xi32>, !fir.box<!fir.array<?xi32>> |
| ! CHECK-NEXT: hlfir.destroy %[[EXPR]] |
| ! CHECK-NEXT: return |
| ! CHECK-NEXT: } |
| |
| ! product with scalar mask argument |
| subroutine product3(a, s, m) |
| integer :: a(:), s |
| logical :: m |
| s = PRODUCT(a, m) |
| end subroutine |
| ! CHECK-LABEL: func.func @_QPproduct3( |
| ! CHECK: %[[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"}) |
| ! CHECK-DAG: %[[ARRAY:.*]]:2 = hlfir.declare %[[ARG0]] |
| ! CHECK-DAG: %[[OUT:.*]]:2 = hlfir.declare %[[ARG1]] |
| ! CHECK-DAG: %[[MASK:.*]]:2 = hlfir.declare %[[ARG2]] |
| ! CHECK-NEXT: %[[EXPR:.*]] = hlfir.product %[[ARRAY]]#0 mask %[[MASK]]#0 {fastmath = #arith.fastmath<contract>} : (!fir.box<!fir.array<?xi32>>, !fir.ref<!fir.logical<4>>) -> i32 |
| ! CHECK-NEXT: hlfir.assign %[[EXPR]] to %[[OUT]]#0 : i32, !fir.ref<i32> |
| ! CHECK-NEXT: return |
| ! CHECK-NEXT: } |
| |
| ! product with array mask argument |
| subroutine product4(a, s, m) |
| integer :: a(:), s |
| logical :: m(:) |
| s = PRODUCT(a, m) |
| end subroutine |
| ! CHECK-LABEL: func.func @_QPproduct4( |
| ! CHECK: %[[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"}) |
| ! CHECK-DAG: %[[ARRAY:.*]]:2 = hlfir.declare %[[ARG0]] |
| ! CHECK-DAG: %[[OUT:.*]]:2 = hlfir.declare %[[ARG1]] |
| ! CHECK-DAG: %[[MASK:.*]]:2 = hlfir.declare %[[ARG2]] |
| ! CHECK-NEXT: %[[EXPR:.*]] = hlfir.product %[[ARRAY]]#0 mask %[[MASK]]#0 {fastmath = #arith.fastmath<contract>} : (!fir.box<!fir.array<?xi32>>, !fir.box<!fir.array<?x!fir.logical<4>>>) -> i32 |
| ! CHECK-NEXT: hlfir.assign %[[EXPR]] to %[[OUT]]#0 : i32, !fir.ref<i32> |
| ! CHECK-NEXT: return |
| ! CHECK-NEXT: } |
| |
| ! product with all 3 arguments, dim is by-val, array isn't boxed |
| subroutine product5(s) |
| integer :: s(2) |
| integer :: a(2,2) = reshape((/1, 2, 3, 4/), [2,2]) |
| s = PRODUCT(a, 1, .true.) |
| end subroutine |
| ! CHECK-LABEL: func.func @_QPproduct5( |
| ! CHECK: %[[ARG0:.*]]: !fir.ref<!fir.array<2xi32>> |
| ! CHECK-DAG: %[[ADDR:.*]] = fir.address_of({{.*}}) : !fir.ref<!fir.array<2x2xi32>> |
| ! CHECK-DAG: %[[ARRAY_SHAPE:.*]] = fir.shape {{.*}} -> !fir.shape<2> |
| ! CHECK-DAG: %[[ARRAY:.*]]:2 = hlfir.declare %[[ADDR]](%[[ARRAY_SHAPE]]) |
| ! CHECK-DAG: %[[OUT_SHAPE:.*]] = fir.shape {{.*}} -> !fir.shape<1> |
| ! CHECK-DAG: %[[OUT:.*]]:2 = hlfir.declare %[[ARG0]](%[[OUT_SHAPE]]) |
| ! CHECK-DAG: %[[C1:.*]] = arith.constant 1 : i32 |
| ! CHECK-DAG: %[[TRUE:.*]] = arith.constant true |
| ! CHECK-NEXT: %[[EXPR:.*]] = hlfir.product %[[ARRAY]]#0 dim %[[C1]] mask %[[TRUE]] {fastmath = #arith.fastmath<contract>} : (!fir.ref<!fir.array<2x2xi32>>, i32, i1) -> !hlfir.expr<2xi32> |
| ! CHECK-NEXT: hlfir.assign %[[EXPR]] to %[[OUT]]#0 : !hlfir.expr<2xi32>, !fir.ref<!fir.array<2xi32>> |
| ! CHECK-NEXT: hlfir.destroy %[[EXPR]] : !hlfir.expr<2xi32> |
| ! CHECK-NEXT: return |
| ! CHECK-NEXT: } |
| |
| ! product with dimesnsion from pointer |
| subroutine product6(a, s, d) |
| integer, pointer :: d |
| real :: a(:,:), s(:) |
| s = PRODUCT(a, (d)) |
| end subroutine |
| ! CHECK-LABEL: func.func @_QPproduct6( |
| ! CHECK: %[[ARG0:.*]]: !fir.box<!fir.array<?x?xf32>> {fir.bindc_name = "a"}, %[[ARG1:.*]]: !fir.box<!fir.array<?xf32>> {fir.bindc_name = "s"}, %[[ARG2:.*]]: !fir.ref<!fir.box<!fir.ptr<i32>>> {fir.bindc_name = "d"}) |
| ! CHECK-DAG: %[[ARRAY:.*]]:2 = hlfir.declare %[[ARG0]] |
| ! CHECK-DAG: %[[OUT:.*]]:2 = hlfir.declare %[[ARG1]] |
| ! CHECK-DAG: %[[DIM:.*]]:2 = hlfir.declare %[[ARG2]] |
| ! CHECK-NEXT: %[[DIM_BOX:.*]] = fir.load %[[DIM]]#0 : !fir.ref<!fir.box<!fir.ptr<i32>>> |
| ! CHECK-NEXT: %[[DIM_ADDR:.*]] = fir.box_addr %[[DIM_BOX]] : (!fir.box<!fir.ptr<i32>>) -> !fir.ptr<i32> |
| ! CHECK-NEXT: %[[DIM0:.*]] = fir.load %[[DIM_ADDR]] : !fir.ptr<i32> |
| ! CHECK-NEXT: %[[DIM1:.*]] = hlfir.no_reassoc %[[DIM0]] : i32 |
| ! CHECK-NEXT: %[[EXPR:.*]] = hlfir.product %[[ARRAY]]#0 dim %[[DIM1]] {fastmath = #arith.fastmath<contract>} : (!fir.box<!fir.array<?x?xf32>>, i32) -> !hlfir.expr<?xf32> |
| ! CHECK-NEXT: hlfir.assign %[[EXPR]] to %[[OUT]]#0 : !hlfir.expr<?xf32>, !fir.box<!fir.array<?xf32>> |
| ! CHECK-NEXT: hlfir.destroy %[[EXPR]] |
| ! CHECK-NEXT: return |
| ! CHECK-NEXT: } |
| |
| subroutine testDynamicallyOptionalMask(array, mask, res) |
| integer :: array(:), res |
| logical, allocatable :: mask(:) |
| res = PRODUCT(array, mask=mask) |
| end subroutine |
| ! CHECK-LABEL: func.func @_QPtestdynamicallyoptionalmask( |
| ! CHECK-SAME: %[[ARG0:.*]]: !fir.box<!fir.array<?xi32>> |
| ! CHECK-SAME: %[[ARG1:.*]]: !fir.ref<!fir.box<!fir.heap<!fir.array<?x!fir.logical<4>>>>> |
| ! CHECK-SAME: %[[ARG2:.*]]: !fir.ref<i32> |
| ! CHECK-DAG: %[[ARRAY:.*]]:2 = hlfir.declare %[[ARG0]] |
| ! CHECK-DAG: %[[MASK:.*]]:2 = hlfir.declare %[[ARG1]] |
| ! CHECK-DAG: %[[RES:.*]]:2 = hlfir.declare %[[ARG2]] |
| ! CHECK-NEXT: %[[MASK_LOAD:.*]] = fir.load %[[MASK]]#1 |
| ! CHECK-NEXT: %[[MASK_ADDR:.*]] = fir.box_addr %[[MASK_LOAD]] |
| ! CHECK-NEXT: %[[MASK_ADDR_INT:.*]] = fir.convert %[[MASK_ADDR]] |
| ! CHECK-NEXT: %[[C0:.*]] = arith.constant 0 : i64 |
| ! CHECK-NEXT: %[[CMP:.*]] = arith.cmpi ne, %[[MASK_ADDR_INT]], %[[C0]] : i64 |
| ! CHECK-NEXT: %[[MASK_LOAD2:.*]] = fir.load %[[MASK]]#1 |
| ! CHECK-NEXT: %[[ABSENT:.*]] = fir.absent !fir.box<!fir.heap<!fir.array<?x!fir.logical<4>>>> |
| ! CHECK-NEXT: %[[SELECT:.*]] = arith.select %[[CMP]], %[[MASK_LOAD2]], %[[ABSENT]] |
| ! CHECK-NEXT: %[[PRODUCT:.*]] = hlfir.product %[[ARRAY]]#0 mask %[[SELECT]] |
| ! CHECK-NEXT: hlfir.assign %[[PRODUCT]] to %[[RES]]#0 |
| ! CHECK-NEXT: return |
| ! CHECK-NEXT: } |
| |
| subroutine testAllocatableArray(array, mask, res) |
| integer, allocatable :: array(:) |
| integer :: res |
| logical :: mask(:) |
| res = PRODUCT(array, mask=mask) |
| end subroutine |
| ! CHECK-LABEL: func.func @_QPtestallocatablearray( |
| ! CHECK-SAME: %[[ARG0:.*]]: !fir.ref<!fir.box<!fir.heap<!fir.array<?xi32>>>> |
| ! CHECK-SAME: %[[ARG1:.*]]: !fir.box<!fir.array<?x!fir.logical<4>>> |
| ! CHECK-SAME: %[[ARG2:.*]]: !fir.ref<i32> |
| ! CHECK-DAG: %[[ARRAY:.*]]:2 = hlfir.declare %[[ARG0]] |
| ! CHECK-DAG: %[[MASK:.*]]:2 = hlfir.declare %[[ARG1]] |
| ! CHECK-DAG: %[[RES:.*]]:2 = hlfir.declare %[[ARG2]] |
| ! CHECK-NEXT: %[[LOADED_ARRAY:.*]] = fir.load %[[ARRAY]]#0 |
| ! CHECK-NEXT: %[[PRODUCT:.*]] = hlfir.product %[[LOADED_ARRAY]] mask %[[MASK]]#0 |
| ! CHECK-NEXT: hlfir.assign %[[PRODUCT]] to %[[RES]]#0 |
| ! CHECK-NEXT: return |
| ! CHECK-NEXT: } |
| |
| function testOptionalScalar(array, mask) |
| integer :: array(:) |
| logical, optional :: mask |
| integer :: testOptionalScalar |
| testOptionalScalar = product(array, mask) |
| end function |
| ! CHECK-LABEL: func.func @_QPtestoptionalscalar( |
| ! CHECK-SAME: %[[ARRAY_ARG:.*]]: !fir.box<!fir.array<?xi32>> {fir.bindc_name = "array"}, |
| ! CHECK-SAME: %[[MASK_ARG:.*]]: !fir.ref<!fir.logical<4>> {fir.bindc_name = "mask", fir.optional}) -> i32 |
| ! CHECK: %[[ARRAY_VAR:.*]]:2 = hlfir.declare %[[ARRAY_ARG]] |
| ! CHECK: %[[MASK_VAR:.*]]:2 = hlfir.declare %[[MASK_ARG]] |
| ! CHECK: %[[RET_ALLOC:.*]] = fir.alloca i32 {bindc_name = "testoptionalscalar", uniq_name = "_QFtestoptionalscalarEtestoptionalscalar"} |
| ! CHECK: %[[RET_VAR:.*]]:2 = hlfir.declare %[[RET_ALLOC]] |
| ! CHECK: %[[MASK_IS_PRESENT:.*]] = fir.is_present %[[MASK_VAR]]#0 : (!fir.ref<!fir.logical<4>>) -> i1 |
| ! CHECK: %[[MASK_BOX:.*]] = fir.embox %[[MASK_VAR]]#1 |
| ! CHECK: %[[ABSENT:.*]] = fir.absent !fir.box<!fir.logical<4>> |
| ! CHECK: %[[MASK_SELECT:.*]] = arith.select %[[MASK_IS_PRESENT]], %[[MASK_BOX]], %[[ABSENT]] |
| ! CHECK: %[[RES:.*]] = hlfir.product %[[ARRAY_VAR]]#0 mask %[[MASK_SELECT]] {{.*}}: (!fir.box<!fir.array<?xi32>>, !fir.box<!fir.logical<4>>) -> i32 |
| ! CHECK: hlfir.assign %[[RES]] to %[[RET_VAR]]#0 |
| ! CHECK: %[[RET:.*]] = fir.load %[[RET_VAR]]#1 : !fir.ref<i32> |
| ! CHECK: return %[[RET]] : i32 |
| ! CHECK: } |
