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|
// RUN: %clang_cc1 -fopenacc -triple x86_64-linux-gnu -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir -triple x86_64-linux-pc %s -o - | FileCheck %s
template<typename T>
void do_things(unsigned A, unsigned B) {
T *OnePtr;
#pragma acc parallel private(OnePtr[A:B])
// CHECK: acc.private.recipe @privatization__Bcnt1__ZTSPi : !cir.ptr<!cir.ptr<!s32i>> init {
// CHECK-NEXT: ^bb0(%arg0: !cir.ptr<!cir.ptr<!s32i>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<4> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !s32i, !cir.ptr<!s32i>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 4 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[UPP_BOUND:.*]] = cir.const #cir.int<1> : !u64i
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UPP_BOUND]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!s32i>, %[[SRC_IDX]] : !u64i), !cir.ptr<!s32i>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_ALLOCA]] : !cir.ptr<!cir.ptr<!s32i>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
//
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(OnePtr[B])
;
#pragma acc parallel private(OnePtr)
// CHECK-NEXT: acc.private.recipe @privatization__ZTSPi : !cir.ptr<!cir.ptr<!s32i>> init {
// CHECK-NEXT: ^bb0(%arg0: !cir.ptr<!cir.ptr<!s32i>> {{.*}}):
// CHECK-NEXT: cir.alloca !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>, ["openacc.private.init"] {alignment = 8 : i64}
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
T **TwoPtr;
#pragma acc parallel private(TwoPtr[B][B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt2__ZTSPPi : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.ptr<!s32i>>, !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<8> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[UPP_BOUND:.*]] = cir.const #cir.int<1> : !u64i
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UPP_BOUND]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!s32i>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.ptr<!s32i>>, !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
//
// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[UB2_CAST]]) : !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<4> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA2:.*]] = cir.alloca !s32i, !cir.ptr<!s32i>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 4 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB2_CAST]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA2]] : !cir.ptr<!s32i>, %[[SRC_IDX]] : !u64i), !cir.ptr<!s32i>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!s32i>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(TwoPtr[B][A:B])
;
#pragma acc parallel private(TwoPtr[A:B][A:B])
;
#pragma acc parallel private(TwoPtr)
// CHECK-NEXT: acc.private.recipe @privatization__ZTSPPi : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>> {{.*}}):
// CHECK-NEXT: cir.alloca !cir.ptr<!cir.ptr<!s32i>>, !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, ["openacc.private.init"] {alignment = 8 : i64}
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
T ***ThreePtr;
#pragma acc parallel private(ThreePtr[B][B][B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt3__ZTSPPPi : !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND3:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB3:.*]] = acc.get_upperbound %[[BOUND3]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB3_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB3]] : index to !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<8> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[UB3_CAST]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.ptr<!s32i>>, !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[UPP_BOUND:.*]] = cir.const #cir.int<1> : !u64i
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UPP_BOUND]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB3_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
//
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[UB3_CAST]]) : !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<8> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA2:.*]] = cir.alloca !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB3_CAST]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA2]] : !cir.ptr<!cir.ptr<!s32i>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.ptr<!s32i>>, !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS2:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[NUM_ELTS]]) : !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<4> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS2]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA3:.*]] = cir.alloca !s32i, !cir.ptr<!s32i>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 4 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[NUM_ELTS]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA3]] : !cir.ptr<!s32i>, %[[SRC_IDX]] : !u64i), !cir.ptr<!s32i>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[ARR_ALLOCA2]] : !cir.ptr<!cir.ptr<!s32i>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(ThreePtr[B][B][A:B])
;
#pragma acc parallel private(ThreePtr[B][A:B][A:B])
;
#pragma acc parallel private(ThreePtr[A:B][A:B][A:B])
;
#pragma acc parallel private(ThreePtr[B][B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt2__ZTSPPPi : !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<8> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.ptr<!s32i>>, !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[UPP_BOUND:.*]] = cir.const #cir.int<1> : !u64i
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UPP_BOUND]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
//
// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[UB2_CAST]]) : !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<8> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA2:.*]] = cir.alloca !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB2_CAST]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA2]] : !cir.ptr<!cir.ptr<!s32i>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.ptr<!s32i>>, !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(ThreePtr[B][A:B])
;
#pragma acc parallel private(ThreePtr[A:B][A:B])
;
#pragma acc parallel private(ThreePtr)
// CHECK-NEXT: acc.private.recipe @privatization__ZTSPPPi : !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>> {{.*}}):
// CHECK-NEXT: cir.alloca !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, !cir.ptr<!cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>>, ["openacc.private.init"] {alignment = 8 : i64}
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
T *ArrayOfPtr[5];
#pragma acc parallel private(ArrayOfPtr[B][A:B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt2__ZTSA5_Pi : !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.array<!cir.ptr<!s32i> x 5>, !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, ["openacc.private.init"] {alignment = 8 : i64}
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
//
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: %[[DECAY:.*]] = cir.cast array_to_ptrdecay %[[TL_ALLOCA]] : !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>> -> !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: %[[TL_DEREF:.*]] = cir.ptr_stride(%[[DECAY]] : !cir.ptr<!cir.ptr<!s32i>>, %[[ZERO]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
//
// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[UB2_CAST]]) : !u64i
// CHECK-NEXT: %[[ELT_SIZE:.*]] = cir.const #cir.int<4> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS]], %[[ELT_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !s32i, !cir.ptr<!s32i>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 4 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB2_CAST]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!s32i>, %[[SRC_IDX]] : !u64i), !cir.ptr<!s32i>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_DEREF]] : !cir.ptr<!cir.ptr<!s32i>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(ArrayOfPtr[A:B][A:B])
;
#pragma acc parallel private(ArrayOfPtr[B][B])
;
#pragma acc parallel private(ArrayOfPtr)
// CHECK-NEXT: acc.private.recipe @privatization__ZTSA5_Pi : !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>> {{.*}}):
// CHECK-NEXT: cir.alloca !cir.array<!cir.ptr<!s32i> x 5>, !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, ["openacc.private.init"] {alignment = 16 : i64}
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
using TArrayTy = T[5];
TArrayTy *PtrToArrays;
#pragma acc parallel private(PtrToArrays[B][B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt2__ZTSPA5_i : !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.array<!s32i x 5>>, !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<20> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !cir.array<!s32i x 5>, !cir.ptr<!cir.array<!s32i x 5>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 4 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[UPP_BOUND:.*]] = cir.const #cir.int<1> : !u64i
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UPP_BOUND]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.array<!s32i x 5>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.array<!s32i x 5>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.array<!s32i x 5>>, !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(PtrToArrays[B][A:B])
;
#pragma acc parallel private(PtrToArrays[A:B][A:B])
;
#pragma acc parallel private(PtrToArrays)
// CHECK-NEXT: acc.private.recipe @privatization__ZTSPA5_i : !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>> {{.*}}):
// CHECK-NEXT: cir.alloca !cir.ptr<!cir.array<!s32i x 5>>, !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, ["openacc.private.init"] {alignment = 8 : i64}
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
T **ArrayOfPtrPtr[5];
#pragma acc parallel private(ArrayOfPtrPtr[B][B][B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt3__ZTSA5_PPi : !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND3:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>, !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB3:.*]] = acc.get_upperbound %[[BOUND3]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB3_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB3]] : index to !u64i
//
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: %[[DECAY:.*]] = cir.cast array_to_ptrdecay %[[TL_ALLOCA]] : !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>> -> !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: %[[TL_DEREF:.*]] = cir.ptr_stride(%[[DECAY]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[ZERO]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
//
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[UB3_CAST]]) : !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<8> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB3_CAST]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!s32i>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_DEREF]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.ptr<!s32i>>, !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
//
// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS2:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[NUM_ELTS]]) : !u64i
// CHECK-NEXT: %[[ELT_SIZE:.*]] = cir.const #cir.int<4> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS2]], %[[ELT_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA2:.*]] = cir.alloca !s32i, !cir.ptr<!s32i>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 4 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[NUM_ELTS]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA2]] : !cir.ptr<!s32i>, %[[SRC_IDX]] : !u64i), !cir.ptr<!s32i>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!s32i>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(ArrayOfPtrPtr[B][B][A:B])
;
#pragma acc parallel private(ArrayOfPtrPtr[B][A:B][A:B])
;
#pragma acc parallel private(ArrayOfPtrPtr[A:B][A:B][A:B])
;
#pragma acc parallel private(ArrayOfPtrPtr[B][B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt2__ZTSA5_PPi : !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>, !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
//
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: %[[DECAY:.*]] = cir.cast array_to_ptrdecay %[[TL_ALLOCA]] : !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>> -> !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: %[[TL_DEREF:.*]] = cir.ptr_stride(%[[DECAY]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[ZERO]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
//
// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[UB2_CAST]]) : !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<8> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB2_CAST]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!s32i>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_DEREF]] : !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.ptr<!s32i>>, !cir.ptr<!cir.ptr<!cir.ptr<!s32i>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(ArrayOfPtrPtr[B][A:B])
;
#pragma acc parallel private(ArrayOfPtrPtr[A:B][A:B])
;
#pragma acc parallel private(ArrayOfPtrPtr)
// CHECK-NEXT: acc.private.recipe @privatization__ZTSA5_PPi : !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>> {{.*}}):
// CHECK-NEXT: cir.alloca !cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>, !cir.ptr<!cir.array<!cir.ptr<!cir.ptr<!s32i>> x 5>>, ["openacc.private.init"] {alignment = 16 : i64}
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
TArrayTy **PtrPtrToArray;
#pragma acc parallel private(PtrPtrToArray[B][B][B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt3__ZTSPPA5_i : !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND3:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB3:.*]] = acc.get_upperbound %[[BOUND3]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB3_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB3]] : index to !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<8> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[UB3_CAST]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.array<!s32i x 5>>, !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[UPP_BOUND:.*]] = cir.const #cir.int<1> : !u64i
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UPP_BOUND]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB3_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
//
//
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[UB3_CAST]]) : !u64i
// CHECK-NEXT: %[[ELT_SIZE:.*]] = cir.const #cir.int<20> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS]], %[[ELT_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA2:.*]] = cir.alloca !cir.array<!s32i x 5>, !cir.ptr<!cir.array<!s32i x 5>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 4 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB3_CAST]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA2]] : !cir.ptr<!cir.array<!s32i x 5>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.array<!s32i x 5>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.array<!s32i x 5>>, !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT:}
;
#pragma acc parallel private(PtrPtrToArray[B][B][A:B])
;
#pragma acc parallel private(PtrPtrToArray[B][A:B][A:B])
;
#pragma acc parallel private(PtrPtrToArray[A:B][A:B][A:B])
;
#pragma acc parallel private(PtrPtrToArray[B][B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt2__ZTSPPA5_i : !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<8> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.array<!s32i x 5>>, !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[UPP_BOUND:.*]] = cir.const #cir.int<1> : !u64i
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UPP_BOUND]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
//
// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[UB2_CAST]]) : !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<20> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA2:.*]] = cir.alloca !cir.array<!s32i x 5>, !cir.ptr<!cir.array<!s32i x 5>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 4 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UB2_CAST]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA2]] : !cir.ptr<!cir.array<!s32i x 5>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.array<!s32i x 5>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.array<!s32i x 5>>, !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(PtrPtrToArray[B][A:B])
;
#pragma acc parallel private(PtrPtrToArray[A:B][A:B])
;
#pragma acc parallel private(PtrPtrToArray)
// CHECK-NEXT: acc.private.recipe @privatization__ZTSPPA5_i : !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>>
// CHECK-NEXT: cir.alloca !cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>, !cir.ptr<!cir.ptr<!cir.ptr<!cir.array<!s32i x 5>>>>, ["openacc.private.init"] {alignment = 8 : i64}
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
using PtrTArrayTy = T*[5];
PtrTArrayTy *PtrArrayPtr;
#pragma acc parallel private(PtrArrayPtr[B][B][B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt3__ZTSPA5_Pi : !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND3:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB3:.*]] = acc.get_upperbound %[[BOUND3]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB3_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB3]] : index to !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<40> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !cir.array<!cir.ptr<!s32i> x 5>, !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[UPP_BOUND:.*]] = cir.const #cir.int<1> : !u64i
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UPP_BOUND]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
//
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[UB3_CAST]]) : !u64i
//
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: %[[DECAY:.*]] = cir.cast array_to_ptrdecay %[[ARR_ALLOCA]] : !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>> -> !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: %[[STRIDE:.*]] = cir.ptr_stride(%[[DECAY]] : !cir.ptr<!cir.ptr<!s32i>>, %[[ZERO]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
//
// CHECK-NEXT: %[[UB1:.*]] = acc.get_upperbound %[[BOUND1]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB1_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB1]] : index to !u64i
// CHECK-NEXT: %[[NUM_ELTS2:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[NUM_ELTS]]) : !u64i
// CHECK-NEXT: %[[ELT_SIZE:.*]] = cir.const #cir.int<4> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[NUM_ELTS2]], %[[ELT_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA2:.*]] = cir.alloca !s32i, !cir.ptr<!s32i>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 4 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[NUM_ELTS]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB1_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA2]] : !cir.ptr<!s32i>, %[[SRC_IDX]] : !u64i), !cir.ptr<!s32i>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[STRIDE]] : !cir.ptr<!cir.ptr<!s32i>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!s32i>, !cir.ptr<!cir.ptr<!s32i>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(PtrArrayPtr[B][B][A:B])
;
#pragma acc parallel private(PtrArrayPtr[B][A:B][A:B])
;
#pragma acc parallel private(PtrArrayPtr[A:B][A:B][A:B])
;
#pragma acc parallel private(PtrArrayPtr[B][B])
// #pragma acc parallel private(PtrArrayPtr[B][B])
// CHECK-NEXT: acc.private.recipe @privatization__Bcnt2__ZTSPA5_Pi : !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>> {{.*}}, %[[BOUND1:.*]]: !acc.data_bounds_ty {{.*}}, %[[BOUND2:.*]]: !acc.data_bounds_ty {{.*}}):
// CHECK-NEXT: %[[TL_ALLOCA:.*]] = cir.alloca !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>>, ["openacc.private.init"] {alignment = 8 : i64}
//
// CHECK-NEXT: %[[UB2:.*]] = acc.get_upperbound %[[BOUND2]] : (!acc.data_bounds_ty) -> index
// CHECK-NEXT: %[[UB2_CAST:.*]] = builtin.unrealized_conversion_cast %[[UB2]] : index to !u64i
// CHECK-NEXT: %[[ARR_SIZE:.*]] = cir.const #cir.int<40> : !u64i
// CHECK-NEXT: %[[ALLOCA_SIZE:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ARR_SIZE]]) : !u64i
// CHECK-NEXT: %[[ARR_ALLOCA:.*]] = cir.alloca !cir.array<!cir.ptr<!s32i> x 5>, !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, %[[ALLOCA_SIZE]] : !u64i, ["openacc.init.bounds"] {alignment = 8 : i64}
//
// CHECK-NEXT: cir.scope {
// CHECK-NEXT: %[[ITR:.*]] = cir.alloca !u64i, !cir.ptr<!u64i>, ["itr"] {alignment = 8 : i64}
// CHECK-NEXT: %[[ZERO:.*]] = cir.const #cir.int<0> : !u64i
// CHECK-NEXT: cir.store %[[ZERO]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.for : cond {
// CHECK-NEXT: %[[UPP_BOUND:.*]] = cir.const #cir.int<1> : !u64i
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[CMP:.*]] = cir.cmp(lt, %[[ITR_LOAD]], %[[UPP_BOUND]]) : !u64i, !cir.bool
// CHECK-NEXT: cir.condition(%[[CMP]])
// CHECK-NEXT: } body {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[SRC_IDX:.*]] = cir.binop(mul, %[[UB2_CAST]], %[[ITR_LOAD]]) : !u64i
// CHECK-NEXT: %[[SRC:.*]] = cir.ptr_stride(%[[ARR_ALLOCA]] : !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, %[[SRC_IDX]] : !u64i), !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>
// CHECK-NEXT: %[[DEST:.*]] = cir.ptr_stride(%[[TL_ALLOCA]] : !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>>, %[[ITR_LOAD]] : !u64i), !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>>
// CHECK-NEXT: cir.store %[[SRC]], %[[DEST]] : !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: } step {
// CHECK-NEXT: %[[ITR_LOAD:.*]] = cir.load %[[ITR]] : !cir.ptr<!u64i>, !u64i
// CHECK-NEXT: %[[INC:.*]] = cir.unary(inc, %[[ITR_LOAD]]) : !u64i, !u64i
// CHECK-NEXT: cir.store %[[INC]], %[[ITR]] : !u64i, !cir.ptr<!u64i>
// CHECK-NEXT: cir.yield
// CHECK-NEXT: }
// CHECK-NEXT: }
// TODO: Add Init here.
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
#pragma acc parallel private(PtrArrayPtr[B][A:B])
;
#pragma acc parallel private(PtrArrayPtr[A:B][A:B])
;
#pragma acc parallel private(PtrArrayPtr)
// CHECK: acc.private.recipe @privatization__ZTSPA5_Pi : !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>> init {
// CHECK-NEXT: ^bb0(%[[ARG:.*]]: !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>> {{.*}}):
// CHECK-NEXT: cir.alloca !cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>, !cir.ptr<!cir.ptr<!cir.array<!cir.ptr<!s32i> x 5>>>, ["openacc.private.init"]
// CHECK-NEXT: acc.yield
// CHECK-NEXT: }
;
}
void use(unsigned A, unsigned B) {
do_things<int>(A, B);
}
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