// RUN: %clang_cc1 -fopenacc -Wno-openacc-self-if-potential-conflict -emit-cir -fclangir %s -o - | FileCheck %s struct HasSideEffects { HasSideEffects(); ~HasSideEffects(); }; struct Struct { static const HasSideEffects StaticMemHSE; static const HasSideEffects StaticMemHSEArr[5]; static const int StaticMemInt; void MemFunc1(HasSideEffects ArgHSE, int ArgInt, HasSideEffects *ArgHSEPtr) { // CHECK: cir.func {{.*}}MemFunc1{{.*}}(%{{.*}}: !cir.ptr{{.*}}, %[[ARG_HSE:.*]]: !rec_HasSideEffects{{.*}}, %[[ARG_INT:.*]]: !s32i {{.*}}, %[[ARG_HSE_PTR:.*]]: !cir.ptr{{.*}}) // CHECK-NEXT: cir.alloca{{.*}}["this" // CHECK-NEXT: %[[ARG_HSE_ALLOCA:.*]] = cir.alloca !rec_HasSideEffects{{.*}}["ArgHSE" // CHECK-NEXT: %[[ARG_INT_ALLOCA:.*]] = cir.alloca !s32i{{.*}}["ArgInt // CHECK-NEXT: %[[ARG_HSE_PTR_ALLOCA:.*]] = cir.alloca !cir.ptr{{.*}}["ArgHSEPtr" // CHECK-NEXT: %[[LOC_HSE_ALLOCA:.*]] = cir.alloca !rec_HasSideEffects{{.*}}["LocalHSE // CHECK-NEXT: %[[LOC_HSE_ARR_ALLOCA:.*]] = cir.alloca !cir.array{{.*}}["LocalHSEArr // CHECK-NEXT: %[[LOC_INT_ALLOCA:.*]] = cir.alloca !s32i{{.*}}["LocalInt // CHECK-NEXT: cir.store // CHECK-NEXT: cir.store // CHECK-NEXT: cir.store // CHECK-NEXT: cir.store // CHECK-NEXT: cir.load HasSideEffects LocalHSE; // CHECK-NEXT: cir.call{{.*}} : (!cir.ptr) -> () HasSideEffects LocalHSEArr[5]; int LocalInt; #pragma acc declare present(ArgHSE, ArgInt, LocalHSE, LocalInt, ArgHSEPtr[1:1], LocalHSEArr[1:1]) // CHECK: %[[ARG_HSE_PRESENT:.*]] = acc.present varPtr(%[[ARG_HSE_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "ArgHSE"} // CHECK-NEXT: %[[ARG_INT_PRESENT:.*]] = acc.present varPtr(%[[ARG_INT_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "ArgInt"} // CHECK-NEXT: %[[LOC_HSE_PRESENT:.*]] = acc.present varPtr(%[[LOC_HSE_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "LocalHSE"} // CHECK-NEXT: %[[LOC_INT_PRESENT:.*]] = acc.present varPtr(%[[LOC_INT_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "LocalInt"} // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[LB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[UB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[IDX:.*]] = arith.constant 0 : i64 // CHECK-NEXT: %[[STRIDE:.*]] = arith.constant 1 : i64 // CHECK-NEXT: %[[BOUND1:.*]] = acc.bounds lowerbound(%[[LB]] : si32) extent(%[[UB]] : si32) stride(%[[STRIDE]] : i64) startIdx(%[[IDX]] : i64) // CHECK-NEXT: %[[ARG_HSE_PTR_PRESENT:.*]] = acc.present varPtr(%[[ARG_HSE_PTR_ALLOCA]] : !cir.ptr>) bounds(%[[BOUND1]]) -> !cir.ptr> {name = "ArgHSEPtr[1:1]"} // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[LB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[UB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[IDX:.*]] = arith.constant 0 : i64 // CHECK-NEXT: %[[STRIDE:.*]] = arith.constant 1 : i64 // CHECK-NEXT: %[[BOUND2:.*]] = acc.bounds lowerbound(%[[LB]] : si32) extent(%[[UB]] : si32) stride(%[[STRIDE]] : i64) startIdx(%[[IDX]] : i64) // CHECK-NEXT: %[[LOC_HSE_ARR_PRESENT:.*]] = acc.present varPtr(%[[LOC_HSE_ARR_ALLOCA]] : !cir.ptr>) bounds(%[[BOUND2]]) -> !cir.ptr> {name = "LocalHSEArr[1:1]"} // CHECK-NEXT: %[[ENTER:.*]] = acc.declare_enter dataOperands(%[[ARG_HSE_PRESENT]], %[[ARG_INT_PRESENT]], %[[LOC_HSE_PRESENT]], %[[LOC_INT_PRESENT]], %[[ARG_HSE_PTR_PRESENT]], %[[LOC_HSE_ARR_PRESENT]] : !cir.ptr, !cir.ptr, !cir.ptr, !cir.ptr, !cir.ptr>, !cir.ptr>) // // CHECK-NEXT: acc.declare_exit token(%[[ENTER]]) dataOperands(%[[ARG_HSE_PRESENT]], %[[ARG_INT_PRESENT]], %[[LOC_HSE_PRESENT]], %[[LOC_INT_PRESENT]], %[[ARG_HSE_PTR_PRESENT]], %[[LOC_HSE_ARR_PRESENT]] : !cir.ptr, !cir.ptr, !cir.ptr, !cir.ptr, !cir.ptr>, !cir.ptr>) // CHECK-NEXT: acc.delete accPtr(%[[ARG_HSE_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "ArgHSE"} // CHECK-NEXT: acc.delete accPtr(%[[ARG_INT_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "ArgInt"} // CHECK-NEXT: acc.delete accPtr(%[[LOC_HSE_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "LocalHSE"} // CHECK-NEXT: acc.delete accPtr(%[[LOC_INT_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "LocalInt"} // CHECK-NEXT: acc.delete accPtr(%[[ARG_HSE_PTR_PRESENT]] : !cir.ptr>) bounds(%[[BOUND1]]) {dataClause = #acc, name = "ArgHSEPtr[1:1]"} // CHECK-NEXT: acc.delete accPtr(%[[LOC_HSE_ARR_PRESENT]] : !cir.ptr>) bounds(%[[BOUND2]]) {dataClause = #acc, name = "LocalHSEArr[1:1]"} } void MemFunc2(HasSideEffects ArgHSE, int ArgInt, HasSideEffects *ArgHSEPtr); }; void use() { Struct s; s.MemFunc1(HasSideEffects{}, 0, nullptr); } void Struct::MemFunc2(HasSideEffects ArgHSE, int ArgInt, HasSideEffects *ArgHSEPtr) { // CHECK: cir.func {{.*}}MemFunc2{{.*}}(%{{.*}}: !cir.ptr{{.*}}, %[[ARG_HSE:.*]]: !rec_HasSideEffects{{.*}}, %[[ARG_INT:.*]]: !s32i {{.*}}, %[[ARG_HSE_PTR:.*]]: !cir.ptr{{.*}}) // CHECK-NEXT: cir.alloca{{.*}}["this" // CHECK-NEXT: %[[ARG_HSE_ALLOCA:.*]] = cir.alloca !rec_HasSideEffects{{.*}}["ArgHSE" // CHECK-NEXT: %[[ARG_INT_ALLOCA:.*]] = cir.alloca !s32i{{.*}}["ArgInt // CHECK-NEXT: %[[ARG_HSE_PTR_ALLOCA:.*]] = cir.alloca !cir.ptr{{.*}}["ArgHSEPtr" // CHECK-NEXT: %[[LOC_HSE_ALLOCA:.*]] = cir.alloca !rec_HasSideEffects{{.*}}["LocalHSE // CHECK-NEXT: %[[LOC_HSE_ARR_ALLOCA:.*]] = cir.alloca !cir.array{{.*}}["LocalHSEArr // CHECK-NEXT: %[[LOC_INT_ALLOCA:.*]] = cir.alloca !s32i{{.*}}["LocalInt // CHECK-NEXT: cir.store // CHECK-NEXT: cir.store // CHECK-NEXT: cir.store // CHECK-NEXT: cir.store // CHECK-NEXT: cir.load HasSideEffects LocalHSE; // CHECK-NEXT: cir.call{{.*}} : (!cir.ptr) -> () HasSideEffects LocalHSEArr[5]; // CHECK: do { // CHECK: } while { // CHECK: } int LocalInt; #pragma acc declare present(ArgHSE, ArgInt, ArgHSEPtr[1:1]) // CHECK: %[[ARG_HSE_PRESENT:.*]] = acc.present varPtr(%[[ARG_HSE_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "ArgHSE"} // CHECK-NEXT: %[[ARG_INT_PRESENT:.*]] = acc.present varPtr(%[[ARG_INT_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "ArgInt"} // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[LB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[UB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[IDX:.*]] = arith.constant 0 : i64 // CHECK-NEXT: %[[STRIDE:.*]] = arith.constant 1 : i64 // CHECK-NEXT: %[[BOUND1:.*]] = acc.bounds lowerbound(%[[LB]] : si32) extent(%[[UB]] : si32) stride(%[[STRIDE]] : i64) startIdx(%[[IDX]] : i64) // CHECK-NEXT: %[[ARG_HSE_PTR_PRESENT:.*]] = acc.present varPtr(%[[ARG_HSE_PTR_ALLOCA]] : !cir.ptr>) bounds(%[[BOUND1]]) -> !cir.ptr> {name = "ArgHSEPtr[1:1]"} // CHECK-NEXT: %[[ENTER1:.*]] = acc.declare_enter dataOperands(%[[ARG_HSE_PRESENT]], %[[ARG_INT_PRESENT]], %[[ARG_HSE_PTR_PRESENT]] : !cir.ptr, !cir.ptr, !cir.ptr>) #pragma acc declare present(LocalHSE, LocalInt, LocalHSEArr[1:1]) // CHECK-NEXT: %[[LOC_HSE_PRESENT:.*]] = acc.present varPtr(%[[LOC_HSE_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "LocalHSE"} // CHECK-NEXT: %[[LOC_INT_PRESENT:.*]] = acc.present varPtr(%[[LOC_INT_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "LocalInt"} // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[LB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[UB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[IDX:.*]] = arith.constant 0 : i64 // CHECK-NEXT: %[[STRIDE:.*]] = arith.constant 1 : i64 // CHECK-NEXT: %[[BOUND2:.*]] = acc.bounds lowerbound(%[[LB]] : si32) extent(%[[UB]] : si32) stride(%[[STRIDE]] : i64) startIdx(%[[IDX]] : i64) // CHECK-NEXT: %[[LOC_HSE_ARR_PRESENT:.*]] = acc.present varPtr(%[[LOC_HSE_ARR_ALLOCA]] : !cir.ptr>) bounds(%[[BOUND2]]) -> !cir.ptr> {name = "LocalHSEArr[1:1]"} // CHECK-NEXT: %[[ENTER2:.*]] = acc.declare_enter dataOperands(%[[LOC_HSE_PRESENT]], %[[LOC_INT_PRESENT]], %[[LOC_HSE_ARR_PRESENT]] : !cir.ptr, !cir.ptr, !cir.ptr>) // CHECK-NEXT: acc.declare_exit token(%[[ENTER2]]) dataOperands(%[[LOC_HSE_PRESENT]], %[[LOC_INT_PRESENT]], %[[LOC_HSE_ARR_PRESENT]] : !cir.ptr, !cir.ptr, !cir.ptr>) // CHECK-NEXT: acc.delete accPtr(%[[LOC_HSE_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "LocalHSE"} // CHECK-NEXT: acc.delete accPtr(%[[LOC_INT_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "LocalInt"} // CHECK-NEXT: acc.delete accPtr(%[[LOC_HSE_ARR_PRESENT]] : !cir.ptr>) bounds(%[[BOUND2]]) {dataClause = #acc, name = "LocalHSEArr[1:1]"} // // CHECK-NEXT: acc.declare_exit token(%[[ENTER1]]) dataOperands(%[[ARG_HSE_PRESENT]], %[[ARG_INT_PRESENT]], %[[ARG_HSE_PTR_PRESENT]] : !cir.ptr, !cir.ptr, !cir.ptr>) // CHECK-NEXT: acc.delete accPtr(%[[ARG_HSE_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "ArgHSE"} // CHECK-NEXT: acc.delete accPtr(%[[ARG_INT_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "ArgInt"} // CHECK-NEXT: acc.delete accPtr(%[[ARG_HSE_PTR_PRESENT]] : !cir.ptr>) bounds(%[[BOUND1]]) {dataClause = #acc, name = "ArgHSEPtr[1:1]"} } extern "C" void do_thing(); extern "C" void NormalFunc(HasSideEffects ArgHSE, int ArgInt, HasSideEffects *ArgHSEPtr) { // CHECK: cir.func {{.*}}NormalFunc(%[[ARG_HSE:.*]]: !rec_HasSideEffects{{.*}}, %[[ARG_INT:.*]]: !s32i {{.*}}, %[[ARG_HSE_PTR:.*]]: !cir.ptr{{.*}}) // CHECK-NEXT: %[[ARG_HSE_ALLOCA:.*]] = cir.alloca !rec_HasSideEffects{{.*}}["ArgHSE" // CHECK-NEXT: %[[ARG_INT_ALLOCA:.*]] = cir.alloca !s32i{{.*}}["ArgInt // CHECK-NEXT: %[[ARG_HSE_PTR_ALLOCA:.*]] = cir.alloca !cir.ptr{{.*}}["ArgHSEPtr" // CHECK-NEXT: %[[LOC_HSE_ALLOCA:.*]] = cir.alloca !rec_HasSideEffects{{.*}}["LocalHSE // CHECK-NEXT: %[[LOC_HSE_ARR_ALLOCA:.*]] = cir.alloca !cir.array{{.*}}["LocalHSEArr // CHECK-NEXT: %[[LOC_INT_ALLOCA:.*]] = cir.alloca !s32i{{.*}}["LocalInt // CHECK-NEXT: cir.store // CHECK-NEXT: cir.store // CHECK-NEXT: cir.store HasSideEffects LocalHSE; // CHECK-NEXT: cir.call{{.*}} : (!cir.ptr) -> () HasSideEffects LocalHSEArr[5]; // CHECK: do { // CHECK: } while { // CHECK: } int LocalInt; #pragma acc declare present(ArgHSE, ArgInt, ArgHSEPtr[1:1]) // CHECK: %[[ARG_HSE_PRESENT:.*]] = acc.present varPtr(%[[ARG_HSE_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "ArgHSE"} // CHECK-NEXT: %[[ARG_INT_PRESENT:.*]] = acc.present varPtr(%[[ARG_INT_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "ArgInt"} // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[LB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[UB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[IDX:.*]] = arith.constant 0 : i64 // CHECK-NEXT: %[[STRIDE:.*]] = arith.constant 1 : i64 // CHECK-NEXT: %[[BOUND1:.*]] = acc.bounds lowerbound(%[[LB]] : si32) extent(%[[UB]] : si32) stride(%[[STRIDE]] : i64) startIdx(%[[IDX]] : i64) // CHECK-NEXT: %[[ARG_HSE_PTR_PRESENT:.*]] = acc.present varPtr(%[[ARG_HSE_PTR_ALLOCA]] : !cir.ptr>) bounds(%[[BOUND1]]) -> !cir.ptr> {name = "ArgHSEPtr[1:1]"} // CHECK-NEXT: %[[ENTER1:.*]] = acc.declare_enter dataOperands(%[[ARG_HSE_PRESENT]], %[[ARG_INT_PRESENT]], %[[ARG_HSE_PTR_PRESENT]] : !cir.ptr, !cir.ptr, !cir.ptr>) { // CHECK-NEXT: cir.scope { #pragma acc declare present(LocalHSE, LocalInt, LocalHSEArr[1:1]) // CHECK-NEXT: %[[LOC_HSE_PRESENT:.*]] = acc.present varPtr(%[[LOC_HSE_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "LocalHSE"} // CHECK-NEXT: %[[LOC_INT_PRESENT:.*]] = acc.present varPtr(%[[LOC_INT_ALLOCA]] : !cir.ptr) -> !cir.ptr {name = "LocalInt"} // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[LB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[ONE:.*]] = cir.const #cir.int<1> : !s32i // CHECK-NEXT: %[[UB:.*]] = builtin.unrealized_conversion_cast %[[ONE]] : !s32i to si32 // CHECK-NEXT: %[[IDX:.*]] = arith.constant 0 : i64 // CHECK-NEXT: %[[STRIDE:.*]] = arith.constant 1 : i64 // CHECK-NEXT: %[[BOUND2:.*]] = acc.bounds lowerbound(%[[LB]] : si32) extent(%[[UB]] : si32) stride(%[[STRIDE]] : i64) startIdx(%[[IDX]] : i64) // CHECK-NEXT: %[[LOC_HSE_ARR_PRESENT:.*]] = acc.present varPtr(%[[LOC_HSE_ARR_ALLOCA]] : !cir.ptr>) bounds(%[[BOUND2]]) -> !cir.ptr> {name = "LocalHSEArr[1:1]"} // CHECK-NEXT: %[[ENTER2:.*]] = acc.declare_enter dataOperands(%[[LOC_HSE_PRESENT]], %[[LOC_INT_PRESENT]], %[[LOC_HSE_ARR_PRESENT]] : !cir.ptr, !cir.ptr, !cir.ptr>) do_thing(); // CHECK-NEXT: cir.call @do_thing // CHECK-NEXT: acc.declare_exit token(%[[ENTER2]]) dataOperands(%[[LOC_HSE_PRESENT]], %[[LOC_INT_PRESENT]], %[[LOC_HSE_ARR_PRESENT]] : !cir.ptr, !cir.ptr, !cir.ptr>) // CHECK-NEXT: acc.delete accPtr(%[[LOC_HSE_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "LocalHSE"} // CHECK-NEXT: acc.delete accPtr(%[[LOC_INT_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "LocalInt"} // CHECK-NEXT: acc.delete accPtr(%[[LOC_HSE_ARR_PRESENT]] : !cir.ptr>) bounds(%[[BOUND2]]) {dataClause = #acc, name = "LocalHSEArr[1:1]"} } // CHECK-NEXT: } // Make sure that cleanup gets put in the right scope. do_thing(); // CHECK-NEXT: cir.call @do_thing // CHECK-NEXT: acc.declare_exit token(%[[ENTER1]]) dataOperands(%[[ARG_HSE_PRESENT]], %[[ARG_INT_PRESENT]], %[[ARG_HSE_PTR_PRESENT]] : !cir.ptr, !cir.ptr, !cir.ptr>) // CHECK-NEXT: acc.delete accPtr(%[[ARG_HSE_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "ArgHSE"} // CHECK-NEXT: acc.delete accPtr(%[[ARG_INT_PRESENT]] : !cir.ptr) {dataClause = #acc, name = "ArgInt"} // CHECK-NEXT: acc.delete accPtr(%[[ARG_HSE_PTR_PRESENT]] : !cir.ptr>) bounds(%[[BOUND1]]) {dataClause = #acc, name = "ArgHSEPtr[1:1]"} }