// RUN: %clang_cc1 -verify -fopenmp -fopenmp-version=45 -x c++ -triple x86_64-unknown-linux -emit-llvm %s -fexceptions -fcxx-exceptions -o - -fsanitize-address-use-after-scope | FileCheck %s --implicit-check-not='ret i32 {{6|7|8|10|13|15|19|22|23|24}}' // RUN: %clang_cc1 -fopenmp -x c++ -std=c++11 -triple x86_64-unknown-linux -fexceptions -fcxx-exceptions -emit-pch -o %t -fopenmp-version=45 %s // RUN: %clang_cc1 -fopenmp -x c++ -triple x86_64-unknown-linux -fexceptions -fcxx-exceptions -std=c++11 -include-pch %t -verify %s -emit-llvm -o - -fopenmp-version=45 | FileCheck %s --implicit-check-not='ret i32 {{6|7|8|10|13|15|19|22|23|24}}' // RUN: %clang_cc1 -verify -fopenmp -x c++ -triple x86_64-unknown-linux -emit-llvm %s -fexceptions -fcxx-exceptions -o - -fsanitize-address-use-after-scope | FileCheck %s --implicit-check-not='ret i32 {{6|7|8|10|13|15|19|22|23|24}}' // RUN: %clang_cc1 -fopenmp -x c++ -std=c++11 -triple x86_64-unknown-linux -fexceptions -fcxx-exceptions -emit-pch -o %t %s // RUN: %clang_cc1 -fopenmp -x c++ -triple x86_64-unknown-linux -fexceptions -fcxx-exceptions -std=c++11 -include-pch %t -verify %s -emit-llvm -o - | FileCheck %s --implicit-check-not='ret i32 {{6|7|8|10|13|15|19|22|23|24}}' // expected-no-diagnostics // CHECK-DAG: ret i32 2 // CHECK-DAG: ret i32 3 // CHECK-DAG: ret i32 4 // CHECK-DAG: ret i32 5 // CHECK-DAG: ret i32 9 // CHECK-DAG: ret i32 11 // CHECK-DAG: ret i32 12 // CHECK-DAG: ret i32 14 // CHECK-DAG: ret i32 16 // CHECK-DAG: ret i32 17 // CHECK-DAG: ret i32 18 // CHECK-DAG: ret i32 19 // CHECK-DAG: ret i32 20 // CHECK-DAG: ret i32 21 // CHECK-DAG: ret i32 25 // CHECK-DAG: ret i32 26 // CHECK-DAG: ret i32 27 // CHECK-DAG: ret i32 28 // CHECK-DAG: ret i32 29 // CHECK-DAG: ret i32 30 // CHECK-DAG: ret i32 31 #ifndef HEADER #define HEADER int foo() { return 2; } #pragma omp declare variant(foo) match(implementation = {vendor(llvm)}, device={kind(cpu)}) int bar() { return 3; } int bazzz(); #pragma omp declare variant(bazzz) match(implementation = {vendor(llvm)}, device={kind(host)}) int baz() { return 4; } int test(); #pragma omp declare variant(test) match(implementation = {vendor(llvm)}, device={kind(cpu)}) int call() { return 5; } static int stat_unused_no_emit() { return 6; } static int stat_unused_(); #pragma omp declare variant(stat_unused_) match(implementation = {vendor(llvm)}, device={kind(cpu)}) #pragma omp declare variant(stat_unused_no_emit) match(implementation = {vendor(unknown)}, device = {kind(gpu)}) static int stat_unused() { return 7; } static int stat_used_(); #pragma omp declare variant(stat_used_) match(implementation = {vendor(llvm)}, device={kind(host)}) static int stat_used() { return 8; } int main() { return bar() + baz() + call() + stat_used(); } int test() { return 9; } static int stat_unused_() { return 10; } static int stat_used_() { return 11; } struct SpecialFuncs { void vd() {} SpecialFuncs(); ~SpecialFuncs(); int method_() { return 12; } #pragma omp declare variant(SpecialFuncs::method_) \ match(implementation = {vendor(llvm)}, device={kind(cpu)}) int method() { return 13; } #pragma omp declare variant(SpecialFuncs::method_) \ match(implementation = {vendor(llvm)}, device={kind(host)}) int Method(); } s; int SpecialFuncs::Method() { return 14; } struct SpecSpecialFuncs { void vd() {} SpecSpecialFuncs(); ~SpecSpecialFuncs(); int method_(); #pragma omp declare variant(SpecSpecialFuncs::method_) \ match(implementation = {vendor(llvm)}, device={kind(cpu)}) int method() { return 15; } #pragma omp declare variant(SpecSpecialFuncs::method_) \ match(implementation = {vendor(llvm)}, device={kind(host)}) int Method(); } s1; int SpecSpecialFuncs::method_() { return 16; } int SpecSpecialFuncs::Method() { return 17; } void xxx() { (void)s.method(); (void)s1.method(); } int prio() { return 18; } int prio1() { return 19; } #pragma omp declare variant(prio1) match(implementation = {vendor(score(2): llvm)}, device={kind(cpu,host)}) #pragma omp declare variant(prio) match(implementation = {vendor(score(1): llvm)}, device={kind(cpu)}) int prio_() { return 20; } static int prio2() { return 21; } static int prio3() { return 22; } static int prio4() { return 23; } #pragma omp declare variant(prio4) match(implementation = {vendor(score(5): llvm)}) #pragma omp declare variant(prio2) match(implementation = {vendor(score(8): llvm)}, device={kind(cpu,host)}) #pragma omp declare variant(prio3) match(implementation = {vendor(score(7): llvm)}, device={kind(cpu)}) static int prio1_() { return 24; } int int_fn() { return prio1_(); } int fn_linkage_variant() { return 25; } extern "C" { #pragma omp declare variant(fn_linkage_variant) match(implementation = {vendor(llvm)}, device={kind(cpu)}) int fn_linkage() { return 26; } } extern "C" int fn_linkage_variant1() { return 27; } #pragma omp declare variant(fn_linkage_variant1) match(implementation = {vendor(llvm)}, device={kind(host)}) int fn_linkage1() { return 28; } int fn_variant2() { return 29; } #pragma omp declare variant(fn_variant2) match(implementation = {vendor(llvm, ibm)}, device={kind(cpu)}) #pragma omp declare variant(fn_variant2) match(implementation = {vendor(llvm)}, device={kind(cpu,gpu)}) #pragma omp declare variant(fn_variant2) match(implementation = {vendor(llvm)}, device={kind(nohost)}) #pragma omp declare variant(fn_variant2) match(implementation = {vendor(llvm)}, device={kind(cpu,nohost)}) #pragma omp declare variant(fn_variant2) match(implementation = {vendor(llvm)}, device={kind(gpu)}) #pragma omp declare variant(fn_variant2) match(implementation = {vendor(llvm)}, device={kind(fpga)}) int fn2() { return 30; } #pragma omp declare variant(stat_unused_no_emit) match(implementation = {vendor(unknown)}, device = {kind(gpu)}) template static T stat_unused_T() { return 31; } int bazzzzzzzz() { return stat_unused_T(); } #endif // HEADER