// RUN: %clang_cc1 -triple x86_64-unknown-linux-gnu -std=c++20 -O2 \ // RUN: -Wno-coroutine-missing-unhandled-exception -emit-llvm %s -o - -disable-llvm-passes \ // RUN: | FileCheck %s namespace std { template struct coroutine_traits; // expected-note {{declared here}} template struct coroutine_handle { coroutine_handle() = default; static coroutine_handle from_address(void *) noexcept { return {}; } }; template <> struct coroutine_handle { static coroutine_handle from_address(void *) { return {}; } coroutine_handle() = default; template coroutine_handle(coroutine_handle) noexcept {} }; struct nothrow_t {}; constexpr nothrow_t nothrow = {}; } // end namespace std // Required when get_return_object_on_allocation_failure() is defined by // the promise. using SizeT = decltype(sizeof(int)); void* operator new(SizeT __sz, const std::nothrow_t&) noexcept; void operator delete(void* __p, const std::nothrow_t&) noexcept; struct suspend_always { bool await_ready() noexcept { return false; } void await_suspend(std::coroutine_handle<>) noexcept {} void await_resume() noexcept {} }; struct global_new_delete_tag {}; template <> struct std::coroutine_traits { struct promise_type { void get_return_object() {} suspend_always initial_suspend() { return {}; } suspend_always final_suspend() noexcept { return {}; } void return_void() {} }; }; // CHECK-LABEL: f0( extern "C" void f0(global_new_delete_tag) { // CHECK: %[[ID:.+]] = call token @llvm.coro.id(i32 16 // CHECK: %[[NeedAlloc:.+]] = call i1 @llvm.coro.alloc(token %[[ID]]) // CHECK: br i1 %[[NeedAlloc]], label %[[AllocBB:.+]], label %[[InitBB:.+]] // CHECK: [[AllocBB]]: // CHECK: %[[SIZE:.+]] = call i64 @llvm.coro.size.i64() // CHECK: %[[MEM:.+]] = call noalias noundef nonnull ptr @_Znwm(i64 noundef %[[SIZE]]) // CHECK: br label %[[InitBB]] // CHECK: [[InitBB]]: // CHECK: %[[PHI:.+]] = phi ptr [ null, %{{.+}} ], [ %call, %[[AllocBB]] ] // CHECK: %[[FRAME:.+]] = call ptr @llvm.coro.begin(token %[[ID]], ptr %[[PHI]]) // CHECK: %[[MEM:.+]] = call ptr @llvm.coro.free(token %[[ID]], ptr %[[FRAME]]) // CHECK: %[[NeedDealloc:.+]] = icmp ne ptr %[[MEM]], null // CHECK: br i1 %[[NeedDealloc]], label %[[FreeBB:.+]], label %[[Afterwards:.+]] // CHECK: [[FreeBB]]: // CHECK: %[[SIZE:.+]] = call i64 @llvm.coro.size.i64() // CHECK: call void @_ZdlPvm(ptr noundef %[[MEM]], i64 noundef %[[SIZE]]) // CHECK: br label %[[Afterwards]] // CHECK: [[Afterwards]]: // CHECK: ret void co_return; } struct promise_new_tag {}; template <> struct std::coroutine_traits { struct promise_type { void *operator new(unsigned long); void get_return_object() {} suspend_always initial_suspend() { return {}; } suspend_always final_suspend() noexcept { return {}; } void return_void() {} }; }; // CHECK-LABEL: f1( extern "C" void f1(promise_new_tag ) { // CHECK: %[[ID:.+]] = call token @llvm.coro.id(i32 16 // CHECK: %[[SIZE:.+]] = call i64 @llvm.coro.size.i64() // CHECK: call noundef ptr @_ZNSt16coroutine_traitsIJv15promise_new_tagEE12promise_typenwEm(i64 noundef %[[SIZE]]) // CHECK: %[[FRAME:.+]] = call ptr @llvm.coro.begin( // CHECK: %[[MEM:.+]] = call ptr @llvm.coro.free(token %[[ID]], ptr %[[FRAME]]) // CHECK: %[[SIZE:.+]] = call i64 @llvm.coro.size.i64() // CHECK: call void @_ZdlPvm(ptr noundef %[[MEM]], i64 noundef %[[SIZE]]) co_return; } struct promise_matching_placement_new_tag {}; template <> struct std::coroutine_traits { struct promise_type { void *operator new(unsigned long, promise_matching_placement_new_tag, int, float, double); void get_return_object() {} suspend_always initial_suspend() { return {}; } suspend_always final_suspend() noexcept { return {}; } void return_void() {} }; }; // CHECK-LABEL: f1a( extern "C" void f1a(promise_matching_placement_new_tag, int x, float y , double z) { // CHECK: store i32 %x, ptr %x.addr, align 4 // CHECK: store float %y, ptr %y.addr, align 4 // CHECK: store double %z, ptr %z.addr, align 8 // CHECK: %[[ID:.+]] = call token @llvm.coro.id(i32 16 // CHECK: %[[SIZE:.+]] = call i64 @llvm.coro.size.i64() // CHECK: %[[INT:.+]] = load i32, ptr %x.addr, align 4 // CHECK: %[[FLOAT:.+]] = load float, ptr %y.addr, align 4 // CHECK: %[[DOUBLE:.+]] = load double, ptr %z.addr, align 8 // CHECK: call noundef ptr @_ZNSt16coroutine_traitsIJv34promise_matching_placement_new_tagifdEE12promise_typenwEmS0_ifd(i64 noundef %[[SIZE]], i32 noundef %[[INT]], float noundef %[[FLOAT]], double noundef %[[DOUBLE]]) co_return; } // Declare a placement form operator new, such as the one described in // C++ 18.6.1.3.1, which takes a ptr argument. void* operator new(SizeT __sz, void *__p) noexcept; struct promise_matching_global_placement_new_tag {}; struct dummy {}; template <> struct std::coroutine_traits { struct promise_type { void get_return_object() {} suspend_always initial_suspend() { return {}; } suspend_always final_suspend() noexcept { return {}; } void return_void() {} }; }; // A coroutine that takes a single pointer argument should not invoke this // placement form operator. [dcl.fct.def.coroutine]/7 dictates that lookup for // allocation functions matching the coroutine function's signature be done // within the scope of the promise type's class. // CHECK-LABEL: f1b( extern "C" void f1b(promise_matching_global_placement_new_tag, dummy *) { // CHECK: call noalias noundef nonnull ptr @_Znwm(i64 co_return; } struct promise_delete_tag {}; template <> struct std::coroutine_traits { struct promise_type { void operator delete(void*); void get_return_object() {} suspend_always initial_suspend() { return {}; } suspend_always final_suspend() noexcept { return {}; } void return_void() {} }; }; // CHECK-LABEL: f2( extern "C" void f2(promise_delete_tag) { // CHECK: %[[ID:.+]] = call token @llvm.coro.id(i32 16 // CHECK: %[[SIZE:.+]] = call i64 @llvm.coro.size.i64() // CHECK: call noalias noundef nonnull ptr @_Znwm(i64 noundef %[[SIZE]]) // CHECK: %[[FRAME:.+]] = call ptr @llvm.coro.begin( // CHECK: %[[MEM:.+]] = call ptr @llvm.coro.free(token %[[ID]], ptr %[[FRAME]]) // CHECK: call void @_ZNSt16coroutine_traitsIJv18promise_delete_tagEE12promise_typedlEPv(ptr noundef %[[MEM]]) co_return; } struct promise_sized_delete_tag {}; template <> struct std::coroutine_traits { struct promise_type { void operator delete(void*, unsigned long); void get_return_object() {} suspend_always initial_suspend() { return {}; } suspend_always final_suspend() noexcept { return {}; } void return_void() {} }; }; // CHECK-LABEL: f3( extern "C" void f3(promise_sized_delete_tag) { // CHECK: %[[ID:.+]] = call token @llvm.coro.id(i32 16 // CHECK: %[[SIZE:.+]] = call i64 @llvm.coro.size.i64() // CHECK: call noalias noundef nonnull ptr @_Znwm(i64 noundef %[[SIZE]]) // CHECK: %[[FRAME:.+]] = call ptr @llvm.coro.begin( // CHECK: %[[MEM:.+]] = call ptr @llvm.coro.free(token %[[ID]], ptr %[[FRAME]]) // CHECK: %[[SIZE2:.+]] = call i64 @llvm.coro.size.i64() // CHECK: call void @_ZNSt16coroutine_traitsIJv24promise_sized_delete_tagEE12promise_typedlEPvm(ptr noundef %[[MEM]], i64 noundef %[[SIZE2]]) co_return; } struct promise_on_alloc_failure_tag {}; template <> struct std::coroutine_traits { struct promise_type { int get_return_object() { return 0; } suspend_always initial_suspend() { return {}; } suspend_always final_suspend() noexcept { return {}; } void return_void() {} static int get_return_object_on_allocation_failure() { return -1; } }; }; // CHECK-LABEL: f4( extern "C" int f4(promise_on_alloc_failure_tag) { // CHECK: %[[RetVal:.+]] = alloca i32 // CHECK: %[[ID:.+]] = call token @llvm.coro.id(i32 16 // CHECK: %[[SIZE:.+]] = call i64 @llvm.coro.size.i64() // CHECK: %[[MEM:.+]] = call noalias noundef ptr @_ZnwmRKSt9nothrow_t(i64 noundef %[[SIZE]], ptr noundef nonnull align 1 dereferenceable(1) @_ZStL7nothrow) // CHECK: %[[OK:.+]] = icmp ne ptr %[[MEM]], null // CHECK: call i1 @llvm.expect.i1(i1 %[[OK]], i1 true) // CHECK: br i1 %[[OK]], label %[[OKBB:.+]], label %[[ERRBB:.+]] // CHECK: [[ERRBB]]: // CHECK: %[[FailRet:.+]] = call noundef i32 @_ZNSt16coroutine_traitsIJi28promise_on_alloc_failure_tagEE12promise_type39get_return_object_on_allocation_failureEv( // CHECK: store i32 %[[FailRet]], ptr %[[RetVal]] // CHECK: br label %[[RetBB:.+]] // CHECK: [[OKBB]]: // CHECK: %[[OkRet:.+]] = call noundef i32 @_ZNSt16coroutine_traitsIJi28promise_on_alloc_failure_tagEE12promise_type17get_return_objectEv( // CHECK: [[RetBB]]: // CHECK: %[[LoadRet:.+]] = load i32, ptr %[[RetVal]], align 4 // CHECK: ret i32 %[[LoadRet]] co_return; } struct promise_sized_delete_tag2 {}; template <> struct std::coroutine_traits { struct promise_type { // Tests that the compiler can choose the correct operator delete // when we have multiple operator delete void operator delete(void*, unsigned long); void operator delete(void*); void get_return_object() {} suspend_always initial_suspend() { return {}; } suspend_always final_suspend() noexcept { return {}; } void return_void() {} }; }; // CHECK-LABEL: f5( extern "C" void f5(promise_sized_delete_tag2) { // CHECK: %[[ID:.+]] = call token @llvm.coro.id(i32 16 // CHECK: %[[SIZE:.+]] = call i64 @llvm.coro.size.i64() // CHECK: call noalias noundef nonnull ptr @_Znwm(i64 noundef %[[SIZE]]) // CHECK: %[[FRAME:.+]] = call ptr @llvm.coro.begin( // CHECK: %[[MEM:.+]] = call ptr @llvm.coro.free(token %[[ID]], ptr %[[FRAME]]) // CHECK: %[[SIZE2:.+]] = call i64 @llvm.coro.size.i64() // CHECK: call void @_ZNSt16coroutine_traitsIJv25promise_sized_delete_tag2EE12promise_typedlEPvm(ptr noundef %[[MEM]], i64 noundef %[[SIZE2]]) co_return; }