coro-await.cpp
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// RUN: %clang_cc1 -triple x86_64-unknown-linux-gnu -fcoroutines-ts -std=c++14 \
// RUN: -emit-llvm %s -o - -disable-llvm-passes -Wno-coroutine -Wno-unused | FileCheck %s
namespace std {
namespace experimental {
template <typename... T>
struct coroutine_traits;
template <typename Promise = void> struct coroutine_handle;
template <>
struct coroutine_handle<void> {
void *ptr;
static coroutine_handle from_address(void *);
void *address();
};
template <typename Promise>
struct coroutine_handle : coroutine_handle<> {
static coroutine_handle from_address(void *);
};
}
}
struct init_susp {
bool await_ready();
void await_suspend(std::experimental::coroutine_handle<>);
void await_resume();
};
struct final_susp {
bool await_ready();
void await_suspend(std::experimental::coroutine_handle<>);
void await_resume();
};
struct suspend_always {
int stuff;
bool await_ready();
void await_suspend(std::experimental::coroutine_handle<>);
void await_resume();
};
template<>
struct std::experimental::coroutine_traits<void> {
struct promise_type {
void get_return_object();
init_susp initial_suspend();
final_susp final_suspend();
void return_void();
};
};
// CHECK-LABEL: f0(
extern "C" void f0() {
// CHECK: %[[FRAME:.+]] = call i8* @llvm.coro.begin(
// See if initial_suspend was issued:
// ----------------------------------
// CHECK: call void @_ZNSt12experimental16coroutine_traitsIJvEE12promise_type15initial_suspendEv(
// CHECK-NEXT: call zeroext i1 @_ZN9init_susp11await_readyEv(%struct.init_susp*
// CHECK: %[[INITSP_ID:.+]] = call token @llvm.coro.save(
// CHECK: call i8 @llvm.coro.suspend(token %[[INITSP_ID]], i1 false)
co_await suspend_always{};
// See if we need to suspend:
// --------------------------
// CHECK: %[[READY:.+]] = call zeroext i1 @_ZN14suspend_always11await_readyEv(%struct.suspend_always* %[[AWAITABLE:.+]])
// CHECK: br i1 %[[READY]], label %[[READY_BB:.+]], label %[[SUSPEND_BB:.+]]
// If we are suspending:
// ---------------------
// CHECK: [[SUSPEND_BB]]:
// CHECK: %[[SUSPEND_ID:.+]] = call token @llvm.coro.save(
// ---------------------------
// Build the coroutine handle and pass it to await_suspend
// ---------------------------
// CHECK: call i8* @_ZNSt12experimental16coroutine_handleINS_16coroutine_traitsIJvEE12promise_typeEE12from_addressEPv(i8* %[[FRAME]])
// ... many lines of code to coerce coroutine_handle into an i8* scalar
// CHECK: %[[CH:.+]] = load i8*, i8** %{{.+}}
// CHECK: call void @_ZN14suspend_always13await_suspendENSt12experimental16coroutine_handleIvEE(%struct.suspend_always* %[[AWAITABLE]], i8* %[[CH]])
// -------------------------
// Generate a suspend point:
// -------------------------
// CHECK: %[[OUTCOME:.+]] = call i8 @llvm.coro.suspend(token %[[SUSPEND_ID]], i1 false)
// CHECK: switch i8 %[[OUTCOME]], label %[[RET_BB:.+]] [
// CHECK: i8 0, label %[[READY_BB]]
// CHECK: i8 1, label %[[CLEANUP_BB:.+]]
// CHECK: ]
// Cleanup code goes here:
// -----------------------
// CHECK: [[CLEANUP_BB]]:
// When coroutine is resumed, call await_resume
// --------------------------
// CHECK: [[READY_BB]]:
// CHECK: call void @_ZN14suspend_always12await_resumeEv(%struct.suspend_always* %[[AWAITABLE]])
// See if final_suspend was issued:
// ----------------------------------
// CHECK: call void @_ZNSt12experimental16coroutine_traitsIJvEE12promise_type13final_suspendEv(
// CHECK-NEXT: call zeroext i1 @_ZN10final_susp11await_readyEv(%struct.final_susp*
// CHECK: %[[FINALSP_ID:.+]] = call token @llvm.coro.save(
// CHECK: call i8 @llvm.coro.suspend(token %[[FINALSP_ID]], i1 true)
}
struct suspend_maybe {
float stuff;
~suspend_maybe();
bool await_ready();
bool await_suspend(std::experimental::coroutine_handle<>);
void await_resume();
};
template<>
struct std::experimental::coroutine_traits<void,int> {
struct promise_type {
void get_return_object();
init_susp initial_suspend();
final_susp final_suspend();
void return_void();
suspend_maybe yield_value(int);
};
};
// CHECK-LABEL: f1(
extern "C" void f1(int) {
// CHECK: %[[PROMISE:.+]] = alloca %"struct.std::experimental::coroutine_traits<void, int>::promise_type"
// CHECK: %[[FRAME:.+]] = call i8* @llvm.coro.begin(
co_yield 42;
// CHECK: call void @_ZNSt12experimental16coroutine_traitsIJviEE12promise_type11yield_valueEi(%struct.suspend_maybe* sret %[[AWAITER:.+]], %"struct.std::experimental::coroutine_traits<void, int>::promise_type"* %[[PROMISE]], i32 42)
// See if we need to suspend:
// --------------------------
// CHECK: %[[READY:.+]] = call zeroext i1 @_ZN13suspend_maybe11await_readyEv(%struct.suspend_maybe* %[[AWAITABLE]])
// CHECK: br i1 %[[READY]], label %[[READY_BB:.+]], label %[[SUSPEND_BB:.+]]
// If we are suspending:
// ---------------------
// CHECK: [[SUSPEND_BB]]:
// CHECK: %[[SUSPEND_ID:.+]] = call token @llvm.coro.save(
// ---------------------------
// Build the coroutine handle and pass it to await_suspend
// ---------------------------
// CHECK: call i8* @_ZNSt12experimental16coroutine_handleINS_16coroutine_traitsIJviEE12promise_typeEE12from_addressEPv(i8* %[[FRAME]])
// ... many lines of code to coerce coroutine_handle into an i8* scalar
// CHECK: %[[CH:.+]] = load i8*, i8** %{{.+}}
// CHECK: %[[YES:.+]] = call zeroext i1 @_ZN13suspend_maybe13await_suspendENSt12experimental16coroutine_handleIvEE(%struct.suspend_maybe* %[[AWAITABLE]], i8* %[[CH]])
// -------------------------------------------
// See if await_suspend decided not to suspend
// -------------------------------------------
// CHECK: br i1 %[[YES]], label %[[SUSPEND_PLEASE:.+]], label %[[READY_BB]]
// CHECK: [[SUSPEND_PLEASE]]:
// CHECK: call i8 @llvm.coro.suspend(token %[[SUSPEND_ID]], i1 false)
// CHECK: [[READY_BB]]:
// CHECK: call void @_ZN13suspend_maybe12await_resumeEv(%struct.suspend_maybe* %[[AWAITABLE]])
}
struct ComplexAwaiter {
template <typename F> void await_suspend(F);
bool await_ready();
_Complex float await_resume();
};
extern "C" void UseComplex(_Complex float);
// CHECK-LABEL: @TestComplex(
extern "C" void TestComplex() {
UseComplex(co_await ComplexAwaiter{});
// CHECK: call <2 x float> @_ZN14ComplexAwaiter12await_resumeEv(%struct.ComplexAwaiter*
// CHECK: call void @UseComplex(<2 x float> %{{.+}})
co_await ComplexAwaiter{};
// CHECK: call <2 x float> @_ZN14ComplexAwaiter12await_resumeEv(%struct.ComplexAwaiter*
_Complex float Val = co_await ComplexAwaiter{};
// CHECK: call <2 x float> @_ZN14ComplexAwaiter12await_resumeEv(%struct.ComplexAwaiter*
}
struct Aggr { int X, Y, Z; ~Aggr(); };
struct AggrAwaiter {
template <typename F> void await_suspend(F);
bool await_ready();
Aggr await_resume();
};
extern "C" void Whatever();
extern "C" void UseAggr(Aggr&&);
// FIXME: Once the cleanup code is in, add testing that destructors for Aggr
// are invoked properly on the cleanup branches.
// CHECK-LABEL: @TestAggr(
extern "C" void TestAggr() {
UseAggr(co_await AggrAwaiter{});
Whatever();
// CHECK: call void @_ZN11AggrAwaiter12await_resumeEv(%struct.Aggr* sret %[[AwaitResume:.+]],
// CHECK: call void @UseAggr(%struct.Aggr* dereferenceable(12) %[[AwaitResume]])
// CHECK: call void @_ZN4AggrD1Ev(%struct.Aggr* %[[AwaitResume]])
// CHECK: call void @Whatever()
co_await AggrAwaiter{};
Whatever();
// CHECK: call void @_ZN11AggrAwaiter12await_resumeEv(%struct.Aggr* sret %[[AwaitResume2:.+]],
// CHECK: call void @_ZN4AggrD1Ev(%struct.Aggr* %[[AwaitResume2]])
// CHECK: call void @Whatever()
Aggr Val = co_await AggrAwaiter{};
Whatever();
// CHECK: call void @_ZN11AggrAwaiter12await_resumeEv(%struct.Aggr* sret %[[AwaitResume3:.+]],
// CHECK: call void @Whatever()
// CHECK: call void @_ZN4AggrD1Ev(%struct.Aggr* %[[AwaitResume3]])
}
struct ScalarAwaiter {
template <typename F> void await_suspend(F);
bool await_ready();
int await_resume();
};
extern "C" void UseScalar(int);
// CHECK-LABEL: @TestScalar(
extern "C" void TestScalar() {
UseScalar(co_await ScalarAwaiter{});
// CHECK: %[[Result:.+]] = call i32 @_ZN13ScalarAwaiter12await_resumeEv(%struct.ScalarAwaiter*
// CHECK: call void @UseScalar(i32 %[[Result]])
int Val = co_await ScalarAwaiter{};
// CHECK: %[[Result2:.+]] = call i32 @_ZN13ScalarAwaiter12await_resumeEv(%struct.ScalarAwaiter*
// CHECK: store i32 %[[Result2]], i32* %Val
co_await ScalarAwaiter{};
// CHECK: call i32 @_ZN13ScalarAwaiter12await_resumeEv(%struct.ScalarAwaiter*
}
// Test operator co_await codegen.
enum class MyInt: int {};
ScalarAwaiter operator co_await(MyInt);
struct MyAgg {
AggrAwaiter operator co_await();
};
// CHECK-LABEL: @TestOpAwait(
extern "C" void TestOpAwait() {
co_await MyInt(42);
// CHECK: call void @_Zaw5MyInt(i32 42)
// CHECK: call i32 @_ZN13ScalarAwaiter12await_resumeEv(%struct.ScalarAwaiter* %
co_await MyAgg{};
// CHECK: call void @_ZN5MyAggawEv(%struct.MyAgg* %
// CHECK: call void @_ZN11AggrAwaiter12await_resumeEv(%struct.Aggr* sret %
}
// CHECK-LABEL: EndlessLoop(
extern "C" void EndlessLoop() {
// CHECK: %[[FRAME:.+]] = call i8* @llvm.coro.begin(
// See if initial_suspend was issued:
// ----------------------------------
// CHECK: call void @_ZNSt12experimental16coroutine_traitsIJvEE12promise_type15initial_suspendEv(
// CHECK-NEXT: call zeroext i1 @_ZN9init_susp11await_readyEv(%struct.init_susp*
for (;;)
co_await suspend_always{};
// Verify that final_suspend was NOT issued:
// ----------------------------------
// CHECK-NOT: call void @_ZNSt12experimental16coroutine_traitsIJvEE12promise_type13final_suspendEv(
// CHECK-NOT: call zeroext i1 @_ZN10final_susp11await_readyEv(%struct.final_susp*
}
// Verifies that we don't crash when awaiting on an lvalue.
// CHECK-LABEL: @_Z11AwaitLValuev(
void AwaitLValue() {
suspend_always lval;
co_await lval;
}
struct RefTag { };
struct AwaitResumeReturnsLValue {
bool await_ready();
void await_suspend(std::experimental::coroutine_handle<>);
RefTag& await_resume();
};
template<>
struct std::experimental::coroutine_traits<void,double> {
struct promise_type {
void get_return_object();
init_susp initial_suspend();
final_susp final_suspend();
void return_void();
AwaitResumeReturnsLValue yield_value(int);
};
};
// Verifies that we don't crash when returning an lvalue from an await_resume()
// expression.
// CHECK-LABEL: define void @_Z18AwaitReturnsLValued(double %0)
void AwaitReturnsLValue(double) {
AwaitResumeReturnsLValue a;
// CHECK: %[[AVAR:.+]] = alloca %struct.AwaitResumeReturnsLValue,
// CHECK: %[[XVAR:.+]] = alloca %struct.RefTag*,
// CHECK: %[[YVAR:.+]] = alloca %struct.RefTag*,
// CHECK-NEXT: %[[TMP1:.+]] = alloca %struct.AwaitResumeReturnsLValue,
// CHECK: %[[ZVAR:.+]] = alloca %struct.RefTag*,
// CHECK-NEXT: %[[TMP2:.+]] = alloca %struct.AwaitResumeReturnsLValue,
// CHECK: %[[RES1:.+]] = call dereferenceable({{.*}}) %struct.RefTag* @_ZN24AwaitResumeReturnsLValue12await_resumeEv(%struct.AwaitResumeReturnsLValue* %[[AVAR]])
// CHECK-NEXT: store %struct.RefTag* %[[RES1]], %struct.RefTag** %[[XVAR]],
RefTag& x = co_await a;
// CHECK: %[[RES2:.+]] = call dereferenceable({{.*}}) %struct.RefTag* @_ZN24AwaitResumeReturnsLValue12await_resumeEv(%struct.AwaitResumeReturnsLValue* %[[TMP1]])
// CHECK-NEXT: store %struct.RefTag* %[[RES2]], %struct.RefTag** %[[YVAR]],
RefTag& y = co_await AwaitResumeReturnsLValue{};
// CHECK: %[[RES3:.+]] = call dereferenceable({{.*}}) %struct.RefTag* @_ZN24AwaitResumeReturnsLValue12await_resumeEv(%struct.AwaitResumeReturnsLValue* %[[TMP2]])
// CHECK-NEXT: store %struct.RefTag* %[[RES3]], %struct.RefTag** %[[ZVAR]],
RefTag& z = co_yield 42;
}
struct TailCallAwait {
bool await_ready();
std::experimental::coroutine_handle<> await_suspend(std::experimental::coroutine_handle<>);
void await_resume();
};
// CHECK-LABEL: @TestTailcall(
extern "C" void TestTailcall() {
co_await TailCallAwait{};
// CHECK: %[[RESULT:.+]] = call i8* @_ZN13TailCallAwait13await_suspendENSt12experimental16coroutine_handleIvEE(%struct.TailCallAwait*
// CHECK: %[[COERCE:.+]] = getelementptr inbounds %"struct.std::experimental::coroutine_handle", %"struct.std::experimental::coroutine_handle"* %[[TMP:.+]], i32 0, i32 0
// CHECK: store i8* %[[RESULT]], i8** %[[COERCE]]
// CHECK: %[[ADDR:.+]] = call i8* @_ZNSt12experimental16coroutine_handleIvE7addressEv(%"struct.std::experimental::coroutine_handle"* %[[TMP]])
// CHECK: call void @llvm.coro.resume(i8* %[[ADDR]])
}