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llvm / clang / b15c08d32c072399e59c388bbf6a814831a0bb92 / . / test / CodeGenCXX / temporaries.cpp
blob: d15e0fa05bd867a260719c88595e35137cc9394b [file] [log] [blame]
// RUN: %clang_cc1 -emit-llvm %s -o - -triple=x86_64-apple-darwin9 -std=c++11 | FileCheck %s -check-prefixes=CHECK,NULL-INVALID,CHECK-CXX11
// RUN: %clang_cc1 -emit-llvm %s -o - -triple=x86_64-apple-darwin9 -std=c++17 | FileCheck %s -check-prefixes=CHECK,NULL-INVALID,CHECK-CXX17
// RUN: %clang_cc1 -emit-llvm %s -o - -triple=x86_64-apple-darwin9 -std=c++11 -fno-delete-null-pointer-checks | FileCheck %s -check-prefixes=CHECK,NULL-VALID,CHECK-CXX11
namespace PR16263 {
const unsigned int n = 1234;
extern const int &r = (const int&)n;
// CHECK: @_ZGRN7PR162631rE_ = internal constant i32 1234,
// CHECK: @_ZN7PR162631rE = constant i32* @_ZGRN7PR162631rE_,
extern const int &s = reinterpret_cast<const int&>(n);
// CHECK: @_ZN7PR16263L1nE = internal constant i32 1234, align 4
// CHECK: @_ZN7PR162631sE = constant i32* @_ZN7PR16263L1nE, align 8
struct A { int n; };
struct B { int n; };
struct C : A, B {};
extern const A &&a = (A&&)(A&&)(C&&)(C{});
// CHECK: @_ZGRN7PR162631aE_ = internal global {{.*}} zeroinitializer,
// CHECK: @_ZN7PR162631aE = constant {{.*}} bitcast ({{.*}}* @_ZGRN7PR162631aE_ to
extern const int &&t = ((B&&)C{}).n;
// CHECK: @_ZGRN7PR162631tE_ = internal global {{.*}} zeroinitializer,
// CHECK: @_ZN7PR162631tE = constant i32* {{.*}}* @_ZGRN7PR162631tE_ {{.*}} 4
struct D { double d; C c; };
extern const int &&u = (123, static_cast<B&&>(0, ((D&&)D{}).*&D::c).n);
// CHECK: @_ZGRN7PR162631uE_ = internal global {{.*}} zeroinitializer
// CHECK: @_ZN7PR162631uE = constant i32* {{.*}} @_ZGRN7PR162631uE_ {{.*}} 12
}
namespace PR20227 {
struct A { ~A(); };
struct B { virtual ~B(); };
struct C : B {};
A &&a = dynamic_cast<A&&>(A{});
// CHECK: @_ZGRN7PR202271aE_ = internal global
B &&b = dynamic_cast<C&&>(dynamic_cast<B&&>(C{}));
// CHECK: @_ZGRN7PR202271bE_ = internal global
B &&c = static_cast<C&&>(static_cast<B&&>(C{}));
// CHECK: @_ZGRN7PR202271cE_ = internal global
}
namespace BraceInit {
typedef const int &CIR;
CIR x = CIR{3};
// CHECK-CXX11: @_ZGRN9BraceInit1xE_ = internal constant i32 3
// FIXME: This should still be emitted as 'constant' in C++17.
// CHECK-CXX17: @_ZGRN9BraceInit1xE_ = internal global i32 3
// CHECK: @_ZN9BraceInit1xE = constant i32* @_ZGRN9BraceInit1xE_
}
struct A {
A();
~A();
void f();
};
void f1() {
// CHECK: call void @_ZN1AC1Ev
// CHECK: call void @_ZN1AD1Ev
(void)A();
// CHECK: call void @_ZN1AC1Ev
// CHECK: call void @_ZN1AD1Ev
A().f();
}
// Function calls
struct B {
B();
~B();
};
B g();
void f2() {
// CHECK-NOT: call void @_ZN1BC1Ev
// CHECK: call void @_ZN1BD1Ev
(void)g();
}
// Member function calls
struct C {
C();
~C();
C f();
};
void f3() {
// CHECK: call void @_ZN1CC1Ev
// CHECK: call void @_ZN1CD1Ev
// CHECK: call void @_ZN1CD1Ev
C().f();
}
// Function call operator
struct D {
D();
~D();
D operator()();
};
void f4() {
// CHECK: call void @_ZN1DC1Ev
// CHECK: call void @_ZN1DD1Ev
// CHECK: call void @_ZN1DD1Ev
D()();
}
// Overloaded operators
struct E {
E();
~E();
E operator+(const E&);
E operator!();
};
void f5() {
// CHECK: call void @_ZN1EC1Ev
// CHECK: call void @_ZN1EC1Ev
// CHECK: call void @_ZN1ED1Ev
// CHECK: call void @_ZN1ED1Ev
// CHECK: call void @_ZN1ED1Ev
E() + E();
// CHECK: call void @_ZN1EC1Ev
// CHECK: call void @_ZN1ED1Ev
// CHECK: call void @_ZN1ED1Ev
!E();
}
struct F {
F();
~F();
F& f();
};
void f6() {
// CHECK: call void @_ZN1FC1Ev
// CHECK: call void @_ZN1FD1Ev
F().f();
}
struct G {
G();
G(A);
~G();
operator A();
};
void a(const A&);
void f7() {
// CHECK: call void @_ZN1AC1Ev
// CHECK: call void @_Z1aRK1A
// CHECK: call void @_ZN1AD1Ev
a(A());
// CHECK: call void @_ZN1GC1Ev
// CHECK: call void @_ZN1Gcv1AEv
// CHECK: call void @_Z1aRK1A
// CHECK: call void @_ZN1AD1Ev
// CHECK: call void @_ZN1GD1Ev
a(G());
}
namespace PR5077 {
struct A {
A();
~A();
int f();
};
void f();
int g(const A&);
struct B {
int a1;
int a2;
B();
~B();
};
B::B()
// CHECK: call void @_ZN6PR50771AC1Ev
// CHECK: call i32 @_ZN6PR50771A1fEv
// CHECK: call void @_ZN6PR50771AD1Ev
: a1(A().f())
// CHECK: call void @_ZN6PR50771AC1Ev
// CHECK: call i32 @_ZN6PR50771gERKNS_1AE
// CHECK: call void @_ZN6PR50771AD1Ev
, a2(g(A()))
{
// CHECK: call void @_ZN6PR50771fEv
f();
}
}
A f8() {
// CHECK: call void @_ZN1AC1Ev
// CHECK-NOT: call void @_ZN1AD1Ev
return A();
// CHECK: ret void
}
struct H {
H();
~H();
H(const H&);
};
void f9(H h) {
// CHECK: call void @_ZN1HC1Ev
// CHECK: call void @_Z2f91H
// CHECK: call void @_ZN1HD1Ev
f9(H());
// CHECK: call void @_ZN1HC1ERKS_
// CHECK: call void @_Z2f91H
// CHECK: call void @_ZN1HD1Ev
f9(h);
}
void f10(const H&);
void f11(H h) {
// CHECK: call void @_ZN1HC1Ev
// CHECK: call void @_Z3f10RK1H
// CHECK: call void @_ZN1HD1Ev
f10(H());
// CHECK: call void @_Z3f10RK1H
// CHECK-NOT: call void @_ZN1HD1Ev
// CHECK: ret void
f10(h);
}
// PR5808
struct I {
I(const char *);
~I();
};
// CHECK: _Z3f12v
I f12() {
// CHECK: call void @_ZN1IC1EPKc
// CHECK-NOT: call void @_ZN1ID1Ev
// CHECK: ret void
return "Hello";
}
// PR5867
namespace PR5867 {
struct S {
S();
S(const S &);
~S();
};
void f(S, int);
// CHECK-LABEL: define void @_ZN6PR58671gEv
void g() {
// CHECK: call void @_ZN6PR58671SC1Ev
// CHECK-NEXT: call void @_ZN6PR58671fENS_1SEi
// CHECK-NEXT: call void @_ZN6PR58671SD1Ev
// CHECK-NEXT: ret void
(f)(S(), 0);
}
// CHECK-LABEL: define linkonce_odr void @_ZN6PR58672g2IiEEvT_
template<typename T>
void g2(T) {
// CHECK: call void @_ZN6PR58671SC1Ev
// CHECK-NEXT: call void @_ZN6PR58671fENS_1SEi
// CHECK-NEXT: call void @_ZN6PR58671SD1Ev
// CHECK-NEXT: ret void
(f)(S(), 0);
}
void h() {
g2(17);
}
}
// PR6199
namespace PR6199 {
struct A { ~A(); };
struct B { operator A(); };
// CHECK-LABEL: define weak_odr void @_ZN6PR61992f2IiEENS_1AET_
template<typename T> A f2(T) {
B b;
// CHECK: call void @_ZN6PR61991BcvNS_1AEEv
// CHECK-NEXT: ret void
return b;
}
template A f2<int>(int);
}
namespace T12 {
struct A {
A();
~A();
int f();
};
int& f(int);
// CHECK-LABEL: define void @_ZN3T121gEv
void g() {
// CHECK: call void @_ZN3T121AC1Ev
// CHECK-NEXT: call i32 @_ZN3T121A1fEv(
// CHECK-NEXT: call dereferenceable({{[0-9]+}}) i32* @_ZN3T121fEi(
// CHECK-NEXT: call void @_ZN3T121AD1Ev(
int& i = f(A().f());
}
}
namespace PR6648 {
struct B {
~B();
};
B foo;
struct D;
D& zed(B);
void foobar() {
// NULL-INVALID: call nonnull %"struct.PR6648::D"* @_ZN6PR66483zedENS_1BE
// NULL-VALID: call %"struct.PR6648::D"* @_ZN6PR66483zedENS_1BE
zed(foo);
}
}
namespace UserConvertToValue {
struct X {
X(int);
X(const X&);
~X();
};
void f(X);
// CHECK: void @_ZN18UserConvertToValue1gEv()
void g() {
// CHECK: call void @_ZN18UserConvertToValue1XC1Ei
// CHECK: call void @_ZN18UserConvertToValue1fENS_1XE
// CHECK: call void @_ZN18UserConvertToValue1XD1Ev
// CHECK: ret void
f(1);
}
}
namespace PR7556 {
struct A { ~A(); };
struct B { int i; ~B(); };
struct C { int C::*pm; ~C(); };
// CHECK-LABEL: define void @_ZN6PR75563fooEv()
void foo() {
// CHECK: call void @_ZN6PR75561AD1Ev
A();
// CHECK: call void @llvm.memset.p0i8.i64
// CHECK: call void @_ZN6PR75561BD1Ev
B();
// CHECK: call void @llvm.memcpy.p0i8.p0i8.i64
// CHECK: call void @_ZN6PR75561CD1Ev
C();
// CHECK-NEXT: ret void
}
}
namespace Elision {
struct A {
A(); A(const A &); ~A();
void *p;
void foo() const;
};
void foo();
A fooA();
void takeA(A a);
// CHECK-LABEL: define void @_ZN7Elision5test0Ev()
void test0() {
// CHECK: [[I:%.*]] = alloca [[A:%.*]], align 8
// CHECK-NEXT: [[J:%.*]] = alloca [[A]], align 8
// CHECK-NEXT: [[T0:%.*]] = alloca [[A]], align 8
// CHECK-NEXT: [[K:%.*]] = alloca [[A]], align 8
// CHECK-NEXT: [[T1:%.*]] = alloca [[A]], align 8
// CHECK-NEXT: call void @_ZN7Elision3fooEv()
// CHECK-NEXT: call void @_ZN7Elision1AC1Ev([[A]]* [[I]])
A i = (foo(), A());
// CHECK-NEXT: call void @_ZN7Elision4fooAEv([[A]]* sret [[T0]])
// CHECK-NEXT: call void @_ZN7Elision1AC1Ev([[A]]* [[J]])
// CHECK-NEXT: call void @_ZN7Elision1AD1Ev([[A]]* [[T0]])
A j = (fooA(), A());
// CHECK-NEXT: call void @_ZN7Elision1AC1Ev([[A]]* [[T1]])
// CHECK-NEXT: call void @_ZN7Elision4fooAEv([[A]]* sret [[K]])
// CHECK-NEXT: call void @_ZN7Elision1AD1Ev([[A]]* [[T1]])
A k = (A(), fooA());
// CHECK-NEXT: call void @_ZN7Elision1AD1Ev([[A]]* [[K]])
// CHECK-NEXT: call void @_ZN7Elision1AD1Ev([[A]]* [[J]])
// CHECK-NEXT: call void @_ZN7Elision1AD1Ev([[A]]* [[I]])
}
// CHECK-LABEL: define void @_ZN7Elision5test1EbNS_1AE(
void test1(bool c, A x) {
// CHECK: [[I:%.*]] = alloca [[A]], align 8
// CHECK-NEXT: [[J:%.*]] = alloca [[A]], align 8
// CHECK: call void @_ZN7Elision1AC1Ev([[A]]* [[I]])
// CHECK: call void @_ZN7Elision1AC1ERKS0_([[A]]* [[I]], [[A]]* dereferenceable({{[0-9]+}}) [[X:%.*]])
A i = (c ? A() : x);
// CHECK: call void @_ZN7Elision1AC1ERKS0_([[A]]* [[J]], [[A]]* dereferenceable({{[0-9]+}}) [[X]])
// CHECK: call void @_ZN7Elision1AC1Ev([[A]]* [[J]])
A j = (c ? x : A());
// CHECK: call void @_ZN7Elision1AD1Ev([[A]]* [[J]])
// CHECK-NEXT: call void @_ZN7Elision1AD1Ev([[A]]* [[I]])
}
// CHECK: define void @_ZN7Elision5test2Ev([[A]]* noalias sret
A test2() {
// CHECK: call void @_ZN7Elision3fooEv()
// CHECK-NEXT: call void @_ZN7Elision1AC1Ev([[A]]* [[RET:%.*]])
// CHECK-NEXT: ret void
return (foo(), A());
}
// CHECK: define void @_ZN7Elision5test3EiNS_1AE([[A]]* noalias sret
A test3(int v, A x) {
if (v < 5)
// CHECK: call void @_ZN7Elision1AC1Ev([[A]]* [[RET:%.*]])
// CHECK: call void @_ZN7Elision1AC1ERKS0_([[A]]* [[RET]], [[A]]* dereferenceable({{[0-9]+}}) [[X:%.*]])
return (v < 0 ? A() : x);
else
// CHECK: call void @_ZN7Elision1AC1ERKS0_([[A]]* [[RET]], [[A]]* dereferenceable({{[0-9]+}}) [[X]])
// CHECK: call void @_ZN7Elision1AC1Ev([[A]]* [[RET]])
return (v > 10 ? x : A());
// CHECK: ret void
}
// CHECK-LABEL: define void @_ZN7Elision5test4Ev()
void test4() {
// CHECK: [[X:%.*]] = alloca [[A]], align 8
// CHECK-NEXT: [[XS:%.*]] = alloca [2 x [[A]]], align 16
// CHECK-NEXT: call void @_ZN7Elision1AC1Ev([[A]]* [[X]])
A x;
// CHECK-NEXT: [[XS0:%.*]] = getelementptr inbounds [2 x [[A]]], [2 x [[A]]]* [[XS]], i64 0, i64 0
// CHECK-NEXT: call void @_ZN7Elision1AC1Ev([[A]]* [[XS0]])
// CHECK-NEXT: [[XS1:%.*]] = getelementptr inbounds [[A]], [[A]]* [[XS0]], i64 1
// CHECK-NEXT: call void @_ZN7Elision1AC1ERKS0_([[A]]* [[XS1]], [[A]]* dereferenceable({{[0-9]+}}) [[X]])
A xs[] = { A(), x };
// CHECK-NEXT: [[BEGIN:%.*]] = getelementptr inbounds [2 x [[A]]], [2 x [[A]]]* [[XS]], i32 0, i32 0
// CHECK-NEXT: [[END:%.*]] = getelementptr inbounds [[A]], [[A]]* [[BEGIN]], i64 2
// CHECK-NEXT: br label
// CHECK: [[AFTER:%.*]] = phi [[A]]*
// CHECK-NEXT: [[CUR:%.*]] = getelementptr inbounds [[A]], [[A]]* [[AFTER]], i64 -1
// CHECK-NEXT: call void @_ZN7Elision1AD1Ev([[A]]* [[CUR]])
// CHECK-NEXT: [[T0:%.*]] = icmp eq [[A]]* [[CUR]], [[BEGIN]]
// CHECK-NEXT: br i1 [[T0]],
// CHECK: call void @_ZN7Elision1AD1Ev([[A]]* [[X]])
}
// rdar://problem/8433352
// CHECK: define void @_ZN7Elision5test5Ev([[A]]* noalias sret
struct B { A a; B(); };
A test5() {
// CHECK: [[AT0:%.*]] = alloca [[A]], align 8
// CHECK-NEXT: [[BT0:%.*]] = alloca [[B:%.*]], align 8
// CHECK-NEXT: [[X:%.*]] = alloca [[A]], align 8
// CHECK-NEXT: [[BT1:%.*]] = alloca [[B]], align 8
// CHECK-NEXT: [[BT2:%.*]] = alloca [[B]], align 8
// CHECK: call void @_ZN7Elision1BC1Ev([[B]]* [[BT0]])
// CHECK-NEXT: [[AM:%.*]] = getelementptr inbounds [[B]], [[B]]* [[BT0]], i32 0, i32 0
// CHECK-NEXT: call void @_ZN7Elision1AC1ERKS0_([[A]]* [[AT0]], [[A]]* dereferenceable({{[0-9]+}}) [[AM]])
// CHECK-NEXT: call void @_ZN7Elision5takeAENS_1AE([[A]]* [[AT0]])
// CHECK-NEXT: call void @_ZN7Elision1AD1Ev([[A]]* [[AT0]])
// CHECK-NEXT: call void @_ZN7Elision1BD1Ev([[B]]* [[BT0]])
takeA(B().a);
// CHECK-NEXT: call void @_ZN7Elision1BC1Ev([[B]]* [[BT1]])
// CHECK-NEXT: [[AM:%.*]] = getelementptr inbounds [[B]], [[B]]* [[BT1]], i32 0, i32 0
// CHECK-NEXT: call void @_ZN7Elision1AC1ERKS0_([[A]]* [[X]], [[A]]* dereferenceable({{[0-9]+}}) [[AM]])
// CHECK-NEXT: call void @_ZN7Elision1BD1Ev([[B]]* [[BT1]])
A x = B().a;
// CHECK-NEXT: call void @_ZN7Elision1BC1Ev([[B]]* [[BT2]])
// CHECK-NEXT: [[AM:%.*]] = getelementptr inbounds [[B]], [[B]]* [[BT2]], i32 0, i32 0
// CHECK-NEXT: call void @_ZN7Elision1AC1ERKS0_([[A]]* [[RET:%.*]], [[A]]* dereferenceable({{[0-9]+}}) [[AM]])
// CHECK-NEXT: call void @_ZN7Elision1BD1Ev([[B]]* [[BT2]])
return B().a;
// CHECK: call void @_ZN7Elision1AD1Ev([[A]]* [[X]])
}
// Reduced from webkit.
// CHECK: define void @_ZN7Elision5test6EPKNS_1CE([[C:%.*]]*
struct C { operator A() const; };
void test6(const C *x) {
// CHECK: [[T0:%.*]] = alloca [[A]], align 8
// CHECK: [[X:%.*]] = load [[C]]*, [[C]]** {{%.*}}, align 8
// CHECK-NEXT: call void @_ZNK7Elision1CcvNS_1AEEv([[A]]* sret [[T0]], [[C]]* [[X]])
// CHECK-NEXT: call void @_ZNK7Elision1A3fooEv([[A]]* [[T0]])
// CHECK-NEXT: call void @_ZN7Elision1AD1Ev([[A]]* [[T0]])
// CHECK-NEXT: ret void
A(*x).foo();
}
}
namespace PR8623 {
struct A { A(int); ~A(); };
// CHECK-LABEL: define void @_ZN6PR86233fooEb(
void foo(bool b) {
// CHECK: [[TMP:%.*]] = alloca [[A:%.*]], align 1
// CHECK-NEXT: [[LCONS:%.*]] = alloca i1
// CHECK-NEXT: [[RCONS:%.*]] = alloca i1
// CHECK: store i1 false, i1* [[LCONS]]
// CHECK-NEXT: store i1 false, i1* [[RCONS]]
// CHECK-NEXT: br i1
// CHECK: call void @_ZN6PR86231AC1Ei([[A]]* [[TMP]], i32 2)
// CHECK-NEXT: store i1 true, i1* [[LCONS]]
// CHECK-NEXT: br label
// CHECK: call void @_ZN6PR86231AC1Ei([[A]]* [[TMP]], i32 3)
// CHECK-NEXT: store i1 true, i1* [[RCONS]]
// CHECK-NEXT: br label
// CHECK: load i1, i1* [[RCONS]]
// CHECK-NEXT: br i1
// CHECK: call void @_ZN6PR86231AD1Ev([[A]]* [[TMP]])
// CHECK-NEXT: br label
// CHECK: load i1, i1* [[LCONS]]
// CHECK-NEXT: br i1
// CHECK: call void @_ZN6PR86231AD1Ev([[A]]* [[TMP]])
// CHECK-NEXT: br label
// CHECK: ret void
b ? A(2) : A(3);
}
}
namespace PR11365 {
struct A { A(); ~A(); };
// CHECK-LABEL: define void @_ZN7PR113653fooEv(
void foo() {
// CHECK: [[BEGIN:%.*]] = getelementptr inbounds [3 x [[A:%.*]]], [3 x [[A:%.*]]]* {{.*}}, i32 0, i32 0
// CHECK-NEXT: [[END:%.*]] = getelementptr inbounds [[A]], [[A]]* [[BEGIN]], i64 3
// CHECK-NEXT: br label
// CHECK: [[PHI:%.*]] = phi
// CHECK-NEXT: [[ELEM:%.*]] = getelementptr inbounds [[A]], [[A]]* [[PHI]], i64 -1
// CHECK-NEXT: call void @_ZN7PR113651AD1Ev([[A]]* [[ELEM]])
// CHECK-NEXT: icmp eq [[A]]* [[ELEM]], [[BEGIN]]
// CHECK-NEXT: br i1
(void) (A [3]) {};
}
}
namespace AssignmentOp {
struct A { ~A(); };
struct B { A operator=(const B&); };
struct C : B { B b1, b2; };
// CHECK-LABEL: define void @_ZN12AssignmentOp1fE
void f(C &c1, const C &c2) {
// CHECK: call {{.*}} @_ZN12AssignmentOp1CaSERKS0_(
c1 = c2;
}
// Ensure that each 'A' temporary is destroyed before the next subobject is
// copied.
// CHECK: define {{.*}} @_ZN12AssignmentOp1CaSERKS0_(
// CHECK: call {{.*}} @_ZN12AssignmentOp1BaSERKS
// CHECK: call {{.*}} @_ZN12AssignmentOp1AD1Ev(
// CHECK: call {{.*}} @_ZN12AssignmentOp1BaSERKS
// CHECK: call {{.*}} @_ZN12AssignmentOp1AD1Ev(
// CHECK: call {{.*}} @_ZN12AssignmentOp1BaSERKS
// CHECK: call {{.*}} @_ZN12AssignmentOp1AD1Ev(
}
namespace BindToSubobject {
struct A {
A();
~A();
int a;
};
void f(), g();
// CHECK: call void @_ZN15BindToSubobject1AC1Ev({{.*}} @_ZGRN15BindToSubobject1aE_)
// CHECK: call i32 @__cxa_atexit({{.*}} bitcast ({{.*}} @_ZN15BindToSubobject1AD1Ev to void (i8*)*), i8* bitcast ({{.*}} @_ZGRN15BindToSubobject1aE_ to i8*), i8* @__dso_handle)
// CHECK: store i32* getelementptr inbounds ({{.*}} @_ZGRN15BindToSubobject1aE_, i32 0, i32 0), i32** @_ZN15BindToSubobject1aE, align 8
int &&a = A().a;
// CHECK: call void @_ZN15BindToSubobject1fEv()
// CHECK: call void @_ZN15BindToSubobject1AC1Ev({{.*}} @_ZGRN15BindToSubobject1bE_)
// CHECK: call i32 @__cxa_atexit({{.*}} bitcast ({{.*}} @_ZN15BindToSubobject1AD1Ev to void (i8*)*), i8* bitcast ({{.*}} @_ZGRN15BindToSubobject1bE_ to i8*), i8* @__dso_handle)
// CHECK: store i32* getelementptr inbounds ({{.*}} @_ZGRN15BindToSubobject1bE_, i32 0, i32 0), i32** @_ZN15BindToSubobject1bE, align 8
int &&b = (f(), A().a);
int A::*h();
// CHECK: call void @_ZN15BindToSubobject1fEv()
// CHECK: call void @_ZN15BindToSubobject1gEv()
// CHECK: call void @_ZN15BindToSubobject1AC1Ev({{.*}} @_ZGRN15BindToSubobject1cE_)
// CHECK: call i32 @__cxa_atexit({{.*}} bitcast ({{.*}} @_ZN15BindToSubobject1AD1Ev to void (i8*)*), i8* bitcast ({{.*}} @_ZGRN15BindToSubobject1cE_ to i8*), i8* @__dso_handle)
// CHECK: call {{.*}} @_ZN15BindToSubobject1hE
// CHECK: getelementptr
// CHECK: store i32* {{.*}}, i32** @_ZN15BindToSubobject1cE, align 8
int &&c = (f(), (g(), A().*h()));
struct B {
int padding;
A a;
};
// CHECK: call void @_ZN15BindToSubobject1BC1Ev({{.*}} @_ZGRN15BindToSubobject1dE_)
// CHECK: call i32 @__cxa_atexit({{.*}} bitcast ({{.*}} @_ZN15BindToSubobject1BD1Ev to void (i8*)*), i8* bitcast ({{.*}} @_ZGRN15BindToSubobject1dE_ to i8*), i8* @__dso_handle)
// CHECK: call {{.*}} @_ZN15BindToSubobject1hE
// CHECK: getelementptr {{.*}} getelementptr
// CHECK: store i32* {{.*}}, i32** @_ZN15BindToSubobject1dE, align 8
int &&d = (B().a).*h();
}
namespace Bitfield {
struct S { int a : 5; ~S(); };
// Do not lifetime extend the S() temporary here.
// CHECK: alloca
// CHECK: call {{.*}}memset
// CHECK: store i32 {{.*}}, i32* @_ZGRN8Bitfield1rE_
// CHECK: call void @_ZN8Bitfield1SD1
// CHECK: store i32* @_ZGRN8Bitfield1rE_, i32** @_ZN8Bitfield1rE, align 8
int &&r = S().a;
}
namespace Vector {
typedef __attribute__((vector_size(16))) int vi4a;
typedef __attribute__((ext_vector_type(4))) int vi4b;
struct S {
vi4a v;
vi4b w;
};
// CHECK: alloca
// CHECK: extractelement
// CHECK: store i32 {{.*}}, i32* @_ZGRN6Vector1rE_
// CHECK: store i32* @_ZGRN6Vector1rE_, i32** @_ZN6Vector1rE,
int &&r = S().v[1];
// CHECK: alloca
// CHECK: extractelement
// CHECK: store i32 {{.*}}, i32* @_ZGRN6Vector1sE_
// CHECK: store i32* @_ZGRN6Vector1sE_, i32** @_ZN6Vector1sE,
int &&s = S().w[1];
// FIXME PR16204: The following code leads to an assertion in Sema.
//int &&s = S().w.y;
}
namespace ImplicitTemporaryCleanup {
struct A { A(int); ~A(); };
void g();
// CHECK-LABEL: define void @_ZN24ImplicitTemporaryCleanup1fEv(
void f() {
// CHECK: call {{.*}} @_ZN24ImplicitTemporaryCleanup1AC1Ei(
A &&a = 0;
// CHECK: call {{.*}} @_ZN24ImplicitTemporaryCleanup1gEv(
g();
// CHECK: call {{.*}} @_ZN24ImplicitTemporaryCleanup1AD1Ev(
}
}
namespace MultipleExtension {
struct A { A(); ~A(); };
struct B { B(); ~B(); };
struct C { C(); ~C(); };
struct D { D(); ~D(); int n; C c; };
struct E { const A &a; B b; const C &c; ~E(); };
E &&e1 = { A(), B(), D().c };
// CHECK: call void @_ZN17MultipleExtension1AC1Ev({{.*}} @[[TEMPA:_ZGRN17MultipleExtension2e1E.*]])
// CHECK: call i32 @__cxa_atexit({{.*}} @_ZN17MultipleExtension1AD1Ev {{.*}} @[[TEMPA]]
// CHECK: store {{.*}} @[[TEMPA]], {{.*}} getelementptr inbounds ({{.*}} @[[TEMPE:_ZGRN17MultipleExtension2e1E.*]], i32 0, i32 0)
// CHECK: call void @_ZN17MultipleExtension1BC1Ev({{.*}} getelementptr inbounds ({{.*}} @[[TEMPE]], i32 0, i32 1))
// CHECK: call void @_ZN17MultipleExtension1DC1Ev({{.*}} @[[TEMPD:_ZGRN17MultipleExtension2e1E.*]])
// CHECK: call i32 @__cxa_atexit({{.*}} @_ZN17MultipleExtension1DD1Ev {{.*}} @[[TEMPD]]
// CHECK: store {{.*}} @[[TEMPD]], {{.*}} getelementptr inbounds ({{.*}} @[[TEMPE]], i32 0, i32 2)
// CHECK: call i32 @__cxa_atexit({{.*}} @_ZN17MultipleExtension1ED1Ev {{.*}} @[[TEMPE]]
// CHECK: store {{.*}} @[[TEMPE]], %"struct.MultipleExtension::E"** @_ZN17MultipleExtension2e1E, align 8
E e2 = { A(), B(), D().c };
// CHECK: call void @_ZN17MultipleExtension1AC1Ev({{.*}} @[[TEMPA:_ZGRN17MultipleExtension2e2E.*]])
// CHECK: call i32 @__cxa_atexit({{.*}} @_ZN17MultipleExtension1AD1Ev {{.*}} @[[TEMPA]]
// CHECK: store {{.*}} @[[TEMPA]], {{.*}} getelementptr inbounds ({{.*}} @[[E:_ZN17MultipleExtension2e2E]], i32 0, i32 0)
// CHECK: call void @_ZN17MultipleExtension1BC1Ev({{.*}} getelementptr inbounds ({{.*}} @[[E]], i32 0, i32 1))
// CHECK: call void @_ZN17MultipleExtension1DC1Ev({{.*}} @[[TEMPD:_ZGRN17MultipleExtension2e2E.*]])
// CHECK: call i32 @__cxa_atexit({{.*}} @_ZN17MultipleExtension1DD1Ev {{.*}} @[[TEMPD]]
// CHECK: store {{.*}} @[[TEMPD]], {{.*}} getelementptr inbounds ({{.*}} @[[E]], i32 0, i32 2)
// CHECK: call i32 @__cxa_atexit({{.*}} @_ZN17MultipleExtension1ED1Ev {{.*}} @[[E]]
void g();
// CHECK: define void @[[NS:_ZN17MultipleExtension]]1fEv(
void f() {
E &&e1 = { A(), B(), D().c };
// CHECK: %[[TEMPE1_A:.*]] = getelementptr inbounds {{.*}} %[[TEMPE1:.*]], i32 0, i32 0
// CHECK: call void @[[NS]]1AC1Ev({{.*}} %[[TEMPA1:.*]])
// CHECK: store {{.*}} %[[TEMPA1]], {{.*}} %[[TEMPE1_A]]
// CHECK: %[[TEMPE1_B:.*]] = getelementptr inbounds {{.*}} %[[TEMPE1]], i32 0, i32 1
// CHECK: call void @[[NS]]1BC1Ev({{.*}} %[[TEMPE1_B]])
// CHECK: %[[TEMPE1_C:.*]] = getelementptr inbounds {{.*}} %[[TEMPE1]], i32 0, i32 2
// CHECK: call void @[[NS]]1DC1Ev({{.*}} %[[TEMPD1:.*]])
// CHECK: %[[TEMPD1_C:.*]] = getelementptr inbounds {{.*}} %[[TEMPD1]], i32 0, i32 1
// CHECK: store {{.*}} %[[TEMPD1_C]], {{.*}} %[[TEMPE1_C]]
// CHECK: store {{.*}} %[[TEMPE1]], {{.*}} %[[E1:.*]]
g();
// CHECK: call void @[[NS]]1gEv()
E e2 = { A(), B(), D().c };
// CHECK: %[[TEMPE2_A:.*]] = getelementptr inbounds {{.*}} %[[E2:.*]], i32 0, i32 0
// CHECK: call void @[[NS]]1AC1Ev({{.*}} %[[TEMPA2:.*]])
// CHECK: store {{.*}} %[[TEMPA2]], {{.*}} %[[TEMPE2_A]]
// CHECK: %[[TEMPE2_B:.*]] = getelementptr inbounds {{.*}} %[[E2]], i32 0, i32 1
// CHECK: call void @[[NS]]1BC1Ev({{.*}} %[[TEMPE2_B]])
// CHECK: %[[TEMPE2_C:.*]] = getelementptr inbounds {{.*}} %[[E2]], i32 0, i32 2
// CHECK: call void @[[NS]]1DC1Ev({{.*}} %[[TEMPD2:.*]])
// CHECK: %[[TEMPD2_C:.*]] = getelementptr inbounds {{.*}} %[[TEMPD2]], i32 0, i32 1
// CHECK: store {{.*}} %[[TEMPD2_C]], {{.*}}* %[[TEMPE2_C]]
g();
// CHECK: call void @[[NS]]1gEv()
// CHECK: call void @[[NS]]1ED1Ev({{.*}} %[[E2]])
// CHECK: call void @[[NS]]1DD1Ev({{.*}} %[[TEMPD2]])
// CHECK: call void @[[NS]]1AD1Ev({{.*}} %[[TEMPA2]])
// CHECK: call void @[[NS]]1ED1Ev({{.*}} %[[TEMPE1]])
// CHECK: call void @[[NS]]1DD1Ev({{.*}} %[[TEMPD1]])
// CHECK: call void @[[NS]]1AD1Ev({{.*}} %[[TEMPA1]])
}
}
namespace ArrayAccess {
struct A { A(int); ~A(); };
void g();
void f() {
using T = A[3];
// CHECK: call void @_ZN11ArrayAccess1AC1Ei({{.*}}, i32 1
// CHECK-NOT: @_ZN11ArrayAccess1AD
// CHECK: call void @_ZN11ArrayAccess1AC1Ei({{.*}}, i32 2
// CHECK-NOT: @_ZN11ArrayAccess1AD
// CHECK: call void @_ZN11ArrayAccess1AC1Ei({{.*}}, i32 3
// CHECK-NOT: @_ZN11ArrayAccess1AD
A &&a = T{1, 2, 3}[1];
// CHECK: call void @_ZN11ArrayAccess1AC1Ei({{.*}}, i32 4
// CHECK-NOT: @_ZN11ArrayAccess1AD
// CHECK: call void @_ZN11ArrayAccess1AC1Ei({{.*}}, i32 5
// CHECK-NOT: @_ZN11ArrayAccess1AD
// CHECK: call void @_ZN11ArrayAccess1AC1Ei({{.*}}, i32 6
// CHECK-NOT: @_ZN11ArrayAccess1AD
A &&b = 2[T{4, 5, 6}];
// CHECK: call void @_ZN11ArrayAccess1gEv(
g();
// CHECK: call void @_ZN11ArrayAccess1AD
// CHECK: call void @_ZN11ArrayAccess1AD
}
}
namespace PR14130 {
struct S { S(int); };
struct U { S &&s; };
U v { { 0 } };
// CHECK: call void @_ZN7PR141301SC1Ei({{.*}} @_ZGRN7PR141301vE_, i32 0)
// CHECK: store {{.*}} @_ZGRN7PR141301vE_, {{.*}} @_ZN7PR141301vE
}
namespace Conditional {
struct A {};
struct B : A { B(); ~B(); };
struct C : A { C(); ~C(); };
void g();
// CHECK-LABEL: define {{.*}} @_ZN11Conditional1fEb(
void f(bool b) {
// CHECK: store i1 false, i1* %[[CLEANUP_B:.*]],
// CHECK: store i1 false, i1* %[[CLEANUP_C:.*]],
// CHECK: br i1
//
// CHECK: call {{.*}} @_ZN11Conditional1BC1Ev(
// CHECK: store i1 true, i1* %[[CLEANUP_B]],
// CHECK: br label
//
// CHECK: call {{.*}} @_ZN11Conditional1CC1Ev(
// CHECK: store i1 true, i1* %[[CLEANUP_C]],
// CHECK: br label
A &&r = b ? static_cast<A&&>(B()) : static_cast<A&&>(C());
// CHECK: call {{.*}} @_ZN11Conditional1gEv(
g();
// CHECK: load {{.*}} %[[CLEANUP_C]]
// CHECK: br i1
// CHECK: call {{.*}} @_ZN11Conditional1CD1Ev(
// CHECK: br label
// CHECK: load {{.*}} %[[CLEANUP_B]]
// CHECK: br i1
// CHECK: call {{.*}} @_ZN11Conditional1BD1Ev(
// CHECK: br label
}
struct D { A &&a; };
// CHECK-LABEL: define {{.*}} @_ZN11Conditional10f_indirectEb(
void f_indirect(bool b) {
// CHECK: store i1 false, i1* %[[CLEANUP_B:.*]],
// CHECK: store i1 false, i1* %[[CLEANUP_C:.*]],
// CHECK: br i1
//
// CHECK: call {{.*}} @_ZN11Conditional1BC1Ev(
// CHECK: store i1 true, i1* %[[CLEANUP_B]],
// CHECK: br label
//
// CHECK: call {{.*}} @_ZN11Conditional1CC1Ev(
// CHECK: store i1 true, i1* %[[CLEANUP_C]],
// CHECK: br label
D d = b ? D{B()} : D{C()};
// In C++17, the expression D{...} directly initializes the 'd' object, so
// lifetime-extending the temporaries to the lifetime of the D object
// extends them past the call to g().
//
// In C++14 and before, D is move-constructed from the result of the
// conditional expression, so no lifetime extension occurs.
// CHECK-CXX17: call {{.*}} @_ZN11Conditional1gEv(
// CHECK: load {{.*}} %[[CLEANUP_C]]
// CHECK: br i1
// CHECK: call {{.*}} @_ZN11Conditional1CD1Ev(
// CHECK: br label
// CHECK: load {{.*}} %[[CLEANUP_B]]
// CHECK: br i1
// CHECK: call {{.*}} @_ZN11Conditional1BD1Ev(
// CHECK: br label
// CHECK-CXX11: call {{.*}} @_ZN11Conditional1gEv(
g();
}
extern bool b;
// CHECK: load {{.*}} @_ZN11Conditional1b
// CHECK: br i1
//
// CHECK: call {{.*}} @_ZN11Conditional1BC1Ev({{.*}} @_ZGRN11Conditional1rE_)
// CHECK: call {{.*}} @__cxa_atexit({{.*}} @_ZN11Conditional1BD1Ev {{.*}} @_ZGRN11Conditional1rE_,
// CHECK: br label
//
// CHECK: call {{.*}} @_ZN11Conditional1CC1Ev({{.*}} @_ZGRN11Conditional1rE0_)
// CHECK: call {{.*}} @__cxa_atexit({{.*}} @_ZN11Conditional1CD1Ev {{.*}} @_ZGRN11Conditional1rE0_,
// CHECK: br label
A &&r = b ? static_cast<A&&>(B()) : static_cast<A&&>(C());
}
#if __cplusplus >= 201703L
namespace PR42220 {
struct X { X(); ~X(); };
struct A { X &&x; };
struct B : A {};
void g() noexcept;
// CHECK-CXX17-LABEL: define{{.*}} @_ZN7PR422201fEv(
void f() {
// CHECK-CXX17: call{{.*}} @_ZN7PR422201XC1Ev(
B &&b = {X()};
// CHECK-CXX17-NOT: call{{.*}} @_ZN7PR422201XD1Ev(
// CHECK-CXX17: call{{.*}} @_ZN7PR422201gEv(
g();
// CHECK-CXX17: call{{.*}} @_ZN7PR422201XD1Ev(
}
}
#endif