llvm-project/clang/test/CodeGenCXX/constructor-init.cpp
Richard Smith 0d1f3cb1b5 Special members which are defaulted or deleted on their first declaration are
trivial if the implicit declaration would be. Don't forget to set the Trivial
flag on the special member as well as on the class. It doesn't seem ideal that
we have two separate mechanisms for storing this information, but this patch
does not attempt to address that.

This leaves us in an interesting position where the has_trivial_X trait for a
class says 'yes' for a deleted but trivial X, but is_trivially_Xable says 'no'.
This seems to be what the standard requires.

llvm-svn: 151465
2012-02-26 00:31:33 +00:00

223 lines
5.8 KiB
C++

// RUN: %clang_cc1 -std=c++11 -triple x86_64-apple-darwin10 %s -emit-llvm -o %t
// RUN: FileCheck %s < %t
// RUN: FileCheck -check-prefix=CHECK-PR10720 %s < %t
extern "C" int printf(...);
struct M {
M() { printf("M()\n"); }
M(int i) { iM = i; printf("M(%d)\n", i); }
int iM;
void MPR() {printf("iM = %d\n", iM); };
};
struct P {
P() { printf("P()\n"); }
P(int i) { iP = i; printf("P(%d)\n", i); }
int iP;
void PPR() {printf("iP = %d\n", iP); };
};
struct Q {
Q() { printf("Q()\n"); }
Q(int i) { iQ = i; printf("Q(%d)\n", i); }
int iQ;
void QPR() {printf("iQ = %d\n", iQ); };
};
struct N : M , P, Q {
N() : f1(1.314), P(2000), ld(00.1234+f1), M(1000), Q(3000),
d1(3.4567), i1(1234), m1(100) { printf("N()\n"); }
M m1;
M m2;
float f1;
int i1;
float d1;
void PR() {
printf("f1 = %f d1 = %f i1 = %d ld = %f \n", f1,d1,i1, ld);
MPR();
PPR();
QPR();
printf("iQ = %d\n", iQ);
printf("iP = %d\n", iP);
printf("iM = %d\n", iM);
// FIXME. We don't yet support this syntax.
// printf("iQ = %d\n", (*this).iQ);
printf("iQ = %d\n", this->iQ);
printf("iP = %d\n", this->iP);
printf("iM = %d\n", this->iM);
}
float ld;
float ff;
M arr_m[3];
P arr_p[1][3];
Q arr_q[2][3][4];
};
int main() {
M m1;
N n1;
n1.PR();
}
// PR5826
template <class T> struct A {
A() {}
A(int) {}
A(const A&) {}
~A() {}
operator int() {return 0;}
};
// CHECK: define void @_Z1fv()
void f() {
// CHECK: call void @_ZN1AIsEC1Ei
A<short> a4 = 97;
// CHECK-NEXT: store i32 17
int i = 17;
// CHECK-NEXT: call void @_ZN1AIsED1Ev
// CHECK-NOT: call void @_ZN1AIsED1Ev
// CHECK: ret void
}
// Make sure we initialize the vtable pointer if it's required by a
// base initializer.
namespace InitVTable {
struct A { A(int); };
struct B : A {
virtual int foo();
B();
B(int);
};
// CHECK: define void @_ZN10InitVTable1BC2Ev(%"struct.InitVTable::B"* %this) unnamed_addr
// CHECK: [[T0:%.*]] = bitcast [[B:%.*]]* [[THIS:%.*]] to i8***
// CHECK-NEXT: store i8** getelementptr inbounds ([3 x i8*]* @_ZTVN10InitVTable1BE, i64 0, i64 2), i8*** [[T0]]
// CHECK: [[VTBL:%.*]] = load i32 ([[B]]*)*** {{%.*}}
// CHECK-NEXT: [[FNP:%.*]] = getelementptr inbounds i32 ([[B]]*)** [[VTBL]], i64 0
// CHECK-NEXT: [[FN:%.*]] = load i32 ([[B]]*)** [[FNP]]
// CHECK-NEXT: [[ARG:%.*]] = call i32 [[FN]]([[B]]* [[THIS]])
// CHECK-NEXT: call void @_ZN10InitVTable1AC2Ei({{.*}}* {{%.*}}, i32 [[ARG]])
// CHECK-NEXT: [[T0:%.*]] = bitcast [[B]]* [[THIS]] to i8***
// CHECK-NEXT: store i8** getelementptr inbounds ([3 x i8*]* @_ZTVN10InitVTable1BE, i64 0, i64 2), i8*** [[T0]]
// CHECK-NEXT: ret void
B::B() : A(foo()) {}
// CHECK: define void @_ZN10InitVTable1BC2Ei(%"struct.InitVTable::B"* %this, i32 %x) unnamed_addr
// CHECK: [[ARG:%.*]] = add nsw i32 {{%.*}}, 5
// CHECK-NEXT: call void @_ZN10InitVTable1AC2Ei({{.*}}* {{%.*}}, i32 [[ARG]])
// CHECK-NEXT: [[T0:%.*]] = bitcast [[B]]* {{%.*}} to i8***
// CHECK-NEXT: store i8** getelementptr inbounds ([3 x i8*]* @_ZTVN10InitVTable1BE, i64 0, i64 2), i8*** [[T0]]
// CHECK-NEXT: ret void
B::B(int x) : A(x + 5) {}
}
namespace rdar9694300 {
struct X {
int x;
};
// CHECK: define void @_ZN11rdar96943001fEv
void f() {
// CHECK: alloca
X x;
// CHECK-NEXT: [[I:%.*]] = alloca i32
// CHECK-NEXT: store i32 17, i32* [[I]]
int i = 17;
// CHECK-NEXT: ret void
}
}
template<typename T>
struct X {
X(const X &);
T *start;
T *end;
};
template<typename T> struct X;
// Make sure that the instantiated constructor initializes start and
// end properly.
// CHECK: define linkonce_odr void @_ZN1XIiEC2ERKS0_(%struct.X* %this, %struct.X* %other) unnamed_addr
// CHECK: {{store.*null}}
// CHECK: {{store.*null}}
// CHECK: ret
template<typename T>
X<T>::X(const X &other) : start(0), end(0) { }
X<int> get_X(X<int> x) { return x; }
namespace PR10720 {
struct X {
X(const X&);
X(X&&);
X& operator=(const X&);
X& operator=(X&&);
~X();
};
struct pair2 {
X second[4];
// CHECK-PR10720: define linkonce_odr {{.*}} @_ZN7PR107205pair2aSERKS0_
// CHECK-PR10720: load
// CHECK-PR10720: icmp ne
// CHECK-PR10720-NEXT: br i1
// CHECK-PR10720: call {{.*}} @_ZN7PR107201XaSERKS0_
// CHECK-PR10720: ret
pair2 &operator=(const pair2&) = default;
// CHECK-PR10720: define linkonce_odr {{.*}} @_ZN7PR107205pair2aSEOS0_
// CHECK-PR10720: load
// CHECK-PR10720: icmp ne
// CHECK-PR10720-NEXT: br i1
// CHECK-PR10720: call {{.*}} @_ZN7PR107201XaSEOS0_
// CHECK-PR10720: ret
pair2 &operator=(pair2&&) = default;
// CHECK-PR10720: define linkonce_odr void @_ZN7PR107205pair2C2EOS0_
// CHECK-PR10720-NOT: ret
// CHECK-PR10720: load
// CHECK-PR10720: icmp ult
// CHECK-PR10720-NEXT: br i1
// CHECK-PR10720: call void @_ZN7PR107201XC1EOS0_
// CHECK-PR10720-NEXT: br label
// CHECK-PR10720: ret void
pair2(pair2&&) = default;
// CHECK-PR10720: define linkonce_odr void @_ZN7PR107205pair2C2ERKS0_
// CHECK-PR10720-NOT: ret
// CHECK-PR10720: load
// CHECK-PR10720: icmp ult
// CHECK-PR10720-NEXT: br i1
// CHECK-PR10720: call void @_ZN7PR107201XC1ERKS0_
// CHECK-PR10720-NEXT: br label
// CHECK-PR10720: ret void
pair2(const pair2&) = default;
};
struct pair : X { // Make the copy constructor non-trivial, so we actually generate it.
int second[4];
// CHECK-PR10720: define linkonce_odr void @_ZN7PR107204pairC2ERKS0_
// CHECK-PR10720-NOT: ret
// CHECK-PR10720: call void @llvm.memcpy
// CHECK-PR10720-NEXT: ret void
pair(const pair&) = default;
};
void foo(const pair &x, const pair2 &x2) {
pair y(x);
pair2 y2(x2);
pair2 y2m(static_cast<pair2&&>(y2));
y2 = x2;
y2m = static_cast<pair2&&>(y2);
}
}