llvm-capstone/clang/test/SemaTemplate/instantiate-expr-1.cpp
Douglas Gregor f333f8c40d When transforming the arguments for a C++ "new" expression, make sure
to drop the implicitly-generated value initialization expression used
for initializing scalars. Fixes <rdar://problem/10283928>.

llvm-svn: 142330
2011-10-18 02:43:19 +00:00

193 lines
5.0 KiB
C++

// RUN: %clang_cc1 -fsyntax-only -verify %s
template<int I, int J>
struct Bitfields {
int simple : I; // expected-error{{bit-field 'simple' has zero width}}
int parens : (J);
};
void test_Bitfields(Bitfields<0, 5> *b) {
(void)sizeof(Bitfields<10, 5>);
(void)sizeof(Bitfields<0, 1>); // expected-note{{in instantiation of template class 'Bitfields<0, 1>' requested here}}
}
template<int I, int J>
struct BitfieldPlus {
int bitfield : I + J; // expected-error{{bit-field 'bitfield' has zero width}}
};
void test_BitfieldPlus() {
(void)sizeof(BitfieldPlus<0, 1>);
(void)sizeof(BitfieldPlus<-5, 5>); // expected-note{{in instantiation of template class 'BitfieldPlus<-5, 5>' requested here}}
}
template<int I, int J>
struct BitfieldMinus {
int bitfield : I - J; // expected-error{{bit-field 'bitfield' has negative width (-1)}} \
// expected-error{{bit-field 'bitfield' has zero width}}
};
void test_BitfieldMinus() {
(void)sizeof(BitfieldMinus<5, 1>);
(void)sizeof(BitfieldMinus<0, 1>); // expected-note{{in instantiation of template class 'BitfieldMinus<0, 1>' requested here}}
(void)sizeof(BitfieldMinus<5, 5>); // expected-note{{in instantiation of template class 'BitfieldMinus<5, 5>' requested here}}
}
template<int I, int J>
struct BitfieldDivide {
int bitfield : I / J; // expected-error{{expression is not an integer constant expression}} \
// expected-note{{division by zero}}
};
void test_BitfieldDivide() {
(void)sizeof(BitfieldDivide<5, 1>);
(void)sizeof(BitfieldDivide<5, 0>); // expected-note{{in instantiation of template class 'BitfieldDivide<5, 0>' requested here}}
}
template<typename T, T I, int J>
struct BitfieldDep {
int bitfield : I + J;
};
void test_BitfieldDep() {
(void)sizeof(BitfieldDep<int, 1, 5>);
}
template<int I>
struct BitfieldNeg {
int bitfield : (-I); // expected-error{{bit-field 'bitfield' has negative width (-5)}}
};
template<typename T, T I>
struct BitfieldNeg2 {
int bitfield : (-I); // expected-error{{bit-field 'bitfield' has negative width (-5)}}
};
void test_BitfieldNeg() {
(void)sizeof(BitfieldNeg<-5>); // okay
(void)sizeof(BitfieldNeg<5>); // expected-note{{in instantiation of template class 'BitfieldNeg<5>' requested here}}
(void)sizeof(BitfieldNeg2<int, -5>); // okay
(void)sizeof(BitfieldNeg2<int, 5>); // expected-note{{in instantiation of template class 'BitfieldNeg2<int, 5>' requested here}}
}
template<typename T>
void increment(T &x) {
(void)++x;
}
struct Incrementable {
Incrementable &operator++();
};
void test_increment(Incrementable inc) {
increment(inc);
}
template<typename T>
void add(const T &x) {
(void)(x + x);
}
namespace PR6237 {
template <typename T>
void f(T t) {
t++;
}
struct B { };
B operator++(B &, int);
template void f(B);
}
struct Addable {
Addable operator+(const Addable&) const;
};
void test_add(Addable &a) {
add(a);
}
struct CallOperator {
int &operator()(int);
double &operator()(double);
};
template<typename Result, typename F, typename Arg1>
Result test_call_operator(F f, Arg1 arg1) {
// PR5266: non-dependent invocations of a function call operator.
CallOperator call_op;
int &ir = call_op(17);
return f(arg1);
}
void test_call_operator(CallOperator call_op, int i, double d) {
int &ir = test_call_operator<int&>(call_op, i);
double &dr = test_call_operator<double&>(call_op, d);
}
template<typename T>
void test_asm(T t) {
asm ("nop" : "=a"(*t) : "r"(*t)); // expected-error {{indirection requires pointer operand ('int' invalid)}}
}
void test_asm() {
int* a;
test_asm(a);
int b;
test_asm(b); // expected-note {{in instantiation of function template specialization 'test_asm<int>' requested here}}
}
namespace PR6424 {
template<int I> struct X {
X() {
int *ip = I; // expected-error{{cannot initialize a variable of type 'int *' with an rvalue of type 'int'}}
}
};
template<int> struct Y {
typedef X<7> X7;
void f() { X7(); } // expected-note{{instantiation}}
};
template void Y<3>::f();
template<int I>
struct X2 {
void *operator new(__SIZE_TYPE__) {
int *ip = I; // expected-error{{cannot initialize a variable of type 'int *' with an rvalue of type 'int'}}
return ip;
}
};
template<int> struct Y2 {
typedef X2<7> X;
void f() {
new X(); // expected-note{{instantiation of}}
}
};
template void Y2<3>::f();
template<typename T>
void rdar10283928(int count) {
(void)new char[count]();
}
template void rdar10283928<int>(int);
}
namespace PR10864 {
template<typename T> class Vals {};
template<> class Vals<int> { public: static const int i = 1; };
template<> class Vals<float> { public: static const double i; };
template<typename T> void test_asm_tied(T o) {
__asm("addl $1, %0" : "=r" (o) : "0"(Vals<T>::i)); // expected-error {{input with type 'double' matching output with type 'float'}}
}
void test_asm_tied() {
test_asm_tied(1);
test_asm_tied(1.f); // expected-note {{instantiation of}}
}
}