forked from OSchip/llvm-project
408 lines
8.3 KiB
C++
408 lines
8.3 KiB
C++
// RUN: %clang_cc1 -fsyntax-only -verify %s
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class X {
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public:
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operator bool();
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operator int() const;
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bool f() {
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return operator bool();
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}
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float g() {
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return operator float(); // expected-error{{use of undeclared 'operator float'}}
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}
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static operator short(); // expected-error{{conversion function must be a non-static member function}}
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};
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operator int(); // expected-error{{conversion function must be a non-static member function}}
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operator int; // expected-error{{'operator int' cannot be the name of a variable or data member}}
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typedef int func_type(int);
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typedef int array_type[10];
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class Y {
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public:
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void operator bool(int, ...) const; // expected-error{{conversion function cannot have a return type}} \
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// expected-error{{conversion function cannot have any parameters}}
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operator float(...) const; // expected-error{{conversion function cannot be variadic}}
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operator func_type(); // expected-error{{conversion function cannot convert to a function type}}
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operator array_type(); // expected-error{{conversion function cannot convert to an array type}}
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};
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typedef int INT;
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typedef INT* INT_PTR;
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class Z {
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operator int(); // expected-note {{previous declaration is here}}
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operator int**(); // expected-note {{previous declaration is here}}
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operator INT(); // expected-error{{conversion function cannot be redeclared}}
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operator INT_PTR*(); // expected-error{{conversion function cannot be redeclared}}
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};
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class A { };
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class B : public A {
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public:
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operator A&() const; // expected-warning{{conversion function converting 'B' to its base class 'A' will never be used}}
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operator const void() const; // expected-warning{{conversion function converting 'B' to 'const void' will never be used}}
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operator const B(); // expected-warning{{conversion function converting 'B' to itself will never be used}}
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};
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// This used to crash Clang.
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struct Flip;
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struct Flop {
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Flop();
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Flop(const Flip&); // expected-note{{candidate constructor}}
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};
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struct Flip {
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operator Flop() const; // expected-note{{candidate function}}
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};
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Flop flop = Flip(); // expected-error {{conversion from 'Flip' to 'Flop' is ambiguous}}
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// This tests that we don't add the second conversion declaration to the list of user conversions
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struct C {
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operator const char *() const;
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};
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C::operator const char*() const { return 0; }
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void f(const C& c) {
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const char* v = c;
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}
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// Test. Conversion in base class is visible in derived class.
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class XB {
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public:
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operator int(); // expected-note {{candidate function}}
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};
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class Yb : public XB {
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public:
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operator char(); // expected-note {{candidate function}}
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};
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void f(Yb& a) {
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if (a) { } // expected-error {{conversion from 'Yb' to 'bool' is ambiguous}}
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int i = a; // OK. calls XB::operator int();
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char ch = a; // OK. calls Yb::operator char();
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}
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// Test conversion + copy construction.
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class AutoPtrRef { };
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class AutoPtr {
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AutoPtr(AutoPtr &); // expected-note{{declared private here}}
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public:
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AutoPtr();
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AutoPtr(AutoPtrRef);
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operator AutoPtrRef();
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};
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AutoPtr make_auto_ptr();
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AutoPtr test_auto_ptr(bool Cond) {
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AutoPtr p1( make_auto_ptr() );
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AutoPtr p;
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if (Cond)
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return p; // expected-error{{calling a private constructor}}
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return AutoPtr();
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}
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struct A1 {
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A1(const char *);
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~A1();
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private:
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A1(const A1&); // expected-note 2 {{declared private here}}
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};
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A1 f() {
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// FIXME: redundant diagnostics!
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return "Hello"; // expected-error {{calling a private constructor}} expected-warning {{an accessible copy constructor}}
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}
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namespace source_locations {
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template<typename T>
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struct sneaky_int {
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typedef int type;
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};
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template<typename T, typename U>
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struct A { };
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template<typename T>
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struct A<T, T> : A<T, int> { };
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struct E {
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template<typename T>
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operator A<T, typename sneaky_int<T>::type>&() const; // expected-note{{candidate function}}
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};
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void f() {
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A<float, float> &af = E(); // expected-error{{no viable conversion}}
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A<float, int> &af2 = E();
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const A<float, int> &caf2 = E();
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}
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// Check
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template<typename T>
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struct E2 {
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operator T
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* // expected-error{{pointer to a reference}}
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() const;
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};
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E2<int&> e2i; // expected-note{{in instantiation}}
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}
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namespace crazy_declarators {
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struct A {
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(&operator bool())(); // expected-error {{must use a typedef to declare a conversion to 'bool (&)()'}}
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// FIXME: This diagnostic is misleading (the correct spelling
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// would be 'operator int*'), but it's a corner case of a
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// rarely-used syntax extension.
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*operator int(); // expected-error {{must use a typedef to declare a conversion to 'int *'}}
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};
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}
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namespace smart_ptr {
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class Y {
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class YRef { };
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Y(Y&);
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public:
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Y();
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Y(YRef);
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operator YRef(); // expected-note{{candidate function}}
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};
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struct X { // expected-note{{candidate constructor (the implicit copy constructor) not}}
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explicit X(Y);
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};
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Y make_Y();
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X f() {
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X x = make_Y(); // expected-error{{no viable conversion from 'smart_ptr::Y' to 'smart_ptr::X'}}
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X x2(make_Y());
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return X(Y());
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}
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}
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struct Any {
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Any(...);
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};
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struct Other {
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Other(const Other &);
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Other();
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};
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void test_any() {
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Any any = Other(); // expected-error{{cannot pass object of non-POD type 'Other' through variadic constructor; call will abort at runtime}}
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}
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namespace PR7055 {
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// Make sure that we don't allow too many conversions in an
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// auto_ptr-like template. In particular, we can't create multiple
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// temporary objects when binding to a reference.
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struct auto_ptr {
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struct auto_ptr_ref { };
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auto_ptr(auto_ptr&);
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auto_ptr(auto_ptr_ref);
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explicit auto_ptr(int *);
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operator auto_ptr_ref();
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};
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struct X {
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X(auto_ptr);
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};
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X f() {
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X x(auto_ptr(new int));
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return X(auto_ptr(new int));
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}
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auto_ptr foo();
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X e(foo());
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struct Y {
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Y(X);
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};
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Y f2(foo());
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}
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namespace PR7934 {
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typedef unsigned char uint8;
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struct MutablePtr {
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MutablePtr() : ptr(0) {}
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void *ptr;
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operator void*() { return ptr; }
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private:
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operator uint8*() { return reinterpret_cast<uint8*>(ptr); }
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operator const char*() const { return reinterpret_cast<const char*>(ptr); }
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};
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void fake_memcpy(const void *);
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void use() {
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MutablePtr ptr;
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fake_memcpy(ptr);
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}
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}
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namespace rdar8018274 {
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struct X { };
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struct Y {
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operator const struct X *() const;
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};
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struct Z : Y {
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operator struct X * ();
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};
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void test() {
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Z x;
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(void) (x != __null);
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}
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struct Base {
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operator int();
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};
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struct Derived1 : Base { };
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struct Derived2 : Base { };
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struct SuperDerived : Derived1, Derived2 {
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using Derived1::operator int;
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};
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struct UeberDerived : SuperDerived {
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operator long();
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};
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void test2(UeberDerived ud) {
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int i = ud; // expected-error{{ambiguous conversion from derived class 'rdar8018274::SuperDerived' to base class 'rdar8018274::Base'}}
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}
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struct Base2 {
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operator int();
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};
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struct Base3 {
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operator int();
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};
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struct Derived23 : Base2, Base3 {
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using Base2::operator int;
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};
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struct ExtraDerived23 : Derived23 { };
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void test3(ExtraDerived23 ed) {
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int i = ed;
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}
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}
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namespace PR8065 {
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template <typename T> struct Iterator;
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template <typename T> struct Container;
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template<>
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struct Iterator<int> {
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typedef Container<int> container_type;
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};
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template <typename T>
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struct Container {
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typedef typename Iterator<T>::container_type X;
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operator X(void) { return X(); }
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};
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Container<int> test;
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}
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namespace PR8034 {
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struct C {
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operator int();
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private:
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template <typename T> operator T();
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};
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int x = C().operator int();
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}
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namespace PR9336 {
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template<class T>
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struct generic_list
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{
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template<class Container>
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operator Container()
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{
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Container ar;
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T* i;
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ar[0]=*i;
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return ar;
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}
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};
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template<class T>
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struct array
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{
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T& operator[](int);
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const T& operator[](int)const;
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};
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generic_list<generic_list<int> > l;
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array<array<int> > a = l;
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}
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namespace PR8800 {
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struct A;
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struct C {
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operator A&();
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};
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void f() {
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C c;
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A& a1(c);
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A& a2 = c;
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A& a3 = static_cast<A&>(c);
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A& a4 = (A&)c;
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}
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}
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namespace PR12712 {
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struct A {};
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struct B {
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operator A();
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operator A() const;
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};
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struct C : B {};
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A f(const C c) { return c; }
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}
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