// RUN: %clang_cc1 -pedantic -Wall -Wno-comment -verify -fcxx-exceptions -x c++ %s
// RUN: not %clang_cc1 -fsyntax-only -fdiagnostics-parseable-fixits -x c++ -std=c++11 %s 2>&1 | FileCheck %s
// RUN: cp %s %t
// RUN: not %clang_cc1 -pedantic -Wall -Wno-comment -fcxx-exceptions -fixit -x c++ %t
// RUN: %clang_cc1 -fsyntax-only -pedantic -Wall -Werror -Wno-comment -fcxx-exceptions -x c++ %t

/* This is a test of the various code modification hints that are
   provided as part of warning or extension diagnostics. All of the
   warnings will be fixed by -fixit, and the resulting file should
   compile cleanly with -Werror -pedantic. */

struct C1 {
  virtual void f();
  static void g();
};
struct C2 : virtual public virtual C1 { }; // expected-error{{duplicate}}

virtual void C1::f() { } // expected-error{{'virtual' can only be specified inside the class definition}}

static void C1::g() { } // expected-error{{'static' can only be specified inside the class definition}}

template<int Value> struct CT { template<typename> struct Inner; }; // expected-note{{previous use is here}}

CT<10 >> 2> ct; // expected-warning{{require parentheses}}

class C3 {
public:
  C3(C3, int i = 0); // expected-error{{copy constructor must pass its first argument by reference}}
};

struct CT<0> { }; // expected-error{{'template<>'}}

template<> union CT<1> { }; // expected-error{{tag type}}

struct CT<2>::Inner<int> { }; // expected-error 2{{'template<>'}}

// Access declarations
class A {
protected:
  int foo();
};

class B : public A {
  A::foo; // expected-warning{{access declarations are deprecated}}
};

void f() throw(); // expected-note{{previous}}
void f(); // expected-error{{missing exception specification}}

namespace rdar7853795 {
  struct A {
    bool getNumComponents() const; // expected-note{{declared here}}
    void dump() const {
      getNumComponenets(); // expected-error{{use of undeclared identifier 'getNumComponenets'; did you mean 'getNumComponents'?}}
    }
  };
}

namespace rdar7796492 {
  struct A { int x, y; A(); };

  A::A()
    : x(1) y(2) { // expected-error{{missing ',' between base or member initializers}}
  }

}

// extra qualification on member
class C {
  int C::foo(); // expected-error {{extra qualification}}
};

namespace rdar8488464 {
int x = 0;
int x1 &= 0; // expected-error {{invalid '&=' at end of declaration; did you mean '='?}}
int x2 *= 0; // expected-error {{invalid '*=' at end of declaration; did you mean '='?}}
int x3 += 0; // expected-error {{invalid '+=' at end of declaration; did you mean '='?}}
int x4 -= 0; // expected-error {{invalid '-=' at end of declaration; did you mean '='?}}
int x5 != 0; // expected-error {{invalid '!=' at end of declaration; did you mean '='?}}
int x6 /= 0; // expected-error {{invalid '/=' at end of declaration; did you mean '='?}}
int x7 %= 0; // expected-error {{invalid '%=' at end of declaration; did you mean '='?}}
int x8 <= 0; // expected-error {{invalid '<=' at end of declaration; did you mean '='?}}
int x9 <<= 0; // expected-error {{invalid '<<=' at end of declaration; did you mean '='?}}
int x10 >= 0; // expected-error {{invalid '>=' at end of declaration; did you mean '='?}}
int x11 >>= 0; // expected-error {{invalid '>>=' at end of declaration; did you mean '='?}}
int x12 ^= 0; // expected-error {{invalid '^=' at end of declaration; did you mean '='?}}
int x13 |= 0; // expected-error {{invalid '|=' at end of declaration; did you mean '='?}}
int x14 == 0; // expected-error {{invalid '==' at end of declaration; did you mean '='?}}

void f() {
    int x = 0;
    (void)x;
    int x1 &= 0; // expected-error {{invalid '&=' at end of declaration; did you mean '='?}}
    (void)x1;
    int x2 *= 0; // expected-error {{invalid '*=' at end of declaration; did you mean '='?}}
    (void)x2;
    int x3 += 0; // expected-error {{invalid '+=' at end of declaration; did you mean '='?}}
    (void)x3;
    int x4 -= 0; // expected-error {{invalid '-=' at end of declaration; did you mean '='?}}
    (void)x4;
    int x5 != 0; // expected-error {{invalid '!=' at end of declaration; did you mean '='?}}
    (void)x5;
    int x6 /= 0; // expected-error {{invalid '/=' at end of declaration; did you mean '='?}}
    (void)x6;
    int x7 %= 0; // expected-error {{invalid '%=' at end of declaration; did you mean '='?}}
    (void)x7;
    int x8 <= 0; // expected-error {{invalid '<=' at end of declaration; did you mean '='?}}
    (void)x8;
    int x9 <<= 0; // expected-error {{invalid '<<=' at end of declaration; did you mean '='?}}
    (void)x9;
    int x10 >= 0; // expected-error {{invalid '>=' at end of declaration; did you mean '='?}}
    (void)x10;
    int x11 >>= 0; // expected-error {{invalid '>>=' at end of declaration; did you mean '='?}}
    (void)x11;
    int x12 ^= 0; // expected-error {{invalid '^=' at end of declaration; did you mean '='?}}
    (void)x12;
    int x13 |= 0; // expected-error {{invalid '|=' at end of declaration; did you mean '='?}}
    (void)x13;
    int x14 == 0; // expected-error {{invalid '==' at end of declaration; did you mean '='?}}
    (void)x14;
    if (int x = 0)  { (void)x; }
    if (int x1 &= 0) { (void)x1; } // expected-error {{invalid '&=' at end of declaration; did you mean '='?}}
    if (int x2 *= 0) { (void)x2; } // expected-error {{invalid '*=' at end of declaration; did you mean '='?}}
    if (int x3 += 0) { (void)x3; } // expected-error {{invalid '+=' at end of declaration; did you mean '='?}}
    if (int x4 -= 0) { (void)x4; } // expected-error {{invalid '-=' at end of declaration; did you mean '='?}}
    if (int x5 != 0) { (void)x5; } // expected-error {{invalid '!=' at end of declaration; did you mean '='?}}
    if (int x6 /= 0) { (void)x6; } // expected-error {{invalid '/=' at end of declaration; did you mean '='?}}
    if (int x7 %= 0) { (void)x7; } // expected-error {{invalid '%=' at end of declaration; did you mean '='?}}
    if (int x8 <= 0) { (void)x8; } // expected-error {{invalid '<=' at end of declaration; did you mean '='?}}
    if (int x9 <<= 0) { (void)x9; } // expected-error {{invalid '<<=' at end of declaration; did you mean '='?}}
    if (int x10 >= 0) { (void)x10; } // expected-error {{invalid '>=' at end of declaration; did you mean '='?}}
    if (int x11 >>= 0) { (void)x11; } // expected-error {{invalid '>>=' at end of declaration; did you mean '='?}}
    if (int x12 ^= 0) { (void)x12; } // expected-error {{invalid '^=' at end of declaration; did you mean '='?}}
    if (int x13 |= 0) { (void)x13; } // expected-error {{invalid '|=' at end of declaration; did you mean '='?}}
    if (int x14 == 0) { (void)x14; } // expected-error {{invalid '==' at end of declaration; did you mean '='?}}
}
}

template <class A>
class F1 {
public:
  template <int B>
  class Iterator {
  };
};
 
template<class T>
class F2  {
  typename F1<T>:: /*template*/  Iterator<0> Mypos; // expected-error {{use 'template' keyword to treat 'Iterator' as a dependent template name}}
};

template <class T>
void f(){
  typename F1<T>:: /*template*/ Iterator<0> Mypos; // expected-error {{use 'template' keyword to treat 'Iterator' as a dependent template name}}
}

// Tests for &/* fixits radar 7113438.
class AD {};
class BD: public AD {};

void test (BD &br) {
  AD* aPtr;
  BD b;
  aPtr = b; // expected-error {{assigning to 'AD *' from incompatible type 'BD'; take the address with &}}
  aPtr = br; // expected-error {{assigning to 'AD *' from incompatible type 'BD'; take the address with &}}
}

void foo1() const {} // expected-error {{non-member function cannot have 'const' qualifier}}
void foo2() volatile {} // expected-error {{non-member function cannot have 'volatile' qualifier}}
void foo3() const volatile {} // expected-error {{non-member function cannot have 'const volatile' qualifier}}

struct S { void f(int, char); };
int itsAComma,
itsAComma2 = 0,
oopsAComma(42), // expected-error {{expected ';' at end of declaration}}
AD oopsMoreCommas() {
  static int n = 0, // expected-error {{expected ';' at end of declaration}}
  static char c,
  &d = c, // expected-error {{expected ';' at end of declaration}}
  S s, // expected-error {{expected ';' at end of declaration}}
  s.f(n, d);
  AD ad, // expected-error {{expected ';' at end of declaration}}
  return ad;
}
struct MoreAccidentalCommas {
  int a : 5,
      b : 7,
        : 4, // expected-error {{expected ';' at end of declaration}}
  char c, // expected-error {{expected ';' at end of declaration}}
  double d, // expected-error {{expected ';' at end of declaration}}
  MoreAccidentalCommas *next, // expected-error {{expected ';' at end of declaration}}
public:
  int k, // expected-error {{expected ';' at end of declaration}}
  friend void f(MoreAccidentalCommas) {}
  int k2, // expected-error {{expected ';' at end of declaration}}
  virtual void g(), // expected-error {{expected ';' at end of declaration}}
};

template<class T> struct Mystery;
template<class T> typedef Mystery<T>::type getMysteriousThing() { // \
  expected-error {{function definition declared 'typedef'}} \
  expected-error {{missing 'typename' prior to dependent}}
  return Mystery<T>::get();
}

template<template<typename> Foo, // expected-error {{template template parameter requires 'class' after the parameter list}}
         template<typename> typename Bar, // expected-warning {{template template parameter using 'typename' is a C++1z extension}}
         template<typename> struct Baz> // expected-error {{template template parameter requires 'class' after the parameter list}}
void func();

namespace ShadowedTagType {
class Foo {
 public:
  enum Bar { X, Y };
  void SetBar(Bar bar);
  Bar Bar(); // expected-note 2 {{enum 'Bar' is hidden by a non-type declaration of 'Bar' here}}
 private:
  Bar bar_; // expected-error {{must use 'enum' tag to refer to type 'Bar' in this scope}}
};
void Foo::SetBar(Bar bar) { bar_ = bar; } // expected-error {{must use 'enum' tag to refer to type 'Bar' in this scope}}
}

#define NULL __null
char c = NULL; // expected-warning {{implicit conversion of NULL constant to 'char'}}
double dbl = NULL; // expected-warning {{implicit conversion of NULL constant to 'double'}}

namespace arrow_suggest {

template <typename T>
class wrapped_ptr {
 public:
  wrapped_ptr(T* ptr) : ptr_(ptr) {}
  T* operator->() { return ptr_; }
 private:
  T *ptr_;
};

class Worker {
 public:
  void DoSomething();
};

void test() {
  wrapped_ptr<Worker> worker(new Worker);
  worker.DoSomething(); // expected-error {{no member named 'DoSomething' in 'arrow_suggest::wrapped_ptr<arrow_suggest::Worker>'; did you mean to use '->' instead of '.'?}}
}

} // namespace arrow_suggest

// Make sure fixing namespace-qualified identifiers functions properly with
// namespace-aware typo correction/
namespace redecl_typo {
namespace Foo {
  void BeEvil(); // expected-note {{'BeEvil' declared here}}
}
namespace Bar {
  namespace Foo {
    bool isGood(); // expected-note {{'Bar::Foo::isGood' declared here}}
    void beEvil();
  }
}
bool Foo::isGood() { // expected-error {{out-of-line definition of 'isGood' does not match any declaration in namespace 'redecl_typo::Foo'; did you mean 'Bar::Foo::isGood'?}}
  return true;
}
void Foo::beEvil() {} // expected-error {{out-of-line definition of 'beEvil' does not match any declaration in namespace 'redecl_typo::Foo'; did you mean 'BeEvil'?}}
}

// Test behavior when a template-id is ended by a token which starts with '>'.
namespace greatergreater {
  template<typename T> struct S { S(); S(T); };
  void f(S<int>=0); // expected-error {{a space is required between a right angle bracket and an equals sign (use '> =')}}

  // FIXME: The fix-its here overlap so -fixit mode can't apply the second one.
  //void f(S<S<int>>=S<int>());

  struct Shr {
    template<typename T> Shr(T);
    template<typename T> void operator >>=(T);
  };

  template<template<typename>> struct TemplateTemplateParam; // expected-error {{requires 'class'}}

  template<typename T> void t();
  void g() {
    void (*p)() = &t<int>;
    (void)(&t<int>==p); // expected-error {{use '> ='}}
    (void)(&t<int>>=p); // expected-error {{use '> >'}}
    (void)(&t<S<int>>>=p); // expected-error {{use '> >'}}
    (Shr)&t<S<int>>>>=p; // expected-error {{use '> >'}}

    // FIXME: We correct this to '&t<int> > >= p;' not '&t<int> >>= p;'
    //(Shr)&t<int>>>=p;

    // FIXME: The fix-its here overlap.
    //(void)(&t<S<int>>==p);
  }
}

class foo {
  static void test() {
    (void)&i; // expected-error{{must explicitly qualify name of member function when taking its address}}
  }
  int i();
};

namespace dtor_fixit {
  class foo {
    ~bar() { }  // expected-error {{expected the class name after '~' to name a destructor}}
    // CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:6-[[@LINE-1]]:9}:"foo"
  };

  class bar {
    ~bar();
  };
  ~bar::bar() {} // expected-error {{'~' in destructor name should be after nested name specifier}}
  // CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:3-[[@LINE-1]]:4}:""
  // CHECK: fix-it:"{{.*}}":{[[@LINE-2]]:9-[[@LINE-2]]:9}:"~"
}

namespace PR5066 {
  template<typename T> struct X {};
  X<int *p> x; // expected-error {{type-id cannot have a name}}
}

namespace PR5898 {
  class A {
  public:
    const char *str();
  };
  const char* foo(A &x)
  {
    return x.str.();  // expected-error {{unexpected '.' in function call; perhaps remove the '.'?}}
  }
  bool bar(A x, const char *y) {
    return foo->(x) == y;  // expected-error {{unexpected '->' in function call; perhaps remove the '->'?}}
  }
}

namespace PR15045 {
  class Cl0 {
  public:
    int a;
  };

  int f() {
    Cl0 c;
    return c->a;  // expected-error {{member reference type 'PR15045::Cl0' is not a pointer; did you mean to use '.'?}}
  }
}

namespace curly_after_base_clause {
struct A { void f(); };
struct B : A // expected-error{{expected '{' after base class list}}
  // CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:13-[[@LINE-1]]:13}:" {"
  int i;
};
struct C : A // expected-error{{expected '{' after base class list}}
  // CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:13-[[@LINE-1]]:13}:" {"
  using A::f;
};
struct D : A // expected-error{{expected '{' after base class list}}
  // CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:13-[[@LINE-1]]:13}:" {"
    protected:
};
struct E : A  // expected-error{{expected '{' after base class list}}
  // CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:13-[[@LINE-1]]:13}:" {"
  template<typename T> struct inner { };
};
struct F : A  // expected-error{{expected '{' after base class list}}
  // CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:13-[[@LINE-1]]:13}:" {"
  F() { }
};
#if __cplusplus >= 201103L
struct G : A  // expected-error{{expected '{' after base class list}}
  // CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:13-[[@LINE-1]]:13}:" {"
  constexpr G(int) { }
};
struct H : A  // expected-error{{expected '{' after base class list}}
  // CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:13-[[@LINE-1]]:13}:" {"
  static_assert(true, "");
};
#endif
}

struct conversion_operator {
  conversion_operator::* const operator int(); // expected-error {{put the complete type after 'operator'}}
  // CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:3-[[@LINE-1]]:32}:""
  // CHECK: fix-it:"{{.*}}":{[[@LINE-2]]:44-[[@LINE-2]]:44}:" conversion_operator::* const"
};

struct const_zero_init {
  int a;
};
const const_zero_init czi; // expected-error {{default initialization of an object of const type 'const const_zero_init'}}
// CHECK: fix-it:"{{.*}}":{[[@LINE-1]]:26-[[@LINE-1]]:26}:"{}"
int use_czi = czi.a;