path: root/test/SemaTemplate/temp_arg_nontype.cpp

// RUN: %clang_cc1 -fsyntax-only -std=c++98 -Wconversion -verify %s
template<int N> struct A; // expected-note 5{{template parameter is declared here}}

A<0> *a0;

A<int()> *a1; // expected-error{{template argument for non-type template parameter is treated as type 'int ()'}}

A<int> *a2; // expected-error{{template argument for non-type template parameter must be an expression}}

A<1 >> 2> *a3; // expected-warning{{use of right-shift operator ('>>') in template argument will require parentheses in C++11}}

// C++ [temp.arg.nontype]p5:
A<A> *a4; // expected-error{{must be an expression}}

enum E { Enumerator = 17 };
A<E> *a5; // expected-error{{template argument for non-type template parameter must be an expression}}
template<E Value> struct A1; // expected-note{{template parameter is declared here}}
A1<Enumerator> *a6; // okay
A1<17> *a7; // expected-error{{non-type template argument of type 'int' cannot be converted to a value of type 'E'}}

const long LongValue = 12345678;
A<LongValue> *a8;
const short ShortValue = 17;
A<ShortValue> *a9;

int f(int);
A<f(17)> *a10; // expected-error{{non-type template argument of type 'int' is not an integral constant expression}}

class X {
public:
  X();
  X(int, int);
  operator int() const;
};
A<X(17, 42)> *a11; // expected-error{{non-type template argument of type 'X' must have an integral or enumeration type}}

float f(float);

float g(float); // expected-note 2{{candidate function}}
double g(double); // expected-note 2{{candidate function}}

int h(int);
float h2(float);

template<int fp(int)> struct A3; // expected-note 1{{template parameter is declared here}}
A3<h> *a14_1;
A3<&h> *a14_2;
A3<f> *a14_3;
A3<&f> *a14_4;
A3<h2> *a14_6;  // expected-error{{non-type template argument of type 'float (float)' cannot be converted to a value of type 'int (*)(int)'}}
A3<g> *a14_7; // expected-error{{address of overloaded function 'g' does not match required type 'int (int)'}}


struct Y { } y;

volatile X * X_volatile_ptr;
template<X const &AnX> struct A4; // expected-note 2{{template parameter is declared here}}
X an_X;
A4<an_X> *a15_1; // okay
A4<*X_volatile_ptr> *a15_2; // expected-error{{non-type template argument does not refer to any declaration}}
A4<y> *15_3; //  expected-error{{non-type template parameter of reference type 'const X &' cannot bind to template argument of type 'struct Y'}} \
            // FIXME: expected-error{{expected unqualified-id}}

template<int (&fr)(int)> struct A5; // expected-note{{template parameter is declared here}}
A5<h> *a16_1;
A5<f> *a16_3;
A5<h2> *a16_6;  // expected-error{{non-type template parameter of reference type 'int (&)(int)' cannot bind to template argument of type 'float (float)'}}
A5<g> *a14_7; // expected-error{{address of overloaded function 'g' does not match required type 'int (int)'}}

struct Z {
  int foo(int);
  float bar(float);
  int bar(int);
  double baz(double);

  int int_member;
  float float_member;
};
template<int (Z::*pmf)(int)> struct A6; // expected-note{{template parameter is declared here}}
A6<&Z::foo> *a17_1;
A6<&Z::bar> *a17_2;
A6<&Z::baz> *a17_3; // expected-error{{non-type template argument of type 'double (Z::*)(double)' cannot be converted to a value of type 'int (Z::*)(int)'}}


template<int Z::*pm> struct A7;  // expected-note{{template parameter is declared here}}
template<int Z::*pm> struct A7c;
A7<&Z::int_member> *a18_1;
A7c<&Z::int_member> *a18_2;
A7<&Z::float_member> *a18_3; // expected-error{{non-type template argument of type 'float Z::*' cannot be converted to a value of type 'int Z::*'}}
A7c<(&Z::int_member)> *a18_4; // expected-warning{{address non-type template argument cannot be surrounded by parentheses}}

template<unsigned char C> struct Overflow; // expected-note{{template parameter is declared here}}

Overflow<5> *overflow1; // okay
Overflow<255> *overflow2; // okay
Overflow<256> *overflow3; // expected-warning{{non-type template argument value '256' truncated to '0' for template parameter of type 'unsigned char'}}


template<unsigned> struct Signedness; // expected-note{{template parameter is declared here}}
Signedness<10> *signedness1; // okay
Signedness<-10> *signedness2; // expected-warning{{non-type template argument with value '-10' converted to '4294967286' for unsigned template parameter of type 'unsigned int'}}

template<signed char C> struct SignedOverflow; // expected-note 3 {{template parameter is declared here}}
SignedOverflow<1> *signedoverflow1;
SignedOverflow<-1> *signedoverflow2;
SignedOverflow<-128> *signedoverflow3;
SignedOverflow<-129> *signedoverflow4; // expected-warning{{non-type template argument value '-129' truncated to '127' for template parameter of type 'signed char'}}
SignedOverflow<127> *signedoverflow5;
SignedOverflow<128> *signedoverflow6; // expected-warning{{non-type template argument value '128' truncated to '-128' for template parameter of type 'signed char'}}
SignedOverflow<(unsigned char)128> *signedoverflow7; // expected-warning{{non-type template argument value '128' truncated to '-128' for template parameter of type 'signed char'}}

// Check canonicalization of template arguments.
template<int (*)(int, int)> struct FuncPtr0;
int func0(int, int);
extern FuncPtr0<&func0> *fp0;
template<int (*)(int, int)> struct FuncPtr0;
extern FuncPtr0<&func0> *fp0;
int func0(int, int);
extern FuncPtr0<&func0> *fp0;

// PR5350
namespace ns {
  template <typename T>
  struct Foo {
    static const bool value = true;
  };
  
  template <bool b>
  struct Bar {};
  
  const bool value = false;
  
  Bar<bool(ns::Foo<int>::value)> x;
}

// PR5349
namespace ns {
  enum E { k };
  
  template <E e>
  struct Baz  {};
  
  Baz<k> f1;  // This works.
  Baz<E(0)> f2;  // This too.
  Baz<static_cast<E>(0)> f3;  // And this.
  
  Baz<ns::E(0)> b1;  // This doesn't work.
  Baz<static_cast<ns::E>(0)> b2;  // This neither.  
}

// PR5597
template<int (*)(float)> struct X0 { };

struct X1 {
    static int pfunc(float);
};
void test_X0_X1() {
  X0<X1::pfunc> x01;
}

// PR6249
namespace pr6249 {
  template<typename T, T (*func)()> T f() {
    return func();
  }

  int h();
  template int f<int, h>();
}

namespace PR6723 {
  template<unsigned char C> void f(int (&a)[C]); // expected-note {{candidate template ignored}} \
  // expected-note{{substitution failure [with C = '\x00']}}
  void g() {
    int arr512[512];
    f(arr512); // expected-error{{no matching function for call}}
    f<512>(arr512); // expected-error{{no matching function for call}}
  }
}

// Check that we instantiate declarations whose addresses are taken
// for non-type template arguments.
namespace EntityReferenced {
  template<typename T, void (*)(T)> struct X { };

  template<typename T>
  struct Y {
    static void f(T x) { 
      x = 1; // expected-error{{assigning to 'int *' from incompatible type 'int'}}
    }
  };

  void g() {
    typedef X<int*, Y<int*>::f> x; // expected-note{{in instantiation of}}
  }
}

namespace PR6964 {
  template <typename ,int, int = 9223372036854775807L > // expected-warning 2{{non-type template argument value '9223372036854775807' truncated to '-1' for template parameter of type 'int'}} \
  // expected-note 2{{template parameter is declared here}}
  struct as_nview { };

  template <typename Sequence, int I0> 
  struct as_nview<Sequence, I0>  // expected-note{{while checking a default template argument used here}}
  { };
}

// rdar://problem/8302138
namespace test8 {
  template <int* ip> struct A {
    int* p;
    A() : p(ip) {}
  };

  void test0() {
    extern int i00;
    A<&i00> a00;
  }

  extern int i01;
  void test1() {
    A<&i01> a01;
  }


  struct C {
    int x;
    char y;
    double z;
  };
  
  template <C* cp> struct B {
    C* p;
    B() : p(cp) {}
  };

  void test2() {
    extern C c02;
    B<&c02> b02;
  }

  extern C c03;
  void test3() {
    B<&c03> b03;
  }
}

namespace PR8372 {
  template <int I> void foo() { } // expected-note{{template parameter is declared here}}
  void bar() { foo <0x80000000> (); } // expected-warning{{non-type template argument value '2147483648' truncated to '-2147483648' for template parameter of type 'int'}}
}

namespace PR9227 {
  template <bool B> struct enable_if_bool { };
  template <> struct enable_if_bool<true> { typedef int type; };
  void test_bool() { enable_if_bool<false>::type i; } // expected-error{{enable_if_bool<false>}}

  template <char C> struct enable_if_char { };
  template <> struct enable_if_char<'a'> { typedef int type; };
  void test_char_0() { enable_if_char<0>::type i; } // expected-error{{enable_if_char<'\x00'>}}
  void test_char_b() { enable_if_char<'b'>::type i; } // expected-error{{enable_if_char<'b'>}}
  void test_char_possibly_negative() { enable_if_char<'\x02'>::type i; } // expected-error{{enable_if_char<'\x02'>}}
  void test_char_single_quote() { enable_if_char<'\''>::type i; } // expected-error{{enable_if_char<'\''>}}
  void test_char_backslash() { enable_if_char<'\\'>::type i; } // expected-error{{enable_if_char<'\\'>}}
}

namespace PR10579 {
  namespace fcppt
  {
    namespace container
    {
      namespace bitfield
      {

        template<
          typename Enum,
          Enum Size
          >
        class basic;

        template<
          typename Enum,
          Enum Size
          >
        class basic
        {
        public:
          basic()
          {
          }
        };

      }
    }
  }

  namespace
  {

    namespace testenum
    {
      enum type
        {
          foo,
          bar,
          size
        };
    }

  }

  int main()
  {
    typedef fcppt::container::bitfield::basic<
    testenum::type,
      testenum::size
      > bitfield_foo;

    bitfield_foo obj;
  }

}

template <int& I> struct PR10766 { static int *ip; };
template <int& I> int* PR10766<I>::ip = &I;