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# C++ language checks
AC_DEFUN(AC_CXX_STDHEADERS, [
AC_SUBST(cxx_have_stdheaders)
AC_MSG_CHECKING(whether C++ supports the ISO C++ standard includes)
AC_LANG_SAVE
AC_LANG_CPLUSPLUS
AC_TRY_COMPILE([#include <iostream>],[std::ostream *o; return 0;],
db_cv_cxx_have_stdheaders=yes, db_cv_cxx_have_stdheaders=no)
AC_LANG_RESTORE
AC_MSG_RESULT($db_cv_cxx_have_stdheaders)
if test "$db_cv_cxx_have_stdheaders" = yes; then
cxx_have_stdheaders="#define HAVE_CXX_STDHEADERS 1"
fi])
AC_DEFUN(AC_CXX_WSTRING, [
AC_MSG_CHECKING(whether C++ supports the wstring class)
AC_SUBST(WSTRING_decl)
AC_LANG_SAVE
AC_LANG_CPLUSPLUS
AC_LINK_IFELSE(AC_LANG_PROGRAM([#include <string>
using std::wstring;],
[wstring ws; ws.find_first_of(ws);]),
[WSTRING_decl="#define HAVE_WSTRING 1" ;
AC_MSG_RESULT(yes)],
[WSTRING_decl="#undef HAVE_WSTRING" ;
AC_MSG_RESULT(no)])
AC_LANG_RESTORE
])
AC_DEFUN(AC_CXX_SUPPORTS_TEMPLATES, [
AC_MSG_CHECKING(whether the C++ compiler supports templates for STL)
AC_LANG_SAVE
AC_LANG_CPLUSPLUS
AC_TRY_COMPILE([#include <iostream>
#include <string>
#include <vector>
using std::string;
using std::vector;
namespace dbstl_configure_test {
template<typename T1, typename T2 = int>
class MyClass
{
public:
explicit MyClass(int i) { imem = i;}
MyClass(const T1& t1, const T2& t2, int i)
{
mem1 = t1;
mem2 = t2;
imem = i;
}
template <typename T3>
T2 templ_mem_func(T1 t1, T3 t3)
{
mem2 = t1;
T3 t32 = t3;
T2 t2;
return t2;
}
double templ_mem_func(T1 t1, double t3)
{
mem1 = t1;
double t32 = t3;
return t3;
}
template <typename ReturnType, typename T7, typename T8>
ReturnType templ_mem_func(T7, T8);
operator T1() const {return mem1;}
private:
T1 mem1;
T2 mem2;
int imem;
};
template<typename T1, typename T2>
template <typename ReturnType, typename T7, typename T8>
ReturnType MyClass<T1, T2>::templ_mem_func(T7, T8)
{
ReturnType rt;
return rt;
}
template<>
class MyClass<double, float>
{
public:
explicit MyClass(int i) { imem = i;}
MyClass(const double& t1, const float& t2, int i)
{
mem1 = t1;
mem2 = t2;
imem = i;
}
template <typename T3>
float templ_mem_func(double t1, T3 t3)
{
mem2 = t1;
T3 t32 = t3;
float t2;
return t2;
}
double templ_mem_func(double t1, double t3)
{
mem1 = t1;
double t32 = t3;
return t3;
}
template <typename ReturnType, typename T7, typename T8>
ReturnType templ_mem_func(T7, T8);
operator double() const {return mem1;}
private:
double mem1;
float mem2;
int imem;
};
template <typename ReturnType, typename T7, typename T8>
ReturnType MyClass<double, float>::templ_mem_func(T7, T8)
{
ReturnType rt;
return rt;
}
template <typename T1, typename T2>
class MyClass2 {
public:
MyClass2(const T1& t1, const T2&t2){}
};
// partial specialization: both template parameters have same type
template <typename T>
class MyClass2<T,T> {
public:
MyClass2(const T& t1, const T&t2){}
};
// partial specialization: second type is int
template <typename T>
class MyClass2<T,int> {
public:
MyClass2(const T& t1, const int&t2){}
};
// partial specialization: both template parameters are pointer types
template <typename T1, typename T2>
class MyClass2<T1*,T2*> {
public:
MyClass2(const T1* t1, const T2*t2){}
};
template <typename T>
class MyClass2<T*,T*> {
public:
MyClass2(const T* t1, const T*t2){}
};
template <typename T4, typename T5>
int part_spec_func(T4 t4, T5 t5)
{
// Zero Initialization should work.
T4 t44 = T4();
T5 t55 = T5();
t44 = t4;
t55 = t5;
}
template <typename T4>
int part_spec_func(T4 t4, std::vector<T4> t55)
{
T4 t44 = t4;
std::vector<T4> abc = t55;
}
// maximum of two int values
inline int const& max (int const& a, int const& b)
{
return a<b?b:a;
}
// maximum of two values of any type
template <typename T1, typename T2>
inline T2 const max (T1 const& a, T2 const& b)
{
return a<b?b:a;
}
// maximum of two values of any type
template <typename T>
inline T const& max (T const& a, T const& b)
{
return a<b?b:a;
}
// maximum of three values of any type
template <typename T>
inline T const& max (T const& a, T const& b, T const& c)
{
return max (max(a,b), c);
}
template <typename T>
class Base {
public:
void exit2(){}
Base(){}
};
template <typename T>
class Derived : public Base<T> {
public:
// Call Base<T>() explicitly here, otherwise can't access it.
// Kind of like this->.
Derived() : Base<T>(){}
void foo() {
this->exit2();
}
};
} // dbstl_configure_test
using namespace dbstl_configure_test;], [
char cc = 'a';
int i = 4;
double pi = 3.14;
float gold = 0.618;
MyClass2<int,float> mif(i, gold); // uses MyClass2<T1,T2>
MyClass2<float,float> mff(gold, gold); // uses MyClass2<T,T>
MyClass2<float,int> mfi(gold, i); // uses MyClass2<T,int>
MyClass2<int*,float*> mp(&i, &gold); // uses MyClass2<T1*,T2*>
MyClass2<int*,int*> m(&i, &i); // uses MyClass2<T*, T*>
MyClass<char> obj1(i);
obj1.templ_mem_func(cc, pi);
obj1.templ_mem_func(cc, gold);
obj1.templ_mem_func(i, pi);
obj1.templ_mem_func(cc, cc);
char ch = (char)obj1;
string str1("abc"), str2("def");
MyClass<const char*, std::string> obj2(str1.c_str(), str2, i);
obj2.templ_mem_func("klm", str2);
obj2.templ_mem_func("hij", pi);
// Use j to help distinguish, otherwise unable to use the one defined
// outside of class body.
int j = obj2.templ_mem_func<int, char, char>(cc, cc);
// Call explicitly.
obj2.templ_mem_func<int, float, double>(gold, pi);
const char *pch = (const char*)obj2;
MyClass<double, float> obj3(pi, gold, i);
obj3.templ_mem_func(pi, i);
obj3.templ_mem_func(pi, str1);
obj3.templ_mem_func(pi, pi);
obj3.templ_mem_func(cc, pi);
obj3.templ_mem_func(cc, cc);
double tmpd = (double)obj3;
MyClass<double, float> obj4(i);
obj4.templ_mem_func(pi, i);
obj4.templ_mem_func(pi, str1);
obj4.templ_mem_func(pi, pi);
obj4.templ_mem_func(gold, pi);
tmpd = (double)obj4;
// Function template partial specialization.
part_spec_func(pi, gold);
part_spec_func(gold, i);
part_spec_func(str1, str2);
std::vector<std::string> strv;
part_spec_func(str1, strv);
std::vector<double> dblv;
part_spec_func(pi, dblv);
// Function template overloads and explicit call and deduction.
dbstl_configure_test::max(7, 42, 68); // calls the template for three arguments
dbstl_configure_test::max(7.0, 42.0); // calls max<double> (by argument deduction)
dbstl_configure_test::max('a', 'b'); // calls max<char> (by argument deduction)
dbstl_configure_test::max(7, 42.0);
dbstl_configure_test::max<double>(4,4.2); // instantiate T as double
dbstl_configure_test::max(7, 42); // calls the nontemplate for two ints
dbstl_configure_test::max<>(7, 42); // calls max<int> (by argument deduction)
dbstl_configure_test::max<double, double>(7, 42); // calls max<double> (no argument deduction)
dbstl_configure_test::max('a', 42.7); // calls the nontemplate for two ints
Base<double> bobj;
bobj.exit2();
// Using this-> to access base class members.
Derived<double> dobj;
dobj.foo();
dobj.exit2();
], AC_MSG_RESULT(yes), AC_MSG_ERROR(no))
AC_LANG_RESTORE
])
|
