sources/android/stlport/test/unit/mfunptr_test.cpp - platform/ndk - Git at Google

 #include <functional>
 #include <memory>
 #include <vector>
 #include <algorithm>

 #include "cppunit/cppunit_proxy.h"

 #if !defined (STLPORT) || defined(_STLP_USE_NAMESPACES)
 using namespace std;
 #endif

 //
 // TestCase class
 //
 class MemFunPtrTest : public CPPUNIT_NS::TestCase
 {
   CPPUNIT_TEST_SUITE(MemFunPtrTest);
   CPPUNIT_TEST(mem_ptr_fun);
 #if defined (STLPORT) && !defined (_STLP_CLASS_PARTIAL_SPECIALIZATION)
   //This test require partial template specialization feature to avoid the
   //reference to reference problem. No workaround yet for limited compilers.
   CPPUNIT_IGNORE;
 #endif
   CPPUNIT_TEST(find);
   CPPUNIT_TEST_SUITE_END();

 protected:
   // compile test not neccessary to run but...
   void mem_ptr_fun();
   void find();
 };

 CPPUNIT_TEST_SUITE_REGISTRATION(MemFunPtrTest);

 #if defined(_STLP_DONT_RETURN_VOID) && (defined(_STLP_NO_MEMBER_TEMPLATE_CLASSES) && defined(_STLP_NO_CLASS_PARTIAL_SPECIALIZATION))
 #  define _STLP_DONT_TEST_RETURN_VOID
 #endif
 //else there is no workaround for the return void bug

 struct S1 { } s1;
 struct S2 { } s2;

 int f1(S1&);
 int f2(S1&, S2&);
 int f1c(const S1&);
 int f2c(const S1&, const S2&);

 void vf1(S1&);
 void vf2(S1&, S2&);
 void vf1c(const S1&);
 void vf2c(const S1&, const S2&);

 class Class {
 public:
   int f0();
   int f1(const S1&);

   void vf0();
   void vf1(const S1&);

   int f0c() const;
   int f1c(const S1&) const;

   void vf0c() const;
   void vf1c(const S1&) const;
 };

 //
 // tests implementation
 //
 void MemFunPtrTest::mem_ptr_fun()
 {
   Class obj;
   const Class& objc = obj;

   // ptr_fun

   ptr_fun(f1)(s1);
   ptr_fun(f2)(s1, s2);

   ptr_fun(f1c)(s1);
   ptr_fun(f2c)(s1, s2);

 #ifndef _STLP_DONT_TEST_RETURN_VOID
   ptr_fun(vf1)(s1);
   ptr_fun(vf2)(s1, s2);

   ptr_fun(vf1c)(s1);
   ptr_fun(vf2c)(s1, s2);
 #endif /* _STLP_DONT_TEST_RETURN_VOID */

   // mem_fun

   mem_fun(&Class::f0)(&obj);
   mem_fun(&Class::f1)(&obj, s1);

 #ifndef _STLP_DONT_TEST_RETURN_VOID
   mem_fun(&Class::vf0)(&obj);
   mem_fun(&Class::vf1)(&obj, s1);
 #endif /* _STLP_DONT_TEST_RETURN_VOID */

   // mem_fun (const)

   mem_fun(&Class::f0c)(&objc);
   mem_fun(&Class::f1c)(&objc, s1);

 #ifndef _STLP_DONT_TEST_RETURN_VOID
   mem_fun(&Class::vf0c)(&objc);
   mem_fun(&Class::vf1c)(&objc, s1);
 #endif /* _STLP_DONT_TEST_RETURN_VOID */

   // mem_fun_ref

   mem_fun_ref(&Class::f0)(obj);
   mem_fun_ref(&Class::f1)(obj, s1);

 #ifndef _STLP_DONT_TEST_RETURN_VOID
   mem_fun_ref(&Class::vf0)(obj);
   mem_fun_ref(&Class::vf1)(obj, s1);
 #endif /* _STLP_DONT_TEST_RETURN_VOID */

   // mem_fun_ref (const)
   mem_fun_ref(&Class::f0c)(objc);
   mem_fun_ref(&Class::f1c)(objc, s1);

 #ifndef _STLP_DONT_TEST_RETURN_VOID
   mem_fun_ref(&Class::vf0c)(objc);
   mem_fun_ref(&Class::vf1c)(objc, s1);
 #endif /* _STLP_DONT_TEST_RETURN_VOID */
 }
 int f1(S1&)
 {return 1;}

 int f2(S1&, S2&)
 {return 2;}

 int f1c(const S1&)
 {return 1;}

 int f2c(const S1&, const S2&)
 {return 2;}

 void vf1(S1&)
 {}

 void vf2(S1&, S2&)
 {}

 void vf1c(const S1&)
 {}

 void vf2c(const S1&, const S2&)
 {}

 int Class::f0()
 {return 0;}

 int Class::f1(const S1&)
 {return 1;}

 void Class::vf0()
 {}

 void Class::vf1(const S1&)
 {}

 int Class::f0c() const
 {return 0;}

 int Class::f1c(const S1&) const
 {return 1;}

 void Class::vf0c() const
 {}

 void Class::vf1c(const S1&) const
 {}

 struct V {
   public:
     V(int _v) :
       v(_v)
     { }

   bool f( int _v ) const { return (v == _v); }

   int v;
 #if defined (__DMC__)
   V(){}
 #endif
 };

 void MemFunPtrTest::find()
 {
 #if !defined (STLPORT) || defined (_STLP_CLASS_PARTIAL_SPECIALIZATION)
   vector<V> v;

   v.push_back( V(1) );
   v.push_back( V(2) );
   v.push_back( V(3) );

   // step-by-step complication of work for compiler:

   // step 1:
   const_mem_fun1_ref_t<bool,V,int> pmf = mem_fun_ref( &V::f );
   binder2nd<const_mem_fun1_ref_t<bool,V,int> > b(pmf, 2);
   vector<V>::iterator i = find_if( v.begin(), v.end(), b );
   CPPUNIT_ASSERT(i != v.end());
   CPPUNIT_ASSERT(i->v == 2);

   // step 2, just check that compiler understand what pass to bind2nd:
   binder2nd<const_mem_fun1_ref_t<bool,V,int> > b2 = bind2nd( pmf, 2 );

   // step 3, the same as step 1, but more intellect from compiler required:
   binder2nd<const_mem_fun1_ref_t<bool,V,int> > b3 = bind2nd( mem_fun_ref( &V::f ), 2 );

   vector<V>::iterator j = find_if( v.begin(), v.end(), b3 );
   CPPUNIT_ASSERT(j != v.end());
   CPPUNIT_ASSERT(j->v == 2);

   // step 4, more brief, more complex:
   vector<V>::iterator k = find_if( v.begin(), v.end(), bind2nd( mem_fun_ref( &V::f ), 2 ) );
   CPPUNIT_ASSERT(k != v.end());
   CPPUNIT_ASSERT(k->v == 2);
 #endif
 }

 #ifdef _STLP_DONT_TEST_RETURN_VOID
 #  undef _STLP_DONT_TEST_RETURN_VOID
 #endif
	#include <functional>
	#include <memory>
	#include <vector>
	#include <algorithm>

	#include "cppunit/cppunit_proxy.h"

	#if !defined (STLPORT) \|\| defined(_STLP_USE_NAMESPACES)
	using namespace std;
	#endif

	//
	// TestCase class
	//
	class MemFunPtrTest : public CPPUNIT_NS::TestCase
	{
	CPPUNIT_TEST_SUITE(MemFunPtrTest);
	CPPUNIT_TEST(mem_ptr_fun);
	#if defined (STLPORT) && !defined (_STLP_CLASS_PARTIAL_SPECIALIZATION)
	//This test require partial template specialization feature to avoid the
	//reference to reference problem. No workaround yet for limited compilers.
	CPPUNIT_IGNORE;
	#endif
	CPPUNIT_TEST(find);
	CPPUNIT_TEST_SUITE_END();

	protected:
	// compile test not neccessary to run but...
	void mem_ptr_fun();
	void find();
	};

	CPPUNIT_TEST_SUITE_REGISTRATION(MemFunPtrTest);

	#if defined(_STLP_DONT_RETURN_VOID) && (defined(_STLP_NO_MEMBER_TEMPLATE_CLASSES) && defined(_STLP_NO_CLASS_PARTIAL_SPECIALIZATION))
	# define _STLP_DONT_TEST_RETURN_VOID
	#endif
	//else there is no workaround for the return void bug

	struct S1 { } s1;
	struct S2 { } s2;

	int f1(S1&);
	int f2(S1&, S2&);
	int f1c(const S1&);
	int f2c(const S1&, const S2&);

	void vf1(S1&);
	void vf2(S1&, S2&);
	void vf1c(const S1&);
	void vf2c(const S1&, const S2&);

	class Class {
	public:
	int f0();
	int f1(const S1&);

	void vf0();
	void vf1(const S1&);

	int f0c() const;
	int f1c(const S1&) const;

	void vf0c() const;
	void vf1c(const S1&) const;
	};

	//
	// tests implementation
	//
	void MemFunPtrTest::mem_ptr_fun()
	{
	Class obj;
	const Class& objc = obj;

	// ptr_fun

	ptr_fun(f1)(s1);
	ptr_fun(f2)(s1, s2);

	ptr_fun(f1c)(s1);
	ptr_fun(f2c)(s1, s2);

	#ifndef _STLP_DONT_TEST_RETURN_VOID
	ptr_fun(vf1)(s1);
	ptr_fun(vf2)(s1, s2);

	ptr_fun(vf1c)(s1);
	ptr_fun(vf2c)(s1, s2);
	#endif /* _STLP_DONT_TEST_RETURN_VOID */

	// mem_fun

	mem_fun(&Class::f0)(&obj);
	mem_fun(&Class::f1)(&obj, s1);

	#ifndef _STLP_DONT_TEST_RETURN_VOID
	mem_fun(&Class::vf0)(&obj);
	mem_fun(&Class::vf1)(&obj, s1);
	#endif /* _STLP_DONT_TEST_RETURN_VOID */

	// mem_fun (const)

	mem_fun(&Class::f0c)(&objc);
	mem_fun(&Class::f1c)(&objc, s1);

	#ifndef _STLP_DONT_TEST_RETURN_VOID
	mem_fun(&Class::vf0c)(&objc);
	mem_fun(&Class::vf1c)(&objc, s1);
	#endif /* _STLP_DONT_TEST_RETURN_VOID */

	// mem_fun_ref

	mem_fun_ref(&Class::f0)(obj);
	mem_fun_ref(&Class::f1)(obj, s1);

	#ifndef _STLP_DONT_TEST_RETURN_VOID
	mem_fun_ref(&Class::vf0)(obj);
	mem_fun_ref(&Class::vf1)(obj, s1);
	#endif /* _STLP_DONT_TEST_RETURN_VOID */

	// mem_fun_ref (const)
	mem_fun_ref(&Class::f0c)(objc);
	mem_fun_ref(&Class::f1c)(objc, s1);

	#ifndef _STLP_DONT_TEST_RETURN_VOID
	mem_fun_ref(&Class::vf0c)(objc);
	mem_fun_ref(&Class::vf1c)(objc, s1);
	#endif /* _STLP_DONT_TEST_RETURN_VOID */
	}
	int f1(S1&)
	{return 1;}

	int f2(S1&, S2&)
	{return 2;}

	int f1c(const S1&)
	{return 1;}

	int f2c(const S1&, const S2&)
	{return 2;}

	void vf1(S1&)
	{}

	void vf2(S1&, S2&)
	{}

	void vf1c(const S1&)
	{}

	void vf2c(const S1&, const S2&)
	{}

	int Class::f0()
	{return 0;}

	int Class::f1(const S1&)
	{return 1;}

	void Class::vf0()
	{}

	void Class::vf1(const S1&)
	{}

	int Class::f0c() const
	{return 0;}

	int Class::f1c(const S1&) const
	{return 1;}

	void Class::vf0c() const
	{}

	void Class::vf1c(const S1&) const
	{}

	struct V {
	public:
	V(int _v) :
	v(_v)
	{ }

	bool f( int _v ) const { return (v == _v); }

	int v;
	#if defined (__DMC__)
	V(){}
	#endif
	};

	void MemFunPtrTest::find()
	{
	#if !defined (STLPORT) \|\| defined (_STLP_CLASS_PARTIAL_SPECIALIZATION)
	vector<V> v;

	v.push_back( V(1) );
	v.push_back( V(2) );
	v.push_back( V(3) );

	// step-by-step complication of work for compiler:

	// step 1:
	const_mem_fun1_ref_t<bool,V,int> pmf = mem_fun_ref( &V::f );
	binder2nd<const_mem_fun1_ref_t<bool,V,int> > b(pmf, 2);
	vector<V>::iterator i = find_if( v.begin(), v.end(), b );
	CPPUNIT_ASSERT(i != v.end());
	CPPUNIT_ASSERT(i->v == 2);

	// step 2, just check that compiler understand what pass to bind2nd:
	binder2nd<const_mem_fun1_ref_t<bool,V,int> > b2 = bind2nd( pmf, 2 );

	// step 3, the same as step 1, but more intellect from compiler required:
	binder2nd<const_mem_fun1_ref_t<bool,V,int> > b3 = bind2nd( mem_fun_ref( &V::f ), 2 );

	vector<V>::iterator j = find_if( v.begin(), v.end(), b3 );
	CPPUNIT_ASSERT(j != v.end());
	CPPUNIT_ASSERT(j->v == 2);

	// step 4, more brief, more complex:
	vector<V>::iterator k = find_if( v.begin(), v.end(), bind2nd( mem_fun_ref( &V::f ), 2 ) );
	CPPUNIT_ASSERT(k != v.end());
	CPPUNIT_ASSERT(k->v == 2);
	#endif
	}

	#ifdef _STLP_DONT_TEST_RETURN_VOID
	# undef _STLP_DONT_TEST_RETURN_VOID
	#endif