test/ctorleak.cpp - nest-cam/v366/eigen - Git at Google

 #include "main.h"

 #include <exception>  // std::exception

 struct Foo
 {
   static Index object_count;
   static Index object_limit;
   int dummy;

   Foo() : dummy(0)
   {
 #ifdef EIGEN_EXCEPTIONS
     // TODO: Is this the correct way to handle this?
     if (Foo::object_count > Foo::object_limit) { std::cout << "\nThrow!\n"; throw Foo::Fail(); }
 #endif
 	  std::cout << '+';
     ++Foo::object_count;
   }

   ~Foo()
   {
 	  std::cout << '-';
     --Foo::object_count;
   }

   class Fail : public std::exception {};
 };

 Index Foo::object_count = 0;
 Index Foo::object_limit = 0;

 #undef EIGEN_TEST_MAX_SIZE
 #define EIGEN_TEST_MAX_SIZE 3

 EIGEN_DECLARE_TEST(ctorleak)
 {
   typedef Matrix<Foo, Dynamic, Dynamic> MatrixX;
   typedef Matrix<Foo, Dynamic, 1> VectorX;

   Foo::object_count = 0;
   for(int i = 0; i < g_repeat; i++) {
     Index rows = internal::random<Index>(2,EIGEN_TEST_MAX_SIZE), cols = internal::random<Index>(2,EIGEN_TEST_MAX_SIZE);
     Foo::object_limit = rows*cols;
     {
     MatrixX r(rows, cols);
     Foo::object_limit = r.size()+internal::random<Index>(0, rows*cols - 2);
     std::cout << "object_limit =" << Foo::object_limit << std::endl;
 #ifdef EIGEN_EXCEPTIONS
     try
     {
 #endif
       if(internal::random<bool>()) {
         std::cout <<       "\nMatrixX m(" << rows << ", " << cols << ");\n";
         MatrixX m(rows, cols);
       }
       else {
         std::cout <<       "\nMatrixX m(r);\n";
         MatrixX m(r);
       }
 #ifdef EIGEN_EXCEPTIONS
       VERIFY(false);  // not reached if exceptions are enabled
     }
     catch (const Foo::Fail&) { /* ignore */ }
 #endif
     }
     VERIFY_IS_EQUAL(Index(0), Foo::object_count);

     {
       Foo::object_limit = (rows+1)*(cols+1);
       MatrixX A(rows, cols);
       VERIFY_IS_EQUAL(Foo::object_count, rows*cols);
       VectorX v=A.row(0);
       VERIFY_IS_EQUAL(Foo::object_count, (rows+1)*cols);
       v = A.col(0);
       VERIFY_IS_EQUAL(Foo::object_count, rows*(cols+1));
     }
     VERIFY_IS_EQUAL(Index(0), Foo::object_count);
   }
   std::cout << "\n";
 }
	#include "main.h"

	#include <exception> // std::exception

	struct Foo
	{
	static Index object_count;
	static Index object_limit;
	int dummy;

	Foo() : dummy(0)
	{
	#ifdef EIGEN_EXCEPTIONS
	// TODO: Is this the correct way to handle this?
	if (Foo::object_count > Foo::object_limit) { std::cout << "\nThrow!\n"; throw Foo::Fail(); }
	#endif
	std::cout << '+';
	++Foo::object_count;
	}

	~Foo()
	{
	std::cout << '-';
	--Foo::object_count;
	}

	class Fail : public std::exception {};
	};

	Index Foo::object_count = 0;
	Index Foo::object_limit = 0;

	#undef EIGEN_TEST_MAX_SIZE
	#define EIGEN_TEST_MAX_SIZE 3

	EIGEN_DECLARE_TEST(ctorleak)
	{
	typedef Matrix<Foo, Dynamic, Dynamic> MatrixX;
	typedef Matrix<Foo, Dynamic, 1> VectorX;

	Foo::object_count = 0;
	for(int i = 0; i < g_repeat; i++) {
	Index rows = internal::random<Index>(2,EIGEN_TEST_MAX_SIZE), cols = internal::random<Index>(2,EIGEN_TEST_MAX_SIZE);
	Foo::object_limit = rows*cols;
	{
	MatrixX r(rows, cols);
	Foo::object_limit = r.size()+internal::random<Index>(0, rows*cols - 2);
	std::cout << "object_limit =" << Foo::object_limit << std::endl;
	#ifdef EIGEN_EXCEPTIONS
	try
	{
	#endif
	if(internal::random<bool>()) {
	std::cout << "\nMatrixX m(" << rows << ", " << cols << ");\n";
	MatrixX m(rows, cols);
	}
	else {
	std::cout << "\nMatrixX m(r);\n";
	MatrixX m(r);
	}
	#ifdef EIGEN_EXCEPTIONS
	VERIFY(false); // not reached if exceptions are enabled
	}
	catch (const Foo::Fail&) { /* ignore */ }
	#endif
	}
	VERIFY_IS_EQUAL(Index(0), Foo::object_count);

	{
	Foo::object_limit = (rows+1)*(cols+1);
	MatrixX A(rows, cols);
	VERIFY_IS_EQUAL(Foo::object_count, rows*cols);
	VectorX v=A.row(0);
	VERIFY_IS_EQUAL(Foo::object_count, (rows+1)*cols);
	v = A.col(0);
	VERIFY_IS_EQUAL(Foo::object_count, rows*(cols+1));
	}
	VERIFY_IS_EQUAL(Index(0), Foo::object_count);
	}
	std::cout << "\n";
	}