Examples/test-suite/cpp11_std_unique_ptr.i - platform/external/swig - Git at Google

 %module cpp11_std_unique_ptr

 #if !(defined(SWIGGO) || defined(SWIGOCAML) || defined(SWIGR) || defined(SWIGSCILAB))

 %warnfilter(509, 516) overloadTest(Klass);

 %include "std_string.i"
 %include "std_unique_ptr.i"

 %unique_ptr(Klass)

 %inline %{
 #include <memory>
 #include <string>
 //#include <iostream>
 #include "swig_examples_lock.h"

 class Klass {
 public:
   explicit Klass(const char* label) :
     m_label(label)
   {
     SwigExamples::Lock lock(critical_section);
     total_count++;
   }

   const char* getLabel() const { return m_label.c_str(); }

   virtual ~Klass()
   {
     SwigExamples::Lock lock(critical_section);
     total_count--;
   }

   static int getTotal_count() { return total_count; }

 private:
   static SwigExamples::CriticalSection critical_section;
   static int total_count;

   std::string m_label;
 };

 SwigExamples::CriticalSection Klass::critical_section;
 int Klass::total_count = 0;

 %}

 %inline %{

 // Virtual inheritance used as this usually results in different values for Klass* and KlassInheritance*
 // for testing class inheritance and unique_ptr
 struct KlassInheritance : virtual Klass {
   KlassInheritance(const char* label) : Klass(label) {
     // std::cout << "ptrs.... " << std::hex << (Klass*)this << " " << (KlassInheritance*)this << std::endl;
   }
 };

 std::string useKlassRawPtr(Klass* k) {
 //  std::cout << "useKlassRawPtr " << std::hex << (Klass*)k << std::endl;
   std::string s(k->getLabel());
 //  std::cout << "useKlassRawPtr string: " << s << std::endl;
   return s;
 }

 std::string takeKlassUniquePtr(std::unique_ptr<Klass> k) {
 //  std::cout << "takeKlassUniquePtr " << std::hex << (Klass*)k.get() << std::endl;
   std::string s(k ? k->getLabel() : "null smart pointer");
 //  std::cout << "takeKlassUniquePtr string: " << s << std::endl;
   return s;
 }

 Klass *make_null() {
   return nullptr;
 }

 bool is_nullptr(Klass *p) {
   return p == nullptr;
 }

 Klass *get_not_owned_ptr(Klass *p) {
   return p;
 }

 std::unique_ptr<Klass> makeKlassUniquePtr(const char* label) {
   return std::unique_ptr<Klass>(new Klass(label));
 }

 std::unique_ptr<Klass> makeNullUniquePtr() {
   return std::unique_ptr<Klass>();
 }

 int overloadTest() {
   return 0;
 }

 int overloadTest(std::unique_ptr<Klass> kover) {
   return 1;
 }

 int overloadTest(Klass k) {
   return 2;
 }

 %}

 #endif
	%module cpp11_std_unique_ptr

	#if !(defined(SWIGGO) \|\| defined(SWIGOCAML) \|\| defined(SWIGR) \|\| defined(SWIGSCILAB))

	%warnfilter(509, 516) overloadTest(Klass);

	%include "std_string.i"
	%include "std_unique_ptr.i"

	%unique_ptr(Klass)

	%inline %{
	#include <memory>
	#include <string>
	//#include <iostream>
	#include "swig_examples_lock.h"

	class Klass {
	public:
	explicit Klass(const char* label) :
	m_label(label)
	{
	SwigExamples::Lock lock(critical_section);
	total_count++;
	}

	const char* getLabel() const { return m_label.c_str(); }

	virtual ~Klass()
	{
	SwigExamples::Lock lock(critical_section);
	total_count--;
	}

	static int getTotal_count() { return total_count; }

	private:
	static SwigExamples::CriticalSection critical_section;
	static int total_count;

	std::string m_label;
	};

	SwigExamples::CriticalSection Klass::critical_section;
	int Klass::total_count = 0;

	%}

	%inline %{

	// Virtual inheritance used as this usually results in different values for Klass* and KlassInheritance*
	// for testing class inheritance and unique_ptr
	struct KlassInheritance : virtual Klass {
	KlassInheritance(const char* label) : Klass(label) {
	// std::cout << "ptrs.... " << std::hex << (Klass)this << " " << (KlassInheritance)this << std::endl;
	}
	};

	std::string useKlassRawPtr(Klass* k) {
	// std::cout << "useKlassRawPtr " << std::hex << (Klass*)k << std::endl;
	std::string s(k->getLabel());
	// std::cout << "useKlassRawPtr string: " << s << std::endl;
	return s;
	}

	std::string takeKlassUniquePtr(std::unique_ptr<Klass> k) {
	// std::cout << "takeKlassUniquePtr " << std::hex << (Klass*)k.get() << std::endl;
	std::string s(k ? k->getLabel() : "null smart pointer");
	// std::cout << "takeKlassUniquePtr string: " << s << std::endl;
	return s;
	}

	Klass *make_null() {
	return nullptr;
	}

	bool is_nullptr(Klass *p) {
	return p == nullptr;
	}

	Klass get_not_owned_ptr(Klass p) {
	return p;
	}

	std::unique_ptr<Klass> makeKlassUniquePtr(const char* label) {
	return std::unique_ptr<Klass>(new Klass(label));
	}

	std::unique_ptr<Klass> makeNullUniquePtr() {
	return std::unique_ptr<Klass>();
	}

	int overloadTest() {
	return 0;
	}

	int overloadTest(std::unique_ptr<Klass> kover) {
	return 1;
	}

	int overloadTest(Klass k) {
	return 2;
	}

	%}

	#endif