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%module cpp11_std_unique_ptr
#if !(defined(SWIGGO) || defined(SWIGOCAML) || defined(SWIGR) || defined(SWIGSCILAB))
%warnfilter(509, 516) overloadTest(Klass);
%warnfilter(509, 516) moveOverloadTest(Klass);
%warnfilter(509, 516) moveRefOverloadTest(Klass);
%warnfilter(509, 516) useRefOverloadTest(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;
}
std::string moveKlassUniquePtr(std::unique_ptr<Klass>&& k) {
// std::cout << "moveKlassUniquePtr " << std::hex << (Klass*)k.get() << std::endl;
std::string s(k ? k->getLabel() : "null smart pointer");
// std::cout << "moveKlassUniquePtr string: " << s << std::endl;
return s;
}
std::string moveRefKlassUniquePtr(std::unique_ptr<Klass>& k) {
// std::cout << "moveRefKlassUniquePtr " << std::hex << (Klass*)k.get() << std::endl;
std::string s(k ? k->getLabel() : "null smart pointer");
// std::cout << "moveRefKlassUniquePtr string: " << s << std::endl;
return s;
}
std::string useRefKlassUniquePtr(const std::unique_ptr<Klass>& k) {
// std::cout << "useRefKlassUniquePtr " << std::hex << (Klass*)k.get() << std::endl;
std::string s(k ? k->getLabel() : "null smart pointer");
// std::cout << "useRefKlassUniquePtr 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>();
}
#include <iostream>
std::unique_ptr<Klass>&& makeRVRKlassUniquePtr(const char* label) {
static std::unique_ptr<Klass> up;
#if !defined(SWIGTCL)
up.reset(label ? new Klass(label) : nullptr);
#else // No way to pass a null pointer for a string as "NULL" is only way for Tcl to specify a null pointer
up.reset(strcmp(label, "NULL") != 0 ? new Klass(label) : nullptr);
#endif
return std::move(up);
}
std::unique_ptr<Klass>& makeRefKlassUniquePtr(const char* label) {
static std::unique_ptr<Klass> up;
#if !defined(SWIGTCL)
up.reset(label ? new Klass(label) : nullptr);
#else // No way to pass a null pointer for a string as "NULL" is only way for Tcl to specify a null pointer
up.reset(strcmp(label, "NULL") != 0 ? new Klass(label) : nullptr);
#endif
return up;
}
int overloadTest() {
return 0;
}
int overloadTest(std::unique_ptr<Klass> kover) {
return 1;
}
int overloadTest(Klass k) {
return 2;
}
int moveOverloadTest() {
return 0;
}
int moveOverloadTest(std::unique_ptr<Klass>&& kover) {
return 1;
}
int moveOverloadTest(Klass k) {
return 2;
}
int moveRefOverloadTest() {
return 0;
}
int moveRefOverloadTest(std::unique_ptr<Klass>& kover) {
return 1;
}
int moveRefOverloadTest(Klass k) {
return 2;
}
int useRefOverloadTest() {
return 0;
}
int useRefOverloadTest(const std::unique_ptr<Klass>& kover) {
return 1;
}
int useRefOverloadTest(Klass k) {
return 2;
}
%}
#endif
|
