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// This tests SWIG's handling of typemaps and namespaces
%module namespace_typemap
%{
namespace test {
/* A minimalistic string class */
class string {
char *data;
public:
string() {
data = 0;
}
string(const char *s) {
data = new char[strlen(s)+1];
strcpy(data,s);
}
~string() {
if (data) delete [] data;
}
char *c_str() {
return data;
}
};
/* A minimalistic complex class */
class complex {
double re;
double im;
public:
complex(double r = 0, double i = 0) {
re = r;
im = i;
}
double real() {
return re;
}
double imag() {
return im;
}
};
}
%}
/* SWIG interface tests */
#ifdef SWIGPYTHON
%typemap(in) test::complex * {
if (PyComplex_Check($input)) {
$1 = new complex(PyComplex_RealAsDouble($input),
PyComplex_ImagAsDouble($input));
} else {
PyErr_SetString(PyExc_TypeError,"Expected complex.\n");
return NULL;
}
}
%typemap(freearg) test::complex * {
delete $1;
}
#endif
namespace test {
class string;
#ifdef SWIGPYTHON
%typemap(in) string * {
$1 = new string(PyString_AsString($input));
}
%typemap(freearg) string * {
delete $1;
}
#endif
#ifdef SWIGRUBY
%typemap(in) string * {
$1 = new string(STR2CSTR($input));
}
%typemap(freearg) string * {
delete $1;
}
#endif
}
%inline %{
namespace test {
class string;
class complex;
/* Functions in the namespace itself */
char *stest1(string *s) {
return s->c_str();
}
double ctest1(complex *c) {
return c->real();
}
}
namespace test2 {
using test::string;
using test::complex;
/* Functions in another namespace */
char *stest2(string *s) {
return s->c_str();
}
double ctest2(complex *c) {
return c->real();
}
}
namespace test3 {
using namespace test;
char *stest3(string *s) {
return s->c_str();
}
double ctest3(complex *c) {
return c->real();
}
}
namespace test4 {
using namespace test2;
char *stest4(string *s) {
return s->c_str();
}
double ctest4(complex *c) {
return c->real();
}
}
namespace test5 {
using namespace test3;
char *stest5(string *s) {
return s->c_str();
}
double ctest5(complex *c) {
return c->real();
}
}
char *stest6(test::string *s) {
return s->c_str();
}
double ctest6(test::complex *c) {
return c->real();
}
char *stest7(test2::string *s) {
return s->c_str();
}
double ctest7(test2::complex *c) {
return c->real();
}
char *stest8(test3::string *s) {
return s->c_str();
}
double ctest8(test3::complex *c) {
return c->real();
}
char *stest9(test4::string *s) {
return s->c_str();
}
double ctest9(test4::complex *c) {
return c->real();
}
char *stest10(test5::string *s) {
return s->c_str();
}
double ctest10(test5::complex *c) {
return c->real();
}
namespace test11 = test;
char *stest11(test11::string *s) {
return s->c_str();
}
double ctest11(test11::complex *c) {
return c->real();
}
using namespace test2;
using test::complex;
char *stest12(string *s) {
return s->c_str();
}
double ctest12(complex *c) {
return c->real();
}
%}
namespace Split {
#ifdef SWIGPYTHON
%typemap(in) PosInteger {
$1 = PyInt_AsLong($input);
if ($1 < 0) {
PyErr_SetString(PyExc_ValueError,"domain error\n");
return NULL;
}
}
#endif
#ifdef SWIGRUBY
%typemap(in) PosInteger {
$1 = NUM2INT($input);
if ($1 < 0) {
rb_raise(rb_eRangeError, "domain error");
}
}
#endif
}
%inline %{
namespace Split {
typedef int PosInteger;
PosInteger ttest1(PosInteger x) {
return x;
}
}
%}
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