%module gdcm
%{
+#include <iostream>
+
#include "gdcmCommon.h"
-#include "gdcmDictEntry.h"
+#include "gdcmBase.h"
#include "gdcmDict.h"
+#include "gdcmDictEntry.h"
#include "gdcmDictSet.h"
-#include "gdcmParser.h"
-#include "gdcmHeaderEntry.h"
-#include "gdcmHeader.h"
-#include "gdcmHeaderHelper.h"
+#include "gdcmDicomDir.h"
+#include "gdcmDicomDirElement.h"
+#include "gdcmDicomDirImage.h"
+#include "gdcmDicomDirMeta.h"
+#include "gdcmDicomDirObject.h"
+#include "gdcmDicomDirPatient.h"
+#include "gdcmDicomDirStudy.h"
+#include "gdcmDicomDirSerie.h"
+#include "gdcmDocEntrySet.h"
+#include "gdcmDocument.h"
+#include "gdcmElementSet.h"
+#include "gdcmFileHelper.h"
+#include "gdcmGlobal.h"
#include "gdcmFile.h"
+#include "gdcmSerieHelper.h"
+#include "gdcmRLEFramesInfo.h"
+#include "gdcmJPEGFragmentsInfo.h"
+#include "gdcmSQItem.h"
#include "gdcmUtil.h"
-#include "gdcmObject.h"
-#include "gdcmDICOMDIR.h"
-#include "gdcmPatient.h"
-#include "gdcmStudy.h"
-#include "gdcmSerie.h"
-#include "gdcmImage.h"
-
-
-using namespace std;
-
-// Utility functions on strings for removing leading and trailing spaces
-void EatLeadingAndTrailingSpaces(string & s) {
- while ( s.length() && (s[0] == ' ') )
- s.erase(0,1);
- while ( s.length() && (s[s.length()-1] == ' ') )
- s.erase(s.length()-1, 1);
+#include "gdcmDocEntry.h"
+#include "gdcmContentEntry.h"
+#include "gdcmValEntry.h"
+#include "gdcmBinEntry.h"
+#include "gdcmSeqEntry.h"
+#include "gdcmVR.h"
+#include "gdcmTS.h"
+#include "gdcmDictGroupName.h"
+
+////////////////////////////////////////////////////////////////////////////
+/// Refer (below) to the definition of multi-argument typemap
+/// %typemap(python, in)
+/// ( gdcm::DicomDir::Method*, void*, gdcm::DicomDir::Method*)
+/// for detail on gdcmPythonVoidFunc() and gdcmPythonVoidFuncArgDelete().
+void gdcmPythonVoidFunc(void *arg)
+{
+ PyObject *arglist, *result;
+ PyObject *func = (PyObject *)arg;
+
+ arglist = Py_BuildValue("()");
+
+ result = PyEval_CallObject(func, arglist);
+ Py_DECREF(arglist);
+
+ if (result)
+ {
+ Py_XDECREF(result);
+ }
+ else
+ {
+ if (PyErr_ExceptionMatches(PyExc_KeyboardInterrupt))
+ {
+ std::cerr << "Caught a Ctrl-C within python, exiting program.\n";
+ Py_Exit(1);
+ }
+ PyErr_Print();
+ }
+}
+
+void gdcmPythonVoidFuncArgDelete(void *arg)
+{
+ PyObject *func = (PyObject *)arg;
+ if (func)
+ {
+ Py_DECREF(func);
+ }
}
+
+/// This is required in order to avoid %including all the gdcm include files.
+using namespace gdcm;
%}
-typedef unsigned short guint16;
-typedef unsigned int guint32;
-////////////////////////////////////////////////////////////////////////////
-// Global variables get exported to cvar in Python
-%immutable;
-extern gdcmGlobal gdcmGlob;
-%mutable;
-////////////////////////////////////////////////////////////////////////////
-%typemap(out) std::list<std::string> * {
- PyObject* NewItem = (PyObject*)0;
- PyObject* NewList = PyList_New(0); // The result of this typemap
- for (list<string>::iterator NewString = ($1)->begin();
- NewString != ($1)->end(); ++NewString) {
- NewItem = PyString_FromString(NewString->c_str());
- PyList_Append( NewList, NewItem);
- }
- $result = NewList;
+/////////////////////// typemap section ////////////////////////////////////
+
+////////////////////////////////////////////////
+// Redefine all types used
+typedef char int8_t;
+typedef unsigned char uint8_t;
+typedef short int16_t;
+typedef unsigned short uint16_t;
+typedef int int32_t;
+typedef unsigned int uint32_t;
+typedef long long int64_t;
+typedef unsigned long long uint64_t;
+
+////////////////////////////////////////////////
+// Convert a DocEntry * to the real derived class
+%typemap(out) gdcm::DocEntry *
+{
+ PyObject *newEntry;
+
+ if($1)
+ {
+ if(dynamic_cast<SeqEntry *>($1)) // SeqEntry *
+ newEntry = SWIG_NewPointerObj($1,SWIGTYPE_p_gdcm__SeqEntry,0);
+ else if(dynamic_cast<BinEntry *>($1)) // BinEntry *
+ newEntry = SWIG_NewPointerObj($1,SWIGTYPE_p_gdcm__BinEntry,0);
+ else // ValEntry *
+ newEntry = SWIG_NewPointerObj($1,SWIGTYPE_p_gdcm__ValEntry,0);
+ }
+ else
+ {
+ newEntry = Py_BuildValue("");
+ }
+ $result = newEntry;
}
////////////////////////////////////////////////////////////////////////////
-// Convert a c++ hash table in a python native dictionary
-%typemap(out) std::map<std::string, std::list<std::string> > * {
- PyObject* NewDict = PyDict_New(); // The result of this typemap
- PyObject* NewKey = (PyObject*)0;
- PyObject* NewVal = (PyObject*)0;
-
- for (map<string, list<string> >::iterator tag = ($1)->begin();
- tag != ($1)->end(); ++tag) {
- string first = tag->first;
- // Do not publish entries whose keys is made of spaces
- if (first.length() == 0)
- continue;
- NewKey = PyString_FromString(first.c_str());
- PyObject* NewList = PyList_New(0);
- for (list<string>::iterator Item = tag->second.begin();
- Item != tag->second.end(); ++Item) {
- NewVal = PyString_FromString(Item->c_str());
- PyList_Append( NewList, NewVal);
- }
- PyDict_SetItem( NewDict, NewKey, NewList);
+// Multi-argument typemap designed for wrapping the progress related methods
+// in order to control from an external application the computation of
+// a DicomDir object (see DicomDir::SetStartMethod*,
+// DicomDir::SetProgressMethod* and DicomDir::SetEndMethod*).
+// Motivation: since DicomDir parsing can be quite long, a GUI application
+// needs to display the avancement and potentially offer a
+// cancel method to the user (when this one feels things are
+// longer than expected).
+// Example of usage: refer to demo/DicomDirProgressMethod.py
+// Note: Uses gdcmPythonVoidFunc and gdcmPythonVoidFuncArgDelete defined
+// in the Swig verbatim section of this gdcm.i i.e. in the above section
+// enclosed within the %{ ... %} scope operator ).
+%typemap(python, in) ( gdcm::DicomDir::Method *,
+ void * = NULL,
+ gdcm::DicomDir::Method * = NULL )
+{
+ if($input!=Py_None)
+ {
+ Py_INCREF($input);
+ $1=gdcmPythonVoidFunc;
+ $2=$input;
+ $3=gdcmPythonVoidFuncArgDelete;
+ }
+ else
+ {
+ $1=NULL;
+ $2=NULL;
+ $3=NULL;
}
- $result = NewDict;
}
-////////////////////////////////////////////////////////////////////////////
-// Convert a c++ hash table in a python native dictionary
-%typemap(out) TagHeaderEntryHT & {
- PyObject* NewDict = PyDict_New(); // The result of this typemap
- string RawName; // Element name as gotten from gdcm
- PyObject* NewKey = (PyObject*)0; // Associated name as python object
- string RawValue; // Element value as gotten from gdcm
- PyObject* NewVal = (PyObject*)0; // Associated value as python object
-
- for (TagHeaderEntryHT::iterator tag = $1->begin(); tag != $1->end(); ++tag) {
-
- // The element name shall be the key:
- RawName = tag->second->GetName();
- // gdcm unrecognized (including not loaded because their size exceeds
- // the user specified treshold) elements are exported with their
- // TagKey as key.
- if (RawName == "Unknown")
- RawName = tag->second->GetKey();
- NewKey = PyString_FromString(RawName.c_str());
-
- // Element values are striped from leading/trailing spaces
- RawValue = tag->second->GetValue();
- EatLeadingAndTrailingSpaces(RawValue);
- NewVal = PyString_FromString(RawValue.c_str());
-
- PyDict_SetItem( NewDict, NewKey, NewVal);
- }
- $result = NewDict;
+//////////////////// STL string versus Python str ////////////////////////
+// Convertion returning a C++ string.
+%typemap(out) std::string
+{
+ $result = PyString_FromString(($1).c_str());
}
-////////////////////////////////////////////////////////////////////////////
-// Deals with function returning a C++ string.
-%typemap(out) string, std::string {
+%typemap(out) string
+{
$result = PyString_FromString(($1).c_str());
}
+%typemap(out) std::string const &
+{
+ $result = PyString_FromString(($1)->c_str());
+}
+
+// Convertion of incoming Python str to STL string
%typemap(python, in) const std::string, std::string
{
$1 = PyString_AsString($input);
}
+
+// Same convertion as above but references (since swig converts C++
+// refererences to pointers)
+%typemap(python, in) std::string const &
+{
+ $1 = new std::string( PyString_AsString( $input ) );
+}
+
+//////////////////// gdcm.TagName versus Python str //////////////////////
+%typemap(out) gdcm::TagName, const gdcm::TagName &
+{
+ $result = PyString_FromString(($1)->c_str());
+}
+
+// Convertion of incoming Python str to STL string
+%typemap(python, in) const gdcm::TagName, gdcm::TagName
+{
+ $1 = PyString_AsString($input);
+}
+
+// Same convertion as above but references (since swig converts C++
+// refererences to pointers)
+%typemap(python, in) gdcm::TagName const &
+{
+ $1 = new std::string( PyString_AsString( $input ) );
+}
+
////////////////////////////////////////////////////////////////////////////
+// Because overloading and %rename don't work together (see below Note 1)
+// we need to ignore some methods (e.g. the overloaded default constructor).
+// The gdcm::File class doesn't have any SetFilename method anyhow, and
+// this constructor is only used internaly (not from the API) so this is
+// not a big loss.
+%ignore gdcm::binary_write(std::ostream &,uint32_t const &);
+%ignore gdcm::binary_write(std::ostream &,uint16_t const &);
+
+%ignore gdcm::File::File();
+%ignore gdcm::DicomDir::DicomDir();
+
+// Ignore all placed in gdcmCommon.h
+%ignore GDCM_UNKNOWN;
+%ignore GDCM_UNFOUND;
+%ignore GDCM_BINLOADED;
+%ignore GDCM_NOTLOADED;
+%ignore GDCM_UNREAD;
+
+%constant const char *UNKNOWN = "gdcm::Unknown";
+%constant const char *UNFOUND = "gdcm::Unfound";
+%constant const char *BINLOADED = "gdcm::Binary data loaded";
+%constant const char *NOTLOADED = "gdcm::NotLoaded";
+%constant const char *UNREAD = "gdcm::UnRead";
+
+////////////////////////////////////////////////////////////////////////////
+// Warning: Order matters !
%include "gdcmCommon.h"
+%include "gdcmBase.h"
%include "gdcmDictEntry.h"
%include "gdcmDict.h"
%include "gdcmDictSet.h"
-%include "gdcmParser.h"
-%include "gdcmHeaderEntry.h"
-%include "gdcmHeader.h"
-%include "gdcmHeaderHelper.h"
+%include "gdcmDocEntrySet.h"
+%include "gdcmElementSet.h"
+%include "gdcmSQItem.h"
+%include "gdcmDicomDirElement.h"
+%include "gdcmDicomDirObject.h"
+%include "gdcmDicomDirImage.h"
+%include "gdcmDicomDirSerie.h"
+%include "gdcmDicomDirStudy.h"
+%include "gdcmDicomDirPatient.h"
+%include "gdcmDicomDirMeta.h"
+%include "gdcmDocument.h"
+%include "gdcmFile.h"
+%include "gdcmSerieHelper.h"
%include "gdcmFile.h"
%include "gdcmUtil.h"
-%include "gdcmObject.h"
-%include "gdcmDICOMDIR.h"
-%#include "gdcmPatient.h"
-%include "gdcmStudy.h"
-%include "gdcmSerie.h"
-%include "gdcmImage.h"
+%include "gdcmGlobal.h"
+%include "gdcmDicomDir.h"
+%include "gdcmDocEntry.h"
+%include "gdcmContentEntry.h"
+%include "gdcmValEntry.h"
+%include "gdcmBinEntry.h"
+%include "gdcmSeqEntry.h"
+%include "gdcmVR.h"
+%include "gdcmTS.h"
+%include "gdcmDictGroupName.h"
+
+////////////////////////////////////////////////////////////////////////////
+// Notes on swig and this file gdcm.i:
+//
+/////////////////////////////////////
+// Note 1: swig collision of method overloading and %typemap
+// Consider the following junk.i file:
+// %module junk
+// %{
+// #include <string>
+// #include <iostream>
+// void Junk(std::string const & bozo) { std::cout << bozo << std::endl; }
+// void Junk() { std::cout << "Renamed Junk()" << std::endl; }
+// %}
+//
+// %typemap(python, in) std::string const &
+// {
+// $1 = new std::string( PyString_AsString( $input ) );
+// }
+// void Junk();
+// void Junk(std::string const & bozo);
+//
+// that we compile on linux with:
+// swig -c++ -python junk.i
+// g++ -g -I/usr/include/python2.3/ -o junk_wrap.o -c junk_wrap.cxx
+// g++ junk_wrap.o -shared -g -o _junk.so -L/usr/lib/python2.3/config \
+// -lpython2.3
+// and invoque with:
+// python -c 'from junk import *; Junk("aaa") '
+// then we get the following unexpected (for novice) python TypeError:
+// TypeError: No matching function for overloaded 'Junk'
+//
+// This happens because the swig generated code (at least for python) does
+// the following two stage process:
+// 1/ first do a dynamic dispatch ON THE NUMBER OF ARGUMENTS of the overloaded
+// Junk function (the same happens with method of course). [Note that the
+// dispatch is NOT done on the type of the arguments].
+// 2/ second apply the typemap.
+// When the first dynamic dispatch is executed, the swig generated code
+// has no knowledge of the typemap, and thus expects a pointer to a std::string
+// type i.e. an argument to Junk of the form _p_std__int<address>. But this
+// is not what python handles to Junk ! An invocation of the form 'Junk("aaa")'
+// will make Python pass a PyString to swig (and this is precisely why we
+// wrote the typemap). And this will fail....
+/////////////////////////////////////