%module(directors="1") swig_paddle %include "std_string.i" %{ #define SWIG_FILE_WITH_INIT #include "api/PaddleAPI.h" %} %include "exception.i" %typemap(throws) UnsupportError %{ SWIG_exception(SWIG_RuntimeError, $1.what()); SWIG_fail; %} %include "std_vector.i" %include "std_pair.i" #ifdef SWIGPYTHON %include "numpy.i" #endif %init %{ #ifdef SWIGPYTHON import_array(); #endif %} namespace std { %template(vector_int) vector; %template(vector_uint) vector; %template(vector_float) vector; %template(vector_string) vector; %template(vector_vec_star) vector; } #ifdef SWIGPYTHON %typemap(in) (int argc, char** argv) { int i = 0; if (!PyList_Check($input)) { PyErr_SetString(PyExc_ValueError, "Expecting a list"); return NULL; } $1 = PyList_Size($input); $2 = (char **) malloc(($1+1)*sizeof(char *)); for (i = 0; i < $1; i++) { PyObject *s = PyList_GetItem($input,i); if (!PyString_Check(s)) { free($2); PyErr_SetString(PyExc_ValueError, "List items must be strings"); return NULL; } $2[i] = PyString_AsString(s); } $2[i] = 0; } %typemap(freearg) (int argc, char** argv) { if ($2) free($2); } %typemap(out) FloatArray { $result = PyList_New($1.length); for (size_t i=0; i<$1.length; ++i) { PyList_SetItem($result, i, PyFloat_FromDouble($1.buf[i])); } if($1.needFree) { delete [] $1.buf; } } %typemap(out) IntArray { $result = PyList_New($1.length); for (size_t i=0; i<$1.length; ++i) { PyList_SetItem($result, i, PyInt_FromLong($1.buf[i])); } if ($1.needFree) { delete [] $1.buf; } } %typemap(out) IntWithFloatArray { $result = PyList_New($1.length); for (size_t i=0; i<$1.length; ++i) { PyList_SetItem($result, i, PyTuple_Pack(2, PyInt_FromLong($1.idxBuf[i]), PyFloat_FromDouble($1.valBuf[i]) )); } if ($1.needFree) { delete [] $1.idxBuf; delete [] $1.valBuf; } } %rename(__getitem__) IVector::get; %rename(__setitem__) IVector::set; %rename(__len__) IVector::getSize; %rename(__getitem__) Vector::get; %rename(__setitem__) Vector::set; %rename(__len__) Vector::getSize; %rename(__call__) ParameterTraverseCallback::apply; %rename(__repr__) Evaluator::toString; %apply (float* INPLACE_ARRAY2, int DIM1, int DIM2) { (float* data, int dim1, int dim2) } %apply (float** ARGOUTVIEW_ARRAY2, int* DIM1, int* DIM2) { (float** view_data, int* dim1, int* dim2) } %apply (float** ARGOUTVIEWM_ARRAY2, int* DIM1, int* DIM2) { (float** view_m_data, int* dim1, int* dim2) } %apply (int** ARGOUTVIEWM_ARRAY1, int* DIM1) { (int** view_m_data, int* dim1) } %apply (int* INPLACE_ARRAY1, int DIM1) { (int* data, int dim) } %apply (int** ARGOUTVIEW_ARRAY1, int* DIM1) { (int** view_data, int* dim1) } %apply (float* INPLACE_ARRAY1, int DIM1) { (float* data, int dim) } %apply (float** ARGOUTVIEW_ARRAY1, int* DIM1) { (float** view_data, int* dim1) } %apply (float** ARGOUTVIEWM_ARRAY1, int* DIM1) { (float** view_m_data, int* dim1) } #endif // The below functions internally create object by "new", so it should use // use SWIG to handle gc. There are hints for SWIG to handle GC. %newobject Matrix::createZero; %newobject Matrix::createSparse; %newobject Matrix::createDense; %newobject Matrix::createDenseFromNumpy; %newobject Matrix::createCpuDenseFromNumpy; %newobject Matrix::createGpuDenseFromNumpy; %newobject Vector::createZero; %newobject Vector::create; %newobject Vector::createVectorFromNumpy; %newobject Vector::createCpuVectorFromNumpy; %newobject Vector::createGpuVectorFromNumpy; %newobject IVector::createZero; %newobject IVector::create; %newobject IVector::createVectorFromNumpy; %newobject IVector::createCpuVectorFromNumpy; %newobject IVector::createGpuVectorFromNumpy; %newobject Trainer::createByCommandLine; %newobject Trainer::getForwardOutput; %newobject Trainer::getLayerOutput; %newobject Arguments::getSlotValue; %newobject Arguments::getSlotIds; %newobject Arguments::getSlotIn; %newobject Arguments::getSlotSequenceStartPositions; %newobject Arguments::getSlotSequenceDim; %newobject Arguments::createArguments; %newobject GradientMachine::createByConfigProtoStr; %newobject GradientMachine::createByModelConfig; %newobject GradientMachine::asSequenceGenerator; %newobject GradientMachine::getParameter; %newobject GradientMachine::getLayerOutput; %newobject GradientMachine::makeEvaluator; %newobject TrainerConfig::createFromTrainerConfigFile; %newobject TrainerConfig::getModelConfig; %newobject TrainerConfig::getOptimizationConfig; %newobject Parameter::getBuf; %newobject Parameter::getConfig; %newobject ParameterOptimizer::create; %newobject ParameterOptimizer::needSpecialTraversal; %newobject ParameterUpdater::createLocalUpdater; %feature("director") UpdateCallback; %feature("autodoc", 1); // To generate method stub, for code hint in ide // Ignore many private class, and method cannot be handled by swig. %ignore MatrixPrivate; %ignore TrainerPrivate; %ignore IVector::operator[]; %ignore ArgumentsPrivate; %ignore GradientMachinePrivate; %ignore TrainerConfigPrivate; %ignore ModelConfigPrivate; %ignore ParameterPrivate; %ignore SequenceGeneratorPrivate; %ignore VectorPrivate; %ignore ParameterConfigPrivate; %ignore OptimizationConfigPrivate; %ignore ParameterTraverseCallbackPrivate; %include "utils/GlobalConstants.h" %include "api/PaddleAPI.h"