%module pytrexio /* Define SWIGWORDSIZE in order to properly align long integers on 64-bit system */ #define SWIGWORDSIZE64 %{ #define SWIG_FILE_WITH_INIT /* Include the headers in the wrapper code */ #include "trexio_s.h" #include "trexio.h" %} /* Include stdint to recognize types from stdint.h */ %include /* NOTE: carrays was useful before numpy.i was introduced. For Python interface it's better to use numpy arrays instead of carrays, because the latter are less python-ic. On the other hand, carrays might be more portable to other target languages. // Include carrays to work with C pointers to arrays %include "carrays.i" // Include classes that correspond to integer and float arrays %array_class(double, doubleArray); %array_class(float, floatArray); %array_class(int32_t, int32Array); %array_class(int64_t, int64Array); */ /* Include typemaps to play with input/output re-casting Useful when working with C pointers */ %include typemaps.i /* Redefine the [int32_t*, int64_t*, float*, double*] num pattern to be appended to the output tuple. Useful for TREXIO read_num functions where the num variable is modified by address */ /* Return num variables as part of the output tuple */ %apply int *OUTPUT { int32_t* const num}; %apply int *OUTPUT { int64_t* const num}; %apply int *OUTPUT { int32_t* const num_up}; %apply int *OUTPUT { int32_t* const num_dn}; %apply int *OUTPUT { int64_t* const num_up}; %apply int *OUTPUT { int64_t* const num_dn}; %apply float *OUTPUT { float* const num}; %apply float *OUTPUT { double* const num}; /* Return TREXIO exit code from trexio_open as part of the output tuple */ %apply int *OUTPUT { trexio_exit_code* const rc_open}; /* Return number of sparse data points stored in the file as part of the output tuple */ %apply int *OUTPUT { int64_t* const size_max}; /* Return number of sparse data points read from the file as part of the output tuple */ %apply int *INOUT { int64_t* const buffer_size_read}; /* Does not work for arrays (SIGSEGV) */ /* This enables access to trexio_[...]_read_dset_str_low set of functions in order to return one long string with TREXIO_DELIM delimeter as 2-nd argument of output tuple */ %include /* This enables read of long strings with TREXIO_DELIM delimeters that can be further converted into an array of string */ %cstring_bounded_output(char* dset_out, 4096); /* This enables read of single string attributes with pre-defined max_str_len for Python we pre-define max_str_len = PYTREXIO_MAX_STR_LENGTH everywhere for simplicity */ %cstring_output_maxsize(char* const str_out, const int32_t max_str_len); /* This block is needed make SWIG treat (double * dset_out|_in, int64_t dim_out|_in) pattern as a special case in order to return the NumPy array to Python from C pointer to array provided by trexio_read_safe_[dset_num] function. NOTE: numpy.i is currently not part of SWIG but included in the numpy distribution (under numpy/tools/swig/numpy.i) */ %include "numpy.i" %init %{ import_array(); %} /* Typemaps below change the type of numpy array dimensions from int to int64_t */ %numpy_typemaps(double, NPY_DOUBLE, int64_t) %numpy_typemaps(float, NPY_FLOAT, int64_t) %numpy_typemaps(int32_t, NPY_INT32, int64_t) %numpy_typemaps(int64_t, NPY_INT64, int64_t) %numpy_typemaps(bitfield_t, NPY_INT64, int64_t) /* Enable write|read_safe functions to convert numpy arrays from/to double arrays */ %apply (double* ARGOUT_ARRAY1, int64_t DIM1) {(double* const dset_out, const int64_t dim_out)}; %apply (double* IN_ARRAY1, int64_t DIM1) {(const double* dset_in, const int64_t dim_in)}; /* Enable write|read_safe functions to convert numpy arrays from/to float arrays */ %apply (float* ARGOUT_ARRAY1, int64_t DIM1) {(float* const dset_out, const int64_t dim_out)}; %apply (float* IN_ARRAY1, int64_t DIM1) {(const float* dset_in, const int64_t dim_in)}; /* Enable write|read_safe functions to convert numpy arrays from/to int32 arrays */ %apply (int32_t* ARGOUT_ARRAY1, int64_t DIM1) {(int32_t* const dset_out, const int64_t dim_out)}; %apply (int32_t* IN_ARRAY1, int64_t DIM1) {(const int32_t* dset_in, const int64_t dim_in)}; /* Enable write|read_safe functions to convert numpy arrays from/to int64 arrays */ %apply (int64_t* ARGOUT_ARRAY1, int64_t DIM1) {(int64_t* const dset_out, const int64_t dim_out)}; %apply (int64_t* IN_ARRAY1, int64_t DIM1) {(const int64_t* dset_in, const int64_t dim_in)}; /* Enable write|read_safe functions to convert numpy arrays from/to sparse arrays */ %apply (double* IN_ARRAY1, int64_t DIM1) {(const double* value_sparse_write, const int64_t size_value_write)}; %apply (int32_t* IN_ARRAY1, int64_t DIM1) {(const int32_t* index_sparse_write, const int64_t size_index_write)}; %apply (double* ARGOUT_ARRAY1, int64_t DIM1) {(double* const value_sparse_read, const int64_t size_value_read)}; %apply (int32_t* ARGOUT_ARRAY1, int64_t DIM1) {(int32_t* const index_sparse_read, const int64_t size_index_read)}; /* Enable write|read_safe functions to convert numpy arrays from orbital list arrays */ %apply (int32_t* ARGOUT_ARRAY1, int64_t DIM1) {(int32_t* const dset_up_out, const int64_t dim_up_out)}; %apply (int32_t* ARGOUT_ARRAY1, int64_t DIM1) {(int32_t* const dset_dn_out, const int64_t dim_dn_out)}; %apply (int64_t* ARGOUT_ARRAY1, int64_t DIM1) {(int64_t* const dset_up_out, const int64_t dim_up_out)}; %apply (int64_t* ARGOUT_ARRAY1, int64_t DIM1) {(int64_t* const dset_dn_out, const int64_t dim_dn_out)}; %apply (bitfield_t* IN_ARRAY1, int64_t DIM1) {(const bitfield_t* dset_in, const int64_t dim_in)}; /* This tells SWIG to treat char ** dset_in pattern as a special case Enables access to trexio_[...]_write_dset_str set of functions directly, i.e. by converting input list of strings from Python into char ** of C */ %typemap(in) char** dset_in { /* Check if is a list */ if (PyList_Check($input)) { int size = PyList_Size($input); Py_ssize_t i = 0; $1 = (char **) malloc((size+1)*sizeof(char *)); for (i = 0; i < size; i++) { PyObject *o = PyList_GetItem($input, i); if (PyUnicode_Check(o)) { $1[i] = PyUnicode_AsUTF8(PyList_GetItem($input,i)); } else { PyErr_Format(PyExc_TypeError, "list must contain strings. %d/%d element was not string.", i, size); free($1); return NULL; } } $1[i] = 0; } else { PyErr_SetString(PyExc_TypeError, "not a list"); return NULL; } } /* This cleans up the char ** array we malloc-ed before */ %typemap(freearg) char** dset_in { free((char *) $1); } /* Parse the header files to generate wrappers */ %include "trexio_s.h" %include "trexio.h"