/* File: c_librarymodule.c * This file is auto-generated with f2py (version:2). * f2py is a Fortran to Python Interface Generator (FPIG), Second Edition, * written by Pearu Peterson . * See http://cens.ioc.ee/projects/f2py2e/ * Generation date: Thu Jan 29 22:06:57 2015 * $Revision:$ * $Date:$ * Do not edit this file directly unless you know what you are doing!!! */ #ifdef __cplusplus extern "C" { #endif /*********************** See f2py2e/cfuncs.py: includes ***********************/ #include "Python.h" #include #include "fortranobject.h" #include /**************** See f2py2e/rules.py: mod_rules['modulebody'] ****************/ static PyObject *c_library_error; static PyObject *c_library_module; /*********************** See f2py2e/cfuncs.py: typedefs ***********************/ /*need_typedefs*/ /****************** See f2py2e/cfuncs.py: typedefs_generated ******************/ /*need_typedefs_generated*/ /********************** See f2py2e/cfuncs.py: cppmacros **********************/ #define rank(var) var ## _Rank #define shape(var,dim) var ## _Dims[dim] #define old_rank(var) (((PyArrayObject *)(capi_ ## var ## _tmp))->nd) #define old_shape(var,dim) (((PyArrayObject *)(capi_ ## var ## _tmp))->dimensions[dim]) #define fshape(var,dim) shape(var,rank(var)-dim-1) #define len(var) shape(var,0) #define flen(var) fshape(var,0) #define old_size(var) PyArray_SIZE((PyArrayObject *)(capi_ ## var ## _tmp)) /* #define index(i) capi_i ## i */ #define slen(var) capi_ ## var ## _len #define size(var, ...) f2py_size((PyArrayObject *)(capi_ ## var ## _tmp), ## __VA_ARGS__, -1) #ifdef DEBUGCFUNCS #define CFUNCSMESS(mess) fprintf(stderr,"debug-capi:"mess); #define CFUNCSMESSPY(mess,obj) CFUNCSMESS(mess) \ PyObject_Print((PyObject *)obj,stderr,Py_PRINT_RAW);\ fprintf(stderr,"\n"); #else #define CFUNCSMESS(mess) #define CFUNCSMESSPY(mess,obj) #endif #ifndef max #define max(a,b) ((a > b) ? (a) : (b)) #endif #ifndef min #define min(a,b) ((a < b) ? (a) : (b)) #endif #ifndef MAX #define MAX(a,b) ((a > b) ? (a) : (b)) #endif #ifndef MIN #define MIN(a,b) ((a < b) ? (a) : (b)) #endif #define CHECKSCALAR(check,tcheck,name,show,var)\ if (!(check)) {\ char errstring[256];\ sprintf(errstring, "%s: "show, "("tcheck") failed for "name, var);\ PyErr_SetString(c_library_error,errstring);\ /*goto capi_fail;*/\ } else #if defined(PREPEND_FORTRAN) #if defined(NO_APPEND_FORTRAN) #if defined(UPPERCASE_FORTRAN) #define F_FUNC(f,F) _##F #else #define F_FUNC(f,F) _##f #endif #else #if defined(UPPERCASE_FORTRAN) #define F_FUNC(f,F) _##F##_ #else #define F_FUNC(f,F) _##f##_ #endif #endif #else #if defined(NO_APPEND_FORTRAN) #if defined(UPPERCASE_FORTRAN) #define F_FUNC(f,F) F #else #define F_FUNC(f,F) f #endif #else #if defined(UPPERCASE_FORTRAN) #define F_FUNC(f,F) F##_ #else #define F_FUNC(f,F) f##_ #endif #endif #endif #if defined(UNDERSCORE_G77) #define F_FUNC_US(f,F) F_FUNC(f##_,F##_) #else #define F_FUNC_US(f,F) F_FUNC(f,F) #endif /************************ See f2py2e/cfuncs.py: cfuncs ************************/ static int f2py_size(PyArrayObject* var, ...) { npy_int sz = 0; npy_int dim; npy_int rank; va_list argp; va_start(argp, var); dim = va_arg(argp, npy_int); if (dim==-1) { sz = PyArray_SIZE(var); } else { rank = PyArray_NDIM(var); if (dim>=1 && dim<=rank) sz = PyArray_DIM(var, dim-1); else fprintf(stderr, "f2py_size: 2nd argument value=%d fails to satisfy 1<=value<=%d. Result will be 0.\n", dim, rank); } va_end(argp); return sz; } static int double_from_pyobj(double* v,PyObject *obj,const char *errmess) { PyObject* tmp = NULL; if (PyFloat_Check(obj)) { #ifdef __sgi *v = PyFloat_AsDouble(obj); #else *v = PyFloat_AS_DOUBLE(obj); #endif return 1; } tmp = PyNumber_Float(obj); if (tmp) { #ifdef __sgi *v = PyFloat_AsDouble(tmp); #else *v = PyFloat_AS_DOUBLE(tmp); #endif Py_DECREF(tmp); return 1; } if (PyComplex_Check(obj)) tmp = PyObject_GetAttrString(obj,"real"); else if (PyString_Check(obj) || PyUnicode_Check(obj)) /*pass*/; else if (PySequence_Check(obj)) tmp = PySequence_GetItem(obj,0); if (tmp) { PyErr_Clear(); if (double_from_pyobj(v,tmp,errmess)) {Py_DECREF(tmp); return 1;} Py_DECREF(tmp); } { PyObject* err = PyErr_Occurred(); if (err==NULL) err = c_library_error; PyErr_SetString(err,errmess); } return 0; } static int int_from_pyobj(int* v,PyObject *obj,const char *errmess) { PyObject* tmp = NULL; if (PyInt_Check(obj)) { *v = (int)PyInt_AS_LONG(obj); return 1; } tmp = PyNumber_Int(obj); if (tmp) { *v = PyInt_AS_LONG(tmp); Py_DECREF(tmp); return 1; } if (PyComplex_Check(obj)) tmp = PyObject_GetAttrString(obj,"real"); else if (PyString_Check(obj) || PyUnicode_Check(obj)) /*pass*/; else if (PySequence_Check(obj)) tmp = PySequence_GetItem(obj,0); if (tmp) { PyErr_Clear(); if (int_from_pyobj(v,tmp,errmess)) {Py_DECREF(tmp); return 1;} Py_DECREF(tmp); } { PyObject* err = PyErr_Occurred(); if (err==NULL) err = c_library_error; PyErr_SetString(err,errmess); } return 0; } /********************* See f2py2e/cfuncs.py: userincludes *********************/ /*need_userincludes*/ /********************* See f2py2e/capi_rules.py: usercode *********************/ /* See f2py2e/rules.py */ extern void findrfc(double*,double,int*,int,int*); extern void findcross(double*,double,int*,int,int*); extern void disufq(double*,double*,double*,double*,double*,double*,double,double,int,int,int,int); extern void disufq2(double*,double*,double*,double*,double*,double*,double*,double*,double,double,int,int,int,int); extern void findrfc3_astm(double*,double*,int,int*); extern void findrfc5_astm(double*,double*,double*,int,int*); /*eof externroutines*/ /******************** See f2py2e/capi_rules.py: usercode1 ********************/ /******************* See f2py2e/cb_rules.py: buildcallback *******************/ /*need_callbacks*/ /*********************** See f2py2e/rules.py: buildapi ***********************/ /********************************** findrfc **********************************/ static char doc_f2py_rout_c_library_findrfc[] = "\ ind,info = findrfc(y1,hmin)\n\nWrapper for ``findrfc``.\ \n\nParameters\n----------\n" "y1 : input rank-1 array('d') with bounds (n)\n" "hmin : input float\n" "\nReturns\n-------\n" "ind : rank-1 array('i') with bounds (n)\n" "info : rank-1 array('i') with bounds (1)"; /* extern void findrfc(double*,double,int*,int,int*); */ static PyObject *f2py_rout_c_library_findrfc(const PyObject *capi_self, PyObject *capi_args, PyObject *capi_keywds, void (*f2py_func)(double*,double,int*,int,int*)) { PyObject * volatile capi_buildvalue = NULL; volatile int f2py_success = 1; /*decl*/ double *y1 = NULL; npy_intp y1_Dims[1] = {-1}; const int y1_Rank = 1; PyArrayObject *capi_y1_tmp = NULL; int capi_y1_intent = 0; PyObject *y1_capi = Py_None; double hmin = 0; PyObject *hmin_capi = Py_None; int *ind = NULL; npy_intp ind_Dims[1] = {-1}; const int ind_Rank = 1; PyArrayObject *capi_ind_tmp = NULL; int capi_ind_intent = 0; int n = 0; int *info = NULL; npy_intp info_Dims[1] = {-1}; const int info_Rank = 1; PyArrayObject *capi_info_tmp = NULL; int capi_info_intent = 0; static char *capi_kwlist[] = {"y1","hmin",NULL}; /*routdebugenter*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_clock(); #endif if (!PyArg_ParseTupleAndKeywords(capi_args,capi_keywds,\ "OO:c_library.findrfc",\ capi_kwlist,&y1_capi,&hmin_capi)) return NULL; /*frompyobj*/ /* Processing variable info */ info_Dims[0]=1; capi_info_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_info_tmp = array_from_pyobj(NPY_INT,info_Dims,info_Rank,capi_info_intent,Py_None); if (capi_info_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `info' of c_library.findrfc to C/Fortran array" ); } else { info = (int *)(capi_info_tmp->data); /* Processing variable y1 */ ; capi_y1_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_y1_tmp = array_from_pyobj(NPY_DOUBLE,y1_Dims,y1_Rank,capi_y1_intent,y1_capi); if (capi_y1_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 1st argument `y1' of c_library.findrfc to C/Fortran array" ); } else { y1 = (double *)(capi_y1_tmp->data); /* Processing variable hmin */ f2py_success = double_from_pyobj(&hmin,hmin_capi,"c_library.findrfc() 2nd argument (hmin) can't be converted to double"); if (f2py_success) { /* Processing variable n */ n = len(y1); /* Processing variable ind */ ind_Dims[0]=n; capi_ind_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_ind_tmp = array_from_pyobj(NPY_INT,ind_Dims,ind_Rank,capi_ind_intent,Py_None); if (capi_ind_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `ind' of c_library.findrfc to C/Fortran array" ); } else { ind = (int *)(capi_ind_tmp->data); /*end of frompyobj*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_call_clock(); #endif /*callfortranroutine*/ (*f2py_func)(y1,hmin,ind,n,info); if (PyErr_Occurred()) f2py_success = 0; #ifdef F2PY_REPORT_ATEXIT f2py_stop_call_clock(); #endif /*end of callfortranroutine*/ if (f2py_success) { /*pyobjfrom*/ /*end of pyobjfrom*/ CFUNCSMESS("Building return value.\n"); capi_buildvalue = Py_BuildValue("NN",capi_ind_tmp,capi_info_tmp); /*closepyobjfrom*/ /*end of closepyobjfrom*/ } /*if (f2py_success) after callfortranroutine*/ /*cleanupfrompyobj*/ } /*if (capi_ind_tmp == NULL) ... else of ind*/ /* End of cleaning variable ind */ /* End of cleaning variable n */ } /*if (f2py_success) of hmin*/ /* End of cleaning variable hmin */ if((PyObject *)capi_y1_tmp!=y1_capi) { Py_XDECREF(capi_y1_tmp); } } /*if (capi_y1_tmp == NULL) ... else of y1*/ /* End of cleaning variable y1 */ } /*if (capi_info_tmp == NULL) ... else of info*/ /* End of cleaning variable info */ /*end of cleanupfrompyobj*/ if (capi_buildvalue == NULL) { /*routdebugfailure*/ } else { /*routdebugleave*/ } CFUNCSMESS("Freeing memory.\n"); /*freemem*/ #ifdef F2PY_REPORT_ATEXIT f2py_stop_clock(); #endif return capi_buildvalue; } /******************************* end of findrfc *******************************/ /********************************* findcross *********************************/ static char doc_f2py_rout_c_library_findcross[] = "\ ind,info = findcross(y,v)\n\nWrapper for ``findcross``.\ \n\nParameters\n----------\n" "y : input rank-1 array('d') with bounds (n)\n" "v : input float\n" "\nReturns\n-------\n" "ind : rank-1 array('i') with bounds (n)\n" "info : rank-1 array('i') with bounds (1)"; /* extern void findcross(double*,double,int*,int,int*); */ static PyObject *f2py_rout_c_library_findcross(const PyObject *capi_self, PyObject *capi_args, PyObject *capi_keywds, void (*f2py_func)(double*,double,int*,int,int*)) { PyObject * volatile capi_buildvalue = NULL; volatile int f2py_success = 1; /*decl*/ double *y = NULL; npy_intp y_Dims[1] = {-1}; const int y_Rank = 1; PyArrayObject *capi_y_tmp = NULL; int capi_y_intent = 0; PyObject *y_capi = Py_None; double v = 0; PyObject *v_capi = Py_None; int *ind = NULL; npy_intp ind_Dims[1] = {-1}; const int ind_Rank = 1; PyArrayObject *capi_ind_tmp = NULL; int capi_ind_intent = 0; int n = 0; int *info = NULL; npy_intp info_Dims[1] = {-1}; const int info_Rank = 1; PyArrayObject *capi_info_tmp = NULL; int capi_info_intent = 0; static char *capi_kwlist[] = {"y","v",NULL}; /*routdebugenter*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_clock(); #endif if (!PyArg_ParseTupleAndKeywords(capi_args,capi_keywds,\ "OO:c_library.findcross",\ capi_kwlist,&y_capi,&v_capi)) return NULL; /*frompyobj*/ /* Processing variable info */ info_Dims[0]=1; capi_info_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_info_tmp = array_from_pyobj(NPY_INT,info_Dims,info_Rank,capi_info_intent,Py_None); if (capi_info_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `info' of c_library.findcross to C/Fortran array" ); } else { info = (int *)(capi_info_tmp->data); /* Processing variable y */ ; capi_y_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_y_tmp = array_from_pyobj(NPY_DOUBLE,y_Dims,y_Rank,capi_y_intent,y_capi); if (capi_y_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 1st argument `y' of c_library.findcross to C/Fortran array" ); } else { y = (double *)(capi_y_tmp->data); /* Processing variable v */ f2py_success = double_from_pyobj(&v,v_capi,"c_library.findcross() 2nd argument (v) can't be converted to double"); if (f2py_success) { /* Processing variable n */ n = len(y); /* Processing variable ind */ ind_Dims[0]=n; capi_ind_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_ind_tmp = array_from_pyobj(NPY_INT,ind_Dims,ind_Rank,capi_ind_intent,Py_None); if (capi_ind_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `ind' of c_library.findcross to C/Fortran array" ); } else { ind = (int *)(capi_ind_tmp->data); /*end of frompyobj*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_call_clock(); #endif /*callfortranroutine*/ (*f2py_func)(y,v,ind,n,info); if (PyErr_Occurred()) f2py_success = 0; #ifdef F2PY_REPORT_ATEXIT f2py_stop_call_clock(); #endif /*end of callfortranroutine*/ if (f2py_success) { /*pyobjfrom*/ /*end of pyobjfrom*/ CFUNCSMESS("Building return value.\n"); capi_buildvalue = Py_BuildValue("NN",capi_ind_tmp,capi_info_tmp); /*closepyobjfrom*/ /*end of closepyobjfrom*/ } /*if (f2py_success) after callfortranroutine*/ /*cleanupfrompyobj*/ } /*if (capi_ind_tmp == NULL) ... else of ind*/ /* End of cleaning variable ind */ /* End of cleaning variable n */ } /*if (f2py_success) of v*/ /* End of cleaning variable v */ if((PyObject *)capi_y_tmp!=y_capi) { Py_XDECREF(capi_y_tmp); } } /*if (capi_y_tmp == NULL) ... else of y*/ /* End of cleaning variable y */ } /*if (capi_info_tmp == NULL) ... else of info*/ /* End of cleaning variable info */ /*end of cleanupfrompyobj*/ if (capi_buildvalue == NULL) { /*routdebugfailure*/ } else { /*routdebugleave*/ } CFUNCSMESS("Freeing memory.\n"); /*freemem*/ #ifdef F2PY_REPORT_ATEXIT f2py_stop_clock(); #endif return capi_buildvalue; } /****************************** end of findcross ******************************/ /*********************************** disufq ***********************************/ static char doc_f2py_rout_c_library_disufq[] = "\ rvec,ivec = disufq(rA,iA,w,kw,h,g,nmin,nmax,m,[n])\n\nWrapper for ``disufq``.\ \n\nParameters\n----------\n" "rA : input rank-1 array('d') with bounds (n*m)\n" "iA : input rank-1 array('d') with bounds (n*m)\n" "w : input rank-1 array('d') with bounds (0.5 * n + 1.0)\n" "kw : input rank-1 array('d') with bounds (0.5 * n + 1.0)\n" "h : input float\n" "g : input float\n" "nmin : input int\n" "nmax : input int\n" "m : input int\n" "\nOther Parameters\n----------------\n" "n : input int, optional\n Default: (len(w)-1.0)/(0.5)\n" "\nReturns\n-------\n" "rvec : rank-1 array('d') with bounds (n*m)\n" "ivec : rank-1 array('d') with bounds (n*m)"; /* extern void disufq(double*,double*,double*,double*,double*,double*,double,double,int,int,int,int); */ static PyObject *f2py_rout_c_library_disufq(const PyObject *capi_self, PyObject *capi_args, PyObject *capi_keywds, void (*f2py_func)(double*,double*,double*,double*,double*,double*,double,double,int,int,int,int)) { PyObject * volatile capi_buildvalue = NULL; volatile int f2py_success = 1; /*decl*/ double *rvec = NULL; npy_intp rvec_Dims[1] = {-1}; const int rvec_Rank = 1; PyArrayObject *capi_rvec_tmp = NULL; int capi_rvec_intent = 0; double *ivec = NULL; npy_intp ivec_Dims[1] = {-1}; const int ivec_Rank = 1; PyArrayObject *capi_ivec_tmp = NULL; int capi_ivec_intent = 0; double *rA = NULL; npy_intp rA_Dims[1] = {-1}; const int rA_Rank = 1; PyArrayObject *capi_rA_tmp = NULL; int capi_rA_intent = 0; PyObject *rA_capi = Py_None; double *iA = NULL; npy_intp iA_Dims[1] = {-1}; const int iA_Rank = 1; PyArrayObject *capi_iA_tmp = NULL; int capi_iA_intent = 0; PyObject *iA_capi = Py_None; double *w = NULL; npy_intp w_Dims[1] = {-1}; const int w_Rank = 1; PyArrayObject *capi_w_tmp = NULL; int capi_w_intent = 0; PyObject *w_capi = Py_None; double *kw = NULL; npy_intp kw_Dims[1] = {-1}; const int kw_Rank = 1; PyArrayObject *capi_kw_tmp = NULL; int capi_kw_intent = 0; PyObject *kw_capi = Py_None; double h = 0; PyObject *h_capi = Py_None; double g = 0; PyObject *g_capi = Py_None; int nmin = 0; PyObject *nmin_capi = Py_None; int nmax = 0; PyObject *nmax_capi = Py_None; int m = 0; PyObject *m_capi = Py_None; int n = 0; PyObject *n_capi = Py_None; static char *capi_kwlist[] = {"rA","iA","w","kw","h","g","nmin","nmax","m","n",NULL}; /*routdebugenter*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_clock(); #endif if (!PyArg_ParseTupleAndKeywords(capi_args,capi_keywds,\ "OOOOOOOOO|O:c_library.disufq",\ capi_kwlist,&rA_capi,&iA_capi,&w_capi,&kw_capi,&h_capi,&g_capi,&nmin_capi,&nmax_capi,&m_capi,&n_capi)) return NULL; /*frompyobj*/ /* Processing variable nmax */ f2py_success = int_from_pyobj(&nmax,nmax_capi,"c_library.disufq() 8th argument (nmax) can't be converted to int"); if (f2py_success) { /* Processing variable g */ f2py_success = double_from_pyobj(&g,g_capi,"c_library.disufq() 6th argument (g) can't be converted to double"); if (f2py_success) { /* Processing variable h */ f2py_success = double_from_pyobj(&h,h_capi,"c_library.disufq() 5th argument (h) can't be converted to double"); if (f2py_success) { /* Processing variable m */ f2py_success = int_from_pyobj(&m,m_capi,"c_library.disufq() 9th argument (m) can't be converted to int"); if (f2py_success) { /* Processing variable w */ ; capi_w_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_w_tmp = array_from_pyobj(NPY_DOUBLE,w_Dims,w_Rank,capi_w_intent,w_capi); if (capi_w_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 3rd argument `w' of c_library.disufq to C/Fortran array" ); } else { w = (double *)(capi_w_tmp->data); /* Processing variable nmin */ f2py_success = int_from_pyobj(&nmin,nmin_capi,"c_library.disufq() 7th argument (nmin) can't be converted to int"); if (f2py_success) { /* Processing variable n */ if (n_capi == Py_None) n = (len(w)-1.0)/(0.5); else f2py_success = int_from_pyobj(&n,n_capi,"c_library.disufq() 1st keyword (n) can't be converted to int"); if (f2py_success) { CHECKSCALAR((len(w)-1.0)/(0.5)>=n,"(len(w)-1.0)/(0.5)>=n","1st keyword n","disufq:n=%d",n) { /* Processing variable kw */ kw_Dims[0]=0.5 * n + 1.0; capi_kw_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_kw_tmp = array_from_pyobj(NPY_DOUBLE,kw_Dims,kw_Rank,capi_kw_intent,kw_capi); if (capi_kw_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 4th argument `kw' of c_library.disufq to C/Fortran array" ); } else { kw = (double *)(capi_kw_tmp->data); /* Processing variable rA */ rA_Dims[0]=n*m; capi_rA_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_rA_tmp = array_from_pyobj(NPY_DOUBLE,rA_Dims,rA_Rank,capi_rA_intent,rA_capi); if (capi_rA_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 1st argument `rA' of c_library.disufq to C/Fortran array" ); } else { rA = (double *)(capi_rA_tmp->data); /* Processing variable iA */ iA_Dims[0]=n*m; capi_iA_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_iA_tmp = array_from_pyobj(NPY_DOUBLE,iA_Dims,iA_Rank,capi_iA_intent,iA_capi); if (capi_iA_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 2nd argument `iA' of c_library.disufq to C/Fortran array" ); } else { iA = (double *)(capi_iA_tmp->data); /* Processing variable ivec */ ivec_Dims[0]=n*m; capi_ivec_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_ivec_tmp = array_from_pyobj(NPY_DOUBLE,ivec_Dims,ivec_Rank,capi_ivec_intent,Py_None); if (capi_ivec_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `ivec' of c_library.disufq to C/Fortran array" ); } else { ivec = (double *)(capi_ivec_tmp->data); /* Processing variable rvec */ rvec_Dims[0]=n*m; capi_rvec_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_rvec_tmp = array_from_pyobj(NPY_DOUBLE,rvec_Dims,rvec_Rank,capi_rvec_intent,Py_None); if (capi_rvec_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `rvec' of c_library.disufq to C/Fortran array" ); } else { rvec = (double *)(capi_rvec_tmp->data); /*end of frompyobj*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_call_clock(); #endif /*callfortranroutine*/ (*f2py_func)(rvec,ivec,rA,iA,w,kw,h,g,nmin,nmax,m,n); if (PyErr_Occurred()) f2py_success = 0; #ifdef F2PY_REPORT_ATEXIT f2py_stop_call_clock(); #endif /*end of callfortranroutine*/ if (f2py_success) { /*pyobjfrom*/ /*end of pyobjfrom*/ CFUNCSMESS("Building return value.\n"); capi_buildvalue = Py_BuildValue("NN",capi_rvec_tmp,capi_ivec_tmp); /*closepyobjfrom*/ /*end of closepyobjfrom*/ } /*if (f2py_success) after callfortranroutine*/ /*cleanupfrompyobj*/ } /*if (capi_rvec_tmp == NULL) ... else of rvec*/ /* End of cleaning variable rvec */ } /*if (capi_ivec_tmp == NULL) ... else of ivec*/ /* End of cleaning variable ivec */ if((PyObject *)capi_iA_tmp!=iA_capi) { Py_XDECREF(capi_iA_tmp); } } /*if (capi_iA_tmp == NULL) ... else of iA*/ /* End of cleaning variable iA */ if((PyObject *)capi_rA_tmp!=rA_capi) { Py_XDECREF(capi_rA_tmp); } } /*if (capi_rA_tmp == NULL) ... else of rA*/ /* End of cleaning variable rA */ if((PyObject *)capi_kw_tmp!=kw_capi) { Py_XDECREF(capi_kw_tmp); } } /*if (capi_kw_tmp == NULL) ... else of kw*/ /* End of cleaning variable kw */ } /*CHECKSCALAR((len(w)-1.0)/(0.5)>=n)*/ } /*if (f2py_success) of n*/ /* End of cleaning variable n */ } /*if (f2py_success) of nmin*/ /* End of cleaning variable nmin */ if((PyObject *)capi_w_tmp!=w_capi) { Py_XDECREF(capi_w_tmp); } } /*if (capi_w_tmp == NULL) ... else of w*/ /* End of cleaning variable w */ } /*if (f2py_success) of m*/ /* End of cleaning variable m */ } /*if (f2py_success) of h*/ /* End of cleaning variable h */ } /*if (f2py_success) of g*/ /* End of cleaning variable g */ } /*if (f2py_success) of nmax*/ /* End of cleaning variable nmax */ /*end of cleanupfrompyobj*/ if (capi_buildvalue == NULL) { /*routdebugfailure*/ } else { /*routdebugleave*/ } CFUNCSMESS("Freeing memory.\n"); /*freemem*/ #ifdef F2PY_REPORT_ATEXIT f2py_stop_clock(); #endif return capi_buildvalue; } /******************************* end of disufq *******************************/ /********************************** disufq2 **********************************/ static char doc_f2py_rout_c_library_disufq2[] = "\ rsvec,isvec,rdvec,idvec = disufq2(rA,iA,w,kw,h,g,nmin,nmax,m,[n])\n\nWrapper for ``disufq2``.\ \n\nParameters\n----------\n" "rA : input rank-1 array('d') with bounds (n*m)\n" "iA : input rank-1 array('d') with bounds (n*m)\n" "w : input rank-1 array('d') with bounds (0.5 * n + 1.0)\n" "kw : input rank-1 array('d') with bounds (0.5 * n + 1.0)\n" "h : input float\n" "g : input float\n" "nmin : input int\n" "nmax : input int\n" "m : input int\n" "\nOther Parameters\n----------------\n" "n : input int, optional\n Default: (len(w)-1.0)/(0.5)\n" "\nReturns\n-------\n" "rsvec : rank-1 array('d') with bounds (n*m)\n" "isvec : rank-1 array('d') with bounds (n*m)\n" "rdvec : rank-1 array('d') with bounds (n*m)\n" "idvec : rank-1 array('d') with bounds (n*m)"; /* extern void disufq2(double*,double*,double*,double*,double*,double*,double*,double*,double,double,int,int,int,int); */ static PyObject *f2py_rout_c_library_disufq2(const PyObject *capi_self, PyObject *capi_args, PyObject *capi_keywds, void (*f2py_func)(double*,double*,double*,double*,double*,double*,double*,double*,double,double,int,int,int,int)) { PyObject * volatile capi_buildvalue = NULL; volatile int f2py_success = 1; /*decl*/ double *rsvec = NULL; npy_intp rsvec_Dims[1] = {-1}; const int rsvec_Rank = 1; PyArrayObject *capi_rsvec_tmp = NULL; int capi_rsvec_intent = 0; double *isvec = NULL; npy_intp isvec_Dims[1] = {-1}; const int isvec_Rank = 1; PyArrayObject *capi_isvec_tmp = NULL; int capi_isvec_intent = 0; double *rdvec = NULL; npy_intp rdvec_Dims[1] = {-1}; const int rdvec_Rank = 1; PyArrayObject *capi_rdvec_tmp = NULL; int capi_rdvec_intent = 0; double *idvec = NULL; npy_intp idvec_Dims[1] = {-1}; const int idvec_Rank = 1; PyArrayObject *capi_idvec_tmp = NULL; int capi_idvec_intent = 0; double *rA = NULL; npy_intp rA_Dims[1] = {-1}; const int rA_Rank = 1; PyArrayObject *capi_rA_tmp = NULL; int capi_rA_intent = 0; PyObject *rA_capi = Py_None; double *iA = NULL; npy_intp iA_Dims[1] = {-1}; const int iA_Rank = 1; PyArrayObject *capi_iA_tmp = NULL; int capi_iA_intent = 0; PyObject *iA_capi = Py_None; double *w = NULL; npy_intp w_Dims[1] = {-1}; const int w_Rank = 1; PyArrayObject *capi_w_tmp = NULL; int capi_w_intent = 0; PyObject *w_capi = Py_None; double *kw = NULL; npy_intp kw_Dims[1] = {-1}; const int kw_Rank = 1; PyArrayObject *capi_kw_tmp = NULL; int capi_kw_intent = 0; PyObject *kw_capi = Py_None; double h = 0; PyObject *h_capi = Py_None; double g = 0; PyObject *g_capi = Py_None; int nmin = 0; PyObject *nmin_capi = Py_None; int nmax = 0; PyObject *nmax_capi = Py_None; int m = 0; PyObject *m_capi = Py_None; int n = 0; PyObject *n_capi = Py_None; static char *capi_kwlist[] = {"rA","iA","w","kw","h","g","nmin","nmax","m","n",NULL}; /*routdebugenter*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_clock(); #endif if (!PyArg_ParseTupleAndKeywords(capi_args,capi_keywds,\ "OOOOOOOOO|O:c_library.disufq2",\ capi_kwlist,&rA_capi,&iA_capi,&w_capi,&kw_capi,&h_capi,&g_capi,&nmin_capi,&nmax_capi,&m_capi,&n_capi)) return NULL; /*frompyobj*/ /* Processing variable nmax */ f2py_success = int_from_pyobj(&nmax,nmax_capi,"c_library.disufq2() 8th argument (nmax) can't be converted to int"); if (f2py_success) { /* Processing variable g */ f2py_success = double_from_pyobj(&g,g_capi,"c_library.disufq2() 6th argument (g) can't be converted to double"); if (f2py_success) { /* Processing variable m */ f2py_success = int_from_pyobj(&m,m_capi,"c_library.disufq2() 9th argument (m) can't be converted to int"); if (f2py_success) { /* Processing variable w */ ; capi_w_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_w_tmp = array_from_pyobj(NPY_DOUBLE,w_Dims,w_Rank,capi_w_intent,w_capi); if (capi_w_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 3rd argument `w' of c_library.disufq2 to C/Fortran array" ); } else { w = (double *)(capi_w_tmp->data); /* Processing variable h */ f2py_success = double_from_pyobj(&h,h_capi,"c_library.disufq2() 5th argument (h) can't be converted to double"); if (f2py_success) { /* Processing variable nmin */ f2py_success = int_from_pyobj(&nmin,nmin_capi,"c_library.disufq2() 7th argument (nmin) can't be converted to int"); if (f2py_success) { /* Processing variable n */ if (n_capi == Py_None) n = (len(w)-1.0)/(0.5); else f2py_success = int_from_pyobj(&n,n_capi,"c_library.disufq2() 1st keyword (n) can't be converted to int"); if (f2py_success) { CHECKSCALAR((len(w)-1.0)/(0.5)>=n,"(len(w)-1.0)/(0.5)>=n","1st keyword n","disufq2:n=%d",n) { /* Processing variable rdvec */ rdvec_Dims[0]=n*m; capi_rdvec_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_rdvec_tmp = array_from_pyobj(NPY_DOUBLE,rdvec_Dims,rdvec_Rank,capi_rdvec_intent,Py_None); if (capi_rdvec_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `rdvec' of c_library.disufq2 to C/Fortran array" ); } else { rdvec = (double *)(capi_rdvec_tmp->data); /* Processing variable idvec */ idvec_Dims[0]=n*m; capi_idvec_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_idvec_tmp = array_from_pyobj(NPY_DOUBLE,idvec_Dims,idvec_Rank,capi_idvec_intent,Py_None); if (capi_idvec_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `idvec' of c_library.disufq2 to C/Fortran array" ); } else { idvec = (double *)(capi_idvec_tmp->data); /* Processing variable isvec */ isvec_Dims[0]=n*m; capi_isvec_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_isvec_tmp = array_from_pyobj(NPY_DOUBLE,isvec_Dims,isvec_Rank,capi_isvec_intent,Py_None); if (capi_isvec_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `isvec' of c_library.disufq2 to C/Fortran array" ); } else { isvec = (double *)(capi_isvec_tmp->data); /* Processing variable rsvec */ rsvec_Dims[0]=n*m; capi_rsvec_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_rsvec_tmp = array_from_pyobj(NPY_DOUBLE,rsvec_Dims,rsvec_Rank,capi_rsvec_intent,Py_None); if (capi_rsvec_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `rsvec' of c_library.disufq2 to C/Fortran array" ); } else { rsvec = (double *)(capi_rsvec_tmp->data); /* Processing variable kw */ kw_Dims[0]=0.5 * n + 1.0; capi_kw_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_kw_tmp = array_from_pyobj(NPY_DOUBLE,kw_Dims,kw_Rank,capi_kw_intent,kw_capi); if (capi_kw_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 4th argument `kw' of c_library.disufq2 to C/Fortran array" ); } else { kw = (double *)(capi_kw_tmp->data); /* Processing variable rA */ rA_Dims[0]=n*m; capi_rA_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_rA_tmp = array_from_pyobj(NPY_DOUBLE,rA_Dims,rA_Rank,capi_rA_intent,rA_capi); if (capi_rA_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 1st argument `rA' of c_library.disufq2 to C/Fortran array" ); } else { rA = (double *)(capi_rA_tmp->data); /* Processing variable iA */ iA_Dims[0]=n*m; capi_iA_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_iA_tmp = array_from_pyobj(NPY_DOUBLE,iA_Dims,iA_Rank,capi_iA_intent,iA_capi); if (capi_iA_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 2nd argument `iA' of c_library.disufq2 to C/Fortran array" ); } else { iA = (double *)(capi_iA_tmp->data); /*end of frompyobj*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_call_clock(); #endif /*callfortranroutine*/ (*f2py_func)(rsvec,isvec,rdvec,idvec,rA,iA,w,kw,h,g,nmin,nmax,m,n); if (PyErr_Occurred()) f2py_success = 0; #ifdef F2PY_REPORT_ATEXIT f2py_stop_call_clock(); #endif /*end of callfortranroutine*/ if (f2py_success) { /*pyobjfrom*/ /*end of pyobjfrom*/ CFUNCSMESS("Building return value.\n"); capi_buildvalue = Py_BuildValue("NNNN",capi_rsvec_tmp,capi_isvec_tmp,capi_rdvec_tmp,capi_idvec_tmp); /*closepyobjfrom*/ /*end of closepyobjfrom*/ } /*if (f2py_success) after callfortranroutine*/ /*cleanupfrompyobj*/ if((PyObject *)capi_iA_tmp!=iA_capi) { Py_XDECREF(capi_iA_tmp); } } /*if (capi_iA_tmp == NULL) ... else of iA*/ /* End of cleaning variable iA */ if((PyObject *)capi_rA_tmp!=rA_capi) { Py_XDECREF(capi_rA_tmp); } } /*if (capi_rA_tmp == NULL) ... else of rA*/ /* End of cleaning variable rA */ if((PyObject *)capi_kw_tmp!=kw_capi) { Py_XDECREF(capi_kw_tmp); } } /*if (capi_kw_tmp == NULL) ... else of kw*/ /* End of cleaning variable kw */ } /*if (capi_rsvec_tmp == NULL) ... else of rsvec*/ /* End of cleaning variable rsvec */ } /*if (capi_isvec_tmp == NULL) ... else of isvec*/ /* End of cleaning variable isvec */ } /*if (capi_idvec_tmp == NULL) ... else of idvec*/ /* End of cleaning variable idvec */ } /*if (capi_rdvec_tmp == NULL) ... else of rdvec*/ /* End of cleaning variable rdvec */ } /*CHECKSCALAR((len(w)-1.0)/(0.5)>=n)*/ } /*if (f2py_success) of n*/ /* End of cleaning variable n */ } /*if (f2py_success) of nmin*/ /* End of cleaning variable nmin */ } /*if (f2py_success) of h*/ /* End of cleaning variable h */ if((PyObject *)capi_w_tmp!=w_capi) { Py_XDECREF(capi_w_tmp); } } /*if (capi_w_tmp == NULL) ... else of w*/ /* End of cleaning variable w */ } /*if (f2py_success) of m*/ /* End of cleaning variable m */ } /*if (f2py_success) of g*/ /* End of cleaning variable g */ } /*if (f2py_success) of nmax*/ /* End of cleaning variable nmax */ /*end of cleanupfrompyobj*/ if (capi_buildvalue == NULL) { /*routdebugfailure*/ } else { /*routdebugleave*/ } CFUNCSMESS("Freeing memory.\n"); /*freemem*/ #ifdef F2PY_REPORT_ATEXIT f2py_stop_clock(); #endif return capi_buildvalue; } /******************************* end of disufq2 *******************************/ /******************************* findrfc3_astm *******************************/ static char doc_f2py_rout_c_library_findrfc3_astm[] = "\ array_out,nout = findrfc3_astm(array_ext)\n\nWrapper for ``findrfc3_astm``.\ \n\nParameters\n----------\n" "array_ext : input rank-1 array('d') with bounds (n)\n" "\nReturns\n-------\n" "array_out : rank-2 array('d') with bounds (n,3)\n" "nout : rank-1 array('i') with bounds (2)"; /* extern void findrfc3_astm(double*,double*,int,int*); */ static PyObject *f2py_rout_c_library_findrfc3_astm(const PyObject *capi_self, PyObject *capi_args, PyObject *capi_keywds, void (*f2py_func)(double*,double*,int,int*)) { PyObject * volatile capi_buildvalue = NULL; volatile int f2py_success = 1; /*decl*/ double *array_ext = NULL; npy_intp array_ext_Dims[1] = {-1}; const int array_ext_Rank = 1; PyArrayObject *capi_array_ext_tmp = NULL; int capi_array_ext_intent = 0; PyObject *array_ext_capi = Py_None; double *array_out = NULL; npy_intp array_out_Dims[2] = {-1, -1}; const int array_out_Rank = 2; PyArrayObject *capi_array_out_tmp = NULL; int capi_array_out_intent = 0; int n = 0; int *nout = NULL; npy_intp nout_Dims[1] = {-1}; const int nout_Rank = 1; PyArrayObject *capi_nout_tmp = NULL; int capi_nout_intent = 0; static char *capi_kwlist[] = {"array_ext",NULL}; /*routdebugenter*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_clock(); #endif if (!PyArg_ParseTupleAndKeywords(capi_args,capi_keywds,\ "O:c_library.findrfc3_astm",\ capi_kwlist,&array_ext_capi)) return NULL; /*frompyobj*/ /* Processing variable array_ext */ ; capi_array_ext_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_array_ext_tmp = array_from_pyobj(NPY_DOUBLE,array_ext_Dims,array_ext_Rank,capi_array_ext_intent,array_ext_capi); if (capi_array_ext_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 1st argument `array_ext' of c_library.findrfc3_astm to C/Fortran array" ); } else { array_ext = (double *)(capi_array_ext_tmp->data); /* Processing variable nout */ nout_Dims[0]=2; capi_nout_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_nout_tmp = array_from_pyobj(NPY_INT,nout_Dims,nout_Rank,capi_nout_intent,Py_None); if (capi_nout_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `nout' of c_library.findrfc3_astm to C/Fortran array" ); } else { nout = (int *)(capi_nout_tmp->data); /* Processing variable n */ n = len(array_ext); /* Processing variable array_out */ array_out_Dims[0]=n,array_out_Dims[1]=3; capi_array_out_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_array_out_tmp = array_from_pyobj(NPY_DOUBLE,array_out_Dims,array_out_Rank,capi_array_out_intent,Py_None); if (capi_array_out_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `array_out' of c_library.findrfc3_astm to C/Fortran array" ); } else { array_out = (double *)(capi_array_out_tmp->data); /*end of frompyobj*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_call_clock(); #endif /*callfortranroutine*/ (*f2py_func)(array_ext,array_out,n,nout); if (PyErr_Occurred()) f2py_success = 0; #ifdef F2PY_REPORT_ATEXIT f2py_stop_call_clock(); #endif /*end of callfortranroutine*/ if (f2py_success) { /*pyobjfrom*/ /*end of pyobjfrom*/ CFUNCSMESS("Building return value.\n"); capi_buildvalue = Py_BuildValue("NN",capi_array_out_tmp,capi_nout_tmp); /*closepyobjfrom*/ /*end of closepyobjfrom*/ } /*if (f2py_success) after callfortranroutine*/ /*cleanupfrompyobj*/ } /*if (capi_array_out_tmp == NULL) ... else of array_out*/ /* End of cleaning variable array_out */ /* End of cleaning variable n */ } /*if (capi_nout_tmp == NULL) ... else of nout*/ /* End of cleaning variable nout */ if((PyObject *)capi_array_ext_tmp!=array_ext_capi) { Py_XDECREF(capi_array_ext_tmp); } } /*if (capi_array_ext_tmp == NULL) ... else of array_ext*/ /* End of cleaning variable array_ext */ /*end of cleanupfrompyobj*/ if (capi_buildvalue == NULL) { /*routdebugfailure*/ } else { /*routdebugleave*/ } CFUNCSMESS("Freeing memory.\n"); /*freemem*/ #ifdef F2PY_REPORT_ATEXIT f2py_stop_clock(); #endif return capi_buildvalue; } /**************************** end of findrfc3_astm ****************************/ /******************************* findrfc5_astm *******************************/ static char doc_f2py_rout_c_library_findrfc5_astm[] = "\ array_out,nout = findrfc5_astm(array_ext,array_t)\n\nWrapper for ``findrfc5_astm``.\ \n\nParameters\n----------\n" "array_ext : input rank-1 array('d') with bounds (n)\n" "array_t : input rank-1 array('d') with bounds (n)\n" "\nReturns\n-------\n" "array_out : rank-2 array('d') with bounds (n,5)\n" "nout : rank-1 array('i') with bounds (2)"; /* extern void findrfc5_astm(double*,double*,double*,int,int*); */ static PyObject *f2py_rout_c_library_findrfc5_astm(const PyObject *capi_self, PyObject *capi_args, PyObject *capi_keywds, void (*f2py_func)(double*,double*,double*,int,int*)) { PyObject * volatile capi_buildvalue = NULL; volatile int f2py_success = 1; /*decl*/ double *array_ext = NULL; npy_intp array_ext_Dims[1] = {-1}; const int array_ext_Rank = 1; PyArrayObject *capi_array_ext_tmp = NULL; int capi_array_ext_intent = 0; PyObject *array_ext_capi = Py_None; double *array_t = NULL; npy_intp array_t_Dims[1] = {-1}; const int array_t_Rank = 1; PyArrayObject *capi_array_t_tmp = NULL; int capi_array_t_intent = 0; PyObject *array_t_capi = Py_None; double *array_out = NULL; npy_intp array_out_Dims[2] = {-1, -1}; const int array_out_Rank = 2; PyArrayObject *capi_array_out_tmp = NULL; int capi_array_out_intent = 0; int n = 0; int *nout = NULL; npy_intp nout_Dims[1] = {-1}; const int nout_Rank = 1; PyArrayObject *capi_nout_tmp = NULL; int capi_nout_intent = 0; static char *capi_kwlist[] = {"array_ext","array_t",NULL}; /*routdebugenter*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_clock(); #endif if (!PyArg_ParseTupleAndKeywords(capi_args,capi_keywds,\ "OO:c_library.findrfc5_astm",\ capi_kwlist,&array_ext_capi,&array_t_capi)) return NULL; /*frompyobj*/ /* Processing variable nout */ nout_Dims[0]=2; capi_nout_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_nout_tmp = array_from_pyobj(NPY_INT,nout_Dims,nout_Rank,capi_nout_intent,Py_None); if (capi_nout_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `nout' of c_library.findrfc5_astm to C/Fortran array" ); } else { nout = (int *)(capi_nout_tmp->data); /* Processing variable array_ext */ ; capi_array_ext_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_array_ext_tmp = array_from_pyobj(NPY_DOUBLE,array_ext_Dims,array_ext_Rank,capi_array_ext_intent,array_ext_capi); if (capi_array_ext_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 1st argument `array_ext' of c_library.findrfc5_astm to C/Fortran array" ); } else { array_ext = (double *)(capi_array_ext_tmp->data); /* Processing variable n */ n = len(array_ext); /* Processing variable array_t */ array_t_Dims[0]=n; capi_array_t_intent |= F2PY_INTENT_C|F2PY_INTENT_IN; capi_array_t_tmp = array_from_pyobj(NPY_DOUBLE,array_t_Dims,array_t_Rank,capi_array_t_intent,array_t_capi); if (capi_array_t_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting 2nd argument `array_t' of c_library.findrfc5_astm to C/Fortran array" ); } else { array_t = (double *)(capi_array_t_tmp->data); /* Processing variable array_out */ array_out_Dims[0]=n,array_out_Dims[1]=5; capi_array_out_intent |= F2PY_INTENT_HIDE|F2PY_INTENT_C|F2PY_INTENT_OUT; capi_array_out_tmp = array_from_pyobj(NPY_DOUBLE,array_out_Dims,array_out_Rank,capi_array_out_intent,Py_None); if (capi_array_out_tmp == NULL) { if (!PyErr_Occurred()) PyErr_SetString(c_library_error,"failed in converting hidden `array_out' of c_library.findrfc5_astm to C/Fortran array" ); } else { array_out = (double *)(capi_array_out_tmp->data); /*end of frompyobj*/ #ifdef F2PY_REPORT_ATEXIT f2py_start_call_clock(); #endif /*callfortranroutine*/ (*f2py_func)(array_ext,array_t,array_out,n,nout); if (PyErr_Occurred()) f2py_success = 0; #ifdef F2PY_REPORT_ATEXIT f2py_stop_call_clock(); #endif /*end of callfortranroutine*/ if (f2py_success) { /*pyobjfrom*/ /*end of pyobjfrom*/ CFUNCSMESS("Building return value.\n"); capi_buildvalue = Py_BuildValue("NN",capi_array_out_tmp,capi_nout_tmp); /*closepyobjfrom*/ /*end of closepyobjfrom*/ } /*if (f2py_success) after callfortranroutine*/ /*cleanupfrompyobj*/ } /*if (capi_array_out_tmp == NULL) ... else of array_out*/ /* End of cleaning variable array_out */ if((PyObject *)capi_array_t_tmp!=array_t_capi) { Py_XDECREF(capi_array_t_tmp); } } /*if (capi_array_t_tmp == NULL) ... else of array_t*/ /* End of cleaning variable array_t */ /* End of cleaning variable n */ if((PyObject *)capi_array_ext_tmp!=array_ext_capi) { Py_XDECREF(capi_array_ext_tmp); } } /*if (capi_array_ext_tmp == NULL) ... else of array_ext*/ /* End of cleaning variable array_ext */ } /*if (capi_nout_tmp == NULL) ... else of nout*/ /* End of cleaning variable nout */ /*end of cleanupfrompyobj*/ if (capi_buildvalue == NULL) { /*routdebugfailure*/ } else { /*routdebugleave*/ } CFUNCSMESS("Freeing memory.\n"); /*freemem*/ #ifdef F2PY_REPORT_ATEXIT f2py_stop_clock(); #endif return capi_buildvalue; } /**************************** end of findrfc5_astm ****************************/ /*eof body*/ /******************* See f2py2e/f90mod_rules.py: buildhooks *******************/ /*need_f90modhooks*/ /************** See f2py2e/rules.py: module_rules['modulebody'] **************/ /******************* See f2py2e/common_rules.py: buildhooks *******************/ /*need_commonhooks*/ /**************************** See f2py2e/rules.py ****************************/ static FortranDataDef f2py_routine_defs[] = { {"findrfc",-1,{{-1}},0,(char *)findrfc,(f2py_init_func)f2py_rout_c_library_findrfc,doc_f2py_rout_c_library_findrfc}, {"findcross",-1,{{-1}},0,(char *)findcross,(f2py_init_func)f2py_rout_c_library_findcross,doc_f2py_rout_c_library_findcross}, {"disufq",-1,{{-1}},0,(char *)disufq,(f2py_init_func)f2py_rout_c_library_disufq,doc_f2py_rout_c_library_disufq}, {"disufq2",-1,{{-1}},0,(char *)disufq2,(f2py_init_func)f2py_rout_c_library_disufq2,doc_f2py_rout_c_library_disufq2}, {"findrfc3_astm",-1,{{-1}},0,(char *)findrfc3_astm,(f2py_init_func)f2py_rout_c_library_findrfc3_astm,doc_f2py_rout_c_library_findrfc3_astm}, {"findrfc5_astm",-1,{{-1}},0,(char *)findrfc5_astm,(f2py_init_func)f2py_rout_c_library_findrfc5_astm,doc_f2py_rout_c_library_findrfc5_astm}, /*eof routine_defs*/ {NULL} }; static PyMethodDef f2py_module_methods[] = { {NULL,NULL} }; #if PY_VERSION_HEX >= 0x03000000 static struct PyModuleDef moduledef = { PyModuleDef_HEAD_INIT, "c_library", NULL, -1, f2py_module_methods, NULL, NULL, NULL, NULL }; #endif #if PY_VERSION_HEX >= 0x03000000 #define RETVAL m PyMODINIT_FUNC PyInit_c_library(void) { #else #define RETVAL PyMODINIT_FUNC initc_library(void) { #endif int i; PyObject *m,*d, *s; #if PY_VERSION_HEX >= 0x03000000 m = c_library_module = PyModule_Create(&moduledef); #else m = c_library_module = Py_InitModule("c_library", f2py_module_methods); #endif Py_TYPE(&PyFortran_Type) = &PyType_Type; import_array(); if (PyErr_Occurred()) {PyErr_SetString(PyExc_ImportError, "can't initialize module c_library (failed to import numpy)"); return RETVAL;} d = PyModule_GetDict(m); s = PyString_FromString("$Revision: $"); PyDict_SetItemString(d, "__version__", s); #if PY_VERSION_HEX >= 0x03000000 s = PyUnicode_FromString( #else s = PyString_FromString( #endif "This module 'c_library' is auto-generated with f2py (version:2).\nFunctions:\n" " ind,info = findrfc(y1,hmin)\n" " ind,info = findcross(y,v)\n" " rvec,ivec = disufq(rA,iA,w,kw,h,g,nmin,nmax,m,n=(len(w)-1.0)/(0.5))\n" " rsvec,isvec,rdvec,idvec = disufq2(rA,iA,w,kw,h,g,nmin,nmax,m,n=(len(w)-1.0)/(0.5))\n" " array_out,nout = findrfc3_astm(array_ext)\n" " array_out,nout = findrfc5_astm(array_ext,array_t)\n" "."); PyDict_SetItemString(d, "__doc__", s); c_library_error = PyErr_NewException ("c_library.error", NULL, NULL); Py_DECREF(s); for(i=0;f2py_routine_defs[i].name!=NULL;i++) PyDict_SetItemString(d, f2py_routine_defs[i].name,PyFortranObject_NewAsAttr(&f2py_routine_defs[i])); /*eof initf2pywraphooks*/ /*eof initf90modhooks*/ /*eof initcommonhooks*/ #ifdef F2PY_REPORT_ATEXIT if (! PyErr_Occurred()) on_exit(f2py_report_on_exit,(void*)"c_library"); #endif return RETVAL; } #ifdef __cplusplus } #endif