source: sasview/sansmodels/src/c_models/c_models.cpp @ 0a90d92

/** c_models
 *
 * Module containing all SANS model extensions
 *
 * @author   M.Doucet / UTK
 */
#include <Python.h>
#include <parameters.hh>
#define PY_ARRAY_UNIQUE_SYMBOL PyArray_API_sans
#include "arrayobject.h"


void addCCylinderModel(PyObject *module);
void addCBarBellModel(PyObject *module);
void addCCappedCylinderModel(PyObject *module);
void addCTriaxialEllipsoidModel(PyObject *module);
void addCParallelepipedModel(PyObject *module);
void addCCSParallelepipedModel(PyObject *module);
void addCSphereModel(PyObject *module);
void addCSphereSLDModel(PyObject *module);
void addCOnionModel(PyObject *module);
void addCLinearPearlsModel(PyObject *module);
void addCPearlNecklaceModel(PyObject *module);
void addCReflModel(PyObject *module);
void addCReflAdvModel(PyObject *module);
void addCFuzzySphereModel(PyObject *module);
void addCHardsphereStructure(PyObject *module);
void addCStickyHSStructure(PyObject *module);
void addCSCCrystalModel(PyObject *module);
void addCFCCrystalModel(PyObject *module);
void addCBCCrystalModel(PyObject *module);
void addCSquareWellStructure(PyObject *module);
void addCHayterMSAStructure(PyObject *module);
void addCCoreShellModel(PyObject *module);
void addCCore2ndMomentModel(PyObject *module);
void addCCoreFourShellModel(PyObject *module);
void addCCoreShellCylinderModel(PyObject *module);
void addCEllipsoidModel(PyObject *module);
void addCEllipticalCylinderModel(PyObject *module);
void addCTriaxialEllipsoidModel(PyObject *module);
void addCFlexibleCylinderModel(PyObject *module);
void addCFlexCylEllipXModel(PyObject *module);
void addCStackedDisksModel(PyObject *module);
void addCLamellarPSModel(PyObject *module);
void addCLamellarPSHGModel(PyObject *module);
void addCLamellarPCrystalModel(PyObject *module);
void addCCoreShellEllipsoidModel(PyObject *module);
void addCDiamEllipFunc(PyObject *module);
void addCDiamCylFunc(PyObject *module);
void addCSLDCalFunc(PyObject *module);

void addCLamellarModel(PyObject *module);
void addCLamellarFFHGModel(PyObject *module);
void addCHollowCylinderModel(PyObject *module);
void addCMultiShellModel(PyObject *module);
void addCVesicleModel(PyObject *module);
void addCBinaryHSModel(PyObject *module);
void addCRPAModel(PyObject *module);
void addCFractalModel(PyObject *module);
void addCMassSurfaceFractal(PyObject *module);
void addCSurfaceFractalModel(PyObject *module);
void addCMassFractalModel(PyObject *module);
void addCPoly_GaussCoil(PyObject *module);


extern "C" {
  void addDisperser(PyObject *module);
}
void addCLorentzian(PyObject *module);
void addCSchulz(PyObject *module);
void addCGaussian(PyObject *module);
void addCLogNormal(PyObject *module);

/**
 * Delete a dispersion model object
 */
void del_dispersion_model(void *ptr){
  DispersionModel * disp = static_cast<DispersionModel *>(ptr);
  delete disp;
  return;
}

/**
 * Create a dispersion model as a python object
 */
PyObject * new_dispersion_model(PyObject *, PyObject *args) {
  DispersionModel *disp = new DispersionModel();
  return PyCObject_FromVoidPtr(disp, del_dispersion_model);
}


/**
 * Delete a lognormal dispersion model object
 */
void del_lognormal_dispersion(void *ptr){
  LogNormalDispersion * disp = static_cast<LogNormalDispersion *>(ptr);
  delete disp;
  return;
}

/**
 * Create a lognormal dispersion model as a python object
 */
PyObject * new_lognormal_dispersion(PyObject *, PyObject *args) {
  LogNormalDispersion *disp = new LogNormalDispersion();
  return PyCObject_FromVoidPtr(disp, del_lognormal_dispersion);
}

/**
 * Delete a gaussian dispersion model object
 */
void del_gaussian_dispersion(void *ptr){
  GaussianDispersion * disp = static_cast<GaussianDispersion *>(ptr);
  delete disp;
  return;
}

/**
 * Create a gaussian dispersion model as a python object
 */
PyObject * new_gaussian_dispersion(PyObject *, PyObject *args) {
  GaussianDispersion *disp = new GaussianDispersion();
  return PyCObject_FromVoidPtr(disp, del_gaussian_dispersion);
}


/**
 * Delete a rectangle dispersion model object
 */
void del_rectangle_dispersion(void *ptr){
  RectangleDispersion * disp = static_cast<RectangleDispersion *>(ptr);
  delete disp;
  return;
}

/**
 * Create a rectangle dispersion model as a python object
 */
PyObject * new_rectangle_dispersion(PyObject *, PyObject *args) {
  RectangleDispersion *disp = new RectangleDispersion();
  return PyCObject_FromVoidPtr(disp, del_rectangle_dispersion);
}


/**
 * Delete a schulz dispersion model object
 */
void del_schulz_dispersion(void *ptr){
  SchulzDispersion * disp = static_cast<SchulzDispersion *>(ptr);
  delete disp;
  return;
}
/**
 * Create a schulz dispersion model as a python object
 */
PyObject * new_schulz_dispersion(PyObject *, PyObject *args) {
  SchulzDispersion *disp = new SchulzDispersion();
  return PyCObject_FromVoidPtr(disp, del_schulz_dispersion);
}


/**
 * Delete an array dispersion model object
 */
void del_array_dispersion(void *ptr){
  ArrayDispersion * disp = static_cast<ArrayDispersion *>(ptr);
  delete disp;
  return;
}

/**
 * Create an array dispersion model as a python object
 */
PyObject * new_array_dispersion(PyObject *, PyObject *args) {
  ArrayDispersion *disp = new ArrayDispersion();
  return PyCObject_FromVoidPtr(disp, del_array_dispersion);
}

#define INVECTOR(obj,buf,len)                                                                           \
    do { \
      int err = PyObject_AsReadBuffer(obj, (const void **)(&buf), &len); \
      if (err < 0) return NULL; \
      len /= sizeof(*buf); \
    } while (0)

/**
 * Sets weights from a numpy array
 */
PyObject * set_weights(PyObject *, PyObject *args) {
  PyObject *val_obj;
  PyObject *wei_obj;
  PyObject *disp;
  Py_ssize_t nval;
  Py_ssize_t nwei;
  double *values;
  double *weights;
  //int i;

  if (!PyArg_ParseTuple(args, "OOO", &disp, &val_obj, &wei_obj)) return NULL;
  INVECTOR(val_obj, values, nval);
  INVECTOR(wei_obj, weights, nwei);

  // Sanity check
  if(nval!=nwei) return NULL;

  // Set the array pointers
  void *temp = PyCObject_AsVoidPtr(disp);
  DispersionModel * dispersion = static_cast<DispersionModel *>(temp);
  dispersion->set_weights(nval, values, weights);

  return Py_BuildValue("i",1);
}



/**
 * Define empty module
 */
static PyMethodDef module_methods[] = {
    {"new_dispersion_model", (PyCFunction)new_dispersion_model     , METH_VARARGS,
        "Create a new DispersionModel object"},
        {"new_gaussian_model",   (PyCFunction)new_gaussian_dispersion, METH_VARARGS,
            "Create a new GaussianDispersion object"},
            {"new_rectangle_model",   (PyCFunction)new_rectangle_dispersion, METH_VARARGS,
                "Create a new RectangleDispersion object"},
                {"new_lognormal_model",   (PyCFunction)new_lognormal_dispersion, METH_VARARGS,
                    "Create a new LogNormalDispersion object"},
                    {"new_schulz_model",   (PyCFunction)new_schulz_dispersion, METH_VARARGS,
                        "Create a new SchulzDispersion object"},
                        {"new_array_model",      (PyCFunction)new_array_dispersion  , METH_VARARGS,
                            "Create a new ArrayDispersion object"},
                            {"set_dispersion_weights",(PyCFunction)set_weights  , METH_VARARGS,
                                "Create the dispersion weight arrays for an Array Dispersion object"},
                                {NULL}
};


#ifndef PyMODINIT_FUNC  /* declarations for DLL import/export */
#define PyMODINIT_FUNC void
#endif
PyMODINIT_FUNC
initc_models(void)
{
  PyObject* m;

  m = Py_InitModule3("c_models", module_methods,
      "C extension module for SANS scattering models.");
  import_array();

  addCCylinderModel(m);
  addCBarBellModel(m);
  addCCappedCylinderModel(m);
  addCParallelepipedModel(m);
  addCCSParallelepipedModel(m);
  addCCoreShellCylinderModel(m);
  addCCoreShellModel(m);
  addCCoreFourShellModel(m);
  addCCore2ndMomentModel(m);
  addCEllipsoidModel(m);
  addCSphereModel(m);
  addCSphereSLDModel(m);
  addCOnionModel(m);
  addCReflModel(m);
  addCReflAdvModel(m);
  addCFuzzySphereModel(m);
  addCHardsphereStructure(m);
  addCStickyHSStructure(m);
  addCSCCrystalModel(m);
  addCFCCrystalModel(m);
  addCBCCrystalModel(m);
  addCSquareWellStructure(m);
  addCHayterMSAStructure(m);
  addCEllipticalCylinderModel(m);
  addCTriaxialEllipsoidModel(m);
  addCFlexibleCylinderModel(m);
  addCFlexCylEllipXModel(m);
  addCStackedDisksModel(m);
  addCLamellarPSModel(m);
  addCLamellarPSHGModel(m);
  addCLamellarPCrystalModel(m);
  addCCoreShellEllipsoidModel(m);
  addCDiamEllipFunc(m);
  addCDiamCylFunc(m);
  addCSLDCalFunc(m);
  addCLinearPearlsModel(m);
  addCPearlNecklaceModel(m);
  addCLamellarModel(m);
  addCLamellarFFHGModel(m);
  addCHollowCylinderModel(m);
  addCMultiShellModel(m);
  addCBinaryHSModel(m);
  addDisperser(m);
  addCGaussian(m);
  addCSchulz(m);
  addCLogNormal(m);
  addCLorentzian(m);
  addCVesicleModel(m);
  addCPoly_GaussCoil(m);
  addCRPAModel(m);
  addCFractalModel(m);
  addCMassSurfaceFractal(m);
  addCMassFractalModel(m);
  addCSurfaceFractalModel(m);
}