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From wang...@apache.org
Subject [3/6] incubator-singa git commit: SINGA-186 Create Python Tensor class
Date Fri, 01 Jul 2016 08:24:46 GMT
http://git-wip-us.apache.org/repos/asf/incubator-singa/blob/50f67226/src/python/swig/numpy.i
----------------------------------------------------------------------
diff --git a/src/python/swig/numpy.i b/src/python/swig/numpy.i
new file mode 100644
index 0000000..e58090e
--- /dev/null
+++ b/src/python/swig/numpy.i
@@ -0,0 +1,3119 @@
+/* -*- C -*-  (not really, but good for syntax highlighting) */
+
+/*
+ * Copyright (c) 2005-2015, NumPy Developers.
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ *
+ *     * Redistributions of source code must retain the above copyright
+ *        notice, this list of conditions and the following disclaimer.
+ *
+ *     * Redistributions in binary form must reproduce the above
+ *        copyright notice, this list of conditions and the following
+ *        disclaimer in the documentation and/or other materials provided
+ *        with the distribution.
+ *
+ *     * Neither the name of the NumPy Developers nor the names of any
+ *        contributors may be used to endorse or promote products derived
+ *        from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+ * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+ * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+ * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+ * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+ * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+ * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#ifdef SWIGPYTHON
+
+%{
+#ifndef SWIG_FILE_WITH_INIT
+#define NO_IMPORT_ARRAY
+#endif
+#include "stdio.h"
+#define NPY_NO_DEPRECATED_API NPY_1_7_API_VERSION
+#include <numpy/arrayobject.h>
+%}
+
+/**********************************************************************/
+
+%fragment("NumPy_Backward_Compatibility", "header")
+{
+%#if NPY_API_VERSION < 0x00000007
+%#define NPY_ARRAY_DEFAULT NPY_DEFAULT
+%#define NPY_ARRAY_FARRAY  NPY_FARRAY
+%#define NPY_FORTRANORDER  NPY_FORTRAN
+%#endif
+}
+
+/**********************************************************************/
+
+/* The following code originally appeared in
+ * enthought/kiva/agg/src/numeric.i written by Eric Jones.  It was
+ * translated from C++ to C by John Hunter.  Bill Spotz has modified
+ * it to fix some minor bugs, upgrade from Numeric to numpy (all
+ * versions), add some comments and functionality, and convert from
+ * direct code insertion to SWIG fragments.
+ */
+
+%fragment("NumPy_Macros", "header")
+{
+/* Macros to extract array attributes.
+ */
+%#if NPY_API_VERSION < 0x00000007
+%#define is_array(a)            ((a) && PyArray_Check((PyArrayObject*)a))
+%#define array_type(a)          (int)(PyArray_TYPE((PyArrayObject*)a))
+%#define array_numdims(a)       (((PyArrayObject*)a)->nd)
+%#define array_dimensions(a)    (((PyArrayObject*)a)->dimensions)
+%#define array_size(a,i)        (((PyArrayObject*)a)->dimensions[i])
+%#define array_strides(a)       (((PyArrayObject*)a)->strides)
+%#define array_stride(a,i)      (((PyArrayObject*)a)->strides[i])
+%#define array_data(a)          (((PyArrayObject*)a)->data)
+%#define array_descr(a)         (((PyArrayObject*)a)->descr)
+%#define array_flags(a)         (((PyArrayObject*)a)->flags)
+%#define array_enableflags(a,f) (((PyArrayObject*)a)->flags) = f
+%#else
+%#define is_array(a)            ((a) && PyArray_Check(a))
+%#define array_type(a)          PyArray_TYPE((PyArrayObject*)a)
+%#define array_numdims(a)       PyArray_NDIM((PyArrayObject*)a)
+%#define array_dimensions(a)    PyArray_DIMS((PyArrayObject*)a)
+%#define array_strides(a)       PyArray_STRIDES((PyArrayObject*)a)
+%#define array_stride(a,i)      PyArray_STRIDE((PyArrayObject*)a,i)
+%#define array_size(a,i)        PyArray_DIM((PyArrayObject*)a,i)
+%#define array_data(a)          PyArray_DATA((PyArrayObject*)a)
+%#define array_descr(a)         PyArray_DESCR((PyArrayObject*)a)
+%#define array_flags(a)         PyArray_FLAGS((PyArrayObject*)a)
+%#define array_enableflags(a,f) PyArray_ENABLEFLAGS((PyArrayObject*)a,f)
+%#endif
+%#define array_is_contiguous(a) (PyArray_ISCONTIGUOUS((PyArrayObject*)a))
+%#define array_is_native(a)     (PyArray_ISNOTSWAPPED((PyArrayObject*)a))
+%#define array_is_fortran(a)    (PyArray_ISFORTRAN((PyArrayObject*)a))
+}
+
+/**********************************************************************/
+
+%fragment("NumPy_Utilities",
+          "header")
+{
+  /* Given a PyObject, return a string describing its type.
+   */
+  const char* pytype_string(PyObject* py_obj)
+  {
+    if (py_obj == NULL          ) return "C NULL value";
+    if (py_obj == Py_None       ) return "Python None" ;
+    if (PyCallable_Check(py_obj)) return "callable"    ;
+    if (PyString_Check(  py_obj)) return "string"      ;
+    if (PyInt_Check(     py_obj)) return "int"         ;
+    if (PyFloat_Check(   py_obj)) return "float"       ;
+    if (PyDict_Check(    py_obj)) return "dict"        ;
+    if (PyList_Check(    py_obj)) return "list"        ;
+    if (PyTuple_Check(   py_obj)) return "tuple"       ;
+%#if PY_MAJOR_VERSION < 3
+    if (PyFile_Check(    py_obj)) return "file"        ;
+    if (PyModule_Check(  py_obj)) return "module"      ;
+    if (PyInstance_Check(py_obj)) return "instance"    ;
+%#endif
+
+    return "unkown type";
+  }
+
+  /* Given a NumPy typecode, return a string describing the type.
+   */
+  const char* typecode_string(int typecode)
+  {
+    static const char* type_names[25] = {"bool",
+                                         "byte",
+                                         "unsigned byte",
+                                         "short",
+                                         "unsigned short",
+                                         "int",
+                                         "unsigned int",
+                                         "long",
+                                         "unsigned long",
+                                         "long long",
+                                         "unsigned long long",
+                                         "float",
+                                         "double",
+                                         "long double",
+                                         "complex float",
+                                         "complex double",
+                                         "complex long double",
+                                         "object",
+                                         "string",
+                                         "unicode",
+                                         "void",
+                                         "ntypes",
+                                         "notype",
+                                         "char",
+                                         "unknown"};
+    return typecode < 24 ? type_names[typecode] : type_names[24];
+  }
+
+  /* Make sure input has correct numpy type.  This now just calls
+     PyArray_EquivTypenums().
+   */
+  int type_match(int actual_type,
+                 int desired_type)
+  {
+    return PyArray_EquivTypenums(actual_type, desired_type);
+  }
+
+%#ifdef SWIGPY_USE_CAPSULE
+  void free_cap(PyObject * cap)
+  {
+    void* array = (void*) PyCapsule_GetPointer(cap,SWIGPY_CAPSULE_NAME);
+    if (array != NULL) free(array);
+  }
+%#endif
+
+
+}
+
+/**********************************************************************/
+
+%fragment("NumPy_Object_to_Array",
+          "header",
+          fragment="NumPy_Backward_Compatibility",
+          fragment="NumPy_Macros",
+          fragment="NumPy_Utilities")
+{
+  /* Given a PyObject pointer, cast it to a PyArrayObject pointer if
+   * legal.  If not, set the python error string appropriately and
+   * return NULL.
+   */
+  PyArrayObject* obj_to_array_no_conversion(PyObject* input,
+                                            int        typecode)
+  {
+    PyArrayObject* ary = NULL;
+    if (is_array(input) && (typecode == NPY_NOTYPE ||
+                            PyArray_EquivTypenums(array_type(input), typecode)))
+    {
+      ary = (PyArrayObject*) input;
+    }
+    else if is_array(input)
+    {
+      const char* desired_type = typecode_string(typecode);
+      const char* actual_type  = typecode_string(array_type(input));
+      PyErr_Format(PyExc_TypeError,
+                   "Array of type '%s' required.  Array of type '%s' given",
+                   desired_type, actual_type);
+      ary = NULL;
+    }
+    else
+    {
+      const char* desired_type = typecode_string(typecode);
+      const char* actual_type  = pytype_string(input);
+      PyErr_Format(PyExc_TypeError,
+                   "Array of type '%s' required.  A '%s' was given",
+                   desired_type,
+                   actual_type);
+      ary = NULL;
+    }
+    return ary;
+  }
+
+  /* Convert the given PyObject to a NumPy array with the given
+   * typecode.  On success, return a valid PyArrayObject* with the
+   * correct type.  On failure, the python error string will be set and
+   * the routine returns NULL.
+   */
+  PyArrayObject* obj_to_array_allow_conversion(PyObject* input,
+                                               int       typecode,
+                                               int*      is_new_object)
+  {
+    PyArrayObject* ary = NULL;
+    PyObject*      py_obj;
+    if (is_array(input) && (typecode == NPY_NOTYPE ||
+                            PyArray_EquivTypenums(array_type(input),typecode)))
+    {
+      ary = (PyArrayObject*) input;
+      *is_new_object = 0;
+    }
+    else
+    {
+      py_obj = PyArray_FROMANY(input, typecode, 0, 0, NPY_ARRAY_DEFAULT);
+      /* If NULL, PyArray_FromObject will have set python error value.*/
+      ary = (PyArrayObject*) py_obj;
+      *is_new_object = 1;
+    }
+    return ary;
+  }
+
+  /* Given a PyArrayObject, check to see if it is contiguous.  If so,
+   * return the input pointer and flag it as not a new object.  If it is
+   * not contiguous, create a new PyArrayObject using the original data,
+   * flag it as a new object and return the pointer.
+   */
+  PyArrayObject* make_contiguous(PyArrayObject* ary,
+                                 int*           is_new_object,
+                                 int            min_dims,
+                                 int            max_dims)
+  {
+    PyArrayObject* result;
+    if (array_is_contiguous(ary))
+    {
+      result = ary;
+      *is_new_object = 0;
+    }
+    else
+    {
+      result = (PyArrayObject*) PyArray_ContiguousFromObject((PyObject*)ary,
+                                                              array_type(ary),
+                                                              min_dims,
+                                                              max_dims);
+      *is_new_object = 1;
+    }
+    return result;
+  }
+
+  /* Given a PyArrayObject, check to see if it is Fortran-contiguous.
+   * If so, return the input pointer, but do not flag it as not a new
+   * object.  If it is not Fortran-contiguous, create a new
+   * PyArrayObject using the original data, flag it as a new object
+   * and return the pointer.
+   */
+  PyArrayObject* make_fortran(PyArrayObject* ary,
+                              int*           is_new_object)
+  {
+    PyArrayObject* result;
+    if (array_is_fortran(ary))
+    {
+      result = ary;
+      *is_new_object = 0;
+    }
+    else
+    {
+      Py_INCREF(array_descr(ary));
+      result = (PyArrayObject*) PyArray_FromArray(ary,
+                                                  array_descr(ary),
+                                                  NPY_FORTRANORDER);
+      *is_new_object = 1;
+    }
+    return result;
+  }
+
+  /* Convert a given PyObject to a contiguous PyArrayObject of the
+   * specified type.  If the input object is not a contiguous
+   * PyArrayObject, a new one will be created and the new object flag
+   * will be set.
+   */
+  PyArrayObject* obj_to_array_contiguous_allow_conversion(PyObject* input,
+                                                          int       typecode,
+                                                          int*      is_new_object)
+  {
+    int is_new1 = 0;
+    int is_new2 = 0;
+    PyArrayObject* ary2;
+    PyArrayObject* ary1 = obj_to_array_allow_conversion(input,
+                                                        typecode,
+                                                        &is_new1);
+    if (ary1)
+    {
+      ary2 = make_contiguous(ary1, &is_new2, 0, 0);
+      if ( is_new1 && is_new2)
+      {
+        Py_DECREF(ary1);
+      }
+      ary1 = ary2;
+    }
+    *is_new_object = is_new1 || is_new2;
+    return ary1;
+  }
+
+  /* Convert a given PyObject to a Fortran-ordered PyArrayObject of the
+   * specified type.  If the input object is not a Fortran-ordered
+   * PyArrayObject, a new one will be created and the new object flag
+   * will be set.
+   */
+  PyArrayObject* obj_to_array_fortran_allow_conversion(PyObject* input,
+                                                       int       typecode,
+                                                       int*      is_new_object)
+  {
+    int is_new1 = 0;
+    int is_new2 = 0;
+    PyArrayObject* ary2;
+    PyArrayObject* ary1 = obj_to_array_allow_conversion(input,
+                                                        typecode,
+                                                        &is_new1);
+    if (ary1)
+    {
+      ary2 = make_fortran(ary1, &is_new2);
+      if (is_new1 && is_new2)
+      {
+        Py_DECREF(ary1);
+      }
+      ary1 = ary2;
+    }
+    *is_new_object = is_new1 || is_new2;
+    return ary1;
+  }
+} /* end fragment */
+
+/**********************************************************************/
+
+%fragment("NumPy_Array_Requirements",
+          "header",
+          fragment="NumPy_Backward_Compatibility",
+          fragment="NumPy_Macros")
+{
+  /* Test whether a python object is contiguous.  If array is
+   * contiguous, return 1.  Otherwise, set the python error string and
+   * return 0.
+   */
+  int require_contiguous(PyArrayObject* ary)
+  {
+    int contiguous = 1;
+    if (!array_is_contiguous(ary))
+    {
+      PyErr_SetString(PyExc_TypeError,
+                      "Array must be contiguous.  A non-contiguous array was given");
+      contiguous = 0;
+    }
+    return contiguous;
+  }
+
+  /* Require that a numpy array is not byte-swapped.  If the array is
+   * not byte-swapped, return 1.  Otherwise, set the python error string
+   * and return 0.
+   */
+  int require_native(PyArrayObject* ary)
+  {
+    int native = 1;
+    if (!array_is_native(ary))
+    {
+      PyErr_SetString(PyExc_TypeError,
+                      "Array must have native byteorder.  "
+                      "A byte-swapped array was given");
+      native = 0;
+    }
+    return native;
+  }
+
+  /* Require the given PyArrayObject to have a specified number of
+   * dimensions.  If the array has the specified number of dimensions,
+   * return 1.  Otherwise, set the python error string and return 0.
+   */
+  int require_dimensions(PyArrayObject* ary,
+                         int            exact_dimensions)
+  {
+    int success = 1;
+    if (array_numdims(ary) != exact_dimensions)
+    {
+      PyErr_Format(PyExc_TypeError,
+                   "Array must have %d dimensions.  Given array has %d dimensions",
+                   exact_dimensions,
+                   array_numdims(ary));
+      success = 0;
+    }
+    return success;
+  }
+
+  /* Require the given PyArrayObject to have one of a list of specified
+   * number of dimensions.  If the array has one of the specified number
+   * of dimensions, return 1.  Otherwise, set the python error string
+   * and return 0.
+   */
+  int require_dimensions_n(PyArrayObject* ary,
+                           int*           exact_dimensions,
+                           int            n)
+  {
+    int success = 0;
+    int i;
+    char dims_str[255] = "";
+    char s[255];
+    for (i = 0; i < n && !success; i++)
+    {
+      if (array_numdims(ary) == exact_dimensions[i])
+      {
+        success = 1;
+      }
+    }
+    if (!success)
+    {
+      for (i = 0; i < n-1; i++)
+      {
+        sprintf(s, "%d, ", exact_dimensions[i]);
+        strcat(dims_str,s);
+      }
+      sprintf(s, " or %d", exact_dimensions[n-1]);
+      strcat(dims_str,s);
+      PyErr_Format(PyExc_TypeError,
+                   "Array must have %s dimensions.  Given array has %d dimensions",
+                   dims_str,
+                   array_numdims(ary));
+    }
+    return success;
+  }
+
+  /* Require the given PyArrayObject to have a specified shape.  If the
+   * array has the specified shape, return 1.  Otherwise, set the python
+   * error string and return 0.
+   */
+  int require_size(PyArrayObject* ary,
+                   npy_intp*      size,
+                   int            n)
+  {
+    int i;
+    int success = 1;
+    int len;
+    char desired_dims[255] = "[";
+    char s[255];
+    char actual_dims[255] = "[";
+    for(i=0; i < n;i++)
+    {
+      if (size[i] != -1 &&  size[i] != array_size(ary,i))
+      {
+        success = 0;
+      }
+    }
+    if (!success)
+    {
+      for (i = 0; i < n; i++)
+      {
+        if (size[i] == -1)
+        {
+          sprintf(s, "*,");
+        }
+        else
+        {
+          sprintf(s, "%ld,", (long int)size[i]);
+        }
+        strcat(desired_dims,s);
+      }
+      len = strlen(desired_dims);
+      desired_dims[len-1] = ']';
+      for (i = 0; i < n; i++)
+      {
+        sprintf(s, "%ld,", (long int)array_size(ary,i));
+        strcat(actual_dims,s);
+      }
+      len = strlen(actual_dims);
+      actual_dims[len-1] = ']';
+      PyErr_Format(PyExc_TypeError,
+                   "Array must have shape of %s.  Given array has shape of %s",
+                   desired_dims,
+                   actual_dims);
+    }
+    return success;
+  }
+
+  /* Require the given PyArrayObject to to be Fortran ordered.  If the
+   * the PyArrayObject is already Fortran ordered, do nothing.  Else,
+   * set the Fortran ordering flag and recompute the strides.
+   */
+  int require_fortran(PyArrayObject* ary)
+  {
+    int success = 1;
+    int nd = array_numdims(ary);
+    int i;
+    npy_intp * strides = array_strides(ary);
+    if (array_is_fortran(ary)) return success;
+    /* Set the Fortran ordered flag */
+    array_enableflags(ary,NPY_ARRAY_FARRAY);
+    /* Recompute the strides */
+    strides[0] = strides[nd-1];
+    for (i=1; i < nd; ++i)
+      strides[i] = strides[i-1] * array_size(ary,i-1);
+    return success;
+  }
+}
+
+/* Combine all NumPy fragments into one for convenience */
+%fragment("NumPy_Fragments",
+          "header",
+          fragment="NumPy_Backward_Compatibility",
+          fragment="NumPy_Macros",
+          fragment="NumPy_Utilities",
+          fragment="NumPy_Object_to_Array",
+          fragment="NumPy_Array_Requirements")
+{
+}
+
+/* End John Hunter translation (with modifications by Bill Spotz)
+ */
+
+/* %numpy_typemaps() macro
+ *
+ * This macro defines a family of 74 typemaps that allow C arguments
+ * of the form
+ *
+ *    1. (DATA_TYPE IN_ARRAY1[ANY])
+ *    2. (DATA_TYPE* IN_ARRAY1, DIM_TYPE DIM1)
+ *    3. (DIM_TYPE DIM1, DATA_TYPE* IN_ARRAY1)
+ *
+ *    4. (DATA_TYPE IN_ARRAY2[ANY][ANY])
+ *    5. (DATA_TYPE* IN_ARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+ *    6. (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* IN_ARRAY2)
+ *    7. (DATA_TYPE* IN_FARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+ *    8. (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* IN_FARRAY2)
+ *
+ *    9. (DATA_TYPE IN_ARRAY3[ANY][ANY][ANY])
+ *   10. (DATA_TYPE* IN_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+ *   11. (DATA_TYPE** IN_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+ *   12. (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* IN_ARRAY3)
+ *   13. (DATA_TYPE* IN_FARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+ *   14. (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* IN_FARRAY3)
+ *
+ *   15. (DATA_TYPE IN_ARRAY4[ANY][ANY][ANY][ANY])
+ *   16. (DATA_TYPE* IN_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+ *   17. (DATA_TYPE** IN_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+ *   18. (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, , DIM_TYPE DIM4, DATA_TYPE* IN_ARRAY4)
+ *   19. (DATA_TYPE* IN_FARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+ *   20. (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* IN_FARRAY4)
+ *
+ *   21. (DATA_TYPE INPLACE_ARRAY1[ANY])
+ *   22. (DATA_TYPE* INPLACE_ARRAY1, DIM_TYPE DIM1)
+ *   23. (DIM_TYPE DIM1, DATA_TYPE* INPLACE_ARRAY1)
+ *
+ *   24. (DATA_TYPE INPLACE_ARRAY2[ANY][ANY])
+ *   25. (DATA_TYPE* INPLACE_ARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+ *   26. (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* INPLACE_ARRAY2)
+ *   27. (DATA_TYPE* INPLACE_FARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+ *   28. (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* INPLACE_FARRAY2)
+ *
+ *   29. (DATA_TYPE INPLACE_ARRAY3[ANY][ANY][ANY])
+ *   30. (DATA_TYPE* INPLACE_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+ *   31. (DATA_TYPE** INPLACE_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+ *   32. (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* INPLACE_ARRAY3)
+ *   33. (DATA_TYPE* INPLACE_FARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+ *   34. (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* INPLACE_FARRAY3)
+ *
+ *   35. (DATA_TYPE INPLACE_ARRAY4[ANY][ANY][ANY][ANY])
+ *   36. (DATA_TYPE* INPLACE_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+ *   37. (DATA_TYPE** INPLACE_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+ *   38. (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* INPLACE_ARRAY4)
+ *   39. (DATA_TYPE* INPLACE_FARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+ *   40. (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* INPLACE_FARRAY4)
+ *
+ *   41. (DATA_TYPE ARGOUT_ARRAY1[ANY])
+ *   42. (DATA_TYPE* ARGOUT_ARRAY1, DIM_TYPE DIM1)
+ *   43. (DIM_TYPE DIM1, DATA_TYPE* ARGOUT_ARRAY1)
+ *
+ *   44. (DATA_TYPE ARGOUT_ARRAY2[ANY][ANY])
+ *
+ *   45. (DATA_TYPE ARGOUT_ARRAY3[ANY][ANY][ANY])
+ *
+ *   46. (DATA_TYPE ARGOUT_ARRAY4[ANY][ANY][ANY][ANY])
+ *
+ *   47. (DATA_TYPE** ARGOUTVIEW_ARRAY1, DIM_TYPE* DIM1)
+ *   48. (DIM_TYPE* DIM1, DATA_TYPE** ARGOUTVIEW_ARRAY1)
+ *
+ *   49. (DATA_TYPE** ARGOUTVIEW_ARRAY2, DIM_TYPE* DIM1, DIM_TYPE* DIM2)
+ *   50. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DATA_TYPE** ARGOUTVIEW_ARRAY2)
+ *   51. (DATA_TYPE** ARGOUTVIEW_FARRAY2, DIM_TYPE* DIM1, DIM_TYPE* DIM2)
+ *   52. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DATA_TYPE** ARGOUTVIEW_FARRAY2)
+ *
+ *   53. (DATA_TYPE** ARGOUTVIEW_ARRAY3, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3)
+ *   54. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DATA_TYPE** ARGOUTVIEW_ARRAY3)
+ *   55. (DATA_TYPE** ARGOUTVIEW_FARRAY3, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3)
+ *   56. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DATA_TYPE** ARGOUTVIEW_FARRAY3)
+ *
+ *   57. (DATA_TYPE** ARGOUTVIEW_ARRAY4, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4)
+ *   58. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4, DATA_TYPE** ARGOUTVIEW_ARRAY4)
+ *   59. (DATA_TYPE** ARGOUTVIEW_FARRAY4, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4)
+ *   60. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4, DATA_TYPE** ARGOUTVIEW_FARRAY4)
+ *
+ *   61. (DATA_TYPE** ARGOUTVIEWM_ARRAY1, DIM_TYPE* DIM1)
+ *   62. (DIM_TYPE* DIM1, DATA_TYPE** ARGOUTVIEWM_ARRAY1)
+ *
+ *   63. (DATA_TYPE** ARGOUTVIEWM_ARRAY2, DIM_TYPE* DIM1, DIM_TYPE* DIM2)
+ *   64. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DATA_TYPE** ARGOUTVIEWM_ARRAY2)
+ *   65. (DATA_TYPE** ARGOUTVIEWM_FARRAY2, DIM_TYPE* DIM1, DIM_TYPE* DIM2)
+ *   66. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DATA_TYPE** ARGOUTVIEWM_FARRAY2)
+ *
+ *   67. (DATA_TYPE** ARGOUTVIEWM_ARRAY3, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3)
+ *   68. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DATA_TYPE** ARGOUTVIEWM_ARRAY3)
+ *   69. (DATA_TYPE** ARGOUTVIEWM_FARRAY3, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3)
+ *   70. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DATA_TYPE** ARGOUTVIEWM_FARRAY3)
+ *
+ *   71. (DATA_TYPE** ARGOUTVIEWM_ARRAY4, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4)
+ *   72. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4, DATA_TYPE** ARGOUTVIEWM_ARRAY4)
+ *   73. (DATA_TYPE** ARGOUTVIEWM_FARRAY4, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4)
+ *   74. (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4, DATA_TYPE** ARGOUTVIEWM_FARRAY4)
+ *
+ * where "DATA_TYPE" is any type supported by the NumPy module, and
+ * "DIM_TYPE" is any int-like type suitable for specifying dimensions.
+ * The difference between "ARRAY" typemaps and "FARRAY" typemaps is
+ * that the "FARRAY" typemaps expect Fortran ordering of
+ * multidimensional arrays.  In python, the dimensions will not need
+ * to be specified (except for the "DATA_TYPE* ARGOUT_ARRAY1"
+ * typemaps).  The IN_ARRAYs can be a numpy array or any sequence that
+ * can be converted to a numpy array of the specified type.  The
+ * INPLACE_ARRAYs must be numpy arrays of the appropriate type.  The
+ * ARGOUT_ARRAYs will be returned as new numpy arrays of the
+ * appropriate type.
+ *
+ * These typemaps can be applied to existing functions using the
+ * %apply directive.  For example:
+ *
+ *     %apply (double* IN_ARRAY1, int DIM1) {(double* series, int length)};
+ *     double prod(double* series, int length);
+ *
+ *     %apply (int DIM1, int DIM2, double* INPLACE_ARRAY2)
+ *           {(int rows, int cols, double* matrix        )};
+ *     void floor(int rows, int cols, double* matrix, double f);
+ *
+ *     %apply (double IN_ARRAY3[ANY][ANY][ANY])
+ *           {(double tensor[2][2][2]         )};
+ *     %apply (double ARGOUT_ARRAY3[ANY][ANY][ANY])
+ *           {(double low[2][2][2]                )};
+ *     %apply (double ARGOUT_ARRAY3[ANY][ANY][ANY])
+ *           {(double upp[2][2][2]                )};
+ *     void luSplit(double tensor[2][2][2],
+ *                  double low[2][2][2],
+ *                  double upp[2][2][2]    );
+ *
+ * or directly with
+ *
+ *     double prod(double* IN_ARRAY1, int DIM1);
+ *
+ *     void floor(int DIM1, int DIM2, double* INPLACE_ARRAY2, double f);
+ *
+ *     void luSplit(double IN_ARRAY3[ANY][ANY][ANY],
+ *                  double ARGOUT_ARRAY3[ANY][ANY][ANY],
+ *                  double ARGOUT_ARRAY3[ANY][ANY][ANY]);
+ */
+
+%define %numpy_typemaps(DATA_TYPE, DATA_TYPECODE, DIM_TYPE)
+
+/************************/
+/* Input Array Typemaps */
+/************************/
+
+/* Typemap suite for (DATA_TYPE IN_ARRAY1[ANY])
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE IN_ARRAY1[ANY])
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE IN_ARRAY1[ANY])
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[1] = { $1_dim0 };
+  array = obj_to_array_contiguous_allow_conversion($input,
+                                                   DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 1) ||
+      !require_size(array, size, 1)) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+%typemap(freearg)
+  (DATA_TYPE IN_ARRAY1[ANY])
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE* IN_ARRAY1, DIM_TYPE DIM1)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* IN_ARRAY1, DIM_TYPE DIM1)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* IN_ARRAY1, DIM_TYPE DIM1)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[1] = { -1 };
+  array = obj_to_array_contiguous_allow_conversion($input,
+                                                   DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 1) ||
+      !require_size(array, size, 1)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+}
+%typemap(freearg)
+  (DATA_TYPE* IN_ARRAY1, DIM_TYPE DIM1)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DATA_TYPE* IN_ARRAY1)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DATA_TYPE* IN_ARRAY1)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DATA_TYPE* IN_ARRAY1)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[1] = {-1};
+  array = obj_to_array_contiguous_allow_conversion($input,
+                                                   DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 1) ||
+      !require_size(array, size, 1)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DATA_TYPE*) array_data(array);
+}
+%typemap(freearg)
+  (DIM_TYPE DIM1, DATA_TYPE* IN_ARRAY1)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE IN_ARRAY2[ANY][ANY])
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE IN_ARRAY2[ANY][ANY])
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE IN_ARRAY2[ANY][ANY])
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[2] = { $1_dim0, $1_dim1 };
+  array = obj_to_array_contiguous_allow_conversion($input,
+                                                   DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 2) ||
+      !require_size(array, size, 2)) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+%typemap(freearg)
+  (DATA_TYPE IN_ARRAY2[ANY][ANY])
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE* IN_ARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* IN_ARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* IN_ARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[2] = { -1, -1 };
+  array = obj_to_array_contiguous_allow_conversion($input, DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 2) ||
+      !require_size(array, size, 2)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+}
+%typemap(freearg)
+  (DATA_TYPE* IN_ARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* IN_ARRAY2)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* IN_ARRAY2)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* IN_ARRAY2)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[2] = { -1, -1 };
+  array = obj_to_array_contiguous_allow_conversion($input,
+                                                   DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 2) ||
+      !require_size(array, size, 2)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DATA_TYPE*) array_data(array);
+}
+%typemap(freearg)
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* IN_ARRAY2)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE* IN_FARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* IN_FARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* IN_FARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[2] = { -1, -1 };
+  array = obj_to_array_fortran_allow_conversion($input,
+                                                DATA_TYPECODE,
+                                                &is_new_object);
+  if (!array || !require_dimensions(array, 2) ||
+      !require_size(array, size, 2) || !require_fortran(array)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+}
+%typemap(freearg)
+  (DATA_TYPE* IN_FARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* IN_FARRAY2)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* IN_FARRAY2)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* IN_FARRAY2)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[2] = { -1, -1 };
+  array = obj_to_array_fortran_allow_conversion($input,
+                                                   DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 2) ||
+      !require_size(array, size, 2) || !require_fortran(array)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DATA_TYPE*) array_data(array);
+}
+%typemap(freearg)
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* IN_FARRAY2)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE IN_ARRAY3[ANY][ANY][ANY])
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE IN_ARRAY3[ANY][ANY][ANY])
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE IN_ARRAY3[ANY][ANY][ANY])
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[3] = { $1_dim0, $1_dim1, $1_dim2 };
+  array = obj_to_array_contiguous_allow_conversion($input,
+                                                   DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 3) ||
+      !require_size(array, size, 3)) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+%typemap(freearg)
+  (DATA_TYPE IN_ARRAY3[ANY][ANY][ANY])
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE* IN_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* IN_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* IN_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[3] = { -1, -1, -1 };
+  array = obj_to_array_contiguous_allow_conversion($input, DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 3) ||
+      !require_size(array, size, 3)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+  $4 = (DIM_TYPE) array_size(array,2);
+}
+%typemap(freearg)
+  (DATA_TYPE* IN_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE** IN_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE** IN_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+{
+  /* for now, only concerned with lists */
+  $1 = PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE** IN_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+  (DATA_TYPE** array=NULL, PyArrayObject** object_array=NULL, int* is_new_object_array=NULL)
+{
+  npy_intp size[2] = { -1, -1 };
+  PyArrayObject* temp_array;
+  Py_ssize_t i;
+  int is_new_object;
+
+  /* length of the list */
+  $2 = PyList_Size($input);
+
+  /* the arrays */
+  array = (DATA_TYPE **)malloc($2*sizeof(DATA_TYPE *));
+  object_array = (PyArrayObject **)calloc($2,sizeof(PyArrayObject *));
+  is_new_object_array = (int *)calloc($2,sizeof(int));
+
+  if (array == NULL || object_array == NULL || is_new_object_array == NULL)
+  {
+    SWIG_fail;
+  }
+
+  for (i=0; i<$2; i++)
+  {
+    temp_array = obj_to_array_contiguous_allow_conversion(PySequence_GetItem($input,i), DATA_TYPECODE, &is_new_object);
+
+    /* the new array must be stored so that it can be destroyed in freearg */
+    object_array[i] = temp_array;
+    is_new_object_array[i] = is_new_object;
+
+    if (!temp_array || !require_dimensions(temp_array, 2)) SWIG_fail;
+
+    /* store the size of the first array in the list, then use that for comparison. */
+    if (i == 0)
+    {
+      size[0] = array_size(temp_array,0);
+      size[1] = array_size(temp_array,1);
+    }
+
+    if (!require_size(temp_array, size, 2)) SWIG_fail;
+
+    array[i] = (DATA_TYPE*) array_data(temp_array);
+  }
+
+  $1 = (DATA_TYPE**) array;
+  $3 = (DIM_TYPE) size[0];
+  $4 = (DIM_TYPE) size[1];
+}
+%typemap(freearg)
+  (DATA_TYPE** IN_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+{
+  Py_ssize_t i;
+
+  if (array$argnum!=NULL) free(array$argnum);
+
+  /*freeing the individual arrays if needed */
+  if (object_array$argnum!=NULL)
+  {
+    if (is_new_object_array$argnum!=NULL)
+    {
+      for (i=0; i<$2; i++)
+      {
+        if (object_array$argnum[i] != NULL && is_new_object_array$argnum[i])
+        { Py_DECREF(object_array$argnum[i]); }
+      }
+      free(is_new_object_array$argnum);
+    }
+    free(object_array$argnum);
+  }
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3,
+ *                    DATA_TYPE* IN_ARRAY3)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* IN_ARRAY3)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* IN_ARRAY3)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[3] = { -1, -1, -1 };
+  array = obj_to_array_contiguous_allow_conversion($input, DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 3) ||
+      !require_size(array, size, 3)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DIM_TYPE) array_size(array,2);
+  $4 = (DATA_TYPE*) array_data(array);
+}
+%typemap(freearg)
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* IN_ARRAY3)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE* IN_FARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* IN_FARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* IN_FARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[3] = { -1, -1, -1 };
+  array = obj_to_array_fortran_allow_conversion($input, DATA_TYPECODE,
+                                                &is_new_object);
+  if (!array || !require_dimensions(array, 3) ||
+      !require_size(array, size, 3) | !require_fortran(array)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+  $4 = (DIM_TYPE) array_size(array,2);
+}
+%typemap(freearg)
+  (DATA_TYPE* IN_FARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3,
+ *                    DATA_TYPE* IN_FARRAY3)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* IN_FARRAY3)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* IN_FARRAY3)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[3] = { -1, -1, -1 };
+  array = obj_to_array_fortran_allow_conversion($input,
+                                                   DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 3) ||
+      !require_size(array, size, 3) || !require_fortran(array)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DIM_TYPE) array_size(array,2);
+  $4 = (DATA_TYPE*) array_data(array);
+}
+%typemap(freearg)
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* IN_FARRAY3)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE IN_ARRAY4[ANY][ANY][ANY][ANY])
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE IN_ARRAY4[ANY][ANY][ANY][ANY])
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE IN_ARRAY4[ANY][ANY][ANY][ANY])
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[4] = { $1_dim0, $1_dim1, $1_dim2 , $1_dim3};
+  array = obj_to_array_contiguous_allow_conversion($input, DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 4) ||
+      !require_size(array, size, 4)) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+%typemap(freearg)
+  (DATA_TYPE IN_ARRAY4[ANY][ANY][ANY][ANY])
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE* IN_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3, DIM_TYPE DIM4)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* IN_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* IN_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[4] = { -1, -1, -1, -1 };
+  array = obj_to_array_contiguous_allow_conversion($input, DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 4) ||
+      !require_size(array, size, 4)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+  $4 = (DIM_TYPE) array_size(array,2);
+  $5 = (DIM_TYPE) array_size(array,3);
+}
+%typemap(freearg)
+  (DATA_TYPE* IN_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE** IN_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3, DIM_TYPE DIM4)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE** IN_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+{
+  /* for now, only concerned with lists */
+  $1 = PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE** IN_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+  (DATA_TYPE** array=NULL, PyArrayObject** object_array=NULL, int* is_new_object_array=NULL)
+{
+  npy_intp size[3] = { -1, -1, -1 };
+  PyArrayObject* temp_array;
+  Py_ssize_t i;
+  int is_new_object;
+
+  /* length of the list */
+  $2 = PyList_Size($input);
+
+  /* the arrays */
+  array = (DATA_TYPE **)malloc($2*sizeof(DATA_TYPE *));
+  object_array = (PyArrayObject **)calloc($2,sizeof(PyArrayObject *));
+  is_new_object_array = (int *)calloc($2,sizeof(int));
+
+  if (array == NULL || object_array == NULL || is_new_object_array == NULL)
+  {
+    SWIG_fail;
+  }
+
+  for (i=0; i<$2; i++)
+  {
+    temp_array = obj_to_array_contiguous_allow_conversion(PySequence_GetItem($input,i), DATA_TYPECODE, &is_new_object);
+
+    /* the new array must be stored so that it can be destroyed in freearg */
+    object_array[i] = temp_array;
+    is_new_object_array[i] = is_new_object;
+
+    if (!temp_array || !require_dimensions(temp_array, 3)) SWIG_fail;
+
+    /* store the size of the first array in the list, then use that for comparison. */
+    if (i == 0)
+    {
+      size[0] = array_size(temp_array,0);
+      size[1] = array_size(temp_array,1);
+      size[2] = array_size(temp_array,2);
+    }
+
+    if (!require_size(temp_array, size, 3)) SWIG_fail;
+
+    array[i] = (DATA_TYPE*) array_data(temp_array);
+  }
+
+  $1 = (DATA_TYPE**) array;
+  $3 = (DIM_TYPE) size[0];
+  $4 = (DIM_TYPE) size[1];
+  $5 = (DIM_TYPE) size[2];
+}
+%typemap(freearg)
+  (DATA_TYPE** IN_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+{
+  Py_ssize_t i;
+
+  if (array$argnum!=NULL) free(array$argnum);
+
+  /*freeing the individual arrays if needed */
+  if (object_array$argnum!=NULL)
+  {
+    if (is_new_object_array$argnum!=NULL)
+    {
+      for (i=0; i<$2; i++)
+      {
+        if (object_array$argnum[i] != NULL && is_new_object_array$argnum[i])
+        { Py_DECREF(object_array$argnum[i]); }
+      }
+      free(is_new_object_array$argnum);
+    }
+    free(object_array$argnum);
+  }
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4,
+ *                    DATA_TYPE* IN_ARRAY4)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* IN_ARRAY4)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* IN_ARRAY4)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[4] = { -1, -1, -1 , -1};
+  array = obj_to_array_contiguous_allow_conversion($input, DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 4) ||
+      !require_size(array, size, 4)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DIM_TYPE) array_size(array,2);
+  $4 = (DIM_TYPE) array_size(array,3);
+  $5 = (DATA_TYPE*) array_data(array);
+}
+%typemap(freearg)
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* IN_ARRAY4)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DATA_TYPE* IN_FARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3, DIM_TYPE DIM4)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* IN_FARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* IN_FARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[4] = { -1, -1, -1, -1 };
+  array = obj_to_array_fortran_allow_conversion($input, DATA_TYPECODE,
+                                                &is_new_object);
+  if (!array || !require_dimensions(array, 4) ||
+      !require_size(array, size, 4) | !require_fortran(array)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+  $4 = (DIM_TYPE) array_size(array,2);
+  $5 = (DIM_TYPE) array_size(array,3);
+}
+%typemap(freearg)
+  (DATA_TYPE* IN_FARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4,
+ *                    DATA_TYPE* IN_FARRAY4)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* IN_FARRAY4)
+{
+  $1 = is_array($input) || PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* IN_FARRAY4)
+  (PyArrayObject* array=NULL, int is_new_object=0)
+{
+  npy_intp size[4] = { -1, -1, -1 , -1 };
+  array = obj_to_array_fortran_allow_conversion($input, DATA_TYPECODE,
+                                                   &is_new_object);
+  if (!array || !require_dimensions(array, 4) ||
+      !require_size(array, size, 4) || !require_fortran(array)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DIM_TYPE) array_size(array,2);
+  $4 = (DIM_TYPE) array_size(array,3);
+  $5 = (DATA_TYPE*) array_data(array);
+}
+%typemap(freearg)
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* IN_FARRAY4)
+{
+  if (is_new_object$argnum && array$argnum)
+    { Py_DECREF(array$argnum); }
+}
+
+/***************************/
+/* In-Place Array Typemaps */
+/***************************/
+
+/* Typemap suite for (DATA_TYPE INPLACE_ARRAY1[ANY])
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE INPLACE_ARRAY1[ANY])
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE INPLACE_ARRAY1[ANY])
+  (PyArrayObject* array=NULL)
+{
+  npy_intp size[1] = { $1_dim0 };
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,1) || !require_size(array, size, 1) ||
+      !require_contiguous(array) || !require_native(array)) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+
+/* Typemap suite for (DATA_TYPE* INPLACE_ARRAY1, DIM_TYPE DIM1)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* INPLACE_ARRAY1, DIM_TYPE DIM1)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* INPLACE_ARRAY1, DIM_TYPE DIM1)
+  (PyArrayObject* array=NULL, int i=1)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,1) || !require_contiguous(array)
+      || !require_native(array)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = 1;
+  for (i=0; i < array_numdims(array); ++i) $2 *= array_size(array,i);
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DATA_TYPE* INPLACE_ARRAY1)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DATA_TYPE* INPLACE_ARRAY1)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DATA_TYPE* INPLACE_ARRAY1)
+  (PyArrayObject* array=NULL, int i=0)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,1) || !require_contiguous(array)
+      || !require_native(array)) SWIG_fail;
+  $1 = 1;
+  for (i=0; i < array_numdims(array); ++i) $1 *= array_size(array,i);
+  $2 = (DATA_TYPE*) array_data(array);
+}
+
+/* Typemap suite for (DATA_TYPE INPLACE_ARRAY2[ANY][ANY])
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE INPLACE_ARRAY2[ANY][ANY])
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE INPLACE_ARRAY2[ANY][ANY])
+  (PyArrayObject* array=NULL)
+{
+  npy_intp size[2] = { $1_dim0, $1_dim1 };
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,2) || !require_size(array, size, 2) ||
+      !require_contiguous(array) || !require_native(array)) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+
+/* Typemap suite for (DATA_TYPE* INPLACE_ARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* INPLACE_ARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* INPLACE_ARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,2) || !require_contiguous(array)
+      || !require_native(array)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* INPLACE_ARRAY2)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* INPLACE_ARRAY2)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* INPLACE_ARRAY2)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,2) || !require_contiguous(array) ||
+      !require_native(array)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DATA_TYPE*) array_data(array);
+}
+
+/* Typemap suite for (DATA_TYPE* INPLACE_FARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* INPLACE_FARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* INPLACE_FARRAY2, DIM_TYPE DIM1, DIM_TYPE DIM2)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,2) || !require_contiguous(array)
+      || !require_native(array) || !require_fortran(array)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* INPLACE_FARRAY2)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* INPLACE_FARRAY2)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DATA_TYPE* INPLACE_FARRAY2)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,2) || !require_contiguous(array) ||
+      !require_native(array) || !require_fortran(array)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DATA_TYPE*) array_data(array);
+}
+
+/* Typemap suite for (DATA_TYPE INPLACE_ARRAY3[ANY][ANY][ANY])
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE INPLACE_ARRAY3[ANY][ANY][ANY])
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE INPLACE_ARRAY3[ANY][ANY][ANY])
+  (PyArrayObject* array=NULL)
+{
+  npy_intp size[3] = { $1_dim0, $1_dim1, $1_dim2 };
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,3) || !require_size(array, size, 3) ||
+      !require_contiguous(array) || !require_native(array)) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+
+/* Typemap suite for (DATA_TYPE* INPLACE_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* INPLACE_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* INPLACE_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,3) || !require_contiguous(array) ||
+      !require_native(array)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+  $4 = (DIM_TYPE) array_size(array,2);
+}
+
+/* Typemap suite for (DATA_TYPE** INPLACE_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE** INPLACE_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+{
+  $1 = PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE** INPLACE_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+  (DATA_TYPE** array=NULL, PyArrayObject** object_array=NULL)
+{
+  npy_intp size[2] = { -1, -1 };
+  PyArrayObject* temp_array;
+  Py_ssize_t i;
+
+  /* length of the list */
+  $2 = PyList_Size($input);
+
+  /* the arrays */
+  array = (DATA_TYPE **)malloc($2*sizeof(DATA_TYPE *));
+  object_array = (PyArrayObject **)calloc($2,sizeof(PyArrayObject *));
+
+  if (array == NULL || object_array == NULL)
+  {
+    SWIG_fail;
+  }
+
+  for (i=0; i<$2; i++)
+  {
+    temp_array = obj_to_array_no_conversion(PySequence_GetItem($input,i), DATA_TYPECODE);
+
+    /* the new array must be stored so that it can be destroyed in freearg */
+    object_array[i] = temp_array;
+
+    if ( !temp_array || !require_dimensions(temp_array, 2) ||
+      !require_contiguous(temp_array) ||
+      !require_native(temp_array) ||
+      !PyArray_EquivTypenums(array_type(temp_array), DATA_TYPECODE)
+    ) SWIG_fail;
+
+    /* store the size of the first array in the list, then use that for comparison. */
+    if (i == 0)
+    {
+      size[0] = array_size(temp_array,0);
+      size[1] = array_size(temp_array,1);
+    }
+
+    if (!require_size(temp_array, size, 2)) SWIG_fail;
+
+    array[i] = (DATA_TYPE*) array_data(temp_array);
+  }
+
+  $1 = (DATA_TYPE**) array;
+  $3 = (DIM_TYPE) size[0];
+  $4 = (DIM_TYPE) size[1];
+}
+%typemap(freearg)
+  (DATA_TYPE** INPLACE_ARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+{
+  if (array$argnum!=NULL) free(array$argnum);
+  if (object_array$argnum!=NULL) free(object_array$argnum);
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3,
+ *                    DATA_TYPE* INPLACE_ARRAY3)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* INPLACE_ARRAY3)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* INPLACE_ARRAY3)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,3) || !require_contiguous(array)
+      || !require_native(array)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DIM_TYPE) array_size(array,2);
+  $4 = (DATA_TYPE*) array_data(array);
+}
+
+/* Typemap suite for (DATA_TYPE* INPLACE_FARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* INPLACE_FARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* INPLACE_FARRAY3, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,3) || !require_contiguous(array) ||
+      !require_native(array) || !require_fortran(array)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+  $4 = (DIM_TYPE) array_size(array,2);
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3,
+ *                    DATA_TYPE* INPLACE_FARRAY3)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* INPLACE_FARRAY3)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DATA_TYPE* INPLACE_FARRAY3)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,3) || !require_contiguous(array)
+      || !require_native(array) || !require_fortran(array)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DIM_TYPE) array_size(array,2);
+  $4 = (DATA_TYPE*) array_data(array);
+}
+
+/* Typemap suite for (DATA_TYPE INPLACE_ARRAY4[ANY][ANY][ANY][ANY])
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE INPLACE_ARRAY4[ANY][ANY][ANY][ANY])
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE INPLACE_ARRAY4[ANY][ANY][ANY][ANY])
+  (PyArrayObject* array=NULL)
+{
+  npy_intp size[4] = { $1_dim0, $1_dim1, $1_dim2 , $1_dim3 };
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,4) || !require_size(array, size, 4) ||
+      !require_contiguous(array) || !require_native(array)) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+
+/* Typemap suite for (DATA_TYPE* INPLACE_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3, DIM_TYPE DIM4)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* INPLACE_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* INPLACE_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,4) || !require_contiguous(array) ||
+      !require_native(array)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+  $4 = (DIM_TYPE) array_size(array,2);
+  $5 = (DIM_TYPE) array_size(array,3);
+}
+
+/* Typemap suite for (DATA_TYPE** INPLACE_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3, DIM_TYPE DIM4)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE** INPLACE_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+{
+  $1 = PySequence_Check($input);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE** INPLACE_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+  (DATA_TYPE** array=NULL, PyArrayObject** object_array=NULL)
+{
+  npy_intp size[3] = { -1, -1, -1 };
+  PyArrayObject* temp_array;
+  Py_ssize_t i;
+
+  /* length of the list */
+  $2 = PyList_Size($input);
+
+  /* the arrays */
+  array = (DATA_TYPE **)malloc($2*sizeof(DATA_TYPE *));
+  object_array = (PyArrayObject **)calloc($2,sizeof(PyArrayObject *));
+
+  if (array == NULL || object_array == NULL)
+  {
+    SWIG_fail;
+  }
+
+  for (i=0; i<$2; i++)
+  {
+    temp_array = obj_to_array_no_conversion(PySequence_GetItem($input,i), DATA_TYPECODE);
+
+    /* the new array must be stored so that it can be destroyed in freearg */
+    object_array[i] = temp_array;
+
+    if ( !temp_array || !require_dimensions(temp_array, 3) ||
+      !require_contiguous(temp_array) ||
+      !require_native(temp_array) ||
+      !PyArray_EquivTypenums(array_type(temp_array), DATA_TYPECODE)
+    ) SWIG_fail;
+
+    /* store the size of the first array in the list, then use that for comparison. */
+    if (i == 0)
+    {
+      size[0] = array_size(temp_array,0);
+      size[1] = array_size(temp_array,1);
+      size[2] = array_size(temp_array,2);
+    }
+
+    if (!require_size(temp_array, size, 3)) SWIG_fail;
+
+    array[i] = (DATA_TYPE*) array_data(temp_array);
+  }
+
+  $1 = (DATA_TYPE**) array;
+  $3 = (DIM_TYPE) size[0];
+  $4 = (DIM_TYPE) size[1];
+  $5 = (DIM_TYPE) size[2];
+}
+%typemap(freearg)
+  (DATA_TYPE** INPLACE_ARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+{
+  if (array$argnum!=NULL) free(array$argnum);
+  if (object_array$argnum!=NULL) free(object_array$argnum);
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4,
+ *                    DATA_TYPE* INPLACE_ARRAY4)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* INPLACE_ARRAY4)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* INPLACE_ARRAY4)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,4) || !require_contiguous(array)
+      || !require_native(array)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DIM_TYPE) array_size(array,2);
+  $4 = (DIM_TYPE) array_size(array,3);
+  $5 = (DATA_TYPE*) array_data(array);
+}
+
+/* Typemap suite for (DATA_TYPE* INPLACE_FARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2,
+ *                    DIM_TYPE DIM3, DIM_TYPE DIM4)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DATA_TYPE* INPLACE_FARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* INPLACE_FARRAY4, DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,4) || !require_contiguous(array) ||
+      !require_native(array) || !require_fortran(array)) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+  $2 = (DIM_TYPE) array_size(array,0);
+  $3 = (DIM_TYPE) array_size(array,1);
+  $4 = (DIM_TYPE) array_size(array,2);
+  $5 = (DIM_TYPE) array_size(array,3);
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3,
+ *                    DATA_TYPE* INPLACE_FARRAY4)
+ */
+%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY,
+           fragment="NumPy_Macros")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* INPLACE_FARRAY4)
+{
+  $1 = is_array($input) && PyArray_EquivTypenums(array_type($input),
+                                                 DATA_TYPECODE);
+}
+%typemap(in,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DIM_TYPE DIM2, DIM_TYPE DIM3, DIM_TYPE DIM4, DATA_TYPE* INPLACE_FARRAY4)
+  (PyArrayObject* array=NULL)
+{
+  array = obj_to_array_no_conversion($input, DATA_TYPECODE);
+  if (!array || !require_dimensions(array,4) || !require_contiguous(array)
+      || !require_native(array) || !require_fortran(array)) SWIG_fail;
+  $1 = (DIM_TYPE) array_size(array,0);
+  $2 = (DIM_TYPE) array_size(array,1);
+  $3 = (DIM_TYPE) array_size(array,2);
+  $4 = (DIM_TYPE) array_size(array,3);
+  $5 = (DATA_TYPE*) array_data(array);
+}
+
+/*************************/
+/* Argout Array Typemaps */
+/*************************/
+
+/* Typemap suite for (DATA_TYPE ARGOUT_ARRAY1[ANY])
+ */
+%typemap(in,numinputs=0,
+         fragment="NumPy_Backward_Compatibility,NumPy_Macros")
+  (DATA_TYPE ARGOUT_ARRAY1[ANY])
+  (PyObject* array = NULL)
+{
+  npy_intp dims[1] = { $1_dim0 };
+  array = PyArray_SimpleNew(1, dims, DATA_TYPECODE);
+  if (!array) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+%typemap(argout)
+  (DATA_TYPE ARGOUT_ARRAY1[ANY])
+{
+  $result = SWIG_Python_AppendOutput($result,(PyObject*)array$argnum);
+}
+
+/* Typemap suite for (DATA_TYPE* ARGOUT_ARRAY1, DIM_TYPE DIM1)
+ */
+%typemap(in,numinputs=1,
+         fragment="NumPy_Fragments")
+  (DATA_TYPE* ARGOUT_ARRAY1, DIM_TYPE DIM1)
+  (PyObject* array = NULL)
+{
+  npy_intp dims[1];
+  if (!PyInt_Check($input))
+  {
+    const char* typestring = pytype_string($input);
+    PyErr_Format(PyExc_TypeError,
+                 "Int dimension expected.  '%s' given.",
+                 typestring);
+    SWIG_fail;
+  }
+  $2 = (DIM_TYPE) PyInt_AsLong($input);
+  dims[0] = (npy_intp) $2;
+  array = PyArray_SimpleNew(1, dims, DATA_TYPECODE);
+  if (!array) SWIG_fail;
+  $1 = (DATA_TYPE*) array_data(array);
+}
+%typemap(argout)
+  (DATA_TYPE* ARGOUT_ARRAY1, DIM_TYPE DIM1)
+{
+  $result = SWIG_Python_AppendOutput($result,(PyObject*)array$argnum);
+}
+
+/* Typemap suite for (DIM_TYPE DIM1, DATA_TYPE* ARGOUT_ARRAY1)
+ */
+%typemap(in,numinputs=1,
+         fragment="NumPy_Fragments")
+  (DIM_TYPE DIM1, DATA_TYPE* ARGOUT_ARRAY1)
+  (PyObject* array = NULL)
+{
+  npy_intp dims[1];
+  if (!PyInt_Check($input))
+  {
+    const char* typestring = pytype_string($input);
+    PyErr_Format(PyExc_TypeError,
+                 "Int dimension expected.  '%s' given.",
+                 typestring);
+    SWIG_fail;
+  }
+  $1 = (DIM_TYPE) PyInt_AsLong($input);
+  dims[0] = (npy_intp) $1;
+  array = PyArray_SimpleNew(1, dims, DATA_TYPECODE);
+  if (!array) SWIG_fail;
+  $2 = (DATA_TYPE*) array_data(array);
+}
+%typemap(argout)
+  (DIM_TYPE DIM1, DATA_TYPE* ARGOUT_ARRAY1)
+{
+  $result = SWIG_Python_AppendOutput($result,(PyObject*)array$argnum);
+}
+
+/* Typemap suite for (DATA_TYPE ARGOUT_ARRAY2[ANY][ANY])
+ */
+%typemap(in,numinputs=0,
+         fragment="NumPy_Backward_Compatibility,NumPy_Macros")
+  (DATA_TYPE ARGOUT_ARRAY2[ANY][ANY])
+  (PyObject* array = NULL)
+{
+  npy_intp dims[2] = { $1_dim0, $1_dim1 };
+  array = PyArray_SimpleNew(2, dims, DATA_TYPECODE);
+  if (!array) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+%typemap(argout)
+  (DATA_TYPE ARGOUT_ARRAY2[ANY][ANY])
+{
+  $result = SWIG_Python_AppendOutput($result,(PyObject*)array$argnum);
+}
+
+/* Typemap suite for (DATA_TYPE ARGOUT_ARRAY3[ANY][ANY][ANY])
+ */
+%typemap(in,numinputs=0,
+         fragment="NumPy_Backward_Compatibility,NumPy_Macros")
+  (DATA_TYPE ARGOUT_ARRAY3[ANY][ANY][ANY])
+  (PyObject* array = NULL)
+{
+  npy_intp dims[3] = { $1_dim0, $1_dim1, $1_dim2 };
+  array = PyArray_SimpleNew(3, dims, DATA_TYPECODE);
+  if (!array) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+%typemap(argout)
+  (DATA_TYPE ARGOUT_ARRAY3[ANY][ANY][ANY])
+{
+  $result = SWIG_Python_AppendOutput($result,(PyObject*)array$argnum);
+}
+
+/* Typemap suite for (DATA_TYPE ARGOUT_ARRAY4[ANY][ANY][ANY][ANY])
+ */
+%typemap(in,numinputs=0,
+         fragment="NumPy_Backward_Compatibility,NumPy_Macros")
+  (DATA_TYPE ARGOUT_ARRAY4[ANY][ANY][ANY][ANY])
+  (PyObject* array = NULL)
+{
+  npy_intp dims[4] = { $1_dim0, $1_dim1, $1_dim2, $1_dim3 };
+  array = PyArray_SimpleNew(4, dims, DATA_TYPECODE);
+  if (!array) SWIG_fail;
+  $1 = ($1_ltype) array_data(array);
+}
+%typemap(argout)
+  (DATA_TYPE ARGOUT_ARRAY4[ANY][ANY][ANY][ANY])
+{
+  $result = SWIG_Python_AppendOutput($result,(PyObject*)array$argnum);
+}
+
+/*****************************/
+/* Argoutview Array Typemaps */
+/*****************************/
+
+/* Typemap suite for (DATA_TYPE** ARGOUTVIEW_ARRAY1, DIM_TYPE* DIM1)
+ */
+%typemap(in,numinputs=0)
+  (DATA_TYPE** ARGOUTVIEW_ARRAY1, DIM_TYPE* DIM1    )
+  (DATA_TYPE*  data_temp = NULL , DIM_TYPE  dim_temp)
+{
+  $1 = &data_temp;
+  $2 = &dim_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility")
+  (DATA_TYPE** ARGOUTVIEW_ARRAY1, DIM_TYPE* DIM1)
+{
+  npy_intp dims[1] = { *$2 };
+  PyObject* obj = PyArray_SimpleNewFromData(1, dims, DATA_TYPECODE, (void*)(*$1));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DIM_TYPE* DIM1, DATA_TYPE** ARGOUTVIEW_ARRAY1)
+ */
+%typemap(in,numinputs=0)
+  (DIM_TYPE* DIM1    , DATA_TYPE** ARGOUTVIEW_ARRAY1)
+  (DIM_TYPE  dim_temp, DATA_TYPE*  data_temp = NULL )
+{
+  $1 = &dim_temp;
+  $2 = &data_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility")
+  (DIM_TYPE* DIM1, DATA_TYPE** ARGOUTVIEW_ARRAY1)
+{
+  npy_intp dims[1] = { *$1 };
+  PyObject* obj = PyArray_SimpleNewFromData(1, dims, DATA_TYPECODE, (void*)(*$2));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DATA_TYPE** ARGOUTVIEW_ARRAY2, DIM_TYPE* DIM1, DIM_TYPE* DIM2)
+ */
+%typemap(in,numinputs=0)
+  (DATA_TYPE** ARGOUTVIEW_ARRAY2, DIM_TYPE* DIM1     , DIM_TYPE* DIM2     )
+  (DATA_TYPE*  data_temp = NULL , DIM_TYPE  dim1_temp, DIM_TYPE  dim2_temp)
+{
+  $1 = &data_temp;
+  $2 = &dim1_temp;
+  $3 = &dim2_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility")
+  (DATA_TYPE** ARGOUTVIEW_ARRAY2, DIM_TYPE* DIM1, DIM_TYPE* DIM2)
+{
+  npy_intp dims[2] = { *$2, *$3 };
+  PyObject* obj = PyArray_SimpleNewFromData(2, dims, DATA_TYPECODE, (void*)(*$1));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DATA_TYPE** ARGOUTVIEW_ARRAY2)
+ */
+%typemap(in,numinputs=0)
+  (DIM_TYPE* DIM1     , DIM_TYPE* DIM2     , DATA_TYPE** ARGOUTVIEW_ARRAY2)
+  (DIM_TYPE  dim1_temp, DIM_TYPE  dim2_temp, DATA_TYPE*  data_temp = NULL )
+{
+  $1 = &dim1_temp;
+  $2 = &dim2_temp;
+  $3 = &data_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility")
+  (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DATA_TYPE** ARGOUTVIEW_ARRAY2)
+{
+  npy_intp dims[2] = { *$1, *$2 };
+  PyObject* obj = PyArray_SimpleNewFromData(2, dims, DATA_TYPECODE, (void*)(*$3));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DATA_TYPE** ARGOUTVIEW_FARRAY2, DIM_TYPE* DIM1, DIM_TYPE* DIM2)
+ */
+%typemap(in,numinputs=0)
+  (DATA_TYPE** ARGOUTVIEW_FARRAY2, DIM_TYPE* DIM1     , DIM_TYPE* DIM2     )
+  (DATA_TYPE*  data_temp = NULL  , DIM_TYPE  dim1_temp, DIM_TYPE  dim2_temp)
+{
+  $1 = &data_temp;
+  $2 = &dim1_temp;
+  $3 = &dim2_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility,NumPy_Array_Requirements")
+  (DATA_TYPE** ARGOUTVIEW_FARRAY2, DIM_TYPE* DIM1, DIM_TYPE* DIM2)
+{
+  npy_intp dims[2] = { *$2, *$3 };
+  PyObject* obj = PyArray_SimpleNewFromData(2, dims, DATA_TYPECODE, (void*)(*$1));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array || !require_fortran(array)) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DATA_TYPE** ARGOUTVIEW_FARRAY2)
+ */
+%typemap(in,numinputs=0)
+  (DIM_TYPE* DIM1     , DIM_TYPE* DIM2     , DATA_TYPE** ARGOUTVIEW_FARRAY2)
+  (DIM_TYPE  dim1_temp, DIM_TYPE  dim2_temp, DATA_TYPE*  data_temp = NULL  )
+{
+  $1 = &dim1_temp;
+  $2 = &dim2_temp;
+  $3 = &data_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility,NumPy_Array_Requirements")
+  (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DATA_TYPE** ARGOUTVIEW_FARRAY2)
+{
+  npy_intp dims[2] = { *$1, *$2 };
+  PyObject* obj = PyArray_SimpleNewFromData(2, dims, DATA_TYPECODE, (void*)(*$3));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array || !require_fortran(array)) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DATA_TYPE** ARGOUTVIEW_ARRAY3, DIM_TYPE* DIM1, DIM_TYPE* DIM2,
+                      DIM_TYPE* DIM3)
+ */
+%typemap(in,numinputs=0)
+  (DATA_TYPE** ARGOUTVIEW_ARRAY3, DIM_TYPE* DIM1    , DIM_TYPE* DIM2    , DIM_TYPE* DIM3    )
+  (DATA_TYPE* data_temp = NULL  , DIM_TYPE dim1_temp, DIM_TYPE dim2_temp, DIM_TYPE dim3_temp)
+{
+  $1 = &data_temp;
+  $2 = &dim1_temp;
+  $3 = &dim2_temp;
+  $4 = &dim3_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility")
+  (DATA_TYPE** ARGOUTVIEW_ARRAY3, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3)
+{
+  npy_intp dims[3] = { *$2, *$3, *$4 };
+  PyObject* obj = PyArray_SimpleNewFromData(3, dims, DATA_TYPECODE, (void*)(*$1));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3,
+                      DATA_TYPE** ARGOUTVIEW_ARRAY3)
+ */
+%typemap(in,numinputs=0)
+  (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DATA_TYPE** ARGOUTVIEW_ARRAY3)
+  (DIM_TYPE dim1_temp, DIM_TYPE dim2_temp, DIM_TYPE dim3_temp, DATA_TYPE* data_temp = NULL)
+{
+  $1 = &dim1_temp;
+  $2 = &dim2_temp;
+  $3 = &dim3_temp;
+  $4 = &data_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility")
+  (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DATA_TYPE** ARGOUTVIEW_ARRAY3)
+{
+  npy_intp dims[3] = { *$1, *$2, *$3 };
+  PyObject* obj = PyArray_SimpleNewFromData(3, dims, DATA_TYPECODE, (void*)(*$4));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DATA_TYPE** ARGOUTVIEW_FARRAY3, DIM_TYPE* DIM1, DIM_TYPE* DIM2,
+                      DIM_TYPE* DIM3)
+ */
+%typemap(in,numinputs=0)
+  (DATA_TYPE** ARGOUTVIEW_FARRAY3, DIM_TYPE* DIM1    , DIM_TYPE* DIM2    , DIM_TYPE* DIM3    )
+  (DATA_TYPE* data_temp = NULL   , DIM_TYPE dim1_temp, DIM_TYPE dim2_temp, DIM_TYPE dim3_temp)
+{
+  $1 = &data_temp;
+  $2 = &dim1_temp;
+  $3 = &dim2_temp;
+  $4 = &dim3_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility,NumPy_Array_Requirements")
+  (DATA_TYPE** ARGOUTVIEW_FARRAY3, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3)
+{
+  npy_intp dims[3] = { *$2, *$3, *$4 };
+  PyObject* obj = PyArray_SimpleNewFromData(3, dims, DATA_TYPECODE, (void*)(*$1));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array || !require_fortran(array)) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3,
+                      DATA_TYPE** ARGOUTVIEW_FARRAY3)
+ */
+%typemap(in,numinputs=0)
+  (DIM_TYPE* DIM1    , DIM_TYPE* DIM2    , DIM_TYPE* DIM3    , DATA_TYPE** ARGOUTVIEW_FARRAY3)
+  (DIM_TYPE dim1_temp, DIM_TYPE dim2_temp, DIM_TYPE dim3_temp, DATA_TYPE* data_temp = NULL   )
+{
+  $1 = &dim1_temp;
+  $2 = &dim2_temp;
+  $3 = &dim3_temp;
+  $4 = &data_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility,NumPy_Array_Requirements")
+  (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DATA_TYPE** ARGOUTVIEW_FARRAY3)
+{
+  npy_intp dims[3] = { *$1, *$2, *$3 };
+  PyObject* obj = PyArray_SimpleNewFromData(3, dims, DATA_TYPECODE, (void*)(*$4));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array || !require_fortran(array)) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DATA_TYPE** ARGOUTVIEW_ARRAY4, DIM_TYPE* DIM1, DIM_TYPE* DIM2,
+                      DIM_TYPE* DIM3, DIM_TYPE* DIM4)
+ */
+%typemap(in,numinputs=0)
+  (DATA_TYPE** ARGOUTVIEW_ARRAY4, DIM_TYPE* DIM1    , DIM_TYPE* DIM2    , DIM_TYPE* DIM3    , DIM_TYPE* DIM4    )
+  (DATA_TYPE* data_temp = NULL  , DIM_TYPE dim1_temp, DIM_TYPE dim2_temp, DIM_TYPE dim3_temp, DIM_TYPE dim4_temp)
+{
+  $1 = &data_temp;
+  $2 = &dim1_temp;
+  $3 = &dim2_temp;
+  $4 = &dim3_temp;
+  $5 = &dim4_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility")
+  (DATA_TYPE** ARGOUTVIEW_ARRAY4, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4)
+{
+  npy_intp dims[4] = { *$2, *$3, *$4 , *$5 };
+  PyObject* obj = PyArray_SimpleNewFromData(4, dims, DATA_TYPECODE, (void*)(*$1));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4,
+                      DATA_TYPE** ARGOUTVIEW_ARRAY4)
+ */
+%typemap(in,numinputs=0)
+  (DIM_TYPE* DIM1    , DIM_TYPE* DIM2    , DIM_TYPE* DIM3    , DIM_TYPE* DIM4    , DATA_TYPE** ARGOUTVIEW_ARRAY4)
+  (DIM_TYPE dim1_temp, DIM_TYPE dim2_temp, DIM_TYPE dim3_temp, DIM_TYPE dim4_temp, DATA_TYPE* data_temp = NULL  )
+{
+  $1 = &dim1_temp;
+  $2 = &dim2_temp;
+  $3 = &dim3_temp;
+  $4 = &dim4_temp;
+  $5 = &data_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility")
+  (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4, DATA_TYPE** ARGOUTVIEW_ARRAY4)
+{
+  npy_intp dims[4] = { *$1, *$2, *$3 , *$4 };
+  PyObject* obj = PyArray_SimpleNewFromData(4, dims, DATA_TYPECODE, (void*)(*$5));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DATA_TYPE** ARGOUTVIEW_FARRAY4, DIM_TYPE* DIM1, DIM_TYPE* DIM2,
+                      DIM_TYPE* DIM3, DIM_TYPE* DIM4)
+ */
+%typemap(in,numinputs=0)
+  (DATA_TYPE** ARGOUTVIEW_FARRAY4, DIM_TYPE* DIM1    , DIM_TYPE* DIM2    , DIM_TYPE* DIM3    , DIM_TYPE* DIM4    )
+  (DATA_TYPE* data_temp = NULL   , DIM_TYPE dim1_temp, DIM_TYPE dim2_temp, DIM_TYPE dim3_temp, DIM_TYPE dim4_temp)
+{
+  $1 = &data_temp;
+  $2 = &dim1_temp;
+  $3 = &dim2_temp;
+  $4 = &dim3_temp;
+  $5 = &dim4_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility,NumPy_Array_Requirements")
+  (DATA_TYPE** ARGOUTVIEW_FARRAY4, DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4)
+{
+  npy_intp dims[4] = { *$2, *$3, *$4 , *$5 };
+  PyObject* obj = PyArray_SimpleNewFromData(4, dims, DATA_TYPECODE, (void*)(*$1));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array || !require_fortran(array)) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4,
+                      DATA_TYPE** ARGOUTVIEW_FARRAY4)
+ */
+%typemap(in,numinputs=0)
+  (DIM_TYPE* DIM1    , DIM_TYPE* DIM2    , DIM_TYPE* DIM3    , DIM_TYPE* DIM4    , DATA_TYPE** ARGOUTVIEW_FARRAY4)
+  (DIM_TYPE dim1_temp, DIM_TYPE dim2_temp, DIM_TYPE dim3_temp, DIM_TYPE dim4_temp, DATA_TYPE* data_temp = NULL   )
+{
+  $1 = &dim1_temp;
+  $2 = &dim2_temp;
+  $3 = &dim3_temp;
+  $4 = &dim4_temp;
+  $5 = &data_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility,NumPy_Array_Requirements")
+  (DIM_TYPE* DIM1, DIM_TYPE* DIM2, DIM_TYPE* DIM3, DIM_TYPE* DIM4, DATA_TYPE** ARGOUTVIEW_FARRAY4)
+{
+  npy_intp dims[4] = { *$1, *$2, *$3 , *$4 };
+  PyObject* obj = PyArray_SimpleNewFromData(4, dims, DATA_TYPECODE, (void*)(*$5));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array || !require_fortran(array)) SWIG_fail;
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/*************************************/
+/* Managed Argoutview Array Typemaps */
+/*************************************/
+
+/* Typemap suite for (DATA_TYPE** ARGOUTVIEWM_ARRAY1, DIM_TYPE* DIM1)
+ */
+%typemap(in,numinputs=0)
+  (DATA_TYPE** ARGOUTVIEWM_ARRAY1, DIM_TYPE* DIM1    )
+  (DATA_TYPE*  data_temp = NULL  , DIM_TYPE  dim_temp)
+{
+  $1 = &data_temp;
+  $2 = &dim_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility,NumPy_Utilities")
+  (DATA_TYPE** ARGOUTVIEWM_ARRAY1, DIM_TYPE* DIM1)
+{
+  npy_intp dims[1] = { *$2 };
+  PyObject* obj = PyArray_SimpleNewFromData(1, dims, DATA_TYPECODE, (void*)(*$1));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array) SWIG_fail;
+
+%#ifdef SWIGPY_USE_CAPSULE
+    PyObject* cap = PyCapsule_New((void*)(*$1), SWIGPY_CAPSULE_NAME, free_cap);
+%#else
+    PyObject* cap = PyCObject_FromVoidPtr((void*)(*$1), free);
+%#endif
+
+%#if NPY_API_VERSION < 0x00000007
+  PyArray_BASE(array) = cap;
+%#else
+  PyArray_SetBaseObject(array,cap);
+%#endif
+
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DIM_TYPE* DIM1, DATA_TYPE** ARGOUTVIEWM_ARRAY1)
+ */
+%typemap(in,numinputs=0)
+  (DIM_TYPE* DIM1    , DATA_TYPE** ARGOUTVIEWM_ARRAY1)
+  (DIM_TYPE  dim_temp, DATA_TYPE*  data_temp = NULL  )
+{
+  $1 = &dim_temp;
+  $2 = &data_temp;
+}
+%typemap(argout,
+         fragment="NumPy_Backward_Compatibility,NumPy_Utilities")
+  (DIM_TYPE* DIM1, DATA_TYPE** ARGOUTVIEWM_ARRAY1)
+{
+  npy_intp dims[1] = { *$1 };
+  PyObject* obj = PyArray_SimpleNewFromData(1, dims, DATA_TYPECODE, (void*)(*$2));
+  PyArrayObject* array = (PyArrayObject*) obj;
+
+  if (!array) SWIG_fail;
+
+%#ifdef SWIGPY_USE_CAPSULE
+    PyObject* cap = PyCapsule_New((void*)(*$1), SWIGPY_CAPSULE_NAME, free_cap);
+%#else
+    PyObject* cap = PyCObject_FromVoidPtr((void*)(*$1), free);
+%#endif
+
+%#if NPY_API_VERSION < 0x00000007
+  PyArray_BASE(array) = cap;
+%#else
+  PyArray_SetBaseObject(array,cap);
+%#endif
+
+  $result = SWIG_Python_AppendOutput($result,obj);
+}
+
+/* Typemap suite for (DATA_TYPE** ARGOUTVIEWM_ARRAY2, DIM_TYPE* DIM1, DIM_TYPE* DIM2)
+ */
+%typemap(in,numinputs=0)
+  (DATA_TYPE

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