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Python C extension to compute the permanent.
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permanent/src/permanent.c

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  1. /* Computes the permanent, given a numpy array */

  2. #define NPY_NO_DEPRECATED_API NPY_1_7_API_VERSION

  3. #include <Python.h>

  4. #include <numpy/arrayobject.h>

  5. 

  6. // Array access macros.

  7. #define SM(x0, x1) (*(npy_complex128*)((PyArray_DATA(submatrix) + \

  8.                     (x0) * PyArray_STRIDES(submatrix)[0] +  \

  9.                     (x1) * PyArray_STRIDES(submatrix)[1])))

  10. #define SM_shape(x0) (int) PyArray_DIM(submatrix, x0)

  11. 

  12. // Complex numbers

  13. static const npy_complex128 complex_one = {.real=1, .imag=0};

  14. static const npy_complex128 complex_zero = {.real=0, .imag=0};

  15. static npy_complex128 complex_add(npy_complex128 a, npy_complex128 b) { 

  16.     npy_complex128 x;

  17.     x.real = a.real+b.real;

  18.     x.imag = a.imag+b.imag;

  19.     return x;

  20. }

  21. static npy_complex128 complex_prod(npy_complex128 a, npy_complex128 b) { 

  22.     npy_complex128 x;

  23.     x.real = a.real*b.real+a.imag*b.imag;

  24.     x.imag = a.real*b.imag+a.imag*b.real;

  25.     return x;

  26. }

  27. 

  28. // Boilerplate

  29. static PyObject *permanent(PyObject *self, PyObject *args);     // Forward function declaration

  30. static PyMethodDef methods[] = {                                // Method list

  31.   { "permanent", permanent, METH_VARARGS, "Compute the permanent"},

  32.   { NULL, NULL, 0, NULL } /* Sentinel */

  33. };

  34. PyMODINIT_FUNC initpermanent(void) {                            // Module initialization

  35.   (void) Py_InitModule("permanent", methods);

  36.   import_array();

  37. }

  38. 

  39. 

  40. // Ryser's algorithm 

  41. static npy_complex128 perm_ryser(PyArrayObject *submatrix) {

  42.     int n = (int) PyArray_DIM(submatrix, 0);

  43.     int i = 0; int z = 0; int y = 0;

  44.     npy_complex128 prod;

  45.     npy_complex128 perm = complex_zero;

  46.     npy_complex128 sum = complex_zero;

  47.     int exp = 1 << n; 

  48. 

  49.     // Iterate over exponentially many index strings

  50.     for (i=0; i<exp; ++i) {

  51.         prod = complex_one;

  52.         for (y=0; y<n; ++y) {               // Rows

  53.             sum = complex_zero;

  54.             for (z=0; z<n; ++z) {           // Columns

  55.                 if ((i & (1 << z)) > 0) { 

  56.                     sum = complex_add(sum, SM(z,y)); 

  57.                 }

  58.             }

  59.             prod = complex_prod(prod, sum);

  60.         }

  61.         /*if (i%2 == 0) {prod.real*=-1; prod.imag*=-1;}*/

  62.         perm = complex_add(perm, prod);

  63.     }

  64.     /*if (i%2 == 0) {perm.real*=-1; perm.imag*=-1;}*/

  65.     return perm;

  66. }

  67. 

  68. // This is a wrapper which chooses the optimal permanent function

  69. static PyObject *permanent(PyObject *self, PyObject *args) {

  70.   // Parse the input

  71.   PyArrayObject *submatrix;

  72.   if (!PyArg_ParseTuple(args, "O!", &PyArray_Type, &submatrix)) {return NULL;}

  73. 

  74.   // Compute the permanent

  75.   npy_complex128 p = perm_ryser(submatrix);

  76.   return PyComplex_FromDoubles(p.real, p.imag);

  77. }