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

permanent.c 1.9KB
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Compatible with PyPI, can be installed through pip
9 år sedan
Messing around with complex algebra
10 år sedan
First commit
10 år sedan
Had a tidy up, all works well. TODO: hard-coded versions
10 år sedan
Whoops
10 år sedan
First commit
10 år sedan
Had a tidy up, all works well. TODO: hard-coded versions
10 år sedan
Improvements
10 år sedan
Had a tidy up, all works well. TODO: hard-coded versions
10 år sedan
Compatible with PyPI, can be installed through pip
9 år sedan
Had a tidy up, all works well. TODO: hard-coded versions
10 år sedan
First commit
10 år sedan
Had a tidy up, all works well. TODO: hard-coded versions
10 år sedan
First commit
10 år sedan
Compatible with PyPI, can be installed through pip
9 år sedan
Better
10 år sedan
First commit
10 år sedan
Better
10 år sedan
Still not quite there...
10 år sedan
Had another go at complex math
10 år sedan
Add tests, guard against dtype!=complex
8 år sedan
First commit
10 år sedan
Better
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Graphs
10 år sedan
Still not quite there...
10 år sedan
First commit
10 år sedan
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  1. /* Functions to compute 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. #include "npy_util.h"

  6. #include "bithacks.h"

  7. 

  8. // Forward function declaration 

  9. static PyObject *permanent(PyObject *self, PyObject *args);    

  10. 

  11. // Method list

  12. static PyMethodDef methods[] = {                                

  13.   { "permanent", permanent, METH_VARARGS, "Computes the permanent of a numpy using the most appropriate method available"},

  14.   { NULL, NULL, 0, NULL } // Sentinel

  15. };

  16. 

  17. // Module initialization

  18. PyMODINIT_FUNC initpermanent(void) {                            

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

  20.   import_array();

  21. }

  22. 

  23. // Ryser's algorithm 

  24. static npy_complex128 ryser(PyArrayObject *submatrix) {

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

  26.     npy_complex128 rowsum, rowsumprod;

  27.     npy_complex128 perm = complex_zero;

  28.     int exp = 1 << n; 

  29.     int i, y, z;

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

  31.         rowsumprod = complex_one;

  32.         for (y=0; y<n; ++y) {               

  33.             rowsum = complex_zero;

  34.             for (z=0; z<n; ++z) { 

  35.                 if ((i & (1 << z)) != 0) { complex_inc(&rowsum, SM(z, y)); }

  36.             }

  37.             complex_multiply(&rowsumprod, rowsum);

  38.         }

  39.         complex_inc(&perm, complex_float_prod(rowsumprod, bitparity(i)));

  40.     }

  41.     if (n%2 == 1) { perm=complex_float_prod(perm, -1); }

  42.     return perm;

  43. }

  44. 

  45. 

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

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

  48.   // Parse the input

  49.   PyArrayObject *submatrix;

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

  51.   if (!PyArray_ISCOMPLEX(submatrix)) {

  52.       PyErr_SetString(PyExc_TypeError, "Array dtype must be `complex`.");

  53.       return NULL;

  54.   }

  55. 

  56.   // Compute the permanent

  57.   npy_complex128 p = ryser(submatrix);

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

  59. }