5 * (c) 2004 Straylight/Edgeware
8 /*----- Licensing notice --------------------------------------------------*
10 * This file is part of the Python interface to Catacomb.
12 * Catacomb/Python is free software; you can redistribute it and/or modify
13 * it under the terms of the GNU General Public License as published by
14 * the Free Software Foundation; either version 2 of the License, or
15 * (at your option) any later version.
17 * Catacomb/Python is distributed in the hope that it will be useful,
18 * but WITHOUT ANY WARRANTY; without even the implied warranty of
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 * GNU General Public License for more details.
22 * You should have received a copy of the GNU General Public License
23 * along with Catacomb/Python; if not, write to the Free Software Foundation,
24 * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
27 /*----- Header files ------------------------------------------------------*/
29 #include "catacomb-python.h"
31 /*----- Various utilities -------------------------------------------------*/
33 PyTypeObject *field_pytype;
34 PyTypeObject *primefield_pytype;
35 PyTypeObject *niceprimefield_pytype;
36 PyTypeObject *binfield_pytype;
37 PyTypeObject *binpolyfield_pytype;
38 PyTypeObject *binnormfield_pytype;
39 PyTypeObject *fe_pytype;
41 static PyObject *fe_pynew(PyTypeObject *ty, PyObject *arg, PyObject *kw)
45 static const char *const kwlist[] = { "x", 0 };
47 if (!PyArg_ParseTupleAndKeywords(arg, kw, "O:fe", KWLIST, &x))
49 if (FE_PYCHECK(x) && FE_F(x) == FIELD_F(ty)) RETURN_OBJ(x);
50 if ((z = getmp(x)) == 0) return (0);
51 z = F_IN(FIELD_F(ty), z, z);
52 return (fe_pywrap((PyObject *)ty, z));
55 static PyObject *field_dopywrap(PyTypeObject *ty, field *f)
57 field_pyobj *fobj = newtype(ty, 0, f->ops->name);
59 fobj->ty.ht_type.tp_basicsize = sizeof(fe_pyobj);
60 fobj->ty.ht_type.tp_base = fe_pytype;
62 fobj->ty.ht_type.tp_flags = (Py_TPFLAGS_DEFAULT |
64 Py_TPFLAGS_CHECKTYPES |
66 fobj->ty.ht_type.tp_alloc = PyType_GenericAlloc;
67 fobj->ty.ht_type.tp_free = 0;
68 fobj->ty.ht_type.tp_new = fe_pynew;
69 typeready(&fobj->ty.ht_type);
70 return ((PyObject *)fobj);
73 PyObject *field_pywrap(field *f)
77 if (STRCMP(F_NAME(f), ==, "prime")) ty = primefield_pytype;
78 else if (STRCMP(F_NAME(f), ==, "niceprime")) ty = niceprimefield_pytype;
79 else if (STRCMP(F_NAME(f), ==, "binpoly")) ty = binpolyfield_pytype;
80 else if (STRCMP(F_NAME(f), ==, "binnorm")) ty = binnormfield_pytype;
82 return (field_dopywrap(ty, f));
85 field *field_copy(field *f)
87 if (STRCMP(F_NAME(f), ==, "prime"))
88 f = field_prime(f->m);
89 else if (STRCMP(F_NAME(f), ==, "niceprime"))
90 f = field_niceprime(f->m);
91 else if (STRCMP(F_NAME(f), ==, "binpoly"))
92 f = field_binpoly(f->m);
93 else if (STRCMP(F_NAME(f), ==, "binnorm")) {
94 fctx_binnorm *fc = (fctx_binnorm *)f;
95 f = field_binnorm(f->m, fc->ntop.r[fc->ntop.n - 1]);
101 PyObject *fe_pywrap(PyObject *fobj, mp *x)
103 fe_pyobj *z = PyObject_New(fe_pyobj, (PyTypeObject *)fobj);
104 z->f = FIELD_F(fobj);
107 return ((PyObject *)z);
110 static mp *tofe(field *f, PyObject *o)
115 if (FE_F(o) != f && !field_samep(FE_F(o), f)) return (0);
116 y = MP_COPY(FE_X(o));
117 } else if ((x = tomp(o)) != 0) {
119 y = MP_COPY(f->zero);
120 else if (MP_EQ(x, MP_ONE))
123 y = F_IN(f, MP_NEW, x);
129 /*----- Field elements ----------------------------------------------------*/
131 static int febinop(PyObject *x, PyObject *y,
132 field **f, PyObject **fobj, mp **xx, mp **yy)
134 if (FE_PYCHECK(x)) *fobj = FE_FOBJ(x);
135 else if (FE_PYCHECK(y)) *fobj = FE_FOBJ(y);
138 if ((*xx = tofe(*f, x)) == 0)
140 if ((*yy = tofe(*f, y)) == 0) {
147 #define BINOP(name) \
148 static PyObject *fe_py##name(PyObject *x, PyObject *y) { \
152 if (febinop(x, y, &ff, &fobj, &xx, &yy)) RETURN_NOTIMPL; \
153 zz = ff->ops->name(ff, MP_NEW, xx, yy); \
154 MP_DROP(xx); MP_DROP(yy); \
155 return (fe_pywrap(fobj, zz)); \
162 static PyObject *fe_pydiv(PyObject *x, PyObject *y)
168 if (febinop(x, y, &ff, &fobj, &xx, &yy)) RETURN_NOTIMPL;
169 if (F_ZEROP(ff, yy)) ZDIVERR("division by zero");
170 yy = F_INV(ff, yy, yy);
171 z = fe_pywrap(fobj, F_MUL(ff, MP_NEW, xx, yy));
173 MP_DROP(xx); MP_DROP(yy);
177 static PyObject *fe_pyexp(PyObject *x, PyObject *y, PyObject *z)
182 if (z != Py_None || !FE_PYCHECK(x) || (yy = tomp(y)) == 0)
184 ff = FE_F(x); xx = FE_X(x); MP_COPY(xx);
185 if (MP_NEGP(yy) && F_ZEROP(ff, xx)) ZDIVERR("division by zero");
186 z = fe_pywrap(FE_FOBJ(x), field_exp(ff, MP_NEW, xx, yy));
188 MP_DROP(xx); MP_DROP(yy);
192 static PyObject *fe_pyneg(PyObject *x)
194 return fe_pywrap(FE_FOBJ(x), FE_F(x)->ops->neg(FE_F(x), MP_NEW, FE_X(x)));
197 static PyObject *fe_pyid(PyObject *x) { RETURN_OBJ(x); }
199 static int fe_pynonzerop(PyObject *x) { return !F_ZEROP(FE_F(x), FE_X(x)); }
201 static PyObject *fe_pyrichcompare(PyObject *x, PyObject *y, int op)
209 if (febinop(x, y, &ff, &fobj, &xx, &yy)) RETURN_NOTIMPL;
211 case Py_EQ: b = MP_EQ(xx, yy); break;
212 case Py_NE: b = !MP_EQ(xx, yy); break;
213 default: TYERR("field elements are unordered");
217 MP_DROP(xx); MP_DROP(yy);
221 static long fe_pyhash(PyObject *me)
222 { return (mphash(FE_X(me))); }
224 static int fe_pycoerce(PyObject **x, PyObject **y)
228 if (FE_PYCHECK(*y)) {
229 if (FE_F(*x) != FE_F(*y) && !field_samep(FE_F(*x), FE_F(*y)))
230 TYERR("field mismatch");
231 Py_INCREF(*x); Py_INCREF(*y);
234 if ((z = tofe(FE_F(*x), *y)) != 0) {
236 *y = fe_pywrap(FE_FOBJ(*x), z);
245 static PyObject *fe_pyint(PyObject *x)
249 mp *xx = F_OUT(FE_F(x), MP_NEW, FE_X(x));
250 if (!mp_tolong_checked(xx, &l, 0)) rc = PyInt_FromLong(l);
251 else rc = mp_topylong(xx);
256 static PyObject *fe_pylong(PyObject *x)
258 mp *xx = F_OUT(FE_F(x), MP_NEW, FE_X(x));
259 PyObject *rc = mp_topylong(xx);
264 #define BASEOP(name, radix, pre) \
265 static PyObject *fe_py##name(PyObject *x) { \
266 mp *xx = F_OUT(FE_F(x), MP_NEW, FE_X(x)); \
267 PyObject *rc = mp_topystring(xx, radix, 0, pre, 0); \
272 BASEOP(hex, 16, "0x");
275 static void fe_pydealloc(PyObject *me)
277 Py_DECREF(FE_FOBJ(me));
282 #define UNOP(name, check) \
283 static PyObject *femeth_##name(PyObject *me) { \
284 field *f = FE_F(me); \
286 if (!f->ops->name) TYERR(#name " not supported for this field"); \
288 x = f->ops->name(f, MP_NEW, x); \
289 if (!x) RETURN_NONE; \
290 return (fe_pywrap(FE_FOBJ(me), x)); \
294 UNOP(inv, if (F_ZEROP(f, x)) ZDIVERR("division by zero"); )
304 static PyObject *feget_field(PyObject *me, void *hunoz)
305 { RETURN_OBJ(FE_FOBJ(me)); }
307 static PyObject *feget_value(PyObject *me, void *hunoz)
309 mp *x = F_OUT(FE_F(me), MP_NEW, FE_X(me));
310 if (F_TYPE(FE_F(me)) == FTY_BINARY)
311 return (gf_pywrap(x));
313 return (mp_pywrap(x));
316 static PyObject *feget__value(PyObject *me, void *hunoz)
320 if (F_TYPE(FE_F(me)) == FTY_BINARY)
321 return (gf_pywrap(x));
323 return (mp_pywrap(x));
326 static const PyGetSetDef fe_pygetset[] = {
327 #define GETSETNAME(op, name) fe##op##_##name
328 GET (field, "X.field -> field containing X")
329 GET (value, "X.value -> `natural' MP/GF representation of X")
330 GET (_value, "X._value -> internal MP/GF representation of X")
335 static const PyMethodDef fe_pymethods[] = {
336 #define METHNAME(func) femeth_##func
337 NAMETH(inv, "X.inv() -> X^{-1}")
338 NAMETH(sqr, "X.sqr() -> X^2")
339 NAMETH(sqrt, "X.sqrt() -> sqrt(X)")
340 NAMETH(quadsolve, "X.quadsolve() -> Y where Y^2 + Y = X (binary only)")
341 NAMETH(dbl, "X.dbl() -> 2 * X (prime only)")
342 NAMETH(tpl, "X.tpl() -> 3 * X (prime only)")
343 NAMETH(qdl, "X.qdl() -> 4 * X (prime only)")
344 NAMETH(hlv, "X.hlv() -> X/2 (prime only)")
349 static const PyNumberMethods fe_pynumber = {
350 fe_pyadd, /* @nb_add@ */
351 fe_pysub, /* @nb_subtract@ */
352 fe_pymul, /* @nb_multiply@ */
353 fe_pydiv, /* @nb_divide@ */
354 0, /* @nb_remainder@ */
356 fe_pyexp, /* @nb_power@ */
357 fe_pyneg, /* @nb_negative@ */
358 fe_pyid, /* @nb_positive@ */
359 0, /* @nb_absolute@ */
360 fe_pynonzerop, /* @nb_nonzero@ */
367 fe_pycoerce, /* @nb_coerce@ */
368 fe_pyint, /* @nb_int@ */
369 fe_pylong, /* @nb_long@ */
370 0 /* meaningless */, /* @nb_float@ */
371 fe_pyoct, /* @nb_oct@ */
372 fe_pyhex, /* @nb_hex@ */
374 0, /* @nb_inplace_add@ */
375 0, /* @nb_inplace_subtract@ */
376 0, /* @nb_inplace_multiply@ */
377 0, /* @nb_inplace_divide@ */
378 0, /* @nb_inplace_remainder@ */
379 0, /* @nb_inplace_power@ */
380 0, /* @nb_inplace_lshift@ */
381 0, /* @nb_inplace_rshift@ */
382 0, /* @nb_inplace_and@ */
383 0, /* @nb_inplace_xor@ */
384 0, /* @nb_inplace_or@ */
386 0, /* @nb_floor_divide@ */
387 fe_pydiv, /* @nb_true_divide@ */
388 0, /* @nb_inplace_floor_divide@ */
389 0, /* @nb_inplace_true_divide@ */
392 static PyTypeObject fe_pytype_skel = {
393 PyObject_HEAD_INIT(0) 0, /* Header */
394 "FE", /* @tp_name@ */
395 sizeof(fe_pyobj), /* @tp_basicsize@ */
396 0, /* @tp_itemsize@ */
398 fe_pydealloc, /* @tp_dealloc@ */
400 0, /* @tp_getattr@ */
401 0, /* @tp_setattr@ */
402 0, /* @tp_compare@ */
404 PYNUMBER(fe), /* @tp_as_number@ */
405 0, /* @tp_as_sequence@ */
406 0, /* @tp_as_mapping@ */
407 fe_pyhash, /* @tp_hash@ */
409 fe_pyhex, /* @tp_str@ */
410 0, /* @tp_getattro@ */
411 0, /* @tp_setattro@ */
412 0, /* @tp_as_buffer@ */
413 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
414 Py_TPFLAGS_CHECKTYPES |
418 "Finite field elements, abstract base class.",
420 0, /* @tp_traverse@ */
422 fe_pyrichcompare, /* @tp_richcompare@ */
423 0, /* @tp_weaklistoffset@ */
425 0, /* @tp_iternext@ */
426 PYMETHODS(fe), /* @tp_methods@ */
427 0, /* @tp_members@ */
428 PYGETSET(fe), /* @tp_getset@ */
431 0, /* @tp_descr_get@ */
432 0, /* @tp_descr_set@ */
433 0, /* @tp_dictoffset@ */
435 PyType_GenericAlloc, /* @tp_alloc@ */
436 abstract_pynew, /* @tp_new@ */
441 /*----- Fields ------------------------------------------------------------*/
443 static PyObject *field_pyrichcompare(PyObject *x, PyObject *y, int op)
445 int b = field_samep(FIELD_F(x), FIELD_F(y));
449 default: TYERR("can't order fields");
456 static PyObject *fmeth_rand(PyObject *me, PyObject *arg, PyObject *kw)
458 static const char *const kwlist[] = { "rng", 0 };
459 grand *r = &rand_global;
461 if (!PyArg_ParseTupleAndKeywords(arg, kw, "|O&:rand", KWLIST,
464 return (fe_pywrap(me, F_RAND(FIELD_F(me), MP_NEW, r)));
467 static PyObject *fmeth__adopt(PyObject *me, PyObject *arg)
470 if (!PyArg_ParseTuple(arg, "O&:_adopt", convmp, &xx)) return (0);
471 return (fe_pywrap(me, xx));
474 static PyObject *fmeth_parse(PyObject *me, PyObject *arg)
481 if (!PyArg_ParseTuple(arg, "s:parse", &p)) goto end;
483 if ((f = field_parse(&qd)) == 0) VALERR(qd.e);
484 rc = Py_BuildValue("(Ns)", field_pywrap(f), qd.p);
489 static void field_pydealloc(PyObject *me)
491 F_DESTROY(FIELD_F(me));
492 PyType_Type.tp_dealloc(me);
495 static PyObject *fget_zero(PyObject *me, void *hunoz)
496 { return (fe_pywrap(me, MP_COPY(FIELD_F(me)->zero))); }
498 static PyObject *fget_one(PyObject *me, void *hunoz)
499 { return (fe_pywrap(me, MP_COPY(FIELD_F(me)->one))); }
501 static PyObject *fget_q(PyObject *me, void *hunoz)
502 { return (mp_pywrap(MP_COPY(FIELD_F(me)->q))); }
504 static PyObject *fget_nbits(PyObject *me, void *hunoz)
505 { return (PyInt_FromLong(FIELD_F(me)->nbits)); }
507 static PyObject *fget_noctets(PyObject *me, void *hunoz)
508 { return (PyInt_FromLong(FIELD_F(me)->noctets)); }
510 static PyObject *fget_name(PyObject *me, void *hunoz)
511 { return (PyString_FromString(F_NAME(FIELD_F(me)))); }
513 static PyObject *fget_type(PyObject *me, void *hunoz)
514 { return (PyInt_FromLong(F_TYPE(FIELD_F(me)))); }
516 static const PyGetSetDef field_pygetset[] = {
517 #define GETSETNAME(op, name) f##op##_##name
518 GET (zero, "F.zero -> field additive identity")
519 GET (one, "F.one -> field multiplicative identity")
520 GET (q, "F.q -> number of elements in field")
521 GET (nbits, "F.nbits -> bits needed to represent element")
522 GET (noctets, "F.noctets -> octetss needed to represent element")
523 GET (name, "F.name -> name of this kind of field")
524 GET (type, "F.type -> type code of this kind of field")
529 static const PyMethodDef field_pymethods[] = {
530 #define METHNAME(name) fmeth_##name
531 METH (_adopt, "F._adopt(X) -> FE")
532 KWMETH(rand, "F.rand([rng = rand]) -> FE, uniformly distributed")
533 SMTH (parse, "parse(STR) -> F, REST")
538 static PyTypeObject field_pytype_skel = {
539 PyObject_HEAD_INIT(0) 0, /* Header */
540 "Field", /* @tp_name@ */
541 sizeof(field_pyobj), /* @tp_basicsize@ */
542 0, /* @tp_itemsize@ */
544 field_pydealloc, /* @tp_dealloc@ */
546 0, /* @tp_getattr@ */
547 0, /* @tp_setattr@ */
548 0, /* @tp_compare@ */
550 0, /* @tp_as_number@ */
551 0, /* @tp_as_sequence@ */
552 0, /* @tp_as_mapping@ */
556 0, /* @tp_getattro@ */
557 0, /* @tp_setattro@ */
558 0, /* @tp_as_buffer@ */
559 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
563 "An abstract field. This is an abstract type.",
565 0, /* @tp_traverse@ */
567 field_pyrichcompare, /* @tp_richcompare@ */
568 0, /* @tp_weaklistoffset@ */
570 0, /* @tp_iternext@ */
571 PYMETHODS(field), /* @tp_methods@ */
572 0, /* @tp_members@ */
573 PYGETSET(field), /* @tp_getset@ */
576 0, /* @tp_descr_get@ */
577 0, /* @tp_descr_set@ */
578 0, /* @tp_dictoffset@ */
580 PyType_GenericAlloc, /* @tp_alloc@ */
581 abstract_pynew, /* @tp_new@ */
586 /*----- Prime fields ------------------------------------------------------*/
588 static PyObject *primefield_pynew(PyTypeObject *ty,
589 PyObject *arg, PyObject *kw)
593 static const char *const kwlist[] = { "p", 0 };
595 if (!PyArg_ParseTupleAndKeywords(arg, kw, "O&:primefield", KWLIST,
598 if ((f = field_prime(xx)) == 0)
599 VALERR("bad prime for primefield");
601 return (field_dopywrap(ty, f));
607 static PyObject *pfget_p(PyObject *me, void *hunoz)
608 { return (mp_pywrap(MP_COPY(FIELD_F(me)->m))); }
610 static const PyGetSetDef primefield_pygetset[] = {
611 #define GETSETNAME(op, name) pf##op##_##name
612 GET (p, "F.p -> prime field characteristic")
616 static PyTypeObject primefield_pytype_skel = {
617 PyObject_HEAD_INIT(0) 0, /* Header */
618 "PrimeField", /* @tp_name@ */
619 sizeof(field_pyobj), /* @tp_basicsize@ */
620 0, /* @tp_itemsize@ */
622 field_pydealloc, /* @tp_dealloc@ */
624 0, /* @tp_getattr@ */
625 0, /* @tp_setattr@ */
626 0, /* @tp_compare@ */
628 0, /* @tp_as_number@ */
629 0, /* @tp_as_sequence@ */
630 0, /* @tp_as_mapping@ */
634 0, /* @tp_getattro@ */
635 0, /* @tp_setattro@ */
636 0, /* @tp_as_buffer@ */
637 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
641 "PrimeField(P): prime fields.",
643 0, /* @tp_traverse@ */
645 field_pyrichcompare, /* @tp_richcompare@ */
646 0, /* @tp_weaklistoffset@ */
648 0, /* @tp_iternext@ */
649 0, /* @tp_methods@ */
650 0, /* @tp_members@ */
651 PYGETSET(primefield), /* @tp_getset@ */
654 0, /* @tp_descr_get@ */
655 0, /* @tp_descr_set@ */
656 0, /* @tp_dictoffset@ */
658 PyType_GenericAlloc, /* @tp_alloc@ */
659 primefield_pynew, /* @tp_new@ */
664 static PyObject *niceprimefield_pynew(PyTypeObject *ty,
665 PyObject *arg, PyObject *kw)
669 static const char *const kwlist[] = { "p", 0 };
671 if (!PyArg_ParseTupleAndKeywords(arg, kw, "O&:niceprimefield",
672 KWLIST, convmp, &xx))
674 if ((f = field_niceprime(xx)) == 0)
675 VALERR("bad prime for niceprimefield");
677 return (field_dopywrap(ty, f));
683 static PyTypeObject niceprimefield_pytype_skel = {
684 PyObject_HEAD_INIT(0) 0, /* Header */
685 "NicePrimeField", /* @tp_name@ */
686 sizeof(field_pyobj), /* @tp_basicsize@ */
687 0, /* @tp_itemsize@ */
689 field_pydealloc, /* @tp_dealloc@ */
691 0, /* @tp_getattr@ */
692 0, /* @tp_setattr@ */
693 0, /* @tp_compare@ */
695 0, /* @tp_as_number@ */
696 0, /* @tp_as_sequence@ */
697 0, /* @tp_as_mapping@ */
701 0, /* @tp_getattro@ */
702 0, /* @tp_setattro@ */
703 0, /* @tp_as_buffer@ */
704 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
708 "NicePrimeField(P): prime field using Solinas reduction.",
710 0, /* @tp_traverse@ */
712 field_pyrichcompare, /* @tp_richcompare@ */
713 0, /* @tp_weaklistoffset@ */
715 0, /* @tp_iternext@ */
716 0, /* @tp_methods@ */
717 0, /* @tp_members@ */
721 0, /* @tp_descr_get@ */
722 0, /* @tp_descr_set@ */
723 0, /* @tp_dictoffset@ */
725 PyType_GenericAlloc, /* @tp_alloc@ */
726 niceprimefield_pynew, /* @tp_new@ */
731 /*----- Binary fields -----------------------------------------------------*/
733 static PyObject *bfget_m(PyObject *me, void *hunoz)
734 { return (PyInt_FromLong(FIELD_F(me)->nbits)); }
736 static PyObject *bfget_p(PyObject *me, void *hunoz)
737 { return (gf_pywrap(MP_COPY(FIELD_F(me)->m))); }
739 static const PyGetSetDef binfield_pygetset[] = {
740 #define GETSETNAME(op, name) bf##op##_##name
741 GET (m, "F.m -> field polynomial degree")
742 GET (p, "F.p -> field polynomial")
747 static PyTypeObject binfield_pytype_skel = {
748 PyObject_HEAD_INIT(0) 0, /* Header */
749 "BinField", /* @tp_name@ */
750 sizeof(field_pyobj), /* @tp_basicsize@ */
751 0, /* @tp_itemsize@ */
753 field_pydealloc, /* @tp_dealloc@ */
755 0, /* @tp_getattr@ */
756 0, /* @tp_setattr@ */
757 0, /* @tp_compare@ */
759 0, /* @tp_as_number@ */
760 0, /* @tp_as_sequence@ */
761 0, /* @tp_as_mapping@ */
765 0, /* @tp_getattro@ */
766 0, /* @tp_setattro@ */
767 0, /* @tp_as_buffer@ */
768 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
772 "Binary fields. Abstract class.",
774 0, /* @tp_traverse@ */
776 field_pyrichcompare, /* @tp_richcompare@ */
777 0, /* @tp_weaklistoffset@ */
779 0, /* @tp_iternext@ */
780 0, /* @tp_methods@ */
781 0, /* @tp_members@ */
782 PYGETSET(binfield), /* @tp_getset@ */
785 0, /* @tp_descr_get@ */
786 0, /* @tp_descr_set@ */
787 0, /* @tp_dictoffset@ */
789 PyType_GenericAlloc, /* @tp_alloc@ */
790 abstract_pynew, /* @tp_new@ */
795 static PyObject *binpolyfield_pynew(PyTypeObject *ty,
796 PyObject *arg, PyObject *kw)
800 static const char *const kwlist[] = { "p", 0 };
802 if (!PyArg_ParseTupleAndKeywords(arg, kw, "O&:binpolyfield", KWLIST,
805 if ((f = field_binpoly(xx)) == 0) VALERR("bad poly for binpolyfield");
807 return (field_dopywrap(ty, f));
813 static PyTypeObject binpolyfield_pytype_skel = {
814 PyObject_HEAD_INIT(0) 0, /* Header */
815 "BinPolyField", /* @tp_name@ */
816 sizeof(field_pyobj), /* @tp_basicsize@ */
817 0, /* @tp_itemsize@ */
819 field_pydealloc, /* @tp_dealloc@ */
821 0, /* @tp_getattr@ */
822 0, /* @tp_setattr@ */
823 0, /* @tp_compare@ */
825 0, /* @tp_as_number@ */
826 0, /* @tp_as_sequence@ */
827 0, /* @tp_as_mapping@ */
831 0, /* @tp_getattro@ */
832 0, /* @tp_setattro@ */
833 0, /* @tp_as_buffer@ */
834 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
838 "BinPolyField(P): binary fields with polynomial basis representation.",
840 0, /* @tp_traverse@ */
842 field_pyrichcompare, /* @tp_richcompare@ */
843 0, /* @tp_weaklistoffset@ */
845 0, /* @tp_iternext@ */
846 0, /* @tp_methods@ */
847 0, /* @tp_members@ */
851 0, /* @tp_descr_get@ */
852 0, /* @tp_descr_set@ */
853 0, /* @tp_dictoffset@ */
855 PyType_GenericAlloc, /* @tp_alloc@ */
856 binpolyfield_pynew, /* @tp_new@ */
861 static PyObject *binnormfield_pynew(PyTypeObject *ty,
862 PyObject *arg, PyObject *kw)
866 static const char *const kwlist[] = { "p", "beta", 0 };
868 if (!PyArg_ParseTupleAndKeywords(arg, kw, "O&O&:binnormfield",
869 KWLIST, convgf, &xx, convgf, &yy))
871 if ((f = field_binnorm(xx, yy)) == 0) VALERR("bad args for binnormfield");
872 MP_DROP(xx); MP_DROP(yy);
873 return (field_dopywrap(ty, f));
875 mp_drop(xx); mp_drop(yy);
879 static PyObject *bnfget_beta(PyObject *me, void *hunoz)
881 fctx_binnorm *fc = (fctx_binnorm *)FIELD_F(me);
882 return (gf_pywrap(MP_COPY(fc->ntop.r[fc->ntop.n - 1])));
885 static const PyGetSetDef binnormfield_pygetset[] = {
886 #define GETSETNAME(op, name) bnf##op##_##name
887 GET (beta, "F.beta -> conversion factor")
892 static PyTypeObject binnormfield_pytype_skel = {
893 PyObject_HEAD_INIT(0) 0, /* Header */
894 "BinNormField", /* @tp_name@ */
895 sizeof(field_pyobj), /* @tp_basicsize@ */
896 0, /* @tp_itemsize@ */
898 field_pydealloc, /* @tp_dealloc@ */
900 0, /* @tp_getattr@ */
901 0, /* @tp_setattr@ */
902 0, /* @tp_compare@ */
904 0, /* @tp_as_number@ */
905 0, /* @tp_as_sequence@ */
906 0, /* @tp_as_mapping@ */
910 0, /* @tp_getattro@ */
911 0, /* @tp_setattro@ */
912 0, /* @tp_as_buffer@ */
913 Py_TPFLAGS_DEFAULT | /* @tp_flags@ */
917 "BinNormField(P, BETA): binary fields with normal basis representation.",
919 0, /* @tp_traverse@ */
921 field_pyrichcompare, /* @tp_richcompare@ */
922 0, /* @tp_weaklistoffset@ */
924 0, /* @tp_iternext@ */
925 0, /* @tp_methods@ */
926 0, /* @tp_members@ */
927 PYGETSET(binnormfield), /* @tp_getset@ */
930 0, /* @tp_descr_get@ */
931 0, /* @tp_descr_set@ */
932 0, /* @tp_dictoffset@ */
934 PyType_GenericAlloc, /* @tp_alloc@ */
935 binnormfield_pynew, /* @tp_new@ */
940 /*----- Setup -------------------------------------------------------------*/
942 void field_pyinit(void)
945 INITTYPE(field, type);
946 INITTYPE(primefield, field);
947 INITTYPE(niceprimefield, primefield);
948 INITTYPE(binfield, field);
949 INITTYPE(binpolyfield, binfield);
950 INITTYPE(binnormfield, binfield);
953 void field_pyinsert(PyObject *mod)
955 INSERT("FE", fe_pytype);
956 INSERT("Field", field_pytype);
957 INSERT("PrimeField", primefield_pytype);
958 INSERT("NicePrimeField", niceprimefield_pytype);
959 INSERT("BinField", binfield_pytype);
960 INSERT("BinPolyField", binpolyfield_pytype);
961 INSERT("BinNormField", binnormfield_pytype);
964 /*----- That's all, folks -------------------------------------------------*/