static PyObject *mpcrt_pynew(PyTypeObject *ty, PyObject *arg, PyObject *kw)
{
mpcrt_mod *v = 0;
- int n, i = 0;
+ int n, i = 0, j;
char *kwlist[] = { "mv", 0 };
PyObject *q = 0, *x;
- mp *xx;
+ mp *xx = MP_NEW, *y = MP_NEW, *g = MP_NEW;
+ mpmul mm;
mpcrt_pyobj *c = 0;
if (PyTuple_Size(arg) > 1)
if ((x = PySequence_GetItem(q, i)) == 0) goto end;
xx = getmp(x); Py_DECREF(x); if (!xx) goto end;
if (MP_CMP(xx, <=, MP_ZERO)) VALERR("moduli must be positive");
- v[i].m = xx; v[i].n = 0; v[i].ni = 0; v[i].nni = 0;
+ v[i].m = xx; v[i].n = 0; v[i].ni = 0; v[i].nni = 0; xx = MP_NEW;
+ }
+ mpmul_init(&mm);
+ for (j = 0; j < i; j++) mpmul_add(&mm, v[j].m);
+ xx = mpmul_done(&mm);
+ for (j = 0; j < i; j++) {
+ mp_div(&y, 0, xx, v[j].m);
+ mp_gcd(&g, 0, 0, y, v[j].m);
+ if (!MP_EQ(g, MP_ONE)) VALERR("moduli must be pairwise coprime");
}
+
c = (mpcrt_pyobj *)ty->tp_alloc(ty, 0);
mpcrt_create(&c->c, v, n, 0);
Py_DECREF(q);
+ mp_drop(xx); mp_drop(y); mp_drop(g);
return ((PyObject *)c);
end:
xfree(v);
}
Py_XDECREF(q);
+ mp_drop(xx); mp_drop(y); mp_drop(g);
return (0);
}
convgf, &p, convgf, &beta))
goto end;
gg = PyObject_New(gfn_pyobj, ty);
+ gg->p = 0;
if (gfn_create(p, beta, &gg->ntop, &gg->pton)) {
- FREEOBJ(gg);
+ Py_DECREF(gg);
gg = 0;
VALERR("can't invert transformation matrix");
}
end: \
mp_drop(xx); \
if (!z) return (0); \
- return (mp_pywrap(z)); \
+ return (gf_pywrap(z)); \
}
XFORMOP(pton, PTON)
XFORMOP(ntop, NTOP)
static void gfn_pydealloc(PyObject *me)
{
- gfn_destroy(GFN_PTON(me));
- gfn_destroy(GFN_NTOP(me));
+ if (GFN_P(me)) {
+ MP_DROP(GFN_P(me));
+ gfn_destroy(GFN_PTON(me));
+ gfn_destroy(GFN_NTOP(me));
+ }
FREEOBJ(me);
}