X-Git-Url: https://git.distorted.org.uk/~mdw/catacomb-python/blobdiff_plain/a157093f4bbc3066fea2f77078b99489c76e62f8..8e923c6832d8ba26dbe9e97e5c3607debbe27566:/mp.c diff --git a/mp.c b/mp.c index 29e8881..2fc82b2 100644 --- a/mp.c +++ b/mp.c @@ -593,25 +593,20 @@ static PyObject *gfmeth_testbit(PyObject *me, PyObject *arg) return (getbool(mp_testbit(MP_X(me), i))); } -static PyObject *mpmeth_odd(PyObject *me, PyObject *arg) +static PyObject *mpmeth_odd(PyObject *me) { mp *t; size_t s; - if (!PyArg_ParseTuple(arg, ":odd")) return (0); t = mp_odd(MP_NEW, MP_X(me), &s); return (Py_BuildValue("(lN)", (long)s, mp_pywrap(t))); } -static PyObject *mpmeth_sqr(PyObject *me, PyObject *arg) -{ - if (!PyArg_ParseTuple(arg, ":sqr")) return (0); - return (mp_pywrap(mp_sqr(MP_NEW, MP_X(me)))); -} +static PyObject *mpmeth_sqr(PyObject *me) + { return (mp_pywrap(mp_sqr(MP_NEW, MP_X(me)))); } -static PyObject *mpmeth_sqrt(PyObject *me, PyObject *arg) +static PyObject *mpmeth_sqrt(PyObject *me) { - if (!PyArg_ParseTuple(arg, ":sqrt")) return (0); if (MP_NEGP(MP_X(me))) VALERR("negative root"); return (mp_pywrap(mp_sqrt(MP_NEW, MP_X(me)))); end: @@ -745,14 +740,13 @@ BUFOP(mp) BUFOP(gf) #undef BUFOP -static PyObject *mpmeth_tobuf(PyObject *me, PyObject *arg) +static PyObject *mpmeth_tobuf(PyObject *me) { buf b; PyObject *rc; mp *x; size_t n; - if (!PyArg_ParseTuple(arg, ":tobuf")) return (0); x = MP_X(me); n = mp_octets(x) + 3; rc = bytestring_pywrap(0, n); @@ -858,9 +852,9 @@ static const PyMethodDef mp_pymethods[] = { METH (setbit, "X.setbit(N) -> X with bit N set") METH (clearbit, "X.clearbit(N) -> X with bit N clear") METH (testbit, "X.testbit(N) -> true/false if bit N set/clear in X") - METH (odd, "X.odd() -> S, T where X = 2^S T with T odd") - METH (sqr, "X.sqr() -> X^2") - METH (sqrt, "X.sqrt() -> largest integer <= sqrt(X)") + NAMETH(odd, "X.odd() -> S, T where X = 2^S T with T odd") + NAMETH(sqr, "X.sqr() -> X^2") + NAMETH(sqrt, "X.sqrt() -> largest integer <= sqrt(X)") METH (gcd, "X.gcd(Y) -> gcd(X, Y)") METH (gcdx, "X.gcdx(Y) -> (gcd(X, Y), U, V) " "with X U + Y V = gcd(X, Y)") @@ -876,7 +870,7 @@ static const PyMethodDef mp_pymethods[] = { "little-endian bytes, two's complement") KWMETH(storeb2c, "X.storeb2c([len = -1]) -> " "big-endian bytes, two's complement") - METH (tobuf, "X.tobuf() -> buffer format") + NAMETH(tobuf, "X.tobuf() -> buffer format") KWSMTH(fromstring, "fromstring(STR, [radix = 0]) -> (X, REST)\n" " Parse STR as a large integer, according to RADIX. If RADIX is\n" " zero, read a prefix from STR to decide radix: allow `0b' for binary,\n" @@ -1047,11 +1041,10 @@ end: return (0); } -static PyObject *mmmeth_done(PyObject *me, PyObject *arg) +static PyObject *mmmeth_done(PyObject *me) { mp *x; - if (!PyArg_ParseTuple(arg, ":done")) goto end; if (!MPMUL_LIVEP(me)) VALERR("MPMul object invalid"); x = mpmul_done(MPMUL_PY(me)); MPMUL_LIVEP(me) = 0; @@ -1090,7 +1083,7 @@ static const PyGetSetDef mpmul_pygetset[] = { static const PyMethodDef mpmul_pymethods[] = { #define METHNAME(name) mmmeth_##name METH (factor, "MM.factor(ITERABLE) or MM.factor(I, ...)") - METH (done, "MM.done() -> PRODUCT") + NAMETH(done, "MM.done() -> PRODUCT") #undef METHNAME { 0 } }; @@ -1948,11 +1941,8 @@ end: return (rc); } -static PyObject *gfmeth_sqr(PyObject *me, PyObject *arg) -{ - if (!PyArg_ParseTuple(arg, ":sqr")) return (0); - return (gf_pywrap(gf_sqr(MP_NEW, MP_X(me)))); -} +static PyObject *gfmeth_sqr(PyObject *me) + { return (gf_pywrap(gf_sqr(MP_NEW, MP_X(me)))); } static PyObject *gfmeth_gcd(PyObject *me, PyObject *arg) { @@ -2023,11 +2013,8 @@ end: return (z); } -static PyObject *gfmeth_irreduciblep(PyObject *me, PyObject *arg) -{ - if (!PyArg_ParseTuple(arg, ":irreduciblep")) return (0); - return getbool(gf_irreduciblep(MP_X(me))); -} +static PyObject *gfmeth_irreduciblep(PyObject *me) + { return getbool(gf_irreduciblep(MP_X(me))); } static PyObject *gfget_degree(PyObject *me, void *hunoz) { return (PyInt_FromLong(mp_bits(MP_X(me)) - 1)); } @@ -2048,11 +2035,11 @@ static const PyMethodDef gf_pymethods[] = { METH (setbit, "X.setbit(N) -> X with bit N set") METH (clearbit, "X.clearbit(N) -> X with bit N clear") METH (testbit, "X.testbit(N) -> true/false if bit N set/clear in X") - METH (sqr, "X.sqr() -> X^2") + NAMETH(sqr, "X.sqr() -> X^2") METH (gcd, "X.gcd(Y) -> gcd(X, Y)") METH (gcdx, "X.gcdx(Y) -> (gcd(X, Y), U, V) with X U + Y V = gcd(X, Y)") METH (modinv, "X.modinv(Y) -> multiplicative inverse of Y mod X") - METH (irreduciblep, "X.irreduciblep() -> true/false") + NAMETH(irreduciblep, "X.irreduciblep() -> true/false") KWSMTH(fromstring, "fromstring(STR, [radix = 0]) -> (X, REST)\n" " Parse STR as a binary polynomial, according to RADIX. If RADIX is\n" " zero, read a prefix from STR to decide radix: allow `0b' for binary,\n" @@ -2069,7 +2056,7 @@ static const PyMethodDef gf_pymethods[] = { "little-endian bytes, two's complement") KWMETH(storeb2c, "X.storeb2c([len = -1]) -> " "big-endian bytes, two's complement") - METH (tobuf, "X.tobuf() -> buffer format") + NAMETH(tobuf, "X.tobuf() -> buffer format") #undef METHNAME { 0 } };