X-Git-Url: https://www.chiark.greenend.org.uk/ucgi/~mdw/git/catacomb-python/blobdiff_plain/7008bdd781f60ed3fec4cf3bf3945fa4bca2a751..1df8d5fe8538884aaeb3ccf8036b88efcc7560c5:/mp.c diff --git a/mp.c b/mp.c index 2aa4cab..a234c6d 100644 --- a/mp.c +++ b/mp.c @@ -809,14 +809,14 @@ static PyMethodDef mp_pymethods[] = { METH (modsqrt, "X.modsqrt(Y) -> square root of Y mod X, if X prime") METH (leastcongruent, "X.leastcongruent(B, M) -> smallest Z >= B with Z == X (mod M)") - KWMETH(primep, "X.primep(rng = rand) -> true/false if X is prime") - KWMETH(tostring, "X.tostring(radix = 10) -> STR") - KWMETH(storel, "X.storel(len = -1) -> little-endian bytes") - KWMETH(storeb, "X.storeb(len = -1) -> big-endian bytes") + KWMETH(primep, "X.primep([rng = rand]) -> true/false if X is prime") + KWMETH(tostring, "X.tostring([radix = 10]) -> STR") + KWMETH(storel, "X.storel([len = -1]) -> little-endian bytes") + KWMETH(storeb, "X.storeb([len = -1]) -> big-endian bytes") KWMETH(storel2c, - "X.storel2c(len = -1) -> little-endian bytes, two's complement") + "X.storel2c([len = -1]) -> little-endian bytes, two's complement") KWMETH(storeb2c, - "X.storeb2c(len = -1) -> big-endian bytes, two's complement") + "X.storeb2c([len = -1]) -> big-endian bytes, two's complement") METH (tobuf, "X.tobuf() -> buffer format") #undef METHNAME { 0 } @@ -896,7 +896,7 @@ versatile. Support all the standard arithmetic operations, with\n\ implicit conversions from `PrimeFilter', and other objects which\n\ convert to `long'.\n\ \n\ -Constructor MP(X, radix = R) attempts to convert X to an `MP'. If\n\ +Constructor MP(X, [radix = R]) attempts to convert X to an `MP'. If\n\ X is a string, it's read in radix-R form, or we look for a prefix\n\ if R = 0. Other acceptable things are field elements, elliptic curve\n\ points, group elements, Python `int' and `long' objects, and anything\n\ @@ -2003,13 +2003,13 @@ static PyMethodDef gf_pymethods[] = { METH (irreduciblep, "X.irreduciblep() -> true/false") #undef METHNAME #define METHNAME(func) mpmeth_##func - KWMETH(tostring, "X.tostring(radix = 10) -> STR") - KWMETH(storel, "X.storel(len = -1) -> little-endian bytes") - KWMETH(storeb, "X.storeb(len = -1) -> big-endian bytes") + KWMETH(tostring, "X.tostring([radix = 10]) -> STR") + KWMETH(storel, "X.storel([len = -1]) -> little-endian bytes") + KWMETH(storeb, "X.storeb([len = -1]) -> big-endian bytes") KWMETH(storel2c, - "X.storel2c(len = -1) -> little-endian bytes, two's complement") + "X.storel2c([len = -1]) -> little-endian bytes, two's complement") KWMETH(storeb2c, - "X.storeb2c(len = -1) -> big-endian bytes, two's complement") + "X.storeb2c([len = -1]) -> big-endian bytes, two's complement") METH (tobuf, "X.tobuf() -> buffer format") #undef METHNAME { 0 } @@ -2087,7 +2087,7 @@ static PyTypeObject gf_pytype_skel = { "Binary polynomials. Support almost all the standard arithmetic\n\ operations.\n\ \n\ -Constructor GF(X, radix = R) attempts to convert X to a `GF'. If\n\ +Constructor GF(X, [radix = R]) attempts to convert X to a `GF'. If\n\ X is a string, it's read in radix-R form, or we look for a prefix\n\ if R = 0. Other acceptable things are field elements, elliptic curve\n\ points, group elements, Python `int' and `long' objects, and anything\n\ @@ -2472,13 +2472,13 @@ and normal basis representations.", static PyMethodDef methods[] = { #define METHNAME(func) meth_##func KWMETH(_MP_fromstring, "\ -fromstring(STR, radix = 0) -> (X, REST)\n\ +fromstring(STR, [radix = 0]) -> (X, REST)\n\ \n\ Parse STR as a large integer, according to radix. If radix is zero,\n\ read a prefix from STR to decide radix: allow `0' for octal, `0x' for hex\n\ or `R_' for other radix R.") KWMETH(_GF_fromstring, "\ -fromstring(STR, radix = 0) -> (X, REST)\n\ +fromstring(STR, [radix = 0]) -> (X, REST)\n\ \n\ Parse STR as a binary polynomial, according to radix. If radix is zero,\n\ read a prefix from STR to decide radix: allow `0' for octal, `0x' for hex\n\