X-Git-Url: https://www.chiark.greenend.org.uk/ucgi/~mdw/git/catacomb-python/blobdiff_plain/5779eaf1c6c738aac2227dcadb9e8c27ca22631e..75e81374e45c342f15e4eaa658770548c472b15e:/mp.c

diff --git a/mp.c b/mp.c
index f5f4320..62d2dfe 100644
--- a/mp.c
+++ b/mp.c
@@ -544,13 +544,15 @@ end:
   return ((PyObject *)zz);
 }
 
-static long mp_pyhash(PyObject *me)
+long mphash(mp *x)
 {
-  long h;
-  PyObject *l = mp_topylong(MP_X(me)); h = PyObject_Hash(l);
+  PyObject *l = mp_topylong(x);
+  long h = PyObject_Hash(l);
   Py_DECREF(l); return (h);
 }
 
+static long mp_pyhash(PyObject *me) { return (mphash(MP_X(me))); }
+
 static PyObject *mpmeth_jacobi(PyObject *me, PyObject *arg)
 {
   mp *y = 0;
@@ -682,6 +684,19 @@ end:
   return (z);
 }
 
+static PyObject *mpmeth_leastcongruent(PyObject *me, PyObject *arg)
+{
+  mp *z, *b, *m;
+  PyObject *rc = 0;
+
+  if (!PyArg_ParseTuple(arg, "O&O&:leastcongruent", convmp, &b, convmp, &m))
+    goto end;
+  z = mp_leastcongruent(MP_NEW, b, MP_X(me), m);
+  rc = mp_pywrap(z);
+end:
+  return (rc);
+}
+
 #define STOREOP(name, c)						\
   static PyObject *mpmeth_##name(PyObject *me,				\
 				 PyObject *arg, PyObject *kw)		\
@@ -713,7 +728,7 @@ STOREOP(storeb2c, 2c)
   {									\
     buf b;								\
     char *p;								\
-    int sz;								\
+    Py_ssize_t sz;							\
     PyObject *rc = 0;							\
     mp *x;								\
 									\
@@ -792,6 +807,8 @@ static PyMethodDef mp_pymethods[] = {
 	 "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	(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")
@@ -875,11 +892,15 @@ static PyTypeObject mp_pytype_skel = {
 
   /* @tp_doc@ */
 "Multiprecision integers, similar to `long' but more efficient and\n\
-versatile.  Support all the standard arithmetic operations.\n\
+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 ints and longs.\n\
+if R = 0.  Other acceptable things are field elements, elliptic curve\n\
+points, group elements, Python `int' and `long' objects, and anything\n\
+with an integer conversion.\n\
 \n\
 Notes:\n\
 \n\
@@ -911,7 +932,7 @@ static PyObject *meth__MP_fromstring(PyObject *me,
 {
   int r = 0;
   char *p;
-  int len;
+  Py_ssize_t len;
   PyObject *z = 0;
   mp *zz;
   mptext_stringctx sc;
@@ -924,7 +945,8 @@ static PyObject *meth__MP_fromstring(PyObject *me,
   sc.buf = p; sc.lim = p + len;
   if ((zz = mp_read(MP_NEW, r, &mptext_stringops, &sc)) == 0)
     VALERR("bad integer");
-  z = Py_BuildValue("(Ns#)", mp_pywrap(zz), sc.buf, (int)(sc.lim - sc.buf));
+  z = Py_BuildValue("(Ns#)", mp_pywrap(zz),
+		    sc.buf, (Py_ssize_t)(sc.lim - sc.buf));
 end:
   return (z);
 }
@@ -952,7 +974,7 @@ static PyObject *meth__MP_fibonacci(PyObject *me, PyObject *arg)
   static PyObject *meth__##py##_##name(PyObject *me, PyObject *arg)	\
   {									\
     char *p;								\
-    int len;								\
+    Py_ssize_t len;							\
     if (!PyArg_ParseTuple(arg, "Os#:" #name, &me, &p, &len)) return (0); \
     return (pre##_pywrap(mp_##name(MP_NEW, p, len)));			\
   }
@@ -1869,15 +1891,6 @@ end:
   return ((PyObject *)zz);
 }
 
-static long gf_pyhash(PyObject *me)
-{
-  long i = mp_tolong(MP_X(me));
-  i ^= 0xc7ecd67c; /* random perturbance */
-  if (i == -1)
-    i = -2;
-  return (i);
-}
-
 static PyObject *gf_pyexp(PyObject *x, PyObject *y, PyObject *z)
 {
   mp *xx = 0, *yy = 0, *zz = 0;
@@ -2060,7 +2073,7 @@ static PyTypeObject gf_pytype_skel = {
   &gf_pynumber,				/* @tp_as_number@ */
   0,					/* @tp_as_sequence@ */
   0,					/* @tp_as_mapping@ */
-  gf_pyhash,				/* @tp_hash@ */
+  mp_pyhash,				/* @tp_hash@ */
   0,					/* @tp_call@ */
   mp_pyhex,				/* @tp_str@ */
   0,					/* @tp_getattro@ */
@@ -2074,9 +2087,11 @@ 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 ints and longs.\n\
+if R = 0.  Other acceptable things are field elements, elliptic curve\n\
+points, group elements, Python `int' and `long' objects, and anything\n\
+with an integer conversion.\n\
 \n\
 The name is hopelessly wrong from a technical point of view, but\n\
 but it's much easier to type than `p2' or `c2' or whatever.\n\
@@ -2111,7 +2126,7 @@ static PyObject *meth__GF_fromstring(PyObject *me,
 {
   int r = 0;
   char *p;
-  int len;
+  Py_ssize_t len;
   PyObject *z = 0;
   mp *zz;
   mptext_stringctx sc;
@@ -2127,7 +2142,8 @@ static PyObject *meth__GF_fromstring(PyObject *me,
     if (zz) MP_DROP(zz);
     VALERR("bad binary polynomial");
   }
-  z = Py_BuildValue("(Ns#)", gf_pywrap(zz), sc.buf, (int)(sc.lim - sc.buf));
+  z = Py_BuildValue("(Ns#)", gf_pywrap(zz),
+		    sc.buf, (Py_ssize_t)(sc.lim - sc.buf));
 end:
   return (z);
 }