pgen.c, rand.c: Check correct variable when rejecting delete operations.

[catacomb-python] / pgen.c

diff --git a/pgen.c b/pgen.c
index 15d1f6a..afeeb33 100644 (file)
--- a/pgen.c
+++ b/pgen.c
@@ -120,9 +120,8 @@ static PyObject *pfilt_pyint(PyObject *me)
   long l;
   PyObject *rc = 0;
 
-  if (mp_tolong_checked(PFILT_F(me)->m, &l)) goto end;
-  rc = PyInt_FromLong(l);
-end:
+  if (!mp_tolong_checked(PFILT_F(me)->m, &l, 0)) rc = PyInt_FromLong(l);
+  else rc = mp_topylong(PFILT_F(me)->m);
   return (rc);
 }
 
@@ -425,6 +424,7 @@ static int peset_x(PyObject *me, PyObject *xobj, void *hunoz)
   mp *x = 0;
   pgen_event *ev = PGEVENT_EV(me);
   int rc = -1;
+  if (!xobj) NIERR("__del__");
   PGEVENT_CHECK(me);
   if ((x = getmp(xobj)) == 0) goto end;
   mp_drop(ev->m);
@@ -617,12 +617,12 @@ static PyObject *pgev_stdev(pgen_proc *proc)
 
 static PyMethodDef pgev_pymethods[] = {
 #define METHNAME(name) pgmeth_##name
-  METH (pg_abort,      "E.pg_abort() -> PGRC -- prime generation aborted")
-  METH (pg_done,       "E.pg_done() -> PGRC -- prime generation finished")
-  METH (pg_begin,      "E.pg_begin() -> PGRC -- commence stepping/testing")
-  METH (pg_try,        "E.pg_try() -> PGRC -- found new candidate")
-  METH (pg_pass,       "E.pg_pass() -> PGRC -- passed primality test")
-  METH (pg_fail,       "E.pg_fail() -> PGRC -- failed primality test")
+  METH (pg_abort,      "E.pg_abort(EV) -> PGRC -- prime generation aborted")
+  METH (pg_done,       "E.pg_done(EV) -> PGRC -- prime generation finished")
+  METH (pg_begin,     "E.pg_begin(EV) -> PGRC -- commence stepping/testing")
+  METH (pg_try,        "E.pg_try(EV) -> PGRC -- found new candidate")
+  METH (pg_pass,       "E.pg_pass(EV) -> PGRC -- passed primality test")
+  METH (pg_fail,       "E.pg_fail(EV) -> PGRC -- failed primality test")
 #undef METHNAME
   { 0 }
 };
@@ -1028,18 +1028,18 @@ static PyMethodDef methods[] = {
   METH (_PrimeFilter_smallfactor,      "smallfactor(X) -> PGRC")
   METH (_RabinMiller_iters,            "iters(NBITS) -> NITERS")
   KWMETH(pgen,                         "\
-pgen(START, [name = 'p', stepper = PrimeGenStepper(2),\n\
-     tester = PrimeGenTester(), event = pgen_nullev,\n\
-     nsteps = 0, ntests = RabinMiller.iters(START.nbits)]) -> P")
+pgen(START, [name = 'p'[, [stepper = PrimeGenStepper(2)],\n\
+     [tester = PrimeGenTester()], [event = pgen_nullev],\n\
+     [nsteps = 0], [ntests = RabinMiller.iters(START.nbits)]) -> P")
   KWMETH(strongprime_setup,            "\
-strongprime_setup(NBITS, [name = 'p', event = pgen_nullev,\n\
-                 rng = rand, nsteps = 0]) -> (START, JUMP)")
+strongprime_setup(NBITS, [name = 'p'], [event = pgen_nullev],\n\
+                 [rng = rand], [nsteps = 0]) -> (START, JUMP)")
   KWMETH(strongprime,                  "\
-strongprime_setup(NBITS, [name = 'p', event = pgen_nullev,\n\
-                 rng = rand, nsteps = 0]) -> P")
+strongprime(NBITS, [name = 'p'], [event = pgen_nullev],\n\
+           [rng = rand], [nsteps = 0]) -> P")
   KWMETH(limlee,                       "\
-limlee(PBITS, QBITS, [name = 'p', event = pgen_nullev,\n\
-       ievent = pgen_nullev, rng = rand, nsteps = 0]) -> (P, [Q, ...])")
+limlee(PBITS, QBITS, [name = 'p'], [event = pgen_nullev],\n\
+       [ievent = pgen_nullev], [rng = rand], [nsteps = 0]) -> (P, [Q, ...])")
 #undef METHNAME
   { 0 }
 };