summaryrefslogtreecommitdiffstats
diff options
context:
space:
mode:
authorGuido van Rossum <guido@python.org>1991-01-01 18:11:14 (GMT)
committerGuido van Rossum <guido@python.org>1991-01-01 18:11:14 (GMT)
commit762c39e9d28ab901393b88f641fe5fc8447baea8 (patch)
treea4248605e2b35907c4c3010ac23e69432142e160
parentb5e05e95c3d336ba1b5fde7a6a55e4c92e508da6 (diff)
downloadcpython-762c39e9d28ab901393b88f641fe5fc8447baea8.zip
cpython-762c39e9d28ab901393b88f641fe5fc8447baea8.tar.gz
cpython-762c39e9d28ab901393b88f641fe5fc8447baea8.tar.bz2
Initial revision
-rw-r--r--Lib/fnmatch.py35
-rw-r--r--Lib/zmod.py94
2 files changed, 129 insertions, 0 deletions
diff --git a/Lib/fnmatch.py b/Lib/fnmatch.py
new file mode 100644
index 0000000..c7caef6
--- /dev/null
+++ b/Lib/fnmatch.py
@@ -0,0 +1,35 @@
+# module 'fnmatch' -- filename matching with shell patterns
+
+# XXX [] patterns are not supported (but recognized)
+
+def fnmatch(name, pat):
+ if '*' in pat or '?' in pat or '[' in pat:
+ return fnmatch1(name, pat)
+ return name = pat
+
+def fnmatch1(name, pat):
+ for i in range(len(pat)):
+ c = pat[i]
+ if c = '*':
+ restpat = pat[i+1:]
+ if '*' in restpat or '?' in restpat or '[' in restpat:
+ for i in range(i, len(name)):
+ if fnmatch1(name[i:], restpat):
+ return 1
+ return 0
+ else:
+ return name[len(name)-len(restpat):] = restpat
+ elif c = '?':
+ if len(name) <= i : return 0
+ elif c = '[':
+ return 0 # XXX
+ else:
+ if name[i:i+1] <> c:
+ return 0
+ return 1
+
+def fnmatchlist(names, pat):
+ res = []
+ for name in names:
+ if fnmatch(name, pat): res.append(name)
+ return res
diff --git a/Lib/zmod.py b/Lib/zmod.py
new file mode 100644
index 0000000..d7f06db
--- /dev/null
+++ b/Lib/zmod.py
@@ -0,0 +1,94 @@
+# module 'zmod'
+
+# Compute properties of mathematical "fields" formed by taking
+# Z/n (the whole numbers modulo some whole number n) and an
+# irreducible polynomial (i.e., a polynomial with only complex zeros),
+# e.g., Z/5 and X**2 + 2.
+#
+# The field is formed by taking all possible linear combinations of
+# a set of d base vectors (where d is the degree of the polynomial).
+#
+# Note that this procedure doesn't yield a field for all combinations
+# of n and p: it may well be that some numbers have more than one
+# inverse and others have none. This is what we check.
+#
+# Remember that a field is a ring where each element has an inverse.
+# A ring has commutative addition and multiplication, a zero and a one:
+# 0*x = x*0 = 0, 0+x = x+0 = x, 1*x = x*1 = x. Also, the distributive
+# property holds: a*(b+c) = a*b + b*c.
+# (XXX I forget if this is an axiom or follows from the rules.)
+
+import poly
+
+
+# Example N and polynomial
+
+N = 5
+P = poly.plus(poly.one(0, 2), poly.one(2, 1)) # 2 + x**2
+
+
+# Return x modulo y. Returns >= 0 even if x < 0.
+
+def mod(x, y):
+ return divmod(x, y)[1]
+
+
+# Normalize a polynomial modulo n and modulo p.
+
+def norm(a, n, p):
+ a = poly.modulo(a, p)
+ a = a[:]
+ for i in range(len(a)): a[i] = mod(a[i], n)
+ a = poly.normalize(a)
+ return a
+
+
+# Make a list of all n^d elements of the proposed field.
+
+def make_all(mat):
+ all = []
+ for row in mat:
+ for a in row:
+ all.append(a)
+ return all
+
+def make_elements(n, d):
+ if d = 0: return [poly.one(0, 0)]
+ sub = make_elements(n, d-1)
+ all = []
+ for a in sub:
+ for i in range(n):
+ all.append(poly.plus(a, poly.one(d-1, i)))
+ return all
+
+def make_inv(all, n, p):
+ x = poly.one(1, 1)
+ inv = []
+ for a in all:
+ inv.append(norm(poly.times(a, x), n, p))
+ return inv
+
+def checkfield(n, p):
+ all = make_elements(n, len(p)-1)
+ inv = make_inv(all, n, p)
+ all1 = all[:]
+ inv1 = inv[:]
+ all1.sort()
+ inv1.sort()
+ if all1 = inv1: print 'BINGO!'
+ else:
+ print 'Sorry:', n, p
+ print all
+ print inv
+
+def rj(s, width):
+ if type(s) <> type(''): s = `s`
+ n = len(s)
+ if n >= width: return s
+ return ' '*(width - n) + s
+
+def lj(s, width):
+ if type(s) <> type(''): s = `s`
+ n = len(s)
+ if n >= width: return s
+ return s + ' '*(width - n)