Mercurial > p > roundup > code
view roundup/cgi/ZTUtils/Iterator.py @ 2077:3e0961d6d44d
Added the "actor" property.
Metakit backend not done (still not confident I know how it's supposed
to work ;)
Currently it will come up as NULL in the RDBMS backends for older items.
The *dbm backends will look up the journal. I hope to remedy the former
before 0.7's release.
Fixed a bunch of migration issues in the rdbms backends while I was at it
(index changes for key prop changes) and simplified the class table update
code for RDBMSes that have "alter table" in their command set (ie. not
sqlite) ... migration from "version 1" to "version 2" still hasn't
actually been tested yet though.
| author | Richard Jones <richard@users.sourceforge.net> |
|---|---|
| date | Mon, 15 Mar 2004 05:50:20 +0000 |
| parents | fc52d57c6c3e |
| children | d2b1a946fdf4 291652465de4 |
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############################################################################## # # Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved. # # This software is subject to the provisions of the Zope Public License, # Version 2.0 (ZPL). A copy of the ZPL should accompany this distribution. # THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED # WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED # WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS # FOR A PARTICULAR PURPOSE # ############################################################################## __doc__='''Iterator class Unlike the builtin iterators of Python 2.2+, these classes are designed to maintain information about the state of an iteration. The Iterator() function accepts either a sequence or a Python iterator. The next() method fetches the next item, and returns true if it succeeds. $Id: Iterator.py,v 1.3 2004-02-11 23:55:09 richard Exp $''' __docformat__ = 'restructuredtext' __version__='$Revision: 1.3 $'[11:-2] import string class Iterator: '''Simple Iterator class''' __allow_access_to_unprotected_subobjects__ = 1 nextIndex = 0 def __init__(self, seq): self.seq = seq for inner in seqInner, iterInner: if inner._supports(seq): self._inner = inner self._prep_next = inner.prep_next return raise TypeError, "Iterator does not support %s" % `seq` def __getattr__(self, name): try: inner = getattr(self._inner, 'it_' + name) except AttributeError: raise AttributeError, name return inner(self) def next(self): if not (hasattr(self, '_next') or self._prep_next(self)): return 0 self.index = i = self.nextIndex self.nextIndex = i+1 self._advance(self) return 1 def _advance(self, it): self.item = self._next del self._next del self.end self._advance = self._inner.advance self.start = 1 def number(self): return self.nextIndex def even(self): return not self.index % 2 def odd(self): return self.index % 2 def letter(self, base=ord('a'), radix=26): index = self.index s = '' while 1: index, off = divmod(index, radix) s = chr(base + off) + s if not index: return s def Letter(self): return self.letter(base=ord('A')) def Roman(self, rnvalues=( (1000,'M'),(900,'CM'),(500,'D'),(400,'CD'), (100,'C'),(90,'XC'),(50,'L'),(40,'XL'), (10,'X'),(9,'IX'),(5,'V'),(4,'IV'),(1,'I')) ): n = self.index + 1 s = '' for v, r in rnvalues: rct, n = divmod(n, v) s = s + r * rct return s def roman(self, lower=string.lower): return lower(self.Roman()) def first(self, name=None): if self.start: return 1 return not self.same_part(name, self._last, self.item) def last(self, name=None): if self.end: return 1 return not self.same_part(name, self.item, self._next) def same_part(self, name, ob1, ob2): if name is None: return ob1 == ob2 no = [] return getattr(ob1, name, no) == getattr(ob2, name, no) is not no def __iter__(self): return IterIter(self) class InnerBase: '''Base Inner class for Iterators''' # Prep sets up ._next and .end def prep_next(self, it): it.next = self.no_next it.end = 1 return 0 # Advance knocks them down def advance(self, it): it._last = it.item it.item = it._next del it._next del it.end it.start = 0 def no_next(self, it): return 0 def it_end(self, it): if hasattr(it, '_next'): return 0 return not self.prep_next(it) class SeqInner(InnerBase): '''Inner class for sequence Iterators''' def _supports(self, ob): try: ob[0] except (TypeError, AttributeError): return 0 except: pass return 1 def prep_next(self, it): i = it.nextIndex try: it._next = it.seq[i] except IndexError: it._prep_next = self.no_next it.end = 1 return 0 it.end = 0 return 1 def it_length(self, it): it.length = l = len(it.seq) return l try: StopIteration=StopIteration except NameError: StopIteration="StopIteration" class IterInner(InnerBase): '''Iterator inner class for Python iterators''' def _supports(self, ob): try: if hasattr(ob, 'next') and (ob is iter(ob)): return 1 except: return 0 def prep_next(self, it): try: it._next = it.seq.next() except StopIteration: it._prep_next = self.no_next it.end = 1 return 0 it.end = 0 return 1 class IterIter: def __init__(self, it): self.it = it self.skip = it.nextIndex > 0 and not it.end def next(self): it = self.it if self.skip: self.skip = 0 return it.item if it.next(): return it.item raise StopIteration seqInner = SeqInner() iterInner = IterInner()