Mercurial > p > roundup > code

view roundup/cgi/ZTUtils/Iterator.py @ 8241:741ea8a86012

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
fix: issue2551374. Error handling for filter expressions. Errors in filter expressions are now reported. The UI needs some work but even the current code is helpful when debugging filter expressions. mlink_expr: defines/raises ExpressionError(error string template, context=dict()) raises ExpressionError when it detects errors when popping arguments off stack raises ExpressionError when more than one element left on the stack before returning also ruff fix to group boolean expression with parens back_anydbm.py, rdbms_common.py: catches ExpressionError, augments context with class and attribute being searched. raises the exception for both link and multilink relations client.py catches ExpressionError returning a basic error page. The page is a dead end. There are no links or anything for the user to move forward. The user has to go back, possibly refresh the page (because the submit button may be disalbled) re-enter the query and try again. This needs to be improved. test_liveserver.py test the error page generated by client.py db_test_base unit tests for filter with too few arguments, too many arguments, check all repr and str formats.
author John Rouillard <rouilj@ieee.org>
date Mon, 30 Dec 2024 20:22:55 -0500
parents 9bbc1d951677
children fed0f839c260
line wrap: on
line source

##############################################################################
#
# 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.

'''
__docformat__ = 'restructuredtext'

import string

class Iterator:
    '''Simple Iterator class'''

    __allow_access_to_unprotected_subobjects__ = 1

    nextIndex = 0
    def __init__(self, seq):
        self.seq = iter(seq)     # force seq to be an iterator
        self._inner = iterInner
        self._prep_next = iterInner.prep_next

    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=lambda x:x.lower):
        return self.Roman().lower()

    def first(self, name=None):
        if self.start: return 1
        return self.same_part(name, self._last, self.item)

    def last(self, name=None):
        if self.end: return 1
        return self.same_part(name, self.item, self._next)

    def same_part(self, name, ob1, ob2):
        """I have no idea what this does.

           It returns True for first()/last() when there are more items
           in the sequence. Called by first() to compare the previous
           item in sequence and the current item. Caled by last() to
           compare the current item and next item in sequence.
 
           Accepts a string version of the name of an attribute as 'name'.

           If no attribute name is provided, return True if the two items:

              are equal (==) - duplicate strings/integer/same object

           else False.

           If a non-existent attribute name is provided return False.

           If the attribute is present and the named attributes compare
           equal (==) return True else False.

           No idea what use case this handles. Maybe this has
           something to do with batching and first/last returning True
           triggers a new group?
        """

        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 = next(it.seq)
        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
    # Python 2 compatibility:
    next = __next__

seqInner = SeqInner()
iterInner = IterInner()
Roundup Issue Tracker: http://roundup-tracker.org/