vContent

Annotated vContent.py

52:2328724eb6d3
2014-10-06 Paul Boddie Introduced explicit ordering of the different day selectors.
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#!/usr/bin/env python
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"""
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Parsing of vCard, vCalendar and iCalendar files.
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Copyright (C) 2005, 2006, 2007, 2008, 2009, 2011, 2013,
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              2014 Paul Boddie <paul@boddie.org.uk>
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This program is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free Software
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Foundation; either version 3 of the License, or (at your option) any later
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version.
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This program is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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FOR A PARTICULAR PURPOSE.  See the GNU General Public License for more
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details.
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You should have received a copy of the GNU General Public License along with
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this program.  If not, see <http://www.gnu.org/licenses/>.
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--------
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References:
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RFC 5545: Internet Calendaring and Scheduling Core Object Specification
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          (iCalendar)
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          http://tools.ietf.org/html/rfc5545
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RFC 2445: Internet Calendaring and Scheduling Core Object Specification
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          (iCalendar)
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          http://tools.ietf.org/html/rfc2445
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RFC 2425: A MIME Content-Type for Directory Information
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          http://tools.ietf.org/html/rfc2425
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RFC 2426: vCard MIME Directory Profile
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          http://tools.ietf.org/html/rfc2426
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"""
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try:
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    set
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except NameError:
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    from sets import Set as set
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# Encoding-related imports.
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import base64, quopri
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import codecs
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# Tokenisation help.
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import re
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# Configuration.
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default_encoding = "utf-8"
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class ParseError(Exception):
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    "General parsing errors."
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    pass
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# Reader and parser classes.
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class Reader:
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    "A simple class wrapping a file, providing simple pushback capabilities."
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    def __init__(self, f, non_standard_newline=0):
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        """
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        Initialise the object with the file 'f'. If 'non_standard_newline' is
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        set to a true value (unlike the default), lines ending with CR will be
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        treated as complete lines.
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        """
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        self.f = f
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        self.non_standard_newline = non_standard_newline
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        self.lines = []
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        self.line_number = 1 # about to read line 1
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    def close(self):
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        "Close the reader."
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        self.f.close()
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    def pushback(self, line):
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        """
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        Push the given 'line' back so that the next line read is actually the
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        given 'line' and not the next line from the underlying file.
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        """
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        self.lines.append(line)
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        self.line_number -= 1
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    def readline(self):
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        """
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        If no pushed-back lines exist, read a line directly from the file.
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        Otherwise, read from the list of pushed-back lines.
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        """
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        self.line_number += 1
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        if self.lines:
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            return self.lines.pop()
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        else:
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            # Sanity check for broken lines (\r instead of \r\n or \n).
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            line = self.f.readline()
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            while line.endswith("\r") and not self.non_standard_newline:
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                s = self.f.readline()
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                if not s:
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                    break
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                line += s
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            if line.endswith("\r") and self.non_standard_newline:
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                return line + "\n"
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            else:
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                return line
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    def read_content_line(self):
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        """
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        Read an entire content line, itself potentially consisting of many
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        physical lines of text, returning a string.
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        """
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        # Skip blank lines.
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        line = self.readline()
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        while line:
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            line_stripped = line.rstrip("\r\n")
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            if not line_stripped:
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                line = self.readline()
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            else:
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                break
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        else:
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            return ""
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        # Strip all appropriate whitespace from the right end of each line.
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        # For subsequent lines, remove the first whitespace character.
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        # See section 4.1 of the iCalendar specification.
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        lines = [line_stripped]
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        line = self.readline()
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        while line.startswith(" ") or line.startswith("\t"):
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            lines.append(line[1:].rstrip("\r\n"))
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            line = self.readline()
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        # Since one line too many will have been read, push the line back into
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        # the file.
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        if line:
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            self.pushback(line)
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        return "".join(lines)
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    def get_content_line(self):
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        "Return a content line object for the current line."
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        return ContentLine(self.read_content_line())
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class ContentLine:
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    "A content line which can be searched."
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    SEPARATORS = re.compile('[;:"]')
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    SEPARATORS_PLUS_EQUALS = re.compile('[=;:"]')
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    def __init__(self, text):
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        self.text = text
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        self.start = 0
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    def __repr__(self):
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        return "ContentLine(%r)" % self.text
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    def get_remaining(self):
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        "Get the remaining text from the content line."
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        return self.text[self.start:]
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    def search(self, targets):
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        """
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        Find one of the 'targets' in the text, returning the string from the
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        current position up to the target found, along with the target string,
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        using a tuple of the form (string, target). If no target was found,
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        return the entire string together with a target of None.
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        The 'targets' parameter must be a regular expression object or an object
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        compatible with the API of such objects.
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        """
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        text = self.text
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        start = pos = self.start
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        length = len(text)
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        # Remember the first target.
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        first = None
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        first_pos = None
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        in_quoted_region = 0
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        # Process the text, looking for the targets.
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        while pos < length:
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            match = targets.search(text, pos)
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            # Where nothing matches, end the search.
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            if match is None:
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                pos = length
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            # Where a double quote matches, toggle the region state.
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            elif match.group() == '"':
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                in_quoted_region = not in_quoted_region
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                pos = match.end()
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            # Where something else matches outside a region, stop searching.
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            elif not in_quoted_region:
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                first = match.group()
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                first_pos = match.start()
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                break
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            # Otherwise, keep looking for the end of the region.
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            else:
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                pos = match.end()
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        # Where no more input can provide the targets, return a special result.
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        else:
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            self.start = length
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            return text[start:], None
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        self.start = match.end()
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        return text[start:first_pos], first
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class StreamParser:
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    "A stream parser for content in vCard/vCalendar/iCalendar-like formats."
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    def __init__(self, f):
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        "Initialise the parser for the given file 'f'."
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        self.f = f
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    def close(self):
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        "Close the reader."
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        self.f.close()
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    def __iter__(self):
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        "Return self as the iterator."
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        return self
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    def next(self):
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        """
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        Return the next content item in the file as a tuple of the form
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        (name, parameters, values).
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        """
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        return self.parse_content_line()
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    def decode_content(self, value):
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        "Decode the given 'value', replacing quoted characters."
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        return value.replace("\r", "").replace("\\N", "\n").replace("\\n", "\n")
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    # Internal methods.
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    def parse_content_line(self):
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        """
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        Return the name, parameters and value information for the current
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        content line in the file being parsed.
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        """
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        f = self.f
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        line_number = f.line_number
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        line = f.get_content_line()
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        # Read the property name.
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        name, sep = line.search(line.SEPARATORS)
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        name = name.strip()
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        if not name and sep is None:
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            raise StopIteration
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        # Read the parameters.
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        parameters = {}
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        while sep == ";":
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            # Find the actual modifier.
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            parameter_name, sep = line.search(line.SEPARATORS_PLUS_EQUALS)
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            parameter_name = parameter_name.strip()
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            if sep == "=":
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                parameter_value, sep = line.search(line.SEPARATORS)
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                parameter_value = parameter_value.strip()
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            else:
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                parameter_value = None
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            # Append a key, value tuple to the parameters list.
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            parameters[parameter_name] = parameter_value
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        # Get the value content.
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        if sep != ":":
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            raise ValueError, (line_number, line)
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        # Obtain and decode the value.
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        value = self.decode(name, parameters, line.get_remaining())
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        return name, parameters, value
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    def decode(self, name, parameters, value):
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        "Decode using 'name' and 'parameters' the given 'value'."
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        encoding = parameters.get("ENCODING")
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        charset = parameters.get("CHARSET")
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        value = self.decode_content(value)
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        if encoding == "QUOTED-PRINTABLE":
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            return unicode(quopri.decodestring(value), charset or "iso-8859-1")
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        elif encoding == "BASE64":
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            return base64.decodestring(value)
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        else:
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            return value
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class ParserBase:
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    "An abstract parser for content in vCard/vCalendar/iCalendar-like formats."
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    def __init__(self):
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        "Initialise the parser."
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        self.names = []
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    def parse(self, f, parser_cls=None):
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        "Parse the contents of the file 'f'."
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        parser = (parser_cls or StreamParser)(f)
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        for name, parameters, value in parser:
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            if name == "BEGIN":
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                self.names.append(value)
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                self.startComponent(value, parameters)
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            elif name == "END":
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                start_name = self.names.pop()
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                if start_name != value:
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                    raise ParseError, "Mismatch in BEGIN and END declarations (%r and %r) at line %d." % (
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                        start_name, value, f.line_number)
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                self.endComponent(value)
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            else:
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                self.handleProperty(name, parameters, value)
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class Parser(ParserBase):
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    "A SAX-like parser for vCard/vCalendar/iCalendar-like formats."
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    def __init__(self):
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        ParserBase.__init__(self)
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        self.components = []
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    def startComponent(self, name, parameters):
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        """
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        Add the component with the given 'name' and 'parameters', recording an
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        empty list of children as part of the component's content.
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        """
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        component = self.handleProperty(name, parameters)
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        self.components.append(component)
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        return component
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    def endComponent(self, name):
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        """
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        End the component with the given 'name' by removing it from the active
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        component stack. If only one component exists on the stack, retain it
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        for later inspection.
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        """
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        if len(self.components) > 1:
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            return self.components.pop()
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        # Or return the only element.
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        elif self.components:
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            return self.components[0]
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    def handleProperty(self, name, parameters, value=None):
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        """
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        Record the property with the given 'name', 'parameters' and optional
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        'value' as part of the current component's children.
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        """
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        component = self.makeComponent(name, parameters, value)
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        self.attachComponent(component)
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        return component
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    # Component object construction/manipulation methods.
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    def attachComponent(self, component):
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        "Attach the given 'component' to its parent."
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        if self.components:
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            component_name, component_parameters, component_children = self.components[-1]
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            component_children.append(component)
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    def makeComponent(self, name, parameters, value=None):
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        """
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        Make a component object from the given 'name', 'parameters' and optional
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        'value'.
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        """
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        return (name, parameters, value or [])
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    # Public methods.
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    def parse(self, f, parser_cls=None):
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        "Parse the contents of the file 'f'."
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        ParserBase.parse(self, f, parser_cls)
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        return self.components[0]
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# Writer classes.
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class Writer:
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    "A simple class wrapping a file, providing simple output capabilities."
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    default_line_length = 76
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    def __init__(self, write, line_length=None):
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        """
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        Initialise the object with the given 'write' operation. If 'line_length'
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        is set, the length of written lines will conform to the specified value
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        instead of the default value. 
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        """
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        self._write = write
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        self.line_length = line_length or self.default_line_length
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        self.char_offset = 0
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    def write(self, text):
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        "Write the 'text' to the file."
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        write = self._write
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        line_length = self.line_length
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        i = 0
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        remaining = len(text)
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        while remaining:
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            space = line_length - self.char_offset
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            if remaining > space:
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                write(text[i:i + space])
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                write("\r\n ")
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                self.char_offset = 1
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                i += space
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                remaining -= space
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            else:
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                write(text[i:])
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                self.char_offset += remaining
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                i += remaining
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                remaining = 0
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    def end_line(self):
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        "End the current content line."
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        if self.char_offset > 0:
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            self.char_offset = 0
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            self._write("\r\n")
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class StreamWriter:
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    "A stream writer for content in vCard/vCalendar/iCalendar-like formats."
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    def __init__(self, f):
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        "Initialise the stream writer with the given 'f' stream object."
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        self.f = f
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    def append(self, record):
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        self.write(*record)
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    def write(self, name, parameters, value):
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        """
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        Write a content line, serialising the given 'name', 'parameters' and
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        'value' information.
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        """
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        self.write_content_line(name, self.encode_parameters(parameters), self.encode_value(name, parameters, value))
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    # Internal methods.
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    def write_content_line(self, name, encoded_parameters, encoded_value):
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        """
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        Write a content line for the given 'name', 'encoded_parameters' and
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        'encoded_value' information.
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        """
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        f = self.f
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        f.write(name)
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        for param_name, param_value in encoded_parameters.items():
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            f.write(";")
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            f.write(param_name)
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            f.write("=")
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            f.write(param_value)
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        f.write(":")
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        f.write(encoded_value)
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        f.end_line()
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    def encode_quoted_parameter_value(self, value):
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        "Encode the given 'value'."
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        return '"%s"' % value
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    def encode_value(self, name, parameters, value):
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        """
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        Encode using 'name' and 'parameters' the given 'value' so that the
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        resulting encoded form employs any specified character encodings.
paul@11 565
        """
paul@7 566
paul@7 567
        encoding = parameters.get("ENCODING")
paul@7 568
        charset = parameters.get("CHARSET")
paul@7 569
paul@7 570
        if encoding == "QUOTED-PRINTABLE":
paul@7 571
            value = quopri.encodestring(value.encode(charset or "iso-8859-1"))
paul@7 572
        elif encoding == "BASE64":
paul@7 573
            value = base64.encodestring(value)
paul@7 574
paul@7 575
        return self.encode_content(value)
paul@7 576
paul@11 577
    # Overrideable methods.
paul@11 578
paul@11 579
    def encode_parameters(self, parameters):
paul@11 580
paul@11 581
        """
paul@11 582
        Encode the given 'parameters' according to the vCalendar specification.
paul@11 583
        """
paul@11 584
paul@11 585
        encoded_parameters = {}
paul@11 586
paul@11 587
        for param_name, param_value in parameters.items():
paul@11 588
paul@11 589
            # Basic format support merely involves quoting values which seem to
paul@11 590
            # need it. Other more specific formats may define exactly which
paul@11 591
            # parameters should be quoted.
paul@11 592
paul@11 593
            if ContentLine.SEPARATORS.search(param_value):
paul@11 594
                param_value = self.encode_quoted_parameter_value(param_value)
paul@11 595
paul@11 596
            encoded_parameters[param_name] = param_value
paul@11 597
paul@11 598
        return encoded_parameters
paul@11 599
paul@11 600
    def encode_content(self, value):
paul@11 601
paul@11 602
        "Encode the given 'value', quoting characters."
paul@11 603
paul@11 604
        return value.replace("\n", "\\n")
paul@11 605
paul@9 606
# Utility functions.
paul@9 607
paul@9 608
def is_input_stream(stream_or_string):
paul@9 609
    return hasattr(stream_or_string, "read")
paul@9 610
paul@11 611
def get_input_stream(stream_or_string, encoding=None):
paul@9 612
    if is_input_stream(stream_or_string):
paul@9 613
        return stream_or_string
paul@9 614
    else:
paul@11 615
        return codecs.open(stream_or_string, encoding=(encoding or default_encoding))
paul@9 616
paul@11 617
def get_output_stream(stream_or_string, encoding=None):
paul@9 618
    if hasattr(stream_or_string, "write"):
paul@9 619
        return stream_or_string
paul@9 620
    else:
paul@11 621
        return codecs.open(stream_or_string, "w", encoding=(encoding or default_encoding))
paul@9 622
paul@40 623
def items_to_dict(items):
paul@40 624
paul@40 625
    """
paul@40 626
    Return the given 'items' as a dictionary mapping names to tuples of the form
paul@40 627
    (value, attributes).
paul@40 628
    """
paul@40 629
paul@40 630
    d = {}
paul@40 631
    for name, attr, value in items:
paul@40 632
        if not d.has_key(name):
paul@40 633
            d[name] = []
paul@40 634
        if isinstance(value, list):
paul@40 635
            d[name].append((items_to_dict(value), attr))
paul@40 636
        else:
paul@40 637
            d[name].append((value, attr))
paul@40 638
    return d
paul@40 639
paul@40 640
def dict_to_items(d):
paul@40 641
paul@40 642
    """
paul@40 643
    Return 'd' converted to a list of items suitable for serialisation using
paul@40 644
    iterwrite.
paul@40 645
    """
paul@40 646
paul@40 647
    items = []
paul@40 648
    for name, value in d.items():
paul@40 649
        if isinstance(value, list):
paul@40 650
            for v, a in value:
paul@40 651
                if isinstance(v, dict):
paul@40 652
                    items.append((name, a, dict_to_items(v)))
paul@40 653
                else:
paul@40 654
                    items.append((name, a, v))
paul@40 655
        else:
paul@40 656
            v, a = value
paul@40 657
            items.append((name, a, dict_to_items(v)))
paul@40 658
    return items
paul@40 659
paul@0 660
# Public functions.
paul@0 661
paul@11 662
def parse(stream_or_string, encoding=None, non_standard_newline=0, parser_cls=None):
paul@0 663
paul@0 664
    """
paul@9 665
    Parse the resource data found through the use of the 'stream_or_string',
paul@9 666
    which is either a stream providing Unicode data (the codecs module can be
paul@9 667
    used to open files or to wrap streams in order to provide Unicode data) or a
paul@9 668
    filename identifying a file to be parsed.
paul@0 669
paul@11 670
    The optional 'encoding' can be used to specify the character encoding used
paul@11 671
    by the file to be parsed.
paul@11 672
paul@0 673
    The optional 'non_standard_newline' can be set to a true value (unlike the
paul@0 674
    default) in order to attempt to process files with CR as the end of line
paul@0 675
    character.
paul@0 676
paul@0 677
    As a result of parsing the resource, the root node of the imported resource
paul@0 678
    is returned.
paul@0 679
    """
paul@0 680
paul@11 681
    stream = get_input_stream(stream_or_string, encoding)
paul@9 682
    reader = Reader(stream, non_standard_newline)
paul@9 683
paul@9 684
    # Parse using the reader.
paul@0 685
paul@9 686
    try:
paul@9 687
        parser = (parser_cls or Parser)()
paul@9 688
        return parser.parse(reader)
paul@9 689
paul@9 690
    # Close any opened streams.
paul@9 691
paul@9 692
    finally:
paul@9 693
        if not is_input_stream(stream_or_string):
paul@9 694
            reader.close()
paul@9 695
paul@11 696
def iterparse(stream_or_string, encoding=None, non_standard_newline=0, parser_cls=None):
paul@5 697
paul@5 698
    """
paul@9 699
    Parse the resource data found through the use of the 'stream_or_string',
paul@9 700
    which is either a stream providing Unicode data (the codecs module can be
paul@9 701
    used to open files or to wrap streams in order to provide Unicode data) or a
paul@9 702
    filename identifying a file to be parsed.
paul@5 703
paul@11 704
    The optional 'encoding' can be used to specify the character encoding used
paul@11 705
    by the file to be parsed.
paul@11 706
paul@5 707
    The optional 'non_standard_newline' can be set to a true value (unlike the
paul@5 708
    default) in order to attempt to process files with CR as the end of line
paul@5 709
    character.
paul@5 710
paul@5 711
    An iterator is returned which provides event tuples describing parsing
paul@5 712
    events of the form (name, parameters, value).
paul@5 713
    """
paul@5 714
paul@11 715
    stream = get_input_stream(stream_or_string, encoding)
paul@9 716
    reader = Reader(stream, non_standard_newline)
paul@5 717
    parser = (parser_cls or StreamParser)(reader)
paul@9 718
    return parser
paul@5 719
paul@21 720
def iterwrite(stream_or_string=None, write=None, encoding=None, line_length=None, writer_cls=None):
paul@11 721
paul@11 722
    """
paul@21 723
    Return a writer which will either send data to the resource found through
paul@21 724
    the use of 'stream_or_string' or using the given 'write' operation.
paul@21 725
paul@21 726
    The 'stream_or_string' parameter may be either a stream accepting Unicode
paul@21 727
    data (the codecs module can be used to open files or to wrap streams in
paul@21 728
    order to accept Unicode data) or a filename identifying a file to be
paul@21 729
    written.
paul@11 730
paul@11 731
    The optional 'encoding' can be used to specify the character encoding used
paul@11 732
    by the file to be written.
paul@11 733
paul@11 734
    The optional 'line_length' can be used to specify how long lines should be
paul@11 735
    in the resulting data.
paul@11 736
    """
paul@11 737
paul@21 738
    if stream_or_string:
paul@21 739
        stream = get_output_stream(stream_or_string, encoding)
paul@21 740
        _writer = Writer(stream.write, line_length)
paul@21 741
    elif write:
paul@21 742
        _writer = Writer(write, line_length)
paul@21 743
    else:
paul@21 744
        raise IOError, "No stream, filename or write operation specified."
paul@21 745
paul@21 746
    return (writer_cls or StreamWriter)(_writer)
paul@8 747
paul@40 748
def to_dict(node):
paul@40 749
paul@40 750
    "Return the 'node' converted to a dictionary representation."
paul@40 751
paul@40 752
    name, attr, items = node
paul@40 753
    return {name : (isinstance(items, list) and items_to_dict(items) or items, attr)}
paul@40 754
paul@40 755
def to_node(d):
paul@40 756
paul@40 757
    "Return 'd' converted to a items-based representation."
paul@40 758
paul@40 759
    return dict_to_items(d)[0]
paul@40 760
paul@0 761
# vim: tabstop=4 expandtab shiftwidth=4