mirror of https://github.com/python/cpython
530 lines
18 KiB
Python
Executable File
530 lines
18 KiB
Python
Executable File
#! /usr/bin/env python
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"""Generate ESIS events based on a LaTeX source document and
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configuration data.
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The conversion is not strong enough to work with arbitrary LaTeX
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documents; it has only been designed to work with the highly stylized
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markup used in the standard Python documentation. A lot of
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information about specific markup is encoded in the control table
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passed to the convert() function; changing this table can allow this
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tool to support additional LaTeX markups.
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The format of the table is largely undocumented; see the commented
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headers where the table is specified in main(). There is no provision
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to load an alternate table from an external file.
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"""
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__version__ = '$Revision$'
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import copy
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import errno
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import getopt
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import os
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import re
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import string
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import StringIO
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import sys
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import UserList
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from esistools import encode
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from types import ListType, StringType, TupleType
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try:
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from xml.parsers.xmllib import XMLParser
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except ImportError:
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from xmllib import XMLParser
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DEBUG = 0
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class LaTeXFormatError(Exception):
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pass
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class LaTeXStackError(LaTeXFormatError):
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def __init__(self, found, stack):
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msg = "environment close for %s doesn't match;\n stack = %s" \
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% (found, stack)
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self.found = found
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self.stack = stack[:]
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LaTeXFormatError.__init__(self, msg)
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_begin_env_rx = re.compile(r"[\\]begin{([^}]*)}")
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_end_env_rx = re.compile(r"[\\]end{([^}]*)}")
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_begin_macro_rx = re.compile(r"[\\]([a-zA-Z]+[*]?) ?({|\s*\n?)")
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_comment_rx = re.compile("%+ ?(.*)\n[ \t]*")
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_text_rx = re.compile(r"[^]%\\{}]+")
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_optional_rx = re.compile(r"\s*[[]([^]]*)[]]")
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# _parameter_rx is this complicated to allow {...} inside a parameter;
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# this is useful to match tabular layout specifications like {c|p{24pt}}
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_parameter_rx = re.compile("[ \n]*{(([^{}}]|{[^}]*})*)}")
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_token_rx = re.compile(r"[a-zA-Z][a-zA-Z0-9.-]*$")
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_start_group_rx = re.compile("[ \n]*{")
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_start_optional_rx = re.compile("[ \n]*[[]")
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ESCAPED_CHARS = "$%#^ {}&~"
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def dbgmsg(msg):
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if DEBUG:
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sys.stderr.write(msg + "\n")
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def pushing(name, point, depth):
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dbgmsg("pushing <%s> at %s" % (name, point))
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def popping(name, point, depth):
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dbgmsg("popping </%s> at %s" % (name, point))
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class _Stack(UserList.UserList):
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def append(self, entry):
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if type(entry) is not StringType:
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raise LaTeXFormatError("cannot push non-string on stack: "
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+ `entry`)
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sys.stderr.write("%s<%s>\n" % (" "*len(self.data), entry))
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self.data.append(entry)
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def pop(self, index=-1):
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entry = self.data[index]
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del self.data[index]
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sys.stderr.write("%s</%s>\n" % (" "*len(self.data), entry))
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def __delitem__(self, index):
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entry = self.data[index]
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del self.data[index]
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sys.stderr.write("%s</%s>\n" % (" "*len(self.data), entry))
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def new_stack():
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if DEBUG:
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return _Stack()
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return []
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class Conversion:
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def __init__(self, ifp, ofp, table):
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self.write = ofp.write
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self.ofp = ofp
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self.table = table
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self.line = string.join(map(string.rstrip, ifp.readlines()), "\n")
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self.preamble = 1
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def err_write(self, msg):
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if DEBUG:
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sys.stderr.write(str(msg) + "\n")
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def convert(self):
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self.subconvert()
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def subconvert(self, endchar=None, depth=0):
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#
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# Parses content, including sub-structures, until the character
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# 'endchar' is found (with no open structures), or until the end
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# of the input data is endchar is None.
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#
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stack = new_stack()
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line = self.line
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while line:
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if line[0] == endchar and not stack:
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self.line = line
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return line
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m = _comment_rx.match(line)
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if m:
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text = m.group(1)
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if text:
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self.write("(COMMENT\n- %s \n)COMMENT\n-\\n\n"
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% encode(text))
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line = line[m.end():]
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continue
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m = _begin_env_rx.match(line)
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if m:
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name = m.group(1)
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entry = self.get_env_entry(name)
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# re-write to use the macro handler
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line = r"\%s %s" % (name, line[m.end():])
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continue
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m = _end_env_rx.match(line)
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if m:
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# end of environment
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envname = m.group(1)
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entry = self.get_entry(envname)
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while stack and envname != stack[-1] \
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and stack[-1] in entry.endcloses:
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self.write(")%s\n" % stack.pop())
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if stack and envname == stack[-1]:
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self.write(")%s\n" % entry.outputname)
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del stack[-1]
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else:
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raise LaTeXStackError(envname, stack)
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line = line[m.end():]
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continue
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m = _begin_macro_rx.match(line)
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if m:
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# start of macro
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macroname = m.group(1)
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entry = self.get_entry(macroname)
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if entry.verbatim:
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# magic case!
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pos = string.find(line, "\\end{%s}" % macroname)
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text = line[m.end(1):pos]
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stack.append(entry.name)
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self.write("(%s\n" % entry.outputname)
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self.write("-%s\n" % encode(text))
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self.write(")%s\n" % entry.outputname)
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stack.pop()
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line = line[pos + len("\\end{%s}" % macroname):]
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continue
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while stack and stack[-1] in entry.closes:
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top = stack.pop()
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topentry = self.get_entry(top)
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if topentry.outputname:
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self.write(")%s\n-\\n\n" % topentry.outputname)
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#
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if entry.outputname:
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if entry.empty:
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self.write("e\n")
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#
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params, optional, empty, environ = self.start_macro(macroname)
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# rip off the macroname
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if params:
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line = line[m.end(1):]
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elif empty:
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line = line[m.end(1):]
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else:
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line = line[m.end():]
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opened = 0
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implied_content = 0
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# handle attribute mappings here:
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for pentry in params:
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if pentry.type == "attribute":
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if pentry.optional:
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m = _optional_rx.match(line)
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if m and entry.outputname:
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line = line[m.end():]
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self.dump_attr(pentry, m.group(1))
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elif pentry.text and entry.outputname:
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# value supplied by conversion spec:
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self.dump_attr(pentry, pentry.text)
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else:
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m = _parameter_rx.match(line)
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if not m:
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raise LaTeXFormatError(
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"could not extract parameter %s for %s: %s"
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% (pentry.name, macroname, `line[:100]`))
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if entry.outputname:
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self.dump_attr(pentry, m.group(1))
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line = line[m.end():]
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elif pentry.type == "child":
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if pentry.optional:
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m = _optional_rx.match(line)
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if m:
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line = line[m.end():]
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if entry.outputname and not opened:
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opened = 1
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self.write("(%s\n" % entry.outputname)
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stack.append(macroname)
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stack.append(pentry.name)
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self.write("(%s\n" % pentry.name)
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self.write("-%s\n" % encode(m.group(1)))
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self.write(")%s\n" % pentry.name)
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stack.pop()
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else:
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if entry.outputname and not opened:
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opened = 1
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self.write("(%s\n" % entry.outputname)
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stack.append(entry.name)
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self.write("(%s\n" % pentry.name)
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stack.append(pentry.name)
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self.line = skip_white(line)[1:]
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line = self.subconvert(
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"}", len(stack) + depth + 1)[1:]
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self.write(")%s\n" % stack.pop())
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elif pentry.type == "content":
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if pentry.implied:
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implied_content = 1
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else:
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if entry.outputname and not opened:
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opened = 1
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self.write("(%s\n" % entry.outputname)
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stack.append(entry.name)
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line = skip_white(line)
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if line[0] != "{":
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raise LaTeXFormatError(
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"missing content for " + macroname)
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self.line = line[1:]
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line = self.subconvert("}", len(stack) + depth + 1)
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if line and line[0] == "}":
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line = line[1:]
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elif pentry.type == "text" and pentry.text:
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if entry.outputname and not opened:
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opened = 1
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stack.append(entry.name)
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self.write("(%s\n" % entry.outputname)
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self.err_write("--- text: %s\n" % `pentry.text`)
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self.write("-%s\n" % encode(pentry.text))
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elif pentry.type == "entityref":
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self.write("&%s\n" % pentry.name)
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if entry.outputname:
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if not opened:
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self.write("(%s\n" % entry.outputname)
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stack.append(entry.name)
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if not implied_content:
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self.write(")%s\n" % entry.outputname)
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stack.pop()
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continue
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if line[0] == endchar and not stack:
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self.line = line[1:]
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return self.line
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if line[0] == "}":
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# end of macro or group
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macroname = stack[-1]
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if macroname:
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conversion = self.table.get(macroname)
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if conversion.outputname:
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# otherwise, it was just a bare group
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self.write(")%s\n" % conversion.outputname)
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del stack[-1]
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line = line[1:]
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continue
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if line[0] == "{":
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stack.append("")
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line = line[1:]
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continue
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if line[0] == "\\" and line[1] in ESCAPED_CHARS:
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self.write("-%s\n" % encode(line[1]))
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line = line[2:]
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continue
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if line[:2] == r"\\":
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self.write("(BREAK\n)BREAK\n")
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line = line[2:]
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continue
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m = _text_rx.match(line)
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if m:
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text = encode(m.group())
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self.write("-%s\n" % text)
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line = line[m.end():]
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continue
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# special case because of \item[]
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# XXX can we axe this???
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if line[0] == "]":
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self.write("-]\n")
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line = line[1:]
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continue
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# avoid infinite loops
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extra = ""
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if len(line) > 100:
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extra = "..."
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raise LaTeXFormatError("could not identify markup: %s%s"
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% (`line[:100]`, extra))
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while stack:
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entry = self.get_entry(stack[-1])
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if entry.closes:
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self.write(")%s\n-%s\n" % (entry.outputname, encode("\n")))
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del stack[-1]
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else:
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break
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if stack:
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raise LaTeXFormatError("elements remain on stack: "
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+ string.join(stack, ", "))
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# otherwise we just ran out of input here...
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def start_macro(self, name):
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conversion = self.get_entry(name)
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parameters = conversion.parameters
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optional = parameters and parameters[0].optional
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return parameters, optional, conversion.empty, conversion.environment
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def get_entry(self, name):
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entry = self.table.get(name)
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if entry is None:
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self.err_write("get_entry(%s) failing; building default entry!"
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% `name`)
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# not defined; build a default entry:
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entry = TableEntry(name)
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entry.has_content = 1
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entry.parameters.append(Parameter("content"))
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self.table[name] = entry
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return entry
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def get_env_entry(self, name):
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entry = self.table.get(name)
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if entry is None:
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# not defined; build a default entry:
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entry = TableEntry(name, 1)
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entry.has_content = 1
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entry.parameters.append(Parameter("content"))
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entry.parameters[-1].implied = 1
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self.table[name] = entry
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elif not entry.environment:
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raise LaTeXFormatError(
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name + " is defined as a macro; expected environment")
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return entry
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def dump_attr(self, pentry, value):
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if not (pentry.name and value):
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return
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if _token_rx.match(value):
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dtype = "TOKEN"
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else:
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dtype = "CDATA"
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self.write("A%s %s %s\n" % (pentry.name, dtype, encode(value)))
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def convert(ifp, ofp, table):
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c = Conversion(ifp, ofp, table)
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try:
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c.convert()
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except IOError, (err, msg):
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if err != errno.EPIPE:
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raise
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def skip_white(line):
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while line and line[0] in " %\n\t\r":
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line = string.lstrip(line[1:])
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return line
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class TableEntry:
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def __init__(self, name, environment=0):
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self.name = name
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self.outputname = name
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self.environment = environment
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self.empty = not environment
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self.has_content = 0
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self.verbatim = 0
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self.auto_close = 0
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self.parameters = []
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self.closes = []
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self.endcloses = []
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class Parameter:
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def __init__(self, type, name=None, optional=0):
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self.type = type
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self.name = name
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self.optional = optional
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self.text = ''
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self.implied = 0
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class TableParser(XMLParser):
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def __init__(self, table=None):
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if table is None:
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table = {}
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self.__table = table
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self.__current = None
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self.__buffer = ''
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XMLParser.__init__(self)
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def get_table(self):
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for entry in self.__table.values():
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if entry.environment and not entry.has_content:
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p = Parameter("content")
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p.implied = 1
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entry.parameters.append(p)
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entry.has_content = 1
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return self.__table
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def start_environment(self, attrs):
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name = attrs["name"]
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self.__current = TableEntry(name, environment=1)
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self.__current.verbatim = attrs.get("verbatim") == "yes"
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if attrs.has_key("outputname"):
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self.__current.outputname = attrs.get("outputname")
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self.__current.endcloses = string.split(attrs.get("endcloses", ""))
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def end_environment(self):
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self.end_macro()
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def start_macro(self, attrs):
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name = attrs["name"]
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self.__current = TableEntry(name)
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self.__current.closes = string.split(attrs.get("closes", ""))
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if attrs.has_key("outputname"):
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self.__current.outputname = attrs.get("outputname")
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def end_macro(self):
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self.__table[self.__current.name] = self.__current
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self.__current = None
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def start_attribute(self, attrs):
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name = attrs.get("name")
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optional = attrs.get("optional") == "yes"
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if name:
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p = Parameter("attribute", name, optional=optional)
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else:
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p = Parameter("attribute", optional=optional)
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self.__current.parameters.append(p)
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self.__buffer = ''
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def end_attribute(self):
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self.__current.parameters[-1].text = self.__buffer
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def start_entityref(self, attrs):
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name = attrs["name"]
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p = Parameter("entityref", name)
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self.__current.parameters.append(p)
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def start_child(self, attrs):
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name = attrs["name"]
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p = Parameter("child", name, attrs.get("optional") == "yes")
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self.__current.parameters.append(p)
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self.__current.empty = 0
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def start_content(self, attrs):
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p = Parameter("content")
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p.implied = attrs.get("implied") == "yes"
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if self.__current.environment:
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p.implied = 1
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self.__current.parameters.append(p)
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self.__current.has_content = 1
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self.__current.empty = 0
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def start_text(self, attrs):
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self.__current.empty = 0
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self.__buffer = ''
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def end_text(self):
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p = Parameter("text")
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p.text = self.__buffer
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self.__current.parameters.append(p)
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def handle_data(self, data):
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self.__buffer = self.__buffer + data
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def load_table(fp, table=None):
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parser = TableParser(table=table)
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parser.feed(fp.read())
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parser.close()
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return parser.get_table()
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def main():
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global DEBUG
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#
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opts, args = getopt.getopt(sys.argv[1:], "D", ["debug"])
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for opt, arg in opts:
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if opt in ("-D", "--debug"):
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DEBUG = DEBUG + 1
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if len(args) == 0:
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ifp = sys.stdin
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ofp = sys.stdout
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elif len(args) == 1:
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ifp = open(args)
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ofp = sys.stdout
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elif len(args) == 2:
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ifp = open(args[0])
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ofp = open(args[1], "w")
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else:
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usage()
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sys.exit(2)
|
||
|
||
table = load_table(open(os.path.join(sys.path[0], 'conversion.xml')))
|
||
convert(ifp, ofp, table)
|
||
|
||
|
||
if __name__ == "__main__":
|
||
main()
|