lyx_mirror/lib/lyx2lyx/parser_tools.py

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# This file is part of lyx2lyx
# -*- coding: utf-8 -*-
# Copyright (C) 2002-2011 Dekel Tsur <dekel@lyx.org>,
# José Matos <jamatos@lyx.org>, Richard Heck <rgheck@comcast.net>
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
'''
This module offers several free functions to help parse lines.
More documentaton is below, but here is a quick guide to what
they do. Optional arguments are marked by brackets.
find_token(lines, token, start[, end[, ignorews]]):
Returns the first line i, start <= i < end, on which
token is found at the beginning. Returns -1 if not
found.
If ignorews is (given and) True, then differences
in whitespace do not count, except that there must be no
extra whitespace following token itself.
find_token_exact(lines, token, start[, end]):
As find_token, but with ignorews set to True.
find_tokens(lines, tokens, start[, end[, ignorews]]):
Returns the first line i, start <= i < end, on which
one of the tokens in tokens is found at the beginning.
Returns -1 if not found.
If ignorews is (given and) True, then differences
in whitespace do not count, except that there must be no
extra whitespace following token itself.
find_tokens_exact(lines, token, start[, end]):
As find_tokens, but with ignorews True.
find_token_backwards(lines, token, start):
find_tokens_backwards(lines, tokens, start):
As before, but look backwards.
find_re(lines, rexp, start[, end]):
As find_token, but rexp is a regular expression object,
so it has to be passed as e.g.: re.compile(r'...').
get_value(lines, token, start[, end[, default]):
Similar to find_token, but it returns what follows the
token on the found line. Example:
get_value(document.header, "\use_xetex", 0)
will find a line like:
\use_xetex true
and, in that case, return "true". (Note that whitespace
is stripped.) The final argument, default, defaults to "",
and is what is returned if we do not find anything. So you
can use that to set a default.
get_quoted_value(lines, token, start[, end[, default]):
Similar to get_value, but it will strip quotes off the
value, if they are present. So use this one for cases
where the value is normally quoted.
get_option_value(line, option):
This assumes we have a line with something like:
option="value"
and returns value. Returns "" if not found.
del_token(lines, token, start[, end]):
Like find_token, but deletes the line if it finds one.
Returns True if a line got deleted, otherwise False.
find_beginning_of(lines, i, start_token, end_token):
Here, start_token and end_token are meant to be a matching
pair, like "\begin_layout" and "\end_layout". We look for
the start_token that pairs with the end_token that occurs
on or after line i. Returns -1 if not found.
So, in the layout case, this would find the \begin_layout
for the layout line i is in.
Example:
ec = find_token(document.body, "</cell", i)
bc = find_beginning_of(document.body, ec, \
"<cell", "</cell")
Now, assuming no -1s, bc-ec wraps the cell for line i.
find_end_of(lines, i, start_token, end_token):
Like find_beginning_of, but looking for the matching
end_token. This might look like:
bc = find_token_(document.body, "<cell", i)
ec = find_end_of(document.body, bc, "<cell", "</cell")
Now, assuming no -1s, bc-ec wrap the next cell.
find_end_of_inset(lines, i):
Specialization of find_end_of for insets.
find_end_of_layout(lines, i):
Specialization of find_end_of for layouts.
find_end_of_sequence(lines, i):
Find the end of the sequence of layouts of the same kind.
Considers nesting. If the last paragraph in sequence is nested,
the position of the last \end_deeper is returned, else
the position of the last \end_layout.
is_in_inset(lines, i, inset):
Checks if line i is in an inset of the given type.
If so, returns starting and ending lines. Otherwise,
returns False.
Example:
is_in_inset(document.body, i, "\\begin_inset Tabular")
returns False unless i is within a table. If it is, then
it returns the line on which the table begins and the one
on which it ends. Note that this pair will evaulate to
boolean True, so
if is_in_inset(...):
will do what you expect.
get_containing_inset(lines, i):
Finds out what kind of inset line i is within. Returns a
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list containing what follows \begin_inset on the line
on which the inset begins, plus the starting and ending line.
Returns False on any kind of error or if it isn't in an inset.
So get_containing_inset(document.body, i) might return:
("CommandInset ref", 300, 306)
if i is within an InsetRef beginning on line 300 and ending
on line 306.
get_containing_layout(lines, i):
As get_containing_inset, but for layout. Additionally returns the
position of real paragraph start (after par params) as 4th value.
find_nonempty_line(lines, start[, end):
Finds the next non-empty line.
check_token(line, token):
Does line begin with token?
is_nonempty_line(line):
Does line contain something besides whitespace?
count_pars_in_inset(lines, i):
Counts the paragraphs inside an inset.
'''
import re
# Utilities for one line
def check_token(line, token):
""" check_token(line, token) -> bool
Return True if token is present in line and is the first element
else returns False."""
return line[:len(token)] == token
def is_nonempty_line(line):
""" is_nonempty_line(line) -> bool
Return False if line is either empty or it has only whitespaces,
else return True."""
return line != " "*len(line)
# Utilities for a list of lines
def find_token(lines, token, start, end = 0, ignorews = False):
""" find_token(lines, token, start[[, end], ignorews]) -> int
Return the lowest line where token is found, and is the first
element, in lines[start, end].
If ignorews is True (default is False), then differences in
whitespace are ignored, except that there must be no extra
whitespace following token itself.
Return -1 on failure."""
if end == 0 or end > len(lines):
end = len(lines)
m = len(token)
for i in xrange(start, end):
if ignorews:
x = lines[i].split()
y = token.split()
if len(x) < len(y):
continue
if x[:len(y)] == y:
return i
else:
if lines[i][:m] == token:
return i
return -1
def find_token_exact(lines, token, start, end = 0):
return find_token(lines, token, start, end, True)
def find_tokens(lines, tokens, start, end = 0, ignorews = False):
""" find_tokens(lines, tokens, start[[, end], ignorews]) -> int
Return the lowest line where one token in tokens is found, and is
the first element, in lines[start, end].
Return -1 on failure."""
if end == 0 or end > len(lines):
end = len(lines)
for i in xrange(start, end):
for token in tokens:
if ignorews:
x = lines[i].split()
y = token.split()
if len(x) < len(y):
continue
if x[:len(y)] == y:
return i
else:
if lines[i][:len(token)] == token:
return i
return -1
def find_tokens_exact(lines, tokens, start, end = 0):
return find_tokens(lines, tokens, start, end, True)
def find_re(lines, rexp, start, end = 0):
""" find_token_re(lines, rexp, start[, end]) -> int
Return the lowest line where rexp, a regular expression, is found
in lines[start, end].
Return -1 on failure."""
if end == 0 or end > len(lines):
end = len(lines)
for i in xrange(start, end):
if rexp.match(lines[i]):
return i
return -1
def find_token_backwards(lines, token, start):
""" find_token_backwards(lines, token, start) -> int
Return the highest line where token is found, and is the first
element, in lines[start, end].
Return -1 on failure."""
m = len(token)
for i in xrange(start, -1, -1):
line = lines[i]
if line[:m] == token:
return i
return -1
def find_tokens_backwards(lines, tokens, start):
""" find_tokens_backwards(lines, token, start) -> int
Return the highest line where token is found, and is the first
element, in lines[end, start].
Return -1 on failure."""
for i in xrange(start, -1, -1):
line = lines[i]
for token in tokens:
if line[:len(token)] == token:
return i
return -1
def get_value(lines, token, start, end = 0, default = ""):
""" get_value(lines, token, start[[, end], default]) -> string
Find the next line that looks like:
token followed by other stuff
Returns "followed by other stuff" with leading and trailing
whitespace removed.
"""
i = find_token_exact(lines, token, start, end)
if i == -1:
return default
l = lines[i].split(None, 1)
if len(l) > 1:
return l[1].strip()
return default
def get_quoted_value(lines, token, start, end = 0, default = ""):
""" get_quoted_value(lines, token, start[[, end], default]) -> string
Find the next line that looks like:
token "followed by other stuff"
Returns "followed by other stuff" with leading and trailing
whitespace and quotes removed. If there are no quotes, that is OK too.
So use get_value to preserve possible quotes, this one to remove them,
if they are there.
Note that we will NOT strip quotes from default!
"""
val = get_value(lines, token, start, end, "")
if not val:
return default
return val.strip('"')
def get_option_value(line, option):
rx = option + '\s*=\s*"([^"]+)"'
rx = re.compile(rx)
m = rx.search(line)
if not m:
return ""
return m.group(1)
def set_option_value(line, option, value):
rx = '(' + option + '\s*=\s*")[^"]+"'
rx = re.compile(rx)
m = rx.search(line)
if not m:
return line
return re.sub(rx, '\g<1>' + value + '"', line)
def del_token(lines, token, start, end = 0):
""" del_token(lines, token, start, end) -> int
Find the first line in lines where token is the first element
and delete that line. Returns True if we deleted a line, False
if we did not."""
k = find_token_exact(lines, token, start, end)
if k == -1:
return False
del lines[k]
return True
def find_beginning_of(lines, i, start_token, end_token):
count = 1
while i > 0:
i = find_tokens_backwards(lines, [start_token, end_token], i-1)
if i == -1:
return -1
if check_token(lines[i], end_token):
count = count+1
else:
count = count-1
if count == 0:
return i
return -1
def find_end_of(lines, i, start_token, end_token):
count = 1
n = len(lines)
while i < n:
i = find_tokens(lines, [end_token, start_token], i+1)
if i == -1:
return -1
if check_token(lines[i], start_token):
count = count+1
else:
count = count-1
if count == 0:
return i
return -1
def find_nonempty_line(lines, start, end = 0):
if end == 0:
end = len(lines)
for i in xrange(start, end):
if is_nonempty_line(lines[i]):
return i
return -1
def find_end_of_inset(lines, i):
" Find end of inset, where lines[i] is included."
return find_end_of(lines, i, "\\begin_inset", "\\end_inset")
def find_end_of_layout(lines, i):
" Find end of layout, where lines[i] is included."
return find_end_of(lines, i, "\\begin_layout", "\\end_layout")
def is_in_inset(lines, i, inset):
'''
Checks if line i is in an inset of the given type.
If so, returns starting and ending lines.
Otherwise, returns False.
Example:
is_in_inset(document.body, i, "\\begin_inset Tabular")
returns False unless i is within a table. If it is, then
it returns the line on which the table begins and the one
on which it ends. Note that this pair will evaulate to
boolean True, so
if is_in_inset(...):
will do what you expect.
'''
defval = (-1, -1)
stins = find_token_backwards(lines, inset, i)
if stins == -1:
return defval
endins = find_end_of_inset(lines, stins)
# note that this includes the notfound case.
if endins < i:
return defval
return (stins, endins)
def get_containing_inset(lines, i):
'''
Finds out what kind of inset line i is within. Returns a
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list containing (i) what follows \begin_inset on the line
on which the inset begins, plus the starting and ending line.
Returns False on any kind of error or if it isn't in an inset.
'''
j = i
while True:
stins = find_token_backwards(lines, "\\begin_inset", j)
if stins == -1:
return False
endins = find_end_of_inset(lines, stins)
if endins > j:
break
j = stins - 1
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inset = get_value(lines, "\\begin_inset", stins)
if inset == "":
# shouldn't happen
return False
return (inset, stins, endins)
def get_containing_layout(lines, i):
'''
Finds out what kind of layout line i is within. Returns a
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list containing what follows \begin_layout on the line
on which the layout begins, plus the starting and ending line
and the start of the paragraph (after all params). I.e, returns:
(layoutname, layoutstart, layoutend, startofcontent)
Returns False on any kind of error.
'''
j = i
while True:
stlay = find_token_backwards(lines, "\\begin_layout", j)
if stlay == -1:
return False
endlay = find_end_of_layout(lines, stlay)
if endlay > i:
break
j = stlay - 1
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lay = get_value(lines, "\\begin_layout", stlay)
if lay == "":
# shouldn't happen
return False
par_params = ["\\noindent", "\\indent", "\\indent-toggle", "\\leftindent",
"\\start_of_appendix", "\\paragraph_spacing", "\\align",
"\\labelwidthstring"]
stpar = stlay
while True:
stpar += 1
if lines[stpar].split(' ', 1)[0] not in par_params:
break
return (lay, stlay, endlay, stpar)
def count_pars_in_inset(lines, i):
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'''
Counts the paragraphs within this inset
'''
ins = get_containing_inset(lines, i)
if ins == -1:
return -1
pars = 0
for j in range(ins[1], ins[2]):
m = re.match(r'\\begin_layout (.*)', lines[j])
if m and get_containing_inset(lines, j)[0] == ins[0]:
pars += 1
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return pars
def find_end_of_sequence(lines, i):
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'''
Returns the end of a sequence of identical layouts.
'''
lay = get_containing_layout(lines, i)
if lay == False:
return -1
layout = lay[0]
endlay = lay[2]
i = endlay
while True:
m = re.match(r'\\begin_layout (.*)', lines[i])
if m and m.group(1) != layout:
return endlay
elif lines[i] == "\\begin_deeper":
j = find_end_of(lines, i, "\\begin_deeper", "\\end_deeper")
if j != -1:
i = j
endlay = j
continue
if m and m.group(1) == layout:
endlay = find_end_of_layout(lines, i)
i = endlay
continue
if i == len(lines) - 1:
break
i = i + 1
return endlay