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import logging
import re
import pygments
from gi.repository import Gtk
from syntax_highlight.gtkformatter import GTKFormatter
from syntax_highlight.types import MatchType
from syntax_highlight.types import LineBreakOptions
from syntax_highlight.types import CodeMarkerOptions
log = logging.getLogger('gajim.p.syntax_highlight')
class ChatSyntaxHighlighter:
def hide_code_markup(self, buf, start, end):
tag = buf.get_tag_table().lookup('hide_code_markup')
if tag is None:
tag = Gtk.TextTag.new('hide_code_markup')
tag.set_property('invisible', True)
buf.get_tag_table().add(tag)
buf.apply_tag_by_name('hide_code_markup', start, end)
def check_line_break(self, is_multiline):
line_break = self.config.get_line_break_action()
return (line_break == LineBreakOptions.ALWAYS) \
or (is_multiline and line_break == LineBreakOptions.MULTILINE)
def format_code(self, buf, s_tag, s_code, e_tag, e_code, language):
style = self.config.get_style_name()
if self.config.get_code_marker_setting() == CodeMarkerOptions.HIDE:
self.hide_code_markup(buf, s_tag, s_code)
self.hide_code_markup(buf, e_code, e_tag)
else:
comment_tag = GTKFormatter.create_tag_for_token(
pygments.token.Comment,
pygments.styles.get_style_by_name(style))
buf.get_tag_table().add(comment_tag)
buf.apply_tag(comment_tag, s_tag, s_code)
buf.apply_tag(comment_tag, e_tag, e_code)
code = s_code.get_text(e_code)
log.debug('full text to encode: %s.', code)
start_mark = buf.create_mark(None, s_code, False)
lexer = None
if language is None:
lexer = self.config.get_default_lexer()
log.info('No Language specified. '
'Falling back to default lexer: %s.',
self.config.get_default_lexer_name())
else:
log.debug('Using lexer for %s.', str(language))
lexer = self.config.get_lexer_with_fallback(language)
if lexer is None:
iterator = buf.get_iter_at_mark(start_mark)
buf.insert(iterator, '\n')
elif not self.config.is_internal_none_lexer(lexer):
tokens = pygments.lex(code, lexer)
formatter = GTKFormatter(style=style, start_mark=start_mark)
pygments.format(tokens, formatter, buf)
def find_multiline_matches(self, text):
start = None
matches = []
# Less strict, allow prefixed whitespaces:
# for i in re.finditer(r'(?:^|\n)[ |\t]*(```)\S*[ |\t]*(?:\n|$)',
# text, re.DOTALL):
for i in re.finditer(r'(?:^|\n)(```)\S*(?:\n|$)', text, re.DOTALL):
if start is None:
start = i
elif re.match(r'^\n```', i.group(0)) is not None:
matches.append(
(start.start(), i.end(), text[start.start():i.end()]))
start = None
else:
# not an end...
continue
return matches
def find_inline_matches(self, text):
"""
Inline code is highlighted if the start marker is precedded by a start
of line, a whitespace character or either of the other span markers
defined in XEP-0393.
The same applies mirrored to the end marker.
"""
return [(i.start(1), i.end(1), i.group(1)) for i in
re.finditer(r'(?:^|\s|\*|~|_)(`((?!`).+?)`)(?:\s|\*|~|_|$)',
text)]
def merge_match_groups(self, real_text, inline_matches, multiline_matches):
it_inline = iter(inline_matches)
it_multi = iter(multiline_matches)
length = len(real_text)
# Just to get cleaner code below...
def get_next(iterator):
return next(iterator, (length, length, ''))
# In order to simplify the process, we use the 'length' here.
cur_inline = get_next(it_inline)
cur_multi = get_next(it_multi)
pos = 0
# This will contain tuples with parts of the input and its
# classification
parts = []
while pos < length:
log.debug('-> in: %s', str(cur_inline))
log.debug('-> mu: %s', str(cur_multi))
# selected = (start, end, type)
if cur_inline[0] < cur_multi[0]:
selected = (cur_inline[0], cur_inline[1], MatchType.INLINE)
elif cur_multi[0] < length:
selected = (cur_multi[0], cur_multi[1], MatchType.MULTILINE)
else:
selected = (pos, length, MatchType.TEXT)
log.debug('--> select: %s', str(selected))
# Handle plain text string parts (and unforseen errors...)
if pos < selected[0]:
end = selected[0] if selected[0] != pos else selected[1]
parts.append((real_text[pos:end], MatchType.TEXT))
pos = selected[0]
elif pos > selected[0]:
log.error('Should not happen, position > found match.')
# Cut out and append selected text segment
parts.append((real_text[selected[0]:selected[1]], selected[2]))
pos = selected[1]
# Depending on the match type, we have to forward the iterators.
# Also, forward the other one, if regions overlap or we took over...
if selected[2] == MatchType.INLINE:
if cur_multi[0] < cur_inline[1]:
cur_multi = get_next(it_multi)
cur_inline = get_next(it_inline)
elif selected[2] == MatchType.MULTILINE:
if cur_inline[0] < cur_multi[1]:
cur_inline = get_next(it_inline)
cur_multi = get_next(it_multi)
return parts
def process_text(self, real_text, other_tags, _graphics, iter_,
_additional):
def fix_newline(char, marker_len_no_newline, force=False):
fixed = (marker_len_no_newline, '')
if char == '\n':
fixed = (marker_len_no_newline + 1, '')
elif force:
fixed = (marker_len_no_newline + 1, '\n')
return fixed
buf = self.textview.tv.get_buffer()
# First, try to find inline or multiline code snippets
inline_matches = self.find_inline_matches(real_text)
multiline_matches = self.find_multiline_matches(real_text)
if not inline_matches and not multiline_matches:
log.debug('Stopping early, since there is no code block in it...')
return
iterator = iter_ if iter_ is not None else buf.get_end_iter()
# Create a start marker with left gravity before inserting text.
start_mark = buf.create_mark('SHP_start', iterator, True)
end_mark = buf.create_mark('SHP_end', iterator, False)
insert_newline_for_multiline = self.check_line_break(True)
insert_newline_for_inline = self.check_line_break(False)
split_text = self.merge_match_groups(
real_text, inline_matches, multiline_matches)
buf.begin_user_action()
for num, (text_to_insert, match_type) in enumerate(split_text):
language = None
end_of_message = num == (len(split_text) - 1)
if match_type == MatchType.TEXT:
self.textview.detect_and_print_special_text(
text_to_insert, other_tags, graphics=_graphics,
iter_=iterator, additional_data=_additional)
else:
if match_type == MatchType.MULTILINE:
language_match = re.search(
'\n*```([^\n]*)\n', text_to_insert, re.DOTALL)
language = None if language_match is None \
else language_match.group(1)
language_len = 0 if language is None else len(language)
# We account the language word width for the front marker
front = fix_newline(
text_to_insert[0],
3 + language_len,
insert_newline_for_multiline)
back = fix_newline(
text_to_insert[-1],
3,
insert_newline_for_multiline and not end_of_message)
else:
front = fix_newline(
text_to_insert[0],
1,
insert_newline_for_inline)
back = fix_newline(
text_to_insert[-1],
1,
insert_newline_for_inline and not end_of_message)
marker_widths = (front[0], back[0])
text_to_insert = ''.join([front[1], text_to_insert, back[1]])
# Insertion invalidates iterator, let's use our start mark...
self.insert_and_format_code(buf, text_to_insert, language,
marker_widths, start_mark, end_mark, other_tags)
iterator = buf.get_iter_at_mark(end_mark)
# The current end of the buffer's contents is the start for the
# next iteration
buf.move_mark(start_mark, iterator)
buf.delete_mark(start_mark)
buf.delete_mark(end_mark)
buf.end_user_action()
# We have to make sure this is the last thing we do (i.e. no calls to
# the other textview methods no more from here on), because the
# print_special_text method is resetting the plugin_modified variable...
self.textview.plugin_modified = True
def insert_and_format_code(self, buf, insert_text, language, marker,
start_mark, end_mark, other_tags=None):
start_iter = buf.get_iter_at_mark(start_mark)
if other_tags:
buf.insert_with_tags_by_name(start_iter, insert_text,
*other_tags)
else:
buf.insert(start_iter, insert_text)
tag_start = buf.get_iter_at_mark(start_mark)
tag_end = buf.get_iter_at_mark(end_mark)
s_code = tag_start.copy()
e_code = tag_end.copy()
s_code.forward_chars(marker[0])
e_code.backward_chars(marker[1])
log.debug('full text between tags: %s.', tag_start.get_text(tag_end))
self.format_code(buf, tag_start, s_code, tag_end, e_code, language)
self.textview.plugin_modified = True
# Set general code block format
tag = Gtk.TextTag.new()
if self.config.is_bgcolor_override_enabled():
tag.set_property('background', self.config.get_bgcolor())
tag.set_property('paragraph-background', self.config.get_bgcolor())
tag.set_property('font', self.config.get_font())
buf.get_tag_table().add(tag)
buf.apply_tag(tag, tag_start, tag_end)
def __init__(self, config, textview):
self.last_end_mark = None
self.config = config
self.textview = textview
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