/usr/share/cherrytree/modules/lists.py is in cherrytree 0.37.6-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#
# lists.py
#
# Copyright 2009-2016 Giuseppe Penone <giuspen@gmail.com>
#
# 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 3 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.
import gtk
import re
import cons, support
class ListsHandler:
"""Handler of Bulleted and Numbered Lists"""
def __init__(self, dad):
"""Lists Handler boot"""
self.dad = dad
def get_list_type(self, list_num_id):
"""Return List Type from Num Id"""
if list_num_id > 0:
return "Numbered"
if list_num_id < 0:
return "Bulleted"
return "Todo"
def list_handler(self, target_list_num_id, text_buffer=None):
"""Unified Handler of Lists"""
if not text_buffer: text_buffer = self.dad.curr_buffer
if text_buffer.get_has_selection():
iter_start, sel_end = text_buffer.get_selection_bounds()
end_offset = sel_end.get_offset() - 2
else:
end_offset = 0
iter_start = text_buffer.get_iter_at_mark(text_buffer.get_insert())
new_par_offset = -1
leading_num_count = []
while new_par_offset < end_offset:
#print new_par_offset, end_offset
iter_start, iter_end = self.get_paragraph_iters(text_buffer=text_buffer, force_iter=iter_start)
if not iter_start:
# empty line
if not leading_num_count:
# this is the first iteration
iter_start = text_buffer.get_iter_at_mark(text_buffer.get_insert())
if target_list_num_id == 0:
text_buffer.insert(iter_start, cons.CHAR_LISTTODO + cons.CHAR_SPACE)
elif target_list_num_id < 0:
text_buffer.insert(iter_start, self.dad.chars_listbul[0] + cons.CHAR_SPACE)
else:
text_buffer.insert(iter_start, "1. ")
break
list_info = self.get_paragraph_list_info(iter_start)
#print list_info
if list_info and iter_start.get_offset() != list_info["startoffs"]:
new_par_offset = iter_end.get_offset()
else:
iter_start, iter_end, chars_rm = self.list_check_n_remove_old_list_type_leading(iter_start, iter_end, text_buffer)
end_offset -= chars_rm
if not list_info or self.get_list_type(list_info["num"]) != self.get_list_type(target_list_num_id):
# the target list type differs from this paragraph list type
while support.get_next_chars_from_iter_are(iter_start, [3*cons.CHAR_SPACE]):
iter_start.forward_chars(3)
if target_list_num_id == 0:
new_par_offset = iter_end.get_offset() + 2
end_offset += 2
text_buffer.insert(iter_start, cons.CHAR_LISTTODO + cons.CHAR_SPACE)
elif target_list_num_id < 0:
new_par_offset = iter_end.get_offset() + 2
end_offset += 2
if not list_info: bull_idx = 0
else: bull_idx = list_info["level"] % len(self.dad.chars_listbul)
text_buffer.insert(iter_start, self.dad.chars_listbul[bull_idx] + cons.CHAR_SPACE)
else:
if not list_info:
index = 0
if not leading_num_count:
leading_num_count = [[0, 1]]
else:
leading_num_count = [[0, leading_num_count[0][1]+1]]
else:
level = list_info["level"]
index = level % cons.NUM_CHARS_LISTNUM
if not leading_num_count:
leading_num_count = [[level, 1]]
else:
while True:
if level == leading_num_count[-1][0]:
leading_num_count[-1][1] += 1
break
if level > leading_num_count[-1][0]:
leading_num_count.append([level, 1])
break
if len(leading_num_count) == 1:
leading_num_count = [[level, 1]]
break
del leading_num_count[-1]
leading_str = str(leading_num_count[-1][1]) + cons.CHARS_LISTNUM[index] + cons.CHAR_SPACE
new_par_offset = iter_end.get_offset() + len(leading_str)
end_offset += len(leading_str)
text_buffer.insert(iter_start, leading_str)
else: new_par_offset = iter_end.get_offset()
iter_start = text_buffer.get_iter_at_offset(new_par_offset+1)
if not iter_start: break
def list_check_n_remove_old_list_type_leading(self, iter_start, iter_end, text_buffer):
"""Clean List Start Characters"""
start_offset = iter_start.get_offset()
end_offset = iter_end.get_offset()
list_info = self.get_paragraph_list_info(iter_start)
if list_info:
leading_chars_num = self.get_leading_chars_num(list_info["num"])
start_offset += 3*list_info["level"]
iter_start = text_buffer.get_iter_at_offset(start_offset)
iter_end = iter_start.copy()
iter_end.forward_chars(leading_chars_num)
text_buffer.delete(iter_start, iter_end)
end_offset -= leading_chars_num
else:
leading_chars_num = 0
iter_start = text_buffer.get_iter_at_offset(start_offset)
iter_end = text_buffer.get_iter_at_offset(end_offset)
return iter_start, iter_end, leading_chars_num
def get_leading_chars_num(self, list_info_num):
"""Get Number of Leading Chars from the List Num"""
if list_info_num > 0: return len("%s. " % list_info_num)
return 2
def list_get_number_n_level(self, iter_first_paragraph):
"""Number < 0 if bulleted list, > 0 if numbered list, 0 if TODO list, None if not a list"""
iter_start = iter_first_paragraph.copy()
level = 0
while iter_start:
char = iter_start.get_char()
if char in self.dad.chars_listbul:
if iter_start.forward_char() and iter_start.get_char() == cons.CHAR_SPACE:
num = (self.dad.chars_listbul.index(char) + 1)*(-1)
return {"num":num, "level":level, "aux":None}
break
if char in [cons.CHAR_LISTTODO, cons.CHAR_LISTDONEOK, cons.CHAR_LISTDONEFAIL]:
if iter_start.forward_char() and iter_start.get_char() == cons.CHAR_SPACE:
return {"num":0, "level":level, "aux":None}
break
if char == cons.CHAR_SPACE:
if support.get_next_chars_from_iter_are(iter_start, [3*cons.CHAR_SPACE]):
iter_start.forward_chars(3)
level += 1
else:
break
else:
match = re.match('[1-9]', char)
if not match:
break
number_str = char
while iter_start.forward_char() and re.match('[0-9]', iter_start.get_char()):
number_str += iter_start.get_char()
char = iter_start.get_char()
if char in cons.CHARS_LISTNUM and iter_start.forward_char() and iter_start.get_char() == cons.CHAR_SPACE:
num = int(number_str)
aux = cons.CHARS_LISTNUM.index(char)
return {"num":num, "level":level, "aux":aux}
break
return {"num":None, "level":level, "aux":None}
def get_multiline_list_element_end_offset(self, curr_iter, list_info):
"""Get the list end offset"""
iter_start = curr_iter.copy()
if iter_start.get_char() == cons.CHAR_NEWLINE:
if not iter_start.forward_char():
# the end of buffer is also the list end
return iter_start.get_offset()
else:
if not self.char_iter_forward_to_newline(iter_start) or not iter_start.forward_char():
# the end of buffer is also the list end
return iter_start.get_offset()
number_n_level = self.list_get_number_n_level(iter_start)
#print number_n_level
if number_n_level["num"] == None and number_n_level["level"] == list_info["level"]+1:
# multiline indentation
return self.get_multiline_list_element_end_offset(iter_start, list_info)
return iter_start.get_offset()-1
def get_prev_list_info_on_level(self, iter_start, level):
"""Given a level check for previous list number on the level or None"""
ret_val = None
while iter_start:
if not self.char_iter_backward_to_newline(iter_start):
break
list_info = self.get_paragraph_list_info(iter_start)
if not list_info:
break
if list_info["level"] == level:
ret_val = list_info
break
return ret_val
def get_next_list_info_on_level(self, iter_start, level):
"""Given a level check for next list number on the level or None"""
ret_val = None
while iter_start:
if not self.char_iter_forward_to_newline(iter_start):
break
list_info = self.get_paragraph_list_info(iter_start)
if not list_info:
break
if list_info["level"] == level:
ret_val = list_info
break
return ret_val
def get_paragraph_list_info(self, iter_start_orig):
"""Returns a dictionary indicating List Element Number, List Level and List Element Start Offset"""
buffer_start = False
iter_start = iter_start_orig.copy()
# let's search for the paragraph start
if iter_start.get_char() == cons.CHAR_NEWLINE:
if not iter_start.backward_char(): buffer_start = True # if we are exactly on the paragraph end
if not buffer_start:
while iter_start:
if iter_start.get_char() == cons.CHAR_NEWLINE: break # we got the previous paragraph start
elif not iter_start.backward_char():
buffer_start = True
break # we reached the buffer start
if not buffer_start: iter_start.forward_char()
# get the number of the paragraph starting with iter_start
number_n_level = self.list_get_number_n_level(iter_start)
curr_level = number_n_level["level"]
if number_n_level["num"] != None:
return {"num":number_n_level["num"],
"level":curr_level,
"aux":number_n_level["aux"],
"startoffs":iter_start.get_offset()}
#print number_n_level
if not buffer_start and curr_level > 0:
# may be a list paragraph but after a shift+return
iter_start.backward_char()
list_info = self.get_paragraph_list_info(iter_start)
#print list_info
if list_info:
if (list_info["num"] != None and list_info["level"] == (curr_level-1))\
or (list_info["num"] == None and list_info["level"] == curr_level):
return list_info
return None # this paragraph is not a list
def get_paragraph_iters(self, text_buffer=None, force_iter=None):
"""Generates and Returns two iters indicating the paragraph bounds"""
if not text_buffer: text_buffer = self.dad.curr_buffer
if not force_iter and text_buffer.get_has_selection():
iter_start, iter_end = text_buffer.get_selection_bounds() # there's a selection
else:
# There's not a selection/iter forced
if not force_iter: iter_start = text_buffer.get_iter_at_mark(text_buffer.get_insert())
else: iter_start = force_iter.copy()
iter_end = iter_start.copy()
if iter_start.get_char() == cons.CHAR_NEWLINE:
# we're upon a row end
if not iter_start.backward_char(): return (None, None)
if iter_start.get_char() == cons.CHAR_NEWLINE: return (None, None)
while iter_end != None:
char = iter_end.get_char()
if char == cons.CHAR_NEWLINE: break # we got it
elif not iter_end.forward_char(): break # we reached the buffer end
while iter_start != None:
char = iter_start.get_char()
if char == cons.CHAR_NEWLINE: # we got it
iter_start.forward_char() # step forward to the beginning of the new line
break
elif not iter_start.backward_char(): break # we reached the buffer start
return (iter_start, iter_end)
def is_list_todo_beginning(self, square_bracket_open_iter):
"""Check if ☐ or ☑ or ☒"""
if square_bracket_open_iter.get_char() in [cons.CHAR_LISTTODO, cons.CHAR_LISTDONEOK, cons.CHAR_LISTDONEFAIL]:
list_info = self.get_paragraph_list_info(square_bracket_open_iter)
if list_info and list_info["num"] == 0:
return True
return False
def todo_list_rotate_status(self, todo_char_iter, text_buffer):
"""Rotate status between ☐ and ☑ and ☒"""
iter_offset = todo_char_iter.get_offset()
if todo_char_iter.get_char() == cons.CHAR_LISTTODO:
text_buffer.delete(todo_char_iter, text_buffer.get_iter_at_offset(iter_offset+1))
text_buffer.insert(text_buffer.get_iter_at_offset(iter_offset), cons.CHAR_LISTDONEOK)
elif todo_char_iter.get_char() == cons.CHAR_LISTDONEOK:
text_buffer.delete(todo_char_iter, text_buffer.get_iter_at_offset(iter_offset+1))
text_buffer.insert(text_buffer.get_iter_at_offset(iter_offset), cons.CHAR_LISTDONEFAIL)
elif todo_char_iter.get_char() == cons.CHAR_LISTDONEFAIL:
text_buffer.delete(todo_char_iter, text_buffer.get_iter_at_offset(iter_offset+1))
text_buffer.insert(text_buffer.get_iter_at_offset(iter_offset), cons.CHAR_LISTTODO)
def char_iter_forward_to_newline(self, char_iter):
"""Forwards char iter to line end"""
if not char_iter.forward_char(): return False
while char_iter.get_char() != cons.CHAR_NEWLINE:
if not char_iter.forward_char(): return False
return True
def char_iter_backward_to_newline(self, char_iter):
"""Backwards char iter to line start"""
if not char_iter.backward_char(): return False
while char_iter.get_char() != cons.CHAR_NEWLINE:
if not char_iter.backward_char(): return False
return True
def todo_lists_old_to_new_conversion(self, text_buffer):
"""Conversion of todo lists from old to new type for a node"""
curr_iter = text_buffer.get_start_iter()
keep_cleaning = False
first_line = True
while curr_iter:
fw_needed = True
if first_line or curr_iter.get_char() == cons.CHAR_NEWLINE and curr_iter.forward_char():
first_line = False
if keep_cleaning:
iter_bis = curr_iter.copy()
if iter_bis.get_char() == cons.CHAR_SPACE and iter_bis.forward_char()\
and iter_bis.get_char() == cons.CHAR_SPACE and iter_bis.forward_char()\
and iter_bis.get_char() == cons.CHAR_SPACE:
no_stop = self.char_iter_forward_to_newline(curr_iter)
text_buffer.remove_all_tags(iter_bis, curr_iter)
if no_stop: continue
else: break
else: keep_cleaning = False
if curr_iter.get_char() == cons.CHAR_SQ_BR_OPEN and curr_iter.forward_char()\
and curr_iter.get_char() in [cons.CHAR_SPACE, "X"]:
middle_char = curr_iter.get_char()
if curr_iter.forward_char() and curr_iter.get_char() == cons.CHAR_SQ_BR_CLOSE\
and curr_iter.forward_char():
first_iter = curr_iter.copy()
first_iter.backward_chars(3)
iter_offset = first_iter.get_offset()
text_buffer.delete(first_iter, curr_iter)
todo_char = cons.CHAR_LISTTODO if middle_char == cons.CHAR_SPACE else cons.CHAR_LISTDONEOK
text_buffer.insert(text_buffer.get_iter_at_offset(iter_offset), todo_char)
curr_iter = text_buffer.get_iter_at_offset(iter_offset)
if middle_char != cons.CHAR_SPACE:
first_iter = curr_iter.copy()
no_stop = self.char_iter_forward_to_newline(curr_iter)
#print "%s(%s),%s(%s)" % (first_iter.get_char(), first_iter.get_offset(), curr_iter.get_char(), curr_iter.get_offset())
text_buffer.remove_all_tags(first_iter, curr_iter)
keep_cleaning = True
if no_stop: continue
else: break
else: fw_needed = False
if fw_needed and not self.char_iter_forward_to_newline(curr_iter): break
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