# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2008 Zsolt Foldvari # # 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # # $Id$ "Handling formatted ('rich text') strings" #------------------------------------------------------------------------- # # GRAMPS modules # #------------------------------------------------------------------------- from gen.lib.styledtexttag import StyledTextTag #------------------------------------------------------------------------- # # StyledText class # #------------------------------------------------------------------------- class StyledText(object): """Helper class to enable character based text formatting. StyledText is a wrapper class binding the clear text string and it's formatting tags together. StyledText provides several string methods in order to manipulate formatted strings, such as :meth:`~gen.lib.styledtext.StyledText.join`, :meth:`~gen.lib.styledtext.StyledText.replace`, :meth:`~gen.lib.styledtext.StyledText.split`, and also supports the '+' operation (:meth:`~gen.lib.styledtext.StyledText.__add__`). To get the clear text of the StyledText use the built-in str() function. To get the list of formatting tags use the L{get_tags} method. StyledText supports the I{creation} of formatted texts too. This feature is intended to replace (or extend) the current report interface. To be continued... FIXME :ivar string: (str) The clear text part. :ivar tags: (list of :class:`~gen.lib.styledtexttag.StyledTextTag`) Text tags holding formatting information for the string. :cvar POS_TEXT: Position of *string* attribute in the serialized format of an instance. :cvar POS_TAGS: (int) Position of *tags* attribute in the serialized format of an instance. :attention: The POS_<x> class variables reflect the serialized object, they have to be updated in case the data structure or the L{serialize} method changes! :note: 1. There is no sanity check of tags in :meth:`~gen.lib.styledtext.StyledText.__init__`, because when a StyledText is displayed it is passed to a StyledTextBuffer, which in turn will 'eat' all invalid tags (including out-of-range tags too). 2. After string methods the tags can become fragmented. That means the same tag may appear more than once in the tag list with different ranges. There could be a 'merge_tags' functionality in :meth:`~gen.lib.styledtext.StyledText.__init__`, however StyledTextBuffer will merge them automatically if the text is displayed. """ (POS_TEXT, POS_TAGS) = range(2) def __init__(self, text="", tags=None): """Setup initial instance variable values.""" self._string = text if tags: self._tags = tags else: self._tags = [] # special methods def __str__(self): return self._string.__str__() def __repr__(self): return self._string.__repr__() def __add__(self, other): """Implement '+' operation on the class. :param other: string to concatenate to self :type other: basestring or StyledText :returns: concatenated strings :returnstype: StyledText """ offset = len(self._string) if isinstance(other, StyledText): # need to join strings and merge tags for tag in other._tags: tag.ranges = [(start + offset, end + offset) for (start, end) in tag.ranges] return self.__class__("".join([self._string, other._string]), self._tags + other._tags) elif isinstance(other, basestring): # tags remain the same, only text becomes longer return self.__class__("".join([self._string, other]), self._tags) else: return self.__class__("".join([self._string, str(other)]), self._tags) def __eq__(self, other): return self._string == other._string and self._tags == other._tags def __ne__(self, other): return self._string != other._string or self._tags != other._tags # private methods # string methods in alphabetical order: def join(self, seq): """Emulate __builtin__.str.join method. :param seq: list of strings to join :type seq: basestring or StyledText :returns: joined strings :returnstype: StyledText """ new_string = self._string.join([str(string) for string in seq]) offset = 0 new_tags = [] self_len = len(self._string) for text in seq: if isinstance(text, StyledText): for tag in text._tags: tag.ranges = [(start + offset, end + offset) for (start, end) in tag.ranges] new_tags += [tag] offset = offset + len(str(text)) + self_len return self.__class__(new_string, new_tags) def replace(self, old, new, count=-1): """Emulate __builtin__.str.replace method. :param old: substring to be replaced :type old: basestring or StyledText :param new: substring to replace by :type new: StyledText :param count: if given, only the first count occurrences are replaced :type count: int :returns: copy of the string with replaced substring(s) :returnstype: StyledText @attention: by the correct implementation parameter I{new} should be StyledText or basestring, however only StyledText is currently supported. """ # quick and dirty solution: works only if new.__class__ == StyledText return new.join(self.split(old, count)) def split(self, sep=None, maxsplit=-1): """Emulate __builtin__.str.split method. :param sep: the delimiter string :type seq: basestring or StyledText :param maxsplit: if given, at most maxsplit splits are done :type maxsplit: int :returns: a list of the words in the string :returnstype: list of StyledText """ # split the clear text first if sep is not None: sep = str(sep) string_list = self._string.split(sep, maxsplit) # then split the tags too end_string = 0 styledtext_list = [] for string in string_list: start_string = self._string.find(string, end_string) end_string = start_string + len(string) new_tags = [] for tag in self._tags: new_tag = StyledTextTag(int(tag.name), tag.value) for (start_tag, end_tag) in tag.ranges: start = max(start_string, start_tag) end = min(end_string, end_tag) if start < end: new_tag.ranges.append((start - start_string, end - start_string)) if new_tag.ranges: new_tags.append(new_tag) styledtext_list.append(self.__class__(string, new_tags)) return styledtext_list # other public methods def serialize(self): """Convert the object to a serialized tuple of data. :returns: Serialized format of the instance. :returnstype: tuple """ if self._tags: the_tags = [tag.serialize() for tag in self._tags] else: the_tags = [] return (self._string, the_tags) def unserialize(self, data): """Convert a serialized tuple of data to an object. :param data: Serialized format of instance variables. :type data: tuple """ (self._string, the_tags) = data # I really wonder why this doesn't work... it does for all other types #self._tags = [StyledTextTag().unserialize(tag) for tag in the_tags] for tag in the_tags: stt = StyledTextTag() stt.unserialize(tag) self._tags.append(stt) def get_tags(self): """Return the list of formatting tags. :returns: The formatting tags applied on the text. :returnstype: list of 0 or more :class:`~gen.lib.styledtexttag.StyledTextTag` instances. """ return self._tags if __name__ == '__main__': from styledtexttagtype import StyledTextTagType T1 = StyledTextTag(StyledTextTagType(1), 'v1', [(0, 2), (2, 4), (4, 6)]) T2 = StyledTextTag(StyledTextTagType(2), 'v2', [(1, 3), (3, 5), (0, 7)]) A = StyledText('123X456', [T1]) B = StyledText("abcXdef", [T2]) C = StyledText('\n') S = 'cleartext' C = C.join([A, S, B]) L = C.split() C = C.replace('X', StyledText('_')) A = A + B print A