gramps/src/plugins/docgen/RTFDoc.py

529 lines
20 KiB
Python

#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2000-2006 Donald N. Allingham
# Copyright (C) 2007-2009 Brian G. Matherly
# Copyright (C) 2009 Gary Burton
# Copyright (C) 2010 Peter Landgren
#
# 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:RTFDoc.py 9912 2008-01-22 09:17:46Z acraphae $
#------------------------------------------------------------------------
#
# python modules
#
#------------------------------------------------------------------------
from gen.ggettext import gettext as _
#------------------------------------------------------------------------
#
# Load the base BaseDoc class
#
#------------------------------------------------------------------------
from gen.plug.docgen import (BaseDoc, TextDoc, FONT_SERIF, PARA_ALIGN_RIGHT,
PARA_ALIGN_CENTER, PARA_ALIGN_JUSTIFY)
import ImgManip
import Errors
import Utils
#------------------------------------------------------------------------
#
# RTF uses a unit called "twips" for its measurements. According to the
# RTF specification, 1 point is 20 twips. This routines converts
# centimeters to twips
#
# 2.54 cm/inch 72pts/inch, 20twips/pt
#
#------------------------------------------------------------------------
def twips(cm):
return int(((cm/2.54)*72)+0.5)*20
#------------------------------------------------------------------------
#
# Rich Text Format Document interface. The current interface does not
# use style sheets. Instead it writes raw formatting.
#
#------------------------------------------------------------------------
class RTFDoc(BaseDoc,TextDoc):
#--------------------------------------------------------------------
#
# Opens the file, and writes the header. Builds the color and font
# tables. Fonts are chosen using the MS TrueType fonts, since it
# is assumed that if you are generating RTF, you are probably
# targeting Word. This generator assumes a Western Europe character
# set.
#
#--------------------------------------------------------------------
def open(self,filename):
if filename[-4:] != ".rtf":
self.filename = filename + ".rtf"
else:
self.filename = filename
try:
self.f = open(self.filename,"w")
except IOError,msg:
errmsg = "%s\n%s" % (_("Could not create %s") % self.filename, msg)
raise Errors.ReportError(errmsg)
except:
raise Errors.ReportError(_("Could not create %s") % self.filename)
style_sheet = self.get_style_sheet()
self.f.write(
'{\\rtf1\\ansi\\ansicpg1252\\deff0\n'
'{\\fonttbl\n'
'{\\f0\\froman\\fcharset0\\fprq0 Times New Roman;}\n'
'{\\f1\\fswiss\\fcharset0\\fprq0 Arial;}}\n'
'{\colortbl\n'
)
self.color_map = {}
index = 1
self.color_map[(0,0,0)] = 0
self.f.write('\\red0\\green0\\blue0;')
for style_name in style_sheet.get_paragraph_style_names():
style = style_sheet.get_paragraph_style(style_name)
fgcolor = style.get_font().get_color()
bgcolor = style.get_background_color()
if fgcolor not in self.color_map:
self.color_map[fgcolor] = index
self.f.write('\\red%d\\green%d\\blue%d;' % fgcolor)
index += 1
if bgcolor not in self.color_map:
self.f.write('\\red%d\\green%d\\blue%d;' % bgcolor)
self.color_map[bgcolor] = index
index += 1
self.f.write('}\n')
self.f.write(
'\\kerning0\\cf0\\viewkind1' +
'\\paperw%d' % twips(self.paper.get_size().get_width()) +
'\\paperh%d' % twips(self.paper.get_size().get_height()) +
'\\margl%d' % twips(self.paper.get_left_margin()) +
'\\margr%d' % twips(self.paper.get_right_margin()) +
'\\margt%d' % twips(self.paper.get_top_margin()) +
'\\margb%d' % twips(self.paper.get_bottom_margin()) +
'\\widowctl\n'
)
self.in_table = 0
self.text = ""
#--------------------------------------------------------------------
#
# Write the closing brace, and close the file.
#
#--------------------------------------------------------------------
def close(self):
self.f.write('}\n')
self.f.close()
#--------------------------------------------------------------------
#
# Force a section page break
#
#--------------------------------------------------------------------
def end_page(self):
self.f.write('\\sbkpage\n')
#--------------------------------------------------------------------
#
# Starts a paragraph. Instead of using a style sheet, generate the
# the style for each paragraph on the fly. Not the ideal, but it
# does work.
#
#--------------------------------------------------------------------
def start_paragraph(self,style_name,leader=None):
self.opened = 0
style_sheet = self.get_style_sheet()
p = style_sheet.get_paragraph_style(style_name)
# build font information
f = p.get_font()
size = f.get_size()*2
bgindex = self.color_map[p.get_background_color()]
fgindex = self.color_map[f.get_color()]
if f.get_type_face() == FONT_SERIF:
self.font_type = '\\f0'
else:
self.font_type = '\\f1'
self.font_type += '\\fs%d\\cf%d\\cb%d' % (size,fgindex,bgindex)
if f.get_bold():
self.font_type += "\\b"
if f.get_underline():
self.font_type += "\\ul"
if f.get_italic():
self.font_type += "\\i"
# build paragraph information
if not self.in_table:
self.f.write('\\pard')
if p.get_alignment() == PARA_ALIGN_RIGHT:
self.f.write('\\qr')
elif p.get_alignment() == PARA_ALIGN_CENTER:
self.f.write('\\qc')
self.f.write(
'\\ri%d' % twips(p.get_right_margin()) +
'\\li%d' % twips(p.get_left_margin()) +
'\\fi%d' % twips(p.get_first_indent())
)
if p.get_alignment() == PARA_ALIGN_JUSTIFY:
self.f.write('\\qj')
if p.get_padding():
self.f.write('\\sa%d' % twips(p.get_padding()/2.0))
if p.get_top_border():
self.f.write('\\brdrt\\brdrs')
if p.get_bottom_border():
self.f.write('\\brdrb\\brdrs')
if p.get_left_border():
self.f.write('\\brdrl\\brdrs')
if p.get_right_border():
self.f.write('\\brdrr\\brdrs')
if p.get_first_indent():
self.f.write('\\fi%d' % twips(p.get_first_indent()))
if p.get_left_margin():
self.f.write('\\li%d' % twips(p.get_left_margin()))
if p.get_right_margin():
self.f.write('\\ri%d' % twips(p.get_right_margin()))
if leader:
self.opened = 1
self.f.write('\\tx%d' % twips(p.get_left_margin()))
self.f.write('{%s ' % self.font_type)
self.write_text(leader)
self.f.write(self.text)
self.text = ""
self.f.write('\\tab}')
self.opened = 0
#--------------------------------------------------------------------
#
# Ends a paragraph. Care has to be taken to make sure that the
# braces are closed properly. The self.opened flag is used to indicate
# if braces are currently open. If the last write was the end of
# a bold-faced phrase, braces may already be closed.
#
#--------------------------------------------------------------------
def end_paragraph(self):
# FIXME: I don't understand why no end paragraph marker is output when
# we are inside a table. Since at least version 3.2.2, this seems to mean that
# there is no new paragraph after the first line of a table entry.
# For example in the birth cell, the first paragraph should be the
# description (21 Jan 1900 in London); if there is a note following this,
# there is no newline between the description and the note.
if not self.in_table:
self.f.write(self.text)
if self.opened:
self.f.write('}')
self.opened = 0
self.f.write('\n\\par')
self.text = ""
else:
if self.text == "":
self.write_text(" ")
self.text += '}'
#--------------------------------------------------------------------
#
# Inserts a manual page break
#
#--------------------------------------------------------------------
def page_break(self):
self.f.write('\\page\n')
#--------------------------------------------------------------------
#
# Starts boldfaced text, enclosed the braces
#
#--------------------------------------------------------------------
def start_bold(self):
if self.opened:
self.f.write('}')
self.f.write('{%s\\b ' % self.font_type)
self.opened = 1
#--------------------------------------------------------------------
#
# Ends boldfaced text, closing the braces
#
#--------------------------------------------------------------------
def end_bold(self):
self.opened = 0
self.f.write(self.text)
self.text = ""
self.f.write('}')
def start_superscript(self):
self.text += '{{\*\updnprop5801}\up10 '
def end_superscript(self):
self.text += '}'
#--------------------------------------------------------------------
#
# Start a table. Grab the table style, and store it. Keep a flag to
# indicate that we are in a table. This helps us deal with paragraphs
# internal to a table. RTF does not require anything to start a
# table, since a table is treated as a bunch of rows.
#
#--------------------------------------------------------------------
def start_table(self, name,style_name):
self.in_table = 1
styles = self.get_style_sheet()
self.tbl_style = styles.get_table_style(style_name)
#--------------------------------------------------------------------
#
# End a table. Turn off the table flag
#
#--------------------------------------------------------------------
def end_table(self):
self.in_table = 0
#--------------------------------------------------------------------
#
# Start a row. RTF uses the \trowd to start a row. RTF also specifies
# all the cell data after it has specified the cell definitions for
# the row. Therefore it is necessary to keep a list of cell contents
# that is to be written after all the cells are defined.
#
#--------------------------------------------------------------------
def start_row(self):
self.contents = []
self.cell = 0
self.prev = 0
self.cell_percent = 0.0
self.f.write('\\trowd\n')
#--------------------------------------------------------------------
#
# End a row. Write the cell contents, separated by the \cell marker,
# then terminate the row
#
#--------------------------------------------------------------------
def end_row(self):
self.f.write('{')
for line in self.contents:
self.f.write(line)
self.f.write('\\cell ')
self.f.write('}\\pard\\intbl\\row\n')
#--------------------------------------------------------------------
#
# Start a cell. Dump out the cell specifics, such as borders. Cell
# widths are kind of interesting. RTF doesn't specify how wide a cell
# is, but rather where it's right edge is in relationship to the
# left margin. This means that each cell is the cumlative of the
# previous cells plus its own width.
#
#--------------------------------------------------------------------
def start_cell(self,style_name,span=1):
styles = self.get_style_sheet()
s = styles.get_cell_style(style_name)
self.remain = span -1
if s.get_top_border():
self.f.write('\\clbrdrt\\brdrs\\brdrw10\n')
if s.get_bottom_border():
self.f.write('\\clbrdrb\\brdrs\\brdrw10\n')
if s.get_left_border():
self.f.write('\\clbrdrl\\brdrs\\brdrw10\n')
if s.get_right_border():
self.f.write('\\clbrdrr\\brdrs\\brdrw10\n')
table_width = float(self.paper.get_usable_width())
for cell in range(self.cell,self.cell+span):
self.cell_percent += float(self.tbl_style.get_column_width(cell))
cell_width = twips((table_width * self.cell_percent)/100.0)
self.f.write('\\cellx%d\\pard\intbl\n' % cell_width)
self.cell += 1
#--------------------------------------------------------------------
#
# End a cell. Save the current text in the content lists, since data
# must be saved until all cells are defined.
#
#--------------------------------------------------------------------
def end_cell(self):
self.contents.append(self.text)
self.text = ""
#--------------------------------------------------------------------
#
# Add a photo. Embed the photo in the document. Use the Python
# imaging library to load and scale the photo. The image is converted
# to JPEG, since it is smaller, and supported by RTF. The data is
# dumped as a string of HEX numbers.
#
#--------------------------------------------------------------------
def add_media_object(self, name, pos, x_cm, y_cm, alt=''):
nx, ny = ImgManip.image_size(name)
if (nx, ny) == (0,0):
return
if (nx, ny) == (0,0):
return
ratio = float(x_cm)*float(ny)/(float(y_cm)*float(nx))
if ratio < 1:
act_width = x_cm
act_height = y_cm*ratio
else:
act_height = y_cm
act_width = x_cm/ratio
buf = ImgManip.resize_to_jpeg_buffer(name, int(act_width*40),
int(act_height*40))
act_width = twips(act_width)
act_height = twips(act_height)
self.f.write('{\*\shppict{\\pict\\jpegblip')
self.f.write('\\picwgoal%d\\pichgoal%d\n' % (act_width,act_height))
index = 1
for i in buf:
self.f.write('%02x' % ord(i))
if index%32==0:
self.f.write('\n')
index = index+1
self.f.write('}}\\par\n')
def write_styled_note(self, styledtext, format, style_name,
contains_html=False):
"""
Convenience function to write a styledtext to the RTF doc.
styledtext : assumed a StyledText object to write
format : = 0 : Flowed, = 1 : Preformatted
style_name : name of the style to use for default presentation
contains_html: bool, the backend should not check if html is present.
If contains_html=True, then the textdoc is free to handle that in
some way. Eg, a textdoc could remove all tags, or could make sure
a link is clickable. RTFDoc prints the html without handling it
"""
text = str(styledtext)
self.start_paragraph(style_name)
linenb = 1
for line in text.split('\n'):
[line, sigcount] = process_spaces(line, format)
if sigcount == 0:
if self.in_table:
# # Add LF when in table as in indiv_complete report
self.write_text('\n')
self.end_paragraph()
self.start_paragraph(style_name)
linenb = 1
else:
if ( linenb > 1 ):
self.write_text('\\line ')
self.write_text(line)
linenb += 1
# FIXME: I don't understand why these newlines are necessary.
# It may be related to the behaviour of end_paragraph inside tables, and
# write_text converting \n to end paragraph.
# This code prevents the whole document going wrong, but seems to produce an extra
# paragraph mark at the end of each table cell.
if self.in_table:
# # Add LF when in table as in indiv_complete report
self.write_text('\n')
self.end_paragraph()
def write_endnotes_ref(self,text,style_name):
"""
Overwrite base method for lines of endnotes references
"""
for line in text.split('\n'):
self.start_paragraph(style_name)
self.write_text(line)
if self.in_table:
# Add LF when in table as in indiv_complete report
self.write_text('\n')
self.end_paragraph()
# Write an empty para after all ref lines for each source
self.start_paragraph(style_name)
self.end_paragraph()
#--------------------------------------------------------------------
#
# Writes text. If braces are not currently open, open them. Loop
# character by character (terribly inefficient, but it works). If a
# character is 8 bit (>127), convert it to a hex representation in
# the form of \`XX. Make sure to escape braces.
#
#--------------------------------------------------------------------
def write_text(self,text,mark=None):
# Convert to unicode, just in case it's not. Fix of bug 2449.
text = unicode(text)
text = text.replace('\n','\n\\par ')
if self.opened == 0:
self.opened = 1
self.text += '{%s ' % self.font_type
for i in text:
if ord(i) > 127:
if ord(i) < 256:
self.text += '\\\'%2x' % ord(i)
else:
# If (uni)code with more than 8 bits:
# RTF req valus in decimal, not hex.
self.text += '\\uc1\\u%d\\uc0' % ord(i)
elif i == '{' or i == '}' :
self.text += '\\%s' % i
else:
self.text += i
def process_spaces(line, format):
"""
Function to process spaces in text lines for flowed and pre-formatted notes.
line : text to process
format : = 0 : Flowed, = 1 : Preformatted
If the text is flowed (format==0), then leading spaces
are removed, and multiple spaces are reduced to one.
If the text is pre-formatted (format==1). then all spaces are preserved
Note that xml is just treated like any other text,
because it will be from the original note, and it is just printed, not interpreted.
Returns the processed text, and the number of significant (i.e. non-white-space) chars.
"""
txt = ""
xml = False
space = False
sigcount = 0
# we loop through every character, which is very inefficient, but an attempt to use
# a regex replace didn't always work.
for char in line:
if char == " " or char == "\t":
if format == 1:
txt += char
elif format == 0 and sigcount == 0:
pass
elif format == 0 and space == False:
space = True
txt += char
elif format == 0 and space == True:
pass
else:
sigcount += 1
space = False
txt += char
return [txt, sigcount]