* src/DrawDoc.py: support for drawing wedges and rotated text

* src/docgen/PSDrawDoc.py: postscipt support for wedges and rotated text
* src/docgen/PdfDrawDoc.py: PDF support for wedges and rotated text
* src/docgen/SvgDrawDoc.py: SVG support for wedges and rotated text
* src/docgen/OpenDrawDoc.py: OpenOffice support for wedges and rotated text
* src/plugins/FanChart.py: Fan chart report


* src/GenericFilter.py: rewrote IsAncestorOf and IsDescendantOf rules
to be more efficient and to properly handle loop detection.
* src/RelLib.py: Added the getValidDeath and getValidBirth methods to
the Person class
* src/plugins/WebPage.py: Handle filter errors
* src/docgen/OpenOfficeDoc.py: pass non-unicode names to zipfile


svn: r1716
This commit is contained in:
Don Allingham 2003-06-13 04:00:24 +00:00
parent 597b4af2bc
commit cec9010812
6 changed files with 495 additions and 79 deletions

View File

@ -18,6 +18,8 @@
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
from math import cos,sin,pi
#------------------------------------------------------------------------
#
# gramps modules
@ -182,11 +184,62 @@ class DrawDoc:
def center_text(self,style,text,x1,y1):
pass
def rotate_text(self,style,text,x,y,angle):
pass
def draw_line(self,style,x1,y1,x2,y2):
pass
def draw_wedge(self, style, centerx, centery, radius, start_angle, end_angle):
pass
def draw_wedge(self, style, centerx, centery, radius, start_angle,
end_angle, short_radius=0):
while end_angle < start_angle:
end_angle += 360
p = []
degreestoradians = pi/180.0
radiansdelta = degreestoradians/2
sangle = start_angle*degreestoradians
eangle = end_angle*degreestoradians
while eangle<sangle:
eangle = eangle+2*pi
angle = sangle
if short_radius == 0:
p.append((centerx,centery))
else:
origx = (centerx + cos(angle)*short_radius)
origy = (centery + sin(angle)*short_radius)
p.append((origx, origy))
while angle<eangle:
x = centerx + cos(angle)*radius
y = centery + sin(angle)*radius
p.append((x,y))
angle = angle+radiansdelta
x = centerx + cos(eangle)*radius
y = centery + sin(eangle)*radius
p.append((x,y))
if short_radius:
x = centerx + cos(eangle)*short_radius
y = centery + sin(eangle)*short_radius
p.append((x,y))
angle = eangle
while angle>=sangle:
x = centerx + cos(angle)*short_radius
y = centery + sin(angle)*short_radius
p.append((x,y))
angle = angle-radiansdelta
self.draw_path(style,p)
delta = (eangle - sangle)/2.0
rad = short_radius + (radius-short_radius)/2.0
return ( (centerx + cos(sangle+delta) * rad),
(centery + sin(sangle+delta) * rad))
def start_path(self,style,x,y):
pass

View File

@ -27,6 +27,7 @@ import os
import tempfile
import string
import zipfile
from math import sin, cos, pi, fabs
#-------------------------------------------------------------------------
#
@ -438,6 +439,35 @@ class OpenDrawDoc(DrawDoc.DrawDoc):
def end_page(self):
self.f.write('</draw:page>\n')
def rotate_text(self,style,text,x,y,angle):
stype = self.draw_styles[style]
pname = stype.get_paragraph_style()
p = self.style_list[pname]
font = p.get_font()
size = font.get_size()
height = size*(len(text))
width = 0
for line in text:
width = max(width,FontScale.string_width(font,line))
wcm = (width/72.0)*2.54
hcm = (height/72.0)*2.54
rangle = -((pi/180.0) * angle)
self.f.write('<draw:text-box draw:style-name="%s" ' % style)
self.f.write('draw:layer="layout" svg:width="%.3fcm" ' % wcm)
self.f.write('svg:height="%.3fpt" ' % hcm)
self.f.write('draw:transform="rotate (%.8f) ' % rangle)
xloc = x-((wcm/2.0)*cos(-rangle)) + self.lmargin
yloc = y-((hcm)*sin(-rangle)) + self.tmargin
self.f.write('translate (%.3fcm %.3fcm)"' % (xloc,yloc))
self.f.write('>')
self.f.write('<text:p><text:span text:style-name="T%s">' % pname)
self.write_text(string.join(text,'\n'))
self.f.write('</text:span></text:p></draw:text-box>\n')
def draw_path(self,style,path):
stype = self.draw_styles[style]
@ -560,4 +590,4 @@ class OpenDrawDoc(DrawDoc.DrawDoc):
# Register document generator
#
#-------------------------------------------------------------------------
Plugins.register_draw_doc(_("OpenOffice.org/StarOffice 6"),OpenDrawDoc,1,1,".sxd");
Plugins.register_draw_doc(_("OpenOffice.org Draw"),OpenDrawDoc,1,1,".sxd");

View File

@ -202,8 +202,6 @@ class PSDrawDoc(DrawDoc.DrawDoc):
return ( (centerx + cos(sangle+delta) * rad),
(centery + sin(sangle+delta) * rad))
# return ( (centerx + cos(sangle+delta) * rad)-self.lmargin,
# (centery + sin(sangle+delta) * rad)-self.tmargin)
def rotate_text(self,style,text,x,y,angle):

View File

@ -159,74 +159,6 @@ class PdfDrawDoc(DrawDoc.DrawDoc):
else:
self.f.drawPath(p,stroke=1,fill=0)
def draw_wedge(self, style, centerx, centery, radius, start_angle,
end_angle, short_radius=0):
centerx += self.lmargin
centery += self.bmargin
def rnd(val):
return val*cm
while end_angle < start_angle:
end_angle += 360
stype = self.draw_styles[style]
if stype.get_line_style() == DrawDoc.SOLID:
self.f.setDash([],0)
else:
self.f.setDash([2,4],0)
degreestoradians = pi/180.0
radiansdelta = degreestoradians/2
sangle = start_angle*degreestoradians
eangle = end_angle*degreestoradians
while eangle<sangle:
eangle = eangle+2*pi
angle = sangle
color = stype.get_fill_color()
self.f.setFillColor((float(color[0])/255.0,float(color[1])/255.0,
float(color[2])/255.0))
p = self.f.beginPath()
if short_radius == 0:
p.moveTo(rnd(centerx),rnd(centery))
else:
origx = rnd(centerx + cos(angle)*short_radius)
origy = rnd(centery + sin(angle)*short_radius)
p.moveTo(origx, origy)
while angle<eangle:
x = centerx + cos(angle)*radius
y = centery + sin(angle)*radius
p.lineTo(rnd(x),rnd(y))
angle = angle+radiansdelta
x = centerx + cos(eangle)*radius
y = centery + sin(eangle)*radius
p.lineTo(rnd(x),rnd(y))
if short_radius:
x = centerx + cos(eangle)*short_radius
y = centery + sin(eangle)*short_radius
p.lineTo(rnd(x),rnd(y))
angle = eangle
while angle>=sangle:
x = centerx + cos(angle)*short_radius
y = centery + sin(angle)*short_radius
p.lineTo(rnd(x),rnd(y))
angle = angle-radiansdelta
p.close()
self.f.drawPath(p,stroke=1,fill=1)
delta = (eangle - sangle)/2.0
rad = short_radius + (radius-short_radius)/2.0
return ( (centerx + cos(sangle+delta) * rad)-self.lmargin,
(centery + sin(sangle+delta) * rad)-self.tmargin)
def draw_box(self,style,text,x,y):
x = x + self.lmargin
y = y + self.tmargin

View File

@ -24,6 +24,7 @@
#
#-------------------------------------------------------------------------
import string
from math import pi, cos, sin, fabs
#-------------------------------------------------------------------------
#
@ -35,6 +36,7 @@ from intl import gettext as _
import TextDoc
import DrawDoc
import Errors
import FontScale
#-------------------------------------------------------------------------
#
@ -88,13 +90,57 @@ class SvgDrawDoc(DrawDoc.DrawDoc):
self.f.write('"http://www.w3.org/TR/2001/REC-SVG-20010904/DTD/svg10.dtd">\n')
self.f.write('<svg width="%5.2fcm" height="%5.2fcm" ' % (self.width,self.height))
self.f.write('xmlns="http://www.w3.org/2000/svg">\n')
if self.orientation != TextDoc.PAPER_PORTRAIT:
self.f.write('<g transform="rotate(-90); ')
self.f.write(' translate(-%5.2fcm,0)">\n' % self.height)
def rotate_text(self,style,text,x,y,angle):
stype = self.draw_styles[style]
pname = stype.get_paragraph_style()
p = self.style_list[pname]
font = p.get_font()
size = font.get_size()
height = size*(len(text))
width = 0
for line in text:
width = max(width,FontScale.string_width(font,line))
rangle = -((pi/180.0) * angle)
centerx,centery = units((x+self.lmargin,y+self.tmargin))
yh = 0
for line in text:
xw = FontScale.string_width(font,line)
xpos = (centerx - (xw/2.0))
ypos = (centery)
xd = 0
yd = yh
# xd = yh * sin(-rangle)
# yd = yh * cos(-rangle)
print centerx, centery, xpos, ypos, angle, line
self.f.write('<text ')
self.f.write('x="%4.2f" y="%4.2f" ' % (xpos+xd,ypos+yd))
# self.f.write('transform="rotate(%d) ' % angle)
# self.f.write(' translate(%.8f,%.8f)" ' % (-xpos,-ypos))
self.f.write('style="fill:#%02x%02x%02x; '% font.get_color())
if font.get_bold():
self.f.write('font-weight:"bold";')
if font.get_italic():
self.f.write('font-style:"italic";')
self.f.write('font-size:%d; ' % size)
if font.get_type_face() == TextDoc.FONT_SANS_SERIF:
self.f.write('font-family:sans-serif;')
else:
self.f.write('font-family:serif;')
self.f.write('">')
self.f.write(line)
self.f.write('</text>\n')
yh += size
def end_page(self):
if self.orientation != TextDoc.PAPER_PORTRAIT:
self.f.write('</g>\n')
self.f.write('</svg>\n')
self.f.close()
@ -118,7 +164,7 @@ class SvgDrawDoc(DrawDoc.DrawDoc):
point = path[0]
self.f.write('<polygon fill="#%02x%02x%02x"' % stype.get_fill_color())
self.f.write(' style="stroke:#%02x%02x%02x; ' % stype.get_color())
self.f.write(' stroke-width=%.2fpt;"' % stype.get_line_width())
self.f.write(' stroke-width:%.2fpt;"' % stype.get_line_width())
self.f.write(' points="%.2f,%.2f' % units((point[0]+self.lmargin,point[1]+self.tmargin)))
for point in path[1:]:
self.f.write(' %.2f,%.2f' % units((point[0]+self.lmargin,point[1]+self.tmargin)))

357
src/plugins/FanChart.py Normal file
View File

@ -0,0 +1,357 @@
#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2003 Donald N. Allingham
#
# 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
#
#------------------------------------------------------------------------
#
# gnome/gtk
#
#------------------------------------------------------------------------
import gtk
#------------------------------------------------------------------------
#
# gramps modules
#
#------------------------------------------------------------------------
import GrampsCfg
import DrawDoc
import Report
import Errors
import TextDoc
import Calendar
from QuestionDialog import ErrorDialog
from FontScale import string_width
from SubstKeywords import SubstKeywords
from intl import gettext as _
#------------------------------------------------------------------------
#
# pt2cm - convert points to centimeters
#
#------------------------------------------------------------------------
def pt2cm(pt):
return (float(pt)/72.0)*(254.0/100.0)
#------------------------------------------------------------------------
#
# FanChart
#
#------------------------------------------------------------------------
class FanChart:
def __init__(self,database,person,output,doc,display):
self.doc = doc
self.doc.creator(database.getResearcher().getName())
self.map = {}
self.text = {}
self.start = person
self.output = output
self.box_width = 0
self.height = 0
self.lines = 0
self.display = display
g = DrawDoc.GraphicsStyle()
g.set_paragraph_style('Title')
self.doc.add_draw_style("t",g)
g = DrawDoc.GraphicsStyle()
g.set_fill_color((255,212,210))
g.set_paragraph_style('Normal')
self.doc.add_draw_style("c1",g)
g = DrawDoc.GraphicsStyle()
g.set_fill_color((255,212,210))
g.set_paragraph_style('Normal')
g.set_line_width(0)
self.doc.add_draw_style("c1n",g)
g = DrawDoc.GraphicsStyle()
g.set_fill_color((251,204,158))
g.set_paragraph_style('Normal')
self.doc.add_draw_style("c2",g)
g = DrawDoc.GraphicsStyle()
g.set_fill_color((251,204,158))
g.set_paragraph_style('Normal')
g.set_line_width(0)
self.doc.add_draw_style("c2n",g)
g = DrawDoc.GraphicsStyle()
g.set_fill_color((255,255,111))
g.set_paragraph_style('Normal')
self.doc.add_draw_style("c3",g)
g = DrawDoc.GraphicsStyle()
g.set_fill_color((255,255,111))
g.set_paragraph_style('Normal')
g.set_line_width(0)
self.doc.add_draw_style("c3n",g)
g = DrawDoc.GraphicsStyle()
g.set_fill_color((158,255,158))
g.set_paragraph_style('Normal')
self.doc.add_draw_style("c4",g)
g = DrawDoc.GraphicsStyle()
g.set_fill_color((158,255,158))
g.set_paragraph_style('Normal')
g.set_line_width(0)
self.doc.add_draw_style("c4n",g)
g = DrawDoc.GraphicsStyle()
g.set_fill_color((156,205,255))
g.set_paragraph_style('Normal')
self.doc.add_draw_style("c5",g)
g = DrawDoc.GraphicsStyle()
g.set_fill_color((156,205,255))
g.set_paragraph_style('Normal')
g.set_line_width(0)
self.doc.add_draw_style("c5n",g)
self.map = [None] * 32
self.text= {}
self.box_width = 0
def filter(self,person,index):
"""traverse the ancestors recursively until either the end
of a line is found, or until we reach the maximum number of
generations that we want to deal with"""
if person == None or index >= 32:
return
self.map[index-1] = person
self.text[index-1] = []
subst = SubstKeywords(person)
for line in self.display:
self.text[index-1].append(subst.replace(line))
self.font = self.doc.style_list["Normal"].get_font()
for line in self.text[index-1]:
self.box_width = max(self.box_width,string_width(self.font,line))
self.lines = max(self.lines,len(self.text[index-1]))
family = person.getMainParents()
if family != None:
self.filter(family.getFather(),index*2)
self.filter(family.getMother(),(index*2)+1)
def write_report(self):
self.filter(self.start,1)
block_size = self.doc.get_usable_width()/14.0
try:
self.doc.open(self.output)
except Errors.ReportError, val:
(m1,m2) = val.messages()
ErrorDialog(m1,m2)
size = min(self.doc.get_usable_width(),self.doc.get_usable_height()*2.0)/2.0
y = self.doc.get_usable_height()
max_lines = int(size/block_size)
center = (self.doc.get_usable_width()/2.0)
self.doc.start_page()
n = self.start.getPrimaryName().getRegularName()
self.doc.center_text('t', _('Five Generation Fan Chart for %s') % n, center, 0)
self.circle_5(center,y,block_size)
self.circle_4(center,y,block_size)
self.circle_3(center,y,block_size)
self.circle_2(center,y,block_size)
self.circle_1(center,y,block_size)
self.doc.end_page()
try:
self.doc.close()
except:
import DisplayTrace
DisplayTrace.DisplayTrace()
def get_info(self,person):
pn = person.getPrimaryName()
b = person.getBirth().getDateObj().getYear()
d = person.getDeath().getDateObj().getYear()
if b == Calendar.UNDEF:
b = ""
if d == Calendar.UNDEF:
d = ""
if b or d:
val = "%s - %s" % (str(b),str(d))
else:
val = ""
return [ pn.getFirstName(), pn.getSurname(), val ]
def circle_1(self,center,y,size):
(xc,yc) = self.doc.draw_wedge("c1", center, y, size, 180, 360)
print center, y, xc, yc
self.doc.rotate_text("c1n", self.get_info(self.map[0]), xc, yc ,0)
def circle_2(self,center,y,size):
(xc,yc) = self.doc.draw_wedge("c2", center, y, size*2, 180, 270, size)
if self.map[1]:
self.doc.rotate_text("c2n", self.get_info(self.map[1]), xc, yc, -45)
(xc,yc) = self.doc.draw_wedge("c2", center, y, size*2, 270, 360, size)
if self.map[2]:
self.doc.rotate_text("c2n", self.get_info(self.map[2]), xc,yc ,45)
def circle_3(self,center,y,size):
delta = 45
sangle = -67.5
for index in range(3,7):
start = 180+(index-3)*45
stop = start+45
(xc,yc) = self.doc.draw_wedge("c3", center, y, size*3, start, stop, size*2)
if self.map[index]:
self.doc.rotate_text("c3n", self.get_info(self.map[index]),
xc,yc ,sangle)
sangle += 45
def circle_4(self,center,y,size):
delta = 22.5
sangle = -78.75 + 90
for i in range(0,8):
start_angle = 180 + (i * delta)
end_angle = 180 + ((i+1) * delta)
(xc,yc) = self.doc.draw_wedge("c4", center, y, size*5, start_angle,
end_angle, size*3)
if i == 4:
sangle += 180
if self.map[i+7]:
self.doc.rotate_text("c4n", self.get_info(self.map[i+7]),
xc,yc ,sangle)
sangle += 22.5
def circle_5(self,center,y,size):
delta = 11.25
sangle = -84.625 + 90
for i in range(0,16):
start_angle = 180 + (i * delta)
end_angle = 180 + ((i+1) * delta)
(xc,yc) = self.doc.draw_wedge("c5", center, y, size*7, start_angle,
end_angle, size*5)
if i == 8:
sangle += 180
if self.map[i+15]:
self.doc.rotate_text("c5n", self.get_info(self.map[i+15]),
xc,yc ,sangle)
sangle += 11.25
#------------------------------------------------------------------------
#
# FanChartDialog
#
#------------------------------------------------------------------------
class FanChartDialog(Report.DrawReportDialog):
def __init__(self,database,person):
Report.DrawReportDialog.__init__(self,database,person)
def get_title(self):
"""The window title for this dialog"""
return "%s - %s - GRAMPS" % (_("Fan Chart"),_("Graphical Reports"))
def get_header(self, name):
"""The header line at the top of the dialog contents."""
return _("Fan Chart for %s") % name
def get_target_browser_title(self):
"""The title of the window created when the 'browse' button is
clicked in the 'Save As' frame."""
return _("Save Fan Chart")
def get_stylesheet_savefile(self):
"""Where to save user defined styles for this report."""
return "fan_chart.xml"
def get_report_generations(self):
"""Default to 10 generations, no page breaks."""
return (0, 0)
def make_default_style(self):
"""Make the default output style for the Ancestor Chart report."""
f = TextDoc.FontStyle()
f.set_size(8)
f.set_type_face(TextDoc.FONT_SANS_SERIF)
p = TextDoc.ParagraphStyle()
p.set_font(f)
p.set_alignment(TextDoc.PARA_ALIGN_CENTER)
self.default_style.add_style("Normal",p)
f = TextDoc.FontStyle()
f.set_size(20)
f.set_bold(1)
f.set_type_face(TextDoc.FONT_SANS_SERIF)
p = TextDoc.ParagraphStyle()
p.set_font(f)
p.set_alignment(TextDoc.PARA_ALIGN_CENTER)
self.default_style.add_style("Title",p)
def make_report(self):
"""Create the object that will produce the Ancestor Chart.
All user dialog has already been handled and the output file
opened."""
try:
MyReport = FanChart(self.db, self.person, self.target_path,self.doc,"%n")
MyReport.write_report()
except Errors.FilterError, msg:
(m1,m2) = msg.messages()
ErrorDialog(m1,m2)
except:
import DisplayTrace
DisplayTrace.DisplayTrace()
#------------------------------------------------------------------------
#
# Entry point of the report. Takes the database and the active person
# as its arguments.
#
#------------------------------------------------------------------------
def report(database,person):
FanChartDialog(database,person)
#------------------------------------------------------------------------
#
# Register the report with the plugin system. If this is not done, then
# GRAMPS will not know that the report exists.
#
#------------------------------------------------------------------------
from Plugins import register_report
register_report(
report,
_("Fan Chart"),
category=_("Graphical Reports"),
status=(_("Alpha")),
description=_("Produces a five generation fan chart")
)