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2006-07-24 Manfred Paulus <manfred.paulus@gmx.de>

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* src/plugins/FanChart.py: Add circle, 1/2 circle and 1/4
	circle options, along with selectable generations
	* src/docgen/OpenOfficeDoc.py: fix rotation angle



svn: r7069
This commit is contained in:
Don Allingham 2006-07-24 23:18:51 +00:00
parent d31f352df7
commit 488cf0300b
3 changed files with 272 additions and 138 deletions
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5
gramps2/ChangeLog
View File

@ -1,3 +1,8 @@
2006-07-24 Manfred Paulus <manfred.paulus@gmx.de>
* src/plugins/FanChart.py: Add circle, 1/2 circle and 1/4
circle options, along with selectable generations
* src/docgen/OpenOfficeDoc.py: fix rotation angle
2006-07-24 Alex Roitman <shura@gramps-project.org>
* src/DisplayTabs/_BackRefModel.py (BackRefModel.load_model):
Translate displayed object type.

8
gramps2/src/docgen/OpenOfficeDoc.py
View File

@ -829,15 +829,15 @@ class OpenOfficeDoc(BaseDoc.BaseDoc):
wcm = (width/72.0)*2.54
hcm = (height/72.0)*2.54
rangle = -((pi/180.0) * angle)
rangle = (pi/180.0) * angle
self.cntnt.write('<draw:text-box draw:style-name="%s" ' % style)
self.cntnt.write('draw:layer="layout" svg:width="%.3fcm" ' % wcm)
self.cntnt.write('svg:height="%.3fpt" ' % hcm)
self.cntnt.write('draw:transform="')
self.cntnt.write('rotate (%.8f) ' % rangle)
xloc = x-((wcm/2.0)*cos(-rangle))
yloc = y-((hcm)*sin(-rangle))-oneline
self.cntnt.write('rotate (%.8f) ' % -rangle)
xloc = x-((wcm/2.0)*cos(rangle))+((hcm/2.0)*sin(rangle))
yloc = y-((hcm/2.0)*cos(rangle))-((wcm/2.0)*sin(rangle))
self.cntnt.write('translate (%.3fcm %.3fcm)"' % (xloc,yloc))
self.cntnt.write('>')
self.cntnt.write('<text:p text:style-name="X%s">' % pname)

397
gramps2/src/plugins/FanChart.py
View File

@ -66,84 +66,82 @@ class FanChart(Report):
This report needs the following parameters (class variables)
that come in the options class.
display -
maxgen - Maximum number of generations to include.
full_circle - != 0: draw a full circle; half_circle and quar_circle should be 0.
half_circle - != 0: draw a half circle; full_circle and quar_circle should be 0.
quar_circle - != 0: draw a quarter circle; full_circle and half_circle should be 0.
backgr_white - 0: Background color is generation dependent; 1: Background color is white.
radial_upright - 0: Print radial texts roundabout; 1: Print radial texts as upright as possible.
"""
self.background_color_generation =\
[(255,63,0), (255,175,15), (255,223,87), (255,255,111),
(159,255,159), (111,215,255), (79,151,255), (231,23,255)]
self.max_generations = options_class.handler.options_dict['maxgen']
self.full_circle = options_class.handler.options_dict['full_circle']
self.half_circle = options_class.handler.options_dict['half_circle']
self.quar_circle = options_class.handler.options_dict['quar_circle']
self.backgr_white = options_class.handler.options_dict['backgr_white']
self.radial_upright = options_class.handler.options_dict['radial_upright']
self.background_style = []
self.text_style = []
for i in range (0, self.max_generations):
background_style_name = 'background_style' + '%d' % i
self.background_style.append(background_style_name)
text_style_name = 'text_style' + '%d' % i
self.text_style.append(text_style_name)
if self.backgr_white:
self.background_color = []
for i in range (0, len (self.background_color_generation)):
self.background_color.append ((255,255,255))
else:
self.background_color = self.background_color_generation
self.MAX_GENERATION = len (self.background_color)
Report.__init__(self,database,person,options_class)
self.height = 0
self.lines = 0
self.display = "%n"
self.map = [None] * 32
self.map = [None] * 2**self.max_generations
self.text= {}
self.box_width = 0
def define_graphics_styles(self):
g = BaseDoc.GraphicsStyle()
g.set_paragraph_style('FC-Title')
g.set_line_width(0)
self.doc.add_draw_style("t",g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color((255,212,210))
g.set_paragraph_style('FC-Normal')
self.doc.add_draw_style("FC-c1",g)
for i in range (0, self.max_generations):
# Continuous colors:
color_index = i % self.MAX_GENERATION
g = BaseDoc.GraphicsStyle()
g.set_fill_color(self.background_color[color_index])
g.set_paragraph_style('FC-Normal')
background_style_name = 'background_style' + '%d' % i
self.doc.add_draw_style(background_style_name,g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color((255,212,210))
g.set_paragraph_style('FC-Normal')
g.set_line_width(0)
self.doc.add_draw_style("FC-c1n",g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color(self.background_color[color_index])
text_style_name = 'text_style' + '%d' % (self.max_generations - 1)
g.set_paragraph_style(text_style_name)
g.set_line_width(0)
text_style_name = 'text_style' + '%d' % i
self.doc.add_draw_style(text_style_name,g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color((251,204,158))
g.set_paragraph_style('FC-Normal')
self.doc.add_draw_style("FC-c2",g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color((251,204,158))
g.set_paragraph_style('FC-Normal')
g.set_line_width(0)
self.doc.add_draw_style("FC-c2n",g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color((255,255,111))
g.set_paragraph_style('FC-Normal')
self.doc.add_draw_style("FC-c3",g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color((255,255,111))
g.set_paragraph_style('FC-Normal')
g.set_line_width(0)
self.doc.add_draw_style("FC-c3n",g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color((158,255,158))
g.set_paragraph_style('FC-Normal')
self.doc.add_draw_style("FC-c4",g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color((158,255,158))
g.set_paragraph_style('FC-Normal')
g.set_line_width(0)
self.doc.add_draw_style("FC-c4n",g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color((156,205,255))
g.set_paragraph_style('FC-Normal')
self.doc.add_draw_style("FC-c5",g)
g = BaseDoc.GraphicsStyle()
g.set_fill_color((156,205,255))
g.set_paragraph_style('FC-Normal')
g.set_line_width(0)
self.doc.add_draw_style("FC-c5n",g)
def apply_filter(self,person_handle,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 (not person_handle) or (index >= 32):
if (not person_handle) or (index >= 2**self.max_generations):
return
self.map[index-1] = person_handle
@ -154,7 +152,8 @@ class FanChart(Report):
for line in self.display:
self.text[index-1].append(subst.replace(line))
self.font = self.doc.style_list["FC-Normal"].get_font()
text_style_name = 'text_style' + '%d' % (self.max_generations - 1)
self.font = self.doc.style_list[text_style_name].get_font()
for line in self.text[index-1]:
self.box_width = max(self.box_width,self.doc.string_width(self.font,line))
@ -167,31 +166,54 @@ class FanChart(Report):
self.apply_filter(family.get_father_handle(),index*2)
self.apply_filter(family.get_mother_handle(),(index*2)+1)
def write_report(self):
self.apply_filter(self.start_person.get_handle(),1)
block_size = self.doc.get_usable_width()/14.0
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()
self.apply_filter(self.start_person.get_handle(),1)
n = self.start_person.get_primary_name().get_regular_name()
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)
if self.full_circle:
max_angle = 360.0
start_angle = 90
max_circular = 5
x = self.doc.get_usable_width() / 2.0
y = self.doc.get_usable_height() / 2.0
min_xy = min (x, y)
elif self.half_circle:
max_angle = 180.0
start_angle = 180
max_circular = 3
x = (self.doc.get_usable_width()/2.0)
y = self.doc.get_usable_height()
min_xy = min (x, y)
else: # quarter circle
max_angle = 90.0
start_angle = 270
max_circular = 2
x = 0
y = self.doc.get_usable_height()
min_xy = min (self.doc.get_usable_width(), y)
if self.max_generations > max_circular:
block_size = min_xy / (self.max_generations * 2 - max_circular)
else:
block_size = min_xy / self.max_generations
self.doc.center_text ('t', _('%d Generation Fan Chart for %s') % (self.max_generations, n),
self.doc.get_usable_width() / 2, 0)
for generation in range (0, min (max_circular, self.max_generations)):
self.draw_circular (x, y, start_angle, max_angle, block_size, generation)
for generation in range (max_circular, self.max_generations):
self.draw_radial (x, y, start_angle, max_angle, block_size, generation)
self.doc.end_page()
def get_info(self,person_handle):
def get_info(self,person_handle,generation):
person = self.database.get_person_from_handle(person_handle)
pn = person.get_primary_name()
@ -213,67 +235,92 @@ class FanChart(Report):
else:
d = ""
if b or d:
if b and d:
val = "%s - %s" % (str(b),str(d))
elif b:
val = "* %s" % (str(b))
elif d:
val = "+ %s" % (str(d))
else:
val = ""
return [ pn.get_first_name(), pn.get_surname(), val ]
if generation == 7:
if self.full_circle:
return [ pn.get_first_name() + " " + pn.get_surname(), val ]
elif self.half_circle:
return [ pn.get_first_name() + " " + pn.get_surname(), val ]
else:
return [ pn.get_first_name() + " " + pn.get_surname() + ", " + val ]
elif generation == 6:
if self.full_circle:
return [ pn.get_first_name(), pn.get_surname(), val ]
elif self.half_circle:
return [ pn.get_first_name(), pn.get_surname(), val ]
else:
return [ pn.get_first_name() + " " + pn.get_surname(), val ]
else:
return [ pn.get_first_name(), pn.get_surname(), val ]
def circle_1(self,center,y,size):
(xc,yc) = self.doc.draw_wedge("FC-c1", center, y, size, 180, 360)
self.doc.rotate_text("FC-c1n", self.get_info(self.map[0]), xc, yc ,0)
def circle_2(self,center,y,size):
(xc,yc) = self.doc.draw_wedge("FC-c2", center, y, size*2, 180, 270, size)
if self.map[1]:
self.doc.rotate_text("FC-c2n", self.get_info(self.map[1]), xc, yc, -45)
(xc,yc) = self.doc.draw_wedge("FC-c2", center, y, size*2, 270, 360, size)
if self.map[2]:
self.doc.rotate_text("FC-c2n", self.get_info(self.map[2]), xc,yc ,45)
def draw_circular(self, x, y, start_angle, max_angle, size, generation):
segments = 2**generation
delta = max_angle / segments
end_angle = start_angle
text_angle = start_angle - 270 + (delta / 2.0)
rad1 = size * generation
rad2 = size * (generation + 1)
background_style = self.background_style[generation]
text_style = self.text_style[generation]
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("FC-c3", center, y, size*3, start, stop, size*2)
for index in range(segments - 1, 2*segments - 1):
start_angle = end_angle
end_angle = start_angle + delta
(xc,yc) = self.doc.draw_wedge(background_style, x, y, rad2,
start_angle, end_angle, rad1)
if self.map[index]:
self.doc.rotate_text("FC-c3n", self.get_info(self.map[index]),
xc,yc ,sangle)
sangle += 45
if (generation == 0) and self.full_circle:
yc = y
self.doc.rotate_text(text_style,
self.get_info(self.map[index],
generation),
xc, yc, text_angle)
text_angle += delta
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("FC-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("FC-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("FC-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("FC-c5n", self.get_info(self.map[i+15]),
xc,yc ,sangle)
sangle += 11.25
def draw_radial(self, x, y, start_angle, max_angle, size, generation):
segments = 2**generation
delta = max_angle / segments
end_angle = start_angle
text_angle = start_angle - delta / 2.0
background_style = self.background_style[generation]
text_style = self.text_style[generation]
if self.full_circle:
rad1 = size * ((generation * 2) - 5)
rad2 = size * ((generation * 2) - 3)
elif self.half_circle:
rad1 = size * ((generation * 2) - 3)
rad2 = size * ((generation * 2) - 1)
else: # quarter circle
rad1 = size * ((generation * 2) - 2)
rad2 = size * (generation * 2)
for index in range(segments - 1, 2*segments - 1):
start_angle = end_angle
end_angle = start_angle + delta
(xc,yc) = self.doc.draw_wedge(background_style, x, y, rad2,
start_angle, end_angle, rad1)
text_angle += delta
if self.map[index]:
if self.radial_upright and (start_angle >= 90) and (start_angle < 270):
self.doc.rotate_text(text_style,
self.get_info(self.map[index],
generation),
xc, yc, text_angle + 180)
else:
self.doc.rotate_text(text_style,
self.get_info(self.map[index],
generation),
xc, yc, text_angle)
#------------------------------------------------------------------------
#
@ -283,24 +330,94 @@ class FanChart(Report):
class FanChartOptions(ReportOptions):
"""
Defines options and provides handling interface.
Defines options and provides handling interface for Fan Chart.
"""
def __init__(self,name,person_id=None):
ReportOptions.__init__(self,name,person_id)
def set_new_options(self):
# Options specific for this report
self.options_dict = {
'maxgen' : 5,
'full_circle' : 0,
'half_circle' : 1,
'quar_circle' : 0,
'backgr_white' : 0,
'backgr_generation' : 1,
'radial_upright' : 1,
'radial_roundabout' : 0,
}
self.options_help = {
'maxgen' : ("=num","Number of generations to print.",
[],
True),
'full_circle': ("=0/1","The form of the diagram shall be a full circle.",
["half or quarter circle","full circle"],
True),
'half_circle': ("=0/1","The form of the diagram shall be a half circle.",
["full or quarter circle","half circle"],
True),
'quar_circle': ("=0/1","The form of the diagram shall be a quarter circle.",
["full or half circle","quarter circle"],
True),
'backgr_white': ("=0/1","Background color is white.",
["generation dependent","white"],
True),
'backgr_generation': ("=0/1","Background color is generation dependent.",
["white","generation dependent"],
True),
'radial_upright': ("=0/1","Print radial texts as upright as possible.",
["roundabout","upright"],
True),
'radial_roundabout': ("=0/1","Print radial texts roundabout.",
["upright","roundabout"],
True),
}
def add_user_options(self,dialog):
"""
Override the base class add_user_options task to add a menu that allows
the user to select the number of generations to print, ....
"""
self.max_gen = gtk.SpinButton(gtk.Adjustment(5,2,8,1))
self.max_gen.set_value(self.options_dict['maxgen'])
self.max_gen.set_wrap(True)
dialog.add_option(_('Generations'),self.max_gen)
self.type_box = gtk.combo_box_new_text ()
self.type_box.append_text (_('full circle'))
self.type_box.append_text (_('half circle'))
self.type_box.append_text (_('quarter circle'))
self.type_box.set_active(self.options_dict['half_circle'] + 2 * self.options_dict['quar_circle'])
dialog.add_option(_('Type of graph'),self.type_box)
self.backgr_box = gtk.combo_box_new_text ()
self.backgr_box.append_text (_('white'))
self.backgr_box.append_text (_('generation dependent'))
self.backgr_box.set_active(self.options_dict['backgr_generation'])
dialog.add_option(_('Background color'),self.backgr_box)
self.radial_box = gtk.combo_box_new_text ()
self.radial_box.append_text (_('upright'))
self.radial_box.append_text (_('roundabout'))
self.radial_box.set_active(self.options_dict['radial_roundabout'])
dialog.add_option(_('Orientation of radial texts'),self.radial_box)
def parse_user_options(self,dialog):
"""
Parses the custom options that we have added.
"""
self.options_dict['maxgen'] = int(self.max_gen.get_value_as_int())
self.options_dict['full_circle'] = int(self.type_box.get_active() == 0)
self.options_dict['half_circle'] = int(self.type_box.get_active() == 1)
self.options_dict['quar_circle'] = int(self.type_box.get_active() == 2)
self.options_dict['backgr_white'] = int(self.backgr_box.get_active() == 0)
self.options_dict['backgr_generation'] = int(self.backgr_box.get_active() == 1)
self.options_dict['radial_upright'] = int(self.radial_box.get_active() == 0)
self.options_dict['radial_roundabout'] = int(self.radial_box.get_active() == 1)
def make_default_style(self,default_style):
"""Make the default output style for the Fan Chart report."""
f = BaseDoc.FontStyle()
f.set_size(8)
f.set_type_face(BaseDoc.FONT_SANS_SERIF)
p = BaseDoc.ParagraphStyle()
p.set_font(f)
p.set_alignment(BaseDoc.PARA_ALIGN_CENTER)
p.set_description(_('The basic style used for the text display.'))
default_style.add_style("FC-Normal",p)
f = BaseDoc.FontStyle()
f.set_size(20)
f.set_bold(1)
@ -311,6 +428,18 @@ class FanChartOptions(ReportOptions):
p.set_description(_('The style used for the title.'))
default_style.add_style("FC-Title",p)
font_size = [48, 24, 16, 12, 9, 6, 4, 3]
for index in range (0, len (font_size)):
f = BaseDoc.FontStyle()
f.set_size(font_size[index])
f.set_type_face(BaseDoc.FONT_SANS_SERIF)
p = BaseDoc.ParagraphStyle()
p.set_font(f)
p.set_alignment(BaseDoc.PARA_ALIGN_CENTER)
p.set_description(_('The basic style used for the text display.'))
default_style.add_style("text_style%d" % index, p)
#------------------------------------------------------------------------
#
#
@ -326,5 +455,5 @@ register_report(
status = _("Stable"),
author_name = "Donald N. Allingham",
author_email = "don@gramps-project.org",
description = _("Produces a five generation fan chart")
description = _("Produces fan charts")
)