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Completed first rough implementation of Plot.py. Checking in before debug and cleanup.

pull/8/head
SANDIA\jaraco 19 years ago
parent
commit
f1696b3516
  1. 314
      Plot.py
  2. 11
      TimeSeries.py
  3. 2
      __init__.py

314
Plot.py

@ -1,5 +1,10 @@
#!/usr/bin/env python
import SVG
from itertools import izip, count
def get_pairs( i ):
i = iter( i )
while True: yield i.next(), i.next()
class Plot( SVG.Graph ):
"""=== For creating SVG plots of scalar data
@ -109,5 +114,314 @@ class Plot( SVG.Graph ):
if len( data['data'] ) % 2 != 0:
raise "Expecting x,y pairs for data points for %s." % self.__class__.__name__
def process_data( self, data ):
pairs = get_pairs( data['data'] )
pairs.sort()
data['data'] = zip( *pairs )
def calculate_left_margin( self ):
super( self.__class__, self ).calculate_left_margin()
label_left = len( str( self.get_x_labels()[0] ) ) / 2 * font_size * 0.6
self.border_left = max( label_left, self.border_left )
def calculate_right_margin( self ):
super( self.__class__, self ).calculate_left_margin()
label_right = len( str( self.get_x_labels()[-1] ) ) / 2 * font_size * 0.6
self.border_right = max( label_right, self.border_right )
x_data_index = 0
y_data_index = 1
def data_range( self, axis ):
side = { 'x': 'right', 'y': 'top' }[axis]
data_index = getattr( self, '%s_data_index' % axis )
max_value = max( map( lambda set: max( set['data'][data_index] ), self.data ) )
min_value = min( map( lambda set: min( set['data'][data_index] ), self.data ) )
spec_min = getattr( self, 'min_%s_value' )
min_value = min( min_value, spec_min )
range = max_value - min_value
#side_pad = '%s_pad' % side
side_pad = range / 20.0 or 10
scale_range = ( max_value + side_pad ) - min_value
scale_division = getattr( self, 'scale_%s_divisions' % axis ) or ( scale_range / 10.0 )
if getattr( self, 'scale_%s_integers' % axis ):
scale_division = scale_division.round() or 1
return min_value, max_value, scale_division
def x_range( self ): return data_range( 'x' )
def y_range( self ): return data_range( 'y' )
def get_data_values( self, axis ):
min_value, max_value, scale_division = self.data_range( axis )
return range( *self.data_range( axis ) )
def get_x_values( self ): return get_data_values( 'x' )
def get_y_values( self ): return get_data_values( 'y' )
def field_size( self, axis ):
size = { 'x': 'width', 'y': 'height' }[axis]
side = { 'x': 'right', 'y': 'top' }[axis]
values = get_data_values( axis )
data_index = getattr( self, '%s_data_index' % axis )
max_d = max( map( lambda set: max( set['data'][data_index] ), self.data ) )
dx = float( max_d - values[-1] ) / ( values[-1] - values[-2] )
graph_size = getattr( self, 'graph_%s' % size )
side_font = getattr( self, '%s_font' % side )
side_align = getattr( self, '%s_align' % side )
result = float( graph_size ) - font_size*2*side_font / \
( len( values ) + dx - side_align )
return result
def field_width( self ): return field_size( 'x' )
def field_height( self ): return field_size( 'y' )
def draw_data( self ):
self.load_transform_parameters()
for line, data in izip( count(1), self.data ):
x_start, y_start = self.transform_output_coordinates(
self.data['data'][self.x_data_index][0],
self.data['data'][self.y_data_index][0] )
data_points = zip( *data['data'] )
graph_points = self.get_graph_points( data_points )
lpath = self.get_lpath( graph_points )
if self.area_fill:
graph_height = self.graph_height
path = SVG.CreateElement( 'path', {
'd': 'M%(x_start)s %(graph_height)d %(lpath)s V%(graph_height)d Z' % vars(),
'class': 'fill%(line)d' % vars() } )
self.graph.appendChild( path )
path = SVG.CreateElement( 'path', {
'd': 'M%(x_start)d %(y_start)d %(lpath)s' % vars(),
'class': 'line%(line)d' % vars() } )
self.graph.appendChild( path )
self.draw_data_points( self, line, data_points, graph_points )
del self.__transform_parameters
def load_transform_parameters( self ):
"Cache the parameters necessary to transform x & y coordinates"
x_min, x_max, x_div = self.x_range()
y_min, y_max, y_div = self.y_range()
x_step = ( float( self.graph_width ) - font_size*2 ) / \
( x_max - x_min )
y_step = ( float( self.graph_height ) - font_size*2 ) / \
( y_max - y_min )
self.__transform_parameters = dict( vars() )
def get_graph_points( self, data_points ):
return map( self.transform_output_coordinates, data_points )
def get_lpath( self, data_points ):
points = map( lambda p: "%d %d" % p, points )
return 'L' + ' '.join( points )
def transform_output_coordinates( self, (x,y) ):
vars().update( self.__transform_parameters )
x = ( x - x_min ) * x_step
y = self.graph_height() - ( y - y_min ) * y_step
return x,y
def draw_data_points( self, line, data_points, graph_points ):
if not self.show_data_points \
and not self.show_data_values: return
for ((dx,dy),(gx,gy)) in izip( data_points, graph_points ):
if self.show_data_points:
circle = SVG.CreateElement( 'circle', {
'cx': str( gx ),
'cy': str( gy ),
'r': '2.5',
'class': 'dataPoint%(line)s' % vars() } )
self.graph.appendChild( circle )
if self.show_data_values:
self.add_popup( gx, gy, self.format( dx, dy ) )
self.make_datapoint_text( gx, gy-6, y )
def format( self, x, y ):
return '(%0.2f, %0.2f)' % (x,y)
def get_css( self ):
return """/* default line styles */
.line1{
fill: none;
stroke: #ff0000;
stroke-width: 1px;
}
.line2{
fill: none;
stroke: #0000ff;
stroke-width: 1px;
}
.line3{
fill: none;
stroke: #00ff00;
stroke-width: 1px;
}
.line4{
fill: none;
stroke: #ffcc00;
stroke-width: 1px;
}
.line5{
fill: none;
stroke: #00ccff;
stroke-width: 1px;
}
.line6{
fill: none;
stroke: #ff00ff;
stroke-width: 1px;
}
.line7{
fill: none;
stroke: #00ffff;
stroke-width: 1px;
}
.line8{
fill: none;
stroke: #ffff00;
stroke-width: 1px;
}
.line9{
fill: none;
stroke: #ccc6666;
stroke-width: 1px;
}
.line10{
fill: none;
stroke: #663399;
stroke-width: 1px;
}
.line11{
fill: none;
stroke: #339900;
stroke-width: 1px;
}
.line12{
fill: none;
stroke: #9966FF;
stroke-width: 1px;
}
/* default fill styles */
.fill1{
fill: #cc0000;
fill-opacity: 0.2;
stroke: none;
}
.fill2{
fill: #0000cc;
fill-opacity: 0.2;
stroke: none;
}
.fill3{
fill: #00cc00;
fill-opacity: 0.2;
stroke: none;
}
.fill4{
fill: #ffcc00;
fill-opacity: 0.2;
stroke: none;
}
.fill5{
fill: #00ccff;
fill-opacity: 0.2;
stroke: none;
}
.fill6{
fill: #ff00ff;
fill-opacity: 0.2;
stroke: none;
}
.fill7{
fill: #00ffff;
fill-opacity: 0.2;
stroke: none;
}
.fill8{
fill: #ffff00;
fill-opacity: 0.2;
stroke: none;
}
.fill9{
fill: #cc6666;
fill-opacity: 0.2;
stroke: none;
}
.fill10{
fill: #663399;
fill-opacity: 0.2;
stroke: none;
}
.fill11{
fill: #339900;
fill-opacity: 0.2;
stroke: none;
}
.fill12{
fill: #9966FF;
fill-opacity: 0.2;
stroke: none;
}
/* default line styles */
.key1,.dataPoint1{
fill: #ff0000;
stroke: none;
stroke-width: 1px;
}
.key2,.dataPoint2{
fill: #0000ff;
stroke: none;
stroke-width: 1px;
}
.key3,.dataPoint3{
fill: #00ff00;
stroke: none;
stroke-width: 1px;
}
.key4,.dataPoint4{
fill: #ffcc00;
stroke: none;
stroke-width: 1px;
}
.key5,.dataPoint5{
fill: #00ccff;
stroke: none;
stroke-width: 1px;
}
.key6,.dataPoint6{
fill: #ff00ff;
stroke: none;
stroke-width: 1px;
}
.key7,.dataPoint7{
fill: #00ffff;
stroke: none;
stroke-width: 1px;
}
.key8,.dataPoint8{
fill: #ffff00;
stroke: none;
stroke-width: 1px;
}
.key9,.dataPoint9{
fill: #cc6666;
stroke: none;
stroke-width: 1px;
}
.key10,.dataPoint10{
fill: #663399;
stroke: none;
stroke-width: 1px;
}
.key11,.dataPoint11{
fill: #339900;
stroke: none;
stroke-width: 1px;
}
.key12,.dataPoint12{
fill: #9966FF;
stroke: none;
stroke-width: 1px;
}"""

11
TimeSeries.py

@ -1,10 +1,6 @@
#!/usr/bin/env python
import SVG
def get_pairs( i ):
i = iter( i )
while True: yield i.next(), i.next()
class Plot( SVG.Plot ):
"""=== For creating SVG plots of scalar temporal data
@ -121,10 +117,9 @@ class Plot( SVG.Plot ):
super( self.__class__, self ).add_data( data )
def process_data( self, data ):
pairs = get_pairs( data['data'] )
pairs = map( lambda (x,y): (self.parse_date(x),y), pairs )
pairs.sort()
data['data'] = zip( *pairs )
super( self.__class__, self ).process_data( data )
# the date should be in the first element, so parse it out
data['data'][0] = map( self.parse_date, data['data'][0] )
def get_min_x_value( self ):
return self._min_x_value

2
__init__.py

@ -1,5 +1,7 @@
#!/usr/bin/env python
__all__ = ( 'Plot', 'TimeSeries' )
from SVG import *
from xml.dom import minidom as dom
try:

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