/usr/lib/python3/dist-packages/reportlab/graphics/widgets/markers.py is in python3-reportlab 3.3.0-1.
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#see license.txt for license details
__version__='3.3.0'
__doc__="""This modules defines a collection of markers used in charts.
"""
from reportlab.graphics.shapes import Rect, Line, Circle, Polygon, Drawing, Group
from reportlab.graphics.widgets.signsandsymbols import SmileyFace
from reportlab.graphics.widgetbase import Widget
from reportlab.lib.validators import isNumber, isColorOrNone, OneOf, Validator
from reportlab.lib.attrmap import AttrMap, AttrMapValue
from reportlab.lib.colors import black
from reportlab.lib.utils import isFunction, isClass
from reportlab.graphics.widgets.flags import Flag
from math import sin, cos, pi
_toradians = pi/180.0
class Marker(Widget):
'''A polymorphic class of markers'''
_attrMap = AttrMap(BASE=Widget,
kind = AttrMapValue(
OneOf(None, 'Square', 'Diamond', 'Circle', 'Cross', 'Triangle', 'StarSix',
'Pentagon', 'Hexagon', 'Heptagon', 'Octagon', 'StarFive',
'FilledSquare', 'FilledCircle', 'FilledDiamond', 'FilledCross',
'FilledTriangle','FilledStarSix', 'FilledPentagon', 'FilledHexagon',
'FilledHeptagon', 'FilledOctagon', 'FilledStarFive',
'Smiley','ArrowHead', 'FilledArrowHead'),
desc='marker type name'),
size = AttrMapValue(isNumber,desc='marker size'),
x = AttrMapValue(isNumber,desc='marker x coordinate'),
y = AttrMapValue(isNumber,desc='marker y coordinate'),
dx = AttrMapValue(isNumber,desc='marker x coordinate adjustment'),
dy = AttrMapValue(isNumber,desc='marker y coordinate adjustment'),
angle = AttrMapValue(isNumber,desc='marker rotation'),
fillColor = AttrMapValue(isColorOrNone, desc='marker fill colour'),
strokeColor = AttrMapValue(isColorOrNone, desc='marker stroke colour'),
strokeWidth = AttrMapValue(isNumber, desc='marker stroke width'),
arrowBarbDx = AttrMapValue(isNumber, desc='arrow only the delta x for the barbs'),
arrowHeight = AttrMapValue(isNumber, desc='arrow only height'),
)
def __init__(self,*args,**kw):
self.setProperties(kw)
self._setKeywords(
kind = None,
strokeColor = black,
strokeWidth = 0.1,
fillColor = None,
size = 5,
x = 0,
y = 0,
dx = 0,
dy = 0,
angle = 0,
arrowBarbDx = -1.25,
arrowHeight = 1.875,
)
def clone(self,**kwds):
n = self.__class__(**self.__dict__)
if kwds: n.__dict__.update(kwds)
return n
def _Smiley(self):
x, y = self.x+self.dx, self.y+self.dy
d = self.size/2.0
s = SmileyFace()
s.fillColor = self.fillColor
s.strokeWidth = self.strokeWidth
s.strokeColor = self.strokeColor
s.x = x-d
s.y = y-d
s.size = d*2
return s
def _Square(self):
x, y = self.x+self.dx, self.y+self.dy
d = self.size/2.0
s = Rect(x-d,y-d,2*d,2*d,fillColor=self.fillColor,strokeColor=self.strokeColor,strokeWidth=self.strokeWidth)
return s
def _Diamond(self):
d = self.size/2.0
return self._doPolygon((-d,0,0,d,d,0,0,-d))
def _Circle(self):
x, y = self.x+self.dx, self.y+self.dy
s = Circle(x,y,self.size/2.0,fillColor=self.fillColor,strokeColor=self.strokeColor,strokeWidth=self.strokeWidth)
return s
def _Cross(self):
x, y = self.x+self.dx, self.y+self.dy
s = float(self.size)
h, s = s/2, s/6
return self._doPolygon((-s,-h,-s,-s,-h,-s,-h,s,-s,s,-s,h,s,h,s,s,h,s,h,-s,s,-s,s,-h))
def _Triangle(self):
x, y = self.x+self.dx, self.y+self.dy
r = float(self.size)/2
c = 30*_toradians
s = sin(30*_toradians)*r
c = cos(c)*r
return self._doPolygon((0,r,-c,-s,c,-s))
def _StarSix(self):
r = float(self.size)/2
c = 30*_toradians
s = sin(c)*r
c = cos(c)*r
z = s/2
g = c/2
return self._doPolygon((0,r,-z,s,-c,s,-s,0,-c,-s,-z,-s,0,-r,z,-s,c,-s,s,0,c,s,z,s))
def _StarFive(self):
R = float(self.size)/2
r = R*sin(18*_toradians)/cos(36*_toradians)
P = []
angle = 90
for i in range(5):
for radius in R, r:
theta = angle*_toradians
P.append(radius*cos(theta))
P.append(radius*sin(theta))
angle = angle + 36
return self._doPolygon(P)
def _Pentagon(self):
return self._doNgon(5)
def _Hexagon(self):
return self._doNgon(6)
def _Heptagon(self):
return self._doNgon(7)
def _Octagon(self):
return self._doNgon(8)
def _ArrowHead(self):
s = self.size
h = self.arrowHeight
b = self.arrowBarbDx
return self._doPolygon((0,0,b,-h,s,0,b,h))
def _doPolygon(self,P):
x, y = self.x+self.dx, self.y+self.dy
if x or y: P = list(map(lambda i,P=P,A=[x,y]: P[i] + A[i&1], list(range(len(P)))))
return Polygon(P, strokeWidth =self.strokeWidth, strokeColor=self.strokeColor, fillColor=self.fillColor)
def _doFill(self):
old = self.fillColor
if old is None:
self.fillColor = self.strokeColor
r = (self.kind and getattr(self,'_'+self.kind[6:]) or Group)()
self.fillColor = old
return r
def _doNgon(self,n):
P = []
size = float(self.size)/2
for i in range(n):
r = (2.*i/n+0.5)*pi
P.append(size*cos(r))
P.append(size*sin(r))
return self._doPolygon(P)
_FilledCircle = _doFill
_FilledSquare = _doFill
_FilledDiamond = _doFill
_FilledCross = _doFill
_FilledTriangle = _doFill
_FilledStarSix = _doFill
_FilledPentagon = _doFill
_FilledHexagon = _doFill
_FilledHeptagon = _doFill
_FilledOctagon = _doFill
_FilledStarFive = _doFill
_FilledArrowHead = _doFill
def draw(self):
if self.kind:
m = getattr(self,'_'+self.kind)
if self.angle:
_x, _dx, _y, _dy = self.x, self.dx, self.y, self.dy
self.x, self.dx, self.y, self.dy = 0,0,0,0
try:
m = m()
finally:
self.x, self.dx, self.y, self.dy = _x, _dx, _y, _dy
if not isinstance(m,Group):
_m, m = m, Group()
m.add(_m)
if self.angle: m.rotate(self.angle)
x, y = _x+_dx, _y+_dy
if x or y: m.shift(x,y)
else:
m = m()
else:
m = Group()
return m
def uSymbol2Symbol(uSymbol,x,y,color):
if isFunction(uSymbol):
symbol = uSymbol(x, y, 5, color)
elif isClass(uSymbol) and issubclass(uSymbol,Widget):
size = 10.
symbol = uSymbol()
symbol.x = x - (size/2)
symbol.y = y - (size/2)
try:
symbol.size = size
symbol.color = color
except:
pass
elif isinstance(uSymbol,Marker) or isinstance(uSymbol,Flag):
symbol = uSymbol.clone()
if isinstance(uSymbol,Marker): symbol.fillColor = symbol.fillColor or color
symbol.x, symbol.y = x, y
else:
symbol = None
return symbol
class _isSymbol(Validator):
def test(self,x):
return hasattr(x,'__call__') or isinstance(x,Marker) or isinstance(x,Flag) or (isinstance(x,type) and issubclass(x,Widget))
isSymbol = _isSymbol()
def makeMarker(name,**kw):
if Marker._attrMap['kind'].validate(name):
m = Marker(**kw)
m.kind = name
elif name[-5:]=='_Flag' and Flag._attrMap['kind'].validate(name[:-5]):
m = Flag(**kw)
m.kind = name[:-5]
m.size = 10
else:
raise ValueError("Invalid marker name %s" % name)
return m
if __name__=='__main__':
D = Drawing()
D.add(Marker())
D.save(fnRoot='Marker',formats=['pdf'], outDir='/tmp')
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