Current File : //lib/python3/dist-packages/reportlab/graphics/widgetbase.py
#Copyright ReportLab Europe Ltd. 2000-2017
#see license.txt for license details
#history https://hg.reportlab.com/hg-public/reportlab/log/tip/src/reportlab/graphics/widgetbase.py
__version__='3.3.0'
__doc__='''Base class for user-defined graphical widgets'''
from reportlab.graphics import shapes
from reportlab import rl_config
from reportlab.lib import colors
from reportlab.lib.validators import *
from reportlab.lib.attrmap import *
from weakref import ref as weakref_ref
class PropHolder:
'''Base for property holders'''
_attrMap = None
def verify(self):
"""If the _attrMap attribute is not None, this
checks all expected attributes are present; no
unwanted attributes are present; and (if a
checking function is found) checks each
attribute has a valid value. Either succeeds
or raises an informative exception.
"""
if self._attrMap is not None:
for key in self.__dict__.keys():
if key[0] != '_':
msg = "Unexpected attribute %s found in %s" % (key, self)
assert key in self._attrMap, msg
for attr, metavalue in self._attrMap.items():
msg = "Missing attribute %s from %s" % (attr, self)
assert hasattr(self, attr), msg
value = getattr(self, attr)
args = (value, attr, self.__class__.__name__)
assert metavalue.validate(value), "Invalid value %s for attribute %s in class %s" % args
if rl_config.shapeChecking:
"""This adds the ability to check every attribute assignment
as it is made. It slows down shapes but is a big help when
developing. It does not get defined if rl_config.shapeChecking = 0.
"""
def __setattr__(self, name, value):
"""By default we verify. This could be off
in some parallel base classes."""
validateSetattr(self,name,value)
def getProperties(self,recur=1):
"""Returns a list of all properties which can be edited and
which are not marked as private. This may include 'child
widgets' or 'primitive shapes'. You are free to override
this and provide alternative implementations; the default
one simply returns everything without a leading underscore.
"""
from reportlab.lib.validators import isValidChild
# TODO when we need it, but not before -
# expose sequence contents?
props = {}
for name in self.__dict__.keys():
if name[0:1] != '_':
component = getattr(self, name)
if recur and isValidChild(component):
# child object, get its properties too
childProps = component.getProperties(recur=recur)
for childKey, childValue in childProps.items():
#key might be something indexed like '[2].fillColor'
#or simple like 'fillColor'; in the former case we
#don't need a '.' between me and my child.
if childKey[0] == '[':
props['%s%s' % (name, childKey)] = childValue
else:
props['%s.%s' % (name, childKey)] = childValue
else:
props[name] = component
return props
def setProperties(self, propDict):
"""Permits bulk setting of properties. These may include
child objects e.g. "chart.legend.width = 200".
All assignments will be validated by the object as if they
were set individually in python code.
All properties of a top-level object are guaranteed to be
set before any of the children, which may be helpful to
widget designers.
"""
childPropDicts = {}
for name, value in propDict.items():
parts = name.split('.', 1)
if len(parts) == 1:
#simple attribute, set it now
setattr(self, name, value)
else:
(childName, remains) = parts
try:
childPropDicts[childName][remains] = value
except KeyError:
childPropDicts[childName] = {remains: value}
# now assign to children
for childName, childPropDict in childPropDicts.items():
child = getattr(self, childName)
child.setProperties(childPropDict)
def dumpProperties(self, prefix=""):
"""Convenience. Lists them on standard output. You
may provide a prefix - mostly helps to generate code
samples for documentation.
"""
propList = list(self.getProperties().items())
propList.sort()
if prefix:
prefix = prefix + '.'
for (name, value) in propList:
print('%s%s = %s' % (prefix, name, value))
class Widget(PropHolder, shapes.UserNode):
"""Base for all user-defined widgets. Keep as simple as possible. Does
not inherit from Shape so that we can rewrite shapes without breaking
widgets and vice versa."""
def _setKeywords(self,**kw):
for k,v in kw.items():
if k not in self.__dict__:
setattr(self,k,v)
def draw(self):
msg = "draw() must be implemented for each Widget!"
raise NotImplementedError(msg)
def demo(self):
msg = "demo() must be implemented for each Widget!"
raise NotImplementedError(msg)
def provideNode(self):
return self.draw()
def getBounds(self):
"Return outer boundary as x1,y1,x2,y2. Can be overridden for efficiency"
return self.draw().getBounds()
class ScaleWidget(Widget):
'''Contents with a scale and offset'''
_attrMap = AttrMap(
x = AttrMapValue(isNumber,desc="x offset"),
y = AttrMapValue(isNumber,desc="y offset"),
scale = AttrMapValue(isNumber,desc="scale"),
contents = AttrMapValue(None,desc="Contained drawable elements"),
)
def __init__(self,x=0,y=0,scale=1.0,contents=None):
self.x = x
self.y = y
if not contents: contents=[]
elif not isinstance(contents,(tuple,list)):
contents = (contents,)
self.contents = list(contents)
self.scale = scale
def draw(self):
return shapes.Group(transform=(self.scale,0,0,self.scale,self.x,self.y),*self.contents)
_ItemWrapper={}
class CloneMixin:
def clone(self,**kwds):
n = self.__class__()
n.__dict__.clear()
n.__dict__.update(self.__dict__)
if kwds: n.__dict__.update(kwds)
return n
class TypedPropertyCollection(PropHolder):
"""A container with properties for objects of the same kind.
This makes it easy to create lists of objects. You initialize
it with a class of what it is to contain, and that is all you
can add to it. You can assign properties to the collection
as a whole, or to a numeric index within it; if so it creates
a new child object to hold that data.
So:
wedges = TypedPropertyCollection(WedgeProperties)
wedges.strokeWidth = 2 # applies to all
wedges.strokeColor = colors.red # applies to all
wedges[3].strokeColor = colors.blue # only to one
The last line should be taken as a prescription of how to
create wedge no. 3 if one is needed; no error is raised if
there are only two data points.
We try and make sensible use of tuple indices.
line[(3,x)] is backed by line[(3,)] == line[3] & line
"""
def __init__(self, exampleClass, **kwds):
#give it same validation rules as what it holds
self.__dict__['_value'] = exampleClass(**kwds)
self.__dict__['_children'] = {}
def wKlassFactory(self,Klass):
class WKlass(Klass,CloneMixin):
def __getattr__(self,name):
try:
return self.__class__.__bases__[0].__getattr__(self,name)
except:
parent = self.parent
c = parent._children
x = self.__propholder_index__
while x:
if x in c:
return getattr(c[x],name)
x = x[:-1]
return getattr(parent,name)
@property
def parent(self):
return self.__propholder_parent__()
return WKlass
def __getitem__(self, x):
x = tuple(x) if isinstance(x,(tuple,list)) else (x,)
try:
return self._children[x]
except KeyError:
Klass = self._value.__class__
if Klass in _ItemWrapper:
WKlass = _ItemWrapper[Klass]
else:
_ItemWrapper[Klass] = WKlass = self.wKlassFactory(Klass)
child = WKlass()
for i in filter(lambda x,K=list(child.__dict__.keys()): x in K,list(child._attrMap.keys())):
del child.__dict__[i]
child.__dict__.update(dict(
__propholder_parent__ = weakref_ref(self),
__propholder_index__ = x[:-1])
)
self._children[x] = child
return child
def __contains__(self,key):
return (tuple(key) if isinstance(key,(tuple,list)) else (key,)) in self._children
def __setitem__(self, key, value):
assert isinstance(value, self._value.__class__), (
"This collection can only hold objects of type %s" % self._value.__class__.__name__)
def __len__(self):
return len(list(self._children.keys()))
def getProperties(self,recur=1):
# return any children which are defined and whatever
# differs from the parent
props = {}
for key, value in self._value.getProperties(recur=recur).items():
props['%s' % key] = value
for idx in self._children.keys():
childProps = self._children[idx].getProperties(recur=recur)
for key, value in childProps.items():
if not hasattr(self,key) or getattr(self, key)!=value:
newKey = '[%s].%s' % (idx if len(idx)>1 else idx[0], key)
props[newKey] = value
return props
def setVector(self,**kw):
for name, value in kw.items():
for i, v in enumerate(value):
setattr(self[i],name,v)
def __getattr__(self,name):
return getattr(self._value,name)
def __setattr__(self,name,value):
return setattr(self._value,name,value)
def checkAttr(self, key, a, default=None):
return getattr(self[key], a, default) if key in self else default
def tpcGetItem(obj,x):
'''return obj if it's not a TypedPropertyCollection else obj[x]'''
return obj[x] if isinstance(obj,TypedPropertyCollection) else obj
def isWKlass(obj):
if not hasattr(obj,'__propholder_parent__'): return
ph = obj.__propholder_parent__
if not isinstance(ph,weakref_ref): return
return isinstance(ph(),TypedPropertyCollection)
## No longer needed!
class StyleProperties(PropHolder):
"""A container class for attributes used in charts and legends.
Attributes contained can be those for any graphical element
(shape?) in the ReportLab graphics package. The idea for this
container class is to be useful in combination with legends
and/or the individual appearance of data series in charts.
A legend could be as simple as a wrapper around a list of style
properties, where the 'desc' attribute contains a descriptive
string and the rest could be used by the legend e.g. to draw
something like a color swatch. The graphical presentation of
the legend would be its own business, though.
A chart could be inspecting a legend or, more directly, a list
of style properties to pick individual attributes that it knows
about in order to render a particular row of the data. A bar
chart e.g. could simply use 'strokeColor' and 'fillColor' for
drawing the bars while a line chart could also use additional
ones like strokeWidth.
"""
_attrMap = AttrMap(
strokeWidth = AttrMapValue(isNumber,desc='width of the stroke line'),
strokeLineCap = AttrMapValue(isNumber,desc='Line cap 0=butt, 1=round & 2=square',advancedUsage=1),
strokeLineJoin = AttrMapValue(isNumber,desc='Line join 0=miter, 1=round & 2=bevel',advancedUsage=1),
strokeMiterLimit = AttrMapValue(None,desc='miter limit control miter line joins',advancedUsage=1),
strokeDashArray = AttrMapValue(isListOfNumbersOrNone,desc='dashing patterns e.g. (1,3)'),
strokeOpacity = AttrMapValue(isNumber,desc='level of transparency (alpha) accepts values between 0..1',advancedUsage=1),
strokeColor = AttrMapValue(isColorOrNone,desc='the color of the stroke'),
fillColor = AttrMapValue(isColorOrNone,desc='the filling color'),
desc = AttrMapValue(isString),
)
def __init__(self, **kwargs):
"Initialize with attributes if any."
for k, v in kwargs.items():
setattr(self, k, v)
def __setattr__(self, name, value):
"Verify attribute name and value, before setting it."
validateSetattr(self,name,value)
class TwoCircles(Widget):
def __init__(self):
self.leftCircle = shapes.Circle(100,100,20, fillColor=colors.red)
self.rightCircle = shapes.Circle(300,100,20, fillColor=colors.red)
def draw(self):
return shapes.Group(self.leftCircle, self.rightCircle)
class Face(Widget):
"""This draws a face with two eyes.
It exposes a couple of properties
to configure itself and hides all other details.
"""
_attrMap = AttrMap(
x = AttrMapValue(isNumber),
y = AttrMapValue(isNumber),
size = AttrMapValue(isNumber),
skinColor = AttrMapValue(isColorOrNone),
eyeColor = AttrMapValue(isColorOrNone),
mood = AttrMapValue(OneOf('happy','sad','ok')),
)
def __init__(self):
self.x = 10
self.y = 10
self.size = 80
self.skinColor = None
self.eyeColor = colors.blue
self.mood = 'happy'
def demo(self):
pass
def draw(self):
s = self.size # abbreviate as we will use this a lot
g = shapes.Group()
g.transform = [1,0,0,1,self.x, self.y]
# background
g.add(shapes.Circle(s * 0.5, s * 0.5, s * 0.5, fillColor=self.skinColor))
# left eye
g.add(shapes.Circle(s * 0.35, s * 0.65, s * 0.1, fillColor=colors.white))
g.add(shapes.Circle(s * 0.35, s * 0.65, s * 0.05, fillColor=self.eyeColor))
# right eye
g.add(shapes.Circle(s * 0.65, s * 0.65, s * 0.1, fillColor=colors.white))
g.add(shapes.Circle(s * 0.65, s * 0.65, s * 0.05, fillColor=self.eyeColor))
# nose
g.add(shapes.Polygon(
points=[s * 0.5, s * 0.6, s * 0.4, s * 0.3, s * 0.6, s * 0.3],
fillColor=None))
# mouth
if self.mood == 'happy':
offset = -0.05
elif self.mood == 'sad':
offset = +0.05
else:
offset = 0
g.add(shapes.Polygon(
points = [
s * 0.3, s * 0.2, #left of mouth
s * 0.7, s * 0.2, #right of mouth
s * 0.6, s * (0.2 + offset), # the bit going up or down
s * 0.4, s * (0.2 + offset) # the bit going up or down
],
fillColor = colors.pink,
strokeColor = colors.red,
strokeWidth = s * 0.03
))
return g
class TwoFaces(Widget):
def __init__(self):
self.faceOne = Face()
self.faceOne.mood = "happy"
self.faceTwo = Face()
self.faceTwo.x = 100
self.faceTwo.mood = "sad"
def draw(self):
"""Just return a group"""
return shapes.Group(self.faceOne, self.faceTwo)
def demo(self):
"""The default case already looks good enough,
no implementation needed here"""
pass
class Sizer(Widget):
"Container to show size of all enclosed objects"
_attrMap = AttrMap(BASE=shapes.SolidShape,
contents = AttrMapValue(isListOfShapes,desc="Contained drawable elements"),
)
def __init__(self, *elements):
self.contents = []
self.fillColor = colors.cyan
self.strokeColor = colors.magenta
for elem in elements:
self.add(elem)
def _addNamedNode(self,name,node):
'if name is not None add an attribute pointing to node and add to the attrMap'
if name:
if name not in list(self._attrMap.keys()):
self._attrMap[name] = AttrMapValue(isValidChild)
setattr(self, name, node)
def add(self, node, name=None):
"""Appends non-None child node to the 'contents' attribute. In addition,
if a name is provided, it is subsequently accessible by name
"""
# propagates properties down
if node is not None:
assert isValidChild(node), "Can only add Shape or UserNode objects to a Group"
self.contents.append(node)
self._addNamedNode(name,node)
def getBounds(self):
# get bounds of each object
if self.contents:
b = []
for elem in self.contents:
b.append(elem.getBounds())
return shapes.getRectsBounds(b)
else:
return (0,0,0,0)
def draw(self):
g = shapes.Group()
(x1, y1, x2, y2) = self.getBounds()
r = shapes.Rect(
x = x1,
y = y1,
width = x2-x1,
height = y2-y1,
fillColor = self.fillColor,
strokeColor = self.strokeColor
)
g.add(r)
for elem in self.contents:
g.add(elem)
return g
class CandleStickProperties(PropHolder):
_attrMap = AttrMap(
strokeWidth = AttrMapValue(isNumber, desc='Width of a line.'),
strokeColor = AttrMapValue(isColorOrNone, desc='Color of a line or border.'),
strokeDashArray = AttrMapValue(isListOfNumbersOrNone, desc='Dash array of a line.'),
crossWidth = AttrMapValue(isNumberOrNone,desc="cross line width",advancedUsage=1),
crossLo = AttrMapValue(isNumberOrNone,desc="cross line low value",advancedUsage=1),
crossHi = AttrMapValue(isNumberOrNone,desc="cross line high value",advancedUsage=1),
boxWidth = AttrMapValue(isNumberOrNone,desc="width of the box part",advancedUsage=1),
boxFillColor = AttrMapValue(isColorOrNone, desc='fill color of box'),
boxStrokeColor = AttrMapValue(NotSetOr(isColorOrNone), desc='stroke color of box'),
boxStrokeDashArray = AttrMapValue(NotSetOr(isListOfNumbersOrNone), desc='Dash array of the box.'),
boxStrokeWidth = AttrMapValue(NotSetOr(isNumber), desc='Width of the box lines.'),
boxLo = AttrMapValue(isNumberOrNone,desc="low value of the box",advancedUsage=1),
boxMid = AttrMapValue(isNumberOrNone,desc="middle box line value",advancedUsage=1),
boxHi = AttrMapValue(isNumberOrNone,desc="high value of the box",advancedUsage=1),
boxSides = AttrMapValue(isBoolean,desc="whether to show box sides",advancedUsage=1),
position = AttrMapValue(isNumberOrNone,desc="position of the candle",advancedUsage=1),
chart = AttrMapValue(None,desc="our chart",advancedUsage=1),
candleKind = AttrMapValue(OneOf('vertical','horizontal'),desc="candle direction",advancedUsage=1),
axes = AttrMapValue(SequenceOf(isString,emptyOK=0,lo=2,hi=2),desc="candle direction",advancedUsage=1),
)
def __init__(self,**kwds):
self.strokeWidth = kwds.pop('strokeWidth',1)
self.strokeColor = kwds.pop('strokeColor',colors.black)
self.strokeDashArray = kwds.pop('strokeDashArray',None)
self.crossWidth = kwds.pop('crossWidth',5)
self.crossLo = kwds.pop('crossLo',None)
self.crossHi = kwds.pop('crossHi',None)
self.boxWidth = kwds.pop('boxWidth',None)
self.boxFillColor = kwds.pop('boxFillColor',None)
self.boxStrokeColor =kwds.pop('boxStrokeColor',NotSetOr._not_set)
self.boxStrokeWidth =kwds.pop('boxStrokeWidth',NotSetOr._not_set)
self.boxStrokeDashArray =kwds.pop('boxStrokeDashArray',NotSetOr._not_set)
self.boxLo = kwds.pop('boxLo',None)
self.boxMid = kwds.pop('boxMid',None)
self.boxHi = kwds.pop('boxHi',None)
self.boxSides = kwds.pop('boxSides',True)
self.position = kwds.pop('position',None)
self.candleKind = kwds.pop('candleKind','vertical')
self.axes = kwds.pop('axes',['categoryAxis','valueAxis'])
chart = kwds.pop('chart',None)
self.chart = weakref_ref(chart) if chart else (lambda:None)
def __call__(self,_x,_y,_size,_color):
'''the symbol interface'''
chart = self.chart()
xA = getattr(chart,self.axes[0])
_xScale = getattr(xA,'midScale',None)
if not _xScale: _xScale = getattr(xA,'scale')
xScale = lambda x: _xScale(x) if x is not None else None
yA = getattr(chart,self.axes[1])
_yScale = getattr(yA,'midScale',None)
if not _yScale: _yScale = getattr(yA,'scale')
yScale = lambda x: _yScale(x) if x is not None else None
G = shapes.Group().add
strokeWidth = self.strokeWidth
strokeColor = self.strokeColor
strokeDashArray = self.strokeDashArray
crossWidth = self.crossWidth
crossLo = yScale(self.crossLo)
crossHi = yScale(self.crossHi)
boxWidth = self.boxWidth
boxFillColor = self.boxFillColor
boxStrokeColor = NotSetOr.conditionalValue(self.boxStrokeColor,strokeColor)
boxStrokeWidth = NotSetOr.conditionalValue(self.boxStrokeWidth,strokeWidth)
boxStrokeDashArray = NotSetOr.conditionalValue(self.boxStrokeDashArray,strokeDashArray)
boxLo = yScale(self.boxLo)
boxMid = yScale(self.boxMid)
boxHi = yScale(self.boxHi)
position = xScale(self.position)
candleKind = self.candleKind
haveBox = None not in (boxWidth,boxLo,boxHi)
haveLine = None not in (crossLo,crossHi)
def aLine(x0,y0,x1,y1):
if candleKind!='vertical':
x0,y0 = y0,x0
x1,y1 = y1,x1
G(shapes.Line(x0,y0,x1,y1,strokeWidth=strokeWidth,strokeColor=strokeColor,strokeDashArray=strokeDashArray))
if haveBox:
boxLo, boxHi = min(boxLo,boxHi), max(boxLo,boxHi)
if haveLine:
crossLo, crossHi = min(crossLo,crossHi), max(crossLo,crossHi)
if not haveBox or crossLo>=boxHi or crossHi<=boxLo:
aLine(position,crossLo,position,crossHi)
if crossWidth is not None:
aLine(position-crossWidth*0.5,crossLo,position+crossWidth*0.5,crossLo)
aLine(position-crossWidth*0.5,crossHi,position+crossWidth*0.5,crossHi)
elif haveBox:
if crossLo<boxLo:
aLine(position,crossLo,position,boxLo)
aLine(position-crossWidth*0.5,crossLo,position+crossWidth*0.5,crossLo)
if crossHi>boxHi:
aLine(position,boxHi,position,crossHi)
aLine(position-crossWidth*0.5,crossHi,position+crossWidth*0.5,crossHi)
if haveBox:
x = position - boxWidth*0.5
y = boxLo
h = boxHi - boxLo
w = boxWidth
if candleKind!='vertical':
x, y, w, h = y, x, h, w
G(shapes.Rect(x,y,w,h,strokeColor=boxStrokeColor if self.boxSides else None,strokeWidth=boxStrokeWidth,strokeDashArray=boxStrokeDashArray,fillColor=boxFillColor))
if not self.boxSides:
aLine(position-0.5*boxWidth,boxHi,position+0.5*boxWidth,boxHi)
aLine(position-0.5*boxWidth,boxLo,position+0.5*boxWidth,boxLo)
if boxMid is not None:
aLine(position-0.5*boxWidth,boxMid,position+0.5*boxWidth,boxMid)
return G.__self__
def CandleSticks(**kwds):
return TypedPropertyCollection(CandleStickProperties,**kwds)
def test():
from reportlab.graphics.charts.piecharts import WedgeProperties
wedges = TypedPropertyCollection(WedgeProperties)
wedges.fillColor = colors.red
wedges.setVector(fillColor=(colors.blue,colors.green,colors.white))
print(len(_ItemWrapper))
d = shapes.Drawing(400, 200)
tc = TwoCircles()
d.add(tc)
from reportlab.graphics import renderPDF
renderPDF.drawToFile(d, 'sample_widget.pdf', 'A Sample Widget')
print('saved sample_widget.pdf')
d = shapes.Drawing(400, 200)
f = Face()
f.skinColor = colors.yellow
f.mood = "sad"
d.add(f, name='theFace')
print('drawing 1 properties:')
d.dumpProperties()
renderPDF.drawToFile(d, 'face.pdf', 'A Sample Widget')
print('saved face.pdf')
d2 = d.expandUserNodes()
renderPDF.drawToFile(d2, 'face_copy.pdf', 'An expanded drawing')
print('saved face_copy.pdf')
print('drawing 2 properties:')
d2.dumpProperties()
if __name__=='__main__':
test()
Mini Shell