664 lines
24 KiB
Python
664 lines
24 KiB
Python
#Copyright ReportLab Europe Ltd. 2000-2004
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#see license.txt for license details
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#history www.reportlab.co.uk/rl-cgi/viewcvs.cgi/rlextra/graphics/Csrc/renderPM/renderP.py
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__version__=''' $Id: renderPM.py 2830 2006-04-05 15:18:32Z rgbecker $ '''
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"""Usage:
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from reportlab.graphics import renderPM
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renderPM.drawToFile(drawing,filename,fmt='GIF',configPIL={....})
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Other functions let you create a PM drawing as string or into a PM buffer.
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Execute the script to see some test drawings."""
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from reportlab.graphics.shapes import *
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from reportlab.graphics.renderbase import StateTracker, getStateDelta, renderScaledDrawing
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from reportlab.pdfbase.pdfmetrics import getFont, unicode2T1
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from math import sin, cos, pi, ceil
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from reportlab.lib.utils import getStringIO, open_and_read
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from reportlab import rl_config
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class RenderPMError(Exception):
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pass
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import string, os, sys
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try:
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import _renderPM
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except ImportError, errMsg:
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raise ImportError, "No module named _renderPM\n" + \
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(str(errMsg)!='No module named _renderPM' and "it may be the wrong version or badly installed!" or
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"see http://www.reportlab.org/rl_addons.html")
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from types import TupleType, ListType
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_SeqTypes = (TupleType,ListType)
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def _getImage():
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try:
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from PIL import Image
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except ImportError:
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import Image
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return Image
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def Color2Hex(c):
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#assert isinstance(colorobj, colors.Color) #these checks don't work well RGB
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if c: return ((0xFF&int(255*c.red)) << 16) | ((0xFF&int(255*c.green)) << 8) | (0xFF&int(255*c.blue))
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return c
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# the main entry point for users...
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def draw(drawing, canvas, x, y, showBoundary=rl_config._unset_):
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"""As it says"""
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R = _PMRenderer()
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R.draw(renderScaledDrawing(drawing), canvas, x, y, showBoundary=showBoundary)
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from reportlab.graphics.renderbase import Renderer
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class _PMRenderer(Renderer):
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"""This draws onto a pix map image. It needs to be a class
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rather than a function, as some image-specific state tracking is
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needed outside of the state info in the SVG model."""
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def __init__(self):
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self._tracker = StateTracker()
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def pop(self):
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self._tracker.pop()
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self.applyState()
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def push(self,node):
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deltas = getStateDelta(node)
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self._tracker.push(deltas)
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self.applyState()
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def applyState(self):
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s = self._tracker.getState()
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self._canvas.ctm = s['ctm']
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self._canvas.strokeWidth = s['strokeWidth']
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self._canvas.strokeColor = Color2Hex(s['strokeColor'])
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self._canvas.lineCap = s['strokeLineCap']
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self._canvas.lineJoin = s['strokeLineJoin']
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da = s['strokeDashArray']
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da = da and (0,da) or None
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self._canvas.dashArray = da
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self._canvas.fillColor = Color2Hex(s['fillColor'])
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self._canvas.setFont(s['fontName'], s['fontSize'])
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def initState(self,x,y):
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deltas = STATE_DEFAULTS.copy()
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deltas['transform'] = self._canvas._baseCTM[0:4]+(x,y)
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self._tracker.push(deltas)
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self.applyState()
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def drawNode(self, node):
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"""This is the recursive method called for each node
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in the tree"""
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#apply state changes
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self.push(node)
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#draw the object, or recurse
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self.drawNodeDispatcher(node)
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# restore the state
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self.pop()
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def drawRect(self, rect):
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c = self._canvas
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if rect.rx == rect.ry == 0:
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#plain old rectangle, draw clockwise (x-axis to y-axis) direction
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c.rect(rect.x,rect.y, rect.width, rect.height)
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else:
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c.roundRect(rect.x,rect.y, rect.width, rect.height, rect.rx, rect.ry)
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def drawLine(self, line):
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self._canvas.line(line.x1,line.y1,line.x2,line.y2)
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def drawImage(self, image):
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if image.path and os.path.exists(image.path):
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if type(image.path) is type(''):
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im = _getImage().open(image.path).convert('RGB')
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else:
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im = image.path.convert('RGB')
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srcW, srcH = im.size
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dstW, dstH = image.width, image.height
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if dstW is None: dstW = srcW
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if dstH is None: dstH = srcH
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self._canvas._aapixbuf(
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image.x, image.y, dstW, dstH,
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im.tostring(), srcW, srcH, 3,
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)
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def drawCircle(self, circle):
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c = self._canvas
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c.circle(circle.cx,circle.cy, circle.r)
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c.fillstrokepath()
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def drawPolyLine(self, polyline, _doClose=0):
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P = polyline.points
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assert len(P) >= 2, 'Polyline must have 1 or more points'
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c = self._canvas
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c.pathBegin()
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c.moveTo(P[0], P[1])
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for i in range(2, len(P), 2):
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c.lineTo(P[i], P[i+1])
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if _doClose:
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c.pathClose()
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c.pathFill()
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c.pathStroke()
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def drawEllipse(self, ellipse):
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c=self._canvas
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c.ellipse(ellipse.cx, ellipse.cy, ellipse.rx,ellipse.ry)
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c.fillstrokepath()
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def drawPolygon(self, polygon):
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self.drawPolyLine(polygon,_doClose=1)
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def drawString(self, stringObj):
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canv = self._canvas
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fill = canv.fillColor
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if fill is not None:
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S = self._tracker.getState()
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text_anchor = S['textAnchor']
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fontName = S['fontName']
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fontSize = S['fontSize']
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font = getFont(fontName)
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text = stringObj.text
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x = stringObj.x
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y = stringObj.y
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if not text_anchor in ['start','inherited']:
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textLen = stringWidth(text, fontName,fontSize)
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if text_anchor=='end':
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x = x-textLen
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elif text_anchor=='middle':
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x = x - textLen/2
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else:
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raise ValueError, 'bad value for textAnchor '+str(text_anchor)
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if getattr(font,'_dynamicFont',None):
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if isinstance(text,unicode): text = text.encode('utf8')
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canv.drawString(x,y,text)
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else:
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fc = font
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if not isinstance(text,unicode):
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try:
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text = text.decode('utf8')
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except UnicodeDecodeError,e:
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i,j = e.args[2:4]
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raise UnicodeDecodeError(*(e.args[:4]+('%s\n%s-->%s<--%s' % (e.args[4],text[i-10:i],text[i:j],text[j:j+10]),)))
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FT = unicode2T1(text,[font]+font.substitutionFonts)
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n = len(FT)
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nm1 = n-1
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wscale = 0.001*fontSize
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for i in xrange(n):
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f, t = FT[i]
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if f!=fc:
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canv.setFont(f.fontName,fontSize)
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fc = f
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canv.drawString(x,y,t)
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if i!=nm1:
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x += wscale*sum(map(f.widths.__getitem__,map(ord,t)))
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if font!=fc:
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canv.setFont(fontName,fontSize)
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def drawPath(self, path):
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c = self._canvas
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if path is EmptyClipPath:
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del c._clipPaths[-1]
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if c._clipPaths:
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P = c._clipPaths[-1]
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icp = P.isClipPath
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P.isClipPath = 1
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self.drawPath(P)
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P.isClipPath = icp
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else:
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c.clipPathClear()
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return
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c.pathBegin()
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drawFuncs = (c.moveTo, c.lineTo, c.curveTo, c.pathClose)
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from reportlab.graphics.shapes import _renderPath
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isClosed = _renderPath(path, drawFuncs)
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if path.isClipPath:
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c.clipPathSet()
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c._clipPaths.append(path)
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else:
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if isClosed: c.pathFill()
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c.pathStroke()
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def _setFont(gs,fontName,fontSize):
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try:
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gs.setFont(fontName,fontSize)
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except _renderPM.Error, errMsg:
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if errMsg.args[0]!="Can't find font!": raise
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#here's where we try to add a font to the canvas
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try:
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f = getFont(fontName)
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if _renderPM._version<='0.98': #added reader arg in 0.99
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_renderPM.makeT1Font(fontName,f.face.findT1File(),f.encoding.vector)
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else:
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_renderPM.makeT1Font(fontName,f.face.findT1File(),f.encoding.vector,open_and_read)
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except:
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s1, s2 = map(str,sys.exc_info()[:2])
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raise RenderPMError, "Can't setFont(%s) missing the T1 files?\nOriginally %s: %s" % (fontName,s1,s2)
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gs.setFont(fontName,fontSize)
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def _convert2pilp(im):
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Image = _getImage()
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return im.convert("P", dither=Image.NONE, palette=Image.ADAPTIVE)
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def _saveAsPICT(im,fn,fmt,transparent=None):
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im = _convert2pilp(im)
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cols, rows = im.size
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#s = _renderPM.pil2pict(cols,rows,im.tostring(),im.im.getpalette(),transparent is not None and Color2Hex(transparent) or -1)
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s = _renderPM.pil2pict(cols,rows,im.tostring(),im.im.getpalette())
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if not hasattr(fn,'write'):
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open(os.path.splitext(fn)[0]+'.'+string.lower(fmt),'wb').write(s)
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if os.name=='mac':
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from reportlab.lib.utils import markfilename
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markfilename(fn,ext='PICT')
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else:
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fn.write(s)
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BEZIER_ARC_MAGIC = 0.5522847498 #constant for drawing circular arcs w/ Beziers
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class PMCanvas:
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def __init__(self,w,h,dpi=72,bg=0xffffff,configPIL=None):
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'''configPIL dict is passed to image save method'''
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scale = dpi/72.0
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w = int(w*scale+0.5)
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h = int(h*scale+0.5)
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self.__dict__['_gs'] = _renderPM.gstate(w,h,bg=bg)
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self.__dict__['_bg'] = bg
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self.__dict__['_baseCTM'] = (scale,0,0,scale,0,0)
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self.__dict__['_clipPaths'] = []
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self.__dict__['configPIL'] = configPIL
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self.__dict__['_dpi'] = dpi
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self.ctm = self._baseCTM
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def _drawTimeResize(self,w,h,bg=None):
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if bg is None: bg = self._bg
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self._drawing.width, self._drawing.height = w, h
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A = {'ctm':None, 'strokeWidth':None, 'strokeColor':None, 'lineCap':None, 'lineJoin':None, 'dashArray':None, 'fillColor':None}
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gs = self._gs
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fN,fS = gs.fontName, gs.fontSize
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for k in A.keys():
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A[k] = getattr(gs,k)
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del gs, self._gs
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gs = self.__dict__['_gs'] = _renderPM.gstate(w,h,bg=bg)
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for k in A.keys():
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setattr(self,k,A[k])
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gs.setFont(fN,fS)
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def toPIL(self):
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im = _getImage().new('RGB', size=(self._gs.width, self._gs.height))
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im.fromstring(self._gs.pixBuf)
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return im
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def saveToFile(self,fn,fmt=None):
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im = self.toPIL()
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if fmt is None:
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if type(fn) is not StringType:
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raise ValueError, "Invalid type '%s' for fn when fmt is None" % type(fn)
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fmt = os.path.splitext(fn)[1]
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if fmt.startswith('.'): fmt = fmt[1:]
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configPIL = self.configPIL or {}
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fmt = string.upper(fmt)
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if fmt in ['GIF']:
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im = _convert2pilp(im)
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elif fmt in ['PCT','PICT']:
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return _saveAsPICT(im,fn,fmt,transparent=configPIL.get('transparent',None))
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elif fmt in ['PNG','TIFF','BMP', 'PPM', 'TIF']:
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if fmt=='TIF': fmt = 'TIFF'
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if fmt=='PNG':
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try:
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from PIL import PngImagePlugin
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except ImportError:
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import PngImagePlugin
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elif fmt=='BMP':
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try:
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from PIL import BmpImagePlugin
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except ImportError:
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import BmpImagePlugin
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elif fmt in ('JPG','JPEG'):
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fmt = 'JPEG'
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else:
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raise RenderPMError,"Unknown image kind %s" % fmt
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if fmt=='TIFF':
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tc = configPIL.get('transparent',None)
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if tc:
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from PIL import ImageChops, Image
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T = 768*[0]
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for o, c in zip((0,256,512), tc.bitmap_rgb()):
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T[o+c] = 255
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#if type(fn) is type(''): ImageChops.invert(im.point(T).convert('L').point(255*[0]+[255])).save(fn+'_mask.gif','GIF')
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im = Image.merge('RGBA', im.split()+(ImageChops.invert(im.point(T).convert('L').point(255*[0]+[255])),))
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#if type(fn) is type(''): im.save(fn+'_masked.gif','GIF')
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for a,d in ('resolution',self._dpi),('resolution unit','inch'):
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configPIL[a] = configPIL.get(a,d)
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apply(im.save,(fn,fmt),configPIL)
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if not hasattr(fn,'write') and os.name=='mac':
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from reportlab.lib.utils import markfilename
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markfilename(fn,ext=fmt)
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def saveToString(self,fmt='GIF'):
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s = getStringIO()
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self.saveToFile(s,fmt=fmt)
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return s.getvalue()
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def _saveToBMP(self,f):
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'''
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Niki Spahiev, <niki@vintech.bg>, asserts that this is a respectable way to get BMP without PIL
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f is a file like object to which the BMP is written
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'''
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import struct
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gs = self._gs
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pix, width, height = gs.pixBuf, gs.width, gs.height
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f.write(struct.pack('=2sLLLLLLhh24x','BM',len(pix)+54,0,54,40,width,height,1,24))
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rowb = width * 3
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for o in range(len(pix),0,-rowb):
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f.write(pix[o-rowb:o])
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f.write( '\0' * 14 )
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def setFont(self,fontName,fontSize,leading=None):
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_setFont(self._gs,fontName,fontSize)
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def __setattr__(self,name,value):
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setattr(self._gs,name,value)
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def __getattr__(self,name):
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return getattr(self._gs,name)
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def fillstrokepath(self,stroke=1,fill=1):
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if fill: self.pathFill()
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if stroke: self.pathStroke()
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def _bezierArcSegmentCCW(self, cx,cy, rx,ry, theta0, theta1):
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"""compute the control points for a bezier arc with theta1-theta0 <= 90.
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Points are computed for an arc with angle theta increasing in the
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counter-clockwise (CCW) direction. returns a tuple with starting point
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and 3 control points of a cubic bezier curve for the curvto opertator"""
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# Requires theta1 - theta0 <= 90 for a good approximation
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assert abs(theta1 - theta0) <= 90
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cos0 = cos(pi*theta0/180.0)
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sin0 = sin(pi*theta0/180.0)
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x0 = cx + rx*cos0
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y0 = cy + ry*sin0
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cos1 = cos(pi*theta1/180.0)
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sin1 = sin(pi*theta1/180.0)
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x3 = cx + rx*cos1
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y3 = cy + ry*sin1
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dx1 = -rx * sin0
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dy1 = ry * cos0
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#from pdfgeom
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halfAng = pi*(theta1-theta0)/(2.0 * 180.0)
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k = abs(4.0 / 3.0 * (1.0 - cos(halfAng) ) /(sin(halfAng)) )
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x1 = x0 + dx1 * k
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y1 = y0 + dy1 * k
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dx2 = -rx * sin1
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dy2 = ry * cos1
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x2 = x3 - dx2 * k
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y2 = y3 - dy2 * k
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return ((x0,y0), ((x1,y1), (x2,y2), (x3,y3)) )
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def bezierArcCCW(self, cx,cy, rx,ry, theta0, theta1):
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"""return a set of control points for Bezier approximation to an arc
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with angle increasing counter clockwise. No requirement on |theta1-theta0| <= 90
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However, it must be true that theta1-theta0 > 0."""
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# I believe this is also clockwise
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# pretty much just like Robert Kern's pdfgeom.BezierArc
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angularExtent = theta1 - theta0
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# break down the arc into fragments of <=90 degrees
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if abs(angularExtent) <= 90.0: # we just need one fragment
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angleList = [(theta0,theta1)]
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else:
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Nfrag = int( ceil( abs(angularExtent)/90.) )
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fragAngle = float(angularExtent)/ Nfrag # this could be negative
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angleList = []
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for ii in range(Nfrag):
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a = theta0 + ii * fragAngle
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b = a + fragAngle # hmm.. is I wonder if this is precise enought
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angleList.append((a,b))
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ctrlpts = []
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for (a,b) in angleList:
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if not ctrlpts: # first time
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[(x0,y0), pts] = self._bezierArcSegmentCCW(cx,cy, rx,ry, a,b)
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ctrlpts.append(pts)
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else:
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[(tmpx,tmpy), pts] = self._bezierArcSegmentCCW(cx,cy, rx,ry, a,b)
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ctrlpts.append(pts)
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return ((x0,y0), ctrlpts)
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def addEllipsoidalArc(self, cx,cy, rx, ry, ang1, ang2):
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"""adds an ellisesoidal arc segment to a path, with an ellipse centered
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on cx,cy and with radii (major & minor axes) rx and ry. The arc is
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drawn in the CCW direction. Requires: (ang2-ang1) > 0"""
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((x0,y0), ctrlpts) = self.bezierArcCCW(cx,cy, rx,ry,ang1,ang2)
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self.lineTo(x0,y0)
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for ((x1,y1), (x2,y2),(x3,y3)) in ctrlpts:
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self.curveTo(x1,y1,x2,y2,x3,y3)
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def drawCentredString(self, x, y, text, text_anchor='middle'):
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if self.fillColor is not None:
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textLen = stringWidth(text, self.fontName,self.fontSize)
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if text_anchor=='end':
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x -= textLen
|
|
elif text_anchor=='middle':
|
|
x -= textLen/2.
|
|
self.drawString(x,y,text)
|
|
|
|
def drawRightString(self, text, x, y):
|
|
self.drawCentredString(text,x,y,text_anchor='end')
|
|
|
|
def line(self,x1,y1,x2,y2):
|
|
if self.strokeColor is not None:
|
|
self.pathBegin()
|
|
self.moveTo(x1,y1)
|
|
self.lineTo(x2,y2)
|
|
self.pathStroke()
|
|
|
|
def rect(self,x,y,width,height,stroke=1,fill=1):
|
|
self.pathBegin()
|
|
self.moveTo(x, y)
|
|
self.lineTo(x+width, y)
|
|
self.lineTo(x+width, y + height)
|
|
self.lineTo(x, y + height)
|
|
self.pathClose()
|
|
self.fillstrokepath(stroke=stroke,fill=fill)
|
|
|
|
def roundRect(self, x, y, width, height, rx,ry):
|
|
"""rect(self, x, y, width, height, rx,ry):
|
|
Draw a rectangle if rx or rx and ry are specified the corners are
|
|
rounded with ellipsoidal arcs determined by rx and ry
|
|
(drawn in the counter-clockwise direction)"""
|
|
if rx==0: rx = ry
|
|
if ry==0: ry = rx
|
|
x2 = x + width
|
|
y2 = y + height
|
|
self.pathBegin()
|
|
self.moveTo(x+rx,y)
|
|
self.addEllipsoidalArc(x2-rx, y+ry, rx, ry, 270, 360 )
|
|
self.addEllipsoidalArc(x2-rx, y2-ry, rx, ry, 0, 90)
|
|
self.addEllipsoidalArc(x+rx, y2-ry, rx, ry, 90, 180)
|
|
self.addEllipsoidalArc(x+rx, y+ry, rx, ry, 180, 270)
|
|
self.pathClose()
|
|
self.fillstrokepath()
|
|
|
|
def circle(self, cx, cy, r):
|
|
"add closed path circle with center cx,cy and axes r: counter-clockwise orientation"
|
|
self.ellipse(cx,cy,r,r)
|
|
|
|
def ellipse(self, cx,cy,rx,ry):
|
|
"""add closed path ellipse with center cx,cy and axes rx,ry: counter-clockwise orientation
|
|
(remember y-axis increases downward) """
|
|
self.pathBegin()
|
|
# first segment
|
|
x0 = cx + rx # (x0,y0) start pt
|
|
y0 = cy
|
|
|
|
x3 = cx # (x3,y3) end pt of arc
|
|
y3 = cy-ry
|
|
|
|
x1 = cx+rx
|
|
y1 = cy-ry*BEZIER_ARC_MAGIC
|
|
|
|
x2 = x3 + rx*BEZIER_ARC_MAGIC
|
|
y2 = y3
|
|
self.moveTo(x0, y0)
|
|
self.curveTo(x1,y1,x2,y2,x3,y3)
|
|
# next segment
|
|
x0 = x3
|
|
y0 = y3
|
|
|
|
x3 = cx-rx
|
|
y3 = cy
|
|
|
|
x1 = cx-rx*BEZIER_ARC_MAGIC
|
|
y1 = cy-ry
|
|
|
|
x2 = x3
|
|
y2 = cy- ry*BEZIER_ARC_MAGIC
|
|
self.curveTo(x1,y1,x2,y2,x3,y3)
|
|
# next segment
|
|
x0 = x3
|
|
y0 = y3
|
|
|
|
x3 = cx
|
|
y3 = cy+ry
|
|
|
|
x1 = cx-rx
|
|
y1 = cy+ry*BEZIER_ARC_MAGIC
|
|
|
|
x2 = cx -rx*BEZIER_ARC_MAGIC
|
|
y2 = cy+ry
|
|
self.curveTo(x1,y1,x2,y2,x3,y3)
|
|
#last segment
|
|
x0 = x3
|
|
y0 = y3
|
|
|
|
x3 = cx+rx
|
|
y3 = cy
|
|
|
|
x1 = cx+rx*BEZIER_ARC_MAGIC
|
|
y1 = cy+ry
|
|
|
|
x2 = cx+rx
|
|
y2 = cy+ry*BEZIER_ARC_MAGIC
|
|
self.curveTo(x1,y1,x2,y2,x3,y3)
|
|
self.pathClose()
|
|
|
|
def saveState(self):
|
|
'''do nothing for compatibility'''
|
|
pass
|
|
|
|
def setFillColor(self,aColor):
|
|
self.fillColor = Color2Hex(aColor)
|
|
|
|
def setStrokeColor(self,aColor):
|
|
self.strokeColor = Color2Hex(aColor)
|
|
|
|
restoreState = saveState
|
|
|
|
# compatibility routines
|
|
def setLineCap(self,cap):
|
|
self.lineCap = cap
|
|
|
|
def setLineWidth(self,width):
|
|
self.strokeWidth = width
|
|
|
|
def drawToPMCanvas(d, dpi=72, bg=0xffffff, configPIL=None, showBoundary=rl_config._unset_):
|
|
d = renderScaledDrawing(d)
|
|
c = PMCanvas(d.width, d.height, dpi=dpi, bg=bg, configPIL=configPIL)
|
|
draw(d, c, 0, 0, showBoundary=showBoundary)
|
|
return c
|
|
|
|
def drawToPIL(d, dpi=72, bg=0xffffff, configPIL=None, showBoundary=rl_config._unset_):
|
|
return drawToPMCanvas(d, dpi=dpi, bg=bg, configPIL=configPIL, showBoundary=showBoundary).toPIL()
|
|
|
|
def drawToPILP(d, dpi=72, bg=0xffffff, configPIL=None, showBoundary=rl_config._unset_):
|
|
Image = _getImage()
|
|
im = drawToPIL(d, dpi=dpi, bg=bg, configPIL=configPIL, showBoundary=showBoundary)
|
|
return im.convert("P", dither=Image.NONE, palette=Image.ADAPTIVE)
|
|
|
|
def drawToFile(d,fn,fmt='GIF', dpi=72, bg=0xffffff, configPIL=None, showBoundary=rl_config._unset_):
|
|
'''create a pixmap and draw drawing, d to it then save as a file
|
|
configPIL dict is passed to image save method'''
|
|
c = drawToPMCanvas(d, dpi=dpi, bg=bg, configPIL=configPIL, showBoundary=showBoundary)
|
|
c.saveToFile(fn,fmt)
|
|
|
|
def drawToString(d,fmt='GIF', dpi=72, bg=0xffffff, configPIL=None, showBoundary=rl_config._unset_):
|
|
s = getStringIO()
|
|
drawToFile(d,s,fmt=fmt, dpi=dpi, bg=bg, configPIL=configPIL)
|
|
return s.getvalue()
|
|
|
|
save = drawToFile
|
|
|
|
def test():
|
|
def ext(x):
|
|
if x=='tiff': x='tif'
|
|
return x
|
|
#grab all drawings from the test module and write out.
|
|
#make a page of links in HTML to assist viewing.
|
|
import os
|
|
from reportlab.graphics import testshapes
|
|
getAllTestDrawings = testshapes.getAllTestDrawings
|
|
drawings = []
|
|
if not os.path.isdir('pmout'):
|
|
os.mkdir('pmout')
|
|
htmlTop = """<html><head><title>renderPM output results</title></head>
|
|
<body>
|
|
<h1>renderPM results of output</h1>
|
|
"""
|
|
htmlBottom = """</body>
|
|
</html>
|
|
"""
|
|
html = [htmlTop]
|
|
|
|
i = 0
|
|
#print in a loop, with their doc strings
|
|
for (drawing, docstring, name) in getAllTestDrawings(doTTF=hasattr(_renderPM,'ft_get_face')):
|
|
fnRoot = 'renderPM%d' % i
|
|
if 1 or i==10:
|
|
w = int(drawing.width)
|
|
h = int(drawing.height)
|
|
html.append('<hr><h2>Drawing %s %d</h2>\n<pre>%s</pre>' % (name, i, docstring))
|
|
|
|
for k in ['gif','tiff', 'png', 'jpg', 'pct']:
|
|
if k in ['gif','png','jpg','pct']:
|
|
html.append('<p>%s format</p>\n' % string.upper(k))
|
|
try:
|
|
filename = '%s.%s' % (fnRoot, ext(k))
|
|
fullpath = os.path.join('pmout', filename)
|
|
if os.path.isfile(fullpath):
|
|
os.remove(fullpath)
|
|
if k=='pct':
|
|
from reportlab.lib.colors import white
|
|
drawToFile(drawing,fullpath,fmt=k,configPIL={'transparent':white})
|
|
else:
|
|
drawToFile(drawing,fullpath,fmt=k)
|
|
if k in ['gif','png','jpg']:
|
|
html.append('<img src="%s" border="1"><br>\n' % filename)
|
|
print 'wrote',fullpath
|
|
except AttributeError:
|
|
print 'Problem drawing %s file'%k
|
|
raise
|
|
if os.environ.get('RL_NOEPSPREVIEW','0')=='1': drawing.__dict__['preview'] = 0
|
|
drawing.save(formats=['eps','pdf'],outDir='pmout',fnRoot=fnRoot)
|
|
i = i + 1
|
|
#if i==10: break
|
|
html.append(htmlBottom)
|
|
htmlFileName = os.path.join('pmout', 'index.html')
|
|
open(htmlFileName, 'w').writelines(html)
|
|
if sys.platform=='mac':
|
|
from reportlab.lib.utils import markfilename
|
|
markfilename(htmlFileName,ext='HTML')
|
|
print 'wrote %s' % htmlFileName
|
|
|
|
if __name__=='__main__':
|
|
test()
|