#! /usr/bin/python2.3 #Copyright ReportLab Europe Ltd. 2000-2004 #see license.txt for license details #history http://www.reportlab.co.uk/cgi-bin/viewcvs.cgi/public/reportlab/trunk/reportlab/graphics/testshapes.py # testshapes.py - draws shapes onto a PDF canvas. """ Execute the script to see some test drawings. This contains a number of routines to generate test drawings for reportlab/graphics. For now many of them are contrived, but we will expand them to try and trip up any parser. Feel free to add more. """ __version__ = ''' $Id $ ''' import os, sys from reportlab.lib import colors from reportlab.lib.units import cm from reportlab.pdfgen.canvas import Canvas from reportlab.pdfbase.pdfmetrics import stringWidth from reportlab.platypus import Flowable from reportlab.graphics.shapes import * from reportlab.graphics.renderPDF import _PDFRenderer import unittest _FONTS = ['Times-Roman','Courier','Times-BoldItalic',] ######################################################### # # Collections of shape drawings. # ######################################################### def getFailedDrawing(funcName): """Generate a drawing in case something goes really wrong. This will create a drawing to be displayed whenever some other drawing could not be executed, because the generating function does something terribly wrong! The box contains an attention triangle, plus some error message. """ D = Drawing(400, 200) points = [200,170, 140,80, 260,80] D.add(Polygon(points, strokeWidth=0.5*cm, strokeColor=colors.red, fillColor=colors.yellow)) s = String(200, 40, "Error in generating function '%s'!" % funcName, textAnchor='middle') D.add(s) return D # These are the real drawings to be eye-balled. def getDrawing01(): """Hello World, on a rectangular background. The rectangle's fillColor is yellow. The string's fillColor is red. """ D = Drawing(400, 200) D.add(Rect(50, 50, 300, 100, fillColor=colors.yellow)) D.add(String(180,100, 'Hello World', fillColor=colors.red)) return D def getDrawing02(): """Various Line shapes. The lines are blue and their strokeWidth is 5 mm. One line has a strokeDashArray set to [5, 10, 15]. """ D = Drawing(400, 200) D.add(Line(50,50, 300,100, strokeColor=colors.blue, strokeWidth=0.5*cm, )) D.add(Line(50,100, 300,50, strokeColor=colors.blue, strokeWidth=0.5*cm, strokeDashArray=[5, 10, 15], )) #x = 1/0 # Comment this to see the actual drawing! return D def getDrawing03(): """Text strings in various sizes and different fonts. Font size increases from 12 to 36 and from bottom left to upper right corner. The first ones should be in Times-Roman. Finally, a solitary Courier string at the top right corner. """ D = Drawing(400, 200) for size in range(12, 36, 4): D.add(String(10+size*2, 10+size*2, 'Hello World', fontName=_FONTS[0], fontSize=size)) D.add(String(150, 150, 'Hello World', fontName=_FONTS[1], fontSize=36)) return D def getDrawing04(): """Text strings in various colours. Colours are blue, yellow and red from bottom left to upper right. """ D = Drawing(400, 200) i = 0 for color in (colors.blue, colors.yellow, colors.red): D.add(String(50+i*30, 50+i*30, 'Hello World', fillColor=color)) i = i + 1 return D def getDrawing05(): """Text strings with various anchors (alignments). Text alignment conforms to the anchors in the left column. """ D = Drawing(400, 200) lineX = 250 D.add(Line(lineX,10, lineX,190, strokeColor=colors.gray)) y = 130 for anchor in ('start', 'middle', 'end'): D.add(String(lineX, y, 'Hello World', textAnchor=anchor)) D.add(String(50, y, anchor + ':')) y = y - 30 return D def getDrawing06(): """This demonstrates all the basic shapes at once. There are no groups or references. Each solid shape should have a purple fill. """ purple = colors.purple purple = colors.green D = Drawing(400, 200) #, fillColor=purple) D.add(Line(10,10, 390,190)) D.add(Circle(100,100,20, fillColor=purple)) D.add(Circle(200,100,40, fillColor=purple)) D.add(Circle(300,100,30, fillColor=purple)) D.add(Wedge(330,100,40, -10,40, fillColor=purple)) D.add(PolyLine([120,10, 130,20, 140,10, 150,20, 160,10, 170,20, 180,10, 190,20, 200,10], fillColor=purple)) D.add(Polygon([300,20, 350,20, 390,80, 300,75, 330,40], fillColor=purple)) D.add(Ellipse(50,150, 40, 20, fillColor=purple)) D.add(Rect(120,150, 60,30, strokeWidth=10, strokeColor=colors.yellow, fillColor=purple)) #square corners D.add(Rect(220, 150, 60, 30, 10, 10, fillColor=purple)) #round corners D.add(String(10,50, 'Basic Shapes', fillColor=colors.black)) return D def getDrawing07(): """This tests the ability to translate and rotate groups. The first set of axes should be near the bottom left of the drawing. The second should be rotated counterclockwise by 15 degrees. The third should be rotated by 30 degrees.""" D = Drawing(400, 200) Axis = Group( Line(0,0,100,0), #x axis Line(0,0,0,50), # y axis Line(0,10,10,10), #ticks on y axis Line(0,20,10,20), Line(0,30,10,30), Line(0,40,10,40), Line(10,0,10,10), #ticks on x axis Line(20,0,20,10), Line(30,0,30,10), Line(40,0,40,10), Line(50,0,50,10), Line(60,0,60,10), Line(70,0,70,10), Line(80,0,80,10), Line(90,0,90,10), String(20, 35, 'Axes', fill=colors.black) ) firstAxisGroup = Group(Axis) firstAxisGroup.translate(10,10) D.add(firstAxisGroup) secondAxisGroup = Group(Axis) secondAxisGroup.translate(150,10) secondAxisGroup.rotate(15) D.add(secondAxisGroup) thirdAxisGroup = Group(Axis, transform=mmult(translate(300,10), rotate(30))) D.add(thirdAxisGroup) return D def getDrawing08(): """This tests the ability to scale coordinates. The bottom left set of axes should be near the bottom left of the drawing. The bottom right should be stretched vertically by a factor of 2. The top left one should be stretched horizontally by a factor of 2. The top right should have the vertical axiss leaning over to the right by 30 degrees.""" D = Drawing(400, 200) Axis = Group( Line(0,0,100,0), #x axis Line(0,0,0,50), # y axis Line(0,10,10,10), #ticks on y axis Line(0,20,10,20), Line(0,30,10,30), Line(0,40,10,40), Line(10,0,10,10), #ticks on x axis Line(20,0,20,10), Line(30,0,30,10), Line(40,0,40,10), Line(50,0,50,10), Line(60,0,60,10), Line(70,0,70,10), Line(80,0,80,10), Line(90,0,90,10), String(20, 35, 'Axes', fill=colors.black) ) firstAxisGroup = Group(Axis) firstAxisGroup.translate(10,10) D.add(firstAxisGroup) secondAxisGroup = Group(Axis) secondAxisGroup.translate(150,10) secondAxisGroup.scale(1,2) D.add(secondAxisGroup) thirdAxisGroup = Group(Axis) thirdAxisGroup.translate(10,125) thirdAxisGroup.scale(2,1) D.add(thirdAxisGroup) fourthAxisGroup = Group(Axis) fourthAxisGroup.translate(250,125) fourthAxisGroup.skew(30,0) D.add(fourthAxisGroup) return D def getDrawing09(): """This tests rotated strings Some renderers will have a separate mechanism for font drawing. This test just makes sure strings get transformed the same way as regular graphics.""" D = Drawing(400, 200) fontName = _FONTS[0] fontSize = 12 text = "I should be totally horizontal and enclosed in a box" textWidth = stringWidth(text, fontName, fontSize) g1 = Group( String(20, 20, text, fontName=fontName, fontSize = fontSize), Rect(18, 18, textWidth + 4, fontSize + 4, fillColor=None) ) D.add(g1) text = "I should slope up by 15 degrees, so my right end is higher than my left" textWidth = stringWidth(text, fontName, fontSize) g2 = Group( String(20, 20, text, fontName=fontName, fontSize = fontSize), Rect(18, 18, textWidth + 4, fontSize + 4, fillColor=None) ) g2.translate(0, 50) g2.rotate(15) D.add(g2) return D def getDrawing10(): """This tests nested groups with multiple levels of coordinate transformation. Each box should be staggered up and to the right, moving by 25 points each time.""" D = Drawing(400, 200) fontName = _FONTS[0] fontSize = 12 g1 = Group( Rect(0, 0, 100, 20, fillColor=colors.yellow), String(5, 5, 'Text in the box', fontName=fontName, fontSize = fontSize) ) D.add(g1) g2 = Group(g1, transform = translate(25,25)) D.add(g2) g3 = Group(g2, transform = translate(25,25)) D.add(g3) g4 = Group(g3, transform = translate(25,25)) D.add(g4) return D from widgets.signsandsymbols import SmileyFace def getDrawing11(): '''test of anchoring''' def makeSmiley(x, y, size, color): "Make a smiley data item representation." d = size s = SmileyFace() s.fillColor = color s.x = x-d s.y = y-d s.size = d*2 return s D = Drawing(400, 200) #, fillColor=colors.purple) g = Group(transform=(1,0,0,1,0,0)) g.add(makeSmiley(100,100,10,colors.red)) g.add(Line(90,100,110,100,strokeColor=colors.green)) g.add(Line(100,90,100,110,strokeColor=colors.green)) D.add(g) g = Group(transform=(2,0,0,2,100,-100)) g.add(makeSmiley(100,100,10,colors.blue)) g.add(Line(90,100,110,100,strokeColor=colors.green)) g.add(Line(100,90,100,110,strokeColor=colors.green)) D.add(g) g = Group(transform=(2,0,0,2,0,0)) return D def getDrawing12(): """Text strings in a non-standard font. All that is required is to place the .afm and .pfb files on the font patch given in rl_config.py, for example in reportlab/lib/fonts/. """ faceName = "Wargames-Regular" D = Drawing(400, 200) for size in range(12, 36, 4): D.add(String(10+size*2, 10+size*2, 'Hello World', fontName=faceName, fontSize=size)) return D def getDrawing13(): 'Test Various TTF Fonts' from reportlab.pdfbase import pdfmetrics, ttfonts pdfmetrics.registerFont(ttfonts.TTFont("LuxiSerif", "luxiserif.ttf")) pdfmetrics.registerFont(ttfonts.TTFont("Rina", "rina.ttf")) _FONTS[1] = 'LuxiSerif' _FONTS[2] = 'Rina' F = ['Times-Roman','LuxiSerif', 'Rina'] if sys.platform=='win32': for name, ttf in [('Adventurer Light SF','Advlit.ttf'),('ArialMS','ARIAL.TTF'), ('Book Antiqua','BKANT.TTF'), ('Century Gothic','GOTHIC.TTF'), ('Comic Sans MS', 'COMIC.TTF'), ('Elementary Heavy SF Bold','Vwagh.ttf'), ('Firenze SF','flot.ttf'), ('Garamond','GARA.TTF'), ('Jagger','Rols.ttf'), ('Monotype Corsiva','MTCORSVA.TTF'), ('Seabird SF','seag.ttf'), ('Tahoma','TAHOMA.TTF'), ('VerdanaMS','VERDANA.TTF'), ]: for D in ('c:\WINNT','c:\Windows'): fn = os.path.join(D,'Fonts',ttf) if os.path.isfile(fn): try: f = ttfonts.TTFont(name, fn) pdfmetrics.registerFont(f) F.append(name) except: pass def drawit(F,w=400,h=200,fontSize=12,slack=2,gap=5): D = Drawing(w,h) th = 2*gap + fontSize*1.2 gh = gap + .2*fontSize y = h maxx = 0 for fontName in F: y -= th text = fontName+": I should be totally horizontal and enclosed in a box" textWidth = stringWidth(text, fontName, fontSize) maxx = max(maxx,textWidth+20) D.add( Group(Rect(8, y-gh, textWidth + 4, th, strokeColor=colors.red, strokeWidth=.5, fillColor=colors.lightgrey), String(10, y, text, fontName=fontName, fontSize = fontSize))) y -= 5 return maxx, h-y+gap, D maxx, maxy, D = drawit(F) if maxx>400 or maxy>200: _,_,D = drawit(F,maxx,maxy) return D def getAllFunctionDrawingNames(doTTF=1): "Get a list of drawing function names from somewhere." funcNames = [] # Here we get the names from the global name space. symbols = globals().keys() symbols.sort() for funcName in symbols: if funcName[0:10] == 'getDrawing': if doTTF or funcName!='getDrawing13': funcNames.append(funcName) return funcNames def _evalFuncDrawing(name, D, l=None, g=None): try: d = eval(name + '()', g or globals(), l or locals()) except: d = getFailedDrawing(name) D.append((d, eval(name + '.__doc__'), name[3:])) def getAllTestDrawings(doTTF=1): D = [] for f in getAllFunctionDrawingNames(doTTF=doTTF): _evalFuncDrawing(f,D) return D def writePDF(drawings): "Create and save a PDF file containing some drawings." pdfPath = os.path.splitext(sys.argv[0])[0] + '.pdf' c = Canvas(pdfPath) c.setFont(_FONTS[0], 32) c.drawString(80, 750, 'ReportLab Graphics-Shapes Test') # Print drawings in a loop, with their doc strings. c.setFont(_FONTS[0], 12) y = 740 i = 1 for (drawing, docstring, funcname) in drawings: if y < 300: # Allows 5-6 lines of text. c.showPage() y = 740 # Draw a title. y = y - 30 c.setFont(_FONTS[2],12) c.drawString(80, y, '%s (#%d)' % (funcname, i)) c.setFont(_FONTS[0],12) y = y - 14 textObj = c.beginText(80, y) textObj.textLines(docstring) c.drawText(textObj) y = textObj.getY() y = y - drawing.height drawing.drawOn(c, 80, y) i = i + 1 c.save() print 'wrote %s ' % pdfPath class ShapesTestCase(unittest.TestCase): "Test generating all kinds of shapes." def setUp(self): "Prepare some things before the tests start." self.funcNames = getAllFunctionDrawingNames() self.drawings = [] def tearDown(self): "Do what has to be done after the tests are over." writePDF(self.drawings) # This should always succeed. If each drawing would be # wrapped in a dedicated test method like this one, it # would be possible to have a count for wrong tests # as well... Something like this is left for later... def testAllDrawings(self): "Make a list of drawings." for f in self.funcNames: if f[0:10] == 'getDrawing': # Make an instance and get its doc string. # If that fails, use a default error drawing. _evalFuncDrawing(f,self.drawings) def makeSuite(): "Make a test suite for unit testing." suite = unittest.TestSuite() suite.addTest(ShapesTestCase('testAllDrawings')) return suite if __name__ == "__main__": unittest.TextTestRunner().run(makeSuite())