def beginClass(self, name, doc, bases): "Append a graphic demo of a Widget or Drawing at the end of a class." if VERBOSE: print('GraphPdfDocBuilder.beginClass(%s...)' % name) aClass = eval('self.skeleton.moduleSpace.' + name) if issubclass(aClass, Widget): if self.shouldDisplayModule: modName, modDoc, imported = self.shouldDisplayModule self.story.append(Paragraph(modName, self.makeHeadingStyle(self.indentLevel-2, 'module'))) self.story.append(XPreformatted(modDoc, self.bt)) self.shouldDisplayModule = 0 self.hasDisplayedModule = 1 if self.shouldDisplayClasses: self.story.append(Paragraph('Classes', self.makeHeadingStyle(self.indentLevel-1))) self.shouldDisplayClasses = 0 PdfDocBuilder0.beginClass(self, name, doc, bases) self.beginAttributes(aClass) elif issubclass(aClass, Drawing): if self.shouldDisplayModule: modName, modDoc, imported = self.shouldDisplayModule self.story.append(Paragraph(modName, self.makeHeadingStyle(self.indentLevel-2, 'module'))) self.story.append(XPreformatted(modDoc, self.bt)) self.shouldDisplayModule = 0 self.hasDisplayedModule = 1 if self.shouldDisplayClasses: self.story.append(Paragraph('Classes', self.makeHeadingStyle(self.indentLevel-1))) self.shouldDisplayClasses = 0 PdfDocBuilder0.beginClass(self, name, doc, bases)
def beginFunction(self, name, doc, sig): bt = self.bt story = self.story story.append(Paragraph(name+sig, self.makeHeadingStyle(self.indentLevel, 'function'))) if doc: story.append(XPreformatted(htmlescape(doc), bt)) story.append(XPreformatted('', bt))
def __init__(self, text=None, style=getSampleStyleSheet()["Normal"],bulletText = None, dedent=0, frags=None): if text is None: text = """This page tests splitting - this is a pluginFlowable from mymodule.py, using XPreformatted a reportlab style 'Normal' . It should split between the two frames on this page. These frames should be ON A NEW PAGE, otherwise this test has FAILED. This page tests splitting - this XPreformatted should split between the two frames on this page. This page tests splitting - this XPreformatted should split between the two frames on this page. This page tests splitting - this XPreformatted should split between the two frames on this page. This page tests splitting - this XPreformatted should split between the two frames on this page.""" XPreformatted.__init__(self,text,style,bulletText,frags,dedent)
def beginClass(self, name, doc, bases): bt = self.bt story = self.story if bases: bases = [b.__name__ for b in bases] # hack story.append(Paragraph('%s(%s)' % (name,', '.join(bases)), self.makeHeadingStyle(self.indentLevel, 'class'))) else: story.append(Paragraph(name, self.makeHeadingStyle(self.indentLevel, 'class'))) if doc: story.append(XPreformatted(htmlescape(doc), bt)) story.append(XPreformatted('', bt))
def __init__(self, text=None, style=getSampleStyleSheet()["Normal"],bulletText = None, dedent=0, frags=None): if text is None: text = """This page tests splitting - this is a pluginFlowable from mymodule.py, using XPreformatted a reportlab style 'Normal' . It should split between the two frames on this page. These frames should be ON A NEW PAGE, otherwise this test has FAILED. This page tests splitting - this XPreformatted should split between the two frames on this page. This page tests splitting - this XPreformatted should split between the two frames on this page. This page tests splitting - this XPreformatted should split between the two frames on this page. This page tests splitting - this XPreformatted should split between the two frames on this page.""" XPreformatted.__init__(self,text,style,bulletText,frags,dedent)
def beginModule(self, name, doc, imported): story = self.story bt = self.bt story.append(Paragraph(name, self.makeHeadingStyle(self.indentLevel, 'module'))) if doc: story.append(XPreformatted(htmlescape(doc), bt)) story.append(XPreformatted('', bt)) if imported: story.append(Paragraph('Imported modules', self.makeHeadingStyle(self.indentLevel + 1))) for m in imported: p = Paragraph('<bullet>\201</bullet> %s' % m, bt) p.style.bulletIndent = 10 p.style.leftIndent = 18 story.append(p)
def split(self, aW, aH): # Figure out a nice range of splits # # Assume we would prefer 5 lines (at least) on # a splitted flowable before a break, and 4 on # the last flowable after a break. # So, the minimum wrap height for a fragment # will be 5*leading rW, rH = self.wrap(aW, aH) if rH > aH: minH1 = getattr(self.style, 'allowOrphans', 5) * self.style.leading minH2 = getattr(self.style, 'allowWidows', 4) * self.style.leading # If there's no way to fid a decent fragment, # refuse to split if aH < minH1: return [] # Now, don't split too close to the end either pw, ph = self.wrap(aW, aH) if ph - aH < minH2: aH = ph - minH2 return XPreformatted.split(self, aW, aH)
def beginClass(self, name, doc, bases): bt = self.bt story = self.story if bases: bases = map(lambda b: b.__name__, bases) # hack story.append(Paragraph('%s(%s)' % (name, join(bases, ', ')), bt)) else: story.append(Paragraph(name, bt)) story.append(XPreformatted(doc, bt))
def beginClass(self, name, doc, bases): bt = self.bt story = self.story if bases: bases = [b.__name__ for b in bases] # hack story.append(Paragraph('%s(%s)' % (name, ', '.join(bases)), bt)) else: story.append(Paragraph(name, bt)) story.append(XPreformatted(doc, bt))
def test0(self): """Test story with TOC and a cascaded header hierarchy. The story should contain exactly one table of contents that is immediatly followed by a list of of cascaded levels of header lines, each nested one level deeper than the previous one. Features to be visually confirmed by a human being are: 1. TOC lines are indented in multiples of 1 cm. 2. Wrapped TOC lines continue with additional 0.5 cm indentation. 3. Only entries of every second level has links ... """ maxLevels = 12 # Create styles to be used for document headers # on differnet levels. headerLevelStyles = [] for i in range(maxLevels): headerLevelStyles.append(makeHeaderStyle(i)) # Create styles to be used for TOC entry lines # for headers on differnet levels. tocLevelStyles = [] d, e = tableofcontents.delta, tableofcontents.epsilon for i in range(maxLevels): tocLevelStyles.append(makeTocHeaderStyle(i, d, e)) # Build story. story = [] styleSheet = getSampleStyleSheet() bt = styleSheet['BodyText'] description = '<font color=red>%s</font>' % self.test0.__doc__ story.append(XPreformatted(description, bt)) toc = tableofcontents.TableOfContents() toc.levelStyles = tocLevelStyles story.append(toc) for i in range(maxLevels): story.append( Paragraph('HEADER, LEVEL %d' % i, headerLevelStyles[i])) #now put some body stuff in. txt = xmlEscape(randomtext.randomText(randomtext.PYTHON, 5)) para = Paragraph(txt, makeBodyStyle()) story.append(para) path = outputfile('test_platypus_toc.pdf') doc = MyDocTemplate(path) doc.multiBuild(story)
def beginModule(self, name, doc, imported): story = self.story h1, h2, h3, bt = self.h1, self.h2, self.h3, self.bt styleSheet = getSampleStyleSheet() bt1 = styleSheet['BodyText'] story.append(Paragraph(name, h1)) story.append(XPreformatted(doc, bt1)) if imported: story.append(Paragraph('Imported modules', self.makeHeadingStyle(self.indentLevel + 1))) for m in imported: p = Paragraph('<bullet>\201</bullet> %s' % m, bt1) p.style.bulletIndent = 10 p.style.leftIndent = 18 story.append(p)
def testUl(self): from reportlab.platypus import BaseDocTemplate, PageTemplate, Frame, PageBegin from reportlab.lib.units import inch from reportlab.platypus.flowables import AnchorFlowable class MyDocTemplate(BaseDocTemplate): _invalidInitArgs = ('pageTemplates',) def __init__(self, filename, **kw): self.allowSplitting = 0 kw['showBoundary']=1 BaseDocTemplate.__init__(self, filename, **kw) self.addPageTemplates( [ PageTemplate('normal', [Frame(inch, inch, 6.27*inch, 9.69*inch, id='first',topPadding=0,rightPadding=0,leftPadding=0,bottomPadding=0,showBoundary=ShowBoundaryValue(color="red"))], ), ]) styleSheet = getSampleStyleSheet() normal = ParagraphStyle(name='normal',fontName='Times-Roman',fontSize=12,leading=1.2*12,parent=styleSheet['Normal']) normal_sp = ParagraphStyle(name='normal_sp',parent=normal,alignment=TA_JUSTIFY,spaceBefore=12) normal_just = ParagraphStyle(name='normal_just',parent=normal,alignment=TA_JUSTIFY) normal_right = ParagraphStyle(name='normal_right',parent=normal,alignment=TA_RIGHT) normal_center = ParagraphStyle(name='normal_center',parent=normal,alignment=TA_CENTER) normal_indent = ParagraphStyle(name='normal_indent',firstLineIndent=0.5*inch,parent=normal) normal_indent_lv_2 = ParagraphStyle(name='normal_indent_lv_2',firstLineIndent=1.0*inch,parent=normal) texts = ['''Furthermore, a subset of <font size="14">English sentences</font> interesting on quite independent grounds is not quite equivalent to a stipulation to place the constructions into these various categories.''', '''We will bring evidence in favor of The following thesis: most of the methodological work in modern linguistics can be defined in such a way as to impose problems of phonemic and morphological analysis.'''] story =[] a = story.append a(Paragraph("This should <a href=\"#theEnd\" color=\"blue\"><a href=\"#theEnd\" color=\"blue\">jump</a></a> jump to the end!",style=normal)) a(XPreformatted("This should <a href=\"#theEnd\" color=\"blue\"><a href=\"#theEnd\" color=\"blue\">jump</a></a> jump to the end!",style=normal)) a(Paragraph("<a href=\"#theEnd\"><u><font color=\"blue\">ditto</font></u></a>",style=normal)) a(XPreformatted("<a href=\"#theEnd\"><u><font color=\"blue\">ditto</font></u></a>",style=normal)) a(Paragraph("This <font color='CMYKColor(0,0.6,0.94,0)'>should</font> <a href=\"#thePenultimate\" color=\"blue\"><a href=\"#thePenultimate\" color=\"blue\">jump</a></a> jump to the penultimate page!",style=normal)) a(Paragraph("This should <a href=\"#theThird\" color=\"blue\"><a href=\"#theThird\" color=\"blue\">jump</a></a> jump to a justified para!",style=normal)) a(Paragraph("This should <a href=\"#theFourth\" color=\"blue\"><a href=\"#theFourth\" color=\"blue\">jump</a></a> jump to an indented para!",style=normal)) for mode in (0,1): text0 = texts[0] text1 = texts[1] if mode: text0 = text0.replace('English sentences','<b>English sentences</b>').replace('quite equivalent','<i>quite equivalent</i>') text1 = text1.replace('the methodological work','<b>the methodological work</b>').replace('to impose problems','<i>to impose problems</i>') for t in ('u','strike'): for n in xrange(6): for s in (normal,normal_center,normal_right,normal_just,normal_indent, normal_indent_lv_2): for autoLeading in ('','min','max'): if n==4 and s==normal_center and t=='strike' and mode==1: a(Paragraph("<font color=green>The second jump at the beginning should come here <a name=\"thePenultimate\"/><a name=\"thePenultimate\"/>!</font>",style=normal)) elif n==4 and s==normal_just and t=='strike' and mode==1: a(Paragraph("<font color=green>The third jump at the beginning should come just below here to a paragraph with just an a tag in it!</font>",style=normal)) a(Paragraph("<a name=\"theThird\"/>",style=normal)) elif n==4 and s==normal_indent and t=='strike' and mode==1: a(Paragraph("<font color=green>The fourth jump at the beginning should come just below here!</font>",style=normal)) a(AnchorFlowable('theFourth')) a(Paragraph('n=%d style=%s(autoLeading=%s) tag=%s'%(n,s.name,autoLeading,t),style=normal_sp)) a(Paragraph('<para autoleading="%s">%s<%s>%s</%s>. %s <%s>%s</%s>. %s</para>' % ( autoLeading, (s==normal_indent_lv_2 and '<seq id="document" inc="no"/>.<seq id="document_lv_2"/>' or ''), t,' '.join((n+1)*['A']),t,text0,t,' '.join((n+1)*['A']),t,text1), style=s)) a(Paragraph("The jump at the beginning should come here <a name=\"theEnd\"/><a name=\"theEnd\"/>!",style=normal)) doc = MyDocTemplate(outputfile('test_platypus_paragraphs_ul.pdf')) doc.build(story)
def beginFunction(self, name, doc, sig): bt = self.bt story = self.story story.append(Paragraph(name + sig, bt)) story.append(XPreformatted(doc, bt))
def beginModule(self, name, doc, imported): story = self.story bt = self.bt story.append(Paragraph(name, bt)) story.append(XPreformatted(doc, bt))
def __init__(self, *args, **kwargs): XPreformatted.__init__(self, *args, **kwargs)
def old_tables_test(): from reportlab.lib.units import inch, cm from reportlab.platypus.flowables import Image, PageBreak, Spacer, XBox from reportlab.platypus.paragraph import Paragraph from reportlab.platypus.xpreformatted import XPreformatted from reportlab.platypus.flowables import Preformatted from reportlab.platypus.doctemplate import SimpleDocTemplate from reportlab.lib.styles import getSampleStyleSheet, ParagraphStyle from reportlab.platypus.tables import GRID_STYLE, BOX_STYLE, LABELED_GRID_STYLE, COLORED_GRID_STYLE, LIST_STYLE, LongTable rowheights = (24, 16, 16, 16, 16) rowheights2 = (24, 16, 16, 16, 30) colwidths = (50, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32) data = ( ('', 'Jan', 'Feb', 'Mar','Apr','May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'), ('Mugs', 0, 4, 17, 3, 21, 47, 12, 33, 2, -2, 44, 89), ('T-Shirts', 0, 42, 9, -3, 16, 4, 72, 89, 3, 19, 32, 119), ('Key Ring', 0,0,0,0,0,0,1,0,0,0,2,13), ('Hats', 893, 912, '1,212', 643, 789, 159, 888, '1,298', 832, 453, '1,344','2,843') ) data2 = ( ('', 'Jan', 'Feb', 'Mar','Apr','May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'), ('Mugs', 0, 4, 17, 3, 21, 47, 12, 33, 2, -2, 44, 89), ('T-Shirts', 0, 42, 9, -3, 16, 4, 72, 89, 3, 19, 32, 119), ('Key Ring', 0,0,0,0,0,0,1,0,0,0,2,13), ('Hats\nLarge', 893, 912, '1,212', 643, 789, 159, 888, '1,298', 832, 453, '1,344','2,843') ) lst = [] lst.append(Paragraph("Tables", styleSheet['Heading1'])) lst.append(Paragraph(__doc__, styleSheet['BodyText'])) lst.append(Paragraph("The Tables (shown in different styles below) were created using the following code:", styleSheet['BodyText'])) lst.append(Preformatted(""" colwidths = (50, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32) rowheights = (24, 16, 16, 16, 16) data = ( ('', 'Jan', 'Feb', 'Mar','Apr','May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'), ('Mugs', 0, 4, 17, 3, 21, 47, 12, 33, 2, -2, 44, 89), ('T-Shirts', 0, 42, 9, -3, 16, 4, 72, 89, 3, 19, 32, 119), ('Key Ring', 0,0,0,0,0,0,1,0,0,0,2,13), ('Hats', 893, 912, '1,212', 643, 789, 159, 888, '1,298', 832, 453, '1,344','2,843') ) t = Table(data, colwidths, rowheights) """, styleSheet['Code'], dedent=4)) lst.append(Paragraph(""" You can then give the Table a TableStyle object to control its format. The first TableStyle used was created as follows: """, styleSheet['BodyText'])) lst.append(Preformatted(""" GRID_STYLE = TableStyle( [('GRID', (0,0), (-1,-1), 0.25, colors.black), ('ALIGN', (1,1), (-1,-1), 'RIGHT')] ) """, styleSheet['Code'])) lst.append(Paragraph(""" TableStyles are created by passing in a list of commands. There are two types of commands - line commands and cell formatting commands. In all cases, the first three elements of a command are the command name, the starting cell and the ending cell. """, styleSheet['BodyText'])) lst.append(Paragraph(""" Line commands always follow this with the weight and color of the desired lines. Colors can be names, or they can be specified as a (R,G,B) tuple, where R, G and B are floats and (0,0,0) is black. The line command names are: GRID, BOX, OUTLINE, INNERGRID, LINEBELOW, LINEABOVE, LINEBEFORE and LINEAFTER. BOX and OUTLINE are equivalent, and GRID is the equivalent of applying both BOX and INNERGRID. """, styleSheet['BodyText'])) lst.append(Paragraph(""" Cell formatting commands are: """, styleSheet['BodyText'])) lst.append(Paragraph(""" FONT - takes fontname, fontsize and (optional) leading. """, styleSheet['Definition'])) lst.append(Paragraph(""" TEXTCOLOR - takes a color name or (R,G,B) tuple. """, styleSheet['Definition'])) lst.append(Paragraph(""" ALIGNMENT (or ALIGN) - takes one of LEFT, RIGHT, CENTRE (or CENTER) or DECIMAL. """, styleSheet['Definition'])) lst.append(Paragraph(""" LEFTPADDING - defaults to 6. """, styleSheet['Definition'])) lst.append(Paragraph(""" RIGHTPADDING - defaults to 6. """, styleSheet['Definition'])) lst.append(Paragraph(""" BOTTOMPADDING - defaults to 3. """, styleSheet['Definition'])) lst.append(Paragraph(""" A tablestyle is applied to a table by calling Table.setStyle(tablestyle). """, styleSheet['BodyText'])) t = Table(data, colwidths, rowheights) t.setStyle(GRID_STYLE) lst.append(PageBreak()) lst.append(Paragraph("This is GRID_STYLE\n", styleSheet['BodyText'])) lst.append(t) t = Table(data, colwidths, rowheights) t.setStyle(BOX_STYLE) lst.append(Paragraph("This is BOX_STYLE\n", styleSheet['BodyText'])) lst.append(t) lst.append(Paragraph(""" It was created as follows: """, styleSheet['BodyText'])) lst.append(Preformatted(""" BOX_STYLE = TableStyle( [('BOX', (0,0), (-1,-1), 0.50, colors.black), ('ALIGN', (1,1), (-1,-1), 'RIGHT')] ) """, styleSheet['Code'])) t = Table(data, colwidths, rowheights) t.setStyle(LABELED_GRID_STYLE) lst.append(Paragraph("This is LABELED_GRID_STYLE\n", styleSheet['BodyText'])) lst.append(t) t = Table(data2, colwidths, rowheights2) t.setStyle(LABELED_GRID_STYLE) lst.append(Paragraph("This is LABELED_GRID_STYLE ILLUSTRATES EXPLICIT LINE SPLITTING WITH NEWLINE (different heights and data)\n", styleSheet['BodyText'])) lst.append(t) lst.append(Paragraph(""" It was created as follows: """, styleSheet['BodyText'])) lst.append(Preformatted(""" LABELED_GRID_STYLE = TableStyle( [('INNERGRID', (0,0), (-1,-1), 0.25, colors.black), ('BOX', (0,0), (-1,-1), 2, colors.black), ('LINEBELOW', (0,0), (-1,0), 2, colors.black), ('LINEAFTER', (0,0), (0,-1), 2, colors.black), ('ALIGN', (1,1), (-1,-1), 'RIGHT')] ) """, styleSheet['Code'])) lst.append(PageBreak()) t = Table(data, colwidths, rowheights) t.setStyle(COLORED_GRID_STYLE) lst.append(Paragraph("This is COLORED_GRID_STYLE\n", styleSheet['BodyText'])) lst.append(t) lst.append(Paragraph(""" It was created as follows: """, styleSheet['BodyText'])) lst.append(Preformatted(""" COLORED_GRID_STYLE = TableStyle( [('INNERGRID', (0,0), (-1,-1), 0.25, colors.black), ('BOX', (0,0), (-1,-1), 2, colors.red), ('LINEBELOW', (0,0), (-1,0), 2, colors.black), ('LINEAFTER', (0,0), (0,-1), 2, colors.black), ('ALIGN', (1,1), (-1,-1), 'RIGHT')] ) """, styleSheet['Code'])) t = Table(data, colwidths, rowheights) t.setStyle(LIST_STYLE) lst.append(Paragraph("This is LIST_STYLE\n", styleSheet['BodyText'])) lst.append(t) lst.append(Paragraph(""" It was created as follows: """, styleSheet['BodyText'])) lst.append(Preformatted(""" LIST_STYLE = TableStyle( [('LINEABOVE', (0,0), (-1,0), 2, colors.green), ('LINEABOVE', (0,1), (-1,-1), 0.25, colors.black), ('LINEBELOW', (0,-1), (-1,-1), 2, colors.green), ('ALIGN', (1,1), (-1,-1), 'RIGHT')] ) """, styleSheet['Code'])) t = Table(data, colwidths, rowheights) ts = TableStyle( [('LINEABOVE', (0,0), (-1,0), 2, colors.green), ('LINEABOVE', (0,1), (-1,-1), 0.25, colors.black), ('LINEBELOW', (0,-1), (-1,-1), 3, colors.green,'butt'), ('LINEBELOW', (0,-1), (-1,-1), 1, colors.white,'butt'), ('ALIGN', (1,1), (-1,-1), 'RIGHT'), ('TEXTCOLOR', (0,1), (0,-1), colors.red), ('BACKGROUND', (0,0), (-1,0), colors.Color(0,0.7,0.7))] ) t.setStyle(ts) lst.append(Paragraph("This is a custom style\n", styleSheet['BodyText'])) lst.append(t) lst.append(Paragraph(""" It was created as follows: """, styleSheet['BodyText'])) lst.append(Preformatted(""" ts = TableStyle( [('LINEABOVE', (0,0), (-1,0), 2, colors.green), ('LINEABOVE', (0,1), (-1,-1), 0.25, colors.black), ('LINEBELOW', (0,-1), (-1,-1), 3, colors.green,'butt'), ('LINEBELOW', (0,-1), (-1,-1), 1, colors.white,'butt'), ('ALIGN', (1,1), (-1,-1), 'RIGHT'), ('TEXTCOLOR', (0,1), (0,-1), colors.red), ('BACKGROUND', (0,0), (-1,0), colors.Color(0,0.7,0.7))] ) """, styleSheet['Code'])) data = ( ('', 'Jan\nCold', 'Feb\n', 'Mar\n','Apr\n','May\n', 'Jun\nHot', 'Jul\n', 'Aug\nThunder', 'Sep\n', 'Oct\n', 'Nov\n', 'Dec\n'), ('Mugs', 0, 4, 17, 3, 21, 47, 12, 33, 2, -2, 44, 89), ('T-Shirts', 0, 42, 9, -3, 16, 4, 72, 89, 3, 19, 32, 119), ('Key Ring', 0,0,0,0,0,0,1,0,0,0,2,13), ('Hats', 893, 912, '1,212', 643, 789, 159, 888, '1,298', 832, 453, '1,344','2,843') ) c = list(colwidths) c[0] = None c[8] = None t = Table(data, c, [None]+list(rowheights[1:])) t.setStyle(LIST_STYLE) lst.append(Paragraph(""" This is a LIST_STYLE table with the first rowheight set to None ie automatic. The top row cells are split at a newline '\\n' character. The first and August column widths were also set to None. """, styleSheet['BodyText'])) lst.append(t) lst.append(Paragraph(""" This demonstrates a number of features useful in financial statements. The first is decimal alignment; with ALIGN=DECIMAL the numbers align on the points; and the points are aligned based on the RIGHTPADDING, which is usually 3 points so you should set it higher. The second is multiple lines; one can specify double or triple lines and control the separation if desired. Finally, the coloured negative numbers were (we regret to say) done in the style; we don't have a way to conditionally format numbers based on value yet. """, styleSheet['BodyText'])) t = Table([['Corporate Assets','Amount'], ['Fixed Assets','1,234,567.89'], ['Company Vehicle','1,234.8901'], ['Petty Cash','42'], [u'Intellectual Property\u00ae','(42,078,231.56)'], ['Overdraft','(12,345)'], ['Boardroom Flat Screen','60 inches'], ['Net Position','Deep Sh*t.Really'] ], [144,72]) ts = TableStyle( [#first the top row ('ALIGN', (1,1), (-1,-1), 'CENTER'), ('LINEABOVE', (0,0), (-1,0), 1, colors.purple), ('LINEBELOW', (0,0), (-1,0), 1, colors.purple), ('FONT', (0,0), (-1,0), 'Times-Bold'), #bottom row has a line above, and two lines below ('LINEABOVE', (0,-1), (-1,-1), 1, colors.purple), #last 2 are count, sep ('LINEBELOW', (0,-1), (-1,-1), 0.5, colors.purple, 1, None, None, 4,1), ('LINEBELOW', (0,-1), (-1,-1), 1, colors.red), ('FONT', (0,-1), (-1,-1), 'Times-Bold'), #numbers column ('ALIGN', (1,1), (-1,-1), 'DECIMAL'), ('RIGHTPADDING', (1,1), (-1,-1), 36), ('TEXTCOLOR', (1,4), (1,4), colors.red), #red cell ] ) t.setStyle(ts) lst.append(t) lst.append(Spacer(36,36)) lst.append(Paragraph(""" The red numbers should be aligned LEFT & BOTTOM, the blue RIGHT & TOP and the green CENTER & MIDDLE. """, styleSheet['BodyText'])) XY = [['X00y', 'X01y', 'X02y', 'X03y', 'X04y'], ['X10y', 'X11y', 'X12y', 'X13y', 'X14y'], ['X20y', 'X21y', 'X22y', 'X23y', 'X24y'], ['X30y', 'X31y', 'X32y', 'X33y', 'X34y']] t=Table(XY, 5*[0.6*inch], 4*[0.6*inch]) t.setStyle([('ALIGN',(1,1),(-2,-2),'LEFT'), ('TEXTCOLOR',(1,1),(-2,-2),colors.red), ('VALIGN',(0,0),(1,-1),'TOP'), ('ALIGN',(0,0),(1,-1),'RIGHT'), ('TEXTCOLOR',(0,0),(1,-1),colors.blue), ('ALIGN',(0,-1),(-1,-1),'CENTER'), ('VALIGN',(0,-1),(-1,-1),'MIDDLE'), ('TEXTCOLOR',(0,-1),(-1,-1),colors.green), ('INNERGRID', (0,0), (-1,-1), 0.25, colors.black), ('BOX', (0,0), (-1,-1), 0.25, colors.black), ]) lst.append(t) data = [('alignment', 'align\012alignment'), ('bulletColor', 'bulletcolor\012bcolor'), ('bulletFontName', 'bfont\012bulletfontname'), ('bulletFontSize', 'bfontsize\012bulletfontsize'), ('bulletIndent', 'bindent\012bulletindent'), ('firstLineIndent', 'findent\012firstlineindent'), ('fontName', 'face\012fontname\012font'), ('fontSize', 'size\012fontsize'), ('leading', 'leading'), ('leftIndent', 'leftindent\012lindent'), ('rightIndent', 'rightindent\012rindent'), ('spaceAfter', 'spaceafter\012spacea'), ('spaceBefore', 'spacebefore\012spaceb'), ('textColor', 'fg\012textcolor\012color')] t = Table(data) t.setStyle([ ('VALIGN',(0,0),(-1,-1),'TOP'), ('INNERGRID', (0,0), (-1,-1), 0.25, colors.black), ('BOX', (0,0), (-1,-1), 0.25, colors.black), ]) lst.append(t) t = Table([ ('Attribute', 'Synonyms'), ('alignment', 'align, alignment'), ('bulletColor', 'bulletcolor, bcolor'), ('bulletFontName', 'bfont, bulletfontname'), ('bulletFontSize', 'bfontsize, bulletfontsize'), ('bulletIndent', 'bindent, bulletindent'), ('firstLineIndent', 'findent, firstlineindent'), ('fontName', 'face, fontname, font'), ('fontSize', 'size, fontsize'), ('leading', 'leading'), ('leftIndent', 'leftindent, lindent'), ('rightIndent', 'rightindent, rindent'), ('spaceAfter', 'spaceafter, spacea'), ('spaceBefore', 'spacebefore, spaceb'), ('textColor', 'fg, textcolor, color')]) t.repeatRows = 1 t.setStyle([ ('FONT',(0,0),(-1,1),'Times-Bold',10,12), ('FONT',(0,1),(-1,-1),'Courier',8,8), ('VALIGN',(0,0),(-1,-1),'MIDDLE'), ('INNERGRID', (0,0), (-1,-1), 0.25, colors.black), ('BOX', (0,0), (-1,-1), 0.25, colors.black), ('BACKGROUND', (0, 0), (-1, 0), colors.green), ('BACKGROUND', (0, 1), (-1, -1), colors.pink), ('ALIGN', (0, 0), (-1, 0), 'CENTER'), ('ALIGN', (0, 1), (0, -1), 'LEFT'), ('ALIGN', (-1, 1), (-1, -1), 'RIGHT'), ('FONT', (0, 0), (-1, 0), 'Times-Bold', 12), ('ALIGN', (1, 1), (1, -1), 'CENTER'), ]) lst.append(t) lst.append(Table(XY, style=[ ('FONT',(0,0),(-1,-1),'Times-Roman', 5,6), ('GRID', (0,0), (-1,-1), 0.25, colors.blue),])) lst.append(Table(XY, style=[ ('FONT',(0,0),(-1,-1),'Times-Roman', 10,12), ('GRID', (0,0), (-1,-1), 0.25, colors.black),])) lst.append(Table(XY, style=[ ('FONT',(0,0),(-1,-1),'Times-Roman', 20,24), ('GRID', (0,0), (-1,-1), 0.25, colors.red),])) lst.append(PageBreak()) data= [['00', '01', '02', '03', '04'], ['10', '11', '12', '13', '14'], ['20', '21', '22', '23', '24'], ['30', '31', '32', '33', '34']] t=Table(data,style=[ ('GRID',(0,0),(-1,-1),0.5,colors.grey), ('GRID',(1,1),(-2,-2),1,colors.green), ('BOX',(0,0),(1,-1),2,colors.red), ('BOX',(0,0),(-1,-1),2,colors.black), ('LINEABOVE',(1,2),(-2,2),1,colors.blue), ('LINEBEFORE',(2,1),(2,-2),1,colors.pink), ('BACKGROUND', (0, 0), (0, 1), colors.pink), ('BACKGROUND', (1, 1), (1, 2), colors.lavender), ('BACKGROUND', (2, 2), (2, 3), colors.orange), ('TEXTCOLOR',(0,-1),(-2,-1),colors.green), ]) lst.append(Paragraph("Illustrating splits: nosplit", styleSheet['BodyText'])) lst.append(t) lst.append(Spacer(0,6)) lst.append(Paragraph("Illustrating splits: split(4in,30)", styleSheet['BodyText'])) for s in t.split(4*inch,30): lst.append(s) lst.append(Spacer(0,6)) lst.append(Spacer(0,6)) lst.append(Paragraph("Illustrating splits: split(4in,36)", styleSheet['BodyText'])) for s in t.split(4*inch,36): lst.append(s) lst.append(Spacer(0,6)) lst.append(Paragraph("Illustrating splits: split(4in,56)", styleSheet['BodyText'])) lst.append(Spacer(0,6)) for s in t.split(4*inch,56): lst.append(s) lst.append(Spacer(0,6)) lst.append(Paragraph("Illustrating splits: repeated split(4in,30)", styleSheet['BodyText'])) lst.append(Spacer(0,6)) S = t.split(4*inch,30) s = S.pop(-1) S.extend(s.split(4*inch,30)) s = S.pop(-1) S.extend(s.split(4*inch,30)) for s in S: lst.append(s) lst.append(Spacer(0,6)) lst.append(PageBreak()) data= [['00', '01', '02', '03', '04'], ['', '11', '12', '13', '14'], ['20', '21', '22', '23', '24'], ['30', '31', '', '33', '34']] sty=[ ('GRID',(0,0),(-1,-1),0.5,colors.grey), ('GRID',(1,1),(-2,-2),1,colors.green), ('BOX',(0,0),(1,-1),2,colors.red), ('BOX',(0,0),(-1,-1),2,colors.black), ('LINEABOVE',(1,2),(-2,2),1,colors.blue), ('LINEBEFORE',(2,1),(2,-2),1,colors.pink), ('BACKGROUND', (0, 0), (0, 1), colors.pink), ('SPAN',(0,0),(0,1)), ('BACKGROUND', (2, 2), (2, 3), colors.orange), ('SPAN',(2,2),(2,3)), ] t=Table(data,style=sty) lst.append(Paragraph("Illustrating splits with spans: nosplit", styleSheet['BodyText'])) lst.append(t) lst.append(Spacer(0,6)) lst.append(Paragraph("Illustrating splits with spans: split(4in,30)", styleSheet['BodyText'])) for s in t.split(4*inch,30): lst.append(s) lst.append(Spacer(0,6)) lst.append(Spacer(0,6)) lst.append(Paragraph("Illustrating splits with spans: split(4in,36)", styleSheet['BodyText'])) for s in t.split(4*inch,36): lst.append(s) lst.append(Spacer(0,6)) lst.append(Paragraph("Illustrating splits with spans: split(4in,56)", styleSheet['BodyText'])) lst.append(Spacer(0,6)) for s in t.split(4*inch,56): lst.append(s) lst.append(Spacer(0,6)) data= [['00', '01', '02', '03', '04'], ['', '11', '12', '13', ''], ['20', '21', '22', '23', '24'], ['30', '31', '', '33', ''], ['40', '41', '', '43', '44']] sty=[ ('GRID',(0,0),(-1,-1),0.5,colors.grey), ('GRID',(1,1),(-2,-2),1,colors.green), ('BOX',(0,0),(1,-1),2,colors.red), ('BOX',(0,0),(-1,-1),2,colors.black), ('LINEABOVE',(1,2),(-2,2),1,colors.blue), ('LINEBEFORE',(2,1),(2,-2),1,colors.pink), ('BACKGROUND', (0, 0), (0, 1), colors.pink), ('SPAN',(0,0),(0,1)), ('BACKGROUND',(-2,1),(-1,1),colors.palegreen), ('SPAN',(-2,1),(-1,1)), ('BACKGROUND',(-2,3),(-1,3),colors.yellow), ('SPAN',(-2,3),(-1,3)), ('BACKGROUND', (2, 3), (2, 4), colors.orange), ('SPAN',(2,3),(2,4)), ] t=Table(data,style=sty,repeatRows=2) lst.append(Paragraph("Illustrating splits with spans and repeatRows: nosplit", styleSheet['BodyText'])) lst.append(t) lst.append(Spacer(0,6)) if 1: lst.append(Paragraph("Illustrating splits with spans and repeatRows: split(4in,30)", styleSheet['BodyText'])) for s in t.split(4*inch,30): lst.append(s) lst.append(Spacer(0,6)) lst.append(Spacer(0,6)) lst.append(Paragraph("Illustrating splits with spans and repeatRows: split(4in,36)", styleSheet['BodyText'])) for s in t.split(4*inch,36): lst.append(s) lst.append(Spacer(0,6)) lst.append(Paragraph("Illustrating splits with spans and repeatRows: split(4in,56)", styleSheet['BodyText'])) lst.append(Spacer(0,6)) for s in t.split(4*inch,56): lst.append(s) lst.append(Spacer(0,6)) lst.append(PageBreak()) from reportlab.lib.testutils import testsFolder I = Image(os.path.join(os.path.dirname(testsFolder),'tools','pythonpoint','demos','leftlogo.gif')) I.drawHeight = 1.25*inch*I.drawHeight / I.drawWidth I.drawWidth = 1.25*inch #I.drawWidth = 9.25*inch #uncomment to see better messaging P = Paragraph("<para align=center spaceb=3>The <b>ReportLab Left <font color=red>Logo</font></b> Image</para>", styleSheet["BodyText"]) B = TableBarChart() BP = Paragraph("<para align=center spaceb=3>A bar chart in a cell.</para>", styleSheet["BodyText"]) data= [['A', 'B', 'C', Paragraph("<b>A pa<font color=red>r</font>a<i>graph</i></b><super><font color=yellow>1</font></super>",styleSheet["BodyText"]), 'D'], ['00', '01', '02', [I,P], '04'], ['10', '11', '12', [I,P], '14'], ['20', '21', '22', '23', '24'], ['30', '31', '32', '33', '34'], ['40', '41', '42', [B,BP], '44']] t=Table(data,style=[('GRID',(1,1),(-2,-2),1,colors.green), ('BOX',(0,0),(1,-1),2,colors.red), ('LINEABOVE',(1,2),(-2,2),1,colors.blue), ('LINEBEFORE',(2,1),(2,-2),1,colors.pink), ('BACKGROUND', (0, 0), (0, 1), colors.pink), ('BACKGROUND', (1, 1), (1, 2), colors.lavender), ('BACKGROUND', (2, 2), (2, 3), colors.orange), ('BOX',(0,0),(-1,-1),2,colors.black), ('GRID',(0,0),(-1,-1),0.5,colors.black), ('VALIGN',(3,0),(3,0),'BOTTOM'), ('BACKGROUND',(3,0),(3,0),colors.limegreen), ('BACKGROUND',(3,1),(3,1),colors.khaki), ('ALIGN',(3,1),(3,1),'CENTER'), ('BACKGROUND',(3,2),(3,2),colors.beige), ('ALIGN',(3,2),(3,2),'LEFT'), ]) t._argW[3]=1.5*inch lst.append(t) # now for an attempt at column spanning. lst.append(PageBreak()) data= [['A', 'BBBBB', 'C', 'D', 'E'], ['00', '01', '02', '03', '04'], ['10', '11', '12', '13', '14'], ['20', '21', '22', '23', '24'], ['30', '31', '32', '33', '34']] sty = [ ('ALIGN',(0,0),(-1,-1),'CENTER'), ('VALIGN',(0,0),(-1,-1),'TOP'), ('GRID',(0,0),(-1,-1),1,colors.green), ('BOX',(0,0),(-1,-1),2,colors.red), #span 'BBBB' across middle 3 cells in top row ('SPAN',(1,0),(3,0)), #now color the first cell in this range only, #i.e. the one we want to have spanned. Hopefuly #the range of 3 will come out khaki. ('BACKGROUND',(1,0),(1,0),colors.khaki), ('SPAN',(0,2),(-1,2)), #span 'AAA'down entire left column ('SPAN',(0,0), (0, 1)), ('BACKGROUND',(0,0),(0,0),colors.cyan), ('TEXTCOLOR', (0,'splitfirst'), (-1,'splitfirst'), colors.cyan), ('TEXTCOLOR', (0,'splitlast'), (-1,'splitlast'), colors.red), ('BACKGROUND', (0,'splitlast'), (-1,'splitlast'), colors.pink), ('LINEBELOW', (0,'splitlast'), (-1,'splitlast'), 1, colors.grey,'butt'), ] t=Table(data,style=sty, colWidths = [20] * 5, rowHeights = [20]*5) lst.append(t) lst.append(Spacer(18,18)) t=Table(data,style=sty, colWidths = [20] * 5, rowHeights = [20]*5) for s in t.split(4*inch,72): lst.append(s) lst.append(Spacer(0,6)) # now for an attempt at percentage widths lst.append(Spacer(18,18)) lst.append(Paragraph("This table has colWidths=5*['14%']!", styleSheet['BodyText'])) t=Table(data,style=sty, colWidths = ['14%'] * 5, rowHeights = [20]*5) lst.append(t) lst.append(Spacer(18,18)) lst.append(Paragraph("This table has colWidths=['14%','10%','19%','22%','*']!", styleSheet['BodyText'])) t=Table(data,style=sty, colWidths = ['14%','10%','19%','22%','*'], rowHeights = [20]*5) lst.append(t) # Mike's test example lst.append(Spacer(18,18)) lst.append(Paragraph('Mike\'s Spanning Example', styleSheet['Heading1'])) data= [[Paragraph('World Domination: The First Five Years', styleSheet['BodyText']), ''], [Paragraph('World <font color="green">Domination</font>: The First Five Years', styleSheet['BodyText']),''], [Paragraph('World Domination: The First Five Years', styleSheet['BodyText']), ''], ] t=Table(data, style=[('SPAN',(0,0),(1,0)),('SPAN',(0,1),(1,1)),('SPAN',(0,2),(1,2)),], colWidths = [3*cm,8*cm], rowHeights = [None]*3) lst.append(t) lst.append(Spacer(18,18)) lst.append(Paragraph('Mike\'s Non-spanning Example', styleSheet['Heading1'])) data= [[Paragraph('World Domination: The First Five Years', styleSheet['BodyText'])], [Paragraph('World <font color="magenta">Domination</font>: The First Five Years', styleSheet['BodyText'])], [Paragraph('World Domination: The First Five Years', styleSheet['BodyText'])], ] t=Table(data, style=[], colWidths = [11*cm], rowHeights = [None]*3) lst.append(t) lst.append(Spacer(18,18)) lst.append(Paragraph('xpre example', styleSheet['Heading1'])) data= [ [ XPreformatted('Account Details', styleSheet['Heading3']), '', XPreformatted('Client Details', styleSheet['Heading3']), ], #end of row 0 ] t=Table(data, style=[], colWidths = [80,230.0,80], rowHeights = [None]*1) lst.append(t) lst.append(PageBreak()) lst.append(Paragraph('Trying colour cycling in background', styleSheet['Heading1'])) lst.append(Paragraph("This should alternate pale blue and uncolored by row", styleSheet['BodyText'])) data= [['001', '01', '02', '03', '04', '05'], ['002', '01', '02', '03', '04', '05'], ['003', '01', '02', '03', '04', '05'], ['004', '01', '02', '03', '04', '05'], ['005', '01', '02', '03', '04', '05'], ['006', '01', '02', '03', '04', '05'], ['007', '01', '02', '03', '04', '05'], ['008', '01', '02', '03', '04', '05'], ['009', '01', '02', '03', '04', '05'], ['010', '01', '02', '03', '04', '05'], ] t=Table(data,style=[ ('GRID',(0,0),(-1,-1),0.5,colors.grey), ('ROWBACKGROUNDS', (0, 0), (-1, -1), (0xD0D0FF, None)), ]) lst.append(t) lst.append(Spacer(0,6)) lst.append(Paragraph("And this should pale blue, pale pink and None by column", styleSheet['BodyText'])) data= [['001', '01', '02', '03', '04', '05'], ['002', '01', '02', '03', '04', '05'], ['003', '01', '02', '03', '04', '05'], ['004', '01', '02', '03', '04', '05'], ['005', '01', '02', '03', '04', '05'], ['006', '01', '02', '03', '04', '05'], ['007', '01', '02', '03', '04', '05'], ['008', '01', '02', '03', '04', '05'], ['009', '01', '02', '03', '04', '05'], ['010', '01', '02', '03', '04', '05'], ] t=Table(data,style=[ ('GRID',(0,0),(-1,-1),0.5,colors.grey), ('COLBACKGROUNDS', (0, 0), (-1, -1), (0xD0D0FF, 0xFFD0D0, None)), ]) lst.append(t) lst.append(PageBreak()) lst.append(Paragraph("This spanning example illustrates automatic removal of grids and lines in spanned cells!", styleSheet['BodyText'])) lst.append(Spacer(0,6)) data= [['Top\nLeft', '', '02', '03', '04', '05', '06', '07'], ['', '', '12', 'Span (3,1) (6,2)', '','','','17'], ['20', '21', '22', '', '','','','27'], ['30', '31', '32', '33', '34','35','36','37'], ['40', 'In The\nMiddle', '', '', '44','45','46','47'], ['50', '', '', '', '54','55','56','57'], ['60', '', '', '','64', '65', 'Bottom\nRight', ''], ['70', '71', '72', '73','74', '75', '', '']] t=Table(data,style=[ ('GRID',(0,0),(-1,-1),0.5,colors.grey), ('BACKGROUND',(0,0),(1,1),colors.palegreen), ('SPAN',(0,0),(1,1)), ('BACKGROUND',(-2,-2),(-1,-1), colors.pink), ('SPAN',(-2,-2),(-1,-1)), ('SPAN',(1,4),(3,6)), ('BACKGROUND',(1,4),(3,6), colors.lightblue), ('SPAN',(3,1),(6,2)), ('BACKGROUND',(3,1),(6,2), colors.peachpuff), ('VALIGN',(3,1),(6,2),'TOP'), ('LINEABOVE', (0,2),(-1,2), 1, colors.black, 0, None, None, 2, 2), ('LINEBEFORE', (3,0),(3,-1), 1, colors.black, 0, None, None, 2, 2), ]) lst.append(t) lst.append(PageBreak()) lst.append(Paragraph("und jetzt noch eine Tabelle mit 5000 Zeilen:", styleSheet['BodyText'])) sty = [ ('GRID',(0,0),(-1,-1),1,colors.green), ('BOX',(0,0),(-1,-1),2,colors.red), ] data = [[str(i), Paragraph("xx "* (i%10), styleSheet["BodyText"]), Paragraph("blah "*(i%40), styleSheet["BodyText"])] for i in range(500)] t=LongTable(data, style=sty, colWidths = [50,100,200]) lst.append(t) #Yuan Hong's bug tester lst.append(PageBreak()) lst.append(Paragraph('Yian Hong\'s Bug Case (should not blow up)', styleSheet['Heading2'])) data = ([['Col1', 'Col2', 'Col3', 'Col4', 'Col5']]+ [['01', Paragraph('This is cell one that contains a paragraph.', styleSheet['Normal']), '02', '03', '04'] for i in range(50)]) t = Table(data, ['20%']*5, repeatRows=1) t.setStyle(TableStyle([ ('INNERGRID', (0,0), (-1,-1), 0.25, colors.black), ('BOX', (0,0), (-1,-1), 0.25, colors.black), ('SPAN', (0,50), (-2,50)), ])) lst.append(t) lst.append(PageBreak()) #Volker Haas' example extended #the optimal row heights are the solution of an LP similar to # #Objective function # min: 3*h0+3*h1+3*h2+2*h3; # #constraints # h0>=12; # h1>=12; # h2>=12; # h3>=12; # h0+h1+h2>=48; # h0+h1>=12; # h2+h3>=60; # #the solution H=[12,12,24,36] def makeTable(x,y): return Table([ ['00', '01', '02', '03', '04', '05\nline2\nline3\nline4'], ['', '11', '12', x, '',''], ['20', '21', y, '23', '24',''], ['30', '31', '', '33', '34','35'], ], style=[ ('TOPPADDING',(0,0),(-1,-1),0), ('BOTTOMPADDING',(0,0),(-1,-1),0), ('RIGHTPADDING',(0,0),(-1,-1),0), ('LEFTPADDING',(0,0),(-1,-1),0), ('GRID',(0,0),(-1,-1),0.5,colors.grey), ('BACKGROUND', (0, 0), (0, 1), colors.pink), ('SPAN',(0,0),(0,1)), ('BACKGROUND', (2, 2), (2, 3), colors.orange), ('SPAN',(2,2),(2,3)), ('SPAN',(3,1),(4,1)), ('SPAN',(5,0),(5,2)), ]) p_style= ParagraphStyle('Normal') lst.append(makeTable( Paragraph('This is a string',p_style), Paragraph('22<br/>blub<br/>asfd<br/>afd<br/>asdfs', p_style) )) lst.append(Spacer(10,10)) lst.append(makeTable( XPreformatted('This is a string',p_style), Paragraph('22<br/>blub<br/>asfd<br/>afd<br/>asdfs', p_style) )) lst.append(Spacer(10,10)) lst.append(makeTable( 'This is a string', '22\nblub\nasfd\nafd\nasdfs', )) lst.append(Spacer(10,10)) lst.append(makeTable( 'This is a string', Paragraph('22<br/>blub<br/>asfd<br/>afd<br/>asdfs', p_style) )) SimpleDocTemplate(outputfile('test_platypus_tables_2.pdf'), showBoundary=1).build(lst)
def testAutoLeading(self): from reportlab.platypus import BaseDocTemplate, PageTemplate, Frame, PageBegin from reportlab.lib.units import inch from reportlab.platypus.flowables import AnchorFlowable class MyDocTemplate(BaseDocTemplate): _invalidInitArgs = ('pageTemplates',) def __init__(self, filename, **kw): self.allowSplitting = 0 kw['showBoundary']=1 BaseDocTemplate.__init__(self, filename, **kw) self.addPageTemplates( [ PageTemplate('normal', [Frame(inch, inch, 6.27*inch, 9.69*inch, id='first',topPadding=0,rightPadding=0,leftPadding=0,bottomPadding=0,showBoundary=ShowBoundaryValue(color="red"))], ), ]) from reportlab.lib.testutils import testsFolder styleSheet = getSampleStyleSheet() normal = ParagraphStyle(name='normal',fontName='Times-Roman',fontSize=12,leading=1.2*12,parent=styleSheet['Normal']) normal_sp = ParagraphStyle(name='normal_sp',parent=normal,alignment=TA_JUSTIFY,spaceBefore=12) texts = ['''Furthermore, a subset of <font size="14">English sentences</font> interesting on quite independent grounds is not quite equivalent to a stipulation to place <font color="blue">the constructions <img src="%(testsFolder)s/../docs/images/testimg.gif"/> into these various categories.</font>'''%dict(testsFolder=testsFolder), '''We will bring <font size="18">Ugly Things</font> in favor of The following thesis: most of the methodological work in Modern Linguistics can be <img src="%(testsFolder)s/../docs/images/testimg.gif" valign="baseline" /> defined in such <img src="%(testsFolder)s/../docs/images/testimg.gif" valign="10" /> a way as to impose problems of phonemic and <u>morphological <img src="%(testsFolder)s/../docs/images/testimg.gif" valign="top"/> </u> analysis.'''%dict(testsFolder=testsFolder)] story =[] a = story.append t = 'u' n = 1 for s in (normal,normal_sp): for autoLeading in ('','min','max'): a(Paragraph('style=%s(autoLeading=%s)'%(s.name,autoLeading),style=normal_sp)) a(Paragraph('<para autoleading="%s"><%s>%s</%s>. %s <%s>%s</%s>. %s</para>' % ( autoLeading, t,' '.join((n+1)*['A']),t,texts[0],t,' '.join((n+1)*['A']),t,texts[1]), style=s)) a(Paragraph('''<img src="%(testsFolder)s/../docs/images/testimg.gif" valign="top"/> image is very first thing in the line.'''%dict(testsFolder=testsFolder), style=normal)) a(Paragraph('some text.... some more.... some text.... some more....', normal)) a(Paragraph('<img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="0.19in" /> some text <br /> '%dict(testsFolder=testsFolder), normal)) a(Paragraph('some text.... some more.... some text.... some more....', normal)) a(Paragraph('<img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="0.19in" /> <br /> '%dict(testsFolder=testsFolder), normal)) a(Paragraph('some text.... some more.... some text.... some more....', normal)) #Volker Haas' valign tests fmt = '''<font color="red">%(valign)s</font>: Furthermore, a <u>subset</u> <strike>of</strike> <font size="14">English sentences</font> interesting on quite independent grounds is not quite equivalent to a stipulation to place <img src="%(testsFolder)s/../docs/images/redsquare.png" width="0.5in" height="0.5in" valign="%(valign)s"/> the constructions into these <u>various</u> categories. We will bring <font size="18">Ugly Things</font> in favor of The following thesis: most of the methodological work in Modern Linguistics can be defined in such a way as to impose problems of phonemic and <u>morphological</u> <strike>analysis</strike>.''' p_style= ParagraphStyle('Normal') p_style.autoLeading = 'max' for valign in ( 'baseline', 'sub', 'super', 'top', 'text-top', 'middle', 'bottom', 'text-bottom', '0%', '2in', ): a(Paragraph(fmt % dict(valign=valign,testsFolder=testsFolder),p_style)) a(XPreformatted(fmt % dict(valign=valign,testsFolder=testsFolder),p_style)) a(Paragraph('<br/><b>Some Paragraph tests of <img width="x%" height="x%"</b>...', normal)) a(Paragraph('H=10%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="10%%" />'%dict(testsFolder=testsFolder), normal)) a(Paragraph('H=50%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="50%%" />'%dict(testsFolder=testsFolder), normal)) a(Paragraph('H=100%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="100%%" />'%dict(testsFolder=testsFolder), normal)) a(Paragraph('H=100%% W=10%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="10%%" height="100%%" />'%dict(testsFolder=testsFolder), normal)) a(Paragraph('H=100%% W=50%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="50%%" height="100%%" />'%dict(testsFolder=testsFolder), normal)) a(Paragraph('H=50%% W=50%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="50%%" height="50%%" />'%dict(testsFolder=testsFolder), normal)) a(Paragraph('<br/><b>Some XPreformatted tests of <img width="x%" height="x%"</b>...', normal)) a(XPreformatted('H=10%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="10%%" />'%dict(testsFolder=testsFolder), normal)) a(XPreformatted('H=50%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="50%%" />'%dict(testsFolder=testsFolder), normal)) a(XPreformatted('H=100%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="100%%" />'%dict(testsFolder=testsFolder), normal)) a(XPreformatted('H=100%% W=10%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="10%%" height="100%%" />'%dict(testsFolder=testsFolder), normal)) a(XPreformatted('H=100%% W=50%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="50%%" height="100%%" />'%dict(testsFolder=testsFolder), normal)) a(XPreformatted('H=50%% W=50%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="50%%" height="50%%" />'%dict(testsFolder=testsFolder), normal)) a(Paragraph('<br/><b>Some CJK Paragraph tests of <img width="x%" height="x%"</b>...', normal)) normalCJK = ParagraphStyle('normalCJK', parent=normal, wordWrap = 'CJK') a(Paragraph('H=10%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="10%%" />'%dict(testsFolder=testsFolder), normalCJK)) a(Paragraph('H=50%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="50%%" />'%dict(testsFolder=testsFolder), normalCJK)) a(Paragraph('H=100%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="0.57in" height="100%%" />'%dict(testsFolder=testsFolder), normalCJK)) a(Paragraph('H=100%% W=10%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="10%%" height="100%%" />'%dict(testsFolder=testsFolder), normalCJK)) a(Paragraph('H=100%% W=50%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="50%%" height="100%%" />'%dict(testsFolder=testsFolder), normalCJK)) a(Paragraph('H=50%% W=50%% <img src="%(testsFolder)s/../docs/images/testimg.gif" width="50%%" height="50%%" />'%dict(testsFolder=testsFolder), normalCJK)) doc = MyDocTemplate(outputfile('test_platypus_paragraphs_autoleading.pdf')) doc.build(story)
def test1(self): """This shows a table which would take more than one page, and need multiple passes to render. But we preload it with the right headings to make it go faster. We used a simple 100-chapter document with one level. """ chapters = 30 #goes over one page headerStyle = makeHeaderStyle(0) d, e = tableofcontents.delta, tableofcontents.epsilon tocLevelStyle = makeTocHeaderStyle(0, d, e) bodyStyle = makeBodyStyle() # Build most of the story; we'll re-use it to # make documents with different numbers of passes. story = [] styleSheet = getSampleStyleSheet() bt = styleSheet['BodyText'] description = '<font color=red>%s</font>' % self.test1.__doc__ story.append(XPreformatted(description, bt)) for i in range(chapters): story.append(PageBreak()) story.append(Paragraph('This is chapter %d' % (i + 1), headerStyle)) #now put some lengthy body stuff in. for paras in range(random.randint(1, 3)): txt = xmlEscape(randomtext.randomText(randomtext.PYTHON, 5)) para = Paragraph(txt, bodyStyle) story.append(para) #try 1: empty TOC, 3 passes toc = tableofcontents.TableOfContents() toc.levelStyles = [tocLevelStyle] #only need one story1 = [toc] + story path = outputfile('test_platypus_toc_preload_1.pdf') doc = MyDocTemplate(path) passes = doc.multiBuild(story1) self.assertEquals(passes, 3) #try 2: now preload the TOC with the entries toc = tableofcontents.TableOfContents() toc.levelStyles = [tocLevelStyle] #only need one tocEntries = [] for i in range(chapters): #add tuple of (level, text, pageNum, key) #with an initial guess of pageNum=0 tocEntries.append((0, 'This is chapter %d' % (i + 1), 0, None)) toc.addEntries(tocEntries) story2 = [toc] + story path = outputfile('test_platypus_toc_preload_2.pdf') doc = MyDocTemplate(path) passes = doc.multiBuild(story2) self.assertEquals(passes, 2) #try 3: preload again but try to be really smart and work out #in advance what page everything starts on. We cannot #use a random story for this. toc3 = tableofcontents.TableOfContents() toc3.levelStyles = [tocLevelStyle] #only need one tocEntries = [] for i in range(chapters): #add tuple of (level, text, pageNum, key) #with an initial guess of pageNum= 3 title = ( 'This is chapter %d' % (i + 1) ) if i != 9 else '<a href="http://www.reportlab.com">onelink</a>' tocEntries.append((0, title, 2 + i, None)) toc3.addEntries(tocEntries) story3 = [toc3] for i in range(chapters): story3.append(PageBreak()) title = ( 'This is chapter %d' % (i + 1) ) if i != 9 else '<a href="http://www.reportlab.com">onelink</a>' story3.append(Paragraph(title, headerStyle)) txt = """ The paragraphs in this are not at all random, because we need to be absolutely, totally certain they will fit on one page. Each chapter will be one page long. """ para = Paragraph(txt, bodyStyle) story3.append(para) path = outputfile('test_platypus_toc_preload_3.pdf') doc = MyDocTemplate(path) passes = doc.multiBuild(story3)