def test_text(self): t = Text() t = Text('abc') style = StyleSheet() normalText = TextStyle(TextPropertySet(style.Fonts.Arial, 22)) blue = TextPropertySet(colour=style.Colours.Blue) shading = ShadingPropertySet() t = Text(normalText, blue, shading, 'abc')
def make_charColours(): doc, section, styles = RTFTestCase.initializeDoc() section.append('This example test changing the colour of fonts.') # Text properties can be specified in two ways, either a text object # can have its text properties specified via the TextPropertySet # object, or by passing the colour parameter as a style. red = TextPropertySet(colour=styles.Colours.Red) green = TextPropertySet(colour=styles.Colours.Green) blue = TextPropertySet(colour=styles.Colours.Blue) yellow = TextPropertySet(colour=styles.Colours.Yellow) p = Paragraph() p.append('This next word should be in ') p.append(Text('red', red)) p.append(', while the following should be in their respective ') p.append('colours: ', Text('blue ', blue), Text('green ', green)) p.append('and ', TEXT('yellow', colour=styles.Colours.Yellow), '.') # When specifying colours it is important to use the colours from the # style sheet supplied with the document and not the StandardColours # object each document get its own copy of the stylesheet so that # changes can be made on a document by document basis without mucking # up other documents that might be based on the same basic stylesheet. section.append(p) return doc
def append(self, *values): self._text_elements = list() from PyRTF.document.character import Text _idx = 0 for value in values: if value is not None: a_text = _text_strip(value['value']) a_style = value.get('style', self._style) new_item = Text() if isinstance(a_style, type(self._style)): new_item.Style = a_style.TextStyle else: #from PyRTF.Styles import ParagraphStyle #from PyRTF.PropertySets import ParagraphPropertySet # TODO: parse and get the actual text_style here, wrapped with ParagraphStyle object; pass if _idx > 0: new_item.SetData(unicode(self.DELIMITER_INLINE)) new_item.SetData(a_text) self._text_elements.append(new_item) _idx += 1
def basic_table_with_input(dependent_variable_name, rows_statistical_significance, number_of_observations, r_squared): #from PyRTF.Elements import Document, Section, BorderPropertySet, FramePropertySet, Table from PyRTF.utils import RTFTestCase from PyRTF.Elements import Document from PyRTF.document.section import Section from PyRTF.document.paragraph import Cell, Paragraph, Table #from PyRTF.Styles import TextStyle, ParagraphStyle from PyRTF.document.character import Text from PyRTF.PropertySets import BorderPropertySet, FramePropertySet, MarginsPropertySet, ParagraphPropertySet, TabPropertySet, TextPropertySet # doc = Document() ss = doc.StyleSheet section = Section() doc.Sections.append(section) # thin_edge = BorderPropertySet(width=20, style=BorderPropertySet.SINGLE, colour=ss.Colours.Black) thick_edge = BorderPropertySet(width=80, style=BorderPropertySet.SINGLE) zero_edge_thin = BorderPropertySet(width=20, style=BorderPropertySet.SINGLE, colour=ss.Colours.White) # thin_frame = FramePropertySet(thin_edge, thin_edge, thin_edge, thin_edge) thick_frame = FramePropertySet(thick_edge, thick_edge, thick_edge, thick_edge) thin_frame_top_only = FramePropertySet(top=thin_edge, left=None, bottom=None, right=None) thin_frame_bottom_only = FramePropertySet(top=None, left=None, bottom=thin_edge, right=None) thin_frame_top_and_bottom_only = FramePropertySet(top=thin_edge, left=None, bottom=thin_edge, right=None) zero_frame = FramePropertySet(top=None, left=None, bottom=None, right=None) # table = Table(TabPropertySet.DEFAULT_WIDTH * 5, TabPropertySet.DEFAULT_WIDTH * 3, TabPropertySet.DEFAULT_WIDTH * 3) # c1 = Cell(Paragraph(''), thin_frame_top_and_bottom_only) c2 = Cell(Paragraph(dependent_variable_name + ' - coeff'), thin_frame_top_and_bottom_only) c3 = Cell(Paragraph(dependent_variable_name + ' - Std error'), thin_frame_top_and_bottom_only) table.AddRow(c1, c2, c3) # for row in rows_statistical_significance: c1 = Cell(Paragraph(row[0]), zero_frame) c2 = Cell(Paragraph(row[1]), zero_frame) c3 = Cell(Paragraph(row[2]), zero_frame) table.AddRow(c1, c2, c3) # #c1 = Cell(Paragraph(''), thin_frame_bottom_only) #c2 = Cell(Paragraph('(.013)'), thin_frame_bottom_only) #c3 = Cell(Paragraph('tbd'), thin_frame_bottom_only) #table.AddRow(c1, c2) # c1 = Cell(Paragraph('Observations'), thin_frame_top_only) c2 = Cell(Paragraph(number_of_observations), thin_frame_top_only) c3 = Cell(Paragraph(''), thin_frame_top_only) table.AddRow(c1, c2, c3) # tps = TextPropertySet(italic=True) text = Text('R^2', tps) # #c1 = Cell(Paragraph('R^2', text), thin_frame_bottom_only) c1 = Cell(Paragraph(text), thin_frame_bottom_only) c2 = Cell(Paragraph(r_squared), thin_frame_bottom_only) c3 = Cell(Paragraph(''), thin_frame_bottom_only) table.AddRow(c1, c2, c3) # section.append(table) # section.append('Standard errors in parentheses') section.append('* p<0.1, ** p<0.05, *** p<0.01') # return doc
def basic_table(): #from PyRTF.Elements import Document, Section, BorderPropertySet, FramePropertySet, Table from PyRTF.utils import RTFTestCase from PyRTF.Elements import Document from PyRTF.document.section import Section from PyRTF.document.paragraph import Cell, Paragraph, Table #from PyRTF.Styles import TextStyle, ParagraphStyle from PyRTF.document.character import Text from PyRTF.PropertySets import BorderPropertySet, FramePropertySet, MarginsPropertySet, ParagraphPropertySet, TabPropertySet, TextPropertySet # doc = Document() ss = doc.StyleSheet section = Section() doc.Sections.append(section) # thin_edge = BorderPropertySet(width=20, style=BorderPropertySet.SINGLE, colour=ss.Colours.Black) thick_edge = BorderPropertySet(width=80, style=BorderPropertySet.SINGLE) zero_edge_thin = BorderPropertySet(width=20, style=BorderPropertySet.SINGLE, colour=ss.Colours.White) # thin_frame = FramePropertySet(thin_edge, thin_edge, thin_edge, thin_edge) thick_frame = FramePropertySet(thick_edge, thick_edge, thick_edge, thick_edge) thin_frame_top_only = FramePropertySet(top=thin_edge, left=None, bottom=None, right=None) thin_frame_bottom_only = FramePropertySet(top=None, left=None, bottom=thin_edge, right=None) thin_frame_top_and_bottom_only = FramePropertySet(top=thin_edge, left=None, bottom=thin_edge, right=None) # table = Table(TabPropertySet.DEFAULT_WIDTH * 5, TabPropertySet.DEFAULT_WIDTH * 3) # c1 = Cell(Paragraph(''), thin_frame_top_and_bottom_only) c2 = Cell(Paragraph('Recommends AI'), thin_frame_top_and_bottom_only) #c3 = Cell(Paragraph('tbd'), thin_frame_top_and_bottom_only) table.AddRow(c1, c2) # c1 = Cell(Paragraph('Read ethics article'), thin_frame_top_only) c2 = Cell(Paragraph('-.38***'), thin_frame_top_only) #c3 = Cell(Paragraph('tbd'), thin_frame_top_only) table.AddRow(c1, c2) # c1 = Cell(Paragraph(''), thin_frame_bottom_only) c2 = Cell(Paragraph('(.013)'), thin_frame_bottom_only) #c3 = Cell(Paragraph('tbd'), thin_frame_bottom_only) table.AddRow(c1, c2) # c1 = Cell(Paragraph('Observations'), thin_frame_top_only) c2 = Cell(Paragraph('5000'), thin_frame_top_only) #c3 = Cell(Paragraph('tbd'), thin_frame_top_and_bottom_only) table.AddRow(c1, c2) # tps = TextPropertySet(italic=True) text = Text('R^2', tps) # #c1 = Cell(Paragraph('R^2', text), thin_frame_bottom_only) c1 = Cell(Paragraph(text), thin_frame_bottom_only) c2 = Cell(Paragraph('0.147'), thin_frame_bottom_only) #c3 = Cell(Paragraph('tbd'), thin_frame_bottom_only) table.AddRow(c1, c2) # section.append(table) # section.append('Standard errors in parentheses') section.append('* p<0.1, ** p<0.05, *** p<0.01') # return doc