Esempio n. 1
0
def build_color_table(colorL, ncol=6, show_full_name=False, hex_only=False):
    start_table()

    for i, c in enumerate(colorL):
        if i == 0:
            start_row()
        hexstr = getValidHexStr(c, c)
        start_cell(bgcolor=hexstr)
        c_best = get_best_gray_text(hexstr)[0]

        if not hex_only:
            add_text(c, color=c_best, br=True)

        if show_full_name:
            c_full = VERY_SHORT_NAME_DICT[c]
            add_text(c_full, color=c_best, br=True)

        add_text(hexstr, color=c_best, br=False)
        end_cell()

        if i % ncol == ncol - 1:
            end_row()
            start_row()

    if i % ncol != ncol - 1:
        end_row()
    end_table()
Esempio n. 2
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def build_color_table( colorL, ncol=6, show_full_name=False, hex_only=False ):
    start_table()
    
    for i,c in enumerate(colorL):
        if i == 0:
            start_row()
        hexstr = getValidHexStr(c, c)
        start_cell(bgcolor=hexstr)
        c_best = get_best_gray_text( hexstr )[0]
        
        if not hex_only:
            add_text(c, color=c_best, br=True)
        
        if show_full_name:
            c_full = VERY_SHORT_NAME_DICT[c]
            add_text(c_full, color=c_best, br=True)
        
        add_text(hexstr, color=c_best, br=False)
        end_cell()
        
        if i % ncol == ncol-1:
            end_row()
            start_row()
            
    if i % ncol  != ncol-1:
        end_row()
    end_table()
Esempio n. 3
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    def add_to_secondary_y(self, data_sheetname, xcol, ycol2L,
                              showMarker2L=None, showLine2L=None,
                              lineThk2L=None, lineStyle2L=None, 
                              color2L=None, label2L=None):
        """
        Add new curves to primary y axis
        """
        if ycol2L is None:
            return

        # self.color2L will always be None 1st time through
        if self.color2L is None:
            self.color2L = []
            self.label2L = []
            self.showMarker2L = []
            self.markerType2L = []
            self.showLine2L = []
            self.lineThk2L = []
            self.lineStyle2L = []
            self.markerHtWd2L = []
            self.ycol2L = []
            self.xcol2L = []
            self.ycol2_DataSheetNameL = []

        # Fill attribute lists with input list values
        for i,ycol in enumerate(ycol2L):
            self.ycol2L.append( ycol )
            self.xcol2L.append( xcol )
            self.ycol2_DataSheetNameL.append( data_sheetname )

            # See if there's an input color
            c_inp = get_ith_value( color2L, i, None )
            c_palette = self.get_next_color()
            c = getValidHexStr( c_inp, c_palette)
            self.color2L.append( c )
            
            self.markerType2L.append( self.get_next_symbol_type() )

            self.label2L.append( get_ith_value( label2L, i, None ) )

            if len(self.showMarker2L):
                self.showMarker2L.append( get_ith_value( showMarker2L, i, self.showMarker2L[-1] ) )
            else:
                self.showMarker2L.append( get_ith_value( showMarker2L, i, True ) )

            if len(self.showLine2L):
                self.showLine2L.append( get_ith_value( showLine2L, i, self.showLine2L[-1] ) )
            else:
                self.showLine2L.append( get_ith_value( showLine2L, i, True ) )

            # first get number into line thickness
            if len(self.lineThk2L): # remember that this holds strings like: "2.5mm" 
                self.lineThk2L.append( get_ith_value( lineThk2L, i, self.lineThk2L[-1][:-2] ) )
            else:
                self.lineThk2L.append( get_ith_value( lineThk2L, i, 0.8 ) )
                
            # then convert to mm
            try:
                v = float(self.lineThk2L[-1])
                self.markerHtWd2L.append("%gmm"%(v*3,))
                self.lineThk2L[-1] = "%gmm"%v
            except:
                self.markerHtWd2L.append("%2.4mm")
                self.lineThk2L[-1] = "0.8mm"

            # Set line style to solid unless otherwise indicated
            if len(self.lineStyle2L):
                self.lineStyle2L.append( get_ith_value( lineStyle2L, i, self.lineStyle2L[-1] ) )
            else:
                self.lineStyle2L.append( get_ith_value( lineStyle2L, i, 0 ) )
                
            # include all y curves (primary and secondary) in set_of_line_styles
            self.set_of_line_styles.update( set(self.lineStyle2L) )
            self.set_of_line_styles.discard(0)  # Make sure that 0 does not appear
Esempio n. 4
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    def add_to_secondary_y(self,
                           data_sheetname,
                           xcol,
                           ycol2L,
                           showMarker2L=None,
                           showLine2L=None,
                           lineThk2L=None,
                           lineStyle2L=None,
                           color2L=None,
                           label2L=None):
        """
        Add new curves to primary y axis
        """
        if ycol2L is None:
            return

        # self.color2L will always be None 1st time through
        if self.color2L is None:
            self.color2L = []
            self.label2L = []
            self.showMarker2L = []
            self.markerType2L = []
            self.showLine2L = []
            self.lineThk2L = []
            self.lineStyle2L = []
            self.markerHtWd2L = []
            self.ycol2L = []
            self.xcol2L = []
            self.ycol2_DataSheetNameL = []

        # Fill attribute lists with input list values
        for i, ycol in enumerate(ycol2L):
            self.ycol2L.append(ycol)
            self.xcol2L.append(xcol)
            self.ycol2_DataSheetNameL.append(data_sheetname)

            # See if there's an input color
            c_inp = get_ith_value(color2L, i, None)
            c_palette = self.get_next_color()
            c = getValidHexStr(c_inp, c_palette)
            self.color2L.append(c)

            self.markerType2L.append(self.get_next_symbol_type())

            self.label2L.append(get_ith_value(label2L, i, None))

            if len(self.showMarker2L):
                self.showMarker2L.append(
                    get_ith_value(showMarker2L, i, self.showMarker2L[-1]))
            else:
                self.showMarker2L.append(get_ith_value(showMarker2L, i, True))

            if len(self.showLine2L):
                self.showLine2L.append(
                    get_ith_value(showLine2L, i, self.showLine2L[-1]))
            else:
                self.showLine2L.append(get_ith_value(showLine2L, i, True))

            # first get number into line thickness
            if len(self.lineThk2L
                   ):  # remember that this holds strings like: "2.5mm"
                self.lineThk2L.append(
                    get_ith_value(lineThk2L, i, self.lineThk2L[-1][:-2]))
            else:
                self.lineThk2L.append(get_ith_value(lineThk2L, i, 0.8))

            # then convert to mm
            try:
                v = float(self.lineThk2L[-1])
                self.markerHtWd2L.append("%gmm" % (v * 3, ))
                self.lineThk2L[-1] = "%gmm" % v
            except:
                self.markerHtWd2L.append("%2.4mm")
                self.lineThk2L[-1] = "0.8mm"

            # Set line style to solid unless otherwise indicated
            if len(self.lineStyle2L):
                self.lineStyle2L.append(
                    get_ith_value(lineStyle2L, i, self.lineStyle2L[-1]))
            else:
                self.lineStyle2L.append(get_ith_value(lineStyle2L, i, 0))

            # include all y curves (primary and secondary) in set_of_line_styles
            self.set_of_line_styles.update(set(self.lineStyle2L))
            self.set_of_line_styles.discard(
                0)  # Make sure that 0 does not appear