Exemplo n.º 1
0
    def _draw_labels(self, cur_drawing, left_labels, right_labels):
        """Layout and draw sub-feature labels for the chromosome.

        Tries to place each label at the same vertical position as the
        feature it applies to, but will adjust the positions to avoid or
        at least reduce label overlap.

        Draws the label text and a coloured line linking it to the
        location (i.e. feature) it applies to.
        """
        if not self._sub_components:
            return
        color_label = self._color_labels

        segment_width = (self.end_x_position - self.start_x_position) \
                        * self.chr_percent
        label_sep = (self.end_x_position - self.start_x_position) \
                        * self.label_sep_percent
        segment_x = self.start_x_position \
                  + 0.5 * (self.end_x_position - self.start_x_position - segment_width)

        y_limits = []
        for sub_component in self._sub_components:
            y_limits.extend((sub_component.start_y_position, sub_component.end_y_position))
        y_min = min(y_limits)
        y_max = max(y_limits)
        del y_limits
        # Now do some label placement magic...
        # from reportlab.pdfbase import pdfmetrics
        # font = pdfmetrics.getFont('Helvetica')
        # h = (font.face.ascent + font.face.descent) * 0.90
        h = self.label_size
        for x1, x2, labels, anchor in [
                (segment_x,
                 segment_x - label_sep,
                 _place_labels(left_labels, y_min, y_max, h),
                 "end"),
                (segment_x + segment_width,
                 segment_x + segment_width + label_sep,
                 _place_labels(right_labels, y_min, y_max, h),
                 "start"),
            ]:
            for (y1, y2, color, back_color, name) in labels:
                cur_drawing.add(Line(x1, y1, x2, y2,
                                     strokeColor=color,
                                     strokeWidth=0.25))
                label_string = String(x2, y2, name,
                                      textAnchor=anchor)
                label_string.fontName = 'Helvetica'
                label_string.fontSize = h
                if color_label:
                    label_string.fillColor = color
                if back_color:
                    w = stringWidth(name, label_string.fontName, label_string.fontSize)
                    if x1 > x2:
                        w = w * -1.0
                    cur_drawing.add(Rect(x2, y2 - 0.1 * h, w, h,
                                         strokeColor=back_color,
                                         fillColor=back_color))
                cur_drawing.add(label_string)
Exemplo n.º 2
0
    def _draw_title(self, cur_drawing, title, width, height):
        """Add a title to the page we are outputting (PRIVATE)."""
        title_string = String(width / 2, height - inch, title)
        title_string.fontName = 'Helvetica-Bold'
        title_string.fontSize = self.title_size
        title_string.textAnchor = "middle"

        cur_drawing.add(title_string)
Exemplo n.º 3
0
    def _draw_title(self, cur_drawing, title, width, height):
        """Write out the title of the organism figure."""
        title_string = String(width / 2, height - inch, title)
        title_string.fontName = 'Helvetica-Bold'
        title_string.fontSize = self.title_size
        title_string.textAnchor = "middle"

        cur_drawing.add(title_string)
Exemplo n.º 4
0
    def _draw_title(self, cur_drawing, title, width, height):
        """Add the title of the figure to the drawing (PRIVATE)."""
        title_string = String(width / 2, height - inch, title)
        title_string.fontName = "Helvetica-Bold"
        title_string.fontSize = self.title_size
        title_string.textAnchor = "middle"

        cur_drawing.add(title_string)
Exemplo n.º 5
0
    def _draw_title(self, cur_drawing, title, start_x, start_y, end_x, end_y):
        """Add the title of the figure to the drawing (PRIVATE)."""
        x_center = start_x + (end_x - start_x) / 2
        y_pos = end_y + (self.padding_percent * (start_y - end_y)) / 2
        title_string = String(x_center, y_pos, title)
        title_string.fontName = "Helvetica-Bold"
        title_string.fontSize = self.chart_title_size
        title_string.textAnchor = "middle"

        cur_drawing.add(title_string)
Exemplo n.º 6
0
    def _rawDraw(self):
        _text = self._text
        self._text = _text or ""
        self.computeSize()
        self._text = _text
        g = Group()
        g.translate(self.x + self.dx, self.y + self.dy)
        g.rotate(self.angle)

        y = self._top - self._leading * self._baselineRatio
        textAnchor = self._getTextAnchor()
        if textAnchor == "start":
            x = self._left
        elif textAnchor == "middle":
            x = self._left + self._ewidth * 0.5
        else:
            x = self._right

        # paint box behind text just in case they
        # fill it
        if self.boxFillColor or (self.boxStrokeColor and self.boxStrokeWidth):
            g.add(
                Rect(
                    self._left - self.leftPadding,
                    self._bottom - self.bottomPadding,
                    self._width,
                    self._height,
                    strokeColor=self.boxStrokeColor,
                    strokeWidth=self.boxStrokeWidth,
                    fillColor=self.boxFillColor,
                )
            )

        fillColor, fontName, fontSize = self.fillColor, self.fontName, self.fontSize
        strokeColor, strokeWidth, leading = self.strokeColor, self.strokeWidth, self._leading
        svgAttrs = getattr(self, "_svgAttrs", {})
        if strokeColor:
            for line in self._lines:
                s = _text2Path(line, x, y, fontName, fontSize, textAnchor)
                s.fillColor = fillColor
                s.strokeColor = strokeColor
                s.strokeWidth = strokeWidth
                g.add(s)
                y -= leading
        else:
            for line in self._lines:
                s = String(x, y, line, _svgAttrs=svgAttrs)
                s.textAnchor = textAnchor
                s.fontName = fontName
                s.fontSize = fontSize
                s.fillColor = fillColor
                g.add(s)
                y -= leading

        return g
Exemplo n.º 7
0
    def _draw_label(self, cur_drawing, label_name):
        """Draw a label for the chromosome."""
        x_position = 0.5 * (self.start_x_position + self.end_x_position)
        y_position = self.end_y_position

        label_string = String(x_position, y_position, label_name)
        label_string.fontName = 'Times-BoldItalic'
        label_string.fontSize = self.title_size
        label_string.textAnchor = 'middle'

        cur_drawing.add(label_string)
Exemplo n.º 8
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    def _draw_label(self, cur_drawing, label_name):
        """Draw a label for the chromosome.
        """
        x_position = self.start_x_position
        y_position = self.end_y_position

        label_string = String(x_position, y_position, label_name)
        label_string.fontName = "Times-BoldItalic"
        label_string.fontSize = self.title_size
        label_string.textAnchor = "start"

        cur_drawing.add(label_string)
Exemplo n.º 9
0
    def draw(self):
        _text = self._text
        self._text = _text or ''
        self.computeSize()
        self._text = _text
        g = Group()
        g.translate(self.x + self.dx, self.y + self.dy)
        g.rotate(self.angle)

        y = self._top - self.fontSize
        textAnchor = self._getTextAnchor()
        if textAnchor == 'start':
            x = self._left
        elif textAnchor == 'middle':
            x = self._left + self._ewidth * 0.5
        else:
            x = self._right

        # paint box behind text just in case they
        # fill it
        if self.boxFillColor or (self.boxStrokeColor and self.boxStrokeWidth):
            g.add(
                Rect(
                    self._left - self.leftPadding,
                    self._bottom - self.bottomPadding,
                    self._width,
                    self._height,
                    strokeColor=self.boxStrokeColor,
                    strokeWidth=self.boxStrokeWidth,
                    fillColor=self.boxFillColor))

        fillColor, fontName, fontSize = self.fillColor, self.fontName, self.fontSize
        strokeColor, strokeWidth, leading = self.strokeColor, self.strokeWidth, (
            self.leading or 1.2 * fontSize)
        if strokeColor:
            for line in self._lines:
                s = _text2Path(line, x, y, fontName, fontSize, textAnchor)
                s.fillColor = fillColor
                s.strokeColor = strokeColor
                s.strokeWidth = strokeWidth
                g.add(s)
                y = y - leading
        else:
            for line in self._lines:
                s = String(x, y, line)
                s.textAnchor = textAnchor
                s.fontName = fontName
                s.fontSize = fontSize
                s.fillColor = fillColor
                g.add(s)
                y = y - leading

        return g
Exemplo n.º 10
0
    def _draw_label(self, cur_drawing):
        """Add a label to the chromosome segment.
        """
        # the label will be applied to the right of the segment
        if self.label is not None:

            label_x = self.start_x_position + (self.chr_percent + 0.05) * (self.end_x_position - self.start_x_position)
            label_y = (self.start_y_position - self.end_y_position) / 2 + self.end_y_position

            label_string = String(label_x, label_y, self.label)
            label_string.fontName = "Helvetica"
            label_string.fontSize = self.label_size

            cur_drawing.add(label_string)
Exemplo n.º 11
0
    def _draw_label(self, cur_drawing):
        """Add a label to the chromosome segment.

        The label will be applied to the right of the segment.

        This may be overlapped by any sub-feature labels on other segments!
        """
        if self.label is not None:

            label_x = 0.5 * (self.start_x_position + self.end_x_position) + \
                      (self.chr_percent + 0.05) * (self.end_x_position -
                                                   self.start_x_position)
            label_y = ((self.start_y_position - self.end_y_position) / 2 +
                       self.end_y_position)

            label_string = String(label_x, label_y, self.label)
            label_string.fontName = 'Helvetica'
            label_string.fontSize = self.label_size

            cur_drawing.add(label_string)
Exemplo n.º 12
0
    def makeSectors(self):
        # normalize slice data
        if type(self.data) in (ListType, TupleType) and type(self.data[0]) in (ListType, TupleType):
            # it's a nested list, more than one sequence
            normData = []
            n = []
            for l in self.data:
                t = self.normalizeData(l)
                normData.append(t)
                n.append(len(t))
        else:
            normData = self.normalizeData(self.data)
            n = len(normData)

        # labels
        if self.labels is None:
            labels = []
            if type(n) not in (ListType, TupleType):
                labels = [""] * n
            else:
                for m in n:
                    labels = list(labels) + [""] * m
        else:
            labels = self.labels
            # there's no point in raising errors for less than enough errors if
            # we silently create all for the extreme case of no labels.
            if type(n) not in (ListType, TupleType):
                i = n - len(labels)
                if i > 0:
                    labels = list(labels) + [""] * i
            else:
                tlab = 0
                for m in n:
                    tlab = tlab + m
                i = tlab - len(labels)
                if i > 0:
                    labels = list(labels) + [""] * i

        xradius = self.width / 2.0
        yradius = self.height / 2.0
        centerx = self.x + xradius
        centery = self.y + yradius

        if self.direction == "anticlockwise":
            whichWay = 1
        else:
            whichWay = -1

        g = Group()
        i = 0
        sn = 0

        startAngle = self.startAngle  #% 360
        if type(self.data[0]) in (ListType, TupleType):
            # multi-series doughnut
            styleCount = len(self.slices)
            iradius = (self.height / 5.0) / len(self.data)
            for series in normData:
                for angle in series:
                    endAngle = startAngle + (angle * whichWay)  #% 360
                    if abs(startAngle - endAngle) >= 1e-5:
                        if startAngle < endAngle:
                            a1 = startAngle
                            a2 = endAngle
                        else:
                            a1 = endAngle
                            a2 = startAngle

                    # if we didn't use %stylecount here we'd end up with the later sectors
                    # all having the default style
                    sectorStyle = self.slices[i % styleCount]

                    # is it a popout?
                    cx, cy = centerx, centery
                    if sectorStyle.popout != 0:
                        # pop out the sector
                        averageAngle = (a1 + a2) / 2.0
                        aveAngleRadians = averageAngle * pi / 180.0
                        popdistance = sectorStyle.popout
                        cx = centerx + popdistance * cos(aveAngleRadians)
                        cy = centery + popdistance * sin(aveAngleRadians)

                    if type(n) in (ListType, TupleType):
                        theSector = Wedge(
                            cx,
                            cy,
                            xradius + (sn * iradius) - iradius,
                            a1,
                            a2,
                            yradius=yradius + (sn * iradius) - iradius,
                            radius1=yradius + (sn * iradius) - (2 * iradius),
                        )
                    else:
                        theSector = Wedge(cx, cy, xradius, a1, a2, yradius=yradius, radius1=iradius)

                    theSector.fillColor = sectorStyle.fillColor
                    theSector.strokeColor = sectorStyle.strokeColor
                    theSector.strokeWidth = sectorStyle.strokeWidth
                    theSector.strokeDashArray = sectorStyle.strokeDashArray

                    g.add(theSector)
                    startAngle = endAngle

                    if labels[i] != "":
                        averageAngle = (a1 + a2) / 2.0
                        aveAngleRadians = averageAngle * pi / 180.0
                        labelRadius = sectorStyle.labelRadius
                        labelX = centerx + (0.5 * self.width * cos(aveAngleRadians) * labelRadius)
                        labelY = centery + (0.5 * self.height * sin(aveAngleRadians) * labelRadius)

                        theLabel = String(labelX, labelY, labels[i])
                        theLabel.textAnchor = "middle"
                        theLabel.fontSize = sectorStyle.fontSize
                        theLabel.fontName = sectorStyle.fontName
                        theLabel.fillColor = sectorStyle.fontColor
                        g.add(theLabel)
                    i = i + 1
                sn = sn + 1

        else:
            # single series doughnut
            styleCount = len(self.slices)
            iradius = self.height / 5.0
            for angle in normData:
                endAngle = startAngle + (angle * whichWay)  #% 360
                if abs(startAngle - endAngle) >= 1e-5:
                    if startAngle < endAngle:
                        a1 = startAngle
                        a2 = endAngle
                    else:
                        a1 = endAngle
                        a2 = startAngle

                # if we didn't use %stylecount here we'd end up with the later sectors
                # all having the default style
                sectorStyle = self.slices[i % styleCount]

                # is it a popout?
                cx, cy = centerx, centery
                if sectorStyle.popout != 0:
                    # pop out the sector
                    averageAngle = (a1 + a2) / 2.0
                    aveAngleRadians = averageAngle * pi / 180.0
                    popdistance = sectorStyle.popout
                    cx = centerx + popdistance * cos(aveAngleRadians)
                    cy = centery + popdistance * sin(aveAngleRadians)

                if n > 1:
                    theSector = Wedge(cx, cy, xradius, a1, a2, yradius=yradius, radius1=iradius)
                elif n == 1:
                    theSector = Wedge(cx, cy, xradius, a1, a2, yradius=yradius, iradius=iradius)

                theSector.fillColor = sectorStyle.fillColor
                theSector.strokeColor = sectorStyle.strokeColor
                theSector.strokeWidth = sectorStyle.strokeWidth
                theSector.strokeDashArray = sectorStyle.strokeDashArray

                g.add(theSector)

                # now draw a label
                if labels[i] != "":
                    averageAngle = (a1 + a2) / 2.0
                    aveAngleRadians = averageAngle * pi / 180.0
                    labelRadius = sectorStyle.labelRadius
                    labelX = centerx + (0.5 * self.width * cos(aveAngleRadians) * labelRadius)
                    labelY = centery + (0.5 * self.height * sin(aveAngleRadians) * labelRadius)

                    theLabel = String(labelX, labelY, labels[i])
                    theLabel.textAnchor = "middle"
                    theLabel.fontSize = sectorStyle.fontSize
                    theLabel.fontName = sectorStyle.fontName
                    theLabel.fillColor = sectorStyle.fontColor

                    g.add(theLabel)

                startAngle = endAngle
                i = i + 1

        return g
Exemplo n.º 13
0
# -*- coding: UTF-8 -*-
__author__ = 'mcxiaoke'

from reportlab.graphics.shapes import Drawing, String
from reportlab.graphics import renderPDF

d = Drawing(200, 200)
s = String(100, 100, 'Hello, World!', textAnchor='middle')

d.add(s)
renderPDF.drawToFile(d, 'hello.pdf', 'A Simple PDF file')
Exemplo n.º 14
0
    def __init__(self, barcode_value, width=200, height=320, fontSize=30):
        barcode = BarcodeGen(barcode_value)
        barcode.translate((width-barcode.width)/2, 0)

        Drawing.__init__(self, width, height)
        self.add(barcode, name='barcode')

        box = Box.objects.get(barcode=barcode_value)

        box_category = String(10, 275, box.box_category.letter)
        box_category.fontSize = 55

        box_id = String(10, 230, box.box_id)
        box_id.fontSize = 55

        expiration = String(12, 195, "Exp: " + box.get_printable_expiration())
        expiration.fontSize = 30

        category = String(12, 165, box.box_category.name)
        category.fontSize = 15

        weight = String(12, 150, "Weight: " + "%.1f" % box.weight + ' lbs.')
        weight.fontSize = 15 

        contents = String(12, 135, "Contents:")
        contents.fontSize = 15

        count = 120

        for content in box.contents_set.all():
            item = String(17, count, content.item.name)
            item.fontSize = 15
            self.add(item, "item")
            count = count - 15

        self.add(box_category, "box_category")
        self.add(box_id, "boxId")
        self.add(category, "category")
        self.add(expiration, "expiration")
        self.add(weight, "weight")
        self.add(contents, name="contents_of_box")
    def draw(self):
        g = Group()

        #box
        g.add(Rect(self.x,self.y,len(self.xlabels)*self.gridDivWidth,len(self.ylabels)*self.gridDivWidth,
                   strokeColor=self.gridColor,
                   strokeWidth=self.strokeWidth,
                   fillColor=None))

        #internal gridding
        for f in range (1,len(self.ylabels)):
            #horizontal
            g.add(Line(strokeColor=self.gridColor,
                       strokeWidth=self.strokeWidth,
                       x1 = self.x,
                       y1 = self.y+f*self.gridDivWidth,
                       x2 = self.x+len(self.xlabels)*self.gridDivWidth,
                       y2 = self.y+f*self.gridDivWidth))
        for f in range (1,len(self.xlabels)):
            #vertical
            g.add(Line(strokeColor=self.gridColor,
                       strokeWidth=self.strokeWidth,
                       x1 = self.x+f*self.gridDivWidth,
                       y1 = self.y,
                       x2 = self.x+f*self.gridDivWidth,
                       y2 = self.y+len(self.ylabels)*self.gridDivWidth))

        # draw the 'dot'
        g.add(Circle(strokeColor=self.gridColor,
                     strokeWidth=self.strokeWidth,
                     fillColor=self.dotColor,
                     cx = self.x+(self.dotXPosition*self.gridDivWidth),
                     cy = self.y+(self.dotYPosition*self.gridDivWidth),
                     r = self.dotDiameter/2.0))

        #used for centering y-labels (below)
        ascent=getFont(self.labelFontName).face.ascent
        if ascent==0:
            ascent=0.718 # default (from helvetica)
        ascent=ascent*self.labelFontSize # normalize

        #do y-labels
        if self.ylabels != None:
            for f in range (len(self.ylabels)-1,-1,-1):
                if self.ylabels[f]!= None:
                    g.add(String(strokeColor=self.gridColor,
                             text = self.ylabels[f],
                             fontName = self.labelFontName,
                             fontSize = self.labelFontSize,
                             fillColor=_PCMYK_black,
                             x = self.x-self.labelOffset,
                             y = self.y+(f*self.gridDivWidth+(self.gridDivWidth-ascent)/2.0),
                             textAnchor = 'end'))

        #do x-labels
        if self.xlabels != None:
            for f in range (0,len(self.xlabels)):
                if self.xlabels[f]!= None:
                    l=Label()
                    l.x=self.x+(f*self.gridDivWidth)+(self.gridDivWidth+ascent)/2.0
                    l.y=self.y+(len(self.ylabels)*self.gridDivWidth)+self.labelOffset
                    l.angle=90
                    l.textAnchor='start'
                    l.fontName = self.labelFontName
                    l.fontSize = self.labelFontSize
                    l.fillColor = _PCMYK_black
                    l.setText(self.xlabels[f])
                    l.boxAnchor = 'sw'
                    l.draw()
                    g.add(l)

        return g
# coding=utf-8
from reportlab.graphics.shapes import Drawing, String
from reportlab.graphics import renderPDF

d = Drawing(100, 100)  # 创建一个自动尺寸的Drawing对象
s = String(x=50, y=50, text='Hello, world!', textAnchor='middle')  # 创建指定属性的图形元素
d.add(s)  # 添加图形元素到Drawing对象

renderPDF.drawToFile(d, 'hello.pdf', 'A simple PDF file')  # 以PDF格式渲染Drawing对象,并将结果保存到文件

# ### ReportLab
# HomePage: https://www.reportlab.com/
# Documentation: https://www.reportlab.com/documentation/
# 可以创建多种格式的图表文档,功能强大易于使用;
Exemplo n.º 17
0
def getTempPlot():
    drawing = Drawing(400, 200)
    temps = [getTemps()]
    bc = LinePlot()
    bc.x = 50
    bc.y = 50
    bc.height = 125
    bc.width = 300
    bc.data = temps
    bc.lines[0].symbol = makeMarker('Circle')

    #labels
    yilabel = Label()
    yilabel.setText("Temperatura (°C)")
    yilabel.angle = 90
    yilabel.setOrigin(20, 120)
    xlabel = Label()
    xlabel.setText("Días")
    xlabel.setOrigin(200, 20)

    #labelT = Label()
    #labelT.setText("Temperatura")
    #labelT.setOrigin(210,185)

    #labelH = Label()
    #labelH.setText("Humedad")
    #labelH.setOrigin(285,185)

    label55 = Label()
    label55.setText("55°")
    label55.setOrigin(325, 185)

    bc.xValueAxis.valueMin = 0
    bc.xValueAxis.valueMax = 30
    bc.xValueAxis.valueSteps = [x for x in range(0, bc.xValueAxis.valueMax, 5)]
    #bc.xValueAxis.labelTextFormat = '%2.1f'
    bc.yValueAxis.valueMin = 0
    bc.yValueAxis.valueMax = 80
    bc.yValueAxis.valueSteps = [0, 10, 20, 30, 40, 50, 60, 70, 80]
    drawing.add(bc)
    drawing.add(yilabel)
    drawing.add(xlabel)
    #drawing.add(Line(170,185,185,185, strokeColor=colors.red))
    #drawing.add(Line(250,185,265,185, strokeColor=colors.blue))
    drawing.add(
        Line(300,
             185,
             315,
             185,
             strokeColor=colors.black,
             strokeDashArray=[2, 2]))
    drawing.add(
        Line(50,
             135,
             350,
             135,
             strokeColor=colors.black,
             strokeDashArray=[2, 2]))
    #drawing.add(labelT)
    #drawing.add(labelH)
    drawing.add(label55)
    #drawing.add(Grid())
    drawing.add(String(130, 200, "Gráfico de temperaturas", fontSize=16))

    return drawing
 def __init__(self, width=400, height=200, *args, **kw):
     Drawing.__init__(self, width, height, *args, **kw)
     self.transform = (1, 0, 0, 1, 0, 0)
     self.add(
         Wedge(175,
               100,
               50,
               -127.3684,
               -95,
               yradius=50,
               annular=False,
               fillColor=Color(.27451, .509804, .705882, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -143.1579,
               -127.3684,
               yradius=50,
               annular=False,
               fillColor=Color(.847059, .74902, .847059, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -174.7368,
               -143.1579,
               yradius=50,
               annular=False,
               fillColor=Color(.392157, .584314, .929412, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -186.5789,
               -174.7368,
               yradius=50,
               annular=False,
               fillColor=Color(.690196, .768627, .870588, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -202.3684,
               -186.5789,
               yradius=50,
               annular=False,
               fillColor=Color(.498039, 1, .831373, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -226.0526,
               -202.3684,
               yradius=50,
               annular=False,
               fillColor=Color(.372549, .619608, .627451, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -265.5263,
               -226.0526,
               yradius=50,
               annular=False,
               fillColor=Color(1, 1, 0, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -277.3684,
               -265.5263,
               yradius=50,
               annular=False,
               fillColor=Color(.27451, .509804, .705882, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -297.1053,
               -277.3684,
               yradius=50,
               annular=False,
               fillColor=Color(.847059, .74902, .847059, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -324.7368,
               -297.1053,
               yradius=50,
               annular=False,
               fillColor=Color(.392157, .584314, .929412, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -344.4737,
               -324.7368,
               yradius=50,
               annular=False,
               fillColor=Color(.690196, .768627, .870588, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -360.2632,
               -344.4737,
               yradius=50,
               annular=False,
               fillColor=Color(.498039, 1, .831373, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -383.9474,
               -360.2632,
               yradius=50,
               annular=False,
               fillColor=Color(.372549, .619608, .627451, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -415.5263,
               -383.9474,
               yradius=50,
               annular=False,
               fillColor=Color(1, 1, 0, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -431.3158,
               -415.5263,
               yradius=50,
               annular=False,
               fillColor=Color(.27451, .509804, .705882, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         Wedge(175,
               100,
               50,
               -455,
               -431.3158,
               yradius=50,
               annular=False,
               fillColor=Color(.847059, .74902, .847059, 1),
               fillOpacity=None,
               strokeColor=Color(0, 0, 0, 1),
               strokeWidth=1,
               strokeLineCap=0,
               strokeLineJoin=1,
               strokeMiterLimit=0,
               strokeDashArray=None,
               strokeOpacity=None))
     self.add(
         String(115,
                44.05459,
                'example1',
                textAnchor='end',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(115,
                57.7689,
                'example2',
                textAnchor='end',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(115,
                78.44648,
                'example3',
                textAnchor='end',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(115,
                100.6889,
                'example4',
                textAnchor='end',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(115,
                114.9961,
                'example5',
                textAnchor='end',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(115,
                133.7341,
                'example6',
                textAnchor='end',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(115,
                154.7227,
                'example7',
                textAnchor='end',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(235,
                165.9809,
                'example8',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(235,
                157.3053,
                'example9',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(235,
                145.3368,
                'example10',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(235,
                125.7311,
                'example11',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(235,
                107.9682,
                'example12',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(235,
                87.4175,
                'example13',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(235,
                61.64425,
                'example14',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(235,
                52.34088,
                'example15',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         String(235,
                40.42731,
                'example16',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         Line(156.9316,
              53.37883,
              135.9658,
              47.05459,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(135.9658,
              47.05459,
              115,
              47.05459,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(139.4826,
              64.80742,
              127.2413,
              60.7689,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(127.2413,
              60.7689,
              115,
              60.7689,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(128.3375,
              82.03873,
              121.6687,
              81.44648,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(121.6687,
              81.44648,
              115,
              81.44648,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(125.0033,
              100.5741,
              120.0016,
              103.6889,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(120.0016,
              103.6889,
              115,
              103.6889,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(126.5869,
              112.4968,
              120.7934,
              117.9961,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(120.7934,
              117.9961,
              115,
              117.9961,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(133.6511,
              128.1118,
              124.3256,
              136.7341,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(124.3256,
              136.7341,
              115,
              136.7341,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(154.4955,
              145.6022,
              134.7477,
              157.7227,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(134.7477,
              157.7227,
              115,
              157.7227,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(176.2629,
              149.984,
              205.6315,
              168.9809,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(205.6315,
              168.9809,
              235,
              168.9809,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(189.8161,
              147.7544,
              212.4081,
              160.3053,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(212.4081,
              160.3053,
              235,
              160.3053,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(207.7509,
              137.7806,
              221.3755,
              148.3368,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(221.3755,
              148.3368,
              235,
              148.3368,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(220.1687,
              121.4426,
              227.5844,
              128.7311,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(227.5844,
              128.7311,
              235,
              128.7311,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(224.5571,
              106.6401,
              229.7786,
              110.9682,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(229.7786,
              110.9682,
              235,
              110.9682,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(223.8882,
              89.51458,
              229.4441,
              90.4175,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(229.4441,
              90.4175,
              235,
              90.4175,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(213.4494,
              68.03688,
              224.2247,
              64.64425,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(224.2247,
              64.64425,
              235,
              64.64425,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(197.3715,
              55.28406,
              216.1858,
              55.34088,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(216.1858,
              55.34088,
              235,
              55.34088,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(180.9567,
              50.35609,
              207.9783,
              43.42731,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(207.9783,
              43.42731,
              235,
              43.42731,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=.5,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
Exemplo n.º 19
0
 def __init__(self, width=400, height=200, *args, **kw):
     Drawing.__init__(self, width, height, *args, **kw)
     self.transform = (1, 0, 0, 1, 0, 0)
     self.add(
         Rect(50,
              50,
              300,
              125,
              rx=0,
              ry=0,
              fillColor=None,
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Rect(75,
              50,
              100,
              7.5,
              rx=0,
              ry=0,
              fillColor=Color(1, 0, 0, 1),
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Rect(225,
              50,
              100,
              25,
              rx=0,
              ry=0,
              fillColor=Color(1, 0, 0, 1),
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              49,
              350,
              49,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              49,
              50,
              44,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(200,
              49,
              200,
              44,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(350,
              49,
              350,
              44,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 125, 44)
     v0.add(
         String(-10,
                -10,
                'Ying',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 275, 44)
     v0.add(
         String(-10.83,
                -10,
                'Yang',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         Line(50,
              50,
              50,
              175,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              62.5,
              45,
              62.5,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              100,
              45,
              100,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              137.5,
              45,
              137.5,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              175,
              45,
              175,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 62.5)
     v0.add(
         String(-10,
                -4,
                '15',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 100)
     v0.add(
         String(-10,
                -4,
                '30',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 137.5)
     v0.add(
         String(-10,
                -4,
                '45',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 175)
     v0.add(
         String(-10,
                -4,
                '60',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
Exemplo n.º 20
0
# data = [
#     # 其他数据
#     (2016, 3, 30.9, 31.9, 29.9)
#     (2016, 4, 30.5, 32.5, 28.5)
#
# ]

from reportlab.graphics.shapes import Drawing, String
from reportlab.graphics import renderPDF

d = Drawing(100, 100)
s = String(50, 50, 'hello, world', textAnchor='middle')

d.add(s)

renderPDF.drawToFile(d, 'hello.pdf', 'A simple PDF file')
Exemplo n.º 21
0
from reportlab.graphics.shapes import Drawing, String
from reportlab.graphics import renderPDF

d = Drawing(200, 200)
s = String(100, 100, 'Hello, world', textAnchor='middle')
d.add(s)
renderPDF.drawToFile(d, 'hello.pdf', 'A simple PDF file')



 def __init__(self, width=400, height=200, *args, **kw):
     Drawing.__init__(self, width, height, *args, **kw)
     self.transform = (1, 0, 0, 1, 0, 0)
     self.add(
         Line(50,
              50,
              350,
              50,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              50,
              50,
              45,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(143.75,
              50,
              143.75,
              45,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(237.5,
              50,
              237.5,
              45,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(331.25,
              50,
              331.25,
              45,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 50, 45)
     v0.add(
         String(-5,
                -10,
                '10',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 143.75, 45)
     v0.add(
         String(-5,
                -10,
                '20',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 237.5, 45)
     v0.add(
         String(-5,
                -10,
                '30',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 331.25, 45)
     v0.add(
         String(-5,
                -10,
                '40',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         Line(50,
              50,
              50,
              175,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              50,
              45,
              50,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              81.25,
              45,
              81.25,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              112.5,
              45,
              112.5,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              143.75,
              45,
              143.75,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              175,
              45,
              175,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 65.625)
     v0.add(
         String(-18.88,
                -4,
                'Beer',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 96.875)
     v0.add(
         String(-21.66,
                -4,
                'Wine',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 128.125)
     v0.add(
         String(-20.55,
                -4,
                'Meat',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 159.375)
     v0.add(
         String(-43.89,
                -4,
                'Cannelloni',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
Exemplo n.º 23
0
def line_chart(doc, months, portfolioDate, monthlyInv, monthlyVal, Valuation,
               Investment):
    drawing = Drawing(doc.width / 2, doc.height / 2 - 80)
    data = [monthlyInv, monthlyVal]
    my_title = String(doc.width / 2 - 90,
                      doc.height / 2,
                      'Performance Chart',
                      fontSize=20)

    lc = HorizontalLineChart()
    lc.x = doc.leftMargin + 35
    lc.y = doc.bottomMargin
    lc.height = doc.height / 2 - 60
    lc.width = doc.width - 100

    lc.data = data
    lc.joinedLines = 1
    catNames = months[portfolioDate.month:]

    if portfolioDate.month > 1:
        catNames += months[:portfolioDate.month]

    lc.categoryAxis.categoryNames = catNames
    #lc.categoryAxis.labels.boxAnchor = 'autox'
    lc.valueAxis.valueMin = 0
    roundedVal = Valuation if Valuation % 10 == 0 else Valuation + Valuation % 10
    lc.valueAxis.valueMax = roundedVal
    lc.valueAxis.valueStep = int((roundedVal / 10) / 10) * 10
    lc.lines[0].strokeWidth = 2
    lc.lines[1].strokeWidth = 1.5
    lc.lines[0].strokeColor = colors.blue
    lc.lines[
        1].strokeColor = colors.green if Valuation > Investment else colors.red
    lc.valueAxis.visibleGrid = 1
    lc.valueAxis.gridStrokeColor = colors.lightgrey

    lc.lines[0].name = 'Investment Value'
    lc.lines[1].name = 'Closing Valuation'
    #lc.lineLabelFormat = '%2.0f'
    labels = ['Investment Value', 'Closing Valuation']
    lc._seriesCount = len(labels)

    drawing.add(my_title)
    drawing.add(lc)
    add_legend1(drawing, lc, labels, doc)

    return drawing


################### Old Function Call Segment#######################

# FI=[4531082, 4892169, 206462, 4.56, 45.94]
# Equity=[5218922,5362021.34,-62131.35,-1.19,50.36]

# Investment=225323
# Valuation=865489
# monthlyInv=[23564,5782,84,79765,3243,65799,43344,5668,43,78900,3456,7543]
# monthlyVal=[85265,578954,8656,87533,29754,264256,23244,23435,243234,5767,576854,574321]

# equityTrades=[
#     ['UBS BANK USA \n DEPOSIT ACCOUNT','IN8543975','Corporate','654','764.7','7643','764.97','245.65','9877','86','','','85.32%','1.69%']
# ]

# bondTrades=[
#     ['UBS BANK USA \n DEPOSIT ACCOUNT','IN8543975','Corporate','654','764.7','7643','764.97','245.65','9877','86','78','1/12/2021','85.32%','1.69%']
#     ,['UBS BANK USA \n DEPOSIT ACCOUNT','IN8543975','Corporate','654','764.7','7643','764.97','245.65','9877','86','78','1/12/2021','85.32%','1.69%']
#     ,['UBS BANK USA \n DEPOSIT ACCOUNT','IN8543975','Corporate','654','764.7','7643','764.97','245.65','9877','86','78','1/12/2021','85.32%','1.69%']
# ]

# #Page 5 data
# net_position=[
#         ['Total Portfolio','','','','','','$9,967,814.44','$10,648,193.73','$145,102.43','1.46%','100%','100%']
#     ]

# generatePDF(FI,Equity,Investment,Valuation,monthlyInv,monthlyVal,equityTrades,bondTrades,net_position)

################### New Function Call Segment#######################

# from helper_pdfgen import helperPdfgen , historyHelper , invAndVal

# resp = helperPdfgen()
# histdata = historyHelper()

# FI= resp['FI']
# Equity= resp['Equity']

# iv = invAndVal()
# Investment = iv['Investment']
# Valuation = iv['Valuation']
# monthlyInv = histdata['monthlyInv']
# monthlyVal = histdata['monthlyVal']
# labels = histdata['labels']

# equityTrades = resp['equityTrades']

# bondTrades= resp['bondTrades']

# URPL = Valuation - Investment
# perURPL = URPL*100 / ( Valuation )
# #Page 5 data
# net_position=[
#         ['Total Portfolio','','','','','', Investment , Valuation , URPL , perURPL ,'100%','100%']
#     ]

# generatePDF(FI,Equity,Investment,Valuation,monthlyInv,monthlyVal,equityTrades,bondTrades,net_position,labels)
Exemplo n.º 24
0
def generatePDF(FI, Equity, Investment, Valuation, monthlyInv, monthlyVal,
                equityTrades, bondTrades, net_position, mlabels):

    logo = 'AIM_logo.jpg'
    portfolioDate = date.today()
    months = [
        'Jan', 'Feb', 'Mar', 'Apr', 'May', 'June', 'July', 'Aug', 'Sep', 'Oct',
        'Nov', 'Dec'
    ]

    portfolioHoldings = [[
        '', 'Cost basis($)', 'Value on\n' + str(date.today()),
        'Unrealized\ngain/loss($)', 'Unrealized\ngain/loss(%)',
        '% of\nPortfolio'
    ], ['Bond'] + FI, ['Equity'] + Equity, ['Total Portfolio'] +
                         [round(a + b, 2) for (a, b) in zip(FI, Equity)]]

    #Page 4 data
    equity_data = [[
        'Equity', 'Sector', 'Qty', 'Buy \nAverage($)',
        'Previous \nClosing Price($)', 'Holdings buy\nvalue($)',
        'Current\n Value($)', 'Unrealized\n gain/loss ($)',
        'Unrealized \ngain/loss(%)', '', '', '% of portfolio'
    ]] + equityTrades

    bond_data = [[
        'Bond', 'Sector', 'Qty', 'Buy \nAverage($)',
        'Previous\nClosing Price($)', 'Holdings buy\nvalue($)',
        'Current\nValue($)', 'Unrealized\n gain/loss ($)',
        'Unrealized \ngain/loss(%)', 'Accrued\nInterest (%)',
        'Maturity\n Date', '% of portfolio'
    ]] + bondTrades

    portfolioDetails = equity_data + [[''] * 14] + bond_data

    netPosition = [[
        'Net Position', '', '', '', '', '', 'Holdings buy\nvalue($)',
        'Current\n Value($)', 'Unrealized\n gain/loss ($)',
        'Unrealized \ngain/loss(%)', '% of Asset Class', '% of portfolio'
    ]] + net_position

    styles = getSampleStyleSheet()
    styleN = styles['Normal']
    styleContent = ParagraphStyle(name='content',
                                  parent=styles['Normal'],
                                  fontSize=18,
                                  leading=35)
    styleH = styles['Heading1']
    style_right = ParagraphStyle(name='right',
                                 parent=styles['Heading1'],
                                 alignment=TA_RIGHT,
                                 fontSize=24)
    style_center = ParagraphStyle(name='center',
                                  parent=styles['Normal'],
                                  alignment=TA_CENTER,
                                  fontSize=16,
                                  leading=35)

    story = []
    doc = SimpleDocTemplate('uploads/portfolio.pdf',
                            pagesize=landscape(A4),
                            rightMargin=30,
                            leftMargin=30,
                            topMargin=30,
                            bottomMargin=30)

    myFrame = Frame(doc.leftMargin,
                    doc.bottomMargin,
                    doc.width,
                    doc.height,
                    id='myFrame')
    frame1 = Frame(doc.leftMargin,
                   doc.bottomMargin,
                   doc.width / 2 - 6,
                   doc.height,
                   id='col1')
    frame2 = Frame(doc.leftMargin + doc.width / 2 + 6,
                   doc.bottomMargin,
                   doc.width / 2 - 6,
                   doc.height,
                   id='col2')
    frame3 = Frame(doc.leftMargin,
                   doc.bottomMargin,
                   doc.width,
                   doc.height / 2,
                   id='col3')
    coverPage = PageTemplate(id='Cover', frames=[myFrame])
    threeTemplate = PageTemplate(id='ThreeSec',
                                 frames=[frame1, frame2, frame3])
    columnTemplate = PageTemplate(id='TwoCol', frames=[frame1, frame2])

    #Page 1
    story.append(Image(logo, 2 * inch, 2 * inch, hAlign='RIGHT'))
    story.append(Spacer(0, 10))
    story.append(Paragraph("CLIENT  PORTFOLIO", style_right))
    story.append(HRFlowable(width='100%', thickness=5, color=colors.navy))
    story.append(Spacer(0, 15))

    story.append(
        Paragraph(
            "TABLE OF CONTENTS",
            ParagraphStyle(name='content',
                           parent=styles['Normal'],
                           fontSize=18,
                           leading=35)))

    story.append(Paragraph("Investment Value" + "." * 104 + "1", styleN))
    story.append(Spacer(0, 15))
    story.append(Paragraph("Portfolio Holdings" + "." * 103 + "2", styleN))
    story.append(Spacer(0, 15))
    story.append(Paragraph("Net Position" + "." * 112 + "3", styleN))
    story.append(Spacer(0, 15))

    story.append(NextPageTemplate('ThreeSec'))
    story.append(PageBreak())

    #Page 2
    story.append(Paragraph("Investment Value", styleH))
    story.append(Paragraph("As of " + str(portfolioDate), styleContent))

    #Frame1
    draw = Drawing(200, 150)
    rect = Rect(doc.width / 4, 100, 120, 50)
    rect.fillColor = colors.lightcoral
    draw.add(rect)
    my_title = String(doc.width / 4 + 6, 135, 'Total Investment', fontSize=16)
    my_title.fillColor = colors.white
    draw.add(my_title)
    my_title = String(doc.width / 4 + 15,
                      110,
                      '$' + str(Investment),
                      fontSize=20)
    my_title.fillColor = colors.white
    draw.add(my_title)
    story.append(draw)

    story.append(FrameBreak())

    #Frame 2
    story.append(Spacer(0, 75))

    draw = Drawing(200, 150)
    rect = Rect(40, 112, 120, 50)
    rect.fillColor = colors.orange
    draw.add(rect)

    my_title = String(41, 145, 'Current Valuation', fontSize=16)
    my_title.fillColor = colors.white
    draw.add(my_title)
    my_title = String(55, 122, '$' + str(Valuation), fontSize=20)
    my_title.fillColor = colors.white
    draw.add(my_title)
    story.append(draw)

    story.append(FrameBreak())

    #Frame 3
    lineChart = line_chart(doc, months, portfolioDate, monthlyInv, monthlyVal,
                           Valuation, Investment)
    story.append(lineChart)

    story.append(NextPageTemplate('TwoCol'))
    story.append(PageBreak())

    # Page 3

    story.append(Paragraph("Portfolio Holdings", styleH))
    story.append(Paragraph("As of " + str(portfolioDate), styleContent))

    story.append(Spacer(0, 100))
    story.append(Paragraph("Summary of Portfolio Holdings", style_center))

    style = TableStyle([('BACKGROUND', (0, -1), (-1, -1), colors.whitesmoke),
                        ('ALIGN', (1, 0), (-1, -1), 'CENTER'),
                        ('FONTSIZE', (0, 0), (-1, -1), 8),
                        ('BODYTEXT', (0, 0), (-1, -1), 'TEXTWRAP'),
                        ('LINEABOVE', (0, 0), (-1, 1), 1, colors.black)])

    table1 = Table(portfolioHoldings)
    table1.setStyle(style)
    story.append(table1)

    story.append(FrameBreak())

    #Frame2
    chart = pie_chart_with_legend(doc, FI, Equity)
    story.append(chart)

    #Page 4
    story.append(PageBreak())
    story.append(Paragraph("Details of portfolio holdings", styleH))
    story.append(Paragraph("As of " + str(portfolioDate), styleContent))
    story.append(Spacer(0, 5))

    #style=[('BACKGROUND', (0,1), (-1,1), colors.whitesmoke),('ALIGN',(1,0),(-1,-1),'CENTER'),('FONTSIZE',(0,0),(-1,-1),8),('BODYTEXT',(0,0),(-1,-1),'TEXTWRAP'),('FONTNAME', (0,2), (-1,2), 'Helvetica-Bold')]
    style2 = [('ALIGN', (1, 0), (-1, -1), 'CENTER'),
              ('FONTSIZE', (0, 0), (-1, -1), 8),
              ('BODYTEXT', (0, 0), (-1, -1), 'TEXTWRAP'),
              ('FONTNAME', (0, 0), (-1, 0), 'Helvetica-Bold'),
              ('LINEABOVE', (0, 0), (-1, 1), 1, colors.black)]
    style = [('ALIGN', (1, 0), (-1, -1), 'CENTER'),
             ('FONTSIZE', (0, 0), (-1, -1), 8),
             ('BODYTEXT', (0, 0), (-1, -1), 'TEXTWRAP'),
             ('FONTNAME', (0, 0), (-1, 0), 'Helvetica-Bold'),
             ('LINEABOVE', (0, 0), (-1, 1), 1, colors.black),
             ('BOX', (0, 0), (-1, -1), 0.25, colors.black)]

    data_len = len(equity_data)

    for each in range(3, data_len):
        bg_color = colors.white
        if each % 2 == 0:
            bg_color = colors.whitesmoke

        #style.append(('BACKGROUND', (0,each), (-1,each), bg_color))

    style2.append(
        ('FONTNAME', (0, data_len + 1), (-1, data_len + 1), 'Helvetica-Bold'))
    style2.append(
        ('LINEABOVE', (0, data_len + 1), (-1, data_len + 2), 1, colors.black))

    table = Table(portfolioDetails)
    table.setStyle(TableStyle(style2))
    story.append(table)

    story.append(Spacer(0, 5))

    #table=Table(bond_data)
    #table.setStyle(TableStyle(style2))
    #story.append(table)

    #page 5
    #story.append(PageBreak())
    story.append(Paragraph("Net Position", styleH))
    story.append(Paragraph("As of " + str(portfolioDate), styleContent))
    story.append(Spacer(0, 20))
    story.append(HRFlowable(width='100%', thickness=1, color=colors.black))
    story.append(Spacer(0, 20))

    table1 = Table(netPosition)
    table1.setStyle(style)
    story.append(table1)

    doc.addPageTemplates([
        coverPage,
        threeTemplate,
        columnTemplate,
    ])
    doc.build(story)
Exemplo n.º 25
0
	def __init__(self,width=400,height=200,*args,**kw):
		Drawing.__init__(self,width,height,*args,**kw)
		self.transform = (1,0,0,1,0,0)
		self.add(Rect(50,50,300,125,rx=0,ry=0,fillColor=None,fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(PolyLine(points=[68.75,77.08333,106.25,60.41667,143.75,91.66667,181.25,95.83333,218.75,127.0833,256.25,143.75,293.75,89.58333,331.25,58.33333],strokeColor=Color(1,0,0,1),strokeWidth=2,strokeLineCap=0,strokeLineJoin=1,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(PolyLine(points=[68.75,60.41667,106.25,91.66667,143.75,145.8333,181.25,129.1667,218.75,97.91667,256.25,93.75,293.75,62.5,331.25,79.16667],strokeColor=Color(0,.501961,0,1),strokeWidth=4,strokeLineCap=0,strokeLineJoin=1,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,68.75,87.08333)
		v0.add(String(-5,-4,'13',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,106.25,70.41667)
		v0.add(String(-3.75,-4,' 5',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,143.75,101.6667)
		v0.add(String(-5,-4,'20',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,181.25,105.8333)
		v0.add(String(-5,-4,'22',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,218.75,137.0833)
		v0.add(String(-5,-4,'37',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,256.25,153.75)
		v0.add(String(-5,-4,'45',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,293.75,99.58333)
		v0.add(String(-5,-4,'19',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,331.25,68.33333)
		v0.add(String(-3.75,-4,' 4',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		self.add(Circle(68.75,60.41667,5,fillColor=None,fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(68.75,60.41667,4.8,fillColor=Color(1,.270588,0,1),fillOpacity=None,strokeColor=None,strokeWidth=0,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(64.75,59.41667,8,2,rx=0,ry=0,fillColor=Color(.972549,.972549,1,1),fillOpacity=None,strokeColor=Color(.972549,.972549,1,1),strokeWidth=0,strokeLineCap=1,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(106.25,91.66667,5,fillColor=None,fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(106.25,91.66667,4.8,fillColor=Color(1,.270588,0,1),fillOpacity=None,strokeColor=None,strokeWidth=0,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(102.25,90.66667,8,2,rx=0,ry=0,fillColor=Color(.972549,.972549,1,1),fillOpacity=None,strokeColor=Color(.972549,.972549,1,1),strokeWidth=0,strokeLineCap=1,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(143.75,145.8333,5,fillColor=None,fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(143.75,145.8333,4.8,fillColor=Color(1,.270588,0,1),fillOpacity=None,strokeColor=None,strokeWidth=0,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(139.75,144.8333,8,2,rx=0,ry=0,fillColor=Color(.972549,.972549,1,1),fillOpacity=None,strokeColor=Color(.972549,.972549,1,1),strokeWidth=0,strokeLineCap=1,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(181.25,129.1667,5,fillColor=None,fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(181.25,129.1667,4.8,fillColor=Color(1,.270588,0,1),fillOpacity=None,strokeColor=None,strokeWidth=0,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(177.25,128.1667,8,2,rx=0,ry=0,fillColor=Color(.972549,.972549,1,1),fillOpacity=None,strokeColor=Color(.972549,.972549,1,1),strokeWidth=0,strokeLineCap=1,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(218.75,97.91667,5,fillColor=None,fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(218.75,97.91667,4.8,fillColor=Color(1,.270588,0,1),fillOpacity=None,strokeColor=None,strokeWidth=0,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(214.75,96.91667,8,2,rx=0,ry=0,fillColor=Color(.972549,.972549,1,1),fillOpacity=None,strokeColor=Color(.972549,.972549,1,1),strokeWidth=0,strokeLineCap=1,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(256.25,93.75,5,fillColor=None,fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(256.25,93.75,4.8,fillColor=Color(1,.270588,0,1),fillOpacity=None,strokeColor=None,strokeWidth=0,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(252.25,92.75,8,2,rx=0,ry=0,fillColor=Color(.972549,.972549,1,1),fillOpacity=None,strokeColor=Color(.972549,.972549,1,1),strokeWidth=0,strokeLineCap=1,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(293.75,62.5,5,fillColor=None,fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(293.75,62.5,4.8,fillColor=Color(1,.270588,0,1),fillOpacity=None,strokeColor=None,strokeWidth=0,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(289.75,61.5,8,2,rx=0,ry=0,fillColor=Color(.972549,.972549,1,1),fillOpacity=None,strokeColor=Color(.972549,.972549,1,1),strokeWidth=0,strokeLineCap=1,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(331.25,79.16667,5,fillColor=None,fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Circle(331.25,79.16667,4.8,fillColor=Color(1,.270588,0,1),fillOpacity=None,strokeColor=None,strokeWidth=0,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(327.25,78.16667,8,2,rx=0,ry=0,fillColor=Color(.972549,.972549,1,1),fillOpacity=None,strokeColor=Color(.972549,.972549,1,1),strokeWidth=0,strokeLineCap=1,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,68.75,70.41667)
		v0.add(String(-3.75,-4,' 5',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,106.25,101.6667)
		v0.add(String(-5,-4,'20',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,143.75,155.8333)
		v0.add(String(-5,-4,'46',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,181.25,139.1667)
		v0.add(String(-5,-4,'38',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,218.75,107.9167)
		v0.add(String(-5,-4,'23',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,256.25,103.75)
		v0.add(String(-5,-4,'21',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,293.75,72.5)
		v0.add(String(-3.75,-4,' 6',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,331.25,89.16667)
		v0.add(String(-5,-4,'14',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		self.add(Circle(68.75,77.08333,2.5,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Ellipse(67.91667,77.91667,.166667,.5,fillColor=Color(0,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Ellipse(69.58333,77.91667,.166667,.5,fillColor=Color(0,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(PolyLine(points=[67.18385,76.5133,67.19403,76.48605,67.20469,76.45899,67.21583,76.43211,67.22742,76.40544,67.23949,76.37897,67.25201,76.35271,67.26499,76.32668,67.27842,76.30088,67.2923,76.27532,67.30662,76.25,67.32139,76.22494,67.33659,76.20013,67.35222,76.1756,67.36827,76.15135,67.38475,76.12737,67.40164,76.10369,67.41894,76.08031,67.43665,76.05723,67.45476,76.03447,67.47326,76.01202,67.49215,75.9899,67.51143,75.96812,67.53108,75.94667,67.5511,75.92557,67.57149,75.90482,67.59224,75.88443,67.61334,75.86441,67.63478,75.84476,67.65657,75.82548,67.67869,75.80659,67.70113,75.78809,67.7239,75.76998,67.74697,75.75227,67.77036,75.73497,67.79404,75.71808,67.81801,75.7016,67.84227,75.68555,67.8668,75.66992,67.8916,75.65472,67.91667,75.63996,67.94198,75.62563,67.96755,75.61175,67.99335,75.59832,68.01938,75.58534,68.04564,75.57282,68.07211,75.56076,68.09878,75.54916,68.12566,75.53803,68.15272,75.52737,68.17997,75.51718,68.20739,75.50747,68.23497,75.49824,68.26271,75.48949,68.2906,75.48123,68.31863,75.47346,68.3468,75.46617,68.37508,75.45938,68.40348,75.45309,68.43199,75.44729,68.46059,75.44199,68.48928,75.43719,68.51804,75.43289,68.54688,75.42909,68.57579,75.4258,68.60474,75.42301,68.63374,75.42073,68.66277,75.41895,68.69183,75.41768,68.72091,75.41692,68.75,75.41667,68.77909,75.41692,68.80817,75.41768,68.83723,75.41895,68.86626,75.42073,68.89526,75.42301,68.92421,75.4258,68.95312,75.42909,68.98196,75.43289,69.01072,75.43719,69.03941,75.44199,69.06801,75.44729,69.09652,75.45309,69.12492,75.45938,69.1532,75.46617,69.18137,75.47346,69.2094,75.48123,69.23729,75.48949,69.26503,75.49824,69.29261,75.50747,69.32003,75.51718,69.34728,75.52737,69.37434,75.53803,69.40122,75.54916,69.42789,75.56076,69.45436,75.57282,69.48062,75.58534,69.50665,75.59832,69.53245,75.61175,69.55802,75.62563,69.58333,75.63996,69.6084,75.65472,69.6332,75.66992,69.65773,75.68555,69.68199,75.7016,69.70596,75.71808,69.72964,75.73497,69.75303,75.75227,69.7761,75.76998,69.79887,75.78809,69.82131,75.80659,69.84343,75.82548,69.86522,75.84476,69.88666,75.86441,69.90776,75.88443,69.92851,75.90482,69.9489,75.92557,69.96892,75.94667,69.98857,75.96812,70.00785,75.9899,70.02674,76.01202,70.04524,76.03447,70.06335,76.05723,70.08106,76.08031,70.09836,76.10369,70.11525,76.12737,70.13173,76.15135,70.14778,76.1756,70.16341,76.20013,70.17861,76.22494,70.19338,76.25,70.2077,76.27532,70.22158,76.30088,70.23501,76.32668,70.24799,76.35271,70.26051,76.37897,70.27258,76.40544,70.28417,76.43211,70.29531,76.45899,70.30597,76.48605,70.31615,76.5133],strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None,fillColor=Color(0,0,0,1)))
		self.add(Circle(106.25,60.41667,2.5,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Ellipse(105.4167,61.25,.166667,.5,fillColor=Color(0,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Ellipse(107.0833,61.25,.166667,.5,fillColor=Color(0,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
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		self.add(Circle(143.75,91.66667,2.5,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
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		self.add(Ellipse(292.9167,90.41667,.166667,.5,fillColor=Color(0,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Ellipse(294.5833,90.41667,.166667,.5,fillColor=Color(0,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(PolyLine(points=[292.1838,89.0133,292.194,88.98605,292.2047,88.95899,292.2158,88.93211,292.2274,88.90544,292.2395,88.87897,292.252,88.85271,292.265,88.82668,292.2784,88.80088,292.2923,88.77532,292.3066,88.75,292.3214,88.72494,292.3366,88.70013,292.3522,88.6756,292.3683,88.65135,292.3847,88.62737,292.4016,88.60369,292.4189,88.58031,292.4366,88.55723,292.4548,88.53447,292.4733,88.51202,292.4922,88.4899,292.5114,88.46812,292.5311,88.44667,292.5511,88.42557,292.5715,88.40482,292.5922,88.38443,292.6133,88.36441,292.6348,88.34476,292.6566,88.32548,292.6787,88.30659,292.7011,88.28809,292.7239,88.26998,292.747,88.25227,292.7704,88.23497,292.794,88.21808,292.818,88.2016,292.8423,88.18555,292.8668,88.16992,292.8916,88.15472,292.9167,88.13996,292.942,88.12563,292.9675,88.11175,292.9933,88.09832,293.0194,88.08534,293.0456,88.07282,293.0721,88.06076,293.0988,88.04916,293.1257,88.03803,293.1527,88.02737,293.18,88.01718,293.2074,88.00747,293.235,87.99824,293.2627,87.98949,293.2906,87.98123,293.3186,87.97346,293.3468,87.96617,293.3751,87.95938,293.4035,87.95309,293.432,87.94729,293.4606,87.94199,293.4893,87.93719,293.518,87.93289,293.5469,87.92909,293.5758,87.9258,293.6047,87.92301,293.6337,87.92073,293.6628,87.91895,293.6918,87.91768,293.7209,87.91692,293.75,87.91667,293.7791,87.91692,293.8082,87.91768,293.8372,87.91895,293.8663,87.92073,293.8953,87.92301,293.9242,87.9258,293.9531,87.92909,293.982,87.93289,294.0107,87.93719,294.0394,87.94199,294.068,87.94729,294.0965,87.95309,294.1249,87.95938,294.1532,87.96617,294.1814,87.97346,294.2094,87.98123,294.2373,87.98949,294.265,87.99824,294.2926,88.00747,294.32,88.01718,294.3473,88.02737,294.3743,88.03803,294.4012,88.04916,294.4279,88.06076,294.4544,88.07282,294.4806,88.08534,294.5067,88.09832,294.5325,88.11175,294.558,88.12563,294.5833,88.13996,294.6084,88.15472,294.6332,88.16992,294.6577,88.18555,294.682,88.2016,294.706,88.21808,294.7296,88.23497,294.753,88.25227,294.7761,88.26998,294.7989,88.28809,294.8213,88.30659,294.8434,88.32548,294.8652,88.34476,294.8867,88.36441,294.9078,88.38443,294.9285,88.40482,294.9489,88.42557,294.9689,88.44667,294.9886,88.46812,295.0078,88.4899,295.0267,88.51202,295.0452,88.53447,295.0634,88.55723,295.0811,88.58031,295.0984,88.60369,295.1153,88.62737,295.1317,88.65135,295.1478,88.6756,295.1634,88.70013,295.1786,88.72494,295.1934,88.75,295.2077,88.77532,295.2216,88.80088,295.235,88.82668,295.248,88.85271,295.2605,88.87897,295.2726,88.90544,295.2842,88.93211,295.2953,88.95899,295.306,88.98605,295.3162,89.0133],strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None,fillColor=Color(0,0,0,1)))
		self.add(Circle(331.25,58.33333,2.5,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Ellipse(330.4167,59.16667,.166667,.5,fillColor=Color(0,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Ellipse(332.0833,59.16667,.166667,.5,fillColor=Color(0,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(PolyLine(points=[329.6838,57.7633,329.694,57.73605,329.7047,57.70899,329.7158,57.68211,329.7274,57.65544,329.7395,57.62897,329.752,57.60271,329.765,57.57668,329.7784,57.55088,329.7923,57.52532,329.8066,57.5,329.8214,57.47494,329.8366,57.45013,329.8522,57.4256,329.8683,57.40135,329.8847,57.37737,329.9016,57.35369,329.9189,57.33031,329.9366,57.30723,329.9548,57.28447,329.9733,57.26202,329.9922,57.2399,330.0114,57.21812,330.0311,57.19667,330.0511,57.17557,330.0715,57.15482,330.0922,57.13443,330.1133,57.11441,330.1348,57.09476,330.1566,57.07548,330.1787,57.05659,330.2011,57.03809,330.2239,57.01998,330.247,57.00227,330.2704,56.98497,330.294,56.96808,330.318,56.9516,330.3423,56.93555,330.3668,56.91992,330.3916,56.90472,330.4167,56.88996,330.442,56.87563,330.4675,56.86175,330.4933,56.84832,330.5194,56.83534,330.5456,56.82282,330.5721,56.81076,330.5988,56.79916,330.6257,56.78803,330.6527,56.77737,330.68,56.76718,330.7074,56.75747,330.735,56.74824,330.7627,56.73949,330.7906,56.73123,330.8186,56.72346,330.8468,56.71617,330.8751,56.70938,330.9035,56.70309,330.932,56.69729,330.9606,56.69199,330.9893,56.68719,331.018,56.68289,331.0469,56.67909,331.0758,56.6758,331.1047,56.67301,331.1337,56.67073,331.1628,56.66895,331.1918,56.66768,331.2209,56.66692,331.25,56.66667,331.2791,56.66692,331.3082,56.66768,331.3372,56.66895,331.3663,56.67073,331.3953,56.67301,331.4242,56.6758,331.4531,56.67909,331.482,56.68289,331.5107,56.68719,331.5394,56.69199,331.568,56.69729,331.5965,56.70309,331.6249,56.70938,331.6532,56.71617,331.6814,56.72346,331.7094,56.73123,331.7373,56.73949,331.765,56.74824,331.7926,56.75747,331.82,56.76718,331.8473,56.77737,331.8743,56.78803,331.9012,56.79916,331.9279,56.81076,331.9544,56.82282,331.9806,56.83534,332.0067,56.84832,332.0325,56.86175,332.058,56.87563,332.0833,56.88996,332.1084,56.90472,332.1332,56.91992,332.1577,56.93555,332.182,56.9516,332.206,56.96808,332.2296,56.98497,332.253,57.00227,332.2761,57.01998,332.2989,57.03809,332.3213,57.05659,332.3434,57.07548,332.3652,57.09476,332.3867,57.11441,332.4078,57.13443,332.4285,57.15482,332.4489,57.17557,332.4689,57.19667,332.4886,57.21812,332.5078,57.2399,332.5267,57.26202,332.5452,57.28447,332.5634,57.30723,332.5811,57.33031,332.5984,57.35369,332.6153,57.37737,332.6317,57.40135,332.6478,57.4256,332.6634,57.45013,332.6786,57.47494,332.6934,57.5,332.7077,57.52532,332.7216,57.55088,332.735,57.57668,332.748,57.60271,332.7605,57.62897,332.7726,57.65544,332.7842,57.68211,332.7953,57.70899,332.806,57.73605,332.8162,57.7633],strokeColor=Color(0,0,0,1),strokeWidth=.131579,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None,fillColor=Color(0,0,0,1)))
		self.add(Line(50,50,350,50,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(50,50,50,45,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(87.5,50,87.5,45,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(125,50,125,45,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(162.5,50,162.5,45,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(200,50,200,45,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(237.5,50,237.5,45,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(275,50,275,45,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(312.5,50,312.5,45,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(350,50,350,45,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,68.75,45)
		v0.add(String(-6.665,-10,'Jan',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,106.25,45)
		v0.add(String(-7.5,-10,'Feb',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,143.75,45)
		v0.add(String(-8.33,-10,'Mar',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,181.25,45)
		v0.add(String(-7.775,-10,'Apr',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,218.75,45)
		v0.add(String(-9.165,-10,'May',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,256.25,45)
		v0.add(String(-6.945,-10,'Jun',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,293.75,45)
		v0.add(String(-5.835,-10,'Jul',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,331.25,45)
		v0.add(String(-8.61,-10,'Aug',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		self.add(Line(50,50,50,175,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(50,50,45,50,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(50,81.25,45,81.25,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(50,112.5,45,112.5,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(50,143.75,45,143.75,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		self.add(Line(50,175,45,175,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=10,strokeDashArray=None,strokeOpacity=None))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,45,50)
		v0.add(String(-5,-4,'0',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,45,81.25)
		v0.add(String(-10,-4,'15',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,45,112.5)
		v0.add(String(-10,-4,'30',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,45,143.75)
		v0.add(String(-10,-4,'45',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,45,175)
		v0.add(String(-10,-4,'60',textAnchor='start',fontName='Times-Roman',fontSize=10,fillColor=Color(0,0,0,1)))
Exemplo n.º 26
0
def _addWedgeLabel(self,text,add,angle,labelX,labelY,wedgeStyle,labelClass=WedgeLabel):
    # now draw a label
    if self.simpleLabels:
        theLabel = String(labelX, labelY, text)
        theLabel.textAnchor = "middle"
        theLabel._pmv = angle
    else:
        theLabel = labelClass()
        theLabel._pmv = angle
        theLabel.x = labelX
        theLabel.y = labelY
        theLabel.dx = wedgeStyle.label_dx
        theLabel.dy = wedgeStyle.label_dy
        theLabel.angle = wedgeStyle.label_angle
        theLabel.boxAnchor = wedgeStyle.label_boxAnchor
        theLabel.boxStrokeColor = wedgeStyle.label_boxStrokeColor
        theLabel.boxStrokeWidth = wedgeStyle.label_boxStrokeWidth
        theLabel.boxFillColor = wedgeStyle.label_boxFillColor
        theLabel.strokeColor = wedgeStyle.label_strokeColor
        theLabel.strokeWidth = wedgeStyle.label_strokeWidth
        _text = wedgeStyle.label_text
        if _text is None: _text = text
        theLabel._text = _text
        theLabel.leading = wedgeStyle.label_leading
        theLabel.width = wedgeStyle.label_width
        theLabel.maxWidth = wedgeStyle.label_maxWidth
        theLabel.height = wedgeStyle.label_height
        theLabel.textAnchor = wedgeStyle.label_textAnchor
        theLabel.visible = wedgeStyle.label_visible
        theLabel.topPadding = wedgeStyle.label_topPadding
        theLabel.leftPadding = wedgeStyle.label_leftPadding
        theLabel.rightPadding = wedgeStyle.label_rightPadding
        theLabel.bottomPadding = wedgeStyle.label_bottomPadding
    theLabel.fontSize = wedgeStyle.fontSize
    theLabel.fontName = wedgeStyle.fontName
    theLabel.fillColor = wedgeStyle.fontColor
    add(theLabel)
Exemplo n.º 27
0
 def _getText(self, x=0, y=0, color=None):
     return String(x,y, self._text, fontName=self._fontName, fontSize=self._fontSize, fillColor=color)
Exemplo n.º 28
0
from reportlab.graphics.shapes import Drawing, String
from reportlab.graphics import renderPDF

s = String(50, 50, 'Hello World', textAnchor='middle')
d = Drawing(100, 100)
d.add(s)

renderPDF.drawToFile(d, 'hello.pdf', 'a simple pdf file')
Exemplo n.º 29
0
    def draw(self):
        colorNamePairs = self.colorNamePairs
        autoCP = isAuto(colorNamePairs)
        if autoCP:
            chart = getattr(colorNamePairs,'chart',getattr(colorNamePairs,'obj',None))
            swatchMarker = None
            autoCP = Auto(obj=chart)
            n = chart._seriesCount
            chartTexts = self._getTexts(colorNamePairs)
        else:
            swatchMarker = getattr(self,'swatchMarker',None)
            if isAuto(swatchMarker):
                chart = getattr(swatchMarker,'chart',getattr(swatchMarker,'obj',None))
                swatchMarker = Auto(obj=chart)
            n = len(colorNamePairs)
        dx = self.dx
        dy = self.dy
        alignment = self.alignment
        columnMaximum = self.columnMaximum
        deltax = self.deltax
        deltay = self.deltay
        dxTextSpace = self.dxTextSpace
        fontName = self.fontName
        fontSize = self.fontSize
        fillColor = self.fillColor
        strokeWidth = self.strokeWidth
        strokeColor = self.strokeColor
        subCols = self.subCols
        leading = fontSize*1.2
        yGap = self.yGap
        if not deltay:
            deltay = max(dy,leading)+self.autoYPadding
        ba = self.boxAnchor
        maxWidth = self._calculateMaxBoundaries(colorNamePairs)
        nCols = int((n+columnMaximum-1)/(columnMaximum*1.0))
        xW = dx+dxTextSpace+self.autoXPadding
        variColumn = self.variColumn
        if variColumn:
            width = sum([m[-1] for m in maxWidth])+xW*nCols
        else:
            deltax = max(maxWidth[-1]+xW,deltax)
            width = nCols*deltax
            maxWidth = nCols*[maxWidth]

        thisx = self.x
        thisy = self.y - self.dy
        if ba not in ('ne','n','nw','autoy'):
            height = self._calcHeight()
            if ba in ('e','c','w'):
                thisy += height/2.
            else:
                thisy += height
        if ba not in ('nw','w','sw','autox'):
            if ba in ('n','c','s'):
                thisx -= width/2
            else:
                thisx -= width
        upperlefty = thisy

        g = Group()

        ascent=getFont(fontName).face.ascent/1000.
        if ascent==0: ascent=0.718 # default (from helvetica)
        ascent *= fontSize # normalize

        lim = columnMaximum - 1
        callout = getattr(self,'callout',None)
        scallout = getattr(self,'swatchCallout',None)
        dividerLines = self.dividerLines
        if dividerLines:
            dividerWidth = self.dividerWidth
            dividerColor = self.dividerColor
            dividerDashArray = self.dividerDashArray
            dividerOffsX = self.dividerOffsX
            dividerOffsY = self.dividerOffsY

        for i in xrange(n):
            if autoCP:
                col = autoCP
                col.index = i
                name = chartTexts[i]
            else:
                col, name = colorNamePairs[i]
                if isAuto(swatchMarker):
                    col = swatchMarker
                    col.index = i
                if isAuto(name):
                    name = getattr(swatchMarker,'chart',getattr(swatchMarker,'obj',None)).getSeriesName(i,'series %d' % i)
            T = _getLines(name)
            S = []
            aS = S.append
            j = int(i/(columnMaximum*1.0))
            jOffs = maxWidth[j]

            # thisy+dy/2 = y+leading/2
            y = y0 = thisy+(dy-ascent)*0.5

            if callout: callout(self,g,thisx,y,(col,name))
            if alignment == "left":
                x = thisx
                xn = thisx+jOffs[-1]+dxTextSpace
            elif alignment == "right":
                x = thisx+dx+dxTextSpace
                xn = thisx
            else:
                raise ValueError("bad alignment")
            if not isSeq(name):
                T = [T]
            yd = y
            for k,lines in enumerate(T):
                y = y0
                kk = k*2
                x1 = x+jOffs[kk]
                x2 = x+jOffs[kk+1]
                sc = subCols[k,i]
                anchor = sc.align
                scdx = sc.dx
                scdy = sc.dy
                fN = getattr(sc,'fontName',fontName)
                fS = getattr(sc,'fontSize',fontSize)
                fC = getattr(sc,'fillColor',fillColor)
                fL = getattr(sc,'leading',1.2*fontSize)
                if fN==fontName:
                    fA = (ascent*fS)/fontSize
                else:
                    fA = getFont(fontName).face.ascent/1000.
                    if fA==0: fA=0.718
                    fA *= fS
                if anchor=='left':
                    anchor = 'start'
                    xoffs = x1
                elif anchor=='right':
                    anchor = 'end'
                    xoffs = x2
                elif anchor=='numeric':
                    xoffs = x2
                else:
                    anchor = 'middle'
                    xoffs = 0.5*(x1+x2)
                for t in lines:
                    aS(String(xoffs+scdx,y+scdy,t,fontName=fN,fontSize=fS,fillColor=fC, textAnchor = anchor))
                    y -= fL
                yd = min(yd,y)
                y += fL
                for iy, a in ((y-max(fL-fA,0),'underlines'),(y+fA,'overlines')):
                    il = getattr(sc,a,None)
                    if il:
                        if not isinstance(il,(tuple,list)): il = (il,)
                        for l in il:
                            l = copy.copy(l)
                            l.y1 += iy
                            l.y2 += iy
                            l.x1 += x1
                            l.x2 += x2
                            aS(l)
            x = xn
            y = yd
            leadingMove = 2*y0-y-thisy

            if dividerLines:
                xd = thisx+dx+dxTextSpace+jOffs[-1]+dividerOffsX[1]
                yd = thisy+dy*0.5+dividerOffsY
                if ((dividerLines&1) and i%columnMaximum) or ((dividerLines&2) and not i%columnMaximum):
                    g.add(Line(thisx+dividerOffsX[0],yd,xd,yd,
                        strokeColor=dividerColor, strokeWidth=dividerWidth, strokeDashArray=dividerDashArray))

                if (dividerLines&4) and (i%columnMaximum==lim or i==(n-1)):
                    yd -= max(deltay,leadingMove)+yGap
                    g.add(Line(thisx+dividerOffsX[0],yd,xd,yd,
                        strokeColor=dividerColor, strokeWidth=dividerWidth, strokeDashArray=dividerDashArray))

            # Make a 'normal' color swatch...
            swatchX = x + getattr(self,'swdx',0)
            swatchY = thisy + getattr(self,'swdy',0)

            if isAuto(col):
                chart = getattr(col,'chart',getattr(col,'obj',None))
                c = chart.makeSwatchSample(getattr(col,'index',i),swatchX,swatchY,dx,dy)
            elif isinstance(col, colors.Color):
                if isSymbol(swatchMarker):
                    c = uSymbol2Symbol(swatchMarker,swatchX+dx/2.,swatchY+dy/2.,col)
                else:
                    c = self._defaultSwatch(swatchX,swatchY,dx,dy,fillColor=col,strokeWidth=strokeWidth,strokeColor=strokeColor)
            elif col is not None:
                try:
                    c = copy.deepcopy(col)
                    c.x = swatchX
                    c.y = swatchY
                    c.width = dx
                    c.height = dy
                except:
                    c = None
            else:
                c = None

            if c:
                g.add(c)
                if scallout: scallout(self,g,thisx,y0,i,(col,name),c)

            for s in S: g.add(s)
            if self.colEndCallout and (i%columnMaximum==lim or i==(n-1)):
                if alignment == "left":
                    xt = thisx
                else:
                    xt = thisx+dx+dxTextSpace
                yd = thisy+dy*0.5+dividerOffsY - (max(deltay,leadingMove)+yGap)
                self.colEndCallout(self, g, thisx, xt, yd, jOffs[-1], jOffs[-1]+dx+dxTextSpace)

            if i%columnMaximum==lim:
                if variColumn:
                    thisx += jOffs[-1]+xW
                else:
                    thisx = thisx+deltax
                thisy = upperlefty
            else:
                thisy = thisy-max(deltay,leadingMove)-yGap

        return g
Exemplo n.º 30
0
 def __init__(self, width=400, height=200, *args, **kw):
     Drawing.__init__(self, width, height, *args, **kw)
     self.transform = (1, 0, 0, 1, 0, 0)
     self.add(
         Line(75,
              75,
              375,
              75,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(75,
              75,
              75,
              70,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(150,
              75,
              150,
              70,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(225,
              75,
              225,
              70,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(300,
              75,
              300,
              70,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(375,
              75,
              375,
              70,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 112.5, 70)
     v0.add(
         String(-9.44,
                -10,
                'Beer',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 187.5, 70)
     v0.add(
         String(-10.83,
                -10,
                'Wine',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 262.5, 70)
     v0.add(
         String(-10.275,
                -10,
                'Meat',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (.866025, .5, -0.5, .866025, 337.5, 60)
     v0.add(
         String(-23.34,
                -10,
                'Cannelloni',
                textAnchor='start',
                fontName='Times-Bold',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         Line(50,
              50,
              50,
              175,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              50,
              45,
              50,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              89.0625,
              45,
              89.0625,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              128.125,
              45,
              128.125,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              167.1875,
              45,
              167.1875,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 50)
     v0.add(
         String(-10,
                -4,
                '10',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 89.0625)
     v0.add(
         String(-10,
                -4,
                '20',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 128.125)
     v0.add(
         String(-10,
                -4,
                '30',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 167.1875)
     v0.add(
         String(-10,
                -4,
                '40',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
Exemplo n.º 31
0
    def _Flag_Brazil(self):
        s = _size  # abbreviate as we will use this a lot
        g = Group()

        m = s/14.0
        self._width = w = (m * 20)

        def addStar(x,y,size, g=g, w=w, s=s, m=m):
            st = Star()
            st.fillColor=colors.mintcream
            st.size = size*m
            st.x = (w/2.0) + (x * (0.35 * m))
            st.y = (s/2.0) + (y * (0.35 * m))
            g.add(st)

        g.add(Rect(0, 0, w, s, fillColor = colors.green, strokeColor = None, strokeWidth=0))
        g.add(Polygon(points = [ 1.7*m, (s/2.0), (w/2.0), s-(1.7*m), w-(1.7*m),(s/2.0),(w/2.0), 1.7*m],
                      fillColor = colors.yellow, strokeColor = None, strokeWidth=0))
        g.add(Circle(cx=w/2.0, cy=s/2.0, r=3.5*m,
                     fillColor=colors.blue,strokeColor=None, strokeWidth=0))
        g.add(Wedge((w/2.0)-(2*m), 0, 8.5*m, 50, 98.1, 8.5*m,
                    fillColor=colors.mintcream,strokeColor=None, strokeWidth=0))
        g.add(Wedge((w/2.0), (s/2.0), 3.501*m, 156, 352, 3.501*m,
                    fillColor=colors.mintcream,strokeColor=None, strokeWidth=0))
        g.add(Wedge((w/2.0)-(2*m), 0, 8*m, 48.1, 100, 8*m,
                    fillColor=colors.blue,strokeColor=None, strokeWidth=0))
        g.add(Rect(0, 0, w, (s/4.0) + 1.7*m,
                   fillColor = colors.green, strokeColor = None, strokeWidth=0))
        g.add(Polygon(points = [ 1.7*m,(s/2.0), (w/2.0),s/2.0 - 2*m,    w-(1.7*m),(s/2.0) , (w/2.0),1.7*m],
                      fillColor = colors.yellow, strokeColor = None, strokeWidth=0))
        g.add(Wedge(w/2.0, s/2.0, 3.502*m, 166, 342.1, 3.502*m,
                    fillColor=colors.blue,strokeColor=None, strokeWidth=0))

        addStar(3.2,3.5,0.3)
        addStar(-8.5,1.5,0.3)
        addStar(-7.5,-3,0.3)
        addStar(-4,-5.5,0.3)
        addStar(0,-4.5,0.3)
        addStar(7,-3.5,0.3)
        addStar(-3.5,-0.5,0.25)
        addStar(0,-1.5,0.25)
        addStar(1,-2.5,0.25)
        addStar(3,-7,0.25)
        addStar(5,-6.5,0.25)
        addStar(6.5,-5,0.25)
        addStar(7,-4.5,0.25)
        addStar(-5.5,-3.2,0.25)
        addStar(-6,-4.2,0.25)
        addStar(-1,-2.75,0.2)
        addStar(2,-5.5,0.2)
        addStar(4,-5.5,0.2)
        addStar(5,-7.5,0.2)
        addStar(5,-5.5,0.2)
        addStar(6,-5.5,0.2)
        addStar(-8.8,-3.2,0.2)
        addStar(2.5,0.5,0.2)
        addStar(-0.2,-3.2,0.14)
        addStar(-7.2,-2,0.14)
        addStar(0,-8,0.1)

        sTmp = "ORDEM E PROGRESSO"
        nTmp = len(sTmp)
        delta = 0.850848010347/nTmp
        radius = 7.9 *m
        centerx = (w/2.0)-(2*m)
        centery = 0
        for i in range(nTmp):
            rad = 2*pi - i*delta -4.60766922527
            x=cos(rad)*radius+centerx
            y=sin(rad)*radius+centery
            if i == 6:
                z = 0.35*m
            else:
                z= 0.45*m
            g2 = Group(String(x, y, sTmp[i], fontName='Helvetica-Bold',
                fontSize = z,strokeColor=None,fillColor=colors.green))
            g2.rotate(rad)
            g.add(g2)
        return g
Exemplo n.º 32
0
    def draw(self):
        fillColor = self.fillColor
        strokeColor = self.strokeColor

        g = Group()
        g.add(
            Rect(x=0,
                 y=0,
                 fillColor=self.fillColor,
                 strokeColor=self.fillColor,
                 width=self.borderWidth,
                 height=self.height))
        g.add(
            Rect(x=0,
                 y=self.height - self.borderWidth,
                 fillColor=self.fillColor,
                 strokeColor=self.fillColor,
                 width=self.width,
                 height=self.borderWidth))

        g2 = Group()
        rl = RL_CorpLogo()
        rl.height = 1.25 * cm
        rl.width = 1.9 * cm
        rl.draw()
        g2.add(rl)
        g.add(g2)
        g2.shift(x=(self.width - (rl.width + (self.width / 42))),
                 y=(self.height - (rl.height + (self.height / 42))))

        g.add(
            String(x=self.borderWidth / 5.0,
                   y=((self.height - (rl.height + (self.height / 42))) +
                      ((38 / 90.5) * rl.height)),
                   fontSize=6,
                   fillColor=self.altStrokeColor,
                   fontName="Helvetica-BoldOblique",
                   textAnchor='start',
                   text=self._strapline))

        leftText = ["Tel:", "Mobile:", "Fax:", "Email:", "Web:"]
        leftDetails = [
            self.telephone, self.mobile, self.fax, self.email, self.web
        ]
        leftText.reverse()
        leftDetails.reverse()
        for f in range(len(leftText), 0, -1):
            g.add(
                String(x=self.borderWidth + (self.borderWidth / 5.0),
                       y=(self.borderWidth / 5.0) + ((f - 1) * (5 * 1.2)),
                       fontSize=5,
                       fillColor=self.strokeColor,
                       fontName="Helvetica",
                       textAnchor='start',
                       text=leftText[f - 1]))
            g.add(
                String(x=self.borderWidth + (self.borderWidth / 5.0) +
                       self.borderWidth,
                       y=(self.borderWidth / 5.0) + ((f - 1) * (5 * 1.2)),
                       fontSize=5,
                       fillColor=self.strokeColor,
                       fontName="Helvetica",
                       textAnchor='start',
                       text=leftDetails[f - 1]))

        ty = (self.height - self.borderWidth - (self.borderWidth / 5.0) + 2)
        #       g.add(Line(self.borderWidth, ty, self.borderWidth+(self.borderWidth/5.0), ty))
        #       g.add(Line(self.borderWidth+(self.borderWidth/5.0), ty, self.borderWidth+(self.borderWidth/5.0),
        #                         ty+(self.borderWidth/5.0)))
        #       g.add(Line(self.borderWidth, ty-10,
        #                         self.borderWidth+(self.borderWidth/5.0), ty-10))

        rightText = self.rh_blurb_top
        for f in range(1, (len(rightText) + 1)):
            g.add(
                String(x=self.width - (self.borderWidth / 5.0),
                       y=ty - ((f) * (5 * 1.2)),
                       fontSize=5,
                       fillColor=self.strokeColor,
                       fontName="Helvetica",
                       textAnchor='end',
                       text=rightText[f - 1]))

        g.add(
            String(x=self.borderWidth + (self.borderWidth / 5.0),
                   y=ty - 10,
                   fontSize=10,
                   fillColor=self.strokeColor,
                   fontName="Helvetica",
                   textAnchor='start',
                   text=self.name))

        ty1 = ty - 10 * 1.2

        g.add(
            String(x=self.borderWidth + (self.borderWidth / 5.0),
                   y=ty1 - 8,
                   fontSize=8,
                   fillColor=self.strokeColor,
                   fontName="Helvetica",
                   textAnchor='start',
                   text=self.position))
        if self.border:
            g.add(
                Rect(x=0,
                     y=0,
                     fillColor=None,
                     strokeColor=black,
                     width=self.width,
                     height=self.height))
        g.shift(self.x, self.y)
        return g
Exemplo n.º 33
0
 def __init__(self, width=400, height=200, *args, **kw):
     Drawing.__init__(self, width, height, *args, **kw)
     self.transform = (1, 0, 0, 1, 0, 0)
     self.add(
         Rect(50,
              50,
              300,
              125,
              rx=0,
              ry=0,
              fillColor=None,
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Rect(50,
              50,
              50,
              10,
              rx=0,
              ry=0,
              fillColor=Color(1, 0, 0, 1),
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Rect(50,
              90,
              300,
              10,
              rx=0,
              ry=0,
              fillColor=Color(1, 0, 0, 1),
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Rect(50,
              60,
              100,
              10,
              rx=0,
              ry=0,
              fillColor=Color(0, .501961, 0, 1),
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Rect(50,
              100,
              250,
              10,
              rx=0,
              ry=0,
              fillColor=Color(0, .501961, 0, 1),
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Rect(50,
              70,
              150,
              10,
              rx=0,
              ry=0,
              fillColor=Color(0, 0, 1, 1),
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Rect(50,
              110,
              200,
              10,
              rx=0,
              ry=0,
              fillColor=Color(0, 0, 1, 1),
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Rect(50,
              80,
              200,
              10,
              rx=0,
              ry=0,
              fillColor=Color(1, 0, 0, 1),
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Rect(50,
              120,
              150,
              10,
              rx=0,
              ry=0,
              fillColor=Color(1, 0, 0, 1),
              fillOpacity=None,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(49,
              50,
              49,
              175,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(49,
              50,
              44,
              50,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(49,
              112.5,
              44,
              112.5,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(49,
              175,
              44,
              175,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 44, 81.25)
     v0.add(
         String(-20,
                -4,
                'Ying',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 44, 143.75)
     v0.add(
         String(-21.66,
                -4,
                'Yang',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         Line(50,
              50,
              350,
              50,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              50,
              50,
              45,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(125,
              50,
              125,
              45,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(200,
              50,
              200,
              45,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(275,
              50,
              275,
              45,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(350,
              50,
              350,
              45,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 50, 45)
     v0.add(
         String(-2.5,
                -10,
                '0',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 125, 45)
     v0.add(
         String(-5,
                -10,
                '15',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 200, 45)
     v0.add(
         String(-5,
                -10,
                '30',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 275, 45)
     v0.add(
         String(-5,
                -10,
                '45',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 350, 45)
     v0.add(
         String(-5,
                -10,
                '60',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
Exemplo n.º 34
0
 def annotate(self,x,y,text,fontName,fontSize,anchor='middle'):
     self._Gadd(String(self.x+x,self.y+y,text,fontName=fontName,fontSize=fontSize,
                         textAnchor=anchor,fillColor=self.textColor))
Exemplo n.º 35
0
  def make_graphs(self,canvas=None,left_margin=None):#text=None):
    from reportlab.graphics import renderPDF
    from reportlab.lib.pagesizes import letter
    from reportlab.graphics.shapes import Drawing,String
    from reportlab.graphics.charts.legends import Legend
    from reportlab.graphics.charts.lineplots import LinePlot
    from reportlab.graphics.widgets.markers import makeMarker
    from reportlab.lib import colors
    from reportlab.lib.units import inch
    #help(colors)

    self.framework = {4:dict(status=SpotClass.SPINDLE,color=colors.black),
                      5:dict(status=SpotClass.OVERLAP,color=colors.limegreen),
                      6:dict(status=SpotClass.OUTLIER,color=colors.greenyellow),
                      7:dict(status=SpotClass.ICE,color=colors.skyblue),
    }


    # set size and position
    width,height = letter
    #letter_landscape = (width,height)
    plot_dim = 3.0*inch

    # construct scatter plot
    plot_dxdy_pos = (left_margin*inch,height - plot_dim - 0.5*inch)
    plot_dxdy = LinePlot()
    plot_dxdy.data = self.plot_dxdy_data

    std_colors = {0:colors.darkred, 1:colors.red, 2:colors.salmon}
    for key in std_colors.keys():
      plot_dxdy.lines[key].strokeColor = None
      plot_dxdy.lines[key].symbol = makeMarker('Circle')
      plot_dxdy.lines[key].symbol.strokeColor = None
      plot_dxdy.lines[key].symbol.fillColor = std_colors[key]
      plot_dxdy.lines[key].symbol.size = 1.2

    for key in self.framework.keys():
      plot_dxdy.lines[key].strokeColor = None
      plot_dxdy.lines[key].symbol = makeMarker('Circle')
      plot_dxdy.lines[key].symbol.strokeColor = None
      plot_dxdy.lines[key].symbol.fillColor = self.framework[key]["color"]
      plot_dxdy.lines[key].symbol.size = 1.2

    plot_dxdy.lines[3].strokeColor = None
    plot_dxdy.lines[3].symbol = makeMarker('Circle')
    plot_dxdy.lines[3].symbol.strokeColor = colors.blue
    plot_dxdy.lines[3].symbol.fillColor = None
    plot_dxdy.lines[3].symbol.strokeWidth = 0.6
    plot_dxdy.lines[3].symbol.size = plot_dim*(self.sqrtr2)
    #print plot_dxdy.lines[3].symbol.getProperties()
    plot_dxdy.width = plot_dim
    plot_dxdy.height = plot_dim
    plot_dxdy.xValueAxis.valueMax = 1.0
    plot_dxdy.xValueAxis.valueMin = -1.0
    plot_dxdy.xValueAxis.joinAxis = plot_dxdy.yValueAxis
    plot_dxdy.xValueAxis.joinAxisMode = 'value'
    plot_dxdy.xValueAxis.joinAxisPos = -1.0
    plot_dxdy.yValueAxis.valueMax = 1.0
    plot_dxdy.yValueAxis.valueMin = -1.0
    d_dxdy = Drawing(plot_dim,plot_dim)
    d_dxdy.add(plot_dxdy)

    # construct cdf plot
    plot_cdf_pos = (left_margin*inch, height - 2.0*(plot_dim + 0.5*inch))
    plot_cdf = LinePlot()
    plot_cdf.data = self.plot_cdf_data
    plot_cdf.lines[0].strokeColor = colors.blue

    for key in std_colors.keys():
      plot_cdf.lines[key+1].strokeColor = None
      plot_cdf.lines[key+1].symbol = makeMarker('Circle')
      plot_cdf.lines[key+1].symbol.strokeColor = None
      plot_cdf.lines[key+1].symbol.fillColor = std_colors[key]
      plot_cdf.lines[key+1].symbol.size = 1.2

    if (len(self.plot_cdf_data) == 5):
      plot_cdf.lines[4].strokeColor = colors.green
    plot_cdf.width = plot_dim
    plot_cdf.height = plot_dim
    plot_cdf.xValueAxis.valueMax = 1.0
    plot_cdf.xValueAxis.valueMin = 0.0
    plot_cdf.yValueAxis.valueMax = 1.0
    plot_cdf.yValueAxis.valueMin = 0.0
    d_cdf = Drawing(plot_dim,plot_dim)
    d_cdf.add(plot_cdf)

    # construct pdf plot
    plot_pdf_pos = (left_margin*inch, height - 3.0*(plot_dim + 0.5*inch))
    plot_pdf = LinePlot()
    plot_pdf.data = self.plot_pdf_data
    plot_pdf.lines[1].strokeColor = colors.blue
    plot_pdf.lines[0].strokeColor = None
    plot_pdf.lines[0].symbol = makeMarker('Circle')
    plot_pdf.lines[0].symbol.strokeColor = colors.red
    plot_pdf.lines[0].symbol.size = 1
    plot_pdf.width = plot_dim
    plot_pdf.height = plot_dim
    plot_pdf.xValueAxis.valueMax = 1.0
    plot_pdf.xValueAxis.valueMin = 0.0
    d_pdf = Drawing(2*plot_dim,plot_dim)
    d_pdf.add(plot_pdf)

    # add legend
    legend = Legend()
    legend.alignment = 'right'
    legend.colorNamePairs = [(std_colors[0],'Inliers (%d'%int(self.fraction*100.0) + '% used for fit)'),
                             (std_colors[1],'Other inliers'),
                             (std_colors[2],'Outliers, reject next round'),]
    for key in self.framework.keys():
      legend.colorNamePairs.append(  (self.framework[key]["color"], "%s"%self.framework[key]["status"]  )  )

    legend.x = plot_dim - 1.0*inch
    legend.y = plot_dim
    legend.columnMaximum = 8
    d_pdf.add(legend)

    # add titles
    title_pos = (plot_dim/2.0,plot_dim + 0.25*inch)
    title_dxdy = String(title_pos[0],title_pos[1],'dx vs. dy (all)')
    title_dxdy.fontSize = 15
    title_dxdy.textAnchor = 'middle'
    d_dxdy.add(title_dxdy)
    title_cdf = String(title_pos[0],title_pos[1],'cdf (good)')
    title_cdf.fontSize = 15
    title_cdf.textAnchor = 'middle'
    d_cdf.add(title_cdf)
    title_pdf = String(title_pos[0],title_pos[1],'pdf (good)')
    title_pdf.fontSize = 15
    title_pdf.textAnchor = 'middle'
    d_pdf.add(title_pdf)

    # draw everything
    renderPDF.draw(d_dxdy,canvas,plot_dxdy_pos[0],plot_dxdy_pos[1])
    renderPDF.draw(d_cdf,canvas,plot_cdf_pos[0],plot_cdf_pos[1])
    renderPDF.draw(d_pdf,canvas,plot_pdf_pos[0],plot_pdf_pos[1])
Exemplo n.º 36
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    def testUtf8Canvas(self):
        """Verify canvas declared as utf8 autoconverts.

        This assumes utf8 input. It converts to the encoding of the
        underlying font, so both text lines APPEAR the same."""


        c = Canvas(outputfile('test_pdfbase_encodings_utf8.pdf'))

        c.drawString(100,700, testUTF8)

        # Set a font with UTF8 encoding
        c.setFont('Vera', 12)

        # This should pass the UTF8 through unchanged
        c.drawString(100,600, testUTF8)
        # and this should convert from Unicode to UTF8
        c.drawString(100,500, testUni)


        # now add a paragraph in Latin-1 in the latin-1 style
        p = Paragraph(testUTF8, style=self.styNormal, encoding="utf-8")
        w, h = p.wrap(150, 100)
        p.drawOn(c, 100, 400)  #3
        c.rect(100,300,w,h)

        # now add a paragraph in UTF-8 in the UTF-8 style
        p2 = Paragraph(testUTF8, style=self.styTrueType, encoding="utf-8")
        w, h = p2.wrap(150, 100)
        p2.drawOn(c, 300, 400) #4
        c.rect(100,300,w,h)

        # now add a paragraph in Unicode in the latin-1 style
        p3 = Paragraph(testUni, style=self.styNormal)
        w, h = p3.wrap(150, 100)
        p3.drawOn(c, 100, 300)
        c.rect(100,300,w,h)

        # now add a paragraph in Unicode in the UTF-8 style
        p4 = Paragraph(testUni, style=self.styTrueType)
        p4.wrap(150, 100)
        p4.drawOn(c, 300, 300)
        c.rect(300,300,w,h)

        # now a graphic
        d1 = Drawing(400,50)
        d1.add(Ellipse(200,25,200,12.5, fillColor=None))
        d1.add(String(200,25,testUTF8, textAnchor='middle', encoding='utf-8'))
        d1.drawOn(c, 100, 150)

        # now a graphic in utf8
        d2 = Drawing(400,50)
        d2.add(Ellipse(200,25,200,12.5, fillColor=None))
        d2.add(String(200,25,testUTF8, fontName='Vera', textAnchor='middle', encoding='utf-8'))
        d2.drawOn(c, 100, 100)

        # now a graphic in Unicode with T1 font
        d3 = Drawing(400,50)
        d3.add(Ellipse(200,25,200,12.5, fillColor=None))
        d3.add(String(200,25,testUni, textAnchor='middle'))
        d3.drawOn(c, 100, 50)

        # now a graphic in Unicode with TT font
        d4 = Drawing(400,50)
        d4.add(Ellipse(200,25,200,12.5, fillColor=None))
        d4.add(String(200,25,testUni, fontName='Vera', textAnchor='middle'))
        d4.drawOn(c, 100, 0)

        extracted = extractText(c.getCurrentPageContent())
        self.assertEquals(extracted[0], expectedCp1252)
        self.assertEquals(extracted[1], extracted[2])
        #self.assertEquals(subsetToUnicode(self.vera, extracted[1]), testUni)
        c.save()
Exemplo n.º 37
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    def draw(self):
        g = Group()
        colorNamePairs = self.colorNamePairs
        thisx = upperleftx = self.x
        thisy = upperlefty = self.y - self.dy
        dx, dy, alignment, columnMaximum = self.dx, self.dy, self.alignment, self.columnMaximum
        deltax, deltay, dxTextSpace = self.deltax, self.deltay, self.dxTextSpace
        fontName, fontSize, fillColor = self.fontName, self.fontSize, self.fillColor
        strokeWidth, strokeColor = self.strokeWidth, self.strokeColor
        leading = fontSize*1.2
        if not deltay:
            deltay = max(dy,leading)+self.autoYPadding
        if not deltax:
            maxWidth = self._calculateMaxWidth(colorNamePairs)
            deltax = maxWidth+dx+dxTextSpace+self.autoXPadding
        else:
            if alignment=='left': maxWidth = self._calculateMaxWidth(colorNamePairs)

        def gAdd(t,g=g,fontName=fontName,fontSize=fontSize,fillColor=fillColor):
            t.fontName = fontName
            t.fontSize = fontSize
            t.fillColor = fillColor
            return g.add(t)

        ascent=getFont(fontName).face.ascent/1000.
        if ascent==0: ascent=0.718 # default (from helvetica)
        ascent=ascent*fontSize # normalize

        columnCount = 0
        count = 0
        callout = getattr(self,'callout',None)
        for col, name in colorNamePairs:
            T = string.split(name and str(name) or '','\n')
            S = []
            # thisy+dy/2 = y+leading/2
            y = thisy+(dy-ascent)*0.5
            if callout: callout(self,g,thisx,y,colorNamePairs[count])
            if alignment == "left":
                for t in T:
                    # align text to left
                    s = String(thisx+maxWidth,y,t)
                    s.textAnchor = "end"
                    S.append(s)
                    y = y-leading
                x = thisx+maxWidth+dxTextSpace
            elif alignment == "right":
                for t in T:
                    # align text to right
                    s = String(thisx+dx+dxTextSpace, y, t)
                    s.textAnchor = "start"
                    S.append(s)
                    y = y-leading
                x = thisx
            else:
                raise ValueError, "bad alignment"

            # Make a 'normal' color line-swatch...
            if isinstance(col, colors.Color):
                l =  LineSwatch()
                l.x = x
                l.y = thisy
                l.width = dx
                l.height = dy
                l.strokeColor = col
                g.add(l)
            else:
                #try and see if we should do better.
                try:
                    c = copy.deepcopy(col)
                    c.x = x
                    c.y = thisy
                    c.width = dx
                    c.height = dy
                    g.add(c)
                except:
                    pass

            map(gAdd,S)

            if count%columnMaximum == columnMaximum-1:
                thisx = thisx+deltax
                thisy = upperlefty
                columnCount = columnCount + 1
            else:
                thisy = thisy-max(deltay,len(S)*leading)
            count = count+1

        return g
Exemplo n.º 38
0
from reportlab.graphics.shapes import Drawing, String, colors
from reportlab.graphics import renderPDF
from reportlab.pdfbase import pdfmetrics
from reportlab.pdfbase.ttfonts import TTFont
'''--- 添加中文支持 ---'''
# pdfmetrics.registerFont(TTFont('msyh', 'msyh.ttf'))  # 注册要使用的字体
# pdfmetrics.registerFont(TTFont('g', 'futurama.ttf'))
pdfmetrics.registerFont(TTFont('song',
                               'SimSun.ttf'))  #注册字体  STHeiti Medium.ttc
'''--- 创建画布 ---'''
d = Drawing(300, 200)  # 创建画布并设置画布尺寸
'''--- 创建文本内容并设置样式与位置 ---'''
s1 = String(150, 100, '这是中文文字测试')  # 创建字符串并设置坐标、内容
s1.fontName = 'song'  # 设置字体
s1.fontSize = 14  # 设置字号
s1.fillColor = colors.red  # 设置字体颜色
s1.textAnchor = 'middle'  # 设置锚点为中心(即位置坐标为文本中心点坐标)

s2 = String(150,
            120,
            '汉子!',
            fontName='song',
            fontSize=16,
            fillColor=colors.red,
            textAnchor='middle')
# 另一种设置方式
'''--- 添加内容到画布并生成PDF文件 ---'''
d.add(s1)  # 将字符串添加到画布
d.add(s2)

renderPDF.drawToFile(d, 'myPDF.pdf', '231231')  # 生成PDF文件并设置文件名称与文档描述
Exemplo n.º 39
0
def _addWedgeLabel(self,text,add,angle,labelX,labelY,wedgeStyle,labelClass=WedgeLabel):
    # now draw a label
    if self.simpleLabels:
        theLabel = String(labelX, labelY, text)
        theLabel.textAnchor = "middle"
    else:
        theLabel = labelClass()
        theLabel._pmv = angle
        theLabel.x = labelX
        theLabel.y = labelY
        theLabel.dx = wedgeStyle.label_dx
        theLabel.dy = wedgeStyle.label_dy
        theLabel.angle = wedgeStyle.label_angle
        theLabel.boxAnchor = wedgeStyle.label_boxAnchor
        theLabel.boxStrokeColor = wedgeStyle.label_boxStrokeColor
        theLabel.boxStrokeWidth = wedgeStyle.label_boxStrokeWidth
        theLabel.boxFillColor = wedgeStyle.label_boxFillColor
        theLabel.strokeColor = wedgeStyle.label_strokeColor
        theLabel.strokeWidth = wedgeStyle.label_strokeWidth
        _text = wedgeStyle.label_text
        if _text is None: _text = text
        theLabel._text = _text
        theLabel.leading = wedgeStyle.label_leading
        theLabel.width = wedgeStyle.label_width
        theLabel.maxWidth = wedgeStyle.label_maxWidth
        theLabel.height = wedgeStyle.label_height
        theLabel.textAnchor = wedgeStyle.label_textAnchor
        theLabel.visible = wedgeStyle.label_visible
        theLabel.topPadding = wedgeStyle.label_topPadding
        theLabel.leftPadding = wedgeStyle.label_leftPadding
        theLabel.rightPadding = wedgeStyle.label_rightPadding
        theLabel.bottomPadding = wedgeStyle.label_bottomPadding
    theLabel.fontSize = wedgeStyle.fontSize
    theLabel.fontName = wedgeStyle.fontName
    theLabel.fillColor = wedgeStyle.fontColor
    add(theLabel)
Exemplo n.º 40
0
    def convert_text(self, node):
        """
        Converts a <text> element
        """

        x, y = self._length_attrs(node, 'x', 'y')
        preserve_space = utils.node_preserve_space(node, self.preserve_space)

        gr = Group()
        frag_lengths = []

        dx0, dy0 = 0, 0
        x1, y1 = 0, 0

        ff = attributes.convert_font_family(
            attributes.find(
                node, "font-family"))  # default is set inside convert_...
        fs = attributes.convert_length(
            attributes.find(node, "font-size") or "12")
        convert_len = partial(attributes.convert_length, em_base=fs)

        for c in itertools.chain([node], node.getchildren()):
            has_x, has_y = False, False
            dx, dy = 0, 0
            baseline_shift = 0
            if node_name(c) == 'text':
                text = self.clean_text(c.text, preserve_space)
                if not text:
                    continue
            elif node_name(c) == 'tspan':
                text = self.clean_text(c.text, preserve_space)
                if not text:
                    continue
                x1, y1, dx, dy = [
                    c.attrib.get(name, '') for name in ("x", "y", "dx", "dy")
                ]
                has_x, has_y = (x1 != '', y1 != '')
                x1, y1, dx, dy = map(convert_len, (x1, y1, dx, dy))
                dx0 = dx0 + dx
                dy0 = dy0 + dy
                baseline_shift = c.attrib.get("baseline-shift", '0')
                if baseline_shift in ("sub", "super", "baseline"):
                    baseline_shift = {
                        "sub": -fs / 2,
                        "super": fs / 2,
                        "baseline": 0
                    }[baseline_shift]
                else:
                    baseline_shift = convert_len(baseline_shift, fs)
            else:
                continue

            frag_lengths.append(stringWidth(text, ff, fs))
            new_x = (x1 + dx) if has_x else (x + dx0 + sum(frag_lengths[:-1]))
            new_y = (y1 + dy) if has_y else (y + dy0)
            shape = String(new_x, -(new_y - baseline_shift), text)
            self.apply_style(to_shape=shape, from_node=node)
            if node_name(c) == 'tspan':
                self.apply_style(to_shape=shape, from_node=c)

            gr.add(shape)

        gr.scale(1, -1)

        return gr
Exemplo n.º 41
0
	def __init__(self,width=400,height=200,*args,**kw):
		Drawing.__init__(self,width,height,*args,**kw)
		self.transform = (1,0,0,1,0,0)
		self.add(Rect(225,22.5,-93.75,10,rx=0,ry=0,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(225,37.5,18.75,10,rx=0,ry=0,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(225,52.5,31.25,10,rx=0,ry=0,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(225,67.5,62.5,10,rx=0,ry=0,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(225,82.5,50,10,rx=0,ry=0,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(225,97.5,43.75,10,rx=0,ry=0,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(225,112.5,25,10,rx=0,ry=0,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(225,127.5,6.25,10,rx=0,ry=0,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(225,142.5,62.5,10,rx=0,ry=0,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		self.add(Rect(225,157.5,18.75,10,rx=0,ry=0,fillColor=Color(1,0,0,1),fillOpacity=None,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,121.25,27.5)
		v0.add(String(-6.837,-2.4,'-1.50',textAnchor='middle',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,253.75,42.5)
		v0.add(String(5.838,-2.4,'0.30',textAnchor='middle',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,266.25,57.5)
		v0.add(String(5.838,-2.4,'0.50',textAnchor='middle',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,297.5,72.5)
		v0.add(String(5.838,-2.4,'1.00',textAnchor='middle',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,285,87.5)
		v0.add(String(5.838,-2.4,'0.80',textAnchor='middle',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,278.75,102.5)
		v0.add(String(5.838,-2.4,'0.70',textAnchor='middle',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,260,117.5)
		v0.add(String(5.838,-2.4,'0.40',textAnchor='middle',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,241.25,132.5)
		v0.add(String(5.838,-2.4,'0.10',textAnchor='middle',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,297.5,147.5)
		v0.add(String(5.838,-2.4,'1.00',textAnchor='middle',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,253.75,162.5)
		v0.add(String(5.838,-2.4,'0.30',textAnchor='middle',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		self.add(Line(99,20,99,170,strokeColor=Color(0,0,0,1),strokeWidth=1,strokeLineCap=0,strokeLineJoin=0,strokeMiterLimit=0,strokeDashArray=None,strokeOpacity=None))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,-71,27.5)
		v0.add(String(0,-2.4,'UK Equities',textAnchor='start',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,-71,42.5)
		v0.add(String(0,-2.4,'US Equities',textAnchor='start',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,-71,57.5)
		v0.add(String(0,-2.4,'European Equities',textAnchor='start',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,-71,72.5)
		v0.add(String(0,-2.4,'Japanese Equities',textAnchor='start',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,-71,87.5)
		v0.add(String(0,-2.4,'Pacific (ex Japan) Equities',textAnchor='start',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,-71,102.5)
		v0.add(String(0,-2.4,'Emerging Markets Equities',textAnchor='start',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,-71,117.5)
		v0.add(String(0,-2.4,'UK Bonds',textAnchor='start',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,-71,132.5)
		v0.add(String(0,-2.4,'Overseas Bonds',textAnchor='start',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,-71,147.5)
		v0.add(String(0,-2.4,'UK Index-Linked',textAnchor='start',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
		v0=self._nn(Group())
		v0.transform = (1,0,0,1,-71,162.5)
		v0.add(String(0,-2.4,'Cash',textAnchor='start',fontName='Helvetica',fontSize=6,fillColor=Color(0,0,0,1)))
Exemplo n.º 42
0
 def __init__(self, width=400, height=200, *args, **kw):
     Drawing.__init__(self, width, height, *args, **kw)
     self.transform = (1, 0, 0, 1, 0, 0)
     self.add(
         Line(50,
              147.6562,
              350,
              147.6562,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              147.6562,
              50,
              142.6562,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(143.75,
              147.6562,
              143.75,
              142.6562,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(237.5,
              147.6562,
              237.5,
              142.6562,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(331.25,
              147.6562,
              331.25,
              142.6562,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 50, 142.6562)
     v0.add(
         String(-5,
                -10,
                '10',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 143.75, 142.6562)
     v0.add(
         String(-5,
                -10,
                '20',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 237.5, 142.6562)
     v0.add(
         String(-5,
                -10,
                '30',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 331.25, 142.6562)
     v0.add(
         String(-5,
                -10,
                '40',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     self.add(
         Line(50,
              50,
              50,
              175,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=0,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              50,
              45,
              50,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              89.0625,
              45,
              89.0625,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              128.125,
              45,
              128.125,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     self.add(
         Line(50,
              167.1875,
              45,
              167.1875,
              strokeColor=Color(0, 0, 0, 1),
              strokeWidth=1,
              strokeLineCap=0,
              strokeLineJoin=0,
              strokeMiterLimit=10,
              strokeDashArray=None,
              strokeOpacity=None))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 50)
     v0.add(
         String(-10,
                -4,
                '10',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 89.0625)
     v0.add(
         String(-10,
                -4,
                '20',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 128.125)
     v0.add(
         String(-10,
                -4,
                '30',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
     v0 = self._nn(Group())
     v0.transform = (1, 0, 0, 1, 45, 167.1875)
     v0.add(
         String(-10,
                -4,
                '40',
                textAnchor='start',
                fontName='Times-Roman',
                fontSize=10,
                fillColor=Color(0, 0, 0, 1)))
Exemplo n.º 43
0
from reportlab.graphics.shapes import Drawing, String
from reportlab.graphics import renderPDF
'''
run python + filename 
'''
d = Drawing(100, 100)
s = String(50, 50, 'Hello, world!', textAnchor='middle')

d.add(s)

renderPDF.drawToFile(d, 'hello.pdf', 'A simple PDF file')
Exemplo n.º 44
0
    def makeSectors(self):
        # normalize slice data
        if type(self.data) in (ListType, TupleType) and type(self.data[0]) in (ListType, TupleType):
            #it's a nested list, more than one sequence
            normData = []
            n = []
            for l in self.data:
                t = self.normalizeData(l)
                normData.append(t)
                n.append(len(t))
            self._seriesCount = max(n)
        else:
            normData = self.normalizeData(self.data)
            n = len(normData)
            self._seriesCount = n

        #labels
        if self.labels is None:
            labels = []
            if type(n) not in (ListType,TupleType):
                labels = [''] * n
            else:
                for m in n:
                    labels = list(labels) + [''] * m
        else:
            labels = self.labels
            #there's no point in raising errors for less than enough labels if
            #we silently create all for the extreme case of no labels.
            if type(n) not in (ListType,TupleType):
                i = n-len(labels)
                if i>0:
                    labels = list(labels) + [''] * i
            else:
                tlab = 0
                for m in n:
                    tlab += m
                i = tlab-len(labels)
                if i>0:
                    labels = list(labels) + [''] * i

        xradius = self.width/2.0
        yradius = self.height/2.0
        centerx = self.x + xradius
        centery = self.y + yradius

        if self.direction == "anticlockwise":
            whichWay = 1
        else:
            whichWay = -1

        g  = Group()
        sn = 0

        startAngle = self.startAngle #% 360
        styleCount = len(self.slices)
        if type(self.data[0]) in (ListType, TupleType):
            #multi-series doughnut
            iradius = (self.height/5.0)/len(self.data)
            for series in normData:
                i = 0
                for angle in series:
                    endAngle = (startAngle + (angle * whichWay)) #% 360
                    if abs(startAngle-endAngle)>=1e-5:
                        if startAngle < endAngle:
                            a1 = startAngle
                            a2 = endAngle
                        else:
                            a1 = endAngle
                            a2 = startAngle

                    #if we didn't use %stylecount here we'd end up with the later sectors
                    #all having the default style
                    sectorStyle = self.slices[i%styleCount]

                    # is it a popout?
                    cx, cy = centerx, centery
                    if sectorStyle.popout != 0:
                        # pop out the sector
                        averageAngle = (a1+a2)/2.0
                        aveAngleRadians = averageAngle * pi/180.0
                        popdistance = sectorStyle.popout
                        cx = centerx + popdistance * cos(aveAngleRadians)
                        cy = centery + popdistance * sin(aveAngleRadians)

                    if type(n) in (ListType,TupleType):
                        theSector = Wedge(cx, cy, xradius+(sn*iradius)-iradius, a1, a2, yradius=yradius+(sn*iradius)-iradius, radius1=yradius+(sn*iradius)-(2*iradius))
                    else:
                        theSector = Wedge(cx, cy, xradius, a1, a2, yradius=yradius, radius1=iradius)

                    theSector.fillColor = sectorStyle.fillColor
                    theSector.strokeColor = sectorStyle.strokeColor
                    theSector.strokeWidth = sectorStyle.strokeWidth
                    theSector.strokeDashArray = sectorStyle.strokeDashArray

                    g.add(theSector)
                    startAngle = endAngle

                    text = self.getSeriesName(i,'')
                    if text:
                        averageAngle = (a1+a2)/2.0
                        aveAngleRadians = averageAngle*pi/180.0
                        labelRadius = sectorStyle.labelRadius
                        labelX = centerx + (0.5 * self.width * cos(aveAngleRadians) * labelRadius)
                        labelY = centery + (0.5 * self.height * sin(aveAngleRadians) * labelRadius)
                        g.add(_addWedgeLabel(self,text,averageAngle,labelX,labelY,sectorStyle))
                    i += 1
                sn += 1

        else:
            i = 0
            #single series doughnut
            iradius = self.height/5.0
            for angle in normData:
                endAngle = (startAngle + (angle * whichWay)) #% 360
                if abs(startAngle-endAngle)>=1e-5:
                    if startAngle < endAngle:
                        a1 = startAngle
                        a2 = endAngle
                    else:
                        a1 = endAngle
                        a2 = startAngle

                #if we didn't use %stylecount here we'd end up with the later sectors
                #all having the default style
                sectorStyle = self.slices[i%styleCount]

                # is it a popout?
                cx, cy = centerx, centery
                if sectorStyle.popout != 0:
                    # pop out the sector
                    averageAngle = (a1+a2)/2.0
                    aveAngleRadians = averageAngle * pi/180.0
                    popdistance = sectorStyle.popout
                    cx = centerx + popdistance * cos(aveAngleRadians)
                    cy = centery + popdistance * sin(aveAngleRadians)

                if n > 1:
                    theSector = Wedge(cx, cy, xradius, a1, a2, yradius=yradius, radius1=iradius)
                elif n==1:
                    theSector = Wedge(cx, cy, xradius, a1, a2, yradius=yradius, iradius=iradius)

                theSector.fillColor = sectorStyle.fillColor
                theSector.strokeColor = sectorStyle.strokeColor
                theSector.strokeWidth = sectorStyle.strokeWidth
                theSector.strokeDashArray = sectorStyle.strokeDashArray

                g.add(theSector)

                # now draw a label
                if labels[i] != "":
                    averageAngle = (a1+a2)/2.0
                    aveAngleRadians = averageAngle*pi/180.0
                    labelRadius = sectorStyle.labelRadius
                    labelX = centerx + (0.5 * self.width * cos(aveAngleRadians) * labelRadius)
                    labelY = centery + (0.5 * self.height * sin(aveAngleRadians) * labelRadius)

                    theLabel = String(labelX, labelY, labels[i])
                    theLabel.textAnchor = "middle"
                    theLabel.fontSize = sectorStyle.fontSize
                    theLabel.fontName = sectorStyle.fontName
                    theLabel.fillColor = sectorStyle.fontColor

                    g.add(theLabel)

                startAngle = endAngle
                i += 1

        return g
Exemplo n.º 45
0
from reportlab.graphics.shapes import Drawing, String
from reportlab.graphics import renderPDF

d = Drawing(100, 100)
s = String(50, 50, "Hello, World!", textAnchor="middle")

d.add(s)

renderPDF.drawToFile(d, "hello.pdf", "A simple PDF file")
Exemplo n.º 46
0
    def convertText(self, node):
        attrConv = self.attrConverter
        xml_space = node.getAttribute("{%s}space" % XML_NS)
        if xml_space:
            preserve_space = xml_space == 'preserve'
        else:
            preserve_space = self.preserve_space

        gr = Group()

        frag_lengths = []

        dx0, dy0 = 0, 0
        x1, y1 = 0, 0
        ff = attrConv.findAttr(node, "font-family") or DEFAULT_FONT_NAME
        ff = attrConv.convertFontFamily(ff)
        fs = attrConv.findAttr(node, "font-size") or "12"
        fs = attrConv.convertLength(fs)
        convertLength = partial(attrConv.convertLength, em_base=fs)
        x, y = map(node.getAttribute, ('x', 'y'))
        x, y = map(convertLength, (x, y))
        for c in itertools.chain([node], node.getchildren()):
            has_x, has_y = False, False
            dx, dy = 0, 0
            baseLineShift = 0
            if node_name(c) == 'text':
                text = self.clean_text(c.text, preserve_space)
                if not text:
                    continue
            elif node_name(c) == 'tspan':
                text = self.clean_text(c.text, preserve_space)
                if not text:
                    continue
                x1, y1, dx, dy = [
                    c.attrib.get(name, '') for name in ("x", "y", "dx", "dy")
                ]
                has_x, has_y = (x1 != '', y1 != '')
                x1, y1, dx, dy = map(convertLength, (x1, y1, dx, dy))
                dx0 = dx0 + dx
                dy0 = dy0 + dy
                baseLineShift = c.attrib.get("baseline-shift", '0')
                if baseLineShift in ("sub", "super", "baseline"):
                    baseLineShift = {
                        "sub": -fs / 2,
                        "super": fs / 2,
                        "baseline": 0
                    }[baseLineShift]
                else:
                    baseLineShift = convertLength(baseLineShift, fs)
            else:
                continue

            frag_lengths.append(stringWidth(text, ff, fs))
            new_x = (x1 + dx) if has_x else (x + dx0 + sum(frag_lengths[:-1]))
            new_y = (y1 + dy) if has_y else (y + dy0)
            shape = String(new_x, -(new_y - baseLineShift), text)
            self.applyStyleOnShape(shape, node)
            if node_name(c) == 'tspan':
                self.applyStyleOnShape(shape, c)

            gr.add(shape)

        gr.scale(1, -1)

        return gr