Esempi in Python per HorizontalLineChart.y

Esempio n. 1

File: views.py Progetto: jesusoctavioas/VeterinariaPatagonica

def graficoLineal(pdf):

    querysetPagos = obtenerQuerysetPagos()
    print(querysetPagos)
    drawing = Drawing(400, 250)

    data = [(querysetPagos)]
    pdf = HorizontalLineChart()
    pdf.x = 50
    pdf.y = 50
    pdf.height = 300
    pdf.width = 500
    pdf.data = data
    pdf.joinedLines = 1
    catNames = 'Ene Feb Marzo Abril Mayo Junio Julio Agosto Sep Nov Dic'.split(
        ' ')
    pdf.categoryAxis.categoryNames = catNames
    pdf.categoryAxis.labels.boxAnchor = 'n'
    #pdf.lineLabels.fontName = 'FreeSans'
    mayor = max(querysetPagos)
    pdf.valueAxis.valueMin = 0
    pdf.valueAxis.valueMax = mayor
    pdf.valueAxis.valueStep = mayor / 10
    pdf.lineLabelFormat = '%2.0f'
    pdf.lines[0].strokeWidth = 2
    pdf.lines[1].strokeWidth = 1.5
    drawing.add(pdf)
    #drawing.save(formats=['pdf'], outDir='.', fnRoot='Reporte_Cobros_por_mes')
    return drawing

Esempio n. 2

    def add_line_chart(self,
                       width,
                       height,
                       labels,
                       data,
                       minv=None,
                       maxv=None):
        pad = 10

        _min, _max = self._find_min_max(data)
        minv = _min if minv is None else minv
        maxv = _max if maxv is None else maxv

        lc = HorizontalLineChart()
        lc.x = pad * mm
        lc.y = pad * mm
        lc.width = (width - 2 * pad) * mm
        lc.height = (height - 2 * pad) * mm

        lc.categoryAxis.categoryNames = labels
        lc.data = data
        lc.valueAxis.valueMin = minv
        lc.valueAxis.valueMax = maxv

        lc.joinedLines = 1
        lc.categoryAxis.labels.boxAnchor = "n"
        lc.lines.strokeWidth = 2

        drawing = Drawing(width * mm, height * mm)
        drawing.hAlign = "CENTER"
        drawing.add(lc)
        self.story.append(drawing)

Esempio n. 3

File: data2acrobatpdf.py Progetto: badbytes/pymeg

def drawdata(data, times, labels):
    drawing = Drawing(10000, 200)
    fontstep = 5.5
    for i in range(0, size(labels)):
        drawing.add(String(40,(i+9.8)*fontstep,str(labels[i]), textAnchor="middle", fontSize=5))
    #drawing.add(String(20,175,"labels", textAnchor="middle", fontSize=5))
    #data = [1, 2, 3, 4, 5, 6]
    lc = HorizontalLineChart()
    #lc.valueAxis = 0
    lc.x = 50
    lc.y = 50
    lc.height = 155
    lc.width = 10000
    lc.data = data
    lc.joinedLines = 1
    #catNames = string.split('Jan Feb Mar Apr May Jun Jul Aug', ' ')
    #catNames = times
    #lc.categoryAxis.categoryNames = catNames
    #lc.categoryAxis.labels.boxAnchor = 'n'
    lc.categoryAxis.visible = 0
    fontstep = 40
    for i in range(0, size(times)):
        drawing.add(String((i+1.3)*fontstep,45,str(times[i]), textAnchor="middle", fontSize=5))
    
    lc.lineLabelArray = ['1','2']
    #lc.valueAxis.valueMin = 0
    #lc.valueAxis.valueMax = 60

    lc.valueAxis.valueStep = 1
    #lc.valueAxis.valueSteps = [1, 2, 3, 5, 6]
    lc.lines[0].strokeWidth = .5
    lc.lines[1].strokeWidth = .5
    drawing.add(lc)
    renderPDF.drawToFile(drawing, 'example1.pdf', 'EEG data')
    return drawing, lc

Esempio n. 4

def sample1line(data=[(13, 5, 20, 22, 37, 45, 19, 4)]):
    drawing = Drawing(400, 200)

    bc = HorizontalLineChart()
    bc.x = 50
    bc.y = 50
    bc.height = 125
    bc.width = 300
    bc.data = data

    bc.strokeColor = colors.black

    bc.valueAxis.valueMin = 0
    bc.valueAxis.valueMax = 60
    bc.valueAxis.valueStep = 15

    bc.categoryAxis.labels.boxAnchor = 'ne'
    bc.categoryAxis.labels.dx = 8
    bc.categoryAxis.labels.dy = -2
    bc.categoryAxis.labels.angle = 30

    catNames = 'Jan Feb Mar Apr May Jun Jul Aug'.split(' ')
    catNames = [n + '-99' for n in catNames]
    bc.categoryAxis.categoryNames = catNames
    drawing.add(bc)

    return drawing

Esempio n. 5

File: simple_line_chart.py Progetto: zhishidapang/reportlabbookcode

def simple_line_chart():
    d = Drawing(280, 250)
    line = HorizontalLineChart()
    line.x = 50
    line.y = 85
    line.height = 150
    line.width = 250

    data = [[1, 2, 3, None, None, None, 5], [10, 5, 2, 6, 8, 3, 5]]
    line.data = data
    line.categoryAxis.categoryNames = [
        'Dogs', 'Cats', 'Mice', 'Hamsters', 'Parakeets', 'Gerbils', 'Fish'
    ]

    line.lines[0].strokeColor = colors.green
    line.lines[1].strokeColor = colors.blue
    line.lines[0].strokeWidth = 3
    line.categoryAxis.labels.angle = 45
    line.categoryAxis.labels.dy = -15

    d.add(line, '')

    doc = SimpleDocTemplate('simple_line_chart.pdf')
    story = []
    story.append(d)
    doc.build(story)

Esempio n. 6

File: test_graphics_charts.py Progetto: Jbaumotte/web2py

def sample1line(data=[(13, 5, 20, 22, 37, 45, 19, 4)]):
    drawing = Drawing(400, 200)

    bc = HorizontalLineChart()
    bc.x = 50
    bc.y = 50
    bc.height = 125
    bc.width = 300
    bc.data = data

    bc.strokeColor = colors.black

    bc.valueAxis.valueMin = 0
    bc.valueAxis.valueMax = 60
    bc.valueAxis.valueStep = 15

    bc.categoryAxis.labels.boxAnchor = 'ne'
    bc.categoryAxis.labels.dx = 8
    bc.categoryAxis.labels.dy = -2
    bc.categoryAxis.labels.angle = 30

    catNames = string.split('Jan Feb Mar Apr May Jun Jul Aug', ' ')
    catNames = map(lambda n:n+'-99', catNames)
    bc.categoryAxis.categoryNames = catNames
    drawing.add(bc)

    return drawing

Esempio n. 7

File: ChartBlock.py Progetto: yudevan/noWord

    def makeLineChart(self, context, width, height, data, xvalues, backgroundColor, borderColor, labelAngles,
                      labelXOffsets, labelYOffsets, lineColors, lineWidths, lineLabelFormat, yAxisMin, yAxisMax,
                      yAxisStep):
        content = []

        drawing = Drawing(width, height)

        lp = HorizontalLineChart()
        lp.x = 0
        lp.y = 0
        lp.height = height
        lp.width = width
        lp.data = data
        lp.joinedLines = 1

        if backgroundColor:
            lp.fillColor = colors.HexColor(backgroundColor)

        if borderColor:
            lp.strokeColor = colors.HexColor(borderColor)

        if yAxisMin is not None:
            lp.valueAxis.valueMin = yAxisMin

        if yAxisMax is not None:
            lp.valueAxis.valueMax = yAxisMax

        if yAxisStep:
            lp.valueAxis.valueStep = yAxisStep

        if xvalues:
            lp.categoryAxis.categoryNames = xvalues

        if labelAngles is not None:
            self.handleSingleOrList(lp.categoryAxis.labels, labelAngles, 'angle', len(data[0]))

        if labelXOffsets is not None:
            self.handleSingleOrList(lp.categoryAxis.labels, labelXOffsets, 'dx', len(data[0]))

        if labelYOffsets is not None:
            self.handleSingleOrList(lp.categoryAxis.labels, labelYOffsets, 'dy', len(data[0]))

        if lineLabelFormat:
            lp.lineLabelFormat = lineLabelFormat

        if lineColors:
            self.handleSingleOrList(lp.lines, lineColors, 'strokeColor', len(data), colors.HexColor)

        if lineWidths:
            self.handleSingleOrList(lp.lines, lineWidths, 'strokeWidth', len(data))

        drawing.add(lp)

        content.append( drawing )

        return content

Esempio n. 8

def draw_temper_pulse(value, step, x_coord, y_coord):
    drawing = Drawing(x_coord, y_coord)
    data = []
    catNames = []
    min_value = 0
    max_value = 0
    for k, v in value.items():
        if k == 'data':
            data1 = tuple([i for i in v])
            data.append(data1)
        if k == 'xtext':
            catNames = [i.replace(' ', '\n') for i in v]
        if k == 'min_max':
            min_value = v[0] - step
            max_value = v[1] + step

    lc = HorizontalLineChart()
    lc.x = 15
    lc.y = 0
    lc.height = 28 * mm
    lc.width = 250 * mm
    lc.data = data
    lc.joinedLines = 1
    lc.strokeColor = colors.white
    lc.strokeColor = None
    # из markers
    lc.lines.symbol = makeMarker('FilledSquare')
    lc.lines.symbol.size = 4
    # lineLabels - свойства надбисей линии из textlabels class Label(Widget):
    lc.lineLabels.fontSize = 9
    lc.lineLabels.fontName = 'PTAstraSerifBold'
    lc.lineLabels.angle = 0
    lc.lineLabels.dx = 2
    lc.lineLabels.dy = 1
    lc.lines[0].strokeColor = colors.black
    lc.lineLabelFormat = '%3.1f'

    lc.categoryAxis.categoryNames = catNames
    lc.categoryAxis.labels.boxAnchor = 'n'
    lc.categoryAxis.labels.angle = 0
    lc.categoryAxis.labels.dy = -2
    lc.categoryAxis.labels.dx = 0
    lc.categoryAxis.labels.fontSize = 9
    lc.categoryAxis.labels.fontName = 'PTAstraSerifReg'
    lc.categoryAxis.labels.leading = 8

    lc.valueAxis.valueMin = min_value
    lc.valueAxis.valueMax = max_value
    lc.valueAxis.valueStep = step
    lc.valueAxis.labels.fontName = 'PTAstraSerifReg'
    lc.valueAxis.labels.fontSize = 9
    drawing.add(lc)

    return drawing

Esempio n. 9

File: testrun_pdf.py Progetto: FyodorK/operation_cwal

def draw_test_burndown(not_run_line: List[int], passed_line: List[int],
                       falied_line: List[int], start_date: date,
                       end_date: date) -> Drawing:
    max_days = 10
    days = (end_date - start_date).days + 1
    assert days == \
           len(not_run_line) == \
           len(passed_line) == \
           len(falied_line), "Line data for burndown should be equal to number of days"

    step_days = 1
    if days > max_days:
        step_days = ceil(float(days) / max_days)

    step = timedelta(days=step_days)
    num_steps = int(ceil(float(days) / step_days))
    start_dt = datetime.datetime.combine(start_date, datetime.time.min)
    end_dt = datetime.datetime.combine(end_date, datetime.time.min)
    category_dates = [(start_dt + step * n) for n in range(0, num_steps)]
    line1_data = [not_run_line[step_days * n] for n in range(0, num_steps)]
    line2_data = [passed_line[step_days * n] for n in range(0, num_steps)]
    line3_data = [falied_line[step_days * n] for n in range(0, num_steps)]
    if category_dates[-1] < end_dt:
        category_dates.append(end_dt)
        line1_data.append(not_run_line[-1])
        line2_data.append(passed_line[-1])
        line3_data.append(falied_line[-1])

    d = Drawing(width=350, height=140)
    lc = HorizontalLineChart()
    lc.x = 0
    lc.y = 0
    lc.width = 350
    lc.height = 140
    lc.data = [line1_data, line2_data, line3_data]
    lc.lines[0].strokeColor = COLOR_GRAY
    lc.lines[1].strokeColor = COLOR_GREEN
    lc.lines[2].strokeColor = COLOR_RED
    lc.joinedLines = 1
    lc.lines.strokeWidth = 2
    lc.valueAxis.valueMin = 0
    lc.valueAxis.valueMax = max(not_run_line) + 1
    lc.valueAxis.labels.fontName = MAIN_FONT_NAME
    lc.valueAxis.labels.fontSize = AXIS_FONT_SIZE
    lc.categoryAxis.categoryNames = [
        next_date.strftime('%Y-%m-%d') for next_date in category_dates
    ]
    lc.categoryAxis.labels.fontName = MAIN_FONT_NAME
    lc.categoryAxis.labels.fontSize = AXIS_FONT_SIZE
    lc.categoryAxis.labels.dy = -15
    lc.categoryAxis.labels.angle = 30
    d.add(lc)
    return d

Esempio n. 10

def draw_pressure(value, step, x_coord, y_coord):
    drawing = Drawing(x_coord, y_coord)
    data = []
    data_diastolic = value['Диастолическое давление (мм рт.с)']
    data1 = [i for i in data_diastolic['data']]
    data.append(tuple(data1))
    min_max = data_diastolic['min_max']
    data_systolic = value['Систолическое давление (мм рт.с)']
    data1 = [i for i in data_systolic['data']]
    data.append(tuple(data1))
    catNames = [i.replace(' ', '\n') for i in data_diastolic['xtext']]
    min_max.extend(data_systolic['min_max'])
    min_value = min(min_max) - step
    max_value = max(min_max) + step

    lc = HorizontalLineChart()
    lc.x = 15
    lc.y = 0
    lc.height = 45 * mm
    lc.width = 250 * mm
    lc.data = data
    lc.joinedLines = 1
    lc.strokeColor = colors.white
    # из markers
    lc.lines[0].symbol = makeMarker('FilledCircle')
    lc.lines.symbol = makeMarker('FilledSquare')
    lc.lines.symbol.size = 4
    # lineLabels - свойства надбисей линии из textlabels class Label(Widget):
    lc.lineLabels.fontSize = 9
    lc.lineLabels.fontName = 'PTAstraSerifBold'
    lc.lineLabels.angle = 0
    lc.lineLabels.dx = 2
    lc.lineLabels.dy = -1
    lc.lines[0].strokeColor = colors.black
    lc.lines[1].strokeColor = colors.black
    lc.lines[0].strokeDashArray = [3, 3]
    lc.lineLabelFormat = '%3.1f'

    lc.categoryAxis.categoryNames = catNames
    lc.categoryAxis.labels.boxAnchor = 'n'
    lc.categoryAxis.labels.angle = 0
    lc.categoryAxis.labels.dy = -2
    lc.categoryAxis.labels.dx = 0
    lc.categoryAxis.labels.fontSize = 9
    lc.categoryAxis.labels.fontName = 'PTAstraSerifReg'
    lc.categoryAxis.labels.leading = 8
    lc.valueAxis.valueMin = min_value
    lc.valueAxis.valueMax = max_value
    lc.valueAxis.valueStep = step
    lc.valueAxis.labels.fontName = 'PTAstraSerifReg'
    lc.valueAxis.labels.fontSize = 9
    drawing.add(lc)
    return drawing

Esempio n. 11

 def get_drawing(self):
     drawing = Drawing(600, 250)
     lc = HorizontalLineChart()
     lc.x = 50
     lc.y = 50
     lc.height = 250
     lc.width = 600
     lc.data = self.data
     lc.joinedLines = 1
     lc.categoryAxis.labels.boxAnchor = 'n'
     lc.valueAxis.valueMin = 0
     lc.valueAxis.valueMax = 2000
     lc.valueAxis.valueStep = 500
     lc.lines[0].strokeWidth = 2.5
     drawing.add(lc)
     return drawing

Esempio n. 12

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

Esempio n. 13

    def test_22_lineCharts(self):
        from reportlab.lib.styles import getSampleStyleSheet
        from reportlab.lib import colors
        from reportlab.lib.units import inch
        from reportlab.platypus import SimpleDocTemplate, Spacer, Paragraph
        from reportlab.pdfbase import pdfmetrics
        from reportlab.graphics.shapes import Drawing
        from reportlab.pdfbase.ttfonts import TTFont
        from reportlab.graphics.charts.linecharts import HorizontalLineChart
        import random

        pdfmetrics.registerFont(TTFont('chsFont', 'STHeiti Light.ttc'))
        stylesheet = getSampleStyleSheet()

        elements = []
        doc = SimpleDocTemplate("demo.pdf")

        elements.append(
            Paragraph('<font name="chsFont">JY.zenist.song - 俊毅</font>',
                      stylesheet['Title']))
        elements.append(Spacer(1, 1 * inch))

        d = Drawing(400, 200)
        data = [
            [13, 5, 20, 22, 37, 45, 19, 4],
            # [14,6,21,23,38,46,20,5]
        ]
        for i in range(500):
            data[0].append(random.randint(1, 100))
            # data[1].append(random.randint(1,100))
        lc = HorizontalLineChart()
        lc.x = 50
        lc.y = 50
        lc.height = 180
        lc.width = 300
        lc.data = data
        lc.joinedLines = 1
        # lc.categoryAxis.categoryNames = data[0]
        d.add(lc)

        elements.append(d)

        doc.build(elements)

Esempio n. 14

File: gfe.py Progetto: oolsson/oo_eclipse

def graphout(catnames, data):
    drawing = Drawing(400, 200)
    lc = HorizontalLineChart()
    lc.x = 30
    lc.y = 50
    lc.height = 125
    lc.width = 350
    lc.data = data
    catNames = catnames
    lc.categoryAxis.categoryNames = catNames
    lc.categoryAxis.labels.boxAnchor = 'n'
    lc.valueAxis.valueMin = 0
    lc.valueAxis.valueMax = 1500
    lc.valueAxis.valueStep = 300
    lc.lines[0].strokeWidth = 2
    lc.lines[0].symbol = makeMarker('FilledCircle') # added to make filled circles.
    lc.lines[1].strokeWidth = 1.5
    drawing.add(lc)
    return drawing

Esempio n. 15

File: views1.py Progetto: prakhar987/PDF-Generator-SSAD-Project

def horizontallinegraph(data, elements):
    drawing = Drawing(0, 175)  # for indices
    lc = HorizontalLineChart()
    lc.x = 0
    lc.y = 10
    lc.height = 150
    lc.width = 300
    lc.data = data
    lc.joinedLines = 1
    catnames = 'Jan Feb Mar Apr May Jun Jul Aug'.split(' ')
    lc.categoryAxis.categoryNames = catnames
    lc.categoryAxis.labels.boxAnchor = 'n'
    lc.valueAxis.valueMin = 0
    lc.valueAxis.valueMax = 60
    lc.valueAxis.valueStep = 15
    lc.lines[0].strokeWidth = 2
    lc.lines[1].strokeWidth = 1.5
    drawing.add(lc)
    elements.append(drawing)

Esempio n. 16

File: graph.py Progetto: MounikaPandiri/mybackup

def create_graph(graph_data): 
    color=[green,red,blue,yellow,black]
    color_index = 0
    line_chart = Drawing(400, 200)
    data_length=len(graph_data["data"])
    lc = HorizontalLineChart()
    lc.x = 50
    lc.y = 50
    lc.height = 125
    lc.width = 300
    lc.data = graph_data["data"]
    lc.fillColor=lightblue	
    lc.joinedLines = 1
    lc.categoryAxis.categoryNames = list(graph_data["label"][0])
    lc.categoryAxis.labels.boxAnchor ='n'
    lc.valueAxis.valueMin = utils.get_least_pt(graph_data["data"])
    lc.valueAxis.valueMax = utils.get_max_pt(graph_data["data"])
    lc.valueAxis.valueStep = (lc.valueAxis.valueMax - lc.valueAxis.valueMin)/10 if (lc.valueAxis.valueMax - lc.valueAxis.valueMin) > 40 else (lc.valueAxis.valueMax - lc.valueAxis.valueMin)/5
   
    for i in xrange(data_length):
        lc.lines[i].strokeWidth = 2
        lc.lines[i].strokeColor = color[i]
    
    line_chart.add(lc)
    line_leg = LineLegend() 
    line_leg.boxAnchor       = 'sw'
    line_leg.x               = 100
    line_leg.y               = -1
    
    line_leg.columnMaximum   = 1
    line_leg.yGap            = 0
    line_leg.deltax          = 50
    line_leg.deltay          = 0
    line_leg.dx              = 10
    line_leg.dy              = 1.5
    line_leg.fontSize        = 10
    line_leg.alignment       = 'right'
    line_leg.dxTextSpace     = 5
    line_leg.colorNamePairs  = [(color[i],graph_data["legend"][0][i]) for i in xrange(data_length)]
    line_chart.add(line_leg) 
    
    return line_chart

Esempio n. 17

File: test_pdf.py Progetto: zenist/ZLib

    def test_22_lineCharts(self):
        from reportlab.lib.styles import getSampleStyleSheet
        from reportlab.lib import colors
        from reportlab.lib.units import inch
        from reportlab.platypus import SimpleDocTemplate, Spacer, Paragraph
        from reportlab.pdfbase import pdfmetrics
        from reportlab.graphics.shapes import Drawing
        from reportlab.pdfbase.ttfonts import TTFont
        from reportlab.graphics.charts.linecharts import HorizontalLineChart
        import random

        pdfmetrics.registerFont(TTFont('chsFont', 'STHeiti Light.ttc'))
        stylesheet = getSampleStyleSheet()

        elements = []
        doc = SimpleDocTemplate("demo.pdf")

        elements.append(Paragraph('<font name="chsFont">JY.zenist.song - 俊毅</font>', stylesheet['Title']))
        elements.append(Spacer(1,1*inch))

        d = Drawing(400,200)
        data = [
            [13,5,20,22,37,45,19,4],
            # [14,6,21,23,38,46,20,5]
        ]
        for i in range(500):
            data[0].append(random.randint(1,100))
            # data[1].append(random.randint(1,100))
        lc = HorizontalLineChart()
        lc.x = 50
        lc.y = 50
        lc.height = 180
        lc.width = 300
        lc.data = data
        lc.joinedLines = 1
        # lc.categoryAxis.categoryNames = data[0]
        d.add(lc)

        elements.append(d)

        doc.build(elements)

Esempio n. 18

File: data2acrobatpdf.py Progetto: badbytes/pymeg

def demo():
    drawing = Drawing(400, 200)
    data = [
    (13, 5, 20, 22, 37, 45, 19, 4),
    (5, 20, 46, 38, 23, 21, 6, 14)
    ]
    lc = HorizontalLineChart()
    lc.x = 50
    lc.y = 50
    lc.height = 125
    lc.width = 300
    lc.data = data
    lc.joinedLines = 1
    catNames = string.split('Jan Feb Mar Apr May Jun Jul Aug', ' ')
    lc.categoryAxis.categoryNames = catNames
    lc.categoryAxis.labels.boxAnchor = 'n'
    lc.valueAxis.valueMin = 0
    lc.valueAxis.valueMax = 60
    lc.valueAxis.valueStep = 15
    lc.lines[0].strokeWidth = 2
    lc.lines[1].strokeWidth = 1.5
    drawing.add(lc)
    renderPDF.drawToFile(drawing, 'example1.pdf', 'My First Drawing')
    return drawing

Esempio n. 19

File: rl-emissions.py Progetto: seralf/eurostat

countries = []
for row in result.fetchall():
    if c != unicode(row[0]):
        c = unicode(row[0])
        countries.append(c)
        data_row += 1
        data_col = 0
        data_values.append([])
        linelabels.append([])
    data_values[data_row].append(float(str(row[4])))
    if data_col == 0:
        linelabels[data_row].append(c)
    else:
        linelabels[data_row].append(None)
    data_col += 1

d = Drawing(800, 600)
chart = HorizontalLineChart()
chart.width = 740
chart.height = 560
chart.x = 50
chart.y = 20
chart.lineLabelArray = linelabels
chart.lineLabelFormat = 'values'
chart.data = data_values
chart.categoryAxis.categoryNames = h_labels
chart.valueAxis.valueMin = 0

d.add(chart)
d.save(fnRoot='ghg-totals', formats=['png'])

Esempio n. 20

    def makeLineChart(self, context, width, height, data, xvalues,
                      backgroundColor, borderColor, labelAngles, labelXOffsets,
                      labelYOffsets, lineColors, lineWidths, lineLabelFormat,
                      yAxisMin, yAxisMax, yAxisStep):
        content = []

        drawing = Drawing(width, height)

        lp = HorizontalLineChart()
        lp.x = 0
        lp.y = 0
        lp.height = height
        lp.width = width
        lp.data = data
        lp.joinedLines = 1

        if backgroundColor:
            lp.fillColor = colors.HexColor(backgroundColor)

        if borderColor:
            lp.strokeColor = colors.HexColor(borderColor)

        if yAxisMin:
            lp.valueAxis.valueMin = yAxisMin

        if yAxisMax:
            lp.valueAxis.valueMax = yAxisMax

        if yAxisStep:
            lp.valueAxis.valueStep = yAxisStep

        if xvalues:
            lp.categoryAxis.categoryNames = xvalues

        def handleSingleOrList(targetObject,
                               value,
                               propertyName,
                               defaultLength,
                               mapFunc=None):
            if isinstance(value, list):
                for i in range(0, len(value)):
                    setattr(targetObject[i], propertyName,
                            value[i] if not mapFunc else mapFunc(value[i]))
            else:
                for i in range(0, defaultLength):
                    setattr(targetObject[i], propertyName,
                            value if not mapFunc else mapFunc(value))

        if labelAngles:
            handleSingleOrList(lp.categoryAxis.labels, labelAngles, 'angle',
                               len(data[0]))

        if labelXOffsets:
            handleSingleOrList(lp.categoryAxis.labels, labelXOffsets, 'dx',
                               len(data[0]))

        if labelYOffsets:
            handleSingleOrList(lp.categoryAxis.labels, labelYOffsets, 'dy',
                               len(data[0]))

        if lineLabelFormat:
            lp.lineLabelFormat = lineLabelFormat

        if lineColors:
            handleSingleOrList(lp.lines, lineColors, 'strokeColor', len(data),
                               colors.HexColor)

        if lineWidths:
            handleSingleOrList(lp.lines, lineWidths, 'strokeWidth', len(data))

        drawing.add(lp)

        content.append(drawing)

        return content

Esempio n. 21

File: students.py Progetto: bpatzke/student-growth-tracker

def create_single_grade_pdf(student_id, class_id, assignment_count, grade_standard_dict, grade_student_dict, assignment_line_all, assignment_names, assignment_dict):
    '''--Variables--'''
    Story=[]
    Elements=[]
    buff = StringIO()
    formatted_time = time.ctime()
    minimum = 100
    standard_averages=[[]]
    standard_table=[]

    #content_areas = []

    '''------'''
    styles = getSampleStyleSheet()
    HeaderStyle = styles["Heading1"]

    #get the student Name

    #Create the name for the PDf being returned
    pdfName = get_student_name(student_id).first_name+"_"+get_student_name(student_id).last_name+"_SR"+".pdf"

    #set up the response headers so the browser knows to return a PDF document
    response.headers['Content-Type'] = 'application/pdf'
    response.headers['Content-Disposition'] ='attachment;filename=%s;'%pdfName
    doc = SimpleDocTemplate(buff,pagesize=letter,rightMargin=72,leftMargin=72,topMargin=72,bottomMargin=18)
    doc.title=pdfName

    #Set up some styles
    styles=getSampleStyleSheet()
    styles.add(ParagraphStyle(name='Justify', alignment=TA_JUSTIFY))
    styles.add(ParagraphStyle(name='Indent', rightIndent=3))
    styles.add(ParagraphStyle(name = 'Title2',
                                  parent = styles['Normal'],
                                  fontName = 'DejaVuSansCondensed',
                                  fontSize = 18,
                                  leading = 22,
                                  #alignment = TA_LEFT,
                                  spaceAfter = 6),
                                  alias = 'title2')


    #Time-Stamp
    ptext = '<font size=12>%s</font>' % formatted_time
    Story.append(Paragraph(ptext, styles["Normal"]))
    Story.append(Spacer(1, 12))
    Elements.extend(ptext)

    #Administrator
    ptext='<font size=12><b>%s %s</b></font>'%(get_student_name(student_id).first_name, get_student_name(student_id).last_name)
    Story.append(Paragraph(ptext, styles["Justify"]))
    Story.append(Spacer(1, 12))
    Elements.extend(ptext)

    #Grade Number and Content Area
    ptext = '<font size=12><b>%s Student Report</b></font>'%(get_class_name(class_id).name)
    Story.append(Paragraph(ptext, styles["Justify"]))
    Story.append(Spacer(1, 7))
    Elements.extend(ptext)
    
    
    #Total Assignments
    ptext = '<font size=12>Total Assignments: %s</font>'%(assignment_count)
    Story.append(Paragraph(ptext, styles["Justify"]))
    Story.append(Spacer(1, 7))
    Elements.extend(ptext)
    
    
    
    
    
    Story.append(Spacer(1,20))
    #Graph Title
    ptext = '<font size=15><b>Current Performance by Standard</b></font>'
    Story.append(Paragraph(ptext, styles["title"]))
    Story.append(Spacer(1,50))

    
    #get all the standards for a specific grade and content area
    standard_query = ((db.classes.id == class_id)&
                       (student_id == db.student.id)&
                      (db.classes.id == db.student_classes.class_id)&
                      (db.student.id == db.student_classes.student_id)&
                      (db.student.id == db.student_grade.student_id)&
                      (db.grade.id == db.student_grade.grade_id)&
                      (db.grade.id == db.grade_standard.grade_id)&
                      (db.standard.id == db.grade_standard.standard_id)&
                      (db.classes.id == db.class_grade.class_id)&
                      (db.grade.id == db.class_grade.grade_id)&
                      (db.standard.content_area == db.contentarea.id))

    standard_list = db(standard_query).select(db.standard.id, db.standard.short_name, db.standard.reference_number,db.student_grade.student_score, db.grade.score, db.contentarea.name)
    standard_ref_list=[]
    #Setup the Dictionary of standard averages
    standard_dict = {}
    standard_table = []
    standard_averages=[[]]
    for row in standard_list:
        if row.standard.id in standard_dict.keys():
            if((row.grade.score != 0.0) | (row.student_grade.student_score != 0.0)):
                max_score = standard_dict[row.standard.id][0] + row.grade.score
                student_score = standard_dict[row.standard.id][1] + row.student_grade.student_score
                standard_dict[row.standard.id] = [max_score, student_score, row.standard.reference_number, row.standard.short_name]
        else:
            standard_dict[row.standard.id] = [row.grade.score, row.student_grade.student_score, row.standard.reference_number, row.standard.short_name]

    
    
        
    i = 0
    #set up the 2D list of Standard Averages
    for standard in sorted(standard_dict.keys()):
        standard_ref_list.append(standard_dict[standard][2])
        standard_table.append([])
        current_avg = (standard_dict[standard][1]/standard_dict[standard][0])*100
        if minimum > current_avg:
            minimum = current_avg
        #int/round was here
        standard_table[i].append(standard_dict[standard][3]+": "+format((standard_dict[standard][1]/standard_dict[standard][0])*100,'.2f')+"%")
        #int/round was here 
        standard_averages[0].append((standard_dict[standard][1]/standard_dict[standard][0])*100)


        for grade in grade_standard_dict.keys():
            for standardId in grade_standard_dict[grade][1]:
                if(standardId == standard):
                    standard_table[i].append(grade_standard_dict[grade][0]+":"+format((grade_student_dict[grade][1]/grade_student_dict[grade][0])*100, '.2f')+"%")
        i+=1
    sorted(standard_table,key=lambda l:l[0])

    
    '''---Graph---'''
    drawing = Drawing(600, 200)
    data = standard_averages
    bc = VerticalBarChart()

    #location in the document (x,y)
    bc.x = 10
    bc.y = 30

    #width and height of the graph
    bc.height = 225
    bc.width = 400
    bc.data = data
    bc.categoryAxis.drawGridLast=True
    bc.categoryAxis.gridStart=0
    bc.categoryAxis.gridStrokeLineCap = 2
    bc.categoryAxis.gridEnd=3
    #bc.barLabels = 

    #Update colors of the bars in the graph
    bc.bars.symbol = ShadedRect()
    bc.bars.symbol.fillColorStart = colors.lightblue
    bc.bars.symbol.fillColorEnd = colors.lightblue
    bc.bars.symbol.strokeWidth = 0


    #this draws a line at the top of the graph to close it. 
    bc.strokeColor = colors.black

    #Y-axis min, max, and steps.
    if minimum != 100:
        bc.valueAxis.valueMin = minimum -10
    else:
        bc.valueAxis.valueMin = 50
    bc.valueAxis.valueMax = 100
    bc.valueAxis.valueStep = 5

    #where to anchor the origin of the graph
    bc.categoryAxis.labels.boxAnchor = 'ne'

    #Locations of labels for the X-axis
    bc.categoryAxis.labels.dx = 2
    bc.categoryAxis.labels.dy = -2

    bc.barLabels.nudge = -10
    bc.barLabelFormat = '%.2f%%'
    bc.barLabels.dx = 0
    bc.barLabels.dy = 0
    #The angle of the lables for the X-axis
    bc.categoryAxis.labels.angle = 30
    #List of the categories to place on the X-axis
    bc.categoryAxis.categoryNames = standard_ref_list
    drawing.add(bc)
    '''------'''
    '''--Graph Legend--'''
    #Graph Legend
    legend = Legend()
    legend.alignment = 'right'
    legend.x = 420
    legend.y = 150
    legend.deltax = 60
    legend.dxTextSpace = 10
    legend.columnMaximum = 4

    legend.colorNamePairs = [(colors.lightblue, 'grade average')]
    drawing.add(legend, 'legend')
    drawing_title = "Bar Graph"
    
    Story.append(drawing)
    Story.append(Spacer(1,15))
    #LineGraph Title
    ptext = '<font size=15><b>Class Performance by Assignment</b></font>'
    Story.append(Paragraph(ptext, styles["title"]))
    Story.append(Spacer(1,30))
    
    '''
    Line Plot Graph ------
    '''
    assignment_data_all =[[],[]]
    for key in assignment_dict.keys():
        assignment_data_all[0].append(assignment_dict[key][2])
        assignment_data_all[1].append(assignment_dict[key][1])
    drawing2 = Drawing(600, 200)
    data2 = assignment_data_all
    #lp = LinePlot()
    
    #data[0] = preprocessData(data[0])
    lp = HorizontalLineChart()
    lp.x = -20
    lp.y = 0
    lp.height = 225
    lp.width = 500
    lp.data = data2
    lp.joinedLines = 1
    lp.lines.symbol = makeMarker('FilledCircle')
    lp.lines[0].strokeColor = colors.grey
    lp.lines[1].strokeColor = colors.lightblue
    lp.strokeColor = colors.black
    lp.categoryAxis.labels.fontSize = 7
    lp.categoryAxis.categoryNames = assignment_names
    lp.categoryAxis.labels.boxAnchor = 'ne'
    lp.categoryAxis.labels.angle = 30
    lp.categoryAxis.drawGridLast=True
    #lp.categoryAxis.gridStart=0
    lp.categoryAxis.gridStrokeLineCap = 2
    #lp.categoryAxis.gridEnd=3
    #lp.categoryAxis.visibleGrid           = 1
    lp.valueAxis.visibleGrid           = 1
    lp.valueAxis.visible               = 1
    lp.valueAxis.drawGridLast=False
    #lp.valueAxis.gridStart = 0
    #lp.valueAxis.gridEnd = 100
    lp.valueAxis.gridStrokeColor = colors.black
    lp.valueAxis.valueMin = 0
    lp.valueAxis.valueMax = 105
    lp.valueAxis.valueStep = 10
    lp.lineLabelFormat = '%2.0f'
    lp.strokeColor = colors.black
    lp.fillColor = colors.white
    drawing2.add(lp)
    
    legend = Legend()
    legend.alignment = 'right'
    legend.x = 482
    legend.y = 150
    legend.deltax = 60
    legend.dxTextSpace = 2
    legend.colorNamePairs = [(colors.lightblue, 'Student'),(colors.grey, 'Class')]
    drawing2.add(legend, 'legend')
    
    Story.append(drawing2)
    Story.append(Spacer(1,30))
    ptext = '<font size=15><b>Assignments by Standard</b></font>'
    Story.append(Paragraph(ptext, styles["title"]))
    Story.append(Spacer(1,10))
    t=Table(standard_table)
    t.setStyle(t.setStyle(TableStyle([('BOX', (0,0), (-1,-1), 0.25, colors.black),
                                      ('FONTSIZE', (0,0), (-1,-1), 7),
                                      ('BACKGROUND',(0,0),(0,-1),colors.lightgrey),
                                      ('INNERGRID', (0,0), (-1,-1), 0.25, colors.black),])))
    Story.append(t)
    #build PDF document and return it
    doc.build(Story)
    pdf = buff.getvalue()
    buff.close()
    return pdf

Esempio n. 22

    def crear_informe(self):
        guion = []
        d = Drawing(300, 200)

        tarta = Pie()
        tarta.x = 65
        tarta.y = 15
        tarta.width = 170
        tarta.height = 170

        tarta.data = []
        tarta.labels = []
        cores = []
        follaEstilo = getSampleStyleSheet()
        _HEX = list('0123456789ABCDEF')
        j=False
        ventasMarca=metodosBase.metodosBase.listar_ventas_marca(self)

        for ventaMarca in ventasMarca:
            tarta.data.append(ventaMarca[0])
            tarta.labels.append(ventaMarca[1])

            color = '#' + ''.join(_HEX[random.randint(0, len(_HEX)-1)] for _ in range(6))
            cores.append(colors.HexColor(color))
            if ((tarta.data[0] is not None) and j==False):
                mayor = tarta.data[0]
                indice=0
                j=True
            else:
                if(ventaMarca[0]>=mayor):
                    mayor=ventaMarca[0]




        tarta.slices.strokeWidth = 0.2  # anchura das liñas
        tarta.sideLabels = 1
        tarta.slices[tarta.data.index(mayor)].popout = 10  # destacase o gajo que pomos entre corchetes, o que ten maior valor de todos
        tarta.slices[tarta.data.index(mayor)].strokeWidth = 2  # a este gajo en concreto cambiamos o tamaño da liña
        tarta.slices[tarta.data.index(mayor)].labelRadius = 1.20  # radio da etiqueta , cambiamolo para este elemento
        tarta.slices[tarta.data.index(mayor)].fontColor = colors.red

        lenda = Legend()
        lenda.x = 370
        lenda.y = 0
        lenda.dx = 8
        lenda.dy = 8
        lenda.fontName = 'Helvetica'
        lenda.fontSize = 7
        lenda.boxAnchor = 'n'
        lenda.columnMaximum = 10
        lenda.strokeColor = colors.black
        lenda.strokeWidth = 1
        lenda.deltax = 75
        lenda.deltay = 10
        lenda.autoXPadding = 5
        lenda.yGap = 0
        lenda.dxTextSpace = 5
        lenda.alignment = 'right'
        lenda.dividerLines = 1 | 2 | 4
        lenda.dividerOffsY = 4.5
        lenda.subCols.rpad = 30

        for i, color in enumerate(cores):
            tarta.slices[i].fillColor = color
        lenda.colorNamePairs = [(tarta.slices[i].fillColor, (tarta.labels[i][0:20], '%0.2f' % tarta.data[i])
                                 ) for i in range(len(tarta.data))]
        '''parrafo 1 : cabeceira primeira grafica'''
        cabeceira = follaEstilo['Heading4']  # formato por defecto

        cabeceira.pageBreakBefore = 0  # con un uno a primeira folla queda en branco
        cabeceira.keepWitNext = 0  # para que non nos deixe a primeira paxina en branco
        cabeceira.backColor = colors.lightcyan
        parrafo = Paragraph("Informe de ventas por marcas", cabeceira)

        guion.append(parrafo)
        guion.append(Spacer(0, 40))

        d.add(lenda)
        d.add(tarta)
        guion.append(d)
        guion.append(Spacer(0, 60))
        '''parrafo 2:cabeceira segunda grafica'''
        cabeceira2 = follaEstilo['Heading4']  # formato por defecto

        cabeceira2.pageBreakBefore = 0  # con un uno a primeira folla queda en branco
        cabeceira2.keepWitNext = 0  # para que non nos deixe a primeira paxina en branco
        cabeceira2.backColor = colors.lightcyan
        parrafo2 = Paragraph("Informe de ventas por año de matriculación", cabeceira)

        guion.append(parrafo2)
        guion.append(Spacer(0, 40))

        d2 = Drawing(400, 200)
        lc = HorizontalLineChart()
        lc.x = 30
        lc.y = 50
        lc.height = 125
        lc.width = 350
        lc.data = []
        lista=[]
        lc.categoryAxis.categoryNames = []

        ventasAno = metodosBase.metodosBase.listar_ventas_anoMatricula(self)

        for ventaAno in ventasAno:
            lista.append(ventaAno[0])
            lc.categoryAxis.categoryNames.append(str(ventaAno[1]))
        lc.data.append(lista)

        lc.categoryAxis.labels.boxAnchor = 'n'
        lc.valueAxis.valueMin = 0
        lc.valueAxis.valueMax = 12
        lc.valueAxis.valueStep = 2
        lc.lines[0].strokeWidth = 2
        lc.lines[0].symbol = makeMarker('FilledCircle')  # círculos rellenos
        lc.lines[1].strokeWidth = 1.5
        d2.add(lc)
        guion.append(d2)
        guion.append(Spacer(0, 20))

        cabeceira3 = follaEstilo['Normal']  # formato por defecto
        parrafo3 = Paragraph(" COCHESJOSE S.L. CARRETERA INFINITA S/N  , TELEFONO:986505050", cabeceira3)
        cabeceira3.keepWitNext = 0  # para que non nos deixe a primeira paxina en branco
        guion.append(parrafo3)
        guion.append(Spacer(0, 20))

        doc = SimpleDocTemplate("informeVentas.pdf", pagesize=A4)

        doc.build(guion)

Esempio n. 23

File: views.py Progetto: prakhar987/PDF-Generator-SSAD-Project

def generate_certificate(elements):
    style = TableStyle([('TEXTALIGN', (0, 0), (-1, -1), 'CENTER'),
                        ('TEXTCOLOR', (0, 0), (-1, -1), colors.red),
                        ('VALIGN', (0, 0), (0, -1), 'TOP'),
                        ('INNERGRID', (0, 0), (-1, -1), 0.50, colors.red),
                        ('BOX', (0, 0), (-1, -1), 0.50, colors.green),
                        ('BACKGROUND', (0, 0), (-1, -1), colors.blue),
                        ])
    s = getSampleStyleSheet()
    s = s["BodyText"]
    s.wordWrap = "RGB"
    styles = ParagraphStyle(
        name='Normal',
        fontName='Helvetica-Bold',
        fontSize=15,
        alignment=1,
    )
    elements.append(Spacer(1, 0.5 * inch))
    i = Paragraph(str("candidate performance vs average performance"), styles)
    elements.append(i)
    elements.append(Spacer(1, 0.1 * inch))
    drawing = Drawing(0, 200)  # for indices
    data = [
        (13, 5, 20, 22, 37, 45, 19, 4),
        (14, 6, 21, 23, 38, 46, 20, 5)
    ]  # data for drawing bar graphs
    bc = VerticalBarChart()
    bc.x = 0  # x,y define the left bottom of graph
    bc.y = 0
    bc.height = 150
    bc.width = 300
    bc.data = data
    bc.strokeColor = colors.black
    bc.valueAxis.valueMin = 0
    bc.valueAxis.valueMax = 50
    bc.valueAxis.valueStep = 10
    bc.categoryAxis.labels.boxAnchor = 'ne'
    bc.categoryAxis.labels.dx = 6  # next 3 lines is for naming indices
    bc.categoryAxis.labels.dy = -2
    bc.categoryAxis.labels.angle = 60
    bc.categoryAxis.categoryNames = ['Jan-99', 'Feb-99', 'Mar-99',
                                     'Apr-99', 'May-99', 'Jun-99', 'Jul-99', 'Aug-99']
    drawing.add(bc)
    elements.append(drawing)
    elements.append(Spacer(1, 0.5 * inch))
    drawing = Drawing(0, 175)  # for indices
    lc = HorizontalLineChart()
    lc.x = 0
    lc.y = 10
    lc.height = 150
    lc.width = 300
    lc.data = data
    lc.joinedLines = 1
    catNames = 'Jan Feb Mar Apr May Jun Jul Aug'.split(' ')
    lc.categoryAxis.categoryNames = catNames
    lc.categoryAxis.labels.boxAnchor = 'n'
    lc.valueAxis.valueMin = 0
    lc.valueAxis.valueMax = 60
    lc.valueAxis.valueStep = 15
    lc.lines[0].strokeWidth = 2
    lc.lines[1].strokeWidth = 1.5
    drawing.add(lc)
    elements.append(drawing)
    drawing = Drawing(0, 400)  # for indices
    data = [
        ((1, 1), (2, 2), (2.5, 1), (3, 3), (4, 5)),
        ((1, 2), (2, 3), (2.5, 2), (3.5, 5), (4, 6))
    ]
    elements.append(Spacer(1, 0.1 * inch))
    i = Paragraph(str("candidate performance vs average performance"), styles)
    elements.append(i)
    elements.append(Spacer(1, 0.1 * inch))
    lp = LinePlot()
    lp.x = 0
    lp.y = 50
    lp.height = 300
    lp.width = 600
    lp.data = data
    lp.joinedLines = 1
    lp.lines[0].symbol = makeMarker('FilledCircle')
    lp.lines[1].symbol = makeMarker('Circle')
    lp.lineLabelFormat = '%2.0f'
    lp.strokeColor = colors.black
    lp.xValueAxis.valueMin = 0
    lp.xValueAxis.valueMax = 5
    lp.xValueAxis.valueSteps = [1, 2, 2.5, 3, 4, 5]
    lp.xValueAxis.labelTextFormat = '%2.1f'
    lp.yValueAxis.valueMin = 0
    lp.yValueAxis.valueMax = 7
    lp.yValueAxis.valueSteps = [1, 2, 3, 5, 6]
    drawing.add(lp)
    elements.append(drawing)
    elements.append(Spacer(1, 0.1 * inch))
    drawing = Drawing(100, 350)
    pc = Pie()
    pc.x = 65
    pc.y = 15
    pc.width = 300
    pc.height = 300
    pc.data = [10, 20, 30, 40, 50, 60]
    pc.labels = ['a', 'b', 'c', 'd', 'e', 'f']
    pc.slices.strokeWidth = 0.5
    pc.slices[3].popout = 10
    pc.slices[3].strokeWidth = 2
    pc.slices[3].strokeDashArray = [2, 2]
    pc.slices[3].labelRadius = 1.75
    pc.slices[3].fontColor = colors.red
    drawing.add(pc)
    elements.append(drawing)
    elements.append(Spacer(1, 0.5 * inch))
    return elements

Esempio n. 24

File: pedroLinux.py Progetto: pedrinillaisaca/Graficas_Reportes

from reportlab.graphics.charts.linecharts import HorizontalLineChart

titulo = Paragraph("PROCESOS REALIZADOS EN LINUX", estilo['title'])
story.append(titulo)
story.append(Spacer(0, inch * .20))

titulo = Paragraph(
    "Tiempos de ejecución proceso conversión a escala de grises",
    estilo['title'])
story.append(titulo)
story.append(Spacer(0, inch * .1))

d = Drawing(400, 200)
lc = HorizontalLineChart()
lc.x = 30
lc.y = 50
lc.height = 125
lc.width = 350
#lc.data = [[0.7,0.1,0.5,0.2]]
datos = []
datos.append(tim_to_gray)
lc.data = datos
#lc.categoryAxis.categoryNames = ['Suspenso', 'Aprobado', 'Notable',
#                                'Sobresaliente']

lc.categoryAxis.categoryNames = imgs  #lista de las imagenes
lc.categoryAxis.labels.boxAnchor = 'n'
lc.categoryAxis.labels.angle = 90
lc.categoryAxis.labels.dy = -45
lc.valueAxis.valueMin = 0
lc.valueAxis.valueMax = 0.1

Esempio n. 25

File: views.py Progetto: chelovera/sgpa2015

def reporte_pdf(request, pk):

    response = HttpResponse(content_type='application/pdf')
    response['Content-Disposition'] = 'attachment; filename="Reporte del proyecto.pdf"'

    # Create the PDF object, using the response object as its "file."
    p = canvas.Canvas(response)


    p.drawString(210, 800, "1 - Cantidad de Trabajos en curso por equipo.")
    proyecto = Proyecto.objects.get(pk=pk)
    j=750
    p.setFillColorRGB(0,0,0)
    p.setFont('Helvetica', 8)
    p.drawString(100, j, proyecto.nombre +  ': ' + 'Estado  ' + proyecto.estado)
    equipo = Miembro.objects.filter(proyecto=proyecto.pk)
    sprints = Sprint.objects.filter(proyecto = proyecto.pk).filter(estado=2)
    j = j-20
    for sp in sprints:
          user_story = us.objects.filter(sprint = sp.pk)
          p.drawString(120, j, sp.nombre)
          j = j-20
          for eq in equipo:
              p.drawString(140, j, '* ' + eq.usuario.username)
              j=j-20
              for hu in user_story:
                  if hu.responsable.usuario.username == eq.usuario.username:
                        p.drawString(160, j, '- ' + hu.nombre)
                        j=j-20

    p.showPage()
    # Draw things on the PDF. Here's where the PDF generation happens.
    # See the ReportLab documentation for the full list of functionality.
    miembros = Miembro.objects.filter(proyecto = proyecto.pk)

    #son los user stories que estan en el proyecto actual del cual se genera el reporte, de cada uno  de los
    #sprint en uno de los tres estados (pendiente, en ejecucion o finalizado)
    p.drawString(200, 800, "2 - Cantidad de Trabajos por usuario, pendiente, en curso y finalizado.")
    j=750

    for usuario_system in miembros :
                p.setFont('Helvetica', 8)
                p.drawString(100, j, usuario_system.usuario.username)
                user_story = us.objects.filter(responsable = usuario_system)
                j = j-20
                for hu in user_story:
                            sp = hu.sprint.pk
                            p.drawString(120, j, '- ' + hu.nombre + '  Estado:' + hu.sprint.estado.estado)
                            j=j-20

    p.showPage()

    #son la actividades que se encuentran en cada flujo de un proyecto
    p.drawString(210, 800, "3 - Lista de Actividades para completar un proyecto.")
    j=750


    fluj = Flujos.objects.filter(proyecto = proyecto.pk).order_by('nombre')
    j = j-20
    for f in fluj:
         p.setFont('Helvetica', 8)
         p.drawString(120, j, f.nombre)
         acti = Actividad.objects.filter(flujo = f.pk).order_by('orden')
         j = j-20
         for a in acti:
               p.drawString(140, j, str(a.orden) + ': ' + a.nombre)
               j = j-20

    p.showPage()


    p.drawString(210, 800, "5 - Product BackLog del proyecto .")
    j=750

    p.setFont('Helvetica', 8)
    user_story = us.objects.filter(proyecto = proyecto.pk).order_by('prioridad')
    j = j-20

    p.drawString(120, j, 'Nombre del Us')
    p.drawString(200, j, '      Prioridad')
    j = j-20
    for u in user_story:
            p.drawString(120, j, u.nombre + '          ' + str(u.prioridad))
            j = j-20


    p.showPage()


    p.drawString(210, 800, "6 - Sprint BackLog del proyecto .")
    j=750


    p.setFont('Helvetica', 8)
    sprints = Sprint.objects.filter(proyecto = proyecto.pk).order_by('nombre')
    j = j-20
    for s in sprints:
          p.drawString(120, j, s.nombre)
          user_story = us.objects.filter(sprint = s.pk)
          j = j-20
          for hu in user_story:
                  p.drawString(140, j, hu.nombre + ' RESPONSABLE:  ' + hu.responsable.usuario.username)
                  j = j-20

    p.showPage()
    p.setFont('Helvetica', 8)
    #grafica del burndown chart del tiempo estimado y del tiempo real de todos los sprint del proyecto actual    p.drawString(210, 800, "6 - Tiempo estimado y tiempo en curso, de cada sprint del proyecto, burndown chart")
    p.drawString(210, 800, "Burndown chart de los sprint del proyecto.")
    j=750
    sprint = Sprint.objects.filter(proyecto=proyecto.pk)
    for s in sprint:
        p.setFont('Helvetica', 8)
        p.setFillColor(red)
        p.drawString(210, 760, "Tiempo Estimado.")
        p.setFillColor(green)
        p.drawString(280, 760,"Tiempo Real")
        p.setFillColor(black)
        sprint_dias = s.duracion_dias
        miembros = Miembro.objects.filter(proyecto=proyecto.pk)
        p.drawString(210,j,s.nombre + ': ' + s.estado.estado)
        j = j-20
        horas_estimadas=0

        for miembro in miembros:
            horas_estimadas+=miembro.horas_por_dia

        xdata =[i + 1 for i in range(sprint_dias)]

        ydataestimado= [horas_estimadas*(sprint_dias-i) for i in range(sprint_dias)]


        datose = []
        dias = []

        for ye in ydataestimado:
            datose.append(ye)

        if s.estado.pk == 2 or s.estado.pk == 3:
            try:
                ydata2real = generar_horas_trabajadas(s.pk, ydataestimado,horas_estimadas*s.duracion_dias)
                datosr = []
                for yr in ydata2real:
                    datosr.append(yr)
                data = [datose,datosr]
            except:
                data = []
        else:
            data = [datose]

        drawing = Drawing(400, 200)


        for d in xdata:
            dias.append(str(d))


        lc = HorizontalLineChart()
        lc.x = 50
        lc.y = 50
        lc.height = 200
        lc.width = 400
        lc.data = data
        lc.joinedLines = 1
        lc.categoryAxis.categoryNames = dias
        lc.categoryAxis.labels.boxAnchor = 'n'
        lc.valueAxis.valueMin = 0
        lc.valueAxis.valueMax = horas_estimadas*sprint_dias
        lc.valueAxis.valueStep = 10
        lc.lines[0].strokeWidth = 1.5
        lc.lines[1].strokeWidth = 1.5
        drawing.add(lc)

        renderPDF.draw(drawing, p, 50, 500)

        p.showPage()


    p.showPage()
    p.save()
    return response

Esempio n. 26

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)

Esempio n. 27

File: students.py Progetto: tazjel/student-growth-tracker

def create_single_grade_pdf(student_id, class_id, assignment_count,
                            grade_standard_dict, grade_student_dict,
                            assignment_line_all, assignment_names,
                            assignment_dict):
    '''--Variables--'''
    Story = []
    Elements = []
    buff = StringIO()
    formatted_time = time.ctime()
    minimum = 100
    standard_averages = [[]]
    standard_table = []

    #content_areas = []
    '''------'''
    styles = getSampleStyleSheet()
    HeaderStyle = styles["Heading1"]

    #get the student Name

    #Create the name for the PDf being returned
    pdfName = get_student_name(student_id).first_name + "_" + get_student_name(
        student_id).last_name + "_SR" + ".pdf"

    #set up the response headers so the browser knows to return a PDF document
    response.headers['Content-Type'] = 'application/pdf'
    response.headers[
        'Content-Disposition'] = 'attachment;filename=%s;' % pdfName
    doc = SimpleDocTemplate(buff,
                            pagesize=letter,
                            rightMargin=72,
                            leftMargin=72,
                            topMargin=72,
                            bottomMargin=18)
    doc.title = pdfName

    #Set up some styles
    styles = getSampleStyleSheet()
    styles.add(ParagraphStyle(name='Justify', alignment=TA_JUSTIFY))
    styles.add(ParagraphStyle(name='Indent', rightIndent=3))
    styles.add(
        ParagraphStyle(
            name='Title2',
            parent=styles['Normal'],
            fontName='DejaVuSansCondensed',
            fontSize=18,
            leading=22,
            #alignment = TA_LEFT,
            spaceAfter=6),
        alias='title2')

    #Time-Stamp
    ptext = '<font size=12>%s</font>' % formatted_time
    Story.append(Paragraph(ptext, styles["Normal"]))
    Story.append(Spacer(1, 12))
    Elements.extend(ptext)

    #Administrator
    ptext = '<font size=12><b>%s %s</b></font>' % (get_student_name(
        student_id).first_name, get_student_name(student_id).last_name)
    Story.append(Paragraph(ptext, styles["Justify"]))
    Story.append(Spacer(1, 12))
    Elements.extend(ptext)

    #Grade Number and Content Area
    ptext = '<font size=12><b>%s Student Report</b></font>' % (
        get_class_name(class_id).name)
    Story.append(Paragraph(ptext, styles["Justify"]))
    Story.append(Spacer(1, 7))
    Elements.extend(ptext)

    #Total Assignments
    ptext = '<font size=12>Total Assignments: %s</font>' % (assignment_count)
    Story.append(Paragraph(ptext, styles["Justify"]))
    Story.append(Spacer(1, 7))
    Elements.extend(ptext)

    Story.append(Spacer(1, 20))
    #Graph Title
    ptext = '<font size=15><b>Current Performance by Standard</b></font>'
    Story.append(Paragraph(ptext, styles["title"]))
    Story.append(Spacer(1, 50))

    #get all the standards for a specific grade and content area
    standard_query = ((db.classes.id == class_id) &
                      (student_id == db.student.id) &
                      (db.classes.id == db.student_classes.class_id) &
                      (db.student.id == db.student_classes.student_id) &
                      (db.student.id == db.student_grade.student_id) &
                      (db.grade.id == db.student_grade.grade_id) &
                      (db.grade.id == db.grade_standard.grade_id) &
                      (db.standard.id == db.grade_standard.standard_id) &
                      (db.classes.id == db.class_grade.class_id) &
                      (db.grade.id == db.class_grade.grade_id) &
                      (db.standard.content_area == db.contentarea.id))

    standard_list = db(standard_query).select(
        db.standard.id, db.standard.short_name, db.standard.reference_number,
        db.student_grade.student_score, db.grade.score, db.contentarea.name)
    standard_ref_list = []
    #Setup the Dictionary of standard averages
    standard_dict = {}
    standard_table = []
    standard_averages = [[]]
    for row in standard_list:
        if row.standard.id in standard_dict.keys():
            if ((row.grade.score != 0.0) |
                (row.student_grade.student_score != 0.0)):
                max_score = standard_dict[row.standard.id][0] + row.grade.score
                student_score = standard_dict[
                    row.standard.id][1] + row.student_grade.student_score
                standard_dict[row.standard.id] = [
                    max_score, student_score, row.standard.reference_number,
                    row.standard.short_name
                ]
        else:
            standard_dict[row.standard.id] = [
                row.grade.score, row.student_grade.student_score,
                row.standard.reference_number, row.standard.short_name
            ]

    i = 0
    #set up the 2D list of Standard Averages
    for standard in sorted(standard_dict.keys()):
        standard_ref_list.append(standard_dict[standard][2])
        standard_table.append([])
        current_avg = (standard_dict[standard][1] /
                       standard_dict[standard][0]) * 100
        if minimum > current_avg:
            minimum = current_avg
        #int/round was here
        standard_table[i].append(standard_dict[standard][3] + ": " + format(
            (standard_dict[standard][1] / standard_dict[standard][0]) *
            100, '.2f') + "%")
        #int/round was here
        standard_averages[0].append(
            (standard_dict[standard][1] / standard_dict[standard][0]) * 100)

        for grade in grade_standard_dict.keys():
            for standardId in grade_standard_dict[grade][1]:
                if (standardId == standard):
                    standard_table[i].append(
                        grade_standard_dict[grade][0] + ":" +
                        format((grade_student_dict[grade][1] /
                                grade_student_dict[grade][0]) * 100, '.2f') +
                        "%")
        i += 1
    sorted(standard_table, key=lambda l: l[0])
    '''---Graph---'''
    drawing = Drawing(600, 200)
    data = standard_averages
    bc = VerticalBarChart()

    #location in the document (x,y)
    bc.x = 10
    bc.y = 30

    #width and height of the graph
    bc.height = 225
    bc.width = 400
    bc.data = data
    bc.categoryAxis.drawGridLast = True
    bc.categoryAxis.gridStart = 0
    bc.categoryAxis.gridStrokeLineCap = 2
    bc.categoryAxis.gridEnd = 3
    #bc.barLabels =

    #Update colors of the bars in the graph
    bc.bars.symbol = ShadedRect()
    bc.bars.symbol.fillColorStart = colors.lightblue
    bc.bars.symbol.fillColorEnd = colors.lightblue
    bc.bars.symbol.strokeWidth = 0

    #this draws a line at the top of the graph to close it.
    bc.strokeColor = colors.black

    #Y-axis min, max, and steps.
    if minimum != 100:
        bc.valueAxis.valueMin = minimum - 10
    else:
        bc.valueAxis.valueMin = 50
    bc.valueAxis.valueMax = 100
    bc.valueAxis.valueStep = 5

    #where to anchor the origin of the graph
    bc.categoryAxis.labels.boxAnchor = 'ne'

    #Locations of labels for the X-axis
    bc.categoryAxis.labels.dx = 2
    bc.categoryAxis.labels.dy = -2

    bc.barLabels.nudge = -10
    bc.barLabelFormat = '%.2f%%'
    bc.barLabels.dx = 0
    bc.barLabels.dy = 0
    #The angle of the lables for the X-axis
    bc.categoryAxis.labels.angle = 30
    #List of the categories to place on the X-axis
    bc.categoryAxis.categoryNames = standard_ref_list
    drawing.add(bc)
    '''------'''
    '''--Graph Legend--'''
    #Graph Legend
    legend = Legend()
    legend.alignment = 'right'
    legend.x = 420
    legend.y = 150
    legend.deltax = 60
    legend.dxTextSpace = 10
    legend.columnMaximum = 4

    legend.colorNamePairs = [(colors.lightblue, 'grade average')]
    drawing.add(legend, 'legend')
    drawing_title = "Bar Graph"

    Story.append(drawing)
    Story.append(Spacer(1, 15))
    #LineGraph Title
    ptext = '<font size=15><b>Class Performance by Assignment</b></font>'
    Story.append(Paragraph(ptext, styles["title"]))
    Story.append(Spacer(1, 30))
    '''
    Line Plot Graph ------
    '''
    assignment_data_all = [[], []]
    for key in assignment_dict.keys():
        assignment_data_all[0].append(assignment_dict[key][2])
        assignment_data_all[1].append(assignment_dict[key][1])
    drawing2 = Drawing(600, 200)
    data2 = assignment_data_all
    #lp = LinePlot()

    #data[0] = preprocessData(data[0])
    lp = HorizontalLineChart()
    lp.x = -20
    lp.y = 0
    lp.height = 225
    lp.width = 500
    lp.data = data2
    lp.joinedLines = 1
    lp.lines.symbol = makeMarker('FilledCircle')
    lp.lines[0].strokeColor = colors.grey
    lp.lines[1].strokeColor = colors.lightblue
    lp.strokeColor = colors.black
    lp.categoryAxis.labels.fontSize = 7
    lp.categoryAxis.categoryNames = assignment_names
    lp.categoryAxis.labels.boxAnchor = 'ne'
    lp.categoryAxis.labels.angle = 30
    lp.categoryAxis.drawGridLast = True
    #lp.categoryAxis.gridStart=0
    lp.categoryAxis.gridStrokeLineCap = 2
    #lp.categoryAxis.gridEnd=3
    #lp.categoryAxis.visibleGrid           = 1
    lp.valueAxis.visibleGrid = 1
    lp.valueAxis.visible = 1
    lp.valueAxis.drawGridLast = False
    #lp.valueAxis.gridStart = 0
    #lp.valueAxis.gridEnd = 100
    lp.valueAxis.gridStrokeColor = colors.black
    lp.valueAxis.valueMin = 0
    lp.valueAxis.valueMax = 105
    lp.valueAxis.valueStep = 10
    lp.lineLabelFormat = '%2.0f'
    lp.strokeColor = colors.black
    lp.fillColor = colors.white
    drawing2.add(lp)

    legend = Legend()
    legend.alignment = 'right'
    legend.x = 482
    legend.y = 150
    legend.deltax = 60
    legend.dxTextSpace = 2
    legend.colorNamePairs = [(colors.lightblue, 'Student'),
                             (colors.grey, 'Class')]
    drawing2.add(legend, 'legend')

    Story.append(drawing2)
    Story.append(Spacer(1, 30))
    ptext = '<font size=15><b>Assignments by Standard</b></font>'
    Story.append(Paragraph(ptext, styles["title"]))
    Story.append(Spacer(1, 10))
    t = Table(standard_table)
    t.setStyle(
        t.setStyle(
            TableStyle([
                ('BOX', (0, 0), (-1, -1), 0.25, colors.black),
                ('FONTSIZE', (0, 0), (-1, -1), 7),
                ('BACKGROUND', (0, 0), (0, -1), colors.lightgrey),
                ('INNERGRID', (0, 0), (-1, -1), 0.25, colors.black),
            ])))
    Story.append(t)
    #build PDF document and return it
    doc.build(Story)
    pdf = buff.getvalue()
    buff.close()
    return pdf

Esempio n. 28

def sample1line(datastring="""
	1997 1998 1999 2000 2001 ,
	pink -10 11 40 22 30 ,
	blue 11 40 22 30 -10,
	cyan 40 22 30 -10 11
"""):
    # parse the data
    lines = datastring.split(",")
    titlestring = lines[0]
    titles = titlestring.split()
    data = []
    alldata = []
    linecolors = []
    for dataline in lines[1:]:
        sline = dataline.split()
        linecolor = sline[0]
        numbers = list(map(float, sline[1:]))
        linecolors.append(linecolor)
        data.append(numbers)
        alldata.extend(numbers)
    drawing = Drawing(400, 200)
    
    bc = HorizontalLineChart()
    bc.x = 25
    bc.y = 50
    bc.height = 125
    bc.width = 300
    bc.data = data

    bc.strokeColor = colors.black

    bc.valueAxis.valueMin = min(0, min(alldata)-5) #-10
    bc.valueAxis.valueMax = max(20, max(alldata)+5) #40
    bc.valueAxis.valueStep = 10
    bc.valueAxis.visibleGrid = 1
    bc.valueAxis.gridStrokeColor = colors.blue
    bc.valueAxis.gridStart = 0
    bc.valueAxis.gridEnd = 300
    bc.valueAxis.labelTextFormat ="%s%%"
    #bc.valueAxis.joinAxisPos = -10
    
    bc.categoryAxis.labels.boxAnchor = 'ne'
    bc.categoryAxis.labels.dx = 8
    bc.categoryAxis.labels.dy = -2
    bc.categoryAxis.labels.angle = 0
    bc.categoryAxis.joinAxis = bc.valueAxis
    bc.categoryAxis.joinAxisMode = "bottom"
    bc.categoryAxis.visibleGrid = 1
    
    #bc.lines[0].strokeColor = colors.pink
    #bc.lines[1].strokeColor = colors.lavender
    #bc.lines[2].strokeColor = colors.skyblue
    linenumber = 0
    for colorname in linecolors:
        bc.lines[linenumber].strokeColor = getattr(colors, colorname)
        bc.lines[linenumber].strokeWidth = 3
        linenumber = linenumber+1

    catNames = titles
    bc.categoryAxis.categoryNames = catNames
    drawing.add(bc)

    return drawing

Esempio n. 29

File: unicast_client_capacity.py Progetto: roytest001/PythonCode

        def _rawDraw(self, x, y):
            from reportlab.lib import colors 
            from reportlab.graphics.shapes import Drawing, Line, String, STATE_DEFAULTS
            from reportlab.graphics.charts.linecharts import HorizontalLineChart, Label
            from reportlab.graphics.charts.barcharts  import VerticalBarChart
            from reportlab.graphics.widgets.markers import makeMarker
            self._setScale([self.dataLine, self.dataBar])
            (x1, y1, Width, Height) = self._getGraphRegion(x, y)

            #Build the graph
            self.drawing = Drawing(self.width, self.height)

            #Size of the Axis
            SizeXaxis = 14
            SizeYaxis = 0.0
            for n in range(int(self.valueMax / self.valueStep) + 1):
                eachValue = self.valueMin + n * self.valueStep
                SizeYaxis = max(SizeYaxis, self._stringWidth(str("%.1f Mbps" % eachValue), STATE_DEFAULTS['fontName'], STATE_DEFAULTS['fontSize']) )
                
            # Bar chart of measured data
            bc = VerticalBarChart()
            SizeYaxis += bc.valueAxis.tickLeft
            bc.x = x1 - x + SizeYaxis
            bc.y = y1 - y + SizeXaxis
            bc.height = Height - SizeXaxis
            bc.width  = Width  - SizeYaxis
            self.graphCenterX = bc.x + bc.width/2
            self.graphCenterY = bc.y + bc.height/2
            if self.validData:
                # add valid data to chart
                bc.data = self.dataBar
                bc.categoryAxis.categoryNames = self.dataNames
                # add value labels above bars
                bc.barLabelFormat = "%.2f"
                bc.barLabels.dy = 0.08*inch
                bc.barLabels.fontSize = 6
            else:
                # add message informing user there is no valid data
                bc.data = [ (0, ), ]
                bc.categoryAxis.categoryNames = [ '' ]
                Nodata = Label()
                Nodata.fontSize = 12
                Nodata.angle = 0
                Nodata.boxAnchor = 'c'
                Nodata.dx = self.graphCenterX
                Nodata.dy = self.graphCenterY
                Nodata.setText("NO VALID DATA")
                self.drawing.add(Nodata)
            
            # veriwave colors
            (R,G,B) = VeriwaveYellow
            bc.bars[0].fillColor   = colors.Color(R,G,B)
            # set axis ranges
            bc.valueAxis.valueMin  = self.valueMin
            bc.valueAxis.valueMax  = self.valueMax
            bc.valueAxis.valueStep = self.valueStep
            bc.valueAxis.labelTextFormat = "%.1f Mbps"
            # set axis labels
            bc.categoryAxis.labels.boxAnchor = 'ne'
            bc.categoryAxis.labels.dx = 8
            bc.categoryAxis.labels.dy = -2
            bc.categoryAxis.labels.angle = 0
            # add bar chart
            self.drawing.add(bc)

            #Put the labels on the center of the graph
            self._drawLabels(self.title, "Frame Size", "")

            # Add Legend in upper left corner
            legendHeight  = 9 
            legendX = bc.x + 5
            legendY = bc.y + bc.height - 12
            self.drawing.add(Line(legendX, legendY + 3 , legendX + 20, legendY + 3, strokeColor=bc.bars[0].fillColor, strokeWidth=3 ))
            self.drawing.add(String(legendX + 22, legendY, 'Offered Load', fontName='Helvetica', fontSize=8))
            legendY -= legendHeight
            self.drawing.add(Line(legendX, legendY + 3 , legendX + 20, legendY + 3, strokeColor=bc.bars[1].fillColor, strokeWidth=3 ))
            self.drawing.add(String(legendX + 22, legendY, 'Forwarding Rate', fontName='Helvetica', fontSize=8))
            legendY -= legendHeight

            # theoretical line chart
            if self.validData and len(self.dataLine[0]) > 0:
                # if one datapoint, draw horizontal line across chart
                DashArray = [2,2]
                if len(self.dataLine[0]) == 1:
                    yPos = bc.height * (self.dataLine[0][0] - bc.valueAxis.valueMin) / (bc.valueAxis.valueMax - bc.valueAxis.valueMin)
                    self.drawing.add(Line(bc.x, bc.y + yPos, bc.x + bc.width, bc.y + yPos, strokeColor=colors.red, strokeWidth=1, strokeDashArray = DashArray))
                # theoretical line
                lc = HorizontalLineChart()    
                lc.x = bc.x
                lc.y = bc.y
                lc.height = bc.height
                lc.width  = bc.width
                # line axis values
                lc.valueAxis.valueMin  = self.valueMin
                lc.valueAxis.valueMax  = self.valueMax
                lc.valueAxis.valueStep = self.valueStep
                lc.valueAxis.visible   = False
                lc.data = self.dataLine
                # line formatting
                lc.lines[0].strokeColor = colors.red
                lc.lines[0].strokeDashArray = DashArray
                lc.lines[0].symbol = makeMarker('FilledDiamond')
                lc.joinedLines = 1
                self.drawing.add(lc)
                # add legend
                self.drawing.add(Line(legendX, legendY + 3, legendX + 20 , legendY + 3, strokeColor=colors.red, strokeWidth=1, strokeDashArray=DashArray))
                self.drawing.add(String(legendX + 22, legendY, 'Theory', fontName='Helvetica', fontSize=8))
                legendY -= legendHeight

Esempio n. 30

File: unicast_client_capacity.py Progetto: roytest001/PythonCode

        def _rawDraw(self, x, y):
            from reportlab.lib import colors 
            from reportlab.graphics.shapes import Drawing, Line, String, STATE_DEFAULTS
            from reportlab.graphics.charts.linecharts import HorizontalLineChart, Label
            from reportlab.graphics.charts.barcharts  import VerticalBarChart 

            self._setScale([self.dataLine, self.dataBar])
            (x1, y1, Width, Height) = self._getGraphRegion(x, y)
            self.drawing = Drawing(self.width, self.height)

            #Size of the Axis
            SizeXaxis = 14
            SizeYaxis = 0.0
            for n in range(int(self.valueMax / self.valueStep) + 1):
                eachValue = self.valueMin + n * self.valueStep
                SizeYaxis = max(SizeYaxis, self._stringWidth("%.3f%%" % (eachValue), STATE_DEFAULTS['fontName'], STATE_DEFAULTS['fontSize']) )

            bc = VerticalBarChart()
            SizeYaxis += bc.valueAxis.tickLeft
            bc.x = x1 - x + SizeYaxis
            bc.y = y1 - y + SizeXaxis
            bc.height = Height - SizeXaxis
            bc.width  = Width  - SizeYaxis
            self.graphCenterX = bc.x + bc.width/2
            self.graphCenterY = bc.y + bc.height/2
            if self.validData:
                # add valid data to chart
                bc.data = self.dataBar
                bc.categoryAxis.categoryNames = self.dataNames
                # add value labels above bars
                bc.barLabelFormat = "%.2f"
                bc.barLabels.dy = 0.08*inch
                bc.barLabels.fontSize = 6
            else:
                # no valid data
                bc.data = [ (0,), ]
                bc.categoryAxis.categoryNames = [ '' ]
                Nodata = Label()
                Nodata.fontSize = 12
                Nodata.angle = 0
                Nodata.boxAnchor = 'c'
                Nodata.dx = self.graphCenterX
                Nodata.dy = self.graphCenterY
                Nodata.setText("NO VALID DATA")
                self.drawing.add(Nodata)
                
            # format chart
            (R,G,B) = VeriwaveYellow
            bc.bars[0].fillColor   = colors.Color(R,G,B)
            # axis values
            bc.valueAxis.valueMin  = self.valueMin
            bc.valueAxis.valueMax  = self.valueMax
            bc.valueAxis.valueStep = self.valueStep
            # axis formatting
            if self.valueStep >= 10.0:
                bc.valueAxis.labelTextFormat = "%.0f%%"
            elif self.valueStep >= 1.0:
                bc.valueAxis.labelTextFormat = "%.1f%%"
            elif self.valueStep >= 0.1:
                bc.valueAxis.labelTextFormat = "%.2f%%"
            else:
                bc.valueAxis.labelTextFormat = "%.3f%%"
            bc.categoryAxis.labels.boxAnchor = 'ne'
            bc.categoryAxis.labels.dx = 8
            bc.categoryAxis.labels.dy = -2
            bc.categoryAxis.labels.angle = 0

            self._drawLabels(self.title, "Frame Size", "Percent Loss")

            # What if all loss is Zero
            if self.valueMin == 0.0 and self.valueMax == self.valueStep and self.validData:
                bc.valueAxis.labelTextFormat = "%.3f%%"
                Label_Zero = Label()
                Label_Zero.fontSize = 12
                Label_Zero.angle = 0
                Label_Zero.dx = self.graphCenterX
                Label_Zero.dy = self.graphCenterY
                Label_Zero.boxAnchor = 'c'
                Label_Zero.setText("ALL DATA IS ZERO")
                self.drawing.add(Label_Zero)
            self.drawing.add(bc)
            # Add Legend in upper right corner
            legendHeight  = 9 
            legendX = bc.x + 5
            legendY = bc.y + bc.height - 12

            if len(self.dataLine) > 0 and self.validData:
                # if one datapoint, draw horizontal line across chart
                DashArray = [2,2]
                if len(self.dataLine[0]) == 1:
                    yPos = bc.height * (self.dataLine[0][0] - bc.valueAxis.valueMin) / (bc.valueAxis.valueMax - bc.valueAxis.valueMin)
                    self.drawing.add(Line(bc.x, bc.y + yPos, bc.x + bc.width, bc.y + yPos, strokeColor=colors.red, strokeWidth=1, strokeDashArray = DashArray))
                # theoretical line                           
                lc = HorizontalLineChart()    
                lc.x = bc.x
                lc.y = bc.y
                lc.height = bc.height
                lc.width  = bc.width
                # axis values
                lc.valueAxis.valueMin  = self.valueMin
                lc.valueAxis.valueMax  = self.valueMax
                lc.valueAxis.valueStep = self.valueStep
                lc.valueAxis.visible   = False
                lc.data = self.dataLine
                # dashed line with diamond markers
                lc.lines[0].strokeDashArray = [2,2]
                lc.lines[0].symbol = makeMarker('FilledDiamond')
                lc.joinedLines = 1
                self.drawing.add(lc)
                self.drawing.add(Line(legendX, legendY + 3, legendX + 20 , legendY + 3, strokeColor=lc.lines[0].strokeColor, strokeWidth=1, strokeDashArray = lc.lines[0].strokeDashArray))
                self.drawing.add(String(legendX + 22, legendY, 'Theory', fontName='Helvetica', fontSize=8))
                legendY -= legendHeight

Esempio n. 31

File: backup.py Progetto: veeruravi/pdf-generator

def generate_certificate(elements):
    styles = ParagraphStyle(
        name='Normal',
        fontName='Helvetica-Bold',
        fontSize=15,
        alignment=1,
    )
    elements.append(Spacer(1, 0.5 * inch))
    i = Paragraph(str("candidate performance vs average performance"), styles)
    elements.append(i)
    elements.append(Spacer(1, 0.1 * inch))
    drawing = Drawing(0, 200)  # for indices
    data = [
        (13, 5, 20, 22, 37, 45, 19, 4),
        (14, 6, 21, 23, 38, 46, 20, 5)
    ]  # data for drawing bar graphs
    bc = VerticalBarChart()
    bc.x = 0  # x,y define the left bottom of graph
    bc.y = 0
    bc.height = 150
    bc.width = 300
    bc.data = data
    bc.strokeColor = colors.black
    bc.valueAxis.valueMin = 0
    bc.valueAxis.valueMax = 50
    bc.valueAxis.valueStep = 10
    bc.categoryAxis.labels.boxAnchor = 'ne'
    bc.categoryAxis.labels.dx = 6  # next 3 lines is for naming indices
    bc.categoryAxis.labels.dy = -2
    bc.categoryAxis.labels.angle = 60
    bc.categoryAxis.categoryNames = ['Jan-99', 'Feb-99', 'Mar-99',
                                     'Apr-99', 'May-99', 'Jun-99', 'Jul-99', 'Aug-99']
    drawing.add(bc)
    elements.append(drawing)
    elements.append(Spacer(1, 0.5 * inch))
    drawing = Drawing(0, 175)  # for indices
    lc = HorizontalLineChart()
    lc.x = 0
    lc.y = 10
    lc.height = 150
    lc.width = 300
    lc.data = data
    lc.joinedLines = 1
    catnames = 'Jan Feb Mar Apr May Jun Jul Aug'.split(' ')
    lc.categoryAxis.categoryNames = catnames
    lc.categoryAxis.labels.boxAnchor = 'n'
    lc.valueAxis.valueMin = 0
    lc.valueAxis.valueMax = 60
    lc.valueAxis.valueStep = 15
    lc.lines[0].strokeWidth = 2
    lc.lines[1].strokeWidth = 1.5
    drawing.add(lc)
    elements.append(drawing)
    drawing = Drawing(0, 400)  # for indices
    data = [
        ((1, 1), (2, 2), (2.5, 1), (3, 3), (4, 5)),
        ((1, 2), (2, 3), (2.5, 2), (3.5, 5), (4, 6))
    ]
    elements.append(Spacer(1, 0.1 * inch))
    i = Paragraph(str("candidate performance vs average performance"), styles)
    elements.append(i)
    elements.append(Spacer(1, 0.1 * inch))
    lp = LinePlot()
    lp.x = 0
    lp.y = 50
    lp.height = 300
    lp.width = 600
    lp.data = data
    lp.joinedLines = 1
    lp.lines[0].symbol = makeMarker('FilledCircle')
    lp.lines[1].symbol = makeMarker('Circle')
    lp.lineLabelFormat = '%2.0f'
    lp.strokeColor = colors.black
    lp.xValueAxis.valueMin = 0
    lp.xValueAxis.valueMax = 5
    lp.xValueAxis.valueSteps = [1, 2, 2.5, 3, 4, 5]
    lp.xValueAxis.labelTextFormat = '%2.1f'
    lp.yValueAxis.valueMin = 0
    lp.yValueAxis.valueMax = 7
    lp.yValueAxis.valueSteps = [1, 2, 3, 5, 6]
    drawing.add(lp)
    elements.append(drawing)
    elements.append(Spacer(1, 0.1 * inch))
    drawing = Drawing(100, 350)
    pc = Pie()
    pc.x = 65
    pc.y = 15
    pc.width = 300
    pc.height = 300
    pc.data = [10, 20, 30, 40, 50, 60]
    pc.labels = ['a', 'b', 'c', 'd', 'e', 'f']
    pc.slices.strokeWidth = 0.5
    pc.slices[3].popout = 10
    pc.slices[3].strokeWidth = 2
    pc.slices[3].strokeDashArray = [2, 2]
    pc.slices[3].labelRadius = 1.75
    pc.slices[3].fontColor = colors.red
    drawing.add(pc)
    elements.append(drawing)
    elements.append(Spacer(1, 0.7 * inch))
    styles = ParagraphStyle(
        name='Normal',
        fontName='Helvetica',
        fontSize=15,
        alignment=0,
    )
    elements.append(Spacer(1, 0.5* inch))
    i = Paragraph(str("Please click on black square to play the video."), styles)
    elements.append(i)
    
    elements.append(platypus.flowables.Macro('canvas.saveState()'))
    elements.append(platypus.flowables.Macro('canvas.linkURL("fun.mp4",(400,510,410,500),relative=0,thickness=10)'))
    elements.append(platypus.flowables.Macro('canvas.restoreState()'))
    return elements

Esempio n. 32

File: graph_charts.py Progetto: plttlp/reportlab-ecomobile

lc.lines[1].strokeWidth = 1.5
drawing.add(lc)
""")

from reportlab.graphics.charts.linecharts import HorizontalLineChart

drawing = Drawing(400, 200)

data = [
    (13, 5, 20, 22, 37, 45, 19, 4),
    (5, 20, 46, 38, 23, 21, 6, 14)
]

lc = HorizontalLineChart()
lc.x = 50
lc.y = 50
lc.height = 125
lc.width = 300
lc.data = data
lc.joinedLines = 1
catNames = string.split('Jan Feb Mar Apr May Jun Jul Aug', ' ')
lc.categoryAxis.categoryNames = catNames
lc.categoryAxis.labels.boxAnchor = 'n'
lc.valueAxis.valueMin = 0
lc.valueAxis.valueMax = 60
lc.valueAxis.valueStep = 15
lc.lines[0].strokeWidth = 2
lc.lines[1].strokeWidth = 1.5
drawing.add(lc)

draw(drawing, 'HorizontalLineChart sample')

Esempio n. 33

File: printing.py Progetto: adrian-zumbler/sensait_django

    def print_sensor_data(self, report_instance):
        buffer = self.buffer
        doc = SimpleDocTemplate(buffer,
                                rightMargin=50,
                                leftMargin=50,
                                topMargin=20,
                                bottomMargin=50,
                                pagesize=self.pagesize)

        # A large collection of style sheets pre-made for us
        styles = getSampleStyleSheet()
        styles.add(ParagraphStyle(name='centered', alignment=TA_CENTER))

        style_Normal = styles["Normal"]
        style_Normal.textColor = colors.black

        style_Alerta = styles["Normal"]
        style_Alerta.textColor = colors.black

        style_Title = styles["Heading1"]
        style_Title.alignment = TA_LEFT

        style_Title_Center = styles["Heading1"]
        style_Title_Center.alignment = TA_CENTER

        # Our container for 'Flowable' objects
        elements = []

        # Saltos de linea
        saltosDeLineax1 = Paragraph("<br/>", style_Title)
        saltosDeLineax2 = Paragraph("<br/><br/>", style_Title)
        saltosDeLineax3 = Paragraph("<br/><br/><br/>", style_Title)

        # ps = ParagraphStyle('title', fontSize=20, leading=24)
        #  p1 = "here is some paragraph to see in large font"
        # Paragraph(p1, ps),

        # Tabla con reporte de incidencias y LOGOS.
        titulo_data = []
        titulo_table = []
        logo_cliente = Paragraph(
            '' + report_instance.sensor.arduino.project.enterprise.name,
            style_Normal)
        titulo_ciente = Paragraph(
            'Reporte de incidencias<br/>Sensor ' +
            report_instance.sensor.description, style_Title_Center)

        img_sensait = Image("arduino/static/sensait/logos/Sensait_logo.png")
        img_sensait.drawHeight = 8 * mm
        img_sensait.drawWidth = 20 * mm

        titulo_data.append((logo_cliente, titulo_ciente, img_sensait))

        titulo_table = Table(titulo_data,
                             colWidths=(50 * mm, 100 * mm, 50 * mm))
        titulo_table.setStyle(
            TableStyle([('INNERGRID', (0, 0), (-1, -1), 0.25, colors.white),
                        ('BOX', (0, 0), (-1, -1), 0.25, colors.white)]))
        elements.append(titulo_table)

        elements.append(saltosDeLineax2)

        resumen_data = []
        resumen_table = []

        resumen_laboratorio = Paragraph(
            '<b>Laboratorio:</b><br/>' +
            report_instance.sensor.arduino.project.name, style_Normal)
        resumen_equipo = Paragraph(
            '<b>Equipo:</b><br/>' + report_instance.sensor.arduino.name,
            style_Normal)
        resumen_serie = Paragraph(
            '<b>Modelo:</b><br/>' +
            report_instance.sensor.arduino.modelo_transmisor, style_Normal)

        resumen_data.append(
            (resumen_laboratorio, resumen_equipo, resumen_serie))

        resumen_periodo = Paragraph(
            '<b>Periodo:</b><br/>' + datetime.fromtimestamp(
                report_instance.fecha_inicial).strftime('%d/%m/%Y %H:%M:%S') +
            " al <br/>" + datetime.fromtimestamp(
                report_instance.fecha_final).strftime('%d/%m/%Y %H:%M:%S'),
            style_Normal)

        # Cantidad de Dias del reporte seleccionado.
        difEpochDias = (report_instance.fecha_final -
                        report_instance.fecha_inicial) / 86400
        periodoReporte = "Dia"

        if difEpochDias == 30:
            periodoReporte = "Mensual"
        elif difEpochDias == 15 or difEpochDias == 14:
            periodoReporte = "Quincenal"
        elif difEpochDias == 7 or difEpochDias == 6:
            periodoReporte = "Semanal"
        elif difEpochDias != 1:
            periodoReporte = str(difEpochDias) + " dias"
        else:
            periodoReporte = str(difEpochDias) + " Dia"

        resumen_rangodias = Paragraph(
            '<b>Periodo Generado:</b><br/>' + str(periodoReporte),
            style_Normal)
        resumen_void = Paragraph(" ", style_Normal)

        resumen_data.append((resumen_periodo, resumen_rangodias, resumen_void))

        # resumen_proyecto = Paragraph('<b>Proyecto:</b><br/>' + report_instance.sensor.arduino.project.name, style_Normal)
        # resumen_transmisor = Paragraph('<b>Transmisor:</b><br/>' + report_instance.sensor.arduino.name, style_Normal)
        # resumen_void = Paragraph(" ", style_Normal)

        # resumen_data.append((resumen_proyecto, resumen_transmisor, resumen_void))

        resumen_sensor = Paragraph(
            '<b>Sensor:</b><br/>' + report_instance.sensor.description,
            style_Normal)
        resumen_valmin = Paragraph(
            '<b>Valor Minimo:</b><br/>' +
            "%.2f" % report_instance.sensor.min_value, style_Normal)
        resumen_valmax = Paragraph(
            '<b>Valor Maximo:</b><br/>' +
            "%.2f" % report_instance.sensor.max_value, style_Normal)

        resumen_data.append((resumen_sensor, resumen_valmin, resumen_valmax))

        # VALORES MINIMOS Y MAXIMOS CALCULO.
        min_value = report_instance.sensor.min_value
        max_value = report_instance.sensor.max_value

        totalAlertas = 0
        promedioRegistros = 0.0
        totalRegistros = 0

        valmax = 0
        valmin = 0

        # Tabla de ejemplo
        main_table = []
        dataTable_L = []
        dataTable_R = []
        table_data = []

        all_alerts = []
        alert_list = []

        dataTable_L.append(
            ("Fecha y Hora", "Lectura", "Estado", "Numero incidencia"))
        sensorStatus = "Correcto"

        for num, data in enumerate(report_instance.sensor_data(), start=0):
            if str(data.data) != str("-127.00"):
                totalRegistros = num
                promedioRegistros += float(data.data)
                if num == 0:
                    valmin = float(data.data)
                if float(data.data) > float(max_value) or float(
                        min_value) > float(data.data):
                    sensorStatus = "Fuera de Rango"
                    alert_list.append(data)
                    totalAlertas += 1
                else:
                    sensorStatus = "Correcto"
                    if len(alert_list) > 0:
                        # print "New List " + str(len(all_alerts))
                        all_alerts.append(list(alert_list))
                        alert_list = []

                if float(data.data) > float(valmax):
                    valmax = float(data.data)
                if float(valmin) > float(data.data):
                    valmin = float(data.data)

                if len(alert_list) > 0:
                    alerta_code = "Alerta # " + str(len(all_alerts))
                else:
                    alerta_code = " "

                dataTable_L.append((datetime.fromtimestamp(
                    data.epoch).strftime('%d/%m/%Y %H:%M:%S'), data.data,
                                    sensorStatus, alerta_code))

        table_L = Table(dataTable_L, colWidths=[(doc.width) / 4.0] * 4)
        table_L.setStyle(
            TableStyle([('INNERGRID', (0, 0), (-1, -1), 0.25, colors.black),
                        ('BOX', (0, 0), (-1, -1), 0.25, colors.black)]))

        print promedioRegistros
        print totalRegistros
        if float(promedioRegistros) == 0 and float(promedioRegistros) == 0:
            val_promedio = 0
        else:
            val_promedio = float(promedioRegistros) / float(totalRegistros)

        resumen_promedio = Paragraph(
            '<b>Temperatura Promedio:</b><br/>' + "%.2f" % val_promedio,
            style_Normal)
        resumen_minima = Paragraph(
            '<b>Temperatura Minimo Registrada:</b><br/>' + "%.2f" % valmin,
            style_Normal)
        resumen_maxima = Paragraph(
            '<b>Temperatura Maxima Registrada:</b><br/>' + "%.2f" % valmax,
            style_Normal)

        resumen_data.append((resumen_promedio, resumen_minima, resumen_maxima))

        resumen_totalregistros = Paragraph(
            '<b>Total de Registros:</b><br/>' + "%.2f" % totalRegistros,
            style_Normal)
        resumen_totalfuera = Paragraph(
            '<b>Resumen Registros:</b><br/>' + "X %.2f" % totalAlertas +
            "<br/> + %.2f" % (totalRegistros - totalAlertas), style_Normal)
        resumen_alertasregistradas = Paragraph(
            '<b>Total alertas registradas:</b><br/>' + str(len(all_alerts)),
            style_Normal)
        resumen_void = Paragraph(" ", style_Normal)

        resumen_data.append((resumen_totalregistros, resumen_totalfuera,
                             resumen_alertasregistradas))

        resumen_table = Table(resumen_data,
                              colWidths=[(doc.width) / 3.0] * 3,
                              rowHeights=(16 * mm))
        resumen_table.setStyle(
            TableStyle([('INNERGRID', (0, 0), (-1, -1), 0.25, colors.white),
                        ('BOX', (0, 0), (-1, -1), 0.25, colors.white),
                        ('VALIGN', (0, 0), (-1, -1), 'TOP')]))
        elements.append(resumen_table)

        # Informacion del reporte digamos LEGAL.
        # elements.append(Paragraph('La informacion que se despliega a continuacion son propiedad de la empresa que contrata el servicio de SENSAIT. La informacion que se despliega a continuacion son propiedad de la empresa que contrata el servicio de SENSAIT. ', styles['Normal']))

        elements.append(saltosDeLineax3)

        valores_Correctos = int(totalRegistros - totalAlertas)
        drawing = Drawing(400, 200)
        data = [(valores_Correctos, int(totalAlertas))]
        bc = VerticalBarChart()
        bc.x = 50
        bc.y = 50
        bc.height = 200
        bc.width = 400
        bc.data = data
        bc.barSpacing = 2.5
        bc.barWidth = 5
        bc.strokeColor = colors.black
        bc.valueAxis.valueMin = 0
        bc.valueAxis.valueMax = int(totalRegistros)
        bc.valueAxis.valueStep = 50
        bc.categoryAxis.labels.boxAnchor = 'ne'
        bc.categoryAxis.labels.dx = 8
        bc.categoryAxis.labels.dy = -2
        # bc.categoryAxis.labels.angle = 30
        bc.categoryAxis.categoryNames = [
            'Correctos = ' + str(valores_Correctos),
            'Fuera de Rango = ' + str(totalAlertas)
        ]
        bc.bars[(0, 0)].fillColor = colors.green
        bc.bars[(0, 1)].fillColor = colors.red
        drawing.add(bc)
        elements.append(drawing)

        elements.append(
            Paragraph(
                'Responsable ' +
                report_instance.sensor.arduino.project.nombre_encargado,
                style_Title))

        elements.append(PageBreak())

        # table_R = Table(dataTable_R, colWidths=[(doc.width) / 3.0] * 3)
        # table_R.setStyle(TableStyle([('INNERGRID', (0, 0), (-1, -1), 0.25, colors.black), ('BOX', (0, 0), (-1, -1), 0.25, colors.black)]))

        # dataTable_Main = [table_L]  table_R
        # table_Main = Table(table_L, colWidths=[doc.width])
        # table_Main.setStyle(TableStyle([('INNERGRID', (0, 0), (-1, -1), 0.25, colors.red), ('BOX', (0, 0), (-1, -1), 0.25, colors.red)]))

        # Tabla con todos los registros...
        elements.append(
            Paragraph(
                str(len(all_alerts)) + ' ALERTAS REGISTRADAS',
                style_Title_Center))

        # Tablas POR ALERTA...
        alert_data_tables = []
        alerts_tables = []
        alert_content = []

        alerts_onedata_data = []
        alerts_onedata_table = []
        # print "all_alerts.len()"
        # print len(all_alerts)

        alerts_onedata_data.append(
            ("Fecha Alerta", "# Registros en alerta ", "Valor"))
        alert_max_value = float(report_instance.sensor.max_value)
        alert_min_value = float(report_instance.sensor.min_value)

        for num, alertlist in enumerate(all_alerts, start=0):
            print str(len(alertlist))
            # Esto genera la tabla para un rango de registros NO LO QUITARE jeje
            if len(alertlist) > 200:
                one_fecha = str(
                    datetime.fromtimestamp(
                        alertlist[len(alertlist) -
                                  1].epoch).strftime('%d/%m/%Y %H:%M:%S'))
                one_registros = len(alertlist)
                one_value = str(alertlist[len(alertlist) - 1].data)
                alerts_onedata_data.append(
                    (one_fecha, one_registros, one_value))
                # alerts_onedata_data.append( alertlist[num] , drawing))
            else:
                titulo = Paragraph('<b>Alerta # ' + str(num) + ' </b>',
                                   style_Normal)

                alert_data_tables = []
                alert_content = []
                alert_graph = []
                alert_limit = []
                alert_graph_dates = []

                alerta_primer_registro = Paragraph(
                    '<b>Fecha inicio alerta:</b><br/>' + str(
                        datetime.fromtimestamp(alertlist[0].epoch).strftime(
                            '%d/%m/%Y %H:%M:%S') + "<br/><br/>"), style_Normal)
                alerta_ultima_registro = Paragraph(
                    '<b>Fecha final alerta:</b><br/>' + str(
                        datetime.fromtimestamp(alertlist[len(alertlist) -
                                                         1].epoch).
                        strftime('%d/%m/%Y %H:%M:%S') + "<br/><br/>"),
                    style_Normal)
                tiempoAlerta = alertlist[0].epoch - alertlist[len(alertlist) -
                                                              1].epoch

                print "difEpoch: " + str(alertlist[len(alertlist) - 1].epoch)
                print "difEpochR: " + str(tiempoAlerta)
                print "difEpoch: " + str(alertlist[0].epoch)

                alerta_duracion = Paragraph(
                    '<b>Duracion alerta:</b><br/>' + str(
                        datetime.fromtimestamp(tiempoAlerta).strftime('%M:%S')
                        + "<br/><br/>"), style_Normal)
                alerta_total_registros = Paragraph(
                    '<b>Registros fuera de rango:</b><br/>' +
                    str(len(alertlist)) + "<br/><br/>", style_Normal)
                rango_maximo = Paragraph(
                    '<b>Valor Maximo:</b><br/>' +
                    "%.2f" % report_instance.sensor.max_value + "<br/><br/>",
                    style_Normal)
                rango_minimo = Paragraph(
                    '<b>Valor Maximo:</b><br/>' +
                    "%.2f" % report_instance.sensor.min_value + "<br/><br/>",
                    style_Normal)
                alerta_comentarios = Paragraph(
                    "<b>Comentarios:</b><br/>__________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________<br/>",
                    style_Normal)
                alerta_accioncorrectiva = Paragraph(
                    "<b>Accion correctiva:</b><br/>__________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________<br/>",
                    style_Normal)

                alerta_data = []
                alerta_table = []

                alerta_data.append((titulo, " "))
                alerta_data.append(
                    (alerta_primer_registro, alerta_ultima_registro))
                alerta_data.append((alerta_duracion, alerta_total_registros))
                alerta_data.append((rango_maximo, rango_minimo))
                alerta_data.append((" ", saltosDeLineax2))
                # alerta_data.append((alerta_comentarios))

                alerta_table = Table(alerta_data, colWidths=(50 * mm, 50 * mm))
                alerta_table.setStyle(
                    TableStyle([
                        ('INNERGRID', (0, 0), (-1, -1), 0.25, colors.white),
                        ('BOX', (0, 0), (-1, -1), 0.25, colors.white)
                    ]))

                # alert_content.append(alerta_primer_registro)
                # alert_content.append(alerta_ultima_registro)
                # alert_content.append(alerta_duracion)
                # alert_content.append(alerta_total_registros)
                # alert_content.append(rango_maximo)
                # alert_content.append(rango_minimo)
                # alert_content.append(alerta_comentarios)
                # alert_content.append(saltosDeLineax2)
                valMax = 0
                valMin = 0
                valTmp = 0

                for ids, alert in enumerate(alertlist, start=0):
                    # print alert.data
                    # datos = Paragraph(str(alert.data), style_Normal)
                    valTmp = float(alert.data)
                    # print "tmp: " + str(valTmp)
                    # print "max: " + str(valMax)
                    # print "min: " + str(valMin)
                    if float(valTmp >= 0):
                        if float(valTmp) > float(valMax):
                            valMax = valTmp
                            if valMin == 0:
                                valMin = float(valTmp)

                        if float(valMin) > float(valTmp):
                            valMin = float(valTmp)

                    else:
                        if float(valTmp) < float(valMax):
                            valMax = valTmp
                            if valMin == 0:
                                valMin = float(valTmp)

                        if float(valTmp) > float(valMin):
                            valMin = float(valTmp)

                    valueData = float(alert.data)

                    alert_graph.append(valueData)
                    alert_limit.append(alert_max_value)
                    alert_graph_dates.append(
                        str(
                            datetime.fromtimestamp(
                                alert.epoch).strftime('%H:%M:%S')))
                # END FOR
                print "tmp: " + str(valTmp)
                print "max: " + str(valMax)
                print "min: " + str(valMin)

                # CALCULAR BIEN LOS LIMITES DE LA GRAFICA
                if float(valMin) >= 0:
                    lim_min = float(valMin - 1)

                elif float(valMax) >= 0:
                    lim_max = float(valMax + 2)

                elif float(valMax) < 0:
                    lim_max = float(valMax - 2)

                elif float(valMin) < 0:
                    lim_min = float(valMin - 1)
                # END CALCULAR LIMITES

                lim_min = valMin
                lim_max = valMax

                print "lim_min: " + str(lim_min)
                print "lim_max: " + str(lim_max)

                drawing = Drawing(200, 220)
                data = [alert_graph, alert_limit]
                lc = HorizontalLineChart()
                lc.x = 10
                lc.y = 30
                lc.height = 150
                lc.width = 220
                lc.data = data
                # lc.strokeColor = colors.black
                catNames = alert_graph_dates
                lc.categoryAxis.categoryNames = catNames
                lc.categoryAxis.labels.dx = 0
                lc.categoryAxis.labels.dy = -15
                lc.categoryAxis.labels.angle = 75
                lc.categoryAxis.labels.boxAnchor = 'n'
                lc.joinedLines = 1
                lc.lines[0].symbol = makeMarker('FilledCircle')
                # lc.lineLabelFormat = '%2.0f'
                # lc.strokeColor = colors.black
                lc.valueAxis.valueMin = lim_min
                lc.valueAxis.valueMax = lim_max
                lc.valueAxis.valueStep = 1
                lc.lines[0].strokeWidth = 2
                # lc.lines[1].strokeWidth = 1.5
                drawing.add(lc)

                # print "endFor"

                alert_data_tables.append((drawing, alerta_table))
                alert_data_tables.append(
                    (alerta_comentarios, alerta_accioncorrectiva))

                alerts_tables = Table(alert_data_tables,
                                      colWidths=[(doc.width) / 2.0] * 2)
                alerts_tables.setStyle(
                    TableStyle([
                        ('INNERGRID', (0, 0), (-1, -1), 0.25, colors.white),
                        ('BOX', (0, 0), (-1, -1), 0.25, colors.white)
                    ]))
                elements.append(alerts_tables)

                # elements.append(PageBreak())

        if len(alerts_onedata_data) > 1:

            elements.append(
                Paragraph('ALERTAS CON 5 REGISTROS O MENOS',
                          style_Title_Center))
            elements.append(saltosDeLineax1)
            alerts_onedata_table = Table(alerts_onedata_data,
                                         colWidths=[(doc.width) / 3.0] * 3)
            alerts_onedata_table.setStyle(
                TableStyle([('INNERGRID', (0, 0), (-1, -1), 0.25,
                             colors.black),
                            ('BOX', (0, 0), (-1, -1), 0.25, colors.black)]))
            elements.append(alerts_onedata_table)
            # elements.append(PageBreak())

        elements.append(PageBreak())
        elements.append(Paragraph('DETALLE DE REGISTROS', style_Title_Center))
        elements.append(table_L)
        # elements.append(table_R)

        # Se agrega el llamado del header y footer
        doc.build(elements,
                  onFirstPage=self._header_footer,
                  onLaterPages=self._header_footer,
                  canvasmaker=NumberedCanvas)

Esempio n. 34

File: views.py Progetto: MiguelFernandezz/is2-2015

def tiempo_proyecto_grafica(request,id):
    proyecto=get_object_or_404(Proyecto,pk=id) 
    timelines=TimeLine.objects.filter(userstory__proyecto=proyecto).order_by('fecha')
    listaDatos = omitirRepetidos(timelines)
    userstories = UserStory.objects.filter(proyecto=proyecto,estado_sprint="B")
    response = HttpResponse(content_type='application/pdf')
    response['Content-Disposition'] = 'filename="informe.pdf"'
    p = canvas.Canvas(response)
    p.drawString(200, 800, proyecto.nombre)
    p.drawString(50, 780, "Tiempo estimado del proyecto: "+str(proyecto.total_horas()))
    p.drawString(350, 780, "Tiempo trabajo en el proyecto"+str(proyecto.total_horas()-proyecto.horas_faltantes()))
    p.drawString(50,760, "Grafico: horas restantes en funcion a dias")
    
    
    if listaDatos == []:
        p.showPage()
        p.save()
        return response
    
    
    '''GRAFICO 1'''
    drawing = Drawing(600, 300)
    
    datos = []
    cat= []
    for l in listaDatos:
        datos.append(l.horas_restantes_proyecto)
        cat.append(l.fecha.strftime('%m/%d/%Y'))
    data = [datos]
    
    lc = HorizontalLineChart()
    lc.x = 50
    lc.y = 50
    lc.height = 200
    lc.width = 400
    lc.data = data
    lc.joinedLines = 1
    lc.categoryAxis.categoryNames = cat
    lc.categoryAxis.labels.boxAnchor = 'n'
    lc.valueAxis.valueMin = 0
    lc.valueAxis.valueMax = proyecto.total_horas()
    lc.valueAxis.valueStep = 5
    lc.lines[0].strokeWidth = 2
    lc.lines[1].strokeWidth = 1.5
    drawing.add(lc)
    renderPDF.draw(drawing, p, 50, 500)
    '''GRAFICO 2'''
    p.drawString(50,480, "Grafico: horas trabajadas en funcion a dias")
    drawing = Drawing(600, 300)
    
    datos = []
    cat= []
    for l in listaDatos:
        datos.append(l.horas)
        cat.append(l.fecha.strftime('%m/%d/%Y'))
    data = [datos]
    
    lc = HorizontalLineChart()
    lc.x = 50
    lc.y = 50
    lc.height = 200
    lc.width = 400
    lc.data = data
    lc.joinedLines = 1
    lc.categoryAxis.categoryNames = cat
    lc.categoryAxis.labels.boxAnchor = 'n'
    lc.valueAxis.valueMin = 0
    lc.valueAxis.valueMax = proyecto.total_horas()/2
    lc.valueAxis.valueStep = 2
    lc.lines[0].strokeWidth = 2
    lc.lines[1].strokeWidth = 1.5
    drawing.add(lc)
    renderPDF.draw(drawing, p, 50, 200)
    
    
    p.showPage()
    p.save()
    return response