Esempio n. 1
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 def rimward_sector(self, pdf, name):
     cursor = PDFCursor(306, 767, True)
     def_font = pdf.get_font()
     pdf.set_font('times', size=10)
     cursor.x_plus(-pdf.get_font()._string_width(name) / 2)
     pdf.add_text(name, cursor)
     pdf.set_font(font=def_font)
Esempio n. 2
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 def rimward_sector(self, pdf, name):
     cursor = PDFCursor(306, 767, True)
     def_font = pdf.get_font()
     pdf.set_font('times', size=10)
     cursor.x_plus(-pdf.get_font()._string_width(name) / 2)
     pdf.add_text(name, cursor)
     pdf.set_font(font=def_font)
Esempio n. 3
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def TestCursor():
    cursor1 = PDFCursor(20, 30)
    cursor2 = PDFCursor(22, 50)

    #print "Should be True:", cursor1 < cursor2
    print "Should be False: ", cursor1 > cursor2
    print "Should be False: ", cursor1 == cursor2
Esempio n. 4
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 def coreward_sector(self, pdf, name):
     cursor = PDFCursor(5, self.y_start - 15, True)
     def_font = pdf.get_font()
     pdf.set_font('times', size=10)
     width = pdf.get_font()._string_width(name) / 2
     cursor.x = 306 - width
     pdf.add_text(name, cursor)
     pdf.set_font(font=def_font)
Esempio n. 5
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 def coreward_sector(self, pdf, name):
     cursor = PDFCursor(5, self.y_start - 15, True)
     def_font = pdf.get_font()
     pdf.set_font('times', size=10)
     width = pdf.get_font()._string_width(name) / 2
     cursor.x = 306 - width
     pdf.add_text(name, cursor)
     pdf.set_font(font=def_font)
Esempio n. 6
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 def sector_name(self, pdf, name):
     cursor = PDFCursor(5, -5, True)
     def_font = pdf.get_font()
     pdf.set_font('times', size=30)
     width = pdf.get_font()._string_width(name)
     cursor.x = 306 - (width / 2)
     pdf.add_text(name, cursor)
     pdf.set_font(font=def_font)
Esempio n. 7
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 def sector_name(self, pdf, name):
     cursor = PDFCursor(5, -5, True)
     def_font = pdf.get_font()
     pdf.set_font('times', size=30)
     width = pdf.get_font()._string_width(name)
     cursor.x = 306 - (width / 2)
     pdf.add_text(name, cursor)
     pdf.set_font(font=def_font)
Esempio n. 8
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 def trailing_sector(self, pdf, name):
     cursor = PDFCursor(598, 396 - self.y_start, True)
     def_font = pdf.get_font()
     pdf.set_font('times', size=10)
     cursor.y_plus(-(pdf.get_font()._string_width(name) / 2))
     text = PDFText(pdf.session, pdf.page, None, cursor=cursor)
     text.text_rotate(-90)
     text._text(name)
     pdf.set_font(font=def_font)
Esempio n. 9
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 def spinward_sector(self, pdf, name):
     cursor = PDFCursor(self.x_start - 5, 390, True)
     def_font = pdf.get_font()
     pdf.set_font('times', size=10)
     cursor.y_plus(pdf.get_font()._string_width(name) / 2)
     text = PDFText(pdf.session, pdf.page, None, cursor=cursor)
     text.text_rotate(90)
     text._text(name)
     pdf.set_font(font=def_font)
Esempio n. 10
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 def trailing_sector(self, pdf, name):
     cursor = PDFCursor(598, 390, True)
     def_font = pdf.get_font()
     pdf.set_font('times', size=10)
     cursor.y_plus(-(pdf.get_font()._string_width(name) / 2))
     text = PDFText(pdf.session, pdf.page, None, cursor=cursor)
     text.text_rotate(-90)
     text._text(name)
     pdf.set_font(font=def_font)
Esempio n. 11
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 def spinward_sector(self, pdf, name):
     cursor = PDFCursor(self.x_start - 5, 396, True)
     def_font = pdf.get_font()
     pdf.set_font('times', size=10)
     cursor.y_plus(pdf.get_font()._string_width(name) / 2)
     text = PDFText(pdf.session, pdf.page, None, cursor=cursor)
     text.text_rotate(90)
     text._text(name)
     pdf.set_font(font=def_font)
Esempio n. 12
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 def sector_name(self, doc, name):
     """
     Write name at the top of the document
     """
     cursor = PDFCursor(5, -5, True)
     def_font = doc.get_font()
     doc.set_font('times', size=30)
     width = doc.get_font()._string_width(name)
     cursor.x = 306 - (width / 2)
     doc.add_text(name, cursor)
     doc.set_font(font=def_font)
Esempio n. 13
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    def comm_line(self, pdf, edge):
        start = edge[0]
        end = edge[1]
        color = pdf.get_color()
        color.set_color_by_number(102, 178, 102)

        starty = self.y_start + (self.ym * 2 *
                                 (start.row)) - (self.ym *
                                                 (1 if start.col & 1 else 0))
        startx = (self.xm * 3 * (start.col)) + self.ym

        endRow = end.row
        endCol = end.col
        if (end.sector != start.sector):
            if end.sector.x < start.sector.x:
                endCol -= 32
            if end.sector.x > start.sector.x:
                endCol += 32
            if end.sector.y < start.sector.y:
                endRow -= 40
            if end.sector.y > start.sector.y:
                endRow += 40
            endy = self.y_start + (self.ym * 2 *
                                   (endRow)) - (self.ym *
                                                (1 if endCol & 1 else 0))
            endx = (self.xm * 3 * endCol) + self.ym

            (startx,
             starty), (endx, endy) = self.clipping(startx, starty, endx, endy)

        else:
            endy = self.y_start + (self.ym * 2 *
                                   (endRow)) - (self.ym *
                                                (1 if endCol & 1 else 0))
            endx = (self.xm * 3 * endCol) + self.ym

        lineStart = PDFCursor(startx, starty)
        lineEnd = PDFCursor(endx, endy)

        line = PDFLine(pdf.session,
                       pdf.page,
                       lineStart,
                       lineEnd,
                       stroke='solid',
                       color=color,
                       size=3)
        line._draw()
Esempio n. 14
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    def _hline(self, pdf, width, colorname):
        hlineStart = PDFCursor(0, 0)
        hlineStart.x = 3
        hlineStart.y = self.y_start - self.ym
        hlineStart.dx = self.xm * 3
        hlineStart.dy = self.ym * 2

        hlineEnd = PDFCursor(0, 0)
        hlineEnd.x = self.xm * 2.5
        hlineEnd.y = self.y_start - self.ym
        hlineEnd.dx = self.xm * 3
        hlineEnd.dy = self.ym * 2

        color = pdf.get_color()
        color.set_color_by_name(colorname)

        hline = PDFLine(pdf.session, pdf.page, hlineStart, hlineEnd, stroke='solid', color=color, size=width)

        return (hlineStart, hlineEnd, hline)
Esempio n. 15
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    def _rline(self, pdf, width, colorname):
        rlineStart = PDFCursor(0, 0)
        rlineStart.x = self.x_start + self.xm
        rlineStart.dx = self.xm * 3
        rlineStart.dy = self.ym * 2
        rlineEnd = PDFCursor(0, 0)
        rlineEnd.x = self.x_start
        rlineEnd.dx = self.xm * 3
        rlineEnd.dy = self.ym * 2

        color = pdf.get_color()
        color.set_color_by_name(colorname)
        rline = PDFLine(pdf.session,
                        pdf.page,
                        rlineStart,
                        rlineEnd,
                        stroke='solid',
                        color=color,
                        size=width)

        return (rlineStart, rlineEnd, rline)
Esempio n. 16
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    def _rline(self, pdf, width, colorname):
        rlineStart = PDFCursor(0, 0)
        rlineStart.x = self.x_start + self.xm
        rlineStart.dx = self.xm * 3
        rlineStart.dy = self.ym * 2
        rlineEnd = PDFCursor(0, 0)
        rlineEnd.x = self.x_start
        rlineEnd.dx = self.xm * 3
        rlineEnd.dy = self.ym * 2

        color = pdf.get_color()
        color.set_color_by_name(colorname)
        rline = PDFLine(pdf.session, pdf.page, rlineStart, rlineEnd, stroke='solid', color=color, size=width)

        return (rlineStart, rlineEnd, rline)
Esempio n. 17
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    def _lline(self, pdf, width, colorname):
        llineStart = PDFCursor(-10, 0)
        llineStart.x = self.x_start
        llineStart.dx = self.xm * 3
        llineStart.dy = self.ym * 2

        llineEnd = PDFCursor(-10, 0)
        llineEnd.x = self.x_start + self.xm
        llineEnd.dx = self.xm * 3
        llineEnd.dy = self.ym * 2

        color = pdf.get_color()
        color.set_color_by_name(colorname)

        lline = PDFLine(pdf.session,
                        pdf.page,
                        llineStart,
                        llineEnd,
                        stroke='solid',
                        color=color,
                        size=width)

        return (llineStart, llineEnd, lline)
Esempio n. 18
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    def _lline(self, pdf, width, colorname):
        llineStart = PDFCursor(-10, 0)
        llineStart.x = self.x_start
        llineStart.dx = self.xm * 3
        llineStart.dy = self.ym * 2

        llineEnd = PDFCursor(-10, 0)
        llineEnd.x = self.x_start + self.xm
        llineEnd.dx = self.xm * 3
        llineEnd.dy = self.ym * 2

        color = pdf.get_color()
        color.set_color_by_name(colorname)

        lline = PDFLine(pdf.session, pdf.page, llineStart, llineEnd, stroke='solid', color=color, size=width)

        return (llineStart, llineEnd, lline)
Esempio n. 19
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    def subsector_grid(self, pdf):
        color = pdf.get_color()
        color.set_color_by_name('lightgray')
        pdf.set_draw_color(color)
        vlineStart = PDFCursor(0, self.y_start + self.xm)
        vlineEnd = PDFCursor(0, self.y_start + self.xm + (180 * 4))
        for x in xrange(self.x_start, 595, 144):
            vlineStart.x = x
            vlineEnd.x = x
            pdf.add_line(cursor1=vlineStart, cursor2=vlineEnd)

        hlineStart = PDFCursor(self.x_start, 0)
        hlineEnd = PDFCursor(591, 0)
        for y in xrange(self.y_start + self.xm, 780, 180):
            hlineStart.y = y
            hlineEnd.y = y
            pdf.add_line(cursor1=hlineStart, cursor2=hlineEnd)
Esempio n. 20
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    def zone(self, pdf, star, point):
        point.x_plus(self.ym)
        point.y_plus(self.ym)
        color = pdf.get_color()
        if star.zone in ['R', 'F']:
            color.set_color_by_name('crimson')
        elif star.zone in ['A', 'U']:
            color.set_color_by_name('goldenrod')
        else:  # no zone -> do nothing
            return

        radius = PDFCursor(self.xm, self.xm)

        circle = PDFEllipse(pdf.session,
                            pdf.page,
                            point,
                            radius,
                            color,
                            size=2)
        circle._draw()
Esempio n. 21
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 def cursor(self, x=0, y=0):
     return PDFCursor(x, y)
Esempio n. 22
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    def place_system(self, pdf, star):
        def_font = pdf.get_font()
        pdf.set_font('times', size=4)

        col = (self.xm * 3 * (star.col))
        if (star.col & 1):
            row = (self.y_start - self.ym * 2) + (star.row * self.ym * 2)
        else:
            row = (self.y_start - self.ym) + (star.row * self.ym * 2)

        point = PDFCursor(col, row)
        self.zone(pdf, star, point.copy())

        width = self.string_width(pdf.get_font(), star.uwp)
        point.y_plus(7)
        point.x_plus(self.ym - (width / 2))
        pdf.add_text(star.uwp.encode('ascii', 'replace'), point)

        if len(star.name) > 0:
            for chars in xrange(len(star.name), 0, -1):
                width = self.string_width(pdf.get_font(), star.name[:chars])
                if width <= self.xm * 3.5:
                    break
            point.y_plus(3.5)
            point.x = col
            point.x_plus(self.ym - (width / 2))
            pdf.add_text(star.name[:chars].encode('ascii', 'replace'), point)

        added = star.alg
        if 'Cp' in star.tradeCode:
            added += '+'
        elif 'Cx' in star.tradeCode or 'Cs' in star.tradeCode:
            added += '*'
        else:
            added += ' '

        added += '{:d}'.format(star.ggCount)
        point.y_plus(3.5)
        point.x = col
        width = pdf.get_font()._string_width(added)
        point.x_plus(self.ym - (width / 2))
        pdf.add_text(added, point)

        added = ''
        tradeIn = StatCalculation.trade_to_btn(star.tradeIn)
        tradeThrough = StatCalculation.trade_to_btn(star.tradeIn + star.tradeOver)

        if self.routes == 'trade':
            added += "{:X}{:X}{:X}{:d}".format(star.wtn, tradeIn, tradeThrough, star.starportSize)
        elif self.routes == 'comm':
            added += "{}{} {}".format(star.baseCode, star.ggCount, star.importance)
        elif self.routes == 'xroute':
            added += " {}".format(star.importance)
        width = pdf.get_font()._string_width(added)
        point.y_plus(3.5)
        point.x = col
        point.x_plus(self.ym - (width / 2))
        pdf.add_text(added, point)

        pdf.set_font(def_font)
Esempio n. 23
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 def add_circle(self, pdf, center, radius, colorname):
     color = pdf.get_color()
     color.set_color_by_name(colorname)
     radius = PDFCursor(radius, radius)
     circle = PDFEllipse(pdf.session, pdf.page, center, radius, color, size=2)
     circle._draw()
Esempio n. 24
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    def _hline(self, pdf, width, colorname):
        hlineStart = PDFCursor(0, 0)
        hlineStart.x = 3
        hlineStart.y = self.y_start - self.ym
        hlineStart.dx = self.xm * 3
        hlineStart.dy = self.ym * 2

        hlineEnd = PDFCursor(0, 0)
        hlineEnd.x = self.xm * 2.5
        hlineEnd.y = self.y_start - self.ym
        hlineEnd.dx = self.xm * 3
        hlineEnd.dy = self.ym * 2

        color = pdf.get_color()
        color.set_color_by_name(colorname)

        hline = PDFLine(pdf.session,
                        pdf.page,
                        hlineStart,
                        hlineEnd,
                        stroke='solid',
                        color=color,
                        size=width)

        return (hlineStart, hlineEnd, hline)
Esempio n. 25
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    def system(self, pdf, star):
        def_font = pdf.get_font()
        pdf.set_font('times', size=4)

        col = (self.xm * 3 * (star.col))
        if (star.col & 1):
            row = (self.y_start - self.ym * 2) + (star.row * self.ym * 2)
        else:
            row = (self.y_start - self.ym) + (star.row * self.ym * 2)

        point = PDFCursor(col, row)
        self.zone(pdf, star, point.copy())

        width = self.string_width(pdf.get_font(), star.uwp)
        point.y_plus(7)
        point.x_plus(self.ym - (width / 2))
        pdf.add_text(star.uwp.encode('ascii', 'replace'), point)

        if len(star.name) > 0:
            for chars in xrange(len(star.name), 0, -1):
                width = self.string_width(pdf.get_font(), star.name[:chars])
                if width <= self.xm * 3.5:
                    break
            point.y_plus(3.5)
            point.x = col
            point.x_plus(self.ym - (width / 2))
            pdf.add_text(star.name[:chars].encode('ascii', 'replace'), point)

        added = star.alg
        if star.tradeCode.subsector_capital:
            added += '+'
        elif star.tradeCode.sector_capital or star.tradeCode.other_capital:
            added += '*'
        else:
            added += ' '

        added += '{:d}'.format(star.ggCount)
        point.y_plus(3.5)
        point.x = col
        width = pdf.get_font()._string_width(added)
        point.x_plus(self.ym - (width / 2))
        pdf.add_text(added, point)

        added = ''
        tradeIn = StatCalculation.trade_to_btn(star.tradeIn)
        tradeThrough = StatCalculation.trade_to_btn(star.tradeIn + star.tradeOver)

        if self.routes == 'trade':
            added += "{:X}{:X}{:X}{:d}".format(star.wtn, tradeIn, tradeThrough, star.starportSize)
        elif self.routes == 'comm':
            added += "{}{} {}".format(star.baseCode, star.ggCount, star.importance)
        elif self.routes == 'xroute':
            added += " {}".format(star.importance)
        width = pdf.get_font()._string_width(added)
        point.y_plus(3.5)
        point.x = col
        point.x_plus(self.ym - (width / 2))
        pdf.add_text(added, point)

        pdf.set_font(def_font)
Esempio n. 26
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    def trade_line(self, pdf, edge, data):

        tradeColors = [
            (255, 0, 0),  # Red
            (224, 224, 16),  # yellow - darker
            (0, 255, 0),  # green
            (0, 255, 255),  # Cyan
            (96, 96, 255),  # blue - lighter
            (128, 0, 128),  # purple
            (148, 0, 211),  # violet
        ]

        start = edge[0]
        end = edge[1]

        trade = StatCalculation.trade_to_btn(data['trade']) - self.min_btn
        if trade < 0:
            return
        if trade > 6:
            logging.getLogger('PyRoute.HexMap').warn(
                "trade calculated over %d" % self.min_btn + 6)
            trade = 6

        tradeColor = tradeColors[trade]
        color = pdf.get_color()
        color.set_color_by_number(tradeColor[0], tradeColor[1], tradeColor[2])

        starty = self.y_start + (self.ym * 2 *
                                 (start.row)) - (self.ym *
                                                 (1 if start.col & 1 else 0))
        startx = (self.xm * 3 * (start.col)) + self.ym

        endRow = end.row
        endCol = end.col
        endCircle = True
        if (end.sector != start.sector):
            endCircle = False
            if end.sector.x < start.sector.x:
                endCol -= 32
            if end.sector.x > start.sector.x:
                endCol += 32
            if end.sector.y < start.sector.y:
                endRow -= 40
            if end.sector.y > start.sector.y:
                endRow += 40
            endy = self.y_start + (self.ym * 2 *
                                   (endRow)) - (self.ym *
                                                (1 if endCol & 1 else 0))
            endx = (self.xm * 3 * endCol) + self.ym

            (startx,
             starty), (endx, endy) = self.clipping(startx, starty, endx, endy)

        else:
            endy = self.y_start + (self.ym * 2 *
                                   (endRow)) - (self.ym *
                                                (1 if endCol & 1 else 0))
            endx = (self.xm * 3 * endCol) + self.ym

        lineStart = PDFCursor(startx, starty)
        lineEnd = PDFCursor(endx, endy)

        line = PDFLine(pdf.session,
                       pdf.page,
                       lineStart,
                       lineEnd,
                       stroke='solid',
                       color=color,
                       size=1)
        line._draw()

        radius = PDFCursor(2, 2)
        circle = PDFEllipse(pdf.session,
                            pdf.page,
                            lineStart,
                            radius,
                            color,
                            size=3)
        circle._draw()

        if endCircle:
            circle = PDFEllipse(pdf.session,
                                pdf.page,
                                lineEnd,
                                radius,
                                color,
                                size=3)
            circle._draw()
Esempio n. 27
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    def subsector_grid(self, pdf):
        color = pdf.get_color()
        color.set_color_by_name('lightgray')
        pdf.set_draw_color(color)
        vlineStart = PDFCursor(0, self.y_start + self.xm)
        vlineEnd = PDFCursor(0, self.y_start + self.xm + (180 * 4))
        for x in xrange(self.x_start, 595, 144):
            vlineStart.x = x
            vlineEnd.x = x
            pdf.add_line(cursor1=vlineStart, cursor2=vlineEnd)

        hlineStart = PDFCursor(self.x_start, 0)
        hlineEnd = PDFCursor(591, 0)
        for y in xrange(self.y_start + self.xm, 780, 180):
            hlineStart.y = y
            hlineEnd.y = y
            pdf.add_line(cursor1=hlineStart, cursor2=hlineEnd)
Esempio n. 28
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 def __init__(self, galaxy, routes):
     super(PDFSectorMap, self).__init__(galaxy, routes)
     self.lineStart = PDFCursor(0, 0)
     self.lineEnd = PDFCursor(0, 0)