Ejemplo n.º 1
0
    def vector(self, e):
        scale = float(e.get('scale', '1.0'))
        width = toLength(e.get('width'))
        height = toLength(e.get('height'))
        path = e.get('src')
        search = e.get('search', None)
        replace = e.get('replace', None)

        fh = open(self.get_from_url(path), 'rb')
        data = fh.read()
        fh.close()

        if search is not None:
            data = data.replace(search, replace)

        svg = xml.dom.minidom.parseString(data).documentElement

        svgRenderer = SvgRenderer()
        svgRenderer.render(svg)
        svg_obj = svgRenderer.finish()

        svg_obj.scale(scale, scale)
        svg_obj.asDrawing(width, height)

        yield svg_obj
Ejemplo n.º 2
0
 def vector(self, e):
     scale = float(e.get('scale', '1.0'))
     width = toLength(e.get('width'))
     height = toLength(e.get('height'))
     path = e.get('src')
     search = e.get('search', None)
     replace = e.get('replace', None)
     
     fh = open(self.media_root + path, 'rb')
     data = fh.read()
     fh.close()
     
     if search is not None:
         data = data.replace(search, replace)
     
     import xml.dom.minidom
     svg = xml.dom.minidom.parseString(data).documentElement
     from svglib.svglib import SvgRenderer
     
     svgRenderer = SvgRenderer()
     svgRenderer.render(svg)
     svg_obj = svgRenderer.finish()
     
     svg_obj.scale(scale, scale)
     svg_obj.asDrawing(width, height)
     
     yield svg_obj
def svg_to_pdf(svg_data):
    svgr = SvgRenderer()
    doc = minidom.parseString(svg_data.encode("utf-8"))
    svgr.render(doc.documentElement)
    drawing = svgr.finish()
    pdf = renderPDF.drawToString(drawing)
    return pdf
Ejemplo n.º 4
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def svg_to_pdf(svg_data):
    svgr = SvgRenderer()
    doc = minidom.parseString(svg_data.encode("utf-8"))
    svgr.render(doc.documentElement)
    drawing = svgr.finish()
    pdf = renderPDF.drawToString(drawing)
    return pdf
Ejemplo n.º 5
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    def post(self, request, *args, **kwargs):
        data = request.POST.get('svgdata', '')

        doc = xml.dom.minidom.parseString(data.encode( "utf-8" ))
        svg = doc.documentElement
        svgRenderer = SvgRenderer()
        svgRenderer.render(svg)
        drawing = svgRenderer.finish()

        pdf = renderPDF.drawToString(drawing)
        response = HttpResponse(content_type='application/pdf')
        response["Content-Disposition"]= "attachment; filename=chart.pdf"
        response.write(pdf) 

        return response
Ejemplo n.º 6
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def altair_to_pdf(chart, filename, webdriver='firefox'):
    from lxml import etree
    from svglib.svglib import SvgRenderer
    from reportlab.graphics import renderPDF
    import tempfile
    import os

    name = tempfile.mktemp()

    with open(name, 'w') as fp:
        chart.save(fp, format='svg', webdriver=webdriver)

    parser = etree.XMLParser(
        remove_comments=True,
        resolve_entities=True)
    doc = etree.parse(name, parser=parser)
    svg_root = doc.getroot()

    svgRenderer = SvgRenderer(name)
    drawing = svgRenderer.render(svg_root)

    if drawing is not None:
        data = renderPDF.drawToString(drawing)

        with open(filename, 'wb') as output:
            output.write(data)

    os.remove(name)
Ejemplo n.º 7
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    def do2(self, fig=None, **kwargs):
        from lxml import etree
        from reportlab.graphics import renderPM
        from svglib.svglib import SvgRenderer

        w, h, s = self.width, self.height, self.scale
        svg = fig.to_image(format="svg",
                           width=w,
                           height=h,
                           scale=s * self.upscale)

        root = etree.fromstring(svg.decode("utf-8"))
        if root is None:
            raise Exception("Error while converting Plotly graphic.")

        svgRenderer = SvgRenderer("my.svg")
        drawing = svgRenderer.render(root)

        buf = io.BytesIO()
        renderPM.drawToFile(drawing, buf, fmt="PNG")
        buf.seek(0)
        _bytes = np.asarray(bytearray(buf.read()), dtype=np.uint8)
        img = cv2.imdecode(_bytes, cv2.IMREAD_COLOR)

        _w = int((int(root.get("width")) / self.upscale))
        _h = int((int(root.get("height")) / self.upscale))
        img = cv2.resize(img, (_w, _h), interpolation=cv2.INTER_AREA)

        return img
Ejemplo n.º 8
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def create_formation_image(names_list, cache_dir, GK_name=None):
    """ Create soccer formation image using names of attending players. """
    with open_text("cktool", "formation.svg") as f:
        svg_data = f.read()
        svg_data = svg_data.replace("_z_", str(len(names_list)))
        if GK_name and GK_name in names_list:
            svg_data = svg_data.replace(f"_GK_", GK_name)
            names_list.remove(GK_name)

        for i, _ in enumerate(names_list.copy(), start=1):
            svg_data = svg_data.replace(f"_x{i}_", names_list.pop())

        for i in range(1, 30):
            svg_data = svg_data.replace(f"_x{i}_", "?")

    svg_root = etree.fromstring(svg_data,
                                parser=etree.XMLParser(remove_comments=True,
                                                       recover=True))
    svgRenderer = SvgRenderer(path="")
    drawing = svgRenderer.render(svg_root)
    filename = "formation_{}.png".format(
        dt.datetime.now().strftime("%Y%m%d_%Hh%Mm%Ss"))
    filepath = os.path.join(cache_dir, filename)
    renderPM.drawToFile(drawing, filepath, fmt="PNG")
    return filepath
Ejemplo n.º 9
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def export_svg(request):
    # Получаем данные с клиентской части использую переменные POST
    svg = request.POST.get("svg")
    doc = xml.dom.minidom.parseString(svg.encode( "utf-8" ))
    svg = doc.documentElement
    # Создаём новый экземпляр класса SvgRenderer
    svgRenderer = SvgRenderer()
    svgRenderer.render(svg)
    drawing = svgRenderer.finish()

    # Вместо записы исходного файла на диск мы позволяем пользователю сразу скачать его
    pdf = renderPDF.drawToString(drawing)
    response = HttpResponse(mimetype='application/pdf')
    response.write(pdf)     

    # Реализуем возможность просмотра полученного pda файла прямо в браузерном плагине
    response["Content-Disposition"]= "attachment; filename=converted.pdf"
    return response
Ejemplo n.º 10
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def export_svg(request):
    # Получаем данные с клиентской части использую переменные POST
    svg = request.POST.get("svg")
    doc = xml.dom.minidom.parseString(svg.encode("utf-8"))
    svg = doc.documentElement
    # Создаём новый экземпляр класса SvgRenderer
    svgRenderer = SvgRenderer()
    svgRenderer.render(svg)
    drawing = svgRenderer.finish()

    # Вместо записы исходного файла на диск мы позволяем пользователю сразу скачать его
    pdf = renderPDF.drawToString(drawing)
    response = HttpResponse(mimetype='application/pdf')
    response.write(pdf)

    # Реализуем возможность просмотра полученного pda файла прямо в браузерном плагине
    response["Content-Disposition"] = "attachment; filename=converted.pdf"
    return response
Ejemplo n.º 11
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def export_svg(request):
	svg = request.POST.get("svg_xml")
	title = request.POST.get("title")
	format = request.POST.get("format")
	if format == "svg":
		# Set mimetype to octet-stream to assure download from browser
		response = HttpResponse(svg, mimetype="application/octet-stream")
	elif format == "pdf":
		doc = xml.dom.minidom.parseString(svg.encode( "utf-8" ))
		svg = doc.documentElement

		svgRenderer = SvgRenderer()
		svgRenderer.render(svg)
		drawing = svgRenderer.finish()

		pdf = renderPDF.drawToString(drawing)
		response = HttpResponse(mimetype='application/pdf')
		response.write(pdf)		
	
	# Need to change with actual title
	response["Content-Disposition"]= "attachment; filename=%s.%s" % (title, format)
	return response
Ejemplo n.º 12
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    def render_png(self, width=800, height=800):
        # svglib expects an lxml structure internally
        parser = etree.XMLParser(remove_comments=True, recover=True)
        svg = etree.fromstring(self.get_xml().encode("utf-8"), parser=parser)

        # render the SVG to a PNG
        renderer = SvgRenderer(None)
        drawing = renderer.render(svg)
        scale_x = width / drawing.width
        scale_y = height / drawing.height
        drawing.width = width
        drawing.height = height
        drawing.scale(scale_x, scale_y)
        return renderPM.drawToString(drawing, fmt="PNG")
Ejemplo n.º 13
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def export_save(request):
	svg = request.POST.get("svg_xml")
	title = request.POST.get("title")
	format = request.POST.get("format")
	country = request.POST.get("country")
	year = request.POST.get("year")
	viz = request.POST.get("viz")
	#
	import os
	directory = "exports/%s" % viz
	if not os.path.exists(directory):
	    os.makedirs(directory)
	directory = "exports/%s/%s" % (viz, country)
	if not os.path.exists(directory):
	    os.makedirs(directory)
	file_name = '/%s.%s' % (title, format)
	file_name = directory + file_name
	if format == "svg":
		# Set mimetype to octet-stream to assure download from browser
		svg = svg.encode( "utf-8" )
		f = open(file_name, 'w')
		f.write(svg)
	elif format == "pdf":
		doc = xml.dom.minidom.parseString(svg.encode( "utf-8" ))
		svg = doc.documentElement
		
		svgRenderer = SvgRenderer()
		svgRenderer.render(svg)
		drawing = svgRenderer.finish()
		renderPDF.drawToFile(drawing, file_name)
		# 
		# pdf = renderPDF.drawToString(drawing)
		# # response = HttpResponse(mimetype='application/pdf')
		# response.write(pdf)

	# Need to change with actual title
	return HttpResponse(title)
Ejemplo n.º 14
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def fromstring(xml_string, replacements=None, **kwargs):
    """create svg graphics from string"""

    if replacements:
        for (key, value) in replacements.items():
            xml_string = xml_string.replace(("{%s}" % key).encode(),
                                            value.encode())
    parser = etree.XMLParser(remove_comments=True, recover=True)
    svg = etree.fromstring(xml_string, parser=parser)

    # convert to a RLG drawing
    svg_renderer = SvgRenderer("", **kwargs)
    drawing = svg_renderer.render(svg)

    return drawing
Ejemplo n.º 15
0
    def vector(self, e):
        scale = float(e.get('scale', '1.0'))
        width = toLength(e.get('width'))
        height = toLength(e.get('height'))
        path = e.get('src')
        search = e.get('search', None)
        replace = e.get('replace', None)

        with open(self.get_from_url(path), 'rb') as fh:
            data = fh.read()
            if search is not None:
               data = data.replace(search, replace)

        svg = etree.fromstring(data)
        renderer = SvgRenderer()
        drawing = renderer.render(svg)
        drawing.scale(scale, scale)
        drawing.asDrawing(width, height)

        yield drawing
Ejemplo n.º 16
0
    def parse_parts(self, buffer):
        # prepare ReportLab
        self.styles = getSampleStyleSheet()
        self.style_stack.append(self.styles['Normal'])
        if self.out_buffer is None:
            self.out_buffer = StringIO()
        self.parts = []

        # prepare for parsing
        i = 0
        buffer_len = len(buffer)
        # Possible modes: 0 = normal, 1 = table row, 2 = insert object
        mode = 0
        new_line = True
        new_para = True
        cue = 0
        content = ''
        raw_table_data = ''
        self.reset_table()
        obj = None

        style_stack = self.style_stack

        paragraphs = split_ignore(buffer, '\n\n', '[[[block', ']]]')

        for p in paragraphs:
            lines = p.split('\n')
            content = ''
            for line in lines:
                c = line[:1]
                if c == '#':
                    debug_print('[comment]')
                elif c == '$':
                    self.parse_paragraph_style(line[1:])
                elif c == '~':
                    debug_print('[document element %s]' % line[1])
                    elem = line[1]
                    endpos = line.find(']', 2)
                    if elem == 'D':
                        self.handle_document_properties(line[3:endpos], line[endpos+1:])
                    elif elem == 'T':
                        if line[2] == '$':
                            # table style
                            raw_style = line[3:]
                            style = self.parse_table_style(raw_style)
                            self.table_styles.append(style)
                        else:
                            self.table_cols = list(float(n) * self.unit for n in line[3:endpos].split('|'))
                            align = line[endpos+1:endpos+2]
                            if align == '<':
                                self.table_align = 'LEFT'
                            elif align == '>':
                                self.table_align = 'RIGHT'
                    elif elem == 'B':
                        self.append_to_parts(PageBreak())
                    elif elem == 'S':
                        self.append_to_parts(Spacer(1, toLength(line[2:])))
                    elif elem == 'V':
                        svg_info_raw = line[3:endpos]
                        svg_info = svg_info_raw.split(';')[:7]
                        if len(svg_info) == 1:
                            mode = 2
                            obj = self.svg_dict[svg_info[0]]
                        else:
                            if len(svg_info) == 7:
                                svg_name, svg_scale, svg_w, svg_h, svg_path, svg_find, svg_replace = svg_info
                            else:
                                svg_name, svg_scale, svg_w, svg_h, svg_path = svg_info

                            svg_file = open(find(svg_path), 'rb')
                            svg_data = svg_file.read()
                            svg_file.close()

                            if len(svg_info) == 7:
                                svg_data = svg_data.replace(svg_find, svg_replace)

                            svg = xml.dom.minidom.parseString(svg_data).documentElement

                            svgRenderer = SvgRenderer()
                            svgRenderer.render(svg)
                            svg_obj = svgRenderer.finish()

                            #svg_obj = svg2rlg(settings.MEDIA_ROOT + svg_path)
                            svg_obj.scale(float(svg_scale), float(svg_scale))
                            svg_obj.asDrawing(float(svg_w) * self.unit, float(svg_h) * self.unit)
                            self.svg_dict[svg_name] = svg_obj
                    elif elem == 'I':
                        img_info_raw = line[3:endpos]
                        img_info = img_info_raw.split(';')[:4]
                        if len(img_info) == 1:
                            mode = 2
                            obj = self.img_dict[img_info[0]]
                        else:
                            img_name, img_w, img_h, img_path = img_info
                            img_obj = Image(find(img_path), width=self.unit*float(img_w), height=self.unit*float(img_h))
                            align = line[endpos+1:endpos+2]
                            if align == '<':
                                img_obj.hAlign = 'LEFT'
                            elif align == '>':
                                img_obj.hAlign = 'RIGHT'
                            self.img_dict[img_name] = img_obj
                    elif elem == 'C':
                        barcode_info_raw = line[3:endpos]
                        barcode_info = barcode_info_raw.split(';')[:6]
                        if len(barcode_info) == 1:
                            mode = 2
                            obj = self.img_dict[barcode_info[0]]
                        else:
                            barcode_name, barcode_type, barcode_scale, barcode_w, barcode_h, barcode_data = barcode_info
                            barcode_obj = Barcode(library=find('common/pdf_img/barcode.ps'),
                                                  width=self.unit * float(barcode_w),
                                                  height=self.unit * float(barcode_h),
                                                  data=barcode_data,
                                                  scale=float(barcode_scale),
                                                  type=barcode_type)
                            align = line[endpos+1:endpos+2]
                            if align == '<':
                                barcode_obj.hAlign = 'LEFT'
                            elif align == '>':
                                barcode_obj.hAlign = 'RIGHT'
                            self.img_dict[barcode_name] = barcode_obj
                    elif elem == 'F':
                        font_info_raw = line[3:endpos]
                        font_info = font_info_raw.split(';')[:2]
                        self.import_pdf_font(font_info[1], font_info[0])
                    elif elem == 'P':
                        if '[' in line:
                            self.parts_buffer = line[3:endpos]
                            self.parts_buffer_dict[self.parts_buffer] = []
                        else:
                            self.parts_buffer = None
                elif c == '[':
                    mode = 1
                    raw_table_data += line + '\n'
                elif c == '\n':
                    pass
                else:
                    if mode == 0:
                        content += line + '\n'
                    elif mode == 1:
                        raw_table_data += line + '\n'

            if mode == 0:
                if content != '':
                    self.append_to_parts(Paragraph(content, self.style_stack[-1] if len(self.style_stack) > 0 else self.styles['Normal']))
                content = ''

            if mode == 1:
                td = raw_table_data
                td_len = len(td)
                i = 0
                while i < td_len:
                    c = td[i]
                    c_1 = td[i-1:i]
                    if c == '[' and c_1 != '\\':
                        cue = i + 1
                    if (c == '|' or c == ']') and c_1 != '\\':
                        cell_content = td[cue:i]
                        pop_after_cell = False
                        if cell_content[:1] == '$':
                            if ' ' in cell_content:
                                style, cell_content = cell_content.split(None, 1)
                                style = style[1:]
                            else:
                                style = ''
                                cell_content = cell_content[1:]
                            self.parse_paragraph_style(style)
                        if cell_content[-1:] == '$':
                            cell_content = cell_content[:-1]
                            pop_after_cell = True
                        if cell_content[:2] == '~V':
                            svg_name = cell_content[2:]
                            self.table_row.append(self.svg_dict[svg_name])
                        elif cell_content[:2] == '~I':
                            img_name = cell_content[2:]
                            self.table_row.append(self.img_dict[img_name])
                        elif cell_content[:2] == '~P':
                            self.table_row.append(self.parts_buffer_dict[cell_content[2:]])
                        else:
                            self.table_row.append(Paragraph(cell_content, self.style_stack[-1] if len(self.style_stack) > 0 else self.styles['Normal']))

                        if pop_after_cell:
                            self.parse_paragraph_style('')

                        cue = i + 1
                        if c == ']':
                            self.table_data.append(self.table_row)
                            self.table_row = []

                    i += 1
                if len(self.table_data) > 0:
                    self.append_to_parts(Table(self.table_data, self.table_cols, hAlign=self.table_align, style=self.table_styles))
                self.reset_table()
                raw_table_data = ''

            if mode == 2:
                if obj is not None:
                    self.append_to_parts(obj)
                    obj = None

            mode = 0

        return self.parts
Ejemplo n.º 17
0
def write_to_pdf(dwg: Drawing, path: str):
    svg_str = dwg.tostring()
    svg = ET.fromstring(svg_str, etree.XMLParser())
    svgRenderer = SvgRenderer(None)
    drawing = svgRenderer.render(svg)
    renderPDF.drawToFile(drawing, path)
Ejemplo n.º 18
0
    def parse_parts(self, buffer):
        # prepare ReportLab
        self.styles = getSampleStyleSheet()
        self.style_stack.append(self.styles['Normal'])
        if self.out_buffer is None:
            self.out_buffer = StringIO()
        self.parts = []

        # prepare for parsing
        i = 0
        buffer_len = len(buffer)
        # Possible modes: 0 = normal, 1 = table row, 2 = insert object
        mode = 0
        new_line = True
        new_para = True
        cue = 0
        content = ''
        raw_table_data = ''
        self.reset_table()
        obj = None

        style_stack = self.style_stack

        paragraphs = split_ignore(buffer, '\n\n', '[[[block', ']]]')

        for p in paragraphs:
            lines = p.split('\n')
            content = ''
            for line in lines:
                c = line[:1]
                if c == '#':
                    debug_print('[comment]')
                elif c == '$':
                    self.parse_paragraph_style(line[1:])
                elif c == '~':
                    debug_print('[document element %s]' % line[1])
                    elem = line[1]
                    endpos = line.find(']', 2)
                    if elem == 'D':
                        self.handle_document_properties(
                            line[3:endpos], line[endpos + 1:])
                    elif elem == 'T':
                        if line[2] == '$':
                            # table style
                            raw_style = line[3:]
                            style = self.parse_table_style(raw_style)
                            self.table_styles.append(style)
                        else:
                            self.table_cols = list(
                                float(n) * self.unit
                                for n in line[3:endpos].split('|'))
                            align = line[endpos + 1:endpos + 2]
                            if align == '<':
                                self.table_align = 'LEFT'
                            elif align == '>':
                                self.table_align = 'RIGHT'
                    elif elem == 'B':
                        self.append_to_parts(PageBreak())
                    elif elem == 'S':
                        self.append_to_parts(Spacer(1, toLength(line[2:])))
                    elif elem == 'V':
                        svg_info_raw = line[3:endpos]
                        svg_info = svg_info_raw.split(';')[:7]
                        if len(svg_info) == 1:
                            mode = 2
                            obj = self.svg_dict[svg_info[0]]
                        else:
                            if len(svg_info) == 7:
                                svg_name, svg_scale, svg_w, svg_h, svg_path, svg_find, svg_replace = svg_info
                            else:
                                svg_name, svg_scale, svg_w, svg_h, svg_path = svg_info

                            svg_file = open(find(svg_path), 'rb')
                            svg_data = svg_file.read()
                            svg_file.close()

                            if len(svg_info) == 7:
                                svg_data = svg_data.replace(
                                    svg_find, svg_replace)

                            svg = xml.dom.minidom.parseString(
                                svg_data).documentElement

                            svgRenderer = SvgRenderer()
                            svgRenderer.render(svg)
                            svg_obj = svgRenderer.finish()

                            # svg_obj = svg2rlg(settings.MEDIA_ROOT + svg_path)
                            svg_obj.scale(float(svg_scale), float(svg_scale))
                            svg_obj.asDrawing(
                                float(svg_w) * self.unit,
                                float(svg_h) * self.unit)
                            self.svg_dict[svg_name] = svg_obj
                    elif elem == 'I':
                        img_info_raw = line[3:endpos]
                        img_info = img_info_raw.split(';')[:4]
                        if len(img_info) == 1:
                            mode = 2
                            obj = self.img_dict[img_info[0]]
                        else:
                            img_name, img_w, img_h, img_path = img_info
                            img_obj = Image(find(img_path),
                                            width=self.unit * float(img_w),
                                            height=self.unit * float(img_h))
                            align = line[endpos + 1:endpos + 2]
                            if align == '<':
                                img_obj.hAlign = 'LEFT'
                            elif align == '>':
                                img_obj.hAlign = 'RIGHT'
                            self.img_dict[img_name] = img_obj
                    elif elem == 'C':
                        barcode_info_raw = line[3:endpos]
                        barcode_info = barcode_info_raw.split(';')[:6]
                        if len(barcode_info) == 1:
                            mode = 2
                            obj = self.img_dict[barcode_info[0]]
                        else:
                            barcode_name, barcode_type, barcode_scale, barcode_w, barcode_h, barcode_data = barcode_info
                            barcode_obj = Barcode(
                                library=find('common/pdf_img/barcode.ps'),
                                width=self.unit * float(barcode_w),
                                height=self.unit * float(barcode_h),
                                data=barcode_data,
                                scale=float(barcode_scale),
                                type=barcode_type)
                            align = line[endpos + 1:endpos + 2]
                            if align == '<':
                                barcode_obj.hAlign = 'LEFT'
                            elif align == '>':
                                barcode_obj.hAlign = 'RIGHT'
                            self.img_dict[barcode_name] = barcode_obj
                    elif elem == 'F':
                        font_info_raw = line[3:endpos]
                        font_info = font_info_raw.split(';')[:2]
                        self.import_pdf_font(font_info[1], font_info[0])
                    elif elem == 'P':
                        if '[' in line:
                            self.parts_buffer = line[3:endpos]
                            self.parts_buffer_dict[self.parts_buffer] = []
                        else:
                            self.parts_buffer = None
                    elif elem == 'E':
                        args = line[2:].split(';')
                        name, width, height, value = args
                        self.append_to_parts(
                            TextField(name, int(width), int(height), value))
                elif c == '[':
                    mode = 1
                    raw_table_data += line + '\n'
                elif c == '\n':
                    pass
                else:
                    if mode == 0:
                        content += line + '\n'
                    elif mode == 1:
                        raw_table_data += line + '\n'

            if mode == 0:
                if content != '':
                    self.append_to_parts(
                        Paragraph(
                            content,
                            self.style_stack[-1] if len(self.style_stack) > 0
                            else self.styles['Normal']))
                content = ''

            if mode == 1:
                td = raw_table_data
                td_len = len(td)
                i = 0
                while i < td_len:
                    c = td[i]
                    c_1 = td[i - 1:i]
                    if c == '[' and c_1 != '\\':
                        cue = i + 1
                    if (c == '|' or c == ']') and c_1 != '\\':
                        cell_content = td[cue:i]
                        pop_after_cell = False
                        if cell_content[:1] == '$':
                            if ' ' in cell_content:
                                style, cell_content = cell_content.split(
                                    None, 1)
                                style = style[1:]
                            else:
                                style = ''
                                cell_content = cell_content[1:]
                            self.parse_paragraph_style(style)
                        if cell_content[-1:] == '$':
                            cell_content = cell_content[:-1]
                            pop_after_cell = True
                        if cell_content[:2] == '~V':
                            svg_name = cell_content[2:]
                            self.table_row.append(self.svg_dict[svg_name])
                        elif cell_content[:2] == '~I':
                            img_name = cell_content[2:]
                            self.table_row.append(self.img_dict[img_name])
                        elif cell_content[:2] == '~P':
                            self.table_row.append(
                                self.parts_buffer_dict[cell_content[2:]])
                        else:
                            self.table_row.append(
                                Paragraph(
                                    cell_content, self.style_stack[-1]
                                    if len(self.style_stack) > 0 else
                                    self.styles['Normal']))

                        if pop_after_cell:
                            self.parse_paragraph_style('')

                        cue = i + 1
                        if c == ']':
                            self.table_data.append(self.table_row)
                            self.table_row = []

                    i += 1
                if len(self.table_data) > 0:
                    self.append_to_parts(
                        Table(self.table_data,
                              self.table_cols,
                              hAlign=self.table_align,
                              style=self.table_styles))
                self.reset_table()
                raw_table_data = ''

            if mode == 2:
                if obj is not None:
                    self.append_to_parts(obj)
                    obj = None

            mode = 0

        return self.parts
Ejemplo n.º 19
0
def SVG2drawing(xml_data):
    doc = etree.fromstring(xml_data)
    svgRenderer = SvgRenderer()
    drawing = svgRenderer.render(doc)
    return drawing