Пример #1
0
    def makePathSequencesGroup(self) -> G:
        """
        Creates and returns a 'G' object for Path oligo sequences.
        """
        _BW = self._base_width
        _BH = self._base_height
        _pX = self.PATH_X_PADDING + self._path_radius_scaled*3
        id_coords = self.mapIdnumsToYcoords()
        oligo_list = self.cn_doc.getOligoList()

        g = G()
        g.setAttribute('id', 'PathOligoSequences')
        g.setAttribute('font-size', '8')
        g.setAttribute('font-family', 'Monaco')

        i = 0
        for color, is_circular, strands in oligo_list:
            g_oligo = G()
            g_oligo.setAttribute('id', "oligo_seq_%s" % i)
            i += 1
            for id_num, idx5, idx3, isfwd, seq in strands:
                x = _pX + idx5*_BW + _BW/4 if isfwd else _pX + idx5*_BW - _BW/4
                y = id_coords[id_num] - _BH*1.1 if isfwd else id_coords[id_num] + _BH*2.2
                t = Text('%s' % seq, x, y)
                t.set_style('fill:%s66' % color)
                strand_width = (idx3-idx5+1)*_BW if isfwd else (idx5-idx3+1)*_BW
                t.setAttribute('textLength', strand_width)
                if not isfwd:
                    t.set_transform('rotate(180,%s,%s)' % (x+_BW/2, y-_BH/2))

                g_oligo.addElement(t)
            g.addElement(g_oligo)
        return g
Пример #2
0
    def makePathDefs(self) -> Defs:
        """
        Creates Defs object for reusable `Insertion` and `Skip` elements.
        """
        _BW, _BH = self._base_width, self._base_height
        _hBW, _hBH = _BW/2, _BH/2
        _67BW, _67BH = _BW/1.5, _BH/1.5

        p = Path()
        p.appendMoveToPath(_hBW, _hBH)
        p.appendQuadraticCurveToPath(-_67BW, -_BH, 0, -_BH)
        p.appendQuadraticCurveToPath(_67BW, 0, 0, _BH)
        p.set_stroke_linecap("round")
        g_insertion = G()
        g_insertion.setAttribute('id', "insertion")
        g_insertion.addElement(p)

        d = 0.5  # small delta to compensate for round endcap
        line1 = Line(d, d, _BW-d, _BH-d, style="stroke:#cc0000; stroke-width:2")
        line2 = Line(_BW-d, d, d, _BH-d, style="stroke:#cc0000; stroke-width:2")
        line1.set_stroke_linecap("round")
        line2.set_stroke_linecap("round")
        g_skip = G()
        g_skip.setAttribute('id', "skip")
        g_skip.addElement(line1)
        g_skip.addElement(line2)

        path_defs = Defs()
        path_defs.addElement(g_insertion)
        path_defs.addElement(g_skip)
        return path_defs
Пример #3
0
    def makePathInsertionsGroup(self) -> G:
        part = self.cn_doc.part
        id_coords = self.mapIdnumsToYcoords()
        _BW = self._base_width
        _hBW = _BW/2
        _BH = self._base_height
        _hBH = _BH/2
        _pX = self.PATH_X_PADDING + self._path_radius_scaled*3

        g = G()
        g.setAttribute('id', "PathInsertions")
        g.setAttribute('font-size', "5")
        g.setAttribute("font-family", "'SourceSansPro-Regular'")
        g.setAttribute("text-anchor", "middle")

        insertions = self.cn_doc.insertions

        for id_num in sorted(insertions.keys(), reverse=True):
            fwd_ins_y = id_coords[id_num] - _BH
            rev_ins_y = id_coords[id_num]
            for ins_idx, ins_len, fwd_col, rev_col in insertions[id_num][::-1]:
                ins_g = G()
                ins_g.setAttribute('id', "Ins %s[%s]" % (id_num, ins_idx))
                ins_x = _BW*ins_idx + _pX
                ins_fwd, ins_rev = part.hasStrandAtIdx(id_num, ins_idx)
                if ins_fwd:
                    u = Use()
                    u.setAttribute('xlink:href', '#insertion')
                    u.setAttribute('x', ins_x)
                    u.setAttribute('y', fwd_ins_y)
                    fwd_style = 'fill:none; stroke:%s; stroke-width:2' % fwd_col
                    u.set_style(fwd_style)
                    ins_g.addElement(u)
                    t = Text('%s' % ins_len, ins_x+_hBW, fwd_ins_y)
                    t.set_style('fill:#999999')
                    ins_g.addElement(t)
                if ins_rev:
                    u = Use()
                    u.setAttribute('xlink:href', '#insertion')
                    u.setAttribute('x', ins_x)
                    u.setAttribute('y', rev_ins_y)
                    rev_style = 'fill:none; stroke:%s; stroke-width:2' % rev_col
                    u.set_style(rev_style)
                    u.set_transform('rotate(180,%s,%s)' % (ins_x+_hBW, rev_ins_y+_hBH))
                    ins_g.addElement(u)
                    t = Text('%s' % ins_len, ins_x+_hBW, rev_ins_y+_BH*1.3)
                    t.set_style('fill:#999999')
                    ins_g.addElement(t)
                g.addElement(ins_g)
        # print(g.getXML())
        return g
Пример #4
0
    def _add_label(self, group: Group, v_offset: int) -> Group:
        acc = Text(self.full_description, 5, 20 + v_offset)
        if self.prefix == "knownclusterblast":
            desc = "%80s (%s), %s" % (self.description, self.similarity_string,
                                      self.cluster_type)
            acc = Text(
                '<a xlink:href="https://mibig.secondarymetabolites.org/go/' +
                self.accession +
                '/%s" target="_blank">' % self.ref_cluster_number +
                self.accession + '</a>: ' + desc, 5, 20 + v_offset)
        elif self.prefix == "general":
            acc = Text(
                '<a xlink:href="https://antismash-db.secondarymetabolites.org/go/'
                + self.accession +
                '/%s" target="_blank">' % self.ref_cluster_number +
                self.full_description.replace(":", "</a>:", 1), 5,
                20 + v_offset)
        # Don't do any linking for subclusterblast

        acc.set_class("clusterblast-acc")
        group.addElement(acc)
        group.setAttribute('label', self.accession)
        group.setAttribute('description', self.full_description)
        group.set_class('clusterblast-cluster')
        return group
Пример #5
0
 def get_svg_groups(self, h_offset: int = 0, v_offset: int = 0, scaling: float = 1.,
                    screenwidth: int = 1024, colours: Dict[str, str] = None,
                    overview: bool = False, prefix: str = "dummy") -> List[Group]:
     """ Returns all SVG elements required to draw the Cluster """
     if not colours:
         colours = {}
     groups = []
     group = Group()
     self._add_label(group, v_offset)
     line_y = 35 + v_offset
     group.addElement(ShapeBuilder().createLine(10, line_y,
                                                10 + (screenwidth * 0.75), line_y,
                                                strokewidth=1, stroke="grey"))
     groups.append(group)
     # Add gene arrows
     arrow_y = line_y + 5
     offset = h_offset - self.start
     if self.reversed:
         offset = h_offset + self.end
     for i, gene in enumerate(self.genes):
         group = Group()
         arrow = gene.get_arrow_polygon(scaling=scaling, offset=offset,
                                        base=arrow_y,
                                        colour=colours.get(gene.name, "white"))
         if overview:
             label = "all_"
         else:
             label = "h"
         arrow.set_id("%s-%d_%s%d_%s_%s" % (prefix, self.query_cluster_number, label,
                                            self.query_cluster_number, self.rank, i))
         group.addElement(arrow)
         # Can be used for domains
         group.set_id("a%s_00%s" % (self.query_cluster_number, i))
         groups.append(group)
     return groups
Пример #6
0
 def makeSliceVhGroup(self) -> Tuple:
     """
     Creates and returns a 'G' object for Slice Virtual Helices.
     """
     _SLICE_SCALE = self._scale
     vh_radius = self.cn_doc.vh_radius * _SLICE_SCALE
     g = G()
     g.setAttribute('id', "VirtualHelices")
     minx = 99999
     miny = 99999
     maxx = -99999
     maxy = -99999
     for id_num in self.cn_doc.vh_order[::-1]:
         vh_x, vh_y = self.cn_doc.vh_origins[id_num]
         x = vh_x * _SLICE_SCALE  # + self.cn_doc.x_offset
         y = -vh_y * _SLICE_SCALE  # + self.cn_doc.y_offset
         minx = min(minx, x)
         miny = min(miny, y)
         maxx = max(maxx, x)
         maxy = max(maxy, y)
         c = Circle(x, y, vh_radius)
         circle_style = 'fill:#f2ca9a; stroke:#cc6600; stroke-width:1;'
         c.set_style(circle_style)
         c.setAttribute('id', "circle_"+self.cn_doc.vh_props['name'][id_num])
         g.addElement(c)
     minx = minx-vh_radius*2
     miny = miny-vh_radius*2
     width = round(maxx-minx+vh_radius*2, 3)
     height = round(maxy-miny+vh_radius*2, 3)
     transform = 'translate(%.3f %.3f)' % (-minx, -miny)
     g.set_transform(transform)
     return g, width, height, transform
Пример #7
0
 def __init__(self, x, y, z, YZgridCoord):
     self.x = float(x)*SCALING_FACTOR
     self.y = float(y)*SCALING_FACTOR
     self.z = float(z)*SCALING_FACTOR
     print(str(self.z) + ' prism')
     self.startCoord = [YZgridCoord[0], YZgridCoord[1] + self.y + SPACING]
     self.out = G()
Пример #8
0
    def genHoneycomb(self):
        outComb = G()
        circleStyle = StyleBuilder()
        #circleStyle.setStrokeWidth(0.5)
        circleStyle.setStroke('orange')
        circleStyle.setFilling('#edd239')
        CORNER = self.hCSlice.getBottomRight()

        circleY = []
        circleY.append(CORNER[1] + (ROW_SPACE - CIRCLE_RADIUS))
        for g in range(0, self.row):
            circleX = CORNER[0] - CIRCLE_RADIUS
            if (g != 0 and g % 2 != 0):
                circleY.append(circleY[g-1] + 2*CIRCLE_RADIUS)
            elif (g!= 0 and g % 2 == 0):
                circleY.append(circleY[g-1] + 2*(ROW_SPACE - CIRCLE_RADIUS))

            #initCircle = Circle(circleX, circleY[g], CIRCLE_RADIUS)
            #outComb.addElement(initCircle)
            for i in range(0, self.col):
                newShift = TransformBuilder()
                xShift = -i*CIRCLE_RADIUS*math.sqrt(3)
                yShift = 0
                if i % 2 != 0 and g % 2 != 0:
                    yShift = CIRCLE_RADIUS
                elif i % 2 != 0 and g % 2 == 0:
                    yShift = -1*CIRCLE_RADIUS
                newShift.setTranslation(str(xShift) + ' ' + str(yShift))
                a = Circle(circleX, circleY[g], CIRCLE_RADIUS)
                a.set_transform(newShift.getTransform())
                outComb.addElement(a)

        outComb.set_style(circleStyle.getStyle())
        return outComb
Пример #9
0
    def _draw_legend(self, categories):
        """
        Draw legend for the given categories.

        Box in lower right corner
            Motivation for positioning in right corner:
            SVG text cannot be centered since the text width cannot be calculated
            and the first part of each event text is important.
            ergo: text needs to be left aligned.
                  But then the probability is high that a lot of text is at the left
                  bottom
                  ergo: put the legend to the right.

          +----------+
          | Name   O |
          | Name   O |
          +----------+
        """
        group = G()
        group.addElement(self._draw_categories_box(len(categories)))
        cur_y = self._get_categories_box_y(len(categories)) + OUTER_PADDING
        for cat in categories:
            color_box, label = self._draw_category(
                self._get_categories_box_width(),
                self._get_categories_item_height(),
                self._get_categories_box_x(), cur_y, cat)
            group.addElement(color_box)
            group.addElement(label)
            cur_y = cur_y + self._get_categories_item_height() + INNER_PADDING
        return group
Пример #10
0
def drawSideFacePair(topCorners, bottomCorners, color):
    pointList = []
    pointList2 = []
    output = G()
    XYStyle1 = StyleBuilder()
    #XYStyle1.setStroke('black')
    #XYStyle1.setStrokeWidth(1.5)
    XYStyle1.setFilling(color)
    #XYStyle1.setFillOpacity(0.8)
    XYStyle2 = StyleBuilder()
    XYStyle2.setStroke(color)
    XYStyle2.setStrokeWidth(0.5)
    XYStyle2.setFilling(color)
    pointList.append(strPathStart(topCorners[2]))
    pointList.append(strPathPoint(topCorners[3]))
    pointList.append(strPathPoint(bottomCorners[3]))
    pointList.append(strPathPoint(bottomCorners[2]))
    svgCode1 = pGram(pointList)
    pointList2.append(strPathStart(topCorners[0]))
    pointList2.append(strPathPoint(topCorners[1]))
    pointList2.append(strPathPoint(bottomCorners[1]))
    pointList2.append(strPathPoint(bottomCorners[0]))
    svgCode2 = pGram(pointList2)
    rightFace = Path(svgCode1)
    rightFace.set_style(XYStyle1.getStyle())
    leftFace = Path(svgCode2)
    leftFace.set_style(XYStyle2.getStyle())
    output.addElement(leftFace)
    output.addElement(rightFace)

    return output
Пример #11
0
def drawFrontFacePair(topCorners, bottomCorners, color):
    pointList = []
    pointList2 = []
    output = G()
    YZStyle1 = StyleBuilder()
    #YZStyle1.setStroke('black')
    #YZStyle1.setStrokeWidth(1.5)
    YZStyle1.setFilling(color)
    YZStyle1.setFillOpacity(0.75)
    YZStyle2 = StyleBuilder()
    YZStyle2.setStroke('black')
    YZStyle2.setStrokeWidth(0.5)
    YZStyle2.setFillOpacity(0.75)
    YZStyle2.setFilling('#ffffff')
    pointList.append(strPathStart(topCorners[1]))
    pointList.append(strPathPoint(topCorners[2]))
    pointList.append(strPathPoint(bottomCorners[2]))
    pointList.append(strPathPoint(bottomCorners[1]))
    svgCode1 = pGram(pointList)
    pointList2.append(strPathStart(topCorners[0]))
    pointList2.append(strPathPoint(topCorners[3]))
    pointList2.append(strPathPoint(bottomCorners[3]))
    pointList2.append(strPathPoint(bottomCorners[0]))
    svgCode2 = pGram(pointList2)
    frontFace = Path(svgCode1)
    frontFace.set_style(YZStyle1.getStyle())
    backFace = Path(svgCode2)
    backFace.set_style(YZStyle2.getStyle())
    output.addElement(backFace)
    output.addElement(frontFace)

    return output
Пример #12
0
 def _get_bg(self):
     """
     Draw background color
     Draw background Era strips and labels
     Draw major and minor strips, lines to all event boxes and baseline.
     Both major and minor strips have divider lines and labels.
     Draw now line if it is visible
     """
     group = G()
     group.addElement(self._draw_background())
     for era in self._timeline.get_all_periods():
         group.addElement(self._draw_era_strip(era))
         group.addElement(self._draw_era_text(era))
     for strip in self._scene.minor_strip_data:
         group.addElement(
             self._draw_minor_strip_divider_line(strip.end_time))
         group.addElement(self._draw_minor_strip_label(strip))
     for strip in self._scene.major_strip_data:
         group.addElement(
             self._draw_major_strip_divider_line(strip.end_time))
         group.addElement(self._draw_major_strip_label(strip))
     group.addElement(self._draw_divider_line())
     self._draw_lines_to_non_period_events(group, self._view_properties)
     if self._now_line_is_visible():
         group.addElement(self._draw_now_line())
     return group
Пример #13
0
    def makePathSkipsGroup(self) -> G:
        """
        Creates and returns a 'G' object for Path VirtualHelix Labels.
        Elements are sorted in reverse order so they are listed in
        ascending order in Illustrator.
        """
        _BW = self._base_width
        _BH = self._base_height
        _pX = self.PATH_X_PADDING + self._path_radius_scaled*3
        id_coords = self.mapIdnumsToYcoords()

        part = self.cn_doc.part

        g = G()
        g.setAttribute('id', "PathSkips")
        skips = self.cn_doc.skips

        for id_num in sorted(skips.keys(), reverse=True):
            fwd_skip_y = id_coords[id_num] - _BH
            rev_skip_y = id_coords[id_num]
            for skip_idx, _ in skips[id_num][::-1]:
                skip_g = G()
                skip_g.setAttribute('id', "Skip %s[%s]" % (id_num, skip_idx))
                skip_x = _BW*skip_idx + _pX
                skip_fwd, skip_rev = part.hasStrandAtIdx(id_num, skip_idx)
                if skip_fwd:
                    u = Use()
                    u.setAttribute('xlink:href', '#skip')
                    u.setAttribute('x', skip_x)
                    u.setAttribute('y', fwd_skip_y)
                    skip_g.addElement(u)
                if skip_rev:
                    u = Use()
                    u.setAttribute('xlink:href', '#skip')
                    u.setAttribute('x', skip_x)
                    u.setAttribute('y', rev_skip_y)
                    skip_g.addElement(u)
                g.addElement(skip_g)
        return g
Пример #14
0
    def makerow(self):
        frameStyle = StyleBuilder()
        frameStyle.setStrokeWidth(1.5)
        frameStyle.setStroke('black')
        frameStyle.setFilling('white')
        out = G()
        yCoord = 10 + (FRAMELEN + 20) * self.i
        for z in range(0, 4):
            newFrame = Rect(10 + (FRAMELEN + 20) * z, yCoord, FRAMELEN,
                            FRAMELEN)
            newFrame.set_style(frameStyle.getStyle())
            out.addElement(newFrame)
            self.rowCoords.append([10 + (FRAMELEN + 20) * z, yCoord])

        return out
Пример #15
0
 def _add_label(self, group: Group, v_offset: int) -> Group:
     acc = Text(self.full_description, 5, 20 + v_offset)
     if self.accession.startswith('BGC'):
         acc = Text('<a xlink:href="http://mibig.secondarymetabolites.org/repository/'
                    + self.accession + '/index.html#cluster-1" target="_blank">'
                    + self.accession + '</a>: '
                    + "%80s (%s)" % (self.description, self.similarity), 5, 20 + v_offset)
     elif self.accession.split("_")[0] in get_antismash_db_accessions():
         acc = Text('<a xlink:href="http://antismash-db.secondarymetabolites.org/output/'
                    + self.accession + '/index.html#cluster-%s" target="_blank">' % self.ref_cluster_number[1:]
                    + self.full_description.replace(":", "</a>:"), 5, 20 + v_offset)
     acc.set_class("clusterblast-acc")
     group.addElement(acc)
     group.setAttribute('label', self.accession)
     group.setAttribute('description', self.full_description)
     group.set_class('clusterblast-cluster')
     return group
Пример #16
0
 def makePathVhGroup(self) -> G:
     """
     Creates and returns a 'G' object for Path Virtual Helices.
     """
     g = G()
     g.setAttribute('id', "VirtualHelices")
     for i in range(len(self.cn_doc.vh_order)):
         id_num = self.cn_doc.vh_order[i]
         x = self.PATH_X_PADDING
         y = self.PATH_Y_PADDING + self._path_vh_margin*i
         c = Circle(x, y, self.cn_doc.vh_radius*self._scale)
         circle_style = 'fill:#f2ca9a; stroke:#cc6600; stroke-width:1;'
         c.set_style(circle_style)
         c.setAttribute('id', "circle_"+self.cn_doc.vh_props['name'][id_num])
         g.addElement(c)
     return g
Пример #17
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 def _draw_event(self, event, rect):
     if self._scene.center_text():
         style = self._small_centered_font_style
     else:
         style = self._small_font_style
     group = G()
     group.addElement(self._draw_event_rect(event, rect))
     text_rect = rect.Get()
     if event.is_container() and EXTENDED_CONTAINER_HEIGHT.enabled():
         text_rect = rect.Get()
         text_rect = (text_rect[0], text_rect[1] - Y_TEXT_OFFSET, text_rect[2], text_rect[3])
     group.addElement(self._svg_clipped_text(event.text, text_rect, style,
                                             self._scene.center_text()))
     if event.has_data():
         group.addElement(self._draw_contents_indicator(event, rect))
     return group
Пример #18
0
 def makePathGridlinesGroup(self) -> G:
     size = self.cn_doc.max_vhelix_length
     _BW = self._base_width
     _BH = self._base_height
     g = G()
     g.setAttribute('id', "GridLines")
     for i in range(len(self.cn_doc.vh_order)):
         id_num = self.cn_doc.vh_order[i]
         x = self.PATH_X_PADDING + self._path_radius_scaled*3
         y = self.PATH_Y_PADDING + self._path_vh_margin*i
         h_lines = " ".join("M %s,%s h %s" % (x, y-_BH+j*_BH, _BW*size) for j in range(3))
         v_lines = " ".join("M %s,%s v %s" % (x+j*_BW, y-_BH, _BH*2) for j in range(int(size)+1))
         p = Path(h_lines + " " + v_lines)
         grid_style = 'fill:none; stroke:#666666; stroke-width:0.25'
         p.set_style(grid_style)
         p.setAttribute('id', "grid_"+self.cn_doc.vh_props['name'][id_num])
         g.addElement(p)
     return g
Пример #19
0
 def makePathEndpointsGroup(self) -> G:
     _BW = self._base_width
     _BH = self._base_height
     _pX = self.PATH_X_PADDING + self._path_radius_scaled*3
     id_coords = self.mapIdnumsToYcoords()
     ends5p, ends3p = self.cn_doc.getOligoEndpointsList()
     g = G()
     g.setAttribute('id', "Endpoints")
     i = 0
     for color, idnum5p, idx5p, isfwd5p in ends5p:
         if isfwd5p:
             x = _pX + idx5p*_BW + _BW*.25
             y = id_coords[idnum5p] - _BH + _BH*.05
         else:
             x = _pX + idx5p*_BW
             y = id_coords[idnum5p] + _BH*.05
         r = Rect(x=x, y=y, width=_BW*0.75, height=_BH*.9)
         endpoint_style = 'fill:%s; stroke:none; stroke-width:0.5' % color
         r.set_style(endpoint_style)
         r.setAttribute('id', "end5p_%s" % i)
         i += 1
         g.addElement(r)
     j = 0
     for color, idnum3p, idx3p, isfwd3p in ends3p:
         if isfwd3p:
             x = _pX + idx3p*_BW
             y = id_coords[idnum3p] - _BH
             x1, y1 = x, y
             x2, y2 = x1+_BW*0.75, y1+_BH/2
             x3, y3 = x, y1+_BH
         else:
             x = _pX + idx3p*_BW
             y = id_coords[idnum3p]
             x1, y1 = x+_BW, y
             x2, y2 = x+_BW*0.25, y1+_BH/2
             x3, y3 = x+_BW, y+_BH
         pts = "%s,%s %s,%s %s,%s %s,%s" % (x1, y1, x2, y2, x3, y3, x1, y1)
         p = Polygon(points=pts)
         end3p_style = 'fill:%s; stroke:none; stroke-width:0.5' % color
         p.set_style(end3p_style)
         p.setAttribute('id', "end3p_%s" % j)
         j += 1
         g.addElement(p)
     return g
Пример #20
0
    def makePathOligosGroup(self) -> G:
        id_coords = self.mapIdnumsToYcoords()
        oligo_list = self.cn_doc.getOligoList()
        _BW = self._base_width
        _BH = self._base_height
        _pX = self.PATH_X_PADDING + self._path_radius_scaled*3 + _BW/2
        g = G()
        g.setAttribute('id', "Oligos")
        i = 0
        for color, is_circular, strands in oligo_list:
            prev_id, prev5, prev3, prevX, prevY = None, None, None, 0, 0
            path_lines = []
            if is_circular:
                strands.append(strands[0])
            for id_num, idx5, idx3, isfwd, _ in strands:
                x = _pX + idx5*_BW
                if idx5 < idx3:  # top strand
                    y = id_coords[id_num] - _BH/2
                else:
                    y = id_coords[id_num] + _BH/2
                dx = (idx3-idx5)*_BW

                if prev_id is not None and id_num != prev_id:
                    # c dx1 dy1, dx2 dy2, dx dy
                    if isfwd:
                        x1 = x + abs(y-prevY)*0.03
                    else:
                        x1 = x - abs(y-prevY)*0.03
                    y1 = (y+prevY)/2
                    path_lines.append("Q %s %s, %s %s" % (x1, y1, x, y))
                    path_lines.append("h %s" % dx)
                else:
                    path_lines.append("M %s, %s h %s" % (x, y, dx))
                prev_id, prev5, prev3, prevX, prevY = id_num, idx5, idx3, x, y
            p = Path(" ".join(path_lines))
            oligo_style = 'fill:none; stroke:%s; stroke-width:2' % color
            p.set_style(oligo_style)
            p.setAttribute('id', "oligo_%s" % i)
            p.setAttribute("stroke-linejoin", "round")
            i += 1
            g.addElement(p)
        return g
Пример #21
0
 def makePathVhLabelGroup(self) -> G:
     """
     Creates and returns a 'G' object for Path VirtualHelix Labels.
     """
     g = G()
     g.setAttribute('id', "VirtualHelixLabels")
     g.setAttribute('font-size', "%s" % self._path_vh_fontsize)
     if self.useCS6font:
         g.setAttribute("font-family", "'SourceSansPro-Regular'")
     else:
         g.setAttribute("font-family", "'Source Sans Pro', sans-serif")
     g.setAttribute("text-anchor", "middle")
     for i in range(len(self.cn_doc.vh_order)):
         id_num = self.cn_doc.vh_order[i]
         x = self.PATH_X_PADDING
         y = self.PATH_Y_PADDING + self._path_vh_margin*i + self._path_radius_scaled/2.
         t = Text('%s' % id_num, x, y)
         t.setAttribute('id', "label_"+self.cn_doc.vh_props['name'][id_num])
         g.addElement(t)
     return g
Пример #22
0
    def genLabels(self):
        labels = G()
        labelStyle = StyleBuilder()
        labelStyle.setTextAnchor('middle')
        labelStyle.setFontSize(10)
        lineStyle = StyleBuilder()
        lineStyle.setStroke('#a9a9a9')
        dimLabelA = str(self.dimA) + ' nm'
        dimLabelB = str(self.dimB) + ' nm'
        # horizontal label
        cornerHL = self.view.getTopLeft()
        cornerHR = self.view.getTopRight()

        hLabelStart = [cornerHL[0], cornerHL[1] + 5]
        hLabelEnd = [cornerHR[0], cornerHR[1] + 5]

        hLine = Line(hLabelStart[0], hLabelStart[1], hLabelEnd[0], hLabelEnd[1])
        hLabel = Text(dimLabelA, (hLabelStart[0] + hLabelEnd[0])/2, hLabelEnd[1] + 20)
        hLine.set_style(lineStyle.getStyle())
        hLabel.set_style(labelStyle.getStyle())

        cornerVL = self.view.getTopLeft()
        cornerVR = self.view.getBottomLeft()

        vLabelStart = [cornerVL[0] - 5, cornerVL[1]]
        vLabelEnd = [cornerVR[0] - 5, cornerVR[1]]

        vLine = Line(vLabelStart[0], vLabelStart[1], vLabelEnd[0], vLabelEnd[1])
        vLabel = Text(dimLabelB, vLabelEnd[0] - 30, (vLabelStart[1] + vLabelEnd[1])/2)
        vLine.set_style(lineStyle.getStyle())
        vLabel.set_style(labelStyle.getStyle())
        labels.addElement(hLine)
        labels.addElement(hLabel)
        labels.addElement(vLine)
        labels.addElement(vLabel)

        #center = [self.gridCoord[0] + self.dimA*SCALING_FACTOR/2, self.gridCoord[1] + self.dimB*SCALING_FACTOR + LABEL_SHIFT]
        #dimLabel = str(self.dimA) + 'nm x ' +str(self.dimB) + 'nm'
        #labels = Text(dimLabel, center[0], center[1])
        #labels.set_style(labelStyle.getStyle())
        return labels
Пример #23
0
 def makeSliceVhLabelGroup(self, transform) -> G:
     """
     Creates and returns a 'G' object for Slice VirtualHelix Labels.
     """
     _SLICE_SCALE = self._scale
     g = G()
     g.setAttribute('id', "VirtualHelixLabels")
     g.setAttribute('font-size', "%s" % self._slice_vh_fontsize)
     if self.useCS6font:
         g.setAttribute("font-family", "'SourceSansPro-Regular'")
     else:
         g.setAttribute("font-family", "'Source Sans Pro', sans-serif")
     g.setAttribute("text-anchor", "middle")
     for id_num in self.cn_doc.vh_order[::-1]:
         vh_x, vh_y = self.cn_doc.vh_origins[id_num]
         x = vh_x  # + self.cn_doc.x_offset
         y = -vh_y + self.cn_doc.vh_radius/2.
         t = Text('%s' % id_num, x*_SLICE_SCALE, y*_SLICE_SCALE - 1)
         t.setAttribute('id', "label_"+self.cn_doc.vh_props['name'][id_num])
         g.addElement(t)
     g.set_transform(transform)
     return g
Пример #24
0
    def genLabels(self):

        labels = G()
        labelStyle = StyleBuilder()
        labelStyle.setTextAnchor('middle')
        labelStyle.setFontSize(10)
        lineStyle = StyleBuilder()
        lineStyle.setStroke('#a9a9a9')
        dimLabelA = str(self.x/SCALING_FACTOR) + ' nm'
        dimLabelB = str(self.z/SCALING_FACTOR) + ' nm'
        # horizontal label
        cornerHL = self.hCSlice.getTopLeft()
        cornerHR = self.hCSlice.getTopRight()

        hLabelStart = [cornerHL[0], cornerHL[1] + 5]
        hLabelEnd = [cornerHR[0], cornerHR[1] + 5]

        hLine = Line(hLabelStart[0], hLabelStart[1], hLabelEnd[0], hLabelEnd[1])
        hLabel = Text(dimLabelA, (hLabelStart[0] + hLabelEnd[0])/2, hLabelEnd[1] + 20)
        hLine.set_style(lineStyle.getStyle())
        hLabel.set_style(labelStyle.getStyle())

        cornerVL = self.hCSlice.getTopLeft()
        cornerVR = self.hCSlice.getBottomLeft()

        vLabelStart = [cornerVL[0] - 5, cornerVL[1]]
        vLabelEnd = [cornerVR[0] - 5, cornerVR[1]]

        vLine = Line(vLabelStart[0], vLabelStart[1], vLabelEnd[0], vLabelEnd[1])
        vLabel = Text(dimLabelB, vLabelEnd[0] - 30, (vLabelStart[1] + vLabelEnd[1])/2)
        vLine.set_style(lineStyle.getStyle())
        vLabel.set_style(labelStyle.getStyle())
        labels.addElement(hLine)
        labels.addElement(hLabel)
        labels.addElement(vLine)
        labels.addElement(vLabel)
        return labels
Пример #25
0
    def get_svg_groups(self,
                       h_offset: int = 0,
                       v_offset: int = 0,
                       scaling: float = 1.,
                       screenwidth: int = 1024,
                       colours: Dict[str, str] = None,
                       overview: bool = False,
                       prefix: str = "dummy") -> List[Group]:
        """ Returns all SVG elements required to draw the Cluster """
        if not colours:
            colours = {}
        groups = []
        group = Group()
        acc = Text(self.description, 5, 20)
        acc.set_class("clusterblast-acc")
        group.addElement(acc)
        line_y = 35 + v_offset
        group.addElement(ShapeBuilder().createLine(10,
                                                   line_y,
                                                   10 + (screenwidth * 0.75),
                                                   line_y,
                                                   strokewidth=1,
                                                   stroke="grey"))
        group.setAttribute('label', self.description)
        group.set_class('clusterblast-cluster')
        groups.append(group)

        base = line_y + 5
        offset = h_offset + 10 - self.start  # 10 for margin
        for index, gene in enumerate(self.genes):
            arrow = gene.get_arrow_polygon(scaling=scaling,
                                           offset=offset,
                                           base=base,
                                           colour=colours.get(
                                               gene.name, "white"))
            arrow.set_id("%s-%s_q%s_%s_%s" %
                         (prefix, self.region_number, index, self.rank, "all"))
            group.addElement(arrow)
        return groups
Пример #26
0
 def _svg_clipped_text(self, text, rect, style, center_text=False):
     group = G()
     group.set_clip_path("url(#%s)" % self._create_clip_path(rect))
     group.addElement(self._draw_text(text, rect, style, center_text))
     return group