def anim7(svg):
    H, W = svg.get_size()
    cx, cy = W // 2, H // 2

    # define gradient color
    color_id = 'myGradient'
    defs = svg.draw(draw_any('defs'))
    grad = svg.draw_node(defs, draw_any('radialGradient ', id=f'{color_id}'))

    stop_dict = {}
    stop_dict['offset'] = '2%'
    stop_dict['stop-color'] = 'gold'
    svg.draw_node(grad, draw_any('stop', None, **stop_dict))
    stop_dict['offset'] = '90%'
    stop_dict['stop-color'] = 'red'
    svg.draw_node(grad, draw_any('stop', None, **stop_dict))

    g = svg.draw(draw_tag('g'))
    svg.set_node(g, 'opacity', '1.0')

    r = 8
    pt = [cx, cy]
    # color = 'red'
    color = f"url('#{color_id}')"
    draw_ball_movin(svg,
                    g,
                    r,
                    W,
                    H,
                    start_pt=pt,
                    step_x=-2,
                    step_y=3,
                    N=500,
                    color=color,
                    draw_path_line=True)
Exemple #2
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    def _prepare_svg(self):  # style css define
        self.svg.draw(draw_any('title ', text=self.dataDict['name']))
        styleNode = self.svg.draw(draw_any('style ', type="text/css"))

        dictStyle = {'fill': "black", 'font-family': "sans-serif", 'font-size': '28px'}
        self.svg.add_child(styleNode, self.svg.new_node(add_style('.big', get_styles(dictStyle))))
        dictStyle = {'fill': "black", 'font-family': "sans-serif", 'font-size': '20px'}
        self.svg.add_child(styleNode, self.svg.new_node(add_style('.small', get_styles(dictStyle))))
        dictStyle = {'fill': "black", 'font-family': "cursive", 'font-size': '20px'}  # cursive  fantasy monospace
        self.svg.add_child(styleNode, self.svg.new_node(add_style('.bodyText', get_styles(dictStyle))))
Exemple #3
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def drawPointsLineGraphic12(svg):
    W, H = svg.get_size()
    cx, cy = W // 2, H // 2
    N = 10

    defs = svg.draw(draw_any('defs'))  # for cliping the outside drawing
    clip = svg.draw_node(defs, draw_any('clipPath', id='clip'))
    svg.draw_node(clip, draw_any('rect', x="0", y="0", width=f"{W}", height=f"{H}"))

    group = svg.draw(draw_any('g'))
    svg.set_node(group, 'clip-path', 'url(#clip)')

    offset = 6
    # pts = random_points((50, 2), min=offset, max=W-offset)
    pts = uniform_random_points(W, H, N, N, x_offset=W//N/8, y_offset=H//N/8)
    # pts = np.array([[0, 0], [0, 1], [0, 2], [1, 0], [1, 1], [1, 2], [2, 0], [2, 1], [2, 2]])*40

    # x, y = translation_pts(pts, (cx, cy))
    # pts = combine_xy(x, y)
    # pts = center_cordinates(pts, (cx, cy))
    # print('pts.shape=', pts, pts.shape)

    vor = Voronoi(pts)
    # print('vor.vertices=', vor.vertices, vor.vertices.shape)
    # print('vor.ridge_points=', vor.ridge_points, vor.ridge_points.shape)
    # print('vor.regions=', vor.regions, len(vor.regions))
    # print('vor.ridge_vertices=', vor.ridge_vertices, len(vor.ridge_vertices))
    # print('vor.point_region=', vor.point_region, len(vor.point_region))

    f_segments, i_segments = get_voronoi_lines(vor)
    f_segments = [i.flatten() for i in f_segments]
    i_segments = [i.flatten() for i in i_segments]
    # print('f_segments=', f_segments)
    # print('i_segments=', i_segments)

    # draw Voronoi ridges--lines
    for i in f_segments:
        drawlinePoints(svg, [i], node=group, color='green')
    for i in i_segments:
        drawlinePoints(svg, [i], node=group, color='green', dash='None')

    draw_voronoi_regions(svg, group, vor)  # color regions

    drawPointsCircle(svg, pts, node=group, r=1, color='black')
    drawPointsCircle(svg, vor.vertices, node=group, r=0.8, color='green')
Exemple #4
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def imgSvgElement():
    file = gImageOutputPath + r'\image.svg'
    svg = SVGFileV2(file, W=200, H=200, border=False)
    W, H = svg.get_size()

    styleDict = {}
    styleDict['x'] = '0'
    styleDict['y'] = '0'  # 'green'
    styleDict['width'] = 100
    styleDict['height'] = 100
    # styleDict['href'] = 'https://www.python.org/static/img/[email protected]'
    styleDict['href'] = r'../images/download.png'
    # styleDict['preserveAspectRatio'] = 'none'
    # styleDict['crossorigin'] = ''
    svg.draw(draw_any('image ', **styleDict))
    styleDict['x'] = '20'
    styleDict['y'] = '20'  # 'green'
    svg.draw(draw_any('image ', **styleDict))
Exemple #5
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def drawDataFrame(svg):
    H, W = svg.get_size()
    cx, cy = W // 2, H // 2
    svg.set_title('draw Dataframe data')

    g = svg.draw(draw_any('g', opacity=1.0))
    # anyNode = svg.draw_node(g, draw_any('test','222', a=10, b="4",c='red',xml='www.ss'))
    # svg.draw_node(g, draw_any('test','hello'))
    df = getDataSet()
    plotTable(svg, g, df, TableContentStyle.TEXT)
Exemple #6
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def drawPointsLineGraphic13(svg):
    W, H = svg.get_size()
    cx, cy = W // 2, H // 2
    r = 55
    cy -= 20

    g = svg.draw(draw_any('g'))
    svg.draw_node(g, draw_ring(cx, cy, radius=r))

    pts_12 = get_regular_ngons(r, 12)
    pts_12 = translation_pts(pts_12, (cx, cy), True)
    # print('pts_12, pts_12.shape', pts_12, pts_12.shape)
    drawPointsCircle(svg, pts_12, node=g, r=1, color='green')
    drawPloygonNode(svg, pts_12, g, color='blue')

    pts_6 = get_regular_ngons(r, 6)
    pts_6 = translation_pts(pts_6, (cx, cy), True)
    # print('pts_6, pts_6.shape', pts_6, pts_6.shape)
    drawPointsCircle(svg, pts_6, node=g, r=1, color='red')
    drawPloygonNode(svg, pts_6, g, color='green')

    # draw lines
    linePts = np.array([]).reshape(0, 2)
    for pt in pts_6:
        linePts = np.vstack((linePts, pt))
        linePts = np.vstack((linePts, [cx, cy]))

    linePts = np.vstack((linePts, [cx, cy]))
    linePts = np.vstack((linePts, pts_12[3]))
    # print('linePts=', linePts)
    drawlinePointsContinus(svg, linePts, stroke_width=0.5, color='black')

    svg.draw_node(g, draw_text(52, 15, "Pi Day of 2022", fontsize='12px'))
    svg.draw_node(g, draw_text(25, 145, "Liu Hui's π algorithm", fontsize='10px'))
    svg.draw_node(g, draw_text(15, 155, "S_2N = Chord*R*N, where N=6,12,24,48,...", fontsize='8px'))

    strs = []
    y0 = 165
    x0 = 2

    r = 1
    chord_len = r  # chord length of hexagon equal to r
    for i in range(1, 11):
        N = np.power(2, i - 1) * 6
        # s = area_regular_polygon(N=N)
        s, chord_len = chord_length(r=1, pre_chord_len=chord_len, N=N)
        # print('N, s, chord_len=', N, s, chord_len)
        x = f'S_{2*N}={s}'
        print(x)
        strs.append(x)

        if i % 2 == 0:
            svg.draw_node(g, draw_text(x0, y0, ','.join(strs), fontsize='7px'))
            y0 += 8
            strs = []
Exemple #7
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def plotTable(svg, node, df, style=TableContentStyle.TEXT):
    W, H = svg.get_size()
    print('df.shape=', df.shape)
    indexs = df.index
    columns = df.columns
    print('indexs=', indexs)
    print('columns=', columns)
    print(df)
    row, col = df.shape

    offsetX = 5
    offsetY = 5
    colWidth = (W - 2 * offsetX) / (col + 1)  # 45
    rowHeight = (H - 2 * offsetY) / (row + 1)  # 25

    styleDict = {}
    styleDict['stroke'] = 'black'
    styleDict['stroke-width'] = '0.5'
    svg.draw_node(node, add_style('line', get_styles(styleDict)))

    anyDict = {}
    # anyDict['stroke'] = 'black'
    # anyDict['stroke-width'] = 0.5
    for i in range(row + 2):
        x1 = offsetX
        y1 = offsetY + i * rowHeight
        x2 = x1 + (col + 1) * colWidth
        y2 = y1

        anyDict['x1'] = x1
        anyDict['y1'] = y1
        anyDict['x2'] = x2
        anyDict['y2'] = y2
        svg.draw_node(node, draw_any('line', **anyDict))

    for i in range(col + 2):
        x1 = offsetX + i * colWidth
        y1 = offsetY
        x2 = x1
        y2 = y1 + (row + 1) * rowHeight

        anyDict['x1'] = x1
        anyDict['y1'] = y1
        anyDict['x2'] = x2
        anyDict['y2'] = y2
        svg.draw_node(node, draw_any('line', **anyDict))

    styleDict = {}
    # styleDict['fill'] = 'black'
    styleDict['font-family'] = 'Consolas'
    # styleDict['font-size'] = '22px'
    styleDict['dominant-baseline'] = "middle"
    styleDict['text-anchor'] = "middle"

    svg.draw_node(node, add_style('text', get_styles(styleDict)))

    anyDict = {}
    anyDict['font-size'] = '14px'
    anyDict['fill'] = 'red'
    """draw index text"""
    for i, index in enumerate(indexs):
        # print(index)
        x1 = offsetX
        y1 = offsetY + (i + 1) * rowHeight
        x = x1 + colWidth / 2
        y = y1 + rowHeight / 2

        anyDict['x'] = x
        anyDict['y'] = y
        svg.draw_node(node, draw_any('text', index, **anyDict))
    """draw column text"""
    for i, column in enumerate(columns):
        # print(column)
        x1 = offsetX + (i + 1) * colWidth
        y1 = offsetY
        x = x1 + colWidth / 2
        y = y1 + rowHeight / 2

        anyDict['x'] = x
        anyDict['y'] = y
        svg.draw_node(node, draw_any('text', column, **anyDict))
    """draw content text"""
    for i in range(row):
        for j in range(col):
            x = offsetX + (j + 1) * colWidth
            y = offsetY + (i + 1) * rowHeight

            g = svg.draw_node(
                node, draw_any('g', opacity=1.0, id=str(i) + '_' + str(j)))

            if style == TableContentStyle.TEXT:
                anyDict['x'] = x + colWidth / 2
                anyDict['y'] = y + rowHeight / 2
                anyDict['font-size'] = '12px'
                anyDict['fill'] = 'black'
                svg.draw_node(g, draw_any('text', df.iloc[i, j], **anyDict))
            elif style == TableContentStyle.COLOR:
                anyDict['x'] = x
                anyDict['y'] = y
                anyDict['width'] = colWidth
                anyDict['height'] = rowHeight

                maxV = np.max(df.values)
                minV = np.min(df.values)
                scalar = (df.iloc[i, j] - minV) / (maxV - minV)
                anyDict['fill'] = color_fader('#C0392B', '#3498DB',
                                              scalar)  # 'b'
                svg.draw_node(g, draw_any('rect', df.iloc[i, j], **anyDict))
            elif style == TableContentStyle.SMILE:
                r = rowHeight // 2 - 1
                x = x + colWidth / 2 - r
                y = y + rowHeight / 2 - r

                r = clip_float(r)
                x = clip_float(x)
                y = clip_float(y)
                drawSmileSVGNode(svg, g, radius=r, offsetX=x, offsetY=y)
                # svg.draw_node(node, draw_any('rect', df.iloc[i,j], **anyDict))
                # svg.draw_node(node, draw_any('circle', cx=x,cy=y,r=2,fill='red'))
            else:
                print('Not implement yet.')
def drawAllTypePath(svg):
    H, W = svg.get_size()
    cx, cy = W // 2, H // 2
    svg.set_title('draw path')
    g = svg.draw(draw_any('g', opacity=1.0))

    anyDict = {}
    anyDict['stroke'] = 'black'
    anyDict['fill'] = 'transparent'

    anyDict['d'] = 'M 10 10 C 20 20, 40 20, 50 10'
    svg.draw_node(g, draw_any('path', **anyDict))
    anyDict['d'] = 'M 70 10 C 70 20, 110 20, 110 10'
    svg.draw_node(g, draw_any('path', **anyDict))
    anyDict['d'] = 'M 130 10 C 120 20, 180 20, 170 10'
    svg.draw_node(g, draw_any('path', **anyDict))
    anyDict['d'] = 'M 10 30 C 20 50, 40 50, 50 30'
    svg.draw_node(g, draw_any('path', **anyDict))
    anyDict['d'] = 'M 70 30 C 70 50, 110 50, 110 30'
    svg.draw_node(g, draw_any('path', **anyDict))
    anyDict['d'] = 'MM 130 30 C 120 50, 180 50, 170 30'
    svg.draw_node(g, draw_any('path', **anyDict))
    anyDict['d'] = 'M 10 50 C 20 80, 40 80, 50 50'
    svg.draw_node(g, draw_any('path', **anyDict))
    anyDict['d'] = 'M 70 50 C 70 80, 110 80, 110 50'
    svg.draw_node(g, draw_any('path', **anyDict))
    anyDict['d'] = 'M 130 50 C 120 80, 180 80, 170 50'
    svg.draw_node(g, draw_any('path', **anyDict))

    # anyDict['d'] = 'M 10 10 10 60 60 30'
    # svg.draw_node(g, draw_any('path', **anyDict))

    anyDict['d'] = 'M 10 315    \
           L 110 215    \
           A 30 50 0 0 1 162.55 162.45  \
           L 172.55 152.45  \
           A 30 50 -45 0 1 215.1 109.9  \
           L 315 10'

    anyDict['fill'] = 'green'
    anyDict['stroke-width'] = '2'
    svg.draw_node(g, draw_any('path', **anyDict))
def drawAny(svg):
    H, W = svg.get_size()
    cx, cy = W // 2, H // 2
    svg.set_title('you can draw anything by using draw_any()')

    g = svg.draw(draw_any('g', opacity=1.0))
    # anyNode = svg.draw_node(g, draw_any('test','222', a=10, b="4",c='red',xml='www.ss'))
    svg.draw_node(g, draw_any('test', 'hello'))

    anyDict = {}
    anyDict['test'] = 1
    anyDict['xml'] = 'www.ggg'
    anyDict['a'] = 'aaaaa anything else'
    anyDict['b'] = 'red black xxxxxxxxxxxxxxxxx anything you want'
    svg.draw_node(g, draw_any('test2', **anyDict))
    svg.draw_node(g, draw_any('hello', **anyDict))
    svg.draw_node(g, draw_any('anything', **anyDict))

    for i in range(20):
        anyDict = {}
        anyDict['cx'] = cx
        anyDict['cy'] = cy
        anyDict['r'] = '5'
        anyDict['stroke'] = '#80ff00'
        anyDict['stroke-width'] = '2'
        anyDict['fill'] = 'none'

        circle = svg.draw_node(g, draw_any('circle', **anyDict))
        # 'from' is a key word of python for import libs, but here last resort change parameter
        # from(attribute of animate element for svg) to 'From' to avoid conflict.
        svg.draw_node(
            circle,
            draw_any('animate',
                     fill='freeze',
                     attributeName='r',
                     From="5",
                     to="80",
                     dur="4s",
                     begin=str(i),
                     repeatCount="indefinite"))

        anyDict = {}
        anyDict['fill'] = 'freeze'
        anyDict['attributeName'] = 'fill'
        anyDict['from'] = '#ff0000'
        anyDict['to'] = '#00ff40'
        anyDict['dur'] = '6s'
        anyDict['begin'] = '0s'
        anyDict['repeatCount'] = 'indefinite'
        # svg.draw_node(circle, draw_any('animate', **anyDict))

        anyDict['attributeName'] = 'stroke-width'
        anyDict['values'] = '1;2;3;2;1'
        anyDict.pop("from", None)
        anyDict.pop("to", None)
        svg.draw_node(circle, draw_any('animate', **anyDict))

        anyDict['attributeName'] = 'stroke'
        anyDict['from'] = '#80ff00'
        anyDict['to'] = '#0000ff'
        anyDict['begin'] = '1s'
        anyDict.pop("values", None)
        svg.draw_node(circle, draw_any('animate', **anyDict))
Exemple #10
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    def _draw_(self):
        self._prepare_svg()
        W, H = self.svg.get_size()
        # ----------------header------------------- #
        dictLink = {}
        dictLink["{{{}}}".format(self.svg._xlink) + 'href'] = self.dataDict['wiki']
        aLink = self.svg.draw(draw_any(tag='a'))
        self.svg.set_node_dict(aLink, dictLink)

        itemW = 110
        itemH = 150
        styleImg = {}
        styleImg['width'] = str(itemW)
        styleImg['height'] = str(itemH)
        styleImg['x'] = str(0)
        styleImg['y'] = str(0)
        styleImg['href'] = self.dataDict['photo']

        if 0:
            # self.svg.draw(draw_any('image', **styleImg))
            self.svg.add_child(aLink, self.svg.new_node(draw_any('image', **styleImg)))
        else:
            self.draw_portrait(aLink, styleImg['href'], itemW, itemH, (0, 0))

        y0 = 30
        x0 = itemW + 5
        node = self.svg.draw(draw_any(tag='text', x=x0, y=y0, text=self.dataDict['name']))
        self.svg.set_node(node, 'class', 'big')

        node = self.svg.draw(draw_any(tag='text', x=x0, y=y0 + 30, text=self.dataDict['name_cn']))
        self.svg.set_node(node, 'class', 'big')

        date = '(' + self.dataDict['date_birth'] + ' - ' + self.dataDict['date_death'] + ')'
        node = self.svg.draw(draw_any(tag='text', x=x0, y=y0 + 60, text=date))
        self.svg.set_node(node, 'class', 'small')

        node = self.svg.draw(draw_any(tag='text', x=x0, y=y0 + 90, text=self.dataDict['profile']))
        self.svg.set_node(node, 'class', 'small')

        # ----------------split line--------------- #
        self.svg.draw(draw_rect(x=0, y=itemH, width=W, height=0.01 * H, stroke_width=0.2, color='#FCC64A'))

        # ----------------body--------------------- #
        y0 = itemH + 10
        nodeTextBody = self.svg.draw(draw_any(tag='text'))
        self.svg.set_node(nodeTextBody, 'class', 'bodyText')

        dictStyle = {'dy': "0.2em", 'x': "10"}
        for i, txts in enumerate(self.dataDict['quotes'], start=1):
            # dictStyle['y'] = str(y0)
            for k, lineText in enumerate(txts, start=1):
                if k == 1:
                    s = str(i) + '. ' + lineText
                else:
                    s = lineText

                y0 += 30
                dictStyle['y'] = str(y0)
                line = self.svg.new_node(draw_any(tag='tspan', text=s, **dictStyle))
                self.svg.add_child(nodeTextBody, line)
            y0 += 20