Exemplo n.º 1
0
def test_text_annotation_get_window_extent():
    figure = Figure(dpi=100)
    renderer = RendererAgg(200, 200, 100)

    # Only text annotation
    annotation = Annotation('test', xy=(0, 0))
    annotation.set_figure(figure)

    text = Text(text='test', x=0, y=0)
    text.set_figure(figure)

    bbox = annotation.get_window_extent(renderer=renderer)

    text_bbox = text.get_window_extent(renderer=renderer)
    eq_(bbox.width, text_bbox.width)
    eq_(bbox.height, text_bbox.height)

    _, _, d = renderer.get_text_width_height_descent(
        'text', annotation._fontproperties, ismath=False)
    _, _, lp_d = renderer.get_text_width_height_descent(
        'lp', annotation._fontproperties, ismath=False)
    below_line = max(d, lp_d)

    # These numbers are specific to the current implementation of Text
    points = bbox.get_points()
    eq_(points[0, 0], 0.0)
    eq_(points[1, 0], text_bbox.width)
    eq_(points[0, 1], -below_line)
    eq_(points[1, 1], text_bbox.height - below_line)
Exemplo n.º 2
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def test_text_annotation_get_window_extent():
    figure = Figure(dpi=100)
    renderer = RendererAgg(200, 200, 100)

    # Only text annotation
    annotation = Annotation('test', xy=(0, 0))
    annotation.set_figure(figure)

    text = Text(text='test', x=0, y=0)
    text.set_figure(figure)

    bbox = annotation.get_window_extent(renderer=renderer)

    text_bbox = text.get_window_extent(renderer=renderer)
    eq_(bbox.width, text_bbox.width)
    eq_(bbox.height, text_bbox.height)

    _, _, d = renderer.get_text_width_height_descent(
        'text', annotation._fontproperties, ismath=False)
    _, _, lp_d = renderer.get_text_width_height_descent(
        'lp', annotation._fontproperties, ismath=False)
    below_line = max(d, lp_d)

    # These numbers are specific to the current implementation of Text
    points = bbox.get_points()
    eq_(points[0, 0], 0.0)
    eq_(points[1, 0], text_bbox.width)
    eq_(points[0, 1], -below_line)
    eq_(points[1, 1], text_bbox.height - below_line)
Exemplo n.º 3
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def chunk_limit_setup():
    N = 100_000
    dpi = 500
    w = 5 * dpi
    h = 6 * dpi

    # just fit in the width
    x = np.linspace(0, w, N)
    # and go top-to-bottom
    y = np.ones(N) * h
    y[::2] = 0

    idt = IdentityTransform()
    # make a renderer
    ra = RendererAgg(w, h, dpi)
    # setup the minimal gc to draw a line
    gc = ra.new_gc()
    gc.set_linewidth(1)
    gc.set_foreground('r')
    # make a Path
    p = Path(np.vstack((x, y)).T)
    # effectively disable path simplification (but leaving it "on")
    p.simplify_threshold = 0

    return ra, gc, p, idt
Exemplo n.º 4
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def draw_quadmesh(data, obj):
    """Returns the PGFPlots code for an graphics environment holding a
       rendering of the object.
    """
    content = []

    # Generate file name for current object
    filename, rel_filepath = files.new_filename(data, "img", ".png")

    # Get the dpi for rendering and store the original dpi of the figure
    dpi = data["dpi"]
    fig_dpi = obj.figure.get_dpi()
    obj.figure.set_dpi(dpi)

    # Render the object and save as png file
    from matplotlib.backends.backend_agg import RendererAgg

    cbox = obj.get_clip_box()
    width = int(round(cbox.extents[2]))
    height = int(round(cbox.extents[3]))
    ren = RendererAgg(width, height, dpi)
    obj.draw(ren)

    # Generate a image from the render buffer
    image = Image.frombuffer(
        "RGBA", ren.get_canvas_width_height(), ren.buffer_rgba(), "raw", "RGBA", 0, 1
    )
    # Crop the image to the actual content (removing the the regions otherwise
    # used for axes, etc.)
    # 'image.crop' expects the crop box to specify the left, upper, right, and
    # lower pixel. 'cbox.extents' gives the left, lower, right, and upper
    # pixel.
    box = (
        int(round(cbox.extents[0])),
        0,
        int(round(cbox.extents[2])),
        int(round(cbox.extents[3] - cbox.extents[1])),
    )
    cropped = image.crop(box)
    cropped.save(filename)

    # Restore the original dpi of the figure
    obj.figure.set_dpi(fig_dpi)

    # write the corresponding information to the TikZ file
    extent = obj.axes.get_xlim() + obj.axes.get_ylim()

    # Explicitly use \pgfimage as includegrapics command, as the default
    # \includegraphics fails unexpectedly in some cases
    ff = data["float format"]
    content.append(
        (
            "\\addplot graphics [includegraphics cmd=\\pgfimage,"
            "xmin=" + ff + ", xmax=" + ff + ", "
            "ymin=" + ff + ", ymax=" + ff + "] {{{}}};\n"
        ).format(*(extent + (rel_filepath,)))
    )

    return data, content
Exemplo n.º 5
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def draw_quadmesh(data, obj):
    '''Returns the PGFPlots code for an graphics environment holding a
       rendering of the object.
    '''
    content = []

    # Generate file name for current object
    if 'img number' not in data.keys():
        data['img number'] = 0

    filename = os.path.join(
        data['output dir'],
        '%s_img%03d.png' % (data['base name'], data['img number']))
    data['img number'] = data['img number'] + 1

    # Get the dpi for rendering and store the original dpi of the figure
    dpi = data['dpi']
    fig_dpi = obj.figure.get_dpi()
    obj.figure.set_dpi(dpi)

    # Render the object and save as png file
    from matplotlib.backends.backend_agg import RendererAgg
    cbox = obj.get_clip_box()
    width = int(round(cbox.extents[2]))
    height = int(round(cbox.extents[3]))
    ren = RendererAgg(width, height, dpi)
    obj.draw(ren)

    # Generate a image from the render buffer
    image = Image.frombuffer('RGBA', ren.get_canvas_width_height(),
                             ren.buffer_rgba(), 'raw', 'RGBA', 0, 1)
    # Crop the image to the actual content (removing the the regions otherwise
    # used for axes, etc.)
    # 'image.crop' expects the crop box to specify the left, upper, right, and
    # lower pixel. 'cbox.extents' gives the left, lower, right, and upper
    # pixel.
    box = (int(round(cbox.extents[0])), 0, int(round(cbox.extents[2])),
           int(round(cbox.extents[3] - cbox.extents[1])))
    cropped = image.crop(box)
    cropped.save(filename)

    # Restore the original dpi of the figure
    obj.figure.set_dpi(fig_dpi)

    # write the corresponding information to the TikZ file
    extent = obj.axes.get_xlim() + obj.axes.get_ylim()

    rel_filepath = os.path.basename(filename)
    if data['rel data path']:
        rel_filepath = os.path.join(data['rel data path'], rel_filepath)

    # Explicitly use \pgfimage as includegrapics command, as the default
    # \includegraphics fails unexpectedly in some cases
    content.append('\\addplot graphics [includegraphics cmd=\\pgfimage,'
                   'xmin=%.15g, xmax=%.15g, '
                   'ymin=%.15g, ymax=%.15g] {%s};\n' % (extent +
                                                        (rel_filepath, )))

    return data, content
Exemplo n.º 6
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def draw_quadmesh(data, obj):
    """Returns the PGFPlots code for an graphics environment holding a
    rendering of the object.
    """
    content = []

    # Generate file name for current object
    filename, rel_filepath = _files.new_filename(data, "img", ".png")

    # Get the dpi for rendering and store the original dpi of the figure
    dpi = data["dpi"]
    fig_dpi = obj.figure.get_dpi()
    obj.figure.set_dpi(dpi)

    # Render the object and save as png file
    from matplotlib.backends.backend_agg import RendererAgg

    cbox = obj.get_clip_box()
    width = int(round(cbox.extents[2]))
    height = int(round(cbox.extents[3]))
    ren = RendererAgg(width, height, dpi)
    obj.draw(ren)

    # Generate a image from the render buffer
    image = Image.frombuffer(
        "RGBA", ren.get_canvas_width_height(), ren.buffer_rgba(), "raw", "RGBA", 0, 1
    )
    # Crop the image to the actual content (removing the the regions otherwise
    # used for axes, etc.)
    # 'image.crop' expects the crop box to specify the left, upper, right, and
    # lower pixel. 'cbox.extents' gives the left, lower, right, and upper
    # pixel.
    box = (
        int(round(cbox.extents[0])),
        0,
        int(round(cbox.extents[2])),
        int(round(cbox.extents[3] - cbox.extents[1])),
    )
    cropped = image.crop(box)
    cropped.save(filename)

    # Restore the original dpi of the figure
    obj.figure.set_dpi(fig_dpi)

    # write the corresponding information to the TikZ file
    extent = obj.axes.get_xlim() + obj.axes.get_ylim()

    # Explicitly use \pgfimage as includegrapics command, as the default
    # \includegraphics fails unexpectedly in some cases
    ff = data["float format"]
    content.append(
        "\\addplot graphics [includegraphics cmd=\\pgfimage,"
        f"xmin={extent[0]:{ff}}, xmax={extent[1]:{ff}}, "
        f"ymin={extent[2]:{ff}}, ymax={extent[3]:{ff}}] {{{rel_filepath}}};\n"
    )

    return data, content
Exemplo n.º 7
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    def render(self):
        w, h = self.shape
        r = RendererAgg(w, h, 72)
        arr = np.frombuffer(r.buffer_rgba(), np.uint8)
        arr.shape = r.height, r.width, -1

        for stroke in self.strokes:
            stroke.render(r)

        image_raw = np.float32(arr, dtype=np.float32) / 255
        return rgba_to_rgb(image_raw)
Exemplo n.º 8
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 def create_mask(self, img=None, mask_shape=None):
     if mask_shape is None:
         self.height, self.width = img.shape[:2]
     else:
         self.height, self.width = mask_shape
     self.renderer = RendererAgg(self.width, self.height, 90)
     buf = self.renderer.buffer_rgba()
     arr = np.frombuffer(buf, np.uint8)
     self.array = arr.reshape(self.height, self.width, 4)
     self.mask_img.set_data(self.array)
     self.bbox.set_points(np.array([[0, 0], [self.width, self.height]]))
Exemplo n.º 9
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    def render_figure_as_image(self, wFig, hFig, dpi):
        """
        Renders a matplotlib figure using the Agg backend and stores the result
        in a C{wx.Image}.  The arguments C{wFig} and {hFig} are the width and
        height of the figure, and C{dpi} is the dots-per-inch to render at.
        """
        figure = self.figure

        if mat_ver < zoom_ver:
            old_dpi = figure.dpi.get()
            figure.dpi.set(dpi)
            old_width = figure.figwidth.get()
            figure.figwidth.set(wFig)
            old_height = figure.figheight.get()
            figure.figheight.set(hFig)

            wFig_Px = int(figure.bbox.width())
            hFig_Px = int(figure.bbox.height())

            agg = RendererAgg(wFig_Px, hFig_Px, Value(dpi))
        else:
            old_dpi = figure.get_dpi()
            figure.set_dpi(dpi)
            old_width = figure.get_figwidth()
            figure.set_figwidth(wFig)
            old_height = figure.get_figheight()
            figure.set_figheight(hFig)
            old_frameon = figure.frameon
            figure.frameon = False

            wFig_Px = int(figure.bbox.width)
            hFig_Px = int(figure.bbox.height)

            agg = RendererAgg(wFig_Px, hFig_Px, dpi)



        figure.draw(agg)

        if mat_ver < zoom_ver:
            figure.dpi.set(old_dpi)
            figure.figwidth.set(old_width)
            figure.figheight.set(old_height)
        else:
            figure.set_dpi(old_dpi)
            figure.set_figwidth(old_width)
            figure.set_figheight(old_height)
            figure.frameon = old_frameon

        image = wx.EmptyImage(wFig_Px, hFig_Px)
        image.SetData(agg.tostring_rgb())
        return image
Exemplo n.º 10
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    def render_figure_as_image(self, wFig, hFig, dpi):
        """
        Renders a matplotlib figure using the Agg backend and stores the result
        in a C{wx.Image}.  The arguments C{wFig} and {hFig} are the width and
        height of the figure, and C{dpi} is the dots-per-inch to render at.
        """
        figure = self.figure

        if mat_ver < zoom_ver:
            old_dpi = figure.dpi.get()
            figure.dpi.set(dpi)
            old_width = figure.figwidth.get()
            figure.figwidth.set(wFig)
            old_height = figure.figheight.get()
            figure.figheight.set(hFig)

            wFig_Px = int(figure.bbox.width())
            hFig_Px = int(figure.bbox.height())

            agg = RendererAgg(wFig_Px, hFig_Px, Value(dpi))
        else:
            old_dpi = figure.get_dpi()
            figure.set_dpi(dpi)
            old_width = figure.get_figwidth()
            figure.set_figwidth(wFig)
            old_height = figure.get_figheight()
            figure.set_figheight(hFig)
            old_frameon = figure.frameon
            figure.frameon = False

            wFig_Px = int(figure.bbox.width)
            hFig_Px = int(figure.bbox.height)

            agg = RendererAgg(wFig_Px, hFig_Px, dpi)
        

            
        figure.draw(agg)

        if mat_ver < zoom_ver:
            figure.dpi.set(old_dpi)
            figure.figwidth.set(old_width)
            figure.figheight.set(old_height)
        else:
            figure.set_dpi(old_dpi)
            figure.set_figwidth(old_width)
            figure.set_figheight(old_height)
            figure.frameon = old_frameon

        image = wx.EmptyImage(wFig_Px, hFig_Px)
        image.SetData(agg.tostring_rgb())
        return image
Exemplo n.º 11
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    def get_renderer(self, cleared=False):
        l, b, w, h = self.figure.bbox.bounds
        key = w, h, self.figure.dpi
        try: self._lastKey, self.renderer
        except AttributeError: need_new_renderer = True
        else:  need_new_renderer = (self._lastKey != key)

        if need_new_renderer:
            self.renderer = RendererAgg(w, h, self.figure.dpi)
            mixin_gl_renderer(self.renderer)
            self._lastKey = key
        elif cleared:
            self.renderer.clear()
        return self.renderer
Exemplo n.º 12
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    def render(self):
        """ Renders the image from the set of strokes and returns an RGB image
            with dimensions self.shape.
        """
        w, h = self.shape
        r = RendererAgg(w, h, 72)
        arr = np.frombuffer(r.buffer_rgba(), np.uint8)
        arr.shape = r.height, r.width, -1

        for stroke in self.strokes:
            stroke.render(r)

        image_raw = np.float32(arr, dtype=np.float32) / 255
        return rgba_to_rgb(image_raw)
Exemplo n.º 13
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def test_arrow_annotation_get_window_extent():
    figure = Figure(dpi=100)
    figure.set_figwidth(2.0)
    figure.set_figheight(2.0)
    renderer = RendererAgg(200, 200, 100)

    # Text annotation with arrow
    annotation = Annotation('',
                            xy=(0.0, 50.0),
                            xytext=(50.0, 50.0),
                            xycoords='figure pixels',
                            arrowprops={
                                'facecolor': 'black',
                                'width': 8,
                                'headwidth': 10,
                                'shrink': 0.0
                            })
    annotation.set_figure(figure)
    annotation.draw(renderer)

    bbox = annotation.get_window_extent()
    points = bbox.get_points()

    eq_(bbox.width, 50.0)
    assert_almost_equal(bbox.height, 10.0 / 0.72)
    eq_(points[0, 0], 0.0)
    eq_(points[0, 1], 50.0 - 5 / 0.72)
Exemplo n.º 14
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 def run(self, html):
     self.fontsize = self.original_fontsize
     self.text_fig = Figure(dpi=self.dpi)
     self.renderer = RendererAgg(self.figwidth, self.figheight, self.dpi)
     self.rows, self.num_header_rows = self.parse_html(html)
     self.col_widths = self.calculate_col_widths()
     self.row_heights = self.get_row_heights()
     self.fig = self.create_figure()
     return self.print_table()
Exemplo n.º 15
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def renderLineSampleImage(line, width, dpi = 100):
    import Debug
#    Debug.printCall(None, (line, width))
    from matplotlib.backends.backend_agg import RendererAgg as Renderer
    from matplotlib.lines import Line2D
    useValue = True
    try:
        from matplotlib.transforms import Value
    except ImportError:
        useValue = False

    from PyQt4 import QtGui

    attributes = ["antialiased", "color", "dash_capstyle", "dash_joinstyle",
                  "linestyle", "linewidth", "marker", "markeredgecolor",
                  "markeredgewidth", "markerfacecolor", "markersize",
                  "solid_capstyle", "solid_joinstyle"]

    lineAttributes = dict()
    for attribute in attributes:
        lineAttributes[attribute] = getattr(line, "get_" + attribute)()

    height = max(lineAttributes["linewidth"], lineAttributes["markersize"] * 1.4 + 2 + 2*lineAttributes["markeredgewidth"])
    pixmapWidth = int(width + lineAttributes["markersize"] * 1.4 + 2 + 2*lineAttributes["markeredgewidth"]) + 1
    markerSize = lineAttributes["markersize"]
    if(useValue):
        renderer = Renderer(pixmapWidth, height, Value(dpi))
    else:
        renderer = Renderer(pixmapWidth, height, dpi)

    linePos = int(height / 2 + 1)
    sampleLine = Line2D([markerSize, pixmapWidth - markerSize], [linePos, linePos], **lineAttributes)
    sampleLine.draw(renderer)

    lineImageStr = renderer.tostring_argb()
    lineARGB = [map(ord, lineImageStr[i:i+4]) for i in xrange(0, len(lineImageStr), 4)]

    image = QtGui.QImage(pixmapWidth, height, QtGui.QImage.Format_ARGB32)
    for x in xrange(pixmapWidth):
        for y in xrange(int(height)):
            argb = lineARGB[x + y * pixmapWidth]
            image.setPixel(x, y, QtGui.qRgba(argb[1], argb[2], argb[3], argb[0]))
    return image
Exemplo n.º 16
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    def write_header(self):
        from matplotlib.backends.backend_agg import RendererAgg

        try:
            from matplotlib.transforms import Value
        except ImportError:
            dpi = 72
        else:
            dpi = Value(72)

        self.renderer = RendererAgg(self.w, self.h, dpi)
Exemplo n.º 17
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 def create_mask(self, img=None, mask_shape=None):
     if mask_shape is None:
         self.height, self.width = img.shape[:2]
     else:
         self.height, self.width = mask_shape
     self.renderer = RendererAgg(self.width, self.height, 90)
     buf = self.renderer.buffer_rgba()
     arr = np.frombuffer(buf, np.uint8)
     self.array = arr.reshape(self.height, self.width, 4)
     self.mask_img.set_data(self.array)
     self.bbox.set_points(np.array([[0, 0], [self.width, self.height]]))
Exemplo n.º 18
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 def __init__(self, html):
     self.original_fontsize = 22
     self.fontsize = self.original_fontsize
     self.figwidth = 20
     self.dpi = 100
     self.text_fig = Figure(dpi=self.dpi)
     self.renderer = RendererAgg(20, 4, self.dpi)
     self.rows, self.num_header_rows = self.parse_html(html)
     self.col_widths = self.calculate_col_widths()
     self.row_heights = self.get_row_heights()
     self.fig = self.create_figure()
Exemplo n.º 19
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	def render_figure_as_image(self, wFig, hFig, dpi):
		"""
		Renders a Matplotlib figure using the Agg backend and stores the result
		in a class:`wx.Image`.  The arguments *wFig* and *hFig* are the width 
		and the height of the figure, and *dpi* is the dots-per-inch to render 
		at.
		"""
		figure = self.figure

		# Set new DPI, width, and height in inches
		old_dpi = figure.get_dpi()
		figure.set_dpi(dpi)
		old_width = figure.get_figwidth()
		figure.set_figwidth(wFig)
		old_height = figure.get_figheight()
		figure.set_figheight(hFig)
		old_frameon = figure.get_frameon()
		figure.set_frameon(False)

		# Width and height in pixels
		wFig_Px = int(figure.bbox.width)
		hFig_Px = int(figure.bbox.height)

		# Get renderer and use it to draw the figure
		# agg = RendererAgg(wFig_Px, hFig_Px, Value(dpi))
		agg = RendererAgg(wFig_Px, hFig_Px, dpi)
		figure.draw(agg)

		# reset back to old DPI, width and height in inches
		figure.set_dpi(old_dpi)
		figure.set_figwidth(old_width)
		figure.set_figheight(old_height)
		figure.set_frameon(old_frameon)

		# Create an empty image and set it to rendered image
		image = wx.EmptyImage(wFig_Px, hFig_Px)
		image.SetData(agg.tostring_rgb())
		return image
Exemplo n.º 20
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    def get_renderer(self, cleared=False):
        l, b, w, h = self.figure.bbox.bounds
        key = w, h, self.figure.dpi
        try: self._lastKey, self.renderer
        except AttributeError: need_new_renderer = True
        else:  need_new_renderer = (self._lastKey != key)

        if need_new_renderer:
            self.renderer = RendererAgg(w, h, self.figure.dpi)
            mixin_gl_renderer(self.renderer)
            self._lastKey = key
        elif cleared:
            self.renderer.clear()
        return self.renderer
Exemplo n.º 21
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    def write_header(self, resolution=72):
        from matplotlib.backends.backend_agg import RendererAgg, Figure
        from matplotlib.backend_bases import GraphicsContextBase

        try:
            from matplotlib.transforms import Value
        except ImportError:
            dpi = resolution
        else:
            dpi = Value(resolution)

        self.renderer = RendererAgg(self.w, self.h, dpi)
        self.figure = Figure()

        self.gc = GraphicsContextBase()
        self.gc.set_linewidth(.2)
Exemplo n.º 22
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class PNG(EPS):
    def write_header(self):
        from matplotlib.backends.backend_agg import RendererAgg
        dpi = 72
        self.renderer = RendererAgg(self.w, self.h, dpi)

    def write_trailer(self):
        # The array conversion magic is necessary to make things work with
        # matplotlib 2.0.0, 3.2.x, and 3.3.0 at the same time.
        import matplotlib.image
        buf = self.renderer.buffer_rgba()
        # Buf is of type bytes (matplotlib < 3.3.0) or memoryview.
        # That might be an implementation detail.
        array = np.frombuffer(buf, dtype=np.uint8).reshape(
            int(self.h), int(self.w), 4)
        matplotlib.image.imsave(
            self.filename, array, format="png")
Exemplo n.º 23
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def test_empty_annotation_get_window_extent():
    figure = Figure(dpi=100)
    figure.set_figwidth(2.0)
    figure.set_figheight(2.0)
    renderer = RendererAgg(200, 200, 100)

    # Text annotation with arrow
    annotation = Annotation(
        '', xy=(0.0, 50.0), xytext=(0.0, 50.0), xycoords='figure pixels')
    annotation.set_figure(figure)
    annotation.draw(renderer)

    bbox = annotation.get_window_extent()
    points = bbox.get_points()

    eq_(points[0, 0], 0.0)
    eq_(points[1, 0], 0.0)
    eq_(points[1, 1], 50.0)
    eq_(points[0, 1], 50.0)
Exemplo n.º 24
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    def __init__(self, arr, reverse=True):
        from matplotlib.transforms import Affine2D, IdentityTransform
        from matplotlib.backends.backend_agg import RendererAgg

        self.arr = arr
        self.height, self.width, _ = self.arr.shape

        renderer = RendererAgg(self.width, self.height, 90)
        img = mpl.image.BboxImage(renderer.bbox)
        img.set_data(arr)
        img.draw(renderer)

        self.renderer = renderer

        if not reverse:
            self.trans_offset = self.trans = IdentityTransform()
        else:
            self.trans_offset = Affine2D().scale(1, -1)
            self.trans = Affine2D().scale(1, -1).translate(0, self.height)
        self.parameters = {}
Exemplo n.º 25
0
# working directly with renderer and graphics contexts primitives
from matplotlib.font_manager import FontProperties
from matplotlib.backends.backend_agg import RendererAgg
from matplotlib.transforms import Value

# a 400x400 canvas at 72dpi canvas
dpi = Value(72.0)
o = RendererAgg(400,400, dpi)  

# the graphics context 
gc = o.new_gc()

# draw the background white
gc.set_foreground('w')
face = (1,1,1)  # white
o.draw_rectangle(gc, face, 0, 0, 400, 400)

# the gc's know about color strings, and can handle any matplotlib
# color arguments (hex strings, rgb, format strings, etc)
gc.set_foreground('g')
gc.set_linewidth(4)
face = (1,0,0)  # must be rgb
o.draw_rectangle(gc, face, 10, 50, 100, 200)

# draw a translucent ellipse
rgb = (0,0,1)
gc.set_alpha(0.5)
o.draw_arc(gc, rgb,  100, 100, 100, 100, 360, 360, 0)

# draw a dashed line
gc.set_dashes(0, [5, 10])
Exemplo n.º 26
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def draw_quadmesh(data, obj):
    '''Returns the PGFPlots code for an graphics environment holding a
       rendering of the object.
    '''
    content = []

    # Generate file name for current object
    if 'img number' not in data.keys():
        data['img number'] = 0

    filename = os.path.join(data['output dir'],
                            '%s_img%03d.png' % (data['base name'],
                                                data['img number'])
                            )
    data['img number'] = data['img number'] + 1

    # Get the dpi for rendering and store the original dpi of the figure
    dpi = data['dpi']
    fig_dpi = obj.figure.get_dpi()
    obj.figure.set_dpi(dpi)

    # Render the object and save as png file
    from matplotlib.backends.backend_agg import RendererAgg
    cbox = obj.get_clip_box()
    width = int(round(cbox.extents[2]))
    height = int(round(cbox.extents[3]))
    ren = RendererAgg(width, height, dpi)
    obj.draw(ren)

    # Generate a image from the render buffer
    image = Image.frombuffer('RGBA', ren.get_canvas_width_height(),
                             ren.buffer_rgba(), 'raw', 'RGBA', 0, 1)
    # Crop the image to the actual content (removing the the regions otherwise
    # used for axes, etc.)
    # 'image.crop' expects the crop box to specify the left, upper, right, and
    # lower pixel. 'cbox.extents' gives the left, lower, right, and upper
    # pixel.
    box = (int(round(cbox.extents[0])),
           0,
           int(round(cbox.extents[2])),
           int(round(cbox.extents[3] - cbox.extents[1])))
    cropped = image.crop(box)
    cropped.save(filename)

    # Restore the original dpi of the figure
    obj.figure.set_dpi(fig_dpi)

    # write the corresponding information to the TikZ file
    extent = obj.axes.get_xlim() + obj.axes.get_ylim()

    if data['rel data path']:
        rel_filepath = os.path.join(data['rel data path'],
                                    os.path.basename(filename)
                                    )
    else:
        rel_filepath = os.path.basename(filename)

    # Explicitly use \pgfimage as includegrapics command, as the default
    # \includegraphics fails unexpectedly in some cases
    content.append('\\addplot graphics [includegraphics cmd=\pgfimage,'
                   'xmin=%.15g, xmax=%.15g, '
                   'ymin=%.15g, ymax=%.15g] {%s};\n'
                   % (extent + (rel_filepath,))
                   )

    return data, content
Exemplo n.º 27
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class ImageMaskDrawer(HasTraits):
    mask_updated = Event
    drawed = Event
    is_dirty = Bool(False)

    def __init__(self, ax, img=None, mask_shape=None, canmove=True, size=None):
        self.canmove = canmove
        self.ax = ax
        if size is None:
            size = 10

        self.bbox = mtrans.Bbox(np.array([[0, 0], [10, 10]]))
        bbox = mtrans.TransformedBbox(self.bbox, ax.transData)
        self.mask_img = mimage.BboxImage(bbox,
                                         animated=True,
                                         alpha=0.6,
                                         zorder=1000)
        self.ax.add_artist(self.mask_img)

        self.create_mask(img, mask_shape)

        self.canvas = ax.figure.canvas
        self.event_ids = [
            self.canvas.mpl_connect('motion_notify_event', self.on_move),
            self.canvas.mpl_connect('draw_event', self.on_draw),
            self.canvas.mpl_connect('button_press_event', self.on_press),
            self.canvas.mpl_connect('button_release_event', self.on_release),
            self.canvas.mpl_connect('scroll_event', self.on_scroll),
        ]
        self.circle = mpatches.Circle((0, 0),
                                      size,
                                      facecolor="red",
                                      alpha=0.5,
                                      animated=True)
        self.ax.add_patch(self.circle)

        self.mask_circle = mpatches.Circle((0, 0), 10, facecolor="white", lw=0)
        self.mask_line = plt.Line2D((0, 0), (0, 0),
                                    lw=18,
                                    solid_capstyle="round",
                                    color="white")
        self.background = None
        self.last_pos = None

        self.timer = Timer(40, self.check_dirty)

    def remove(self):
        self.mask_img.remove()
        self.circle.remove()
        for event_id in self.event_ids:
            self.canvas.mpl_disconnect(event_id)

    def check_dirty(self):
        if self.is_dirty:
            self._update()
            self.is_dirty = False

    def create_mask(self, img=None, mask_shape=None):
        if mask_shape is None:
            self.height, self.width = img.shape[:2]
        else:
            self.height, self.width = mask_shape
        self.renderer = RendererAgg(self.width, self.height, 90)
        buf = self.renderer.buffer_rgba()
        arr = np.frombuffer(buf, np.uint8)
        self.array = arr.reshape(self.height, self.width, 4)
        self.mask_img.set_data(self.array)
        self.bbox.set_points(np.array([[0, 0], [self.width, self.height]]))

    def clear_mask(self):
        self.array[:, :, :-1] = 255
        self.array[:, :, -1] = 0

    def get_mask_array(self):
        return self.array[:, :, -1].copy()

    def get_mask_offset(self):
        box = self.mask_img.bbox._bbox
        return box.x0, box.y0

    def on_scroll(self, event):
        radius = self.circle.get_radius()
        radius += event.step
        radius = max(3, min(30, radius))
        self.circle.set_radius(radius)
        self.mask_circle.set_radius(radius)
        self.mask_line.set_linewidth(radius * 2 - 2)
        self._update()

    def transform_pos(self, x, y):
        box = self.mask_img.bbox._bbox
        return x - box.x0, y - box.y0

    def on_press(self, event):
        buttons = (1, 3) if self.canmove else (1, )
        if event.button in buttons and event.inaxes is self.ax:
            self.mask_img.set_visible(True)
            self.img_pos = self.mask_img.bbox._bbox.get_points()
            self.last_pos = self.transform_pos(event.xdata, event.ydata)
            self.last_pos2 = event.xdata, event.ydata
            self.mask_circle.center = self.last_pos
            if event.button == 1:
                self.mask_circle.draw(self.renderer)
                self.mask_updated = True
            self.mask_img.set_array(self.array)
            self.is_dirty = True

    def on_release(self, event):
        self.last_pos = None
        if event.button == 1 and event.inaxes is self.ax:
            self.drawed = True

    def on_draw(self, event):
        self.background = self.canvas.copy_from_bbox(self.ax.bbox)
        self.mask_img.set_array(self.array)
        self.ax.draw_artist(self.mask_img)
        if self.circle.get_visible():
            self.ax.draw_artist(self.circle)
        self.canvas.blit(self.ax.bbox)

    def on_move(self, event):
        self.is_dirty = True

        if event.inaxes != self.ax:
            self.circle.set_visible(False)
            return

        self.circle.set_visible(True)
        self.circle.center = event.xdata, event.ydata
        if event.button == 1 and self.last_pos is not None:
            pos = self.transform_pos(event.xdata, event.ydata)
            self.mask_line.set_data((self.last_pos[0], pos[0]),
                                    (self.last_pos[1], pos[1]))
            self.mask_line.draw(self.renderer)
            self.last_pos = pos
            self.mask_updated = True
        if self.canmove and event.button == 3 and self.last_pos is not None:
            xdata, ydata = event.xdata, event.ydata
            dx = self.last_pos2[0] - xdata
            dy = self.last_pos2[1] - ydata
            new_pos = self.img_pos - [dx, dy]
            self.mask_img.bbox._bbox.set_points(new_pos)
            self.mask_img.bbox.invalidate()

    def _update(self):
        if self.background is not None:
            self.canvas.restore_region(self.background)

        self.mask_img.set_array(self.array)
        self.ax.draw_artist(self.mask_img)
        if self.circle.get_visible():
            self.ax.draw_artist(self.circle)
        self.canvas.blit(self.ax.bbox)

    def update(self):
        # self.mask_img.set_array(self.array)
        self._update()

    def hide_mask(self):
        self.mask_img.set_visible(False)

    def show_mask(self):
        self.mask_img.set_visible(True)
Exemplo n.º 28
0
# working directly with renderer and graphics contexts primitives
from matplotlib.font_manager import FontProperties
from matplotlib.backends.backend_agg import RendererAgg
from matplotlib.transforms import Value

# a 400x400 canvas at 72dpi canvas
dpi = Value(72.0)
o = RendererAgg(400, 400, dpi)

# the graphics context
gc = o.new_gc()

# draw the background white
gc.set_foreground('w')
face = (1, 1, 1)  # white
o.draw_rectangle(gc, face, 0, 0, 400, 400)

# the gc's know about color strings, and can handle any matplotlib
# color arguments (hex strings, rgb, format strings, etc)
gc.set_foreground('g')
gc.set_linewidth(4)
face = (1, 0, 0)  # must be rgb
o.draw_rectangle(gc, face, 10, 50, 100, 200)

# draw a translucent ellipse
rgb = (0, 0, 1)
gc.set_alpha(0.5)
o.draw_arc(gc, rgb, 100, 100, 100, 100, 360, 360, 0)

# draw a dashed line
gc.set_dashes(0, [5, 10])
Exemplo n.º 29
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 def _renderer(self, fd):
     from matplotlib.backends.backend_agg import RendererAgg
     dpi = 72
     return RendererAgg(self.w, self.h, dpi)
Exemplo n.º 30
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class FigureCanvasWxAggModGL(FigureCanvasWxAggMod):
    glcanvas = None

    def __init__(self, *args, **kwargs):
        FigureCanvasWxAggMod.__init__(self, *args, **kwargs)
        if FigureCanvasWxAggModGL.glcanvas is None:
            win = wx.GetApp().TopWindow
            glcanvas = MyGLCanvas(win)
            FigureCanvasWxAggModGL.glcanvas = glcanvas
            glcanvas.SetMinSize((2, 2))
            glcanvas.SetMaxSize((2, 2))
            # self.SetSizer(wx.BoxSizer(wx.HORIZONTAL))
            win.GetSizer().Add(glcanvas)
            win.Layout()
            glcanvas.Refresh()

    def get_renderer(self, cleared=False):
        l, b, w, h = self.figure.bbox.bounds
        key = w, h, self.figure.dpi
        try:
            self._lastKey, self.renderer
        except AttributeError:
            need_new_renderer = True
        else:
            need_new_renderer = (self._lastKey != key)

        if need_new_renderer:
            self.renderer = RendererAgg(w, h, self.figure.dpi)
            mixin_gl_renderer(self.renderer)
            self._lastKey = key
        elif cleared:
            self.renderer.clear()
        return self.renderer

    def draw(self, *args, **kargs):
        self._update_hl_color()
        return FigureCanvasWxAggMod.draw(self, *args, **kargs)

    def draw_artist(self, drawDC=None, alist=None):
        if alist is None:
            alist = []
        gl_obj = [a for a in alist if hasattr(a, 'is_gl')]

        for o in gl_obj:
            o.is_last = False
        if len(gl_obj) > 0:
            gl_obj[-1].is_last = True
            self.renderer._k_globj = 0
            self.renderer._num_globj = len(gl_obj)
            self.renderer.no_update_id()
            #            self.renderer.no_lighting = no_lighting
            self._update_hl_color()
            FigureCanvasWxAggModGL.glcanvas._artist_mask = alist

        v = FigureCanvasWxAggMod.draw_artist(self, drawDC=drawDC, alist=alist)
        #        self.renderer.no_lighting = False
        return v

    def _update_hl_color(self):
        value = self.hl_color
        vv = list([float(x) for x in value]) + [1.0]
        vv[3] = 0.65
        FigureCanvasWxAggModGL.glcanvas._hl_color = tuple(vv[:4])

    def _onPaint(self, evt):
        #        self.glcanvas.OnPaint(evt)
        #        evt.Skip()
        FigureCanvasWxAggMod._onPaint(self, evt)

    def _onSize(self, evt=None, nocheck=False):
        FigureCanvasWxAggMod._onSize(self, evt=evt, nocheck=nocheck)
        # self.glcanvas.SetSize(self.bitmap.GetSize())

    def disable_alpha_blend(self):
        FigureCanvasWxAggModGL.glcanvas._alpha_blend = False

    def enable_alpha_blend(self):
        FigureCanvasWxAggModGL.glcanvas._alpha_blend = True
Exemplo n.º 31
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def test_renderer():
    from matplotlib.backends.backend_agg import RendererAgg
    renderer = RendererAgg(10, 20, 30)
    pickle.dump(renderer, BytesIO())
Exemplo n.º 32
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class FigureCanvasWxAggModGL(FigureCanvasWxAggMod):
    glcanvas = None
    def __init__(self, *args, **kwargs):
        FigureCanvasWxAggMod.__init__(self, *args, **kwargs)
        if FigureCanvasWxAggModGL.glcanvas is None:
            win = wx.GetApp().TopWindow 
            glcanvas = load_glcanvas()(win)
            FigureCanvasWxAggModGL.glcanvas = glcanvas
            glcanvas.SetMinSize((2,2))
            glcanvas.SetMaxSize((2,2))
            #self.SetSizer(wx.BoxSizer(wx.HORIZONTAL))
            win.GetSizer().Add(glcanvas)
            win.Layout()
            glcanvas.Refresh()
        
    def get_renderer(self, cleared=False):
        l, b, w, h = self.figure.bbox.bounds
        key = w, h, self.figure.dpi
        try: self._lastKey, self.renderer
        except AttributeError: need_new_renderer = True
        else:  need_new_renderer = (self._lastKey != key)

        if need_new_renderer:
            self.renderer = RendererAgg(w, h, self.figure.dpi)
            mixin_gl_renderer(self.renderer)
            self._lastKey = key
        elif cleared:
            self.renderer.clear()
        return self.renderer
     
    def draw(self, *args, **kargs):
        self._update_hl_color()
        return FigureCanvasWxAggMod.draw(self,  *args, **kargs)
     
    def draw_artist(self, drawDC=None, alist=None):
        if alist is None: alist = []
        gl_obj = [a for a in alist if hasattr(a, 'is_gl')]
        
        for o in gl_obj: o.is_last =  False
        if len(gl_obj) > 0:
            gl_obj[-1].is_last =  True
            self.renderer._k_globj =   0
            self.renderer._num_globj =  len(gl_obj)
            self.renderer.no_update_id()
#            self.renderer.no_lighting = no_lighting
            self._update_hl_color()            
            FigureCanvasWxAggModGL.glcanvas._artist_mask = alist

        v =  FigureCanvasWxAggMod.draw_artist(self, drawDC=drawDC, alist=alist)
#        self.renderer.no_lighting = False
        return v

    def _update_hl_color(self):
        value = self.hl_color
        vv = list([float(x) for x in value]) + [1.0]
        vv[3] = 0.65
        FigureCanvasWxAggModGL.glcanvas._hl_color = tuple(vv[:4])
        
    def _onPaint(self, evt):
#        self.glcanvas.OnPaint(evt)
#        evt.Skip()
        FigureCanvasWxAggMod._onPaint(self, evt)

    def _onSize(self, evt=None, nocheck=False):
        FigureCanvasWxAggMod._onSize(self, evt = evt, nocheck = nocheck)
        #self.glcanvas.SetSize(self.bitmap.GetSize())
        
    def disable_alpha_blend(self):
        FigureCanvasWxAggModGL.glcanvas._alpha_blend = False

    def enable_alpha_blend(self):
        FigureCanvasWxAggModGL.glcanvas._alpha_blend = True
Exemplo n.º 33
0
 def write_header(self):
     from matplotlib.backends.backend_agg import RendererAgg
     dpi = 72
     self.renderer = RendererAgg(self.w, self.h, dpi)
Exemplo n.º 34
0
class ImageMaskDrawer(HasTraits):

    mask_updated = Event
    drawed = Event
    
    def __init__(self, ax, img=None, mask_shape=None, canmove=True, size=None):
        self.canmove = canmove
        self.ax = ax
        if size is None:
            size = 10

        self.bbox = mtrans.Bbox(np.array([[0, 0], [10, 10]]))
        bbox = mtrans.TransformedBbox(self.bbox, ax.transData)
        self.mask_img = mimage.BboxImage(bbox, animated=True, alpha=0.6, zorder=1000)
        self.ax.add_artist(self.mask_img)

        self.create_mask(img, mask_shape)

        self.canvas = ax.figure.canvas
        self.canvas.mpl_connect('motion_notify_event', self.on_move)
        self.canvas.mpl_connect('draw_event', self.on_draw)
        self.canvas.mpl_connect('button_press_event', self.on_press)
        self.canvas.mpl_connect('button_release_event', self.on_release)
        self.canvas.mpl_connect('scroll_event', self.on_scroll)
        
        self.circle = mpatches.Circle((0, 0), size, facecolor="red",
                                      alpha=0.5, animated=True)                        
        self.ax.add_patch(self.circle)

        self.mask_circle = mpatches.Circle((0, 0), 10, facecolor="white", 
                                           lw=0)                                 
        self.mask_line = plt.Line2D((0, 0), (0, 0), lw=18, 
                                    solid_capstyle="round", 
                                    color="white")
        self.background = None
        self.last_pos = None

    def create_mask(self, img=None, mask_shape=None):
        if mask_shape is None:
            self.height, self.width = img.shape[:2]
        else:
            self.height, self.width = mask_shape
        self.renderer = RendererAgg(self.width, self.height, 90)
        buf = self.renderer.buffer_rgba()
        arr = np.frombuffer(buf, np.uint8)
        self.array = arr.reshape(self.height, self.width, 4)
        self.mask_img.set_data(self.array)
        self.bbox.set_points(np.array([[0, 0], [self.width, self.height]]))

    def clear_mask(self):
        self.array[:, :, :-1] = 255
        self.array[:, :, -1] = 0

    def get_mask_array(self):
        return self.array[:, :, -1].copy()
        
    def get_mask_offset(self):
        box = self.mask_img.bbox._bbox
        return box.x0, box.y0
        
    def on_scroll(self, event):
        radius = self.circle.get_radius()
        radius += event.step
        radius = max(3, min(30, radius))
        self.circle.set_radius(radius)
        self.mask_circle.set_radius(radius)
        self.mask_line.set_linewidth(radius*2 - 2)
        self._update()
        
    def transform_pos(self, x, y):
        box = self.mask_img.bbox._bbox
        return x - box.x0, y - box.y0
               
    def on_press(self, event):
        buttons = (1, 3) if self.canmove else (1, )
        if event.button in buttons and event.inaxes is self.ax:
            self.mask_img.set_visible(True)
            self.mask_img.set_animated(True)
            self.canvas.draw()
            self.img_pos = self.mask_img.bbox._bbox.get_points()
            self.last_pos = self.transform_pos(event.xdata, event.ydata)
            self.last_pos2 = event.xdata, event.ydata
            self.mask_circle.center = self.last_pos
            if event.button == 1:
                self.mask_circle.draw(self.renderer)
                self.mask_updated = True
            self.mask_img.set_array(self.array)            
            self._update()
        
    def on_release(self, event):
        self.mask_img.set_animated(False)
        self.last_pos = None
        self.canvas.draw()
        if event.button == 1 and event.inaxes is self.ax:
            self.drawed = True
        
    def on_draw(self, event):
        self.background = self.canvas.copy_from_bbox(self.ax.bbox)
        
    def on_move(self, event):
        if event.inaxes != self.ax:
            self.circle.set_visible(False)
            return
        self.circle.set_visible(True)
        self.circle.center = event.xdata, event.ydata
        if event.button == 1 and self.last_pos is not None:
            pos = self.transform_pos(event.xdata, event.ydata)
            self.mask_line.set_data((self.last_pos[0], pos[0]), 
                                    (self.last_pos[1], pos[1]))
            self.mask_line.draw(self.renderer)
            self.last_pos = pos
            self.mask_img.set_array(self.array)
            self.mask_updated = True
        if self.canmove and event.button == 3 and self.last_pos is not None:
            xdata, ydata = event.xdata, event.ydata
            dx = self.last_pos2[0] - xdata
            dy = self.last_pos2[1] - ydata
            new_pos = self.img_pos - [dx, dy]
            self.mask_img.bbox._bbox.set_points(new_pos)
            self.mask_img.bbox.invalidate()
            
        self._update()
        
    def _update(self):
        if self.background is not None:
            self.canvas.restore_region(self.background)
        if self.mask_img.get_animated():
            self.ax.draw_artist(self.mask_img)
        self.ax.draw_artist(self.circle)
        self.canvas.blit(self.ax.bbox)

    def update(self):
        self.mask_img.set_array(self.array)
        self._update()

    def hide_mask(self):
        self.mask_img.set_visible(False)

    def show_mask(self):
        self.mask_img.set_visible(True)