def _view_2d( self, figure_id=None, new_figure=False, image_view=True, render_markers=True, marker_style="o", marker_size=5, marker_face_colour="r", marker_edge_colour="k", marker_edge_width=1.0, render_numbering=False, numbers_horizontal_align="center", numbers_vertical_align="bottom", numbers_font_name="sans-serif", numbers_font_size=10, numbers_font_style="normal", numbers_font_weight="normal", numbers_font_colour="k", render_axes=True, axes_font_name="sans-serif", axes_font_size=10, axes_font_style="normal", axes_font_weight="normal", axes_x_limits=None, axes_y_limits=None, axes_x_ticks=None, axes_y_ticks=None, figure_size=(7, 7), label=None, **kwargs, ): r""" Visualization of the PointCloud in 2D. Returns ------- figure_id : `object`, optional The id of the figure to be used. new_figure : `bool`, optional If ``True``, a new figure is created. image_view : `bool`, optional If ``True`` the PointCloud will be viewed as if it is in the image coordinate system. render_markers : `bool`, optional If ``True``, the markers will be rendered. marker_style : See Below, optional The style of the markers. Example options :: {., ,, o, v, ^, <, >, +, x, D, d, s, p, *, h, H, 1, 2, 3, 4, 8} marker_size : `int`, optional The size of the markers in points. marker_face_colour : See Below, optional The face (filling) colour of the markers. Example options :: {r, g, b, c, m, k, w} or (3, ) ndarray marker_edge_colour : See Below, optional The edge colour of the markers. Example options :: {r, g, b, c, m, k, w} or (3, ) ndarray marker_edge_width : `float`, optional The width of the markers' edge. render_numbering : `bool`, optional If ``True``, the landmarks will be numbered. numbers_horizontal_align : ``{center, right, left}``, optional The horizontal alignment of the numbers' texts. numbers_vertical_align : ``{center, top, bottom, baseline}``, optional The vertical alignment of the numbers' texts. numbers_font_name : See Below, optional The font of the numbers. Example options :: {serif, sans-serif, cursive, fantasy, monospace} numbers_font_size : `int`, optional The font size of the numbers. numbers_font_style : ``{normal, italic, oblique}``, optional The font style of the numbers. numbers_font_weight : See Below, optional The font weight of the numbers. Example options :: {ultralight, light, normal, regular, book, medium, roman, semibold, demibold, demi, bold, heavy, extra bold, black} numbers_font_colour : See Below, optional The font colour of the numbers. Example options :: {r, g, b, c, m, k, w} or (3, ) ndarray render_axes : `bool`, optional If ``True``, the axes will be rendered. axes_font_name : See Below, optional The font of the axes. Example options :: {serif, sans-serif, cursive, fantasy, monospace} axes_font_size : `int`, optional The font size of the axes. axes_font_style : {``normal``, ``italic``, ``oblique``}, optional The font style of the axes. axes_font_weight : See Below, optional The font weight of the axes. Example options :: {ultralight, light, normal, regular, book, medium, roman, semibold, demibold, demi, bold, heavy, extra bold, black} axes_x_limits : `float` or (`float`, `float`) or ``None``, optional The limits of the x axis. If `float`, then it sets padding on the right and left of the PointCloud as a percentage of the PointCloud's width. If `tuple` or `list`, then it defines the axis limits. If ``None``, then the limits are set automatically. axes_y_limits : (`float`, `float`) `tuple` or ``None``, optional The limits of the y axis. If `float`, then it sets padding on the top and bottom of the PointCloud as a percentage of the PointCloud's height. If `tuple` or `list`, then it defines the axis limits. If ``None``, then the limits are set automatically. axes_x_ticks : `list` or `tuple` or ``None``, optional The ticks of the x axis. axes_y_ticks : `list` or `tuple` or ``None``, optional The ticks of the y axis. figure_size : (`float`, `float`) `tuple` or ``None``, optional The size of the figure in inches. label : `str`, optional The name entry in case of a legend. Returns ------- viewer : :map:`PointGraphViewer2d` The viewer object. """ from menpo.visualize.base import PointGraphViewer2d adjacency_array = np.empty(0) renderer = PointGraphViewer2d(figure_id, new_figure, self.points, adjacency_array) renderer.render( image_view=image_view, render_lines=False, line_colour="b", line_style="-", line_width=1.0, render_markers=render_markers, marker_style=marker_style, marker_size=marker_size, marker_face_colour=marker_face_colour, marker_edge_colour=marker_edge_colour, marker_edge_width=marker_edge_width, render_numbering=render_numbering, numbers_horizontal_align=numbers_horizontal_align, numbers_vertical_align=numbers_vertical_align, numbers_font_name=numbers_font_name, numbers_font_size=numbers_font_size, numbers_font_style=numbers_font_style, numbers_font_weight=numbers_font_weight, numbers_font_colour=numbers_font_colour, render_axes=render_axes, axes_font_name=axes_font_name, axes_font_size=axes_font_size, axes_font_style=axes_font_style, axes_font_weight=axes_font_weight, axes_x_limits=axes_x_limits, axes_y_limits=axes_y_limits, axes_x_ticks=axes_x_ticks, axes_y_ticks=axes_y_ticks, figure_size=figure_size, label=label, ) return renderer
def _view_2d(self, figure_id=None, new_figure=False, image_view=True, render_markers=True, marker_style='o', marker_size=20, marker_face_colour='r', marker_edge_colour='k', marker_edge_width=1., render_axes=True, axes_font_name='sans-serif', axes_font_size=10, axes_font_style='normal', axes_font_weight='normal', axes_x_limits=None, axes_y_limits=None, figure_size=(10, 8), label=None, **kwargs): r""" Visualization of the PointCloud in 2D. Returns ------- figure_id : `object`, optional The id of the figure to be used. new_figure : `bool`, optional If ``True``, a new figure is created. image_view : `bool`, optional If ``True`` the PointCloud will be viewed as if it is in the image coordinate system. render_lines : `bool`, optional If ``True``, the edges will be rendered. line_colour : See Below, optional The colour of the lines. Example options:: {r, g, b, c, m, k, w} or (3, ) ndarray line_style : ``{-, --, -., :}``, optional The style of the lines. line_width : `float`, optional The width of the lines. render_markers : `bool`, optional If ``True``, the markers will be rendered. marker_style : See Below, optional The style of the markers. Example options :: {., ,, o, v, ^, <, >, +, x, D, d, s, p, *, h, H, 1, 2, 3, 4, 8} marker_size : `int`, optional The size of the markers in points^2. marker_face_colour : See Below, optional The face (filling) colour of the markers. Example options :: {r, g, b, c, m, k, w} or (3, ) ndarray marker_edge_colour : See Below, optional The edge colour of the markers. Example options :: {r, g, b, c, m, k, w} or (3, ) ndarray marker_edge_width : `float`, optional The width of the markers' edge. render_axes : `bool`, optional If ``True``, the axes will be rendered. axes_font_name : See Below, optional The font of the axes. Example options :: {serif, sans-serif, cursive, fantasy, monospace} axes_font_size : `int`, optional The font size of the axes. axes_font_style : {``normal``, ``italic``, ``oblique``}, optional The font style of the axes. axes_font_weight : See Below, optional The font weight of the axes. Example options :: {ultralight, light, normal, regular, book, medium, roman, semibold, demibold, demi, bold, heavy, extra bold, black} axes_x_limits : (`float`, `float`) `tuple` or ``None``, optional The limits of the x axis. axes_y_limits : (`float`, `float`) `tuple` or ``None``, optional The limits of the y axis. figure_size : (`float`, `float`) `tuple` or ``None``, optional The size of the figure in inches. label : `str`, optional The name entry in case of a legend. Returns ------- viewer : :map:`PointGraphViewer2d` The viewer object. """ from menpo.visualize.base import PointGraphViewer2d adjacency_array = np.empty(0) renderer = PointGraphViewer2d(figure_id, new_figure, self.points, adjacency_array) renderer.render(image_view=image_view, render_lines=False, line_colour='b', line_style='-', line_width=1., render_markers=render_markers, marker_style=marker_style, marker_size=marker_size, marker_face_colour=marker_face_colour, marker_edge_colour=marker_edge_colour, marker_edge_width=marker_edge_width, render_axes=render_axes, axes_font_name=axes_font_name, axes_font_size=axes_font_size, axes_font_style=axes_font_style, axes_font_weight=axes_font_weight, axes_x_limits=axes_x_limits, axes_y_limits=axes_y_limits, figure_size=figure_size, label=label) return renderer
def _view_2d(self, figure_id=None, new_figure=False, image_view=True, render_markers=True, marker_style='o', marker_size=20, marker_face_colour='r', marker_edge_colour='k', marker_edge_width=1., render_axes=True, axes_font_name='sans-serif', axes_font_size=10, axes_font_style='normal', axes_font_weight='normal', axes_x_limits=None, axes_y_limits=None, figure_size=None, label=None, **kwargs): r""" Visualization of the PointCloud. Parameters ---------- figure_id : `object`, optional The id of the figure to be used. new_figure : `bool`, optional If ``True``, a new figure is created. image_view : `bool`, optional If ``True``, the x and y axes are flipped. render_markers : `bool`, optional If ``True``, the markers will be rendered. marker_style : {``.``, ``,``, ``o``, ``v``, ``^``, ``<``, ``>``, ``+``, ``x``, ``D``, ``d``, ``s``, ``p``, ``*``, ``h``, ``H``, ``1``, ``2``, ``3``, ``4``, ``8``}, optional The style of the markers. marker_size : `int`, optional The size of the markers in points^2. marker_face_colour : {``r``, ``g``, ``b``, ``c``, ``m``, ``k``, ``w``} or ``(3, )`` `ndarray`, optional The face (filling) colour of the markers. marker_edge_colour : {``r``, ``g``, ``b``, ``c``, ``m``, ``k``, ``w``} or ``(3, )`` `ndarray`, optional The edge colour of the markers. marker_edge_width : `float`, optional The width of the markers' edge. render_axes : `bool`, optional If ``True``, the axes will be rendered. axes_font_name : {``serif``, ``sans-serif``, ``cursive``, ``fantasy``, ``monospace``}, optional The font of the axes. axes_font_size : `int`, optional The font size of the axes. axes_font_style : {``normal``, ``italic``, ``oblique``}, optional The font style of the axes. axes_font_weight : {``ultralight``, ``light``, ``normal``, ``regular``, ``book``, ``medium``, ``roman``, ``semibold``, ``demibold``, ``demi``, ``bold``, ``heavy``, ``extra bold``, ``black``}, optional The font weight of the axes. axes_x_limits : (`float`, `float`) or `None`, optional The limits of the x axis. axes_y_limits : (`float`, `float`) or `None`, optional The limits of the y axis. figure_size : (`float`, `float`) or `None`, optional The size of the figure in inches. label : `str`, optional The name entry in case of a legend. Returns ------- viewer : :map:`PointCloudViewer` The viewer object. """ from menpo.visualize.base import PointGraphViewer2d adjacency_array = np.empty(0) renderer = PointGraphViewer2d(figure_id, new_figure, self.points, adjacency_array) renderer.render( image_view=image_view, render_lines=False, line_colour='b', line_style='-', line_width=1., render_markers=render_markers, marker_style=marker_style, marker_size=marker_size, marker_face_colour=marker_face_colour, marker_edge_colour=marker_edge_colour, marker_edge_width=marker_edge_width, render_axes=render_axes, axes_font_name=axes_font_name, axes_font_size=axes_font_size, axes_font_style=axes_font_style, axes_font_weight=axes_font_weight, axes_x_limits=axes_x_limits, axes_y_limits=axes_y_limits, figure_size=figure_size, label=label) return renderer