def big_bounding_box(paths_n_stuff): """Finds a BB containing a collection of paths, Bezier path segments, and points (given as complex numbers).""" bbs = [] for thing in paths_n_stuff: if is_path_segment(thing) or isinstance(thing, Path): bbs.append(thing.bbox()) elif isinstance(thing, complex): bbs.append((thing.real, thing.real, thing.imag, thing.imag)) else: try: complexthing = complex(thing) bbs.append((complexthing.real, complexthing.real, complexthing.imag, complexthing.imag)) except ValueError: raise TypeError( "paths_n_stuff can only contains Path, CubicBezier, " "QuadraticBezier, Line, and complex objects.") xmins, xmaxs, ymins, ymaxs = list(zip(*bbs)) xmin = min(xmins) xmax = max(xmaxs) ymin = min(ymins) ymax = max(ymaxs) return xmin, xmax, ymin, ymax
def disvg(paths=None, colors=None, filename=os_path.join(getcwd(), 'disvg_output.svg'), stroke_widths=None, nodes=None, node_colors=None, node_radii=None, openinbrowser=True, timestamp=False, margin_size=0.1, mindim=600, dimensions=None, viewbox=None, text=None, text_path=None, font_size=None, attributes=None, svg_attributes=None): """Takes in a list of paths and creates an SVG file containing said paths. REQUIRED INPUTS: :param paths - a list of paths OPTIONAL INPUT: :param colors - specifies the path stroke color. By default all paths will be black (#000000). This paramater can be input in a few ways 1) a list of strings that will be input into the path elements stroke attribute (so anything that is understood by the svg viewer). 2) a string of single character colors -- e.g. setting colors='rrr' is equivalent to setting colors=['red', 'red', 'red'] (see the 'color_dict' dictionary above for a list of possibilities). 3) a list of rgb 3-tuples -- e.g. colors = [(255, 0, 0), ...]. :param filename - the desired location/filename of the SVG file created (by default the SVG will be stored in the current working directory and named 'disvg_output.svg'). :param stroke_widths - a list of stroke_widths to use for paths (default is 0.5% of the SVG's width or length) :param nodes - a list of points to draw as filled-in circles :param node_colors - a list of colors to use for the nodes (by default nodes will be red) :param node_radii - a list of radii to use for the nodes (by default nodes will be radius will be 1 percent of the svg's width/length) :param text - string or list of strings to be displayed :param text_path - if text is a list, then this should be a list of path (or path segments of the same length. Note: the path must be long enough to display the text or the text will be cropped by the svg viewer. :param font_size - a single float of list of floats. :param openinbrowser - Set to True to automatically open the created SVG in the user's default web browser. :param timestamp - if True, then the a timestamp will be appended to the output SVG's filename. This will fix issues with rapidly opening multiple SVGs in your browser. :param margin_size - The min margin (empty area framing the collection of paths) size used for creating the canvas and background of the SVG. :param mindim - The minimum dimension (height or width) of the output SVG (default is 600). :param dimensions - The display dimensions of the output SVG. Using this will override the mindim parameter. :param viewbox - This specifies what rectangular patch of R^2 will be viewable through the outputSVG. It should be input in the form (min_x, min_y, width, height). This is different from the display dimension of the svg, which can be set through mindim or dimensions. :param attributes - a list of dictionaries of attributes for the input paths. Note: This will override any other conflicting settings. :param svg_attributes - a dictionary of attributes for output svg. Note 1: This will override any other conflicting settings. Note 2: Setting `svg_attributes={'debug': False}` may result in a significant increase in speed. NOTES: -The unit of length here is assumed to be pixels in all variables. -If this function is used multiple times in quick succession to display multiple SVGs (all using the default filename), the svgviewer/browser will likely fail to load some of the SVGs in time. To fix this, use the timestamp attribute, or give the files unique names, or use a pause command (e.g. time.sleep(1)) between uses. """ _default_relative_node_radius = 5e-3 _default_relative_stroke_width = 1e-3 _default_path_color = '#000000' # black _default_node_color = '#ff0000' # red _default_font_size = 12 # append directory to filename (if not included) if os_path.dirname(filename) == '': filename = os_path.join(getcwd(), filename) # append time stamp to filename if timestamp: fbname, fext = os_path.splitext(filename) dirname = os_path.dirname(filename) tstamp = str(time()).replace('.', '') stfilename = os_path.split(fbname)[1] + '_' + tstamp + fext filename = os_path.join(dirname, stfilename) # check paths and colors are set if isinstance(paths, Path) or is_path_segment(paths): paths = [paths] if paths: if not colors: colors = [_default_path_color] * len(paths) else: assert len(colors) == len(paths) if isinstance(colors, str): colors = str2colorlist(colors, default_color=_default_path_color) elif isinstance(colors, list): for idx, c in enumerate(colors): if is3tuple(c): colors[idx] = "rgb" + str(c) # check nodes and nodes_colors are set (node_radii are set later) if nodes: if not node_colors: node_colors = [_default_node_color] * len(nodes) else: assert len(node_colors) == len(nodes) if isinstance(node_colors, str): node_colors = str2colorlist(node_colors, default_color=_default_node_color) elif isinstance(node_colors, list): for idx, c in enumerate(node_colors): if is3tuple(c): node_colors[idx] = "rgb" + str(c) # set up the viewBox and display dimensions of the output SVG # along the way, set stroke_widths and node_radii if not provided assert paths or nodes stuff2bound = [] if viewbox: szx, szy = viewbox[2:4] else: if paths: stuff2bound += paths if nodes: stuff2bound += nodes if text_path: stuff2bound += text_path xmin, xmax, ymin, ymax = big_bounding_box(stuff2bound) dx = xmax - xmin dy = ymax - ymin if dx == 0: dx = 1 if dy == 0: dy = 1 # determine stroke_widths to use (if not provided) and max_stroke_width if paths: if not stroke_widths: sw = max(dx, dy) * _default_relative_stroke_width stroke_widths = [sw] * len(paths) max_stroke_width = sw else: assert len(paths) == len(stroke_widths) max_stroke_width = max(stroke_widths) else: max_stroke_width = 0 # determine node_radii to use (if not provided) and max_node_diameter if nodes: if not node_radii: r = max(dx, dy) * _default_relative_node_radius node_radii = [r] * len(nodes) max_node_diameter = 2 * r else: assert len(nodes) == len(node_radii) max_node_diameter = 2 * max(node_radii) else: max_node_diameter = 0 extra_space_for_style = max(max_stroke_width, max_node_diameter) xmin -= margin_size * dx + extra_space_for_style / 2 ymin -= margin_size * dy + extra_space_for_style / 2 dx += 2 * margin_size * dx + extra_space_for_style dy += 2 * margin_size * dy + extra_space_for_style viewbox = "%s %s %s %s" % (xmin, ymin, dx, dy) if dimensions: szx, szy = dimensions else: if dx > dy: szx = str(mindim) + 'px' szy = str(int(ceil(mindim * dy / dx))) + 'px' else: szx = str(int(ceil(mindim * dx / dy))) + 'px' szy = str(mindim) + 'px' # Create an SVG file if svg_attributes: dwg = InkscapeDrawing(filename=filename, **svg_attributes) else: dwg = InkscapeDrawing(filename=filename, size=(szx, szy), viewBox=viewbox) # add paths if paths: for i, p in enumerate(paths): if isinstance(p, Path): ps = p.d() elif is_path_segment(p): ps = Path(p).d() else: # assume this path, p, was input as a Path d-string ps = p if attributes: good_attribs = {'d': ps} for key in attributes[i]: val = attributes[i][key] if key != 'd': try: dwg.path(ps, **{key: val}) good_attribs.update({key: val}) except Exception as e: warn(str(e)) dwg.add(dwg.path(**good_attribs)) else: dwg.add( dwg.path(ps, stroke=colors[i], stroke_width=str(stroke_widths[i]), fill='none')) # add nodes (filled in circles) if nodes: for i_pt, pt in enumerate([(z.real, z.imag) for z in nodes]): dwg.add(dwg.circle(pt, node_radii[i_pt], fill=node_colors[i_pt])) # add texts if text: assert isinstance(text, str) or (isinstance(text, list) and isinstance( text_path, list) and len(text_path) == len(text)) if isinstance(text, str): text = [text] if not font_size: font_size = [_default_font_size] if not text_path: pos = complex(xmin + margin_size * dx, ymin + margin_size * dy) text_path = [Line(pos, pos + 1).d()] else: if font_size: if isinstance(font_size, list): assert len(font_size) == len(text) else: font_size = [font_size] * len(text) else: font_size = [_default_font_size] * len(text) for idx, s in enumerate(text): p = text_path[idx] if isinstance(p, Path): ps = p.d() elif is_path_segment(p): ps = Path(p).d() else: # assume this path, p, was input as a Path d-string ps = p # paragraph = dwg.add(dwg.g(font_size=font_size[idx])) # paragraph.add(dwg.textPath(ps, s)) pathid = 'tp' + str(idx) dwg.defs.add(dwg.path(d=ps, id=pathid)) txter = dwg.add(dwg.text('', font_size=font_size[idx])) txter.add(txt.TextPath('#' + pathid, s)) # save svg if not os_path.exists(os_path.dirname(filename)): makedirs(os_path.dirname(filename)) dwg.save() # re-open the svg, make the xml pretty, and save it again xmlstring = md_xml_parse(filename).toprettyxml() with open(filename, 'w') as f: f.write(xmlstring) # try to open in web browser if openinbrowser: try: open_in_browser(filename) except: print("Failed to open output SVG in browser. SVG saved to:") print(filename)