cairo_draw.py 35.7 KB
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#! /usr/bin/env python
# -*- coding: utf-8 -*-
#
# graph_tool -- a general graph manipulation python module
#
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# Copyright (C) 2007-2012 Tiago de Paula Peixoto <tiago@skewed.de>
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#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program.  If not, see <http://www.gnu.org/licenses/>.

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from __future__ import division, absolute_import, print_function

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import os
import warnings

try:
    import cairo
except ImportError:
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    msg = "Error importing cairo. Graph drawing will not work."
    warnings.filterwarnings("always", msg, ImportWarning)
    warnings.warn(msg, ImportWarning)
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    raise
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try:
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    import matplotlib
    #import matplotlib.cm
    #import matplotlib.colors
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except ImportError:
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    msg = "Error importing matplotlib module. Graph drawing will not work."
    warnings.filterwarnings("always", msg, ImportWarning)
    warnings.warn(msg, ImportWarning)
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    raise
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import numpy as np
import gzip
import bz2
import zipfile
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import copy
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from collections import defaultdict

from .. import GraphView, PropertyMap, ungroup_vector_property,\
     group_vector_property, _prop
from .. stats import label_parallel_edges, label_self_loops

from .. dl_import import dl_import
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dl_import("from . import libgraph_tool_draw")
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try:
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    from .libgraph_tool_draw import vertex_attrs, edge_attrs, vertex_shape,\
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        edge_marker
except ImportError:
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    msg = "Error importing cairo-based drawing library. " + \
        "Was graph-tool compiled with cairomm support?"
    warnings.filterwarnings("always", msg, ImportWarning)
    warnings.warn(msg, ImportWarning)
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from .. draw import sfdp_layout, random_layout, _avg_edge_distance, \
    coarse_graphs

_vdefaults = {
    "shape": "circle",
    "color": [0, 0, 0, 1],
    "fill_color": [0.640625, 0, 0, 0.9],
    "size": 5,
    "pen_width": 0.8,
    "halo": 0,
    "halo_color": [0., 0., 1., 0.5],
    "text": "",
    "text_color": [0., 0., 0., 1.],
    "text_position": -1.,
    "font_family": "serif",
    "font_slant": cairo.FONT_SLANT_NORMAL,
    "font_weight": cairo.FONT_WEIGHT_NORMAL,
    "font_size": 12.
    }

_edefaults = {
    "color": [0.1796875, 0.203125, 0.2109375, 0.8],
    "pen_width": 1,
    "start_marker": "none",
    "mid_marker": "none",
    "end_marker": "none",
    "marker_size": 4.,
    "control_points": [],
    }


def shape_from_prop(shape, enum):
    if isinstance(shape, PropertyMap):
        if shape.key_type() == "v":
            prop = shape.get_graph().new_vertex_property("int")
            descs = shape.get_graph().vertices()
        else:
            descs = shape.get_graph().edges()
            prop = shape.get_graph().new_edge_property("int")
        offset = min(enum.values.keys())
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        vals = dict([(k - offset, v) for k, v in list(enum.values.items())])
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        for v in descs:
            if shape.value_type() == "string":
                prop[v] = int(enum.__dict__[shape[v]])
            elif shape[v] in vals:
                prop[v] = int(vals[shape[v]])
            else:
                prop[v] = int(vals[hash(shape[v]) % len(vals)])
        return prop

    if isinstance(shape, str):
        return int(enum.__dict__[shape])
    else:
        return shape

    raise ValueError("Invalid value for attribute %s: %s" %
                     (repr(enum), repr(shape)))


def _convert(attr, val, cmap):
    if attr == vertex_attrs.shape:
        return shape_from_prop(val, vertex_shape)
    if attr in [edge_attrs.start_marker, edge_attrs.mid_marker,
                edge_attrs.end_marker]:
        return shape_from_prop(val, edge_marker)

    if attr in [vertex_attrs.color, vertex_attrs.fill_color,
                vertex_attrs.text_color, edge_attrs.color]:
        if isinstance(val, list):
            return val
        if isinstance(val, (tuple, np.ndarray)):
            return list(val)
        if isinstance(val, str):
            return list(matplotlib.colors.ColorConverter().to_rgba(val))
        if isinstance(val, PropertyMap):
            if val.value_type() in ["vector<double>", "vector<long double>"]:
                return val
            if val.value_type() in ["int32_t", "int64_t", "double",
                                    "long double", "unsigned long", "bool"]:
                if val.fa is None:
                    vrange = val[val.get_graph().vertex(0)]
                    vrange = [vrange, vrange]
                    for v in val.get_graph().vertices():
                        vrange[0] = min(vrange[0], val[v])
                        vrange[1] = max(vrange[1], val[v])
                else:
                    vrange = [val.fa.min(), val.fa.max()]
                cnorm = matplotlib.colors.normalize(vmin=vrange[0],
                                                    vmax=vrange[1])
                if val.key_type() == "v":
                    prop = val.get_graph().new_vertex_property("vector<double>")
                    descs = val.get_graph().vertices()
                else:
                    prop = val.get_graph().new_edge_property("vector<double>")
                    descs = val.get_graph().edges()
                for v in descs:
                    prop[v] = cmap(cnorm(val[v]))
                return prop
            if val.value_type() == "string":
                if val.key_type() == "v":
                    prop = val.get_graph().new_vertex_property("vector<double>")
                    for v in val.get_graph().vertices():
                        prop[v] = matplotlib.colors.ColorConverter().to_rgba(val[v])
                elif val.key_type() == "e":
                    prop = val.get_graph().new_edge_property("vector<double>")
                    for e in val.get_graph().edges():
                        prop[e] = matplotlib.colors.ColorConverter().to_rgba(val[e])
                return prop
        raise ValueError("Invalid value for attribute %s: %s" %
                         (repr(attr), repr(val)))
    return val


def _attrs(attrs, d, g, cmap):
    nattrs = {}
    defaults = {}
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    for k, v in list(attrs.items()):
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        try:
            if d == "v":
                attr = vertex_attrs.__dict__[k]
            else:
                attr = edge_attrs.__dict__[k]
        except KeyError:
            warnings.warn("Unknown attribute: " + k, UserWarning)
            continue
        if isinstance(v, PropertyMap):
            nattrs[int(attr)] = _prop(d, g, _convert(attr, v, cmap))
        else:
            defaults[int(attr)] = _convert(attr, v, cmap)
    return nattrs, defaults


def get_attr(attr, d, attrs, defaults):
    if attr in attrs:
        p = attrs[attr]
    else:
        p = defaults[attr]
    if isinstance(p, PropertyMap):
        return p[d]
    else:
        return p


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def position_parallel_edges(g, pos, loop_angle=float("nan"),
                            parallel_distance=1):
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    lp = label_parallel_edges(GraphView(g, directed=False))
    ll = label_self_loops(g)
    g = GraphView(g, directed=True)
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    if ((len(lp.fa) == 0 or lp.fa.max() == 0) and
        (len(ll.fa) == 0 or ll.fa.max() == 0)):
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        return []
    else:
        spline = g.new_edge_property("vector<double>")
        libgraph_tool_draw.put_parallel_splines(g._Graph__graph,
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                                                _prop("v", g, pos),
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                                                _prop("e", g, lp),
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                                                _prop("e", g, spline),
                                                loop_angle,
                                                parallel_distance)
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        return spline


def parse_props(prefix, args):
    props = {}
    others = {}
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    for k, v in list(args.items()):
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        if k.startswith(prefix + "_"):
            props[k.replace(prefix + "_", "")] = v
        else:
            others[k] = v
    return props, others


def cairo_draw(g, pos, cr, vprops=None, eprops=None, vorder=None, eorder=None,
               nodesfirst=False, vcmap=matplotlib.cm.jet,
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               ecmap=matplotlib.cm.jet, loop_angle=float("nan"),
               parallel_distance=None, **kwargs):
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    r"""
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    Draw a graph to a :mod:`cairo` context.

    Parameters
    ----------
    g : :class:`~graph_tool.Graph`
        Graph to be drawn.
    pos : :class:`~graph_tool.PropertyMap`
        Vector-valued vertex property map containing the x and y coordinates of
        the vertices.
    cr : :class:`~cairo.Context`
        A :class:`~cairo.Context` instance.
    vprops : dict (optional, default: ``None``)
        Dictionary with the vertex properties. Individual properties may also be
        given via the ``vertex_<prop-name>`` parameters, where ``<prop-name>`` is
        the name of the property.
    eprops : dict (optional, default: ``None``)
        Dictionary with the vertex properties. Individual properties may also be
        given via the ``edge_<prop-name>`` parameters, where ``<prop-name>`` is
        the name of the property.
    vorder : :class:`~graph_tool.PropertyMap` (optional, default: ``None``)
        If provided, defines the relative order in which the vertices are drawn.
    eorder : :class:`~graph_tool.PropertyMap` (optional, default: ``None``)
        If provided, defines the relative order in which the edges are drawn.
    nodesfirst : bool (optional, default: ``False``)
        If ``True``, the vertices are drawn first, otherwise the edges are.
    vcmap : :class:`matplotlib.colors.Colormap` (default: :class:`matplotlib.cm.jet`)
        Vertex color map.
    ecmap : :class:`matplotlib.colors.Colormap` (default: :class:`matplotlib.cm.jet`)
        Edge color map.
    loop_angle : float (optional, default: ``nan``)
        Angle used to draw self-loops. If ``nan`` is given, they will be placed
        radially from the center of the layout.
    parallel_distance : float (optional, default: ``None``)
        Distance used between parallel edges. If not provided, it will be
        determined automatically.
    vertex_* : :class:`~graph_tool.PropertyMap` or arbitrary types (optional, default: ``None``)
        Parameters following the pattern ``vertex_<prop-name>`` specify the
        vertex property with name ``<prop-name>``, as an alternative to the
        ``vprops`` parameter.
    edge_* : :class:`~graph_tool.PropertyMap` or arbitrary types (optional, default: ``None``)
        Parameters following the pattern ``edge_<prop-name>`` specify the edge
        property with name ``<prop-name>``, as an alternative to the ``eprops``
        parameter.
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    """

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    vprops = {} if vprops is None else copy.copy(vprops)
    eprops = {} if eprops is None else copy.copy(eprops)
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    props, kwargs = parse_props("vertex", kwargs)
    vprops.update(props)
    props, kwargs = parse_props("edge", kwargs)
    eprops.update(props)
    for k in kwargs:
        warnings.warn("Unknown parameter: " + k, UserWarning)

    if "control_points" not in eprops:
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        if parallel_distance is None:
            parallel_distance = vprops.get("size", _vdefaults["size"])
            if isinstance(parallel_distance, PropertyMap):
                parallel_distance = parallel_distance.fa.mean()
            parallel_distance /= 1.5
            M = cr.get_matrix()
            scale = transform_scale(M, 1,)
            parallel_distance /= scale
        eprops["control_points"] = position_parallel_edges(g, pos, loop_angle,
                                                           parallel_distance)
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    if g.is_directed() and "end_marker" not in eprops:
        eprops["end_marker"] = "arrow"
    vattrs, vdefaults = _attrs(vprops, "v", g, vcmap)
    eattrs, edefaults = _attrs(eprops, "e", g, ecmap)
    vdefs = _attrs(_vdefaults, "v", g, vcmap)[1]
    vdefs.update(vdefaults)
    edefs = _attrs(_edefaults, "e", g, ecmap)[1]
    edefs.update(edefaults)
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    if "control_points" not in eprops:
        if parallel_distance is None:
            parallel_distance = _defaults
        eprops["control_points"] = position_parallel_edges(g, pos, loop_angle,
                                                           parallel_distance)

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    g = GraphView(g, directed=True)
    libgraph_tool_draw.cairo_draw(g._Graph__graph, _prop("v", g, pos),
                                  _prop("v", g, vorder), _prop("e", g, eorder),
                                  nodesfirst, vattrs, eattrs, vdefs, edefs, cr)


def graph_draw(g, pos=None, vprops=None, eprops=None, vorder=None, eorder=None,
               nodesfirst=False, output_size=(600, 600), fit_view=True,
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               output=None, fmt="auto", **kwargs):
    r"""Draw a graph to screen or to a file using :mod:`cairo`.

    Parameters
    ----------
    g : :class:`~graph_tool.Graph`
        Graph to be drawn.
    pos : :class:`~graph_tool.PropertyMap` (optional, default: ``None``)
        Vector-valued vertex property map containing the x and y coordinates of
        the vertices. If not given, it will be computed using :func:`sfdp_layout`.
    vprops : dict (optional, default: ``None``)
        Dictionary with the vertex properties. Individual properties may also be
        given via the ``vertex_<prop-name>`` parameters, where ``<prop-name>`` is
        the name of the property.
    eprops : dict (optional, default: ``None``)
        Dictionary with the vertex properties. Individual properties may also be
        given via the ``edge_<prop-name>`` parameters, where ``<prop-name>`` is
        the name of the property.
    vorder : :class:`~graph_tool.PropertyMap` (optional, default: ``None``)
        If provided, defines the relative order in which the vertices are drawn.
    eorder : :class:`~graph_tool.PropertyMap` (optional, default: ``None``)
        If provided, defines the relative order in which the edges are drawn.
    nodesfirst : bool (optional, default: ``False``)
        If ``True``, the vertices are drawn first, otherwise the edges are.
    output_size : tuple of scalars (optional, default: ``(600,600)``)
        Size of the drawing canvas. The units will depend on the output format
        (pixels for the screen, points for PDF, etc).
    fit_view : bool (optional, default: ``True``)
        If ``True``, the layout will be scaled to fit the entire display area.
    output : string (optional, default: ``None``)
        Output file name. If not given, the graph will be displayed via
        :func:`interactive_window`.
    fmt : string (default: ``"auto"``)
        Output file format. Possible values are ``"auto"``, ``"ps"``, ``"pdf"``,
        ``"svg"``, and ``"png"``. If the value is ``"auto"``, the format is
        guessed from the ``output`` parameter.
    vertex_* : :class:`~graph_tool.PropertyMap` or arbitrary types (optional, default: ``None``)
        Parameters following the pattern ``vertex_<prop-name>`` specify the
        vertex property with name ``<prop-name>``, as an alternative to the
        ``vprops`` parameter.
    edge_* : :class:`~graph_tool.PropertyMap` or arbitrary types (optional, default: ``None``)
        Parameters following the pattern ``edge_<prop-name>`` specify the edge
        property with name ``<prop-name>``, as an alternative to the ``eprops``
        parameter.
    **kwargs
        Any extra parameters are passed to :func:`~graph_tool.draw.interactive_window`,
        :class:`~graph_tool.draw.GraphWindow`, :class:`~graph_tool.draw.GraphWidget`
        and :func:`~graph_tool.draw.cairo_draw`.

    Returns
    -------
    pos : :class:`~graph_tool.PropertyMap`
        Vector vertex property map with the x and y coordinates of the vertices.
    selected : :class:`~graph_tool.PropertyMap` (optional, only if ``output is None``)
        Boolean-valued vertex property map marking the vertices which were
        selected interactively.

    Notes
    -----


    .. table:: **List of vertex properties**

        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | Name          | Description                                       | Accepted types         | Default Value                    |
        +===============+===================================================+========================+==================================+
        | shape         | The vertex shape. Can be one of the following     | ``str`` or ``int``     | ``"circle"``                     |
        |               | strings: "circle", "triangle", "square",          |                        |                                  |
        |               | "pentagon", "hexagon", "heptagon", "octagon"      |                        |                                  |
        |               | "double_circle", "double_triangle",               |                        |                                  |
        |               | "double_square", "double_pentagon",               |                        |                                  |
        |               | "double_hexagon", "double_heptagon",              |                        |                                  |
        |               | "double_octagon".                                 |                        |                                  |
        |               | Optionally, this might take a numeric value       |                        |                                  |
        |               | corresponding to position in the list above.      |                        |                                  |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | color         | Color used to stroke the lines of the vertex.     | ``str`` or list of     | ``[0., 0., 0., 1]``              |
        |               |                                                   | ``floats``             |                                  |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | fill_color    | Color used to fill the interior of the vertex.    | ``str`` or list of     | ``[0.640625, 0, 0, 0.9]``        |
        |               |                                                   | ``floats``             |                                  |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | size          | The size of the vertex, in the default units of   | ``float`` or ``int``   | ``5``                            |
        |               | the output format (normally either pixels or      |                        |                                  |
        |               | points).                                          |                        |                                  |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | pen_width     | Width of the lines used to draw the vertex, in    | ``float`` or ``int``   | ``0.8``                          |
        |               | the default units of the output format (normally  |                        |                                  |
        |               | either pixels or points).                         |                        |                                  |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | halo          | Whether to draw a circular halo around the        | ``bool``               | ``False``                        |
        |               | vertex.                                           |                        |                                  |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | halo_color    | Color used to draw the halo.                      | ``str`` or list of     | ``[0., 0., 1., 0.5]``            |
        |               |                                                   | ``floats``             |                                  |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | text          | Text to draw together with the vertex.            | ``str``                | ``""``                           |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | text_color    | Color used to draw the text.                      | ``str`` or list of     | ``[0., 0., 0., 1.]``             |
        |               |                                                   | ``floats``             |                                  |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | text_position | Position of the text relative to the vertex.      | ``float`` or ``int``   | ``-1``                           |
        |               | If the passed value is positive, it will          |                        |                                  |
        |               | correspond to an angle in radians, which will     |                        |                                  |
        |               | determine where the text will be placed outside   |                        |                                  |
        |               | the vertex. If the value is negative, the text    |                        |                                  |
        |               | will be placed inside the vertex.                 |                        |                                  |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | font_family   | Font family used to draw the text.                | ``str``                | ``"serif"``                      |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | font_slant    | Font slant used to draw the text.                 | ``cairo.FONT_SLANT_*`` | :data:`cairo.FONT_SLANT_NORMAL`  |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | font_weight   | Font weight used to draw the text.                | ``cairo.FONT_WEIGHT_*``| :data:`cairo.FONT_WEIGHT_NORMAL` |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+
        | font_size     | Font size used to draw the text.                  | ``float`` or ``int``   | ``12``                           |
        +---------------+---------------------------------------------------+------------------------+----------------------------------+


    .. table:: **List of edge properties**

        +----------------+---------------------------------------------------+------------------------+----------------------------------+
        | Name           | Description                                       | Accepted types         | Default Value                    |
        +================+===================================================+========================+==================================+
        | color          | Color used to stroke the edge lines.              | ``str`` or list of     | ``[0.179, 0.203,0.210, 0.8]``    |
        |                |                                                   | floats                 |                                  |
        +----------------+---------------------------------------------------+------------------------+----------------------------------+
        | pen_width      | Width of the line used to draw the edge, in       | ``float`` or ``int``   | ``1.0``                          |
        |                | the default units of the output format (normally  |                        |                                  |
        |                | either pixels or points).                         |                        |                                  |
        +----------------+---------------------------------------------------+------------------------+----------------------------------+
        | start_marker,  | Edge markers. Can be one of "none", "arrow",      | ``str`` or ``int``     | ``-1``                           |
        | mid_marker,    | "circle", "square", "diamond", or "bar".          |                        |                                  |
        | end_marker     | Optionally, this might take a numeric value       |                        |                                  |
        |                | corresponding to position in the list above.      |                        |                                  |
        +----------------+---------------------------------------------------+------------------------+----------------------------------+
        | marker_size    | Size of edge markers, in units appropriate to the | ``float`` or ``int``   | ``4``                            |
        |                | output format (normally either pixels or points). |                        |                                  |
        +----------------+---------------------------------------------------+------------------------+----------------------------------+
        | control_points | Control points of a Bézier spline used to draw    | sequence of ``floats`` | ``[]``                           |
        |                | the edge.                                         |                        |                                  |
        +----------------+---------------------------------------------------+------------------------+----------------------------------+

    Examples
    --------
    >>> from numpy import *
    >>> from numpy.random import seed, zipf
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    >>> seed(43)
    >>> g = gt.price_network(1500)
    >>> deg = g.degree_property_map("in")
    >>> deg.a = 4 * (sqrt(deg.a) * 0.5 + 0.4)
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    >>> ebet = gt.betweenness(g)[1]
    >>> ebet.a /= ebet.a.max() / 10.
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    >>> eorder = ebet.copy()
    >>> eorder.a *= -1
    >>> pos = gt.sfdp_layout(g)
    >>> control = g.new_edge_property("vector<double>")
    >>> for e in g.edges():
    ...     d = sqrt(sum((pos[e.source()].a - pos[e.target()].a) ** 2)) / 5
    ...     control[e] = [0.3, d, 0.7, d]
    >>> gt.graph_draw(g, pos=pos, vertex_size=deg, vertex_fill_color=deg, vorder=deg,
    ...               edge_color=ebet, eorder=eorder, edge_pen_width=ebet,
    ...               edge_control_points=control, # some curvy edges
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    ...               output="graph-draw.pdf")
    <...>

    .. figure:: graph-draw.*
        :align: center

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        SFDP force-directed layout of a Price network with 1500 nodes. The
        vertex size and color indicate the degree, and the edge color and width
        the edge betweeness centrality.
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    """

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    vprops = vprops.copy() if vprops is not None else {}
    eprops = eprops.copy() if eprops is not None else {}

    props, kwargs = parse_props("vertex", kwargs)
    vprops.update(props)
    props, kwargs = parse_props("edge", kwargs)
    eprops.update(props)

    if pos is None:
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        if (g.num_vertices() > 2 and output is None and
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            kwargs.get("update_layout", True)):
            L = np.sqrt(g.num_vertices())
            pos = random_layout(g, [L, L])
            if g.num_vertices() > 1000:
                if "multilevel" not in kwargs:
                    kwargs["multilevel"] = True
            if "layout_K" not in kwargs:
                kwargs["layout_K"] = _avg_edge_distance(g, pos) / 10
        else:
            pos = sfdp_layout(g)
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    elif output is None:
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        if "layout_K" not in kwargs:
            kwargs["layout_K"] = _avg_edge_distance(g, pos)
        if "update_layout" not in kwargs:
            kwargs["update_layout"] = False

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    if output is None:
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        return interactive_window(g, pos, vprops, eprops, vorder, eorder,
                                  nodesfirst, **kwargs)
    else:
        output = os.path.expanduser(output)
        base, ext = os.path.splitext(output)
        if ext == ".gz":
            out = gzip.GzipFile(output, "w")
            output = base
        elif ext == ".bz2":
            out = bz2.BZ2File(output, "w")
            output = base
        elif ext == ".zip":
            out = zipfile.ZipFile(output, "w")
            output = base
        else:
            out = open(output, "w")

        if fmt == "auto":
            fmt = os.path.splitext(output)[1].replace(".", "")
        if fmt == "pdf":
            srf = cairo.PDFSurface(out, output_size[0], output_size[1])
        elif fmt == "ps":
            srf = cairo.PSSurface(out, output_size[0], output_size[1])
        elif fmt == "svg":
            srf = cairo.SVGSurface(out, output_size[0], output_size[1])
        elif fmt == "png":
            srf = cairo.ImageSurface(cairo.FORMAT_ARGB32, output_size[0],
                                     output_size[1])
        else:
            raise ValueError("Invalid format type: " + fmt)

        cr = cairo.Context(srf)

        adjust_default_sizes(g, output_size, vprops, eprops)
        if fit_view:
            offset, zoom = fit_to_view(g, pos, output_size, vprops["size"],
                                       vprops["pen_width"], None,
                                       vprops.get("text", None),
                                       vprops.get("font_family",
                                                  _vdefaults["font_family"]),
                                       vprops.get("font_size",
                                                  _vdefaults["font_size"]),
                                       cr)
        else:
            offset, zoom = [0, 0], 1

        if "bg_color" in kwargs:
            bg_color = kwargs["bg_color"]
            del  kwargs["bg_color"]
            cr.set_source_rgba(bg_color[0], bg_color[1],
                               bg_color[2], bg_color[3])
            cr.paint()
        cr.translate(offset[0], offset[1])
        cr.scale(zoom, zoom)

        cairo_draw(g, pos, cr, vprops, eprops, vorder, eorder,
                   nodesfirst, **kwargs)
        del cr

        if output.endswith(".png"):
            srf.write_to_png(out)
        return pos
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def adjust_default_sizes(g, geometry, vprops, eprops, force=False):
    if "size" not in vprops or force:
        A = geometry[0] * geometry[1]
        vprops["size"] = np.sqrt(A / g.num_vertices()) / 3.5

    if "pen_width" not in vprops or force:
        size = vprops["size"]
        if isinstance(vprops["size"], PropertyMap):
            size = vprops["size"].fa.mean()
        vprops["pen_width"] = size / 10
        if "pen_width" not in eprops or force:
            eprops["pen_width"] = size / 10
        if "marker_size" not in eprops or force:
            eprops["marker_size"] = size * 0.8


def scale_ink(scale, vprops, eprops):
    if "size" not in vprops:
        vprops["size"] = _vdefaults["size"]
    if "pen_width" not in vprops:
        vprops["pen_width"] = _vdefaults["pen_width"]
    if "font_size" not in vprops:
        vprops["font_size"] = _vdefaults["font_size"]
    if "pen_width" not in eprops:
        eprops["pen_width"] = _edefaults["pen_width"]
    if "marker_size" not in eprops:
        eprops["marker_size"] = _edefaults["marker_size"]

    for props in [vprops, eprops]:
        if isinstance(props["pen_width"], PropertyMap):
            props["pen_width"].fa *= scale
        else:
            props["pen_width"] *= scale
    if isinstance(vprops["size"], PropertyMap):
        vprops["size"].fa *= scale
    else:
        vprops["size"] *= scale
    if isinstance(vprops["font_size"], PropertyMap):
        vprops["font_size"].fa *= scale
    else:
        vprops["font_size"] *= scale
    if isinstance(eprops["marker_size"], PropertyMap):
        eprops["marker_size"].fa *= scale
    else:
        eprops["marker_size"] *= scale

def get_bb(g, pos, size, pen_width, size_scale=1, text=None, font_family=None,
           font_size=None, cr=None):
    size = size.fa[:g.num_vertices()] if isinstance(size, PropertyMap) else size
    pen_width = pen_width.fa if isinstance(pen_width, PropertyMap) else pen_width
    pos_x, pos_y = ungroup_vector_property(pos, [0, 1])
    if text is not None and text != "":
        if not isinstance(size, PropertyMap):
            uniform = (not isinstance(font_size, PropertyMap) and
                       not isinstance(font_family, PropertyMap))
            size = np.ones(len(pos_x.fa)) * size
        else:
            uniform = False
        for i, v in enumerate(g.vertices()):
            ff = font_family[v] if isinstance(font_family, PropertyMap) \
               else font_family
            cr.select_font_face(ff)
            fs = font_size[v] if isinstance(font_family, PropertyMap) \
               else font_size
            cr.set_font_size(fs)
            t = text[v] if isinstance(text, PropertyMap) else text
            if not isinstance(t, str):
                t = str(t)
            extents = cr.text_extents(t)
            s = max(extents[2], extents[3]) * 1.4
            size[i] = max(size[i] * size_scale, s) / size_scale
            if uniform:
                size[:] = size[i]
                break
    delta = (size * size_scale) / 2 + pen_width
    x_range = [pos_x.fa.min(), pos_x.fa.max()]
    y_range = [pos_y.fa.min(), pos_y.fa.max()]
    x_delta = [x_range[0] - (pos_x.fa - delta).min(),
               (pos_x.fa + delta).max() - x_range[1]]
    y_delta = [y_range[0] - (pos_y.fa - delta).min(),
               (pos_y.fa + delta).max() - y_range[1]]
    return x_range, y_range, x_delta, y_delta


def fit_to_view(g, pos, geometry, size, pen_width, M=None, text=None,
                font_family=None, font_size=None, cr=None):
    if M is not None:
        pos_x, pos_y = ungroup_vector_property(pos, [0, 1])
        P = np.zeros((2, len(pos_x.fa)))
        P[0, :] = pos_x.fa
        P[1, :] = pos_y.fa
        T = np.zeros((2, 2))
        O = np.zeros(2)
        T[0, 0], T[1, 0], T[0, 1], T[1, 1], O[0], O[1] = M
        P = np.dot(T, P)
        P[0] += O[0]
        P[1] += O[1]
        pos_x.fa = P[0, :]
        pos_y.fa = P[1, :]
        pos = group_vector_property([pos_x, pos_y])
    x_range, y_range, x_delta, y_delta = get_bb(g, pos, size, pen_width,
                                                1, text, font_family,
                                                font_size, cr)
    zoom_x = (geometry[0] - sum(x_delta)) / (x_range[1] - x_range[0])
    zoom_y = (geometry[1] - sum(y_delta)) / (y_range[1] - y_range[0])
    if np.isnan(zoom_x) or np.isinf(zoom_x) or zoom_x == 0:
        zoom_x = 1
    if np.isnan(zoom_y) or np.isinf(zoom_y) or zoom_y == 0:
        zoom_y = 1
    pad = 0.95
    zoom = min(zoom_x, zoom_y) * pad
    empty_x = (geometry[0] - sum(x_delta)) - (x_range[1] - x_range[0]) * zoom
    empty_y = (geometry[1] - sum(y_delta)) - (y_range[1] - y_range[0]) * zoom
    offset = [-x_range[0] * zoom + empty_x / 2 + x_delta[0],
              -y_range[0] * zoom + empty_y / 2 + y_delta[0]]
    return offset, zoom


def transform_scale(M, scale):
    p = M.transform_distance(scale / np.sqrt(2),
                             scale / np.sqrt(2))
    return np.sqrt(p[0] ** 2 + p[1] ** 2)


#
# The functions and classes below depend on GTK
# =============================================
#

try:
    from gi.repository import Gtk, Gdk, GdkPixbuf
    import gobject
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    from .gtk_draw import *
except (ImportError, RuntimeError) as e:
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    msg = "Error importing Gtk module: %s; GTK+ drawing will not work." % str(e)
    warnings.filterwarnings("always", msg, ImportWarning)
    warnings.warn(msg, ImportWarning)