gtk_draw.py 52.1 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) 2006-2019 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 numpy

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from .. import GraphView, PropertyMap, VertexPropertyMap, \
    ungroup_vector_property, group_vector_property, infect_vertex_property, \
    edge_endpoint_property, _prop
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from .cairo_draw import *
from .cairo_draw import _vdefaults, _edefaults
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from .. draw import sfdp_layout, random_layout, _avg_edge_distance, \
    coarse_graphs
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def point_in_poly(p, poly):
    i, c = 0, False
    j = len(poly) - 1
    while i < len(poly):
        if (((poly[i][1] > p[1]) != (poly[j][1] > p[1])) and
            (p[0] < (poly[j][0] - poly[i][0]) * (p[1] - poly[i][1]) /
             (poly[j][1] - poly[i][1]) + poly[i][0])):
            c = not c
        j = i
        i += 1
    return c


class VertexMatrix(object):
    def __init__(self, g, pos):
        self.g = g
        self.pos = pos
        self.m = None
        self.m_res = None
        self.update()

    def get_box(self, p, size=None):
        if size is None:
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            return (int(round(float(p[0] / self.m_res))),
                    int(round(float(p[1] / self.m_res))))
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        else:
            n = int(np.ceil(size / self.m_res))
            b = self.get_box(p)
            boxes = []
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            for i in range(-n, n):
                for j in range(-n, n):
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                    boxes.append((b[0] + i, b[1] + j))
            return boxes

    def update(self):
        pos_x, pos_y = ungroup_vector_property(self.pos, [0, 1])
        x_range = [pos_x.fa.min(), pos_x.fa.max()]
        y_range = [pos_y.fa.min(), pos_y.fa.max()]
        self.m_res = min(x_range[1] - x_range[0],
                         y_range[1] - y_range[0]) / np.sqrt(self.g.num_vertices())
        self.m_res *= np.sqrt(10)

        self.m = defaultdict(set)
        for v in self.g.vertices():
            i, j = self.get_box(self.pos[v])
            self.m[(i, j)].add(v)

    def update_vertex(self, v, new_pos):
        b = self.get_box(self.pos[v])
        self.m[b].remove(v)
        self.pos[v] = new_pos
        b = self.get_box(self.pos[v])
        self.m[b].add(v)

    def remove_vertex(self, v):
        b = self.get_box(self.pos[v])
        self.m[b].remove(v)

    def add_vertex(self, v):
        b = self.get_box(self.pos[v])
        self.m[b].add(v)

    def get_closest(self, pos):
        pos = np.array(pos)
        box = self.get_box(pos)
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        dist = numpy.inf
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        clst = None
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        for i in range(-1, 2):
            for j in range(-1, 2):
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                b = (box[0] + i, box[1] + j)
                for v in self.m[b]:
                    ndist = ((pos - self.pos[v].a[:2]) ** 2).sum()
                    if ndist < dist:
                        dist = ndist
                        clst = v
        return clst

    def mark_polygon(self, points, selected):
        rect = [min([x[0] for x in points]), min([x[1] for x in points]),
                max([x[0] for x in points]), max([x[1] for x in points])]
        p1 = self.get_box(rect[:2])
        p2 = self.get_box(rect[2:])
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        for i in range(p1[0], p2[0] + 1):
            for j in range(p1[1], p2[1] + 1):
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                for v in self.m[(i, j)]:
                    p = self.pos[v]
                    if not point_in_poly(p, points):
                        continue
                    selected[v] = True


def apply_transforms(g, pos, m):
    m = tuple(m)
    g = GraphView(g, directed=True)
    libgraph_tool_draw.apply_transforms(g._Graph__graph, _prop("v", g, pos),
                                        m[0], m[1], m[2], m[3], m[4], m[5])


class GraphWidget(Gtk.DrawingArea):
    def __init__(self, g, pos, vprops=None, eprops=None, vorder=None,
                 eorder=None, nodesfirst=False, update_layout=False,
                 layout_K=1., multilevel=False, display_props=None,
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                 display_props_size=11, fit_view=True, bg_color=None,
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                 max_render_time=300, layout_callback=None,
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                 key_press_callback=None, highlight_color=None, **kwargs):
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        r"""Interactive GTK+ widget displaying a given graph.

        Parameters
        ----------
        g : :class:`~graph_tool.Graph`
            Graph to be drawn.
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        pos : :class:`~graph_tool.VertexPropertyMap`
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            Vector-valued vertex property map containing the x and y coordinates of
            the vertices.
        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``)
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            Dictionary with the edge properties. Individual properties may also be
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            given via the ``edge_<prop-name>`` parameters, where ``<prop-name>`` is
            the name of the property.
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        vorder : :class:`~graph_tool.VertexPropertyMap` (optional, default: ``None``)
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            If provided, defines the relative order in which the vertices are drawn.
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        eorder : :class:`~graph_tool.EdgePropertyMap` (optional, default: ``None``)
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            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.
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        update_layout : bool (optional, default: ``False``)
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            If ``True``, the layout will be updated dynamically.
        layout_K : float (optional, default: ``1.0``)
            Parameter ``K`` passed to :func:`~graph_tool.draw.sfdp_layout`.
        multilevel : bool (optional, default: ``False``)
            Parameter ``multilevel`` passed to :func:`~graph_tool.draw.sfdp_layout`.
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        display_props : list of :class:`~graph_tool.VertexPropertyMap` instances (optional, default: ``None``)
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            List of properties to be displayed when the mouse passes over a vertex.
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        display_props_size : float (optional, default: ``11.``)
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            Font size used to display the vertex properties.
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        fit_view : bool, float or tuple (optional, default: ``True``)
            If ``True``, the layout will be scaled to fit the entire clip region.
            If a float value is given, it will be interpreted as ``True``, and in
            addition the viewport will be scaled out by that factor. If a tuple
            value is given, it should have four values ``(x, y, w, h)`` that
            specify the view in user coordinates.
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        bg_color : str or sequence (optional, default: ``None``)
            Background color. The default is white.
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        max_render_time : int (optional, default: ``300``)
            Maximum amount of time (in milliseconds) spent rendering portions of
            the graph.
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        layout_callback : function (optional, default: ``Node``)
            User-supplied callback to be called whenever the positions of the layout
            have changed. It needs to have the following signature:

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            .. code-block:: python
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               def callback(g, picked, pos, vprops, eprops):
                   ...

            where ``g`` is the graph being drawn, ``picked`` is either a single
            vertex or a boolean vertex property map representing the vertices
            currently selected, and ``vprops`` and ``eprops`` are dictionaries with
            the vertex and edge properties currently being used by the layout.
        key_press_callback : function (optional, default: ``Node``)

            User-supplied callback to be called whenever a key-press event has
            happened. It needs to have the following signature:

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            .. code-block:: python
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               def callback(g, keyval, picked, pos, vprops, eprops):
                   ...

            where ``g`` is the graph being drawn, ``keyval`` is the key id,
            ``picked`` is either a single vertex or a boolean vertex property map
            representing the vertices currently selected, and ``vprops`` and
            ``eprops`` are dictionaries with the vertex and edge properties
            currently being used by the layout.
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        vertex_* : :class:`~graph_tool.VertexPropertyMap` or arbitrary types (optional, default: ``None``)
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            Parameters following the pattern ``vertex_<prop-name>`` specify the
            vertex property with name ``<prop-name>``, as an alternative to the
            ``vprops`` parameter.
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        edge_* : :class:`~graph_tool.EdgePropertyMap` or arbitrary types (optional, default: ``None``)
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            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.cairo_draw`.

        Notes
        -----

        The graph drawing can be panned by dragging with the middle mouse button
        pressed. The graph may be zoomed by scrolling with the mouse wheel, or
        equivalent (if the "shift" key is held, the vertex/edge sizes are scaled
        accordingly). The layout may be rotated by dragging while holding the
        "control" key. Pressing the "r" key centers and zooms the layout around the
        graph.  By pressing the "a" key, the current translation, scaling and
        rotation transformations are applied to the vertex positions themselves, and
        the transformation matrix is reset (if this is never done, the given
        position properties are never modified).

        Individual vertices may be selected by pressing the left mouse button. The
        currently selected vertex follows the mouse pointer. To stop the selection,
        the right mouse button must be pressed. Alternatively, a group of vertices
        may be selected by holding the "shift" button while the pointer is dragged
        while pressing the left button. The selected vertices may be moved by
        dragging the pointer with the left button pressed. They may be rotated by
        holding the "control" key and scrolling with the mouse. If the key "z" is
        pressed, the layout is zoomed to fit the selected vertices only.

        If the key "s" is pressed, the dynamic spring-block layout is
        activated. Vertices which are currently selected are not updated.

        """

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        Gtk.DrawingArea.__init__(self)

        vprops = {} if vprops is None else vprops
        eprops = {} if eprops is None else eprops

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

        self.g = g
        self.pos = pos
        self.vprops = vprops
        self.eprops = eprops
        self.vorder = vorder
        self.eorder = eorder
        self.nodesfirst = nodesfirst

        self.panning = None
        self.tmatrix = cairo.Matrix()  # position to surface
        self.smatrix = cairo.Matrix()  # surface to screen
        self.pointer = [0, 0]
        self.picked = False
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        self.selected = g.new_vertex_property("bool", False)
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        self.highlight = g.new_vertex_property("bool", False)
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        self.sel_edge_filt = g.new_edge_property("bool", False)
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        self.highlight_color = highlight_color
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        self.srect = None
        self.drag_begin = None
        self.moved_picked = False
        self.vertex_matrix = None
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        self.fit_view = fit_view
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        self.display_prop = g.vertex_index if display_props is None \
                            else display_props
        self.display_prop_size = display_props_size

        self.geometry = None
        self.base = None
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        self.base_geometry = None
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        self.background = None
        self.bg_color = bg_color if bg_color is not None else [1, 1, 1, 1]
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        self.regenerate_generator = None
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        self.regenerate_max_time = max_render_time
        self.max_render_time = max_render_time
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        self.lazy_regenerate = False
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        self.layout_callback_id = None
        self.layout_K = layout_K
        self.layout_init_step = self.layout_K
        self.epsilon = 0.01 * self.layout_K
        self.multilevel_layout = multilevel

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        self.layout_user_callback = layout_callback
        self.key_press_user_callback = key_press_callback

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        if multilevel:
            self.cgs = coarse_graphs(g)
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            u = next(self.cgs)
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            self.cg, self.cpos, self.layout_K, self.cvcount, self.cecount = u
            self.ag = self.g
            self.apos = self.pos
            self.g = self.cg
            self.pos = self.cpos
            self.layout_step = self.layout_K
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            self._own_props()
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        else:
            self.cg = None
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        if update_layout:
            self.reset_layout()

        # Event signals
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        self.connect("motion-notify-event", self.motion_notify_event)
        self.connect("button-press-event", self.button_press_event)
        self.connect("button-release-event", self.button_release_event)
        self.connect("scroll-event", self.scroll_event)
        self.connect("key-press-event", self.key_press_event)
        self.connect("key-release-event", self.key_release_event)
        self.connect("destroy-event", self.cleanup)
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        self.set_events(Gdk.EventMask.EXPOSURE_MASK
                        | Gdk.EventMask.LEAVE_NOTIFY_MASK
                        | Gdk.EventMask.BUTTON_PRESS_MASK
                        | Gdk.EventMask.BUTTON_RELEASE_MASK
                        | Gdk.EventMask.BUTTON_MOTION_MASK
                        | Gdk.EventMask.POINTER_MOTION_MASK
                        | Gdk.EventMask.POINTER_MOTION_HINT_MASK
                        | Gdk.EventMask.SCROLL_MASK
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                        | Gdk.EventMask.SMOOTH_SCROLL_MASK
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                        | Gdk.EventMask.KEY_PRESS_MASK
                        | Gdk.EventMask.KEY_RELEASE_MASK)

        self.set_property("can-focus", True)
        self.connect("draw", self.draw)

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        try:
            self.zoom_gesture = Gtk.GestureZoom.new(self)
            self.zoom_gesture.connect("begin", self.zoom_begin)
            self.zoom_gesture.connect("end", self.zoom_end)
            self.zoom_gesture.connect("scale_changed", self.scale_changed)

            self.rotate_gesture = Gtk.GestureRotate.new(self)
            self.rotate_gesture.connect("begin", self.rotate_begin)
            self.rotate_gesture.connect("end", self.rotate_end)
            self.rotate_gesture.connect("angle_changed", self.angle_changed)

            self.zoom_gesture.group(self.rotate_gesture)

            self.drag_gesture = Gtk.GestureDrag.new(self)
            self.drag_gesture.set_touch_only(True)
            self.drag_gesture.connect("begin", self.drag_gesture_begin)
            self.drag_gesture.connect("end", self.drag_gesture_end)
            self.drag_gesture.connect("drag_update", self.drag_gesture_update)
        except AttributeError:
            pass
        self.is_zooming = False
        self.is_rotating = False
        self.is_drag_gesture = False

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    def update(self, pos=None, vprops=None, eprops=None, vorder=None, eorder=None,
               nodesfirst=None, display_props=None,
               fit_view=True, bg_color=None, **kwargs):

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

        if pos is not None:
            self.pos = pos
        self.vprops.update(vprops)
        self.eprops.update(eprops)
        if vorder is not None:
            self.vorder = vorder
        if eorder is not None:
            self.eorder = eorder
        if nodesfirst is not None:
            self.nodesfirst = nodesfirst

        self.fit_view = fit_view

        self.display_prop = self.g.vertex_index if display_props is None \
                            else display_props
        self.bg_color = bg_color if bg_color is not None else [1, 1, 1, 1]


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    def cleanup(self):
        """Cleanup callbacks."""
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        if gobject is None:
            return
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        if self.layout_callback_id is not None:
            ret = gobject.source_remove(self.layout_callback_id)
            if not ret:
                warnings.warn("error removing idle callback...")
            self.layout_callback_id = None

    def __del__(self):
        self.cleanup()

    # Layout update

    def reset_layout(self):
        """Reset the layout algorithm."""
        if self.layout_callback_id is not None:
            gobject.source_remove(self.layout_callback_id)
            self.layout_callback_id = None
        self.layout_step = self.layout_init_step
        self.layout_callback_id = gobject.idle_add(self.layout_callback)

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    def _own_props(self):
        self.selected = self.g.own_property(self.selected)
        self.highlight = self.g.own_property(self.highlight)
        self.sel_edge_filt = self.g.own_property(self.sel_edge_filt)
        for k, vp in self.vprops.items():
            if isinstance(vp, PropertyMap):
                self.vprops[k] = self.g.own_property(vp)
        for k, ep in self.eprops.items():
            if isinstance(ep, PropertyMap):
                self.eprops[k] = self.g.own_property(ep)

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    def layout_callback(self):
        """Perform one step of the layout algorithm."""
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        if self.layout_callback_id is None or self.g.num_vertices() == 0:
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            return False
        pos_temp = ungroup_vector_property(self.pos, [0, 1])
        sfdp_layout(self.g, K=self.layout_K,
                    max_iter=5, pos=self.pos,
                    pin=self.selected,
                    init_step=self.layout_step,
                    multilevel=False)
        self.layout_step *= 0.9
        if self.vertex_matrix is not None:
            self.vertex_matrix.update()
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        self.regenerate_surface(reset=True, complete=True)
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        self.queue_draw()
        ps = ungroup_vector_property(self.pos, [0, 1])
        delta = np.sqrt((pos_temp[0].fa - ps[0].fa) ** 2 +
                        (pos_temp[1].fa - ps[1].fa) ** 2).mean()
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        if self.layout_user_callback is not None:
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            self.layout_user_callback(self, self.g, self.picked, self.pos,
                                      self.vprops, self.eprops)
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        if delta > self.epsilon:
            return True
        else:
            if self.multilevel_layout:
                try:
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                    u = next(self.cgs)
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                    self.cg, self.cpos, K, self.cvcount, self.cecount = u
                    self.layout_K *= 0.75
                    self.g = self.cg
                    self.pos = self.cpos
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                    self._own_props()
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                    self.layout_step = max(self.layout_K,
                                           _avg_edge_distance(self.g,
                                                              self.pos) / 10)
                    if self.vertex_matrix is not None:
                        self.vertex_matrix = VertexMatrix(self.g, self.pos)
                    self.epsilon = 0.05 * self.layout_K * self.g.num_edges()
                    geometry = [self.get_allocated_width(),
                                self.get_allocated_height()]
                    adjust_default_sizes(self.g, geometry, self.vprops,
                                         self.eprops, force=True)
                    self.fit_to_window(ink=False)
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                    self.regenerate_surface(reset=True, complete=True)
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                except StopIteration:
                    self.g = self.ag
                    self.pos = self.apos
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                    self._own_props()
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                    self.g.copy_property(self.cpos, self.pos)
                    if self.vertex_matrix is not None:
                        self.vertex_matrix = VertexMatrix(self.g, self.pos)
                    self.multilevel_layout = False
                    self.layout_init_step = max(self.layout_K,
                                                _avg_edge_distance(self.g,
                                                                   self.pos) /
                                                                   10)
                    self.epsilon = 0.01 * self.layout_K

                return True
            self.layout_callback_id = None
            return False

    # Actual drawing

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    def regenerate_surface(self, reset=False, complete=False):
        r"""Redraw the graph surface."""

        if reset:
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            self.regenerate_generator = None
            self.regen_context = None
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        geometry = [self.get_allocated_width() * 3,
                    self.get_allocated_height() * 3]

        if (self.base is None or self.base_geometry[0] != geometry[0] or
            self.base_geometry[1] != geometry[1] or reset):
            # self.base = cairo.ImageSurface(cairo.FORMAT_ARGB32,
            #                                *geometry)
            w = self.get_window()
            if w is None:
                return False
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            self.regenerate_generator = None
            self.regen_context = None

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            self.base = w.create_similar_surface(cairo.CONTENT_COLOR_ALPHA,
                                                 *geometry)
            self.base_geometry = geometry
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            m = cairo.Matrix()
            m.translate(self.get_allocated_width(),
                        self.get_allocated_height())
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            self.smatrix = self.smatrix.multiply(m)
            self.tmatrix = self.tmatrix.multiply(self.smatrix)
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            self.smatrix = cairo.Matrix()
            self.smatrix.translate(-self.get_allocated_width(),
                                   -self.get_allocated_height())
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        if self.regenerate_generator is None:
            cr = cairo.Context(self.base)
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            cr.set_source_rgba(*self.bg_color)
            cr.paint()
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            cr.set_matrix(self.tmatrix)
            mtime = -1 if complete else self.regenerate_max_time
            res = 5 * self.get_scale_factor()
            gen = cairo_draw(self.g, self.pos, cr, self.vprops, self.eprops,
                             self.vorder, self.eorder, self.nodesfirst, res=res,
                             max_render_time=mtime, **self.kwargs)
            self.regenerate_generator = gen
            self.regen_context = cr
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        if self.regenerate_generator is not None:
            try:
                next(self.regenerate_generator)
            except StopIteration:
                self.regenerate_generator = None
                self.regen_context = None
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        self.lazy_regenerate = False
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    def draw(self, da, cr):
        r"""Redraw the widget."""

        geometry = [self.get_allocated_width(),
                    self.get_allocated_height()]

        if self.geometry is None:
            adjust_default_sizes(self.g, geometry, self.vprops, self.eprops)
            self.fit_to_window(ink=False)
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            self.regenerate_surface()
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            self.geometry = geometry

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        cr.save()
        cr.set_matrix(self.smatrix)
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        c1 = self.pos_to_device((0, 0), surface=True, cr=cr)
        c2 = self.pos_to_device((0, self.base_geometry[1]), surface=True, cr=cr)
        c3 = self.pos_to_device((self.base_geometry[0], 0), surface=True, cr=cr)
        c4 = self.pos_to_device(self.base_geometry, surface=True, cr=cr)
        c = [c1, c2, c3, c4]
        ul = [min([x[0] for x in c]), min([x[1] for x in c])]
        lr = [max([x[0] for x in c]), max([x[1] for x in c])]
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        cr.restore()
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        if ((ul[0] > 0 or lr[0] < geometry[0] or
             ul[1] > 0 or lr[1] < geometry[1]) or
            self.lazy_regenerate):
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            self.regenerate_surface(reset=True)
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        elif self.regenerate_generator is not None:
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            self.regenerate_surface()

        if self.background is None:
            # draw checkerboard
            self.background = cairo.ImageSurface(cairo.FORMAT_ARGB32, 14, 14)
            bcr = cairo.Context(self.background)
            bcr.rectangle(0, 0, 7, 7)
            bcr.set_source_rgb(102. / 256, 102. / 256, 102. / 256)
            bcr.fill()
            bcr.rectangle(7, 0, 7, 7)
            bcr.set_source_rgb(153. / 256, 153. / 256, 153. / 256)
            bcr.fill()
            bcr.rectangle(0, 7, 7, 7)
            bcr.set_source_rgb(153. / 256, 153. / 256, 153. / 256)
            bcr.fill()
            bcr.rectangle(7, 7, 7, 7)
            bcr.set_source_rgb(102. / 256, 102. / 256, 102. / 256)
            bcr.fill()
            del bcr
            self.background = cairo.SurfacePattern(self.background)
            self.background.set_extend(cairo.EXTEND_REPEAT)

        cr.set_source(self.background)
        cr.paint()

        cr.save()
        cr.set_matrix(self.smatrix)
        cr.set_source_surface(self.base)
        cr.paint()
        cr.restore()

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        if self.selected.fa.sum() > 0:
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            # draw immediate neighborhood
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            if self.selected.fa.sum() == 1:
                vprops = dict(**self.vprops)
                vprops["halo"] = self.highlight
                vprops["halo_color"] = (0.9372549019607843, 0.1607843137254902, 0.1607843137254902, .9)
                vprops["halo_size"] = 1.3

                if self.highlight_color is not None:
                    vprops["halo_color"] = self.highlight_color

                eprops = {}
                eprops["color"] = (0.9372549019607843, 0.1607843137254902, 0.1607843137254902, .9)
                if "control_points" in self.eprops:
                   eprops["control_points"] = self.eprops["control_points"]

                if self.highlight_color is not None:
                    eprops["color"] = self.highlight_color

                self.highlight.fa = self.selected.fa
                infect_vertex_property(GraphView(self.g, directed=False),
                                       self.highlight, [True])
                self.highlight.fa = numpy.logical_xor(self.selected.fa,
                                                      self.highlight.fa)

                hsrc = edge_endpoint_property(self.g, self.selected, "source")
                htgt = edge_endpoint_property(self.g, self.selected, "target")
                self.sel_edge_filt.fa = numpy.logical_or(hsrc.fa, htgt.fa)

                u = GraphView(self.g,
                              vfilt=numpy.logical_or(self.highlight.fa,
                                                     self.selected.fa),
                              efilt=self.sel_edge_filt)

                eprops["pen_width"] = self.eprops.get("pen_width",
                                                      _edefaults["pen_width"])

                if isinstance(eprops["pen_width"], PropertyMap):
                    pw = eprops["pen_width"]
                    pw = u.own_property(pw.copy())
                    pw.fa *= 1.1
                else:
                    eprops["pen_width"] *= 1.1

                cr.save()
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                cr.set_matrix(self.tmatrix.multiply(self.smatrix))
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                cairo_draw(u, self.pos, cr, vprops, eprops, self.vorder,
                           self.eorder, self.nodesfirst)
                cr.restore()

            # draw selected edges
            vprops = dict(**self.vprops)
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            vprops["halo"] = True

            eprops = {}

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            u = GraphView(self.g, vfilt=self.selected,
                          efilt=self.sel_edge_filt)
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            cr.save()
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            cr.set_matrix(self.tmatrix.multiply(self.smatrix))
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            cairo_draw(u, self.pos, cr, vprops, eprops, self.vorder,
                       self.eorder, self.nodesfirst)
            cr.restore()

        if self.srect is not None:
            cr.move_to(self.srect[0], self.srect[1])
            cr.line_to(self.srect[0], self.srect[3])
            cr.line_to(self.srect[2], self.srect[3])
            cr.line_to(self.srect[2], self.srect[1])
            cr.line_to(self.srect[0], self.srect[1])
            cr.close_path()
            cr.set_source_rgba(0, 0, 1, 0.3)
            cr.fill()

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        if self.regenerate_generator is not None:
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            icon = self.render_icon(Gtk.STOCK_EXECUTE, Gtk.IconSize.BUTTON)
            Gdk.cairo_set_source_pixbuf(cr, icon, 10, 10)
            cr.paint()

        if (self.picked is not None and self.picked is not False and
            not isinstance(self.picked, PropertyMap)):
            if isinstance(self.display_prop, PropertyMap):
                txt = str(self.display_prop[self.picked])
            else:
                txt = ", ".join([str(x[self.picked])
                                 for x in self.display_prop])
            geometry = [self.get_allocated_width(),
                        self.get_allocated_height()]
            pos = [10, geometry[1] - 10]
            cr.set_font_size(self.display_prop_size)
            ext = cr.text_extents(txt)
            pad = 8
            cr.rectangle(pos[0] - pad / 2, pos[1] - ext[3] - pad / 2,
                         ext[2] + pad, ext[3] + pad)
            cr.set_source_rgba(1, 1, 1, 1.0)
            cr.fill()
            cr.move_to(pos[0], pos[1])
            cr.set_source_rgba(0, 0, 0, 1.0)
            cr.show_text(txt)

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        if self.regenerate_generator is not None:
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            self.queue_draw()
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        return False

    # Position and transforms

    def pos_to_device(self, pos, dist=False, surface=False, cr=None):
        """Convert a position from the graph space to the widget space."""
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        ox, oy = self.get_window().get_position()
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        if cr is None:
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            cr = self.get_window().cairo_create()
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            if surface:
                cr.set_matrix(self.smatrix)
            else:
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                cr.set_matrix(self.tmatrix.multiply(self.smatrix))
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        if dist:
            return cr.user_to_device_distance(pos[0], pos[1])
        else:
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            x, y = cr.user_to_device(pos[0], pos[1])
            return (x - ox, y - oy)
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    def pos_from_device(self, pos, dist=False, surface=False, cr=None):
        """Convert a position from the widget space to the device space."""
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        ox, oy = self.get_window().get_position()
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        if cr is None:
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            cr = self.get_window().cairo_create()
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            if surface:
                cr.set_matrix(self.smatrix)
            else:
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                cr.set_matrix(self.tmatrix.multiply(self.smatrix))
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        if dist:
            return cr.device_to_user_distance(pos[0], pos[1])
        else:
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            return cr.device_to_user(pos[0] + ox, pos[1] + oy)
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    def apply_transform(self):
        r"""Apply current transform matrix to vertex coordinates."""
        zoom = self.pos_from_device((1, 0), dist=True)[0]
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        apply_transforms(self.g, self.pos, self.smatrix.multiply(self.tmatrix))
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        self.tmatrix = cairo.Matrix()
        self.tmatrix.scale(zoom, zoom)
        self.smatrix = cairo.Matrix()
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        apply_transforms(self.g, self.pos, self.smatrix.multiply(self.tmatrix))
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        self.tmatrix = cairo.Matrix()
        self.tmatrix.scale(1. / zoom, 1. / zoom)
        if self.vertex_matrix is not None:
            self.vertex_matrix.update()
        self.fit_to_window()
        self.regenerate_surface()
        self.queue_draw()

    def fit_to_window(self, ink=False, g=None):
        r"""Fit graph to window."""
        geometry = [self.get_allocated_width(), self.get_allocated_height()]
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        ox, oy = self.get_window().get_position()
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        if g is None:
            g = self.g
        pos = g.own_property(self.pos)
        cr = self.get_window().cairo_create()
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        if self.fit_view != False:
            try:
                x, y, w, h = self.fit_view
                zoom = min(geometry[0] / w, geometry[1] / h)
                offset = (x * zoom, y * zoom)
            except TypeError:
                pad = self.fit_view if self.fit_view != True else 0.95
                offset, zoom = fit_to_view(g, pos, geometry,
                                           self.vprops.get("size", 0),
                                           self.vprops.get("pen_width", 0),
                                           self.tmatrix.multiply(self.smatrix),
                                           self.vprops.get("text", None),
                                           self.vprops.get("font_family",
                                                           _vdefaults["font_family"]),
                                           self.vprops.get("font_size",
                                                           _vdefaults["font_size"]),
                                           pad,
                                           cr)
        else:
            offset, zoom = (0,0), 1
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        m = cairo.Matrix()
792
        m.translate(offset[0] + ox, offset[1] + oy)
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        m.scale(zoom, zoom)
794
        self.tmatrix = self.tmatrix.multiply(self.smatrix.multiply(m))
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        self.smatrix = cairo.Matrix()
        if ink:
            scale_ink(zoom, self.vprops, self.eprops)

    # Picking vertices

    def init_picked(self):
        r"""Init picked vertices."""
        self.selected.fa = False
        p = self.pos_from_device(self.pointer)
        if self.vertex_matrix is None:
            self.vertex_matrix = VertexMatrix(self.g, self.pos)
        self.picked = self.vertex_matrix.get_closest(p)
        if self.picked is not None:
            self.selected.a[int(self.picked)] = True

    # Key and pointer bindings

    def button_press_event(self, widget, event):
        r"""Handle button press."""
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        if self.g.num_vertices() == 0:
            return

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        if self.is_zooming or self.is_rotating or self.is_drag_gesture:
            return

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        x = event.x
        y = event.y
        state = event.state
        self.pointer = [x, y]

        if event.button == 1 and not state & Gdk.ModifierType.CONTROL_MASK:
            if state & Gdk.ModifierType.SHIFT_MASK:
                self.srect = [x, y, x, y]
            elif self.picked == False:
                self.init_picked()
                self.queue_draw()
            if self.drag_begin is None:
                self.drag_begin = [x, y]
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        elif (event.button == 2 or
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            (event.button == 1 and state & Gdk.ModifierType.CONTROL_MASK)):
            self.panning = (event.x, event.y)
838
        elif event.button == 3:
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            if isinstance(self.picked, PropertyMap):
                self.picked = None
                self.selected.fa = False
                self.queue_draw()
            elif self.picked is not False:
                self.picked = False
                self.selected.fa = False
                self.queue_draw()

    def button_release_event(self, widget, event):
        r"""Handle button release."""
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        if self.g.num_vertices() == 0:
            return

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        if self.is_zooming or self.is_rotating or self.is_drag_gesture:
            return

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        state = event.state
        if event.button == 1:
            if self.srect is not None:
                if self.picked == False:
                    self.init_picked()
                if not isinstance(self.picked, PropertyMap):
                    self.picked = self.selected

                if state & Gdk.ModifierType.CONTROL_MASK:
                    old_picked = self.picked.fa.copy()
                    self.picked.fa = False

                p1 = [self.srect[0], self.srect[1]]
                p2 = [self.srect[2], self.srect[3]]
                poly = [p1, [p1[0], p2[1]], p2, [p2[0], p1[1]]]
                poly = [self.pos_from_device(x) for x in poly]

                self.vertex_matrix.mark_polygon(poly, self.picked)

                if state & Gdk.ModifierType.CONTROL_MASK:
                    self.picked.fa = old_picked - self.picked.fa & old_picked

                self.srect = None

                self.queue_draw()
            self.drag_begin = None

            if self.moved_picked:
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                if self.layout_user_callback is not None:
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                    self.layout_user_callback(self, self.g, self.picked,
                                              self.pos, self.vprops,
                                              self.eprops)
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                self.moved_picked = False
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                self.regenerate_surface(complete=True)
891
                self.queue_draw()
892
        elif event.button == 2:
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            self.panning = None
            self.queue_draw()

    def motion_notify_event(self, widget, event):
        r"""Handle pointer motion."""
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        if self.is_zooming or self.is_rotating:
            return

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        if event.is_hint:
            x, y, state = event.window.get_pointer()[1:]
        else:
            x = event.x
            y = event.y
            state = event.state
        self.pointer = [x, y]

        if (state & Gdk.ModifierType.BUTTON1_MASK and
            not state & Gdk.ModifierType.CONTROL_MASK):
            if state & Gdk.ModifierType.SHIFT_MASK:
                if self.srect is not None:
                    self.srect[2:] = self.pointer
                    self.queue_draw()
            elif (self.picked is not None and self.picked is not False
                  and self.srect is None):
                p = self.pos_from_device(self.pointer)
                if isinstance(self.picked, PropertyMap):
                    if self.drag_begin is not None:
                        c = self.pos_from_device(self.drag_begin)
                        u = GraphView(self.g, vfilt=self.picked)
                        delta = np.asarray(p) - np.asarray(c)
                        for v in u.vertices():
                            new_pos = self.pos[v].a + delta
                            self.vertex_matrix.update_vertex(self.g.vertex(int(v)),
                                                             new_pos)
                        self.drag_begin = self.pointer
                elif self.vertex_matrix is not None:
                    self.vertex_matrix.update_vertex(self.picked, p)
                self.moved_picked = True
                self.queue_draw()
        elif (state & Gdk.ModifierType.BUTTON2_MASK or
              (state & Gdk.ModifierType.BUTTON1_MASK and
               state & Gdk.ModifierType.CONTROL_MASK)):
            if self.panning is not None:
                offset = [x - self.panning[0],
                          y - self.panning[1]]
                m = cairo.Matrix()
                m.translate(offset[0], offset[1])
                self.smatrix = self.smatrix * m
            self.panning = (x, y)
            self.queue_draw()
        else:
            self.panning = None

            if self.picked is not False:
                p = self.pos_from_device(self.pointer)
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                if self.vertex_matrix is None:
                    self.vertex_matrix = VertexMatrix(self.g, self.pos)
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                v = self.vertex_matrix.get_closest(p)
                if v is not None and not isinstance(self.picked, PropertyMap):
                    if self.picked is not None:
                        self.selected[self.picked] = False
                        if self.picked != v:
                            self.queue_draw()
                    self.picked = v
                    self.selected[v] = True

    def scroll_event(self, widget, event):
        r"""Handle scrolling."""
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        if self.is_zooming or self.is_rotating:
            return

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        self.regenerate_max_time = 50

        def restore_render_time():
            self.regenerate_max_time = self.max_render_time
            return False
        self.surface_callback = gobject.timeout_add(2000, restore_render_time)

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        state = event.state

        angle = 0
        zoom = 1.

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        if event.direction == Gdk.ScrollDirection.SMOOTH:
            is_smooth, dx, dy = event.get_scroll_deltas()
            if dy == 0:
                return
        else:
            dy = 1

        if (event.direction == Gdk.ScrollDirection.UP or
            event.direction == Gdk.ScrollDirection.SMOOTH):
987
            if state & Gdk.ModifierType.CONTROL_MASK:
988
                if state & Gdk.ModifierType.SHIFT_MASK:
989
                    angle = .01 * dy
990
                else:
991
                    angle = .1 * dy
992
            else:
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                if dy > 0:
                    zoom = 1. + (1. / .9 - 1) * abs(dy)
                else:
                    zoom = 1. / (1. + abs(dy) / 9)
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                if state & Gdk.ModifierType.SHIFT_MASK:
998
                    scale_ink(zoom, self.vprops, self.eprops)
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        elif event.direction == Gdk.ScrollDirection.DOWN:
            if state & Gdk.ModifierType.CONTROL_MASK:
1001
                if state & Gdk.ModifierType.SHIFT_MASK:
1002
                    angle = -.01
1003
                else:
1004
                    angle = -.1
1005
            else:
1006
                zoom = .9
1007
                if state & Gdk.ModifierType.SHIFT_MASK:
1008
                    scale_ink(zoom, self.vprops, self.eprops)
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        # keep centered
        if zoom != 1:
            center = self.pointer
1013
            cpos = self.pos_from_device(center)
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            m = cairo.Matrix()
            m.scale(zoom, zoom)
1017
            self.tmatrix = self.tmatrix.multiply(m)
1018

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            ncpos = self.pos_from_device(center)
            self.tmatrix.translate(ncpos[0] - cpos[0],
1021
                                   ncpos[1] - cpos[1])
1022
            self.lazy_regenerate = True
1023

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        if angle != 0:
            if not isinstance(self.picked, PropertyMap):
                center = (self.pointer[0], self.pointer[1])
                m = cairo.Matrix()
                m.translate(center[0], center[1])
                m.rotate(angle)
                m.translate(-center[0], -center[1])
                self.smatrix = self.smatrix.multiply(m)
            else:
                center = self.pos_from_device(self.pointer)
                u = GraphView(self.g, vfilt=self.picked)

                if self.vertex_matrix is not None:
                    for v in u.vertices():
                        self.vertex_matrix.remove_vertex(self.g.vertex(int(v)))

                m = cairo.Matrix()
                m.rotate(angle)
                m.translate(-center[0], -center[1])

                apply_transforms(u, self.pos, m)

                m = cairo.Matrix()
                m.translate(center[0], center[1])
                apply_transforms(u, self.pos, m)

                if self.vertex_matrix is not None:
                    for v in u.vertices():
                        self.vertex_matrix.add_vertex(self.g.vertex(int(v)))
                self.moved_picked = True

        self.queue_draw()

    def key_press_event(self, widget, event):
        r"""Handle key press."""

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        if self.is_zooming or self.is_rotating:
            return

1063
        #print event.keyval
1064
        if event.keyval == ord('r'):
1065
            self.fit_to_window()
1066
            self.regenerate_surface(reset=True)
1067
            self.queue_draw()
1068
        elif event.keyval == ord('s'):
1069
            self.reset_layout()
1070
        elif event.keyval == ord('a'):
1071
            self.apply_transform()
1072
        elif event.keyval == ord('p'):
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            if self.picked == False:
                self.init_picked()
            else:
                self.picked = False
                self.selected.fa = False
                self.vertex_matrix = None
                self.queue_draw()
1080
        elif event.keyval == ord('z'):
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            if isinstance(self.picked, PropertyMap):
                u = GraphView(self.g, vfilt=self.picked)
                self.fit_to_window(g=u)
1084
                self.regenerate_surface(reset=True)
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                self.queue_draw()

    def key_release_event(self, widget, event):
        r"""Handle release event."""
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        if self.is_zooming or self.is_rotating:
            return
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        if self.key_press_user_callback is not None:
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            self.key_press_user_callback(self, self.g, event.keyval,
                                         self.picked, self.pos, self.vprops,
                                         self.eprops)
1097

1098
        if event.keyval == 65507: # Control_L
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            if self.moved_picked:
                self.moved_picked = False
1101
                self.regenerate_surface(reset=True, complete=True)
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                self.queue_draw()

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    # Touch gestures

    def zoom_begin(self, gesture, seq):
        self.is_zooming = True
        self.zoom_scale = 1.

    def zoom_end(self, gesture, seq):
        self.is_zooming = False
        self.regenerate_surface(reset=True)
        self.queue_draw()

    def scale_changed(self, gesture, scale):
        zoom = scale / self.zoom_scale
        self.zoom_scale = scale
        center = gesture.get_bounding_box_center()[1:]
        cpos = self.pos_from_device(center, surface=True)
        self.smatrix.scale(zoom, zoom)
        ncpos = self.pos_from_device(center, surface=True)
        self.smatrix.translate(ncpos[0] - cpos[0],
                               ncpos[1] - cpos[1])
        scale_ink(zoom, self.vprops, self.eprops)
        self.queue_draw()

    def rotate_begin(self, gesture, seq):
        self.is_rotating = True
        self.angle = None

    def rotate_end(self, gesture, seq):
        self.is_rotating = False

    def angle_changed(self, gesture, angle, angle_delta):
        if self.angle is None:
            self.angle = angle
        delta = angle - self.angle
        self.angle = angle
        center = gesture.get_bounding_box_center()[1:]
        m = cairo.Matrix()
        m.translate(center[0], center[1])
        m.rotate(delta)
        m.translate(-center[0], -center[1])
        self.smatrix = self.smatrix.multiply(m)
        self.queue_draw()

    def drag_gesture_begin(self, gesture, seq):
        self.drag_last = (0, 0)
        self.is_drag_gesture = True
        self.picked = False
        self.selected.fa = False

    def drag_gesture_end(self, gesture, seq):
        self.is_drag_gesture = False

    def drag_gesture_update(self, gesture, dx, dy):
        delta = (dx - self.drag_last[0], dy - self.drag_last[1])
        self.drag_last = (dx, dy)
        m = cairo.Matrix()
        m.translate(delta[0], delta[1])
        self.smatrix = self.smatrix.multiply(m)
        self.queue_draw()
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class GraphWindow(Gtk.Window):
    def __init__(self, g, pos, geometry, vprops=None, eprops=None, vorder=None,
                 eorder=None, nodesfirst=False, update_layout=False, **kwargs):
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        r"""Interactive GTK+ window containing a :class:`~graph_tool.draw.GraphWidget`.

        Parameters
        ----------
        g : :class:`~graph_tool.Graph`
            Graph to be drawn.
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        pos : :class:`~graph_tool.VertexPropertyMap`
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            Vector-valued vertex property map containing the x and y coordinates of
            the vertices.
        geometry : tuple
            Widget geometry.
        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``)
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            Dictionary with the edge properties. Individual properties may also be
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            given via the ``edge_<prop-name>`` parameters, where ``<prop-name>`` is
            the name of the property.
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        vorder : :class:`~graph_tool.VertexPropertyMap` (optional, default: ``None``)
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            If provided, defines the relative order in which the vertices are drawn.
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        eorder : :class:`~graph_tool.EdgePropertyMap` (optional, default: ``None``)
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            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.
        update_layout : bool (optional, default: ``True``)
            If ``True``, the layout will be updated dynamically.
        **kwargs
            Any extra parameters are passed to :class:`~graph_tool.draw.GraphWidget` and
            :func:`~graph_tool.draw.cairo_draw`.
        """

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        Gtk.Window.__init__(self, title="graph-tool's interactive window™")
        icon = GdkPixbuf.Pixbuf.new_from_file('%s/graph-tool-logo.svg' %
                                              os.path.dirname(__file__))
        self.set_icon(icon)
        self.set_default_size(geometry[0], geometry[1])

        self.graph = GraphWidget(g, pos, vprops, eprops, vorder, eorder,
                                 nodesfirst, update_layout, **kwargs)
        self.add(self.graph)

    def __del__(self):
        self.graph.cleanup()


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_window_list = []

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def interactive_window(g, pos=None, vprops=None, eprops=None, vorder=None,
                       eorder=None, nodesfirst=False, geometry=(500, 400),
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                       update_layout=True, sync=True, main=True,
                       window=None, return_window=False, **kwargs):
    r"""Display an interactive GTK+ window containing the given graph.
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    Parameters
    ----------
    g : :class:`~graph_tool.Graph`
        Graph to be drawn.
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    pos : :class:`~graph_tool.VertexPropertyMap` (optional, default: ``None``)
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        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.
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    vorder : :class:`~graph_tool.VertexPropertyMap` (optional, default: ``None``)
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        If provided, defines the relative order in which the vertices are drawn.
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    eorder : :class:`~graph_tool.EdgePropertyMap` (optional, default: ``None``)
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        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.
    geometry : tuple (optional, default: ``(500, 400)``)
        Window geometry.
    update_layout : bool (optional, default: ``True``)
        If ``True``, the layout will be updated dynamically.
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    main : bool (optional, default: ``True``)
        If ``False``, the GTK+ main loop will not be called.
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    window : :class:`~graph_tool.draw.GraphWindow` (optional, default: ``None``)
        If provided, specifies the window where the drawing will
        occur. Otherwise a new one will be created.
    return_window : bool (optional, default: ``False``)
        If ``True``, the GTK+ window will be returned.
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    **kwargs
        Any extra parameters are passed to :class:`~graph_tool.draw.GraphWindow`,
        :class:`~graph_tool.draw.GraphWidget` and :func:`~graph_tool.draw.cairo_draw`.

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

    Notes
    -----

    See documentation of :class:`~graph_tool.draw.GraphWidget` for key bindings
    information.

    """
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    if window is None:
        if pos is None:
            if update_layout:
                pos = random_layout(g, [1, 1])
            else:
                pos = sfdp_layout(g)
        win = GraphWindow(g, pos, geometry, vprops, eprops, vorder, eorder,
                          nodesfirst, update_layout, **kwargs)
        win.show_all()
        _window_list.append(win)
    else:
        win = window
        win.graph.update(pos, vprops, eprops, vorder, eorder, nodesfirst,
                         **kwargs)
        win.graph.regenerate_surface(complete=True)
        win.graph.queue_draw()

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    if main:
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        def destroy_callback(*args, **kwargs):
            global _window_list
            for w in _window_list:
                w.destroy()
            Gtk.main_quit()
        win.connect("delete_event", destroy_callback)
        Gtk.main()
    else:
        while Gtk.events_pending():
            Gtk.main_iteration()

    if return_window:
        return win
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    return pos, win.graph.selected.copy()