def to_pydot(N, strict=True):
    """Return a pydot graph from a NetworkX graph N.

    Parameters
    ----------
    N : NetworkX graph
      A graph created with NetworkX

    Examples
    --------
    >>> K5 = nx.complete_graph(5)
    >>> P = nx.nx_pydot.to_pydot(K5)

    Notes
    -----

    """
    import pydotplus
    # set Graphviz graph type
    if N.is_directed():
        graph_type='digraph'
    else:
        graph_type='graph'
    strict=N.number_of_selfloops()==0 and not N.is_multigraph()

    name = N.name
    graph_defaults=N.graph.get('graph',{})
    if name is '':
        P = pydotplus.Dot('', graph_type=graph_type, strict=strict,
                      **graph_defaults)
    else:
        P = pydotplus.Dot('"%s"'%name, graph_type=graph_type, strict=strict,
                      **graph_defaults)
    try:
        P.set_node_defaults(**N.graph['node'])
    except KeyError:
        pass
    try:
        P.set_edge_defaults(**N.graph['edge'])
    except KeyError:
        pass

    for n,nodedata in N.nodes(data=True):
        str_nodedata=dict((k,make_str(v)) for k,v in nodedata.items())
        p=pydotplus.Node(make_str(n),**str_nodedata)
        P.add_node(p)

    if N.is_multigraph():
        for u,v,key,edgedata in N.edges(data=True,keys=True):
            str_edgedata=dict((k,make_str(v)) for k,v in edgedata.items())
            edge=pydotplus.Edge(make_str(u), make_str(v),
                    key=make_str(key), **str_edgedata)
            P.add_edge(edge)

    else:
        for u,v,edgedata in N.edges(data=True):
            str_edgedata=dict((k,make_str(v)) for k,v in edgedata.items())
            edge=pydotplus.Edge(make_str(u),make_str(v),**str_edgedata)
            P.add_edge(edge)
    return P
Esempio n. 2
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    def test_keep_graph_type(self):

        g = pydotplus.Dot(graph_name='Test', graph_type='graph')

        self.assertEqual(g.get_type(), 'graph')

        g = pydotplus.Dot(graph_name='Test', graph_type='digraph')

        self.assertEqual(g.get_type(), 'digraph')
Esempio n. 3
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    def test_keep_graph_type(self):
        # 定义点类型,名称是Test,图像类型是graph,点类型的名称是g
        g = pydotplus.Dot(graph_name='Test', graph_type='graph')

        # 确定相等,确定g的类型是graph
        self.assertEqual(g.get_type(), 'graph')

        # 定义点的类型,图像类型是digraph
        g = pydotplus.Dot(graph_name='Test', graph_type='digraph')
        # 确认图像的类型是digraph
        self.assertEqual(g.get_type(), 'digraph')
Esempio n. 4
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def create_model_image(di_graph, name, likelihood_function):
    """
    Using a networkx's DAG (created based on the composite model or the amalgamated model), this function creates an
    image of the result of the Simple Genetic Algorithm using 'pydotplus' library.

    Args:
        di_graph : nx.DiGraph()
            It's a networkx's digraph representing the composite model or the amalgamated model
        name : STRING
            The name given in the variable 'a_name' on 'data_logic.data_input.py'
        likelihood_function: INT
            Indicates the likelihood function that is going to be used
                1 = cotemporal, 2 = next_step_one, 3 = next_step_one_two

    Returns:
        PNG IMAGE
            An image with the result of the problem, saved on the root file
    """
    if likelihood_function == 1:
        display_graph = pydot.Dot(graph_type='graph')
    else:
        display_graph = pydot.Dot(graph_type='digraph')

    nodes = di_graph.nodes()
    for node in nodes:
        display_graph.add_node(
            pydot.Node(node, penwidth="1.5", fontname="times-bold"))

    edges = di_graph.edges()
    if likelihood_function == 1:
        for edge in edges:
            if edge[0] < edge[1]:
                display_graph.add_edge(
                    pydot.Edge(edge[0],
                               edge[1],
                               label=" " +
                               str(di_graph[edge[0]][edge[1]]['weight']),
                               color="black",
                               penwidth="1.5"))
    else:
        for edge in edges:
            display_graph.add_edge(
                pydot.Edge(edge[0],
                           edge[1],
                           label=" " +
                           str(di_graph[edge[0]][edge[1]]['weight']),
                           color="black",
                           penwidth="1.5"))
    display_graph.write_png("../" + name + ".png")
Esempio n. 5
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    def draw_net(self, caffe_net, rankdir, tplgy):
        pydot_graph = pydot.Dot(
            self.caffe_net.name if self.caffe_net.name else 'Net',
            graph_type='digraph',
            compound='true',
            rankdir=rankdir)

        tplgy.traverse(lambda node: self.add_pydot_node(node, tplgy, rankdir),
                       lambda edge: self.add_pydot_edge(edge, tplgy))
        self.draw_subgraphs(tplgy, pydot_graph)

        for edge in self.pydot_edges:
            if edge['dst'] not in self.pydot_nodes:
                print(
                    'Fatal error: node \'%s\' of edge %s is not in the pydot_node list!'
                    % (edge['dst'], edge))
                #exit()
                break

            style = 'dashed' if edge['memory'] == 'scratchpad' else ''

            pydot_graph.add_edge(
                pydot.Edge(self.pydot_nodes[edge['src']],
                           self.pydot_nodes[edge['dst']],
                           label=edge['label'],
                           style=style))

        print("Number of nodes:", len(self.pydot_nodes))
        if self.__prefs['gen_dot_file']:
            print('Generating dot file')
            pydot_graph.write_raw('debug.dot')
        return pydot_graph.create_png()
Esempio n. 6
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def visiualization(lists):
    g = pydotplus.Dot(graph_type='digraph')
    i = 0
    for item in lists:
        #不同node强制用不同的名字
        node_name = item.name
        if 'leaf' in node_name and item.node['val'] != -1:
            node_name = "leaf" + str(i) + "\n" + str(item.node['val'])
            i += 1
        node = pydotplus.Node(node_name)
        if item.node['property'] == 'internal':
            node.set('shape', 'diamond')
        else:
            node.set('shape', 'box')

        father_node_name = item.node['father']
        if father_node_name != 'root':
            father_node_name = item.node['father'].name
        father_node = pydotplus.Node(father_node_name)

        edge = pydotplus.Edge(father_node_name, node_name)
        if 'ft_val' in list(item.node.keys()):
            edge.set('label', item.node['ft_val'])
        g.add_node(node)
        g.add_node(father_node)
        g.add_edge(edge)

    g.write("dt-tree.png", format='png')
    import os
    os.system("eog dt-tree.png")
def breadth_first_search(root):
    print("Starting Node(root) : %s" % root)
    graph = pydotplus.Dot(graph_type='digraph')

    queue = deque([root])
    visited = []
    expansion = 0

    while True:
        node = queue.popleft()
        print("\n Parent Node : %s ,Currently popped node %s at depth %s" % (node.parent, node.state, node.depth))
        if str(node) in visited:
            continue
        visited.append(str(node))
        graph.add_node(node.dot)
        if node.parent:
            graph.add_edge(pydotplus.Edge(node.parent.dot, node.dot))
        if node.state.is_goal():
            graph.write_png('solution.png')
            print("\nReached Goal State at %s" % node.state)
            # print("Total no. of expansion is %d" % expansion)
            solution = node.get_solution()
            return solution

        expansion += 1

        queue.extend(node.successor_node())
Esempio n. 8
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def bpmn_diagram_to_png(bpmn_diagram, file_name):
    """
    Create a png picture for given diagram

    :param bpmn_diagram: an instance of BPMNDiagramGraph class,
    :param file_name: name of generated file.
    """
    g = bpmn_diagram.diagram_graph
    graph = pydotplus.Dot()

    for node in g.nodes(data=True):

        if node[1].get(consts.Consts.type) == consts.Consts.task:
            n = pydotplus.Node(name=node[0], shape="box", style="rounded", label=node[1].get(consts.Consts.node_name))
        elif node[1].get(consts.Consts.type) == consts.Consts.exclusive_gateway:
            n = pydotplus.Node(name=node[0], shape="diamond", label=node[1].get(consts.Consts.node_name))
        else:
            n = pydotplus.Node(name=node[0], label=node[1].get(consts.Consts.node_name))
        graph.add_node(n)

    for edge in g.edges(data=True):
        e = pydotplus.Edge(src=edge[2].get(consts.Consts.source_ref), dst=edge[2].get(consts.Consts.target_ref), label=edge[2].get(consts.Consts.name))
        graph.add_edge(e)

    graph.write(file_name + ".png", format='png')
Esempio n. 9
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    def _create_base_dot(self, subheading):
        dot = pydot.Dot("NOC", graph_type="digraph", strict=True)
        dot.set_prog("neato")
        dot.set_node_defaults(shape="none",
                              fontsize=14,
                              margin=0,
                              fontname="Arial")
        dot.set_edge_defaults(fontsize=13, fontname="Arial")
        # dot.set_page('11.7,8.3!')
        # dot.set_margin(0.5)
        # dot.set_ratio('fill')
        dot.set_rankdir("LR")
        dot.set_fontname("Arial")
        dot.set_nodesep(0.3)
        dot.set_splines("spline")

        sg = pydot.Cluster()  # 'physical', label='Physical')
        # sg.set_color('gray80')
        sg.set_style("invis")
        # sg.set_labeljust('l')
        dot.add_subgraph(sg)

        title = pydot.Node(
            "title",
            shape="none",
            label=self._title_label(self.opts.get("name"), subheading),
        )
        title.set_pos("0,0!")
        title.set_fontsize(18)
        dot.add_node(title)

        return dot, sg
Esempio n. 10
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def render_graph(bb_graph, filename):
    """
    Renders a basic block graph to file

    :param bb_graph: The Graph to render
    :type bb_graph: networkx.DiGraph
    """
    graph = pydotplus.Dot(graph_type='digraph', rankdir='TB')
    entryblock = nx.get_node_attributes(bb_graph, 'isEntry').keys()[0]
    returnblocks = nx.get_node_attributes(bb_graph, 'isTerminal').keys()

    nodedict = {}

    for bb in bb_graph.nodes.iterkeys():
        node = render_bb(bb, bb == entryblock, bb in returnblocks)
        if bb == entryblock:
            sub = pydotplus.Subgraph('sub', rank='source')
            sub.add_node(node)
            graph.add_subgraph(sub)
        else:
            graph.add_node(node)
        nodedict[bb] = node

    for edge in bb_graph.edges.iteritems():
        edge = (edge[0][0], edge[0][1], edge[1])
        src = nodedict[edge[0]]
        dest = nodedict[edge[1]]
        e_style = 'dashed' if edge[2]['edge_type'] == 'implicit' else 'solid'

        graph.add_edge(pydotplus.Edge(src, dest, style=e_style))
    # graph.set('splines', 'ortho')
    # graph.set_prog('neato')
    # graph.set('dpi', '100')

    graph.write(filename, format='svg')
Esempio n. 11
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    def __init__(self):
        super(DotCode, self).__init__()

        # Secuencia para nombres de nodos
        self.id = 0

        # Stack para retornar nodos procesados
        self.stack = []

        # Inicializacion del grafo para Dot
        self.dot = pgv.Dot('AST', graph_type='digraph')
        self.dot.set_node_defaults(shape='box',
                                   color='lightgray',
                                   style='filled')
        self.dot.set_edge_defaults(arrowhead='none')

        # variables de control
        self.pasecommandread = False
        self.pasecommandwrite = False
        self.paseAssing = False

        # listas de simbolos
        self.valoresEnteros = "IJKLMN"
        self.valoresInt = [["I", None], ["J", None], ["K", None], ["L", None],
                           ["M", None], ["N", None]]

        self.valoresFlotantes = "ABCDEFGHIOPQRSTUVWXYZ"
        self.valoresFloat = []
Esempio n. 12
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    def plot(cls, root: BiNode, path):
        '''
        打印单颗树 (pydotplus + graphviz)

        brew install graphviz
        graphviz文档 https://graphviz.readthedocs.io/en/stable/manual.html
        graphviz官网 https://graphviz.gitlab.io/documentation/
        pydotplus   https://github.com/carlos-jenkins/pydotplus
        '''
        if not root: return

        dot = pdp.Dot(graph_type='digraph')
        # graph = pdp.Graph(graph_type='digraph')
        dot.set_node_defaults(shape='box')

        # 遍历获取决策树的父子节点关系
        nodes = cls.level_traversal(root)
        edges = cls.level_traversal(root, get_rel_pair=True)

        # 添加节点
        for tree_node in nodes:
            node = pdp.Node(name=tree_node.id, label=tree_node.kwargs_to_str())
            dot.add_node(node)

        # 添加边
        for pair in edges:
            label='Y' if pair[0].left == pair[1] else 'N'
            edge = pdp.Edge(src=pair[0].id, dst=pair[1].id, label=label)
            dot.add_edge(edge)

        if path:
            dot.write(path, format='png')
        return dot.to_string()
Esempio n. 13
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def visualize(aTree):
    def traverse(aNode, graph):
        node_lbl = aNode.id if aNode.id > 0 else ''
        # node_lbl = '[%i; %i]' % (aNode.leaflist_start, aNode.leaflist_end)

        if hasattr(aNode, 'marked') and aNode.marked:
            graph.add_node(
                pydot.Node(aNode.graphid,
                           label=node_lbl,
                           style='filled',
                           fillcolor='#ddffdd'))
        else:
            graph.add_node(pydot.Node(aNode.graphid, label=node_lbl))

        if aNode.parent is not None:
            edge = pydot.Edge(aNode.parent.graphid,
                              aNode.graphid,
                              label=aNode.parentEdge)
            graph.add_edge(edge)

        for c in aNode.children:
            traverse(c, graph)

    graph = pydot.Dot(graph_type='graph')
    tree_root = aTree.root if type(aTree) == suffix_tree.Tree else aTree
    traverse(tree_root, graph)
    return graph
Esempio n. 14
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    async def gold_exchange(self):
        channel = self.get_channel(channel_id)

        for elem in self.players:
            if len(elem.thieves) > 0:
                elem.gold = elem.gold // 2

        incomes = []
        for i in range(len(self.players)):
            incomes.append(0)

        for i in range(len(self.players)):
            for thief in self.players[i].thieves:
                incomes[thief.id - 1] = self.players[i].gold // len(self.players[i].thieves)

        for i in range(len(self.players)):
            self.players[i].gold += incomes[i]

        graph = pydotplus.Dot(graph_type="digraph")
        for elem in self.players:
            node = pydotplus.Node(elem.user.name, style="filled", fillcolor="blue")
            graph.add_node(node)
        for elem in self.players:
            for thief in elem.thieves:
                edge = pydotplus.Edge(thief.user.name, elem.user.name)
                graph.add_edge(edge)
        graph.write_png('day' + str(self.day) + '.png')
        await channel.send(file=discord.File('day' + str(self.day) + '.png'))

        for elem in self.players:
            elem.thieves = []
Esempio n. 15
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def ExportGraphFunc():
    global G, TransformationNumber
    if G == None:
        return
    Nodes = G.get_node_list()
    Edges = G.get_edge_list()

    GExport = pydotplus.Dot(graph_type="graph")

    for N in Nodes:
        name = N.get_name()
        lbl = N.get("label")

        newnode = pydotplus.Node(name, label=lbl)
        GExport.add_node(newnode)
    for E in Edges:
        sorc = E.get_source()
        dest = E.get_destination()

        newedge = pydotplus.Edge(sorc, dest)
        GExport.add_edge(newedge)

    GExport.write("{}.{}".format("Exported" + str(TransformationNumber),
                                 'dot'),
                  format='dot')
Esempio n. 16
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    def __init__(self, smarthome, abitem):
        super().__init__(abitem)

        if not REQUIRED_PACKAGE_IMPORTED:
            self._log_warning(
                "Unable to import Python package 'pydotplus'. Visualizing SE items will not work."
            )

        self.__states = abitem.webif_infos
        self.__name = abitem.id
        self.__active_conditionset = abitem.lastconditionset_name
        self.__active_state = abitem.laststate

        self.__graph = pydotplus.Dot('StateEngine',
                                     graph_type='digraph',
                                     splines='false',
                                     overlap='scale',
                                     compound='false')
        self.__graph.set_node_defaults(color='lightgray',
                                       style='filled',
                                       shape='box',
                                       fontname='Helvetica',
                                       fontsize='10')
        self.__graph.set_edge_defaults(color='darkgray',
                                       style='filled',
                                       shape='box',
                                       fontname='Helvetica',
                                       fontsize='10')
        self.__nodes = {}
        self.__scalefactor = 0.1
        self.__textlimit = 145
        self.__conditionset_count = 0
Esempio n. 17
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def plot_categorical_decision_tree(query=None):
    graph = pdp.Dot(graph_type='digraph')
    DECISION_TREE.plot(graph, query=query)
    graph.write_png('tree.png')
    img = cv2.imread('tree.png')
    cv2.imshow("Decision Tree", img)
    cv2.waitKey(0)
Esempio n. 18
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def Visualize_Optimal_Partitions(Partitions,edge_list,node_list):
    global colors
    graph = pydot.Dot(graph_type = 'digraph', nodesep = .5)
    graph.set_node_defaults(style = "filled",shape = "rect",fontsize = "20.0")
    graph.set_edge_defaults(color = 'blue', arrowhead = "vee")
    
    temp_dict = {}
    count = 0
    
    #Highlight Groups of Two Input Gates mapped to same LUT
    for i in Partitions:
        for j in i:            
            temp_dict[j] = pydot.Node(j, color = colors[count])
            graph.add_node(temp_dict[j])
        count+= 1          
            
    #base/input nodes highlighted in grey color
    for i in node_list:
        if i[:3] not in Operators and i[:2] not in Operators:
            temp_dict[i] = pydot.Node(i, color= u'#DCDCDC')
            graph.add_node(temp_dict[i])
          
    #Add edges
    for i in edge_list:
        graph.add_edge(pydot.Edge(temp_dict[i[0]],temp_dict[i[1]]))
        
    #Store result in a file
    graph.write_png('partion_graph.png')
Esempio n. 19
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def drawCFG(code_obj, filename):
    '''
    Draw the CFG of the code object.
    
    :param code_obj: the code object
    :type code_obj: code
    
    :param filename: filename of svg
    :type filename: str
    '''
    global entrypoint

    # For normal codeobjects entrypoint = oep = 0
    #entrypoint = oep = findOEP(code_obj)
    entrypoint = oep = 0
    if oep == -1:
        print 'Not generating cfg for ', code_obj.co_name
        return

    leader_set = getLeaders(code_obj, oep)
    bblist = buildBasicBlocks(leader_set, code_obj)
    nodelist = []
    graph = pydotplus.Dot(graph_type = 'digraph')
    # graph.set('splines', 'curved')

    for bb in bblist:
        node = bb.toDotNode()
        nodelist.append(node)
        graph.add_node(node)

    buildEdges(graph, bblist, nodelist)
    graph.write_svg(filename)
Esempio n. 20
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 def __init__(self, max_level, db_features_list, k):
     self.max_level = max_level
     self.db_features_dict = {}
     self.db_features_ids = []
     self.graph = pydot.Dot(graph_type='graph')
     self.query_ts = None
     self.query_score_chart = None
     self.node_shortcuts = None
     self.weights = None
     self.d_matrix = None
     self._original_time_series_ids = None
     self._query_vector = None
     self.n_nodes = 0
     self.k = k
     id_ = 0
     for ts in db_features_list:
         ts._id = id_
         self.db_features_ids.append(ts._id)
         self.db_features_dict[ts._id] = ts
         id_ += 1
     self.root = Node(0, self.max_level, self.db_features_ids, affinities,
                      None, None, self.get_db_features_dict(),
                      self.get_next_node_id(),
                      self.get_original_time_series_ids(), self.k)
     self._build_node_shorcuts()
     self._build_weights_vector()
     self._build_d_matrix()
Esempio n. 21
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def make_pydot_graph(layers, output_shape=True, verbose=False):
    """
    :parameters:
        - layers : list
            List of the layers, as obtained from lasagne.layers.get_all_layers
        - output_shape: (default `True`)
            If `True`, the output shape of each layer will be displayed.
        - verbose: (default `False`)
            If `True`, layer attributes like filter shape, stride, etc.
            will be displayed.
    :returns:
        - pydot_graph : PyDot object containing the graph
    """
    import pydotplus as pydot
    pydot_graph = pydot.Dot('Network', graph_type='digraph')
    pydot_nodes = {}
    pydot_edges = []
    for i, layer in enumerate(layers):
        layer_type = '{0}'.format(layer.__class__.__name__)
        key = repr(layer)
        label = layer_type
        color = get_hex_color(layer_type)
        if verbose:
            for attr in [
                    'num_filters', 'num_units', 'ds', 'filter_shape', 'stride',
                    'strides', 'p'
            ]:
                if hasattr(layer, attr):
                    label += '\n{0}: {1}'.format(attr, getattr(layer, attr))
            if hasattr(layer, 'nonlinearity'):
                try:
                    nonlinearity = layer.nonlinearity.__name__
                except AttributeError:
                    nonlinearity = layer.nonlinearity.__class__.__name__
                label += '\nnonlinearity: {0}'.format(nonlinearity)

        if output_shape:
            label += '\nOutput shape: {0}'.format(layer.output_shape)

        pydot_nodes[key] = pydot.Node(key,
                                      label=label,
                                      shape='record',
                                      fillcolor=color,
                                      style='filled')

        if hasattr(layer, 'input_layers'):
            for input_layer in layer.input_layers:
                pydot_edges.append([repr(input_layer), key])

        if hasattr(layer, 'input_layer'):
            pydot_edges.append([repr(layer.input_layer), key])

    for node in pydot_nodes.values():
        pydot_graph.add_node(node)

    for edges in pydot_edges:
        pydot_graph.add_edge(
            pydot.Edge(pydot_nodes[edges[0]], pydot_nodes[edges[1]]))
    return pydot_graph
Esempio n. 22
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    def test_executable_not_found_exception(self):
        paths = {'dot': 'invalid_executable_path'}

        graph = pydotplus.Dot('graphname', graph_type='digraph')

        graph.set_graphviz_executables(paths)

        self.assertRaises(pydotplus.InvocationException, graph.create)
Esempio n. 23
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def get_pydot_graph(caffe_net, rankdir, label_edges=True):
    """Create a data structure which represents the `caffe_net`.

    Parameters
    ----------
    caffe_net : object
    rankdir : {'LR', 'TB', 'BT'}
        Direction of graph layout.
    label_edges : boolean, optional
        Label the edges (default is True).

    Returns
    -------
    pydot graph object
    """
    pydot_graph = pydot.Dot(caffe_net.name,
                            graph_type='digraph',
                            rankdir=rankdir)
    pydot_nodes = {}
    pydot_edges = []
    for layer in caffe_net.layer:
        node_label = get_layer_label(layer, rankdir)
        node_name = "%s_%s" % (layer.name, layer.type)
        if (len(layer.bottom) == 1 and len(layer.top) == 1 and
           layer.bottom[0] == layer.top[0]):
            # We have an in-place neuron layer.
            pydot_nodes[node_name] = pydot.Node(node_label,
                                                **NEURON_LAYER_STYLE)
        else:
            layer_style = LAYER_STYLE_DEFAULT
            layer_style['fillcolor'] = choose_color_by_layertype(layer.type)
            pydot_nodes[node_name] = pydot.Node(node_label, **layer_style)
        for bottom_blob in layer.bottom:
            pydot_nodes[bottom_blob + '_blob'] = pydot.Node('%s' % bottom_blob,
                                                            **BLOB_STYLE)
            edge_label = '""'
            pydot_edges.append({'src': bottom_blob + '_blob',
                                'dst': node_name,
                                'label': edge_label})
        for top_blob in layer.top:
            pydot_nodes[top_blob + '_blob'] = pydot.Node('%s' % (top_blob))
            if label_edges:
                edge_label = get_edge_label(layer)
            else:
                edge_label = '""'
            pydot_edges.append({'src': node_name,
                                'dst': top_blob + '_blob',
                                'label': edge_label})
    # Now, add the nodes and edges to the graph.
    for node in pydot_nodes.values():
        pydot_graph.add_node(node)
    for edge in pydot_edges:
        pydot_graph.add_edge(
            pydot.Edge(pydot_nodes[edge['src']],
                       pydot_nodes[edge['dst']],
                       label=edge['label']))
    return pydot_graph
    def __init__(self, root, node_obj_representation, output_path):
        graph_representation = convert_to_graph_representation(root, node_obj_representation)
        visualizer_input = [graph_representation[0], graph_representation[1:]]
        # input format for visualizer: [root, children] ~ [root, [[root (child 1), child 1 child 1], child 2,...]]

        self.graph = pydot.Dot(graph_type='digraph')
        self.graph.add_node(pydot.Node(visualizer_input[0], ))
        self.add_edges(visualizer_input[0], visualizer_input[1])
        self.graph.write_png(output_path)
Esempio n. 25
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    def __init__(self):
        """
        Constructor
        """
        # create graph object
        self.graph = pydotplus.Dot(graph_type='graph', dpi=800)

        #index of node
        self.index = 0
Esempio n. 26
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    def test_create_simple_graph_with_node(self):

        g = pydotplus.Dot()
        g.set_type('digraph')
        node = pydotplus.Node('legend')
        node.set("shape", 'box')
        g.add_node(node)
        node.set('label', 'mine')

        self.assertEqual(g.to_string(),
                         'digraph G {\nlegend [label=mine, shape=box];\n}\n')
Esempio n. 27
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 def test_quoting(self):
 	# 导入string 包
     import string
     # 创建dot数据
     g = pydotplus.Dot()
     # 添加一个点,节点的名称是test,标签是string.printable,暂时不知道什么意思
     g.add_node(pydotplus.Node("test", label=string.printable))
     # 创建图,格式是jpe
     data = g.create(format='jpe')
     # 检测data,即图的大小是0
     self.assertEqual(len(data) > 0, True)
Esempio n. 28
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def to_pydot(viz_dag, graph_attr=None, node_attr=None, edge_attr=None):
    node_groups = {}
    for name, data in viz_dag.nodes(data=True):
        group = data.get('_group')
        node_groups.setdefault(group, []).append(name)

    edge_groups = {}
    for name1, name2, data in viz_dag.edges(data=True):
        group = data.get('_group')
        edge_groups.setdefault(group, []).append((name1, name2))

    viz_dot = pydotplus.Dot()

    if graph_attr is not None:
        for k, v in six.iteritems(graph_attr):
            viz_dot.set(k, v)

    if node_attr is not None:
        viz_dot.set_node_defaults(**node_attr)

    if edge_attr is not None:
        viz_dot.set_edge_defaults(**edge_attr)

    for group, names in six.iteritems(node_groups):
        if group is None:
            continue
        c = pydotplus.Subgraph('cluster_' + str(group))

        for name in names:
            node = pydotplus.Node(name)
            for k, v in six.iteritems(viz_dag.node[name]):
                if not k.startswith("_"):
                    node.set(k, v)
            c.add_node(node)

        for name1, name2 in edge_groups.get(group, []):
            edge = pydotplus.Edge(name1, name2)
            c.add_edge(edge)

        c.obj_dict['label'] = str(group)
        viz_dot.add_subgraph(c)

    for name in node_groups.get(None, []):
        node = pydotplus.Node(name)
        for k, v in six.iteritems(viz_dag.nodes[name]):
            if not k.startswith("_"):
                node.set(k, v)
        viz_dot.add_node(node)

    for name1, name2 in edge_groups.get(None, []):
        edge = pydotplus.Edge(name1, name2)
        viz_dot.add_edge(edge)

    return viz_dot
Esempio n. 29
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def buildGraph(bb_list):
    graph = pydotplus.Dot(graph_type='digraph')
    # graph.set('splines', 'curved')
    nodelist = []
    for bb in bb_list:
        node = bbToDot(bb)
        graph.add_node(node)
        nodelist.append(node)

    buildEdges(graph, nodelist, bb_list)
    graph.write_svg('1_d.svg')
Esempio n. 30
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    def plot(self):
        fig = pydotplus.Dot(graph_name=self.conf['pipeline']['name'],
                            rankdir="LR",
                            labelloc='b',
                            labeljust='r',
                            ranksep=1)
        fig.set_node_defaults(shape='square')

        modules = []

        for module in self.conf['modules']:

            if 'input_file' in module:
                modules.append(
                    pydotplus.Node(
                        name='input_file',
                        texlbl='Input file\n' + module['input_file'],
                        label='Input file\n' + module['input_file']))

            label = ''
            if 'params' in module:
                for param in module['params']:
                    if param['type'] == 'collection':
                        label += 'param ' + param[
                            'name'] + ' values: [' + ','.join(
                                param['values']) + ']\n'
                    else:
                        label += 'param ' + param['name'] + ' range: [' + str(
                            param['start']) + ', ' + str(
                                param['step_size']) + ', ' + str(
                                    param['end']) + ']\n'

            modules.append(
                pydotplus.Node(name=module['name'],
                               texlbl=module['name'],
                               label=module['name'] + '\ntype: ' +
                               module['type'] + '\n' + label + 'instances: ' +
                               str(module['instances'])))

            if 'output_file' in module:
                modules.append(
                    pydotplus.Node(
                        name='output_file',
                        texlbl='Output file' + module['output_file'],
                        label='Output file\n' + module['output_file']))

        for node in modules:
            fig.add_node(node)

        for i in range(len(modules) - 1):
            fig.add_edge(pydotplus.Edge(modules[i], modules[i + 1]))

        fig.write_png(self.conf['pipeline']['name'] + '.png')