/usr/lib/python2.7/dist-packages/nwdiag/builder.py is in python-nwdiag 1.0.3-4.1.
This file is owned by root:root, with mode 0o644.
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# Copyright 2011 Takeshi KOMIYA
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from collections import namedtuple
from nwdiag import parser
from nwdiag.elements import (Diagram, DiagramNode, DiagramEdge,
Network, Route, NodeGroup)
from blockdiag.utils import unquote, XY
class DiagramTreeBuilder:
def build(self, tree):
self.diagram = Diagram()
self.instantiate(None, None, tree)
for network in self.diagram.networks:
nodes = [n for n in self.diagram.nodes if network in n.networks]
if len(nodes) == 0:
self.diagram.networks.remove(network)
for i, network in enumerate(self.diagram.networks):
network.xy = XY(0, i)
for subgroup in self.diagram.groups:
if len(subgroup.nodes) == 0:
self.diagram.groups.remove(subgroup)
for node in self.diagram.nodes:
if len(node.networks) == 0:
msg = "DiagramNode %s does not belong to any networks"
raise RuntimeError(msg % node.id)
# show networks including same nodes
for nw in self.diagram.networks:
if nw.hidden and len(nw.nodes) == 2:
nodes = nw.nodes
is_same = lambda x: set(nodes) & set(x.nodes) == set(nodes)
for n in self.diagram.networks:
if n != nw and is_same(n):
nw.hidden = False
break
# show network for multiple peer networks from same node
nodes = []
for nw in self.diagram.networks:
if nw.hidden and len(nw.nodes) == 2:
nodes.append(nw.nodes[0]) # parent node (FROM node)
for node in [n for n in set(nodes) if nodes.count(n) > 1]:
for network in node.networks:
if len(network.nodes) == 2:
network.hidden = False
return self.diagram
def instantiate(self, network, group, tree):
for stmt in tree.stmts:
if isinstance(stmt, parser.Node):
node = DiagramNode.get(stmt.id)
node.set_attributes(network, stmt.attrs)
if group:
if (node.group and node.group != self.diagram and
(group != node.group)):
msg = "DiagramNode could not belong to two groups"
raise RuntimeError(msg)
node.group = group
group.nodes.append(node)
elif node.group is None:
node.group = self.diagram
if network is not None:
if network not in node.networks:
node.networks.append(network)
if node not in network.nodes:
network.nodes.append(node)
if node not in self.diagram.nodes:
self.diagram.nodes.append(node)
elif isinstance(stmt, parser.Network):
subnetwork = Network.get(stmt.id)
subnetwork.label = stmt.id
if subnetwork not in self.diagram.networks:
self.diagram.networks.append(subnetwork)
substmt = namedtuple('Statements', 'stmts')([])
for s in stmt.stmts:
if isinstance(s, parser.Attr):
subnetwork.set_attribute(s)
else:
substmt.stmts.append(s)
self.instantiate(subnetwork, group, substmt)
elif isinstance(stmt, parser.Group):
subgroup = NodeGroup.get(stmt.id)
if subgroup not in self.diagram.groups:
self.diagram.groups.append(subgroup)
substmt = namedtuple('Statements', 'stmts')([])
for s in stmt.stmts:
if isinstance(s, parser.Attr):
subgroup.set_attribute(s)
else:
substmt.stmts.append(s)
self.instantiate(network, subgroup, substmt)
elif isinstance(stmt, parser.Peer):
nodes = []
for edge in stmt.edges:
nodes.append(DiagramNode.get(edge.from_node))
nodes.append(DiagramNode.get(edge.to_node))
for node in nodes:
if node.group is None:
node.group = self.diagram
if node not in self.diagram.nodes:
self.diagram.nodes.append(node)
if len(nodes[0].networks) == 0:
nw = Network.create_anonymous([nodes[0]])
if nw:
self.diagram.networks.append(nw)
for edge in stmt.edges:
from_node = DiagramNode.get(edge.from_node)
to_node = DiagramNode.get(edge.to_node)
_nodes = [from_node, to_node]
nw = Network.create_anonymous(_nodes, edge.attrs)
if nw:
self.diagram.networks.append(nw)
elif isinstance(stmt, parser.Route):
nodes = [DiagramNode.get(n) for n in stmt.nodes]
for node1, node2 in zip(nodes[:-1], nodes[1:]):
route = Route(node1, node2)
route.set_attributes(stmt.attrs)
self.diagram.routes.append(route)
elif isinstance(stmt, parser.Attr):
self.diagram.set_attribute(stmt)
elif isinstance(stmt, parser.Extension):
if stmt.type == 'class':
name = unquote(stmt.name)
Diagram.classes[name] = stmt
elif stmt.type == 'plugin':
self.diagram.set_plugin(stmt.name, stmt.attrs)
elif isinstance(stmt, parser.Statements):
self.instantiate(network, group, stmt)
return network
class DiagramLayoutManager:
def __init__(self, diagram):
self.diagram = diagram
self.coordinates = []
def run(self):
self.do_layout()
self.diagram.fixiate()
def do_layout(self):
self.layout_nodes()
self.set_network_size()
def layout_nodes(self, group=None):
networks = self.diagram.networks
if group:
nodes = (n for n in self.diagram.nodes if n.group == group)
else:
nodes = self.diagram.nodes
for node in nodes:
if node.layouted:
continue
joined = [g for g in node.networks if g.hidden is False]
y1 = min(networks.index(g) for g in node.networks)
if joined:
y2 = max(networks.index(g) for g in joined)
else:
y2 = y1
if node.group and node.group != self.diagram and group:
starts = min(n.xy.x for n in group.nodes if n.layouted)
else:
nw = [n for n in node.networks if n.xy.y == y1][0]
nodes = [n for n in self.diagram.nodes if nw in n.networks]
layouted = [n for n in nodes if n.xy.x > 0]
starts = 0
if layouted:
layouted.sort(key=lambda a: a.xy.x)
basenode = layouted[0]
commonnw = set(basenode.networks) & set(node.networks)
if basenode.xy.y == y1:
starts = basenode.xy.x + 1
elif commonnw and list(commonnw)[0].hidden is True:
starts = basenode.xy.x
else:
starts = basenode.xy.x + 1 - len(nodes)
if starts < 0:
starts = 0
for x in range(starts, len(self.diagram.nodes)):
points = [XY(x, y) for y in range(y1, y2 + 1)]
if not set(points) & set(self.coordinates):
node.xy = XY(x, y1)
node.layouted = True
self.coordinates += points
break
if node.group and node.group != self.diagram and group is None:
self.layout_nodes(node.group)
if group:
self.set_coordinates(group)
def set_coordinates(self, group):
self.set_group_size(group)
xy = group.xy
for i in range(xy.x, xy.x + group.colwidth):
for j in range(xy.y, xy.y + group.colheight):
self.coordinates.append(XY(i, j))
def set_network_size(self):
for network in self.diagram.networks:
nodes = [n for n in self.diagram.nodes if network in n.networks]
nodes.sort(key=lambda a: a.xy.x)
x0 = min(n.xy.x for n in nodes)
network.xy = XY(x0, network.xy.y)
x1 = max(n.xy.x for n in nodes)
network.colwidth = x1 - x0 + 1
def set_group_size(self, group):
nodes = list(group.nodes)
nodes.sort(key=lambda a: a.xy.x)
x0 = min(n.xy.x for n in nodes)
y0 = min(n.xy.y for n in nodes)
group.xy = XY(x0, y0)
x1 = max(n.xy.x for n in nodes)
y1 = max(n.xy.y for n in nodes)
group.colwidth = x1 - x0 + 1
group.colheight = y1 - y0 + 1
class ScreenNodeBuilder:
@classmethod
def build(cls, tree):
DiagramNode.clear()
DiagramEdge.clear()
NodeGroup.clear()
Network.clear()
diagram = DiagramTreeBuilder().build(tree)
DiagramLayoutManager(diagram).run()
diagram = cls.update_network_status(diagram)
return diagram
@classmethod
def update_network_status(cls, diagram):
for node in diagram.nodes:
above = [nw for nw in node.networks if nw.xy.y <= node.xy.y]
if len(above) > 1 and [nw for nw in above if nw.hidden]:
for nw in above:
nw.hidden = False
below = [nw for nw in node.networks if nw.xy.y > node.xy.y]
if len(below) > 1 and [nw for nw in below if nw.hidden]:
for nw in below:
nw.hidden = False
return diagram
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