def general_graph(self,
timeline: Iterable[Optional[List[int]]],
edges: Iterable[Iterable[int]],
extra_nodes: Iterable[int] = tuple(),
view: bool = False,
fontsize: int = 20,
fontcolor: str = 'black',
penwidth: float = 2.2,
first_color: str = 'yellow',
first_style: str = 'filled',
second_color: str = 'green',
second_style: str = 'dotted,filled',
third_color: str = 'red',
graph_name: str = 'graph',
file_basename: str = 'graph',
do_sort_nodes: bool = True,
do_adj_nodes: bool = True,
var_name: str = '') -> None:
"""
Creates one graph emphasized for the given timeline.
Parameters
----------
edges : Iterable of: {int, int}
All edges between nodes in the graph.
Should NOT contain self-edges!
BOTH edges (x, y) and (y, x) could be in the edgelist.
extra_nodes : Iterable of int
Nodes that are probably not in the edges, but should be rendered.
TIMELINE : Iterable of: None | [int...]
None if no variables get highlighted in this step.
Else the 'timeline' provides the set of variables that are
in the bag(s) under consideration. This function computes all other
variables that are involved in this timestep using the 'edgelist'.
colors : Iterable of color
Colors to use for the graph parts.
Returns
-------
None, but outputs the files with the graph for each timestep.
"""
_filename = self.outfolder / file_basename
LOGGER.info("Generating general-graph for '%s'", file_basename)
vartag_n: str = var_name + '%d'
# sfdp http://yifanhu.net/SOFTWARE/SFDP/index.html
default_engine = 'sfdp'
graph = Graph(graph_name,
strict=True,
engine=default_engine,
graph_attr={
'fontsize': str(fontsize),
'overlap': 'false',
'outputorder': 'edgesfirst',
'K': '2'
},
node_attr={
'fontcolor': str(fontcolor),
'penwidth': str(penwidth),
'style': 'filled',
'fillcolor': 'white'
})
if do_sort_nodes:
bodybaselen = len(graph.body)
# 1: layout with circo
graph.engine = 'circo'
# 2: nodes in edges+extra_nodes make a circle
nodes = sorted([
vartag_n % n
for n in set(itertools.chain(flatten(edges), extra_nodes))
],
key=lambda x: (len(x), x))
for i, node in enumerate(nodes):
graph.edge(str(nodes[i - 1]), str(node))
# 3: reads in bytes!
code_lines = graph.pipe('plain').splitlines()
# 4: save the (sorted) positions
assert code_lines[0].startswith(b'graph')
node_positions = [
line.split()[1:4] for line in code_lines[1:]
if line.startswith(b'node')
]
# 5: cut layout
graph.body = graph.body[:bodybaselen]
for line in node_positions:
graph.node(line[0].decode(),
pos='%f,%f!' % (float(line[1]), float(line[2])))
# 6: Engine uses previous positions
graph.engine = 'neato'
for (src, tar) in edges:
graph.edge(vartag_n % src, vartag_n % tar)
for nodeid in extra_nodes:
graph.node(vartag_n % nodeid)
bodybaselen = len(graph.body)
for i, variables in enumerate(timeline, start=1): # all timesteps
# reset highlighting
graph.body = graph.body[:bodybaselen]
if variables is None:
graph.render(view=view,
format='svg',
filename=str(_filename) + str(i))
continue
for var in variables:
graph.node(vartag_n % var,
fillcolor=first_color,
style=first_style)
# highlight edges between variables
for (s, t) in edges:
if s in variables and t in variables:
graph.edge(vartag_n % s,
vartag_n % t,
color=third_color,
penwidth=str(penwidth))
if do_adj_nodes:
# set.difference accepts list as argument, "-" does not.
edges = [set(edge) for edge in edges]
adjacent = {
edge.difference(variables).pop()
for edge in edges if len(edge.difference(variables)) == 1
}
for var in adjacent:
graph.node(vartag_n % var,
color=second_color,
style=second_style)
graph.render(view=view,
format='svg',
filename=str(_filename) + str(i))
def incidence(self,
timeline: Iterable[Optional[List[int]]],
num_vars: int,
colors: List,
edges: List,
inc_file: str = 'IncidenceGraphStep',
view: bool = False,
fontsize: Union[str, int] = 16,
penwidth: float = 2.2,
basefill: str = 'white',
sndshape: str = 'diamond',
neg_tail: str = 'odot',
var_name_one: str = '',
var_name_two: str = '',
column_distance: float = 0.5) -> None:
"""
Creates the incidence graph emphasized for the given timeline.
Parameters
----------
timeline : Iterable of: None | [int...]
None if no variables get highlighted in this step.
Else the 'timeline' provides the set of variables that are
in the bag(s) under consideration. This function computes all other
variables that are involved in this timestep using the 'edgelist'.
num_vars : int
Count of variables that are used in the clauses.
colors : Iterable of color
Colors to use for the graph parts.
inc_file : string
Basis for the file created, gets appended with the step number.
view : bool
If true opens the created file after creation. Default is false.
basefill : color
Background color of all nodes. Default is 'white'.
sndshape : string
Description of the shape for nodes with the variables. Default diamond.
neg_tail : string
Description of the shape of the edge-tail indicating a
negated variable. Default is 'odot'.
column_distance : float
Changes the distance between both partitions, measured in image-units.
Default is 0.5
Returns
-------
None, but outputs the files with the graph for each timestep.
"""
_filename = self.outfolder / inc_file
clausetag_n = var_name_one + '%d'
vartag_n = var_name_two + '%d'
g_incid = Graph(inc_file,
strict=True,
graph_attr={
'splines': 'false',
'ranksep': '0.2',
'nodesep': str(float(column_distance)),
'fontsize': str(int(fontsize)),
'compound': 'true'
},
edge_attr={
'penwidth': str(float(penwidth)),
'dir': 'back',
'arrowtail': 'none'
})
with g_incid.subgraph(name='cluster_clause',
edge_attr={'style': 'invis'},
node_attr={
'style': 'rounded,filled',
'fillcolor': basefill
}) as clauses:
clauses.attr(label='clauses')
clauses.edges([(clausetag_n % (i + 1), clausetag_n % (i + 2))
for i in range(len(edges) - 1)])
g_incid.attr('node',
shape=sndshape,
penwidth=str(float(penwidth)),
style='dotted')
with g_incid.subgraph(name='cluster_ivar',
edge_attr={'style': 'invis'}) as ivars:
ivars.attr(label='variables')
ivars.edges([(vartag_n % (i + 1), vartag_n % (i + 2))
for i in range(num_vars - 1)])
for i in range(num_vars):
g_incid.node(vartag_n % (i + 1),
vartag_n % (i + 1),
color=colors[(i + 1) % len(colors)])
g_incid.attr('edge', constraint='false')
for clause in edges:
for var in clause[1]:
if var >= 0:
g_incid.edge(clausetag_n % clause[0],
vartag_n % var,
color=colors[var % len(colors)])
else:
g_incid.edge(clausetag_n % clause[0],
vartag_n % -var,
color=colors[-var % len(colors)],
arrowtail=neg_tail)
# make edgelist variable-based (varX, clauseY), ...
# var_cl_iter [(1, 1), (4, 1), ...
var_cl_iter = tuple(flatten([[(x, y[0]) for x in y[1]]
for y in edges]))
bodybaselen = len(g_incid.body)
for i, variables in enumerate(timeline, start=1): # all timesteps
# reset highlighting
g_incid.body = g_incid.body[:bodybaselen]
if variables is None:
g_incid.render(view=view,
format='svg',
filename=str(_filename) + str(i))
continue
emp_clause = {
var_cl[1]
for var_cl in var_cl_iter if abs(var_cl[0]) in variables
}
emp_var = {
abs(var_cl[0])
for var_cl in var_cl_iter if var_cl[1] in emp_clause
}
for var in emp_var:
_vartag = vartag_n % abs(var)
_style = 'solid,filled' if var in variables else 'dotted,filled'
g_incid.node(_vartag,
_vartag,
style=_style,
fillcolor='yellow')
for clause in emp_clause:
g_incid.node(clausetag_n % clause,
clausetag_n % clause,
fillcolor='yellow')
for edge in var_cl_iter:
(var, clause) = edge
_style = 'solid' if clause in emp_clause else 'dotted'
_vartag = vartag_n % abs(var)
if var >= 0:
g_incid.edge(clausetag_n % clause,
_vartag,
color=colors[var % len(colors)],
style=_style)
else: # negated variable
g_incid.edge(clausetag_n % clause,
_vartag,
color=colors[-var % len(colors)],
arrowtail='odot',
style=_style)
g_incid.render(view=view,
format='svg',
filename=str(_filename) + str(i))
def incidence(self,
timeline,
num_vars,
colors,
inc_file='IncidenceGraphStep',
view=False,
fontsize=16,
penwidth=2.2,
basefill='white',
sndshape='diamond',
neg_tail='odot',
var_name_one='',
var_name_two='',
column_distance=0.5) -> None:
"""
Creates the incidence graph emphasized for the given timeline.
Parameters
----------
TIMELINE : Iterable of: None | [int...]
None if no variables get highlighted in this step.
Else the 'timeline' provides the set of variables that are
in the bag(s) under consideration. This function computes all other
variables that are involved in this timestep using the 'edgelist'.
num_vars : int
Count of variables that are used in the clauses.
colors : Iterable of color
Colors to use for the graph parts.
Returns
-------
None, but outputs the files with the graph for each timestep.
"""
_filename = self.outfolder + inc_file + '%d'
clausetag_n = var_name_one + '%d'
vartag_n = var_name_two + '%d'
g_incid = Graph(inc_file,
strict=True,
graph_attr={
'splines': 'false',
'ranksep': '0.2',
'nodesep': str(column_distance),
'fontsize': str(int(fontsize)),
'compound': 'true'
},
edge_attr={
'penwidth': str(penwidth),
'dir': 'back',
'arrowtail': 'none'
})
__incid = self.data.incidence_graph
with g_incid.subgraph(name='cluster_clause',
edge_attr={'style': 'invis'},
node_attr={
'style': 'rounded,filled',
'fillcolor': basefill
}) as clauses:
clauses.attr(label='clauses')
clauses.edges([(clausetag_n % (i + 1), clausetag_n % (i + 2))
for i in range(len(__incid.edges) - 1)])
g_incid.attr('node',
shape=sndshape,
fontcolor='black',
penwidth=str(penwidth),
style='dotted')
with g_incid.subgraph(name='cluster_ivar',
edge_attr={'style': 'invis'}) as ivars:
ivars.attr(label='variables')
ivars.edges([(vartag_n % (i + 1), vartag_n % (i + 2))
for i in range(num_vars - 1)])
for i in range(num_vars):
g_incid.node(vartag_n % (i + 1),
vartag_n % (i + 1),
color=colors[(i + 1) % len(colors)])
g_incid.attr('edge', constraint='false')
for clause in __incid.edges:
for var in clause[1]:
if var >= 0:
g_incid.edge(clausetag_n % clause[0],
vartag_n % var,
color=colors[var % len(colors)])
else:
g_incid.edge(clausetag_n % clause[0],
vartag_n % -var,
color=colors[-var % len(colors)],
arrowtail=neg_tail)
# make edgelist variable-based (varX, clauseY), ...
# var_cl_iter [(1, 1), (4, 1), ...
vcmapping = map(lambda y: map(lambda x: (x, y[0]), y[1]),
__incid.edges)
var_cl_iter = tuple(flatten(vcmapping))
bodybaselen = len(g_incid.body)
for i, variables in enumerate(timeline, start=1): # all timesteps
# reset highlighting
g_incid.body = g_incid.body[:bodybaselen]
if variables is None:
g_incid.render(view=view, format='svg', filename=_filename % i)
continue
emp_clause = {
var_cl[1]
for var_cl in var_cl_iter if abs(var_cl[0]) in variables
}
emp_var = {
abs(var_cl[0])
for var_cl in var_cl_iter if var_cl[1] in emp_clause
}
for var in emp_var:
_vartag = vartag_n % abs(var)
_style = 'solid,filled' if var in variables else 'dotted,filled'
g_incid.node(_vartag,
_vartag,
style=_style,
fillcolor='yellow')
for clause in emp_clause:
g_incid.node(clausetag_n % clause,
clausetag_n % clause,
fillcolor='yellow')
for edge in var_cl_iter:
(var, clause) = edge
_style = 'solid' if clause in emp_clause else 'dotted'
_vartag = vartag_n % abs(var)
if var >= 0:
g_incid.edge(clausetag_n % clause,
_vartag,
color=colors[var % len(colors)],
style=_style)
else: # negated variable
g_incid.edge(clausetag_n % clause,
_vartag,
color=colors[-var % len(colors)],
arrowtail='odot',
style=_style)
g_incid.render(view=view, format='svg', filename=_filename % i)
