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authorTodd Gamblin <tgamblin@llnl.gov>2015-01-04 18:49:22 -0800
committerTodd Gamblin <tgamblin@llnl.gov>2015-01-04 18:49:22 -0800
commit5d033fbd0aed96770bd6802dbece6df1a5c8540e (patch)
treec09666ee126c2d41d09a21a921e2c579285b60ca
parentb4b8339d0d13e508119813877559f33049eefbd1 (diff)
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Expansion works properly, simplified graph code.
-rw-r--r--lib/spack/spack/cmd/graph.py4
-rw-r--r--lib/spack/spack/graph.py234
2 files changed, 148 insertions, 90 deletions
diff --git a/lib/spack/spack/cmd/graph.py b/lib/spack/spack/cmd/graph.py
index 58a411be71..f8cd18d91f 100644
--- a/lib/spack/spack/cmd/graph.py
+++ b/lib/spack/spack/cmd/graph.py
@@ -55,7 +55,7 @@ def graph(parser, args):
graph_dot(*specs)
elif specs: # ascii is default: user doesn't need to provide it explicitly
- graph_ascii(specs[0])
+ graph_ascii(specs[0], debug=spack.debug)
for spec in specs[1:]:
print # extra line bt/w independent graphs
- graph_ascii(spec)
+ graph_ascii(spec, debug=spack.debug)
diff --git a/lib/spack/spack/graph.py b/lib/spack/spack/graph.py
index 08bd6f18bb..c4f5de1ebc 100644
--- a/lib/spack/spack/graph.py
+++ b/lib/spack/spack/graph.py
@@ -29,7 +29,30 @@ This file contains code for graphing DAGs of software packages
about:
graph_ascii() will output a colored graph of a spec in ascii format,
-knd of like the graph git shows with "git log --graph".
+kind of like the graph git shows with "git log --graph", e.g.::
+
+ o mpileaks
+ |\
+ | |\
+ | o | callpath
+ |/| |
+ | |\|
+ | |\ \
+ | | |\ \
+ | | | | o adept-utils
+ | |_|_|/|
+ |/| | | |
+ o | | | | mpi
+ / / / /
+ | | o | dyninst
+ | |/| |
+ |/|/| |
+ | | |/
+ | o | libdwarf
+ |/ /
+ o | libelf
+ /
+ o boost
graph_dot() will output a graph of a spec (or multiple specs) in dot
format.
@@ -102,11 +125,16 @@ def find(seq, predicate):
return -1
+# Names of different graph line states. We Record previous line
+# states so that we can easily determine what to do when connecting.
+states = ('node', 'collapse', 'merge-right', 'expand-right', 'back-edge')
+NODE, COLLAPSE, MERGE_RIGHT, EXPAND_RIGHT, BACK_EDGE = states
+
class AsciiGraph(object):
def __init__(self):
# These can be set after initialization or after a call to
# graph() to change behavior.
- self.node_character = 'o'
+ self.node_character = '*'
self.debug = False
self.indent = 0
@@ -120,6 +148,7 @@ class AsciiGraph(object):
self._out = None # Output stream
self._frontier = None # frontier
self._nodes = None # dict from name -> node
+ self._prev_state = None # State of previous line
def _indent(self):
@@ -133,7 +162,7 @@ class AsciiGraph(object):
self._out.write(edge)
- def _connect_deps(self, i, deps, collapse, label):
+ def _connect_deps(self, i, deps, label=None):
"""Connect dependencies to existing edges in the frontier.
``deps`` are to be inserted at position i in the
@@ -147,9 +176,6 @@ class AsciiGraph(object):
Parameters:
- collapse -- whether the frontier is collapsing or staying the
- same size.
-
label -- optional debug label for the connection.
Returns: True if the deps were connected to another edge
@@ -161,20 +187,25 @@ class AsciiGraph(object):
if len(deps) == 1 and deps in self._frontier:
j = self._frontier.index(deps)
- # connect to the left
- if j < i:
- if i-j > 1: # two lines if distance > 1
- self._back_edge([], j, i, True, label)
- self._back_edge([j], -1, -1, (i-j == 1), label)
-
- # connect to the right
- else:
- if i < j:
- self._frontier.pop(j)
- self._frontier.insert(i, deps)
- if j-i > 1:
- self._back_edge([], i, j+1, collapse, label)
- self._back_edge([i], -1, -1, not (j-i > 1) and collapse, label)
+ # convert a right connection into a left connection
+ if i < j:
+ self._frontier.pop(j)
+ self._frontier.insert(i, deps)
+ return self._connect_deps(j, deps, label)
+
+ collapse = True
+ if self._prev_state == EXPAND_RIGHT:
+ # Special case for when prev. line expanded (spacing is off by 1)
+ # Need two lines here even when distance in frontier is 1.
+ self._back_edge_line([], j, i+1, True, label + "-1.5 " + str((i,j)))
+ collapse = False
+
+ elif i-j > 1:
+ # We need two lines to connect if distance > 1
+ self._back_edge_line([], j, i, True, label + "-1 " + str((i,j)))
+ collapse = False
+
+ self._back_edge_line([j], -1, -1, collapse, label + "-2 " + str((i,j)))
return True
elif deps:
@@ -182,22 +213,20 @@ class AsciiGraph(object):
return False
- def _add_deps_to_frontier(self, node, i):
- """Add dependencies to frontier.
-
- Adds the dependencies of <node> to the frontier, and connects
- them to other open edges if they match. Also deletes parent
- pointers in the node to mark edges as covered.
-
- """
- deps = sorted((d for d in node.dependencies), reverse=True)
- self._connect_deps(i, deps, True, "add_deps")
- for d in deps:
- del self._nodes[d].dependents[node.name]
+ def _set_state(self, state, label=None):
+ if state not in states:
+ raise ValueError("Invalid graph state!")
+ self._prev_state = state
+ if self.debug:
+ self._out.write(" " * 20)
+ self._out.write("%-20s" % (
+ str(self._prev_state) if self._prev_state else ''))
+ self._out.write("%-20s" % (str(label) if label else ''))
+ self._out.write("%s" % self._frontier)
- def _back_edge(self, prev_ends, end, start, collapse, label=None):
+ def _back_edge_line(self, prev_ends, end, start, collapse, label=None):
"""Write part of a backwards edge in the graph.
Writes single- or multi-line backward edges in an ascii graph.
@@ -267,12 +296,64 @@ class AsciiGraph(object):
else:
advance(flen, lambda: [("| ", self._pos)] )
- if self.debug:
- self._out.write(" " * 10)
- if label:
- self._out.write(label)
- self._out.write("%s" % self._frontier)
+ self._set_state(BACK_EDGE, label)
+ self._out.write("\n")
+
+
+ def _node_line(self, index, name):
+ """Writes a line with a node at index."""
+ self._indent()
+ for c in range(index):
+ self._write_edge("| ", c)
+
+ self._out.write("%s " % self.node_character)
+
+ for c in range(index+1, len(self._frontier)):
+ self._write_edge("| ", c)
+
+ self._out.write(" %s" % name)
+ self._set_state(NODE)
+ self._out.write("\n")
+
+
+ def _collapse_line(self, index):
+ """Write a collapsing line after a node was added at index."""
+ self._indent()
+ for c in range(index):
+ self._write_edge("| ", c)
+ for c in range(index, len(self._frontier)):
+ self._write_edge(" /", c)
+ self._set_state(COLLAPSE)
+ self._out.write("\n")
+
+
+ def _merge_right_line(self, index):
+ """Edge at index is same as edge to right. Merge directly with '\'"""
+ self._indent()
+ for c in range(index):
+ self._write_edge("| ", c)
+ self._write_edge("|", index)
+ self._write_edge("\\", index+1)
+ for c in range(index+1, len(self._frontier)):
+ self._write_edge("| ", c )
+
+ self._set_state(MERGE_RIGHT)
+ self._out.write("\n")
+
+
+ def _expand_right_line(self, index):
+ self._indent()
+ for c in range(index):
+ self._write_edge("| ", c)
+
+ self._write_edge("|", index)
+ self._write_edge("\\", index+1)
+
+ for c in range(index+2, len(self._frontier)):
+ self._write_edge(" \\", c)
+
+ self._set_state(EXPAND_RIGHT)
self._out.write("\n")
@@ -311,27 +392,22 @@ class AsciiGraph(object):
self._name_to_color = dict((name, self.colors[i % len(self.colors)])
for i, name in enumerate(topo_order))
- # This array tracks the open edges at the frontier of the
- # graph we're writing out.
- self._frontier = []
-
- self._add_deps_to_frontier(spec, 0)
- self._indent()
- self._out.write('%s %s\n' % (self.node_character, spec.name))
- topo_order.pop()
-
+ # Frontier tracks open edges of the graph as it's written out.
+ self._frontier = [[spec.name]]
while self._frontier:
# Find an unexpanded part of frontier
i = find(self._frontier, lambda f: len(f) > 1)
- # Expand frontier until there are enough columns for all children.
if i >= 0:
+ # Expand frontier until there are enough columns for all children.
+
# Figure out how many back connections there are and
# sort them so we do them in order
back = []
for d in self._frontier[i]:
b = find(self._frontier[:i], lambda f: f == [d])
- if b != -1: back.append((b, d))
+ if b != -1:
+ back.append((b, d))
# Do all back connections in sorted order so we can
# pipeline them and save space.
@@ -341,79 +417,61 @@ class AsciiGraph(object):
for j, (b, d) in enumerate(back):
self._frontier[i].remove(d)
if i-b > 1:
- self._back_edge(prev_ends, b, i, False)
+ self._back_edge_line(prev_ends, b, i, False, 'left-1')
del prev_ends[:]
prev_ends.append(b)
- self._back_edge(prev_ends, -1, -1, False)
+ self._back_edge_line(prev_ends, -1, -1, False, 'left-2')
if not self._frontier[i]:
self._frontier.pop(i)
elif len(self._frontier[i]) > 1:
- # Expand forawrd after doing all back connections
- self._indent()
- for c in range(i):
- self._write_edge("| ", c)
- self._write_edge("|", i)
+ # Expand forward after doing all back connections
if (i+1 < len(self._frontier) and len(self._frontier[i+1]) == 1
and self._frontier[i+1][0] in self._frontier[i]):
# We need to connect to the element to the right.
# Keep lines straight by connecting directly and
- # avoiding immediate expand/contract.
+ # avoiding unnecessary expand/contract.
name = self._frontier[i+1][0]
self._frontier[i].remove(name)
-
- self._write_edge("\\", i+1)
- for c in range(i+1, len(self._frontier)):
- self._write_edge("| ", c )
- self._out.write("\n")
+ self._merge_right_line(i)
else:
# Just allow the expansion here.
name = self._frontier[i].pop(0)
deps = [name]
- self._write_edge("\\", i)
- for c in range(i+1, len(self._frontier)):
- self._write_edge(" \\", c)
- self._out.write("\n")
- self._connect_deps(i, deps, True, "expansion")
+ self._frontier.insert(i, deps)
+ self._expand_right_line(i)
+
+ self._frontier.pop(i)
+ self._connect_deps(i, deps, "post-expand")
+
# Handle any remaining back edges to the right
j = i+1
while j < len(self._frontier):
deps = self._frontier.pop(j)
- if not self._connect_deps(j, deps, True, "rem_back"):
+ if not self._connect_deps(j, deps, "back-from-right"):
j += 1
else:
+ # Nothing to expand; add dependencies for a node.
name = topo_order.pop()
node = self._nodes[name]
- # Find the next node in topo order and remove it from
- # the frontier. Since specs are single-rooted DAGs,
- # the node is always there. If the graph had multiple
- # roots, we'd need to handle that case case of a new root.
+ # Find the named node in the frontier and draw it.
i = find(self._frontier, lambda f: name in f)
- self._frontier.pop(i)
-
- self._indent()
- for c in range(i):
- self._write_edge("| ", c)
- self._out.write("%s " % self.node_character)
- for c in range(i, len(self._frontier)):
- self._write_edge("| ", c)
- self._out.write(" %s\n" % name)
+ self._node_line(i, name)
+ # Replace node with its dependencies
+ self._frontier.pop(i)
if node.dependencies:
- self._add_deps_to_frontier(node, i)
+ deps = sorted((d for d in node.dependencies), reverse=True)
+ self._connect_deps(i, deps, "new-deps") # anywhere.
+
elif self._frontier:
- self._indent()
- for c in range(i):
- self._write_edge("| ", c)
- for c in range(i, len(self._frontier)):
- self._write_edge(" /", c)
- self._out.write("\n")
+ self._collapse_line(i)
def graph_ascii(spec, **kwargs):