-# Copyright 2004 Toby Dickenson
+#!/usr/bin/python
+#
+# Copyright 2004 Toby Dickenson
+# Copyright 2008-2010 W. Trevor King
#
# Permission is hereby granted, free of charge, to any person obtaining
# a copy of this software and associated documentation files (the
# TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
# SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
+import sys, getopt, colorsys, imp, md5, re, pprint
+from os import popen, getuid # for finding C extension dependencies with system calls
+from pwd import getpwuid
-import sys, getopt, colorsys, imp, md5
+USER=getpwuid(getuid())[0] # get effective user name
-class pydepgraphdot:
+INVISIBLE_MODS=('__future__','copy','doctest','glob','optparse','os','qt','re',
+ 'StringIO','string','sys','textwrap','time','types','unittest')
+INVISIBLE_PATHS=(r'.*',)
+VISIBLE_PATHS=(r'.*%s.*' % USER,r'.*comedi.*')
- def main(self,argv):
- opts,args = getopt.getopt(argv,'',['mono'])
- self.colored = 1
- for o,v in opts:
- if o=='--mono':
- self.colored = 0
- self.render()
+def _pathmatch(regexp_tuple, path) :
+ "Check if a regexp in regexp tuple matches the string path"
+ for regexp in regexp_tuple :
+ if re.match(regexp, path) != None :
+ return True
+ return False
- def fix(self,s):
- # Convert a module name to a syntactically correct node name
- return s.replace('.','_')
-
- def render(self):
- p,t = self.get_data()
-
- # normalise our input data
- for k,d in p.items():
- for v in d.keys():
- if not p.has_key(v):
- p[v] = {}
-
- f = self.get_output_file()
-
- f.write('digraph G {\n')
- #f.write('concentrate = true;\n')
- #f.write('ordering = out;\n')
- f.write('ranksep=1.0;\n')
- f.write('node [style=filled,fontname=Helvetica,fontsize=10];\n')
- allkd = p.items()
- allkd.sort()
- for k,d in allkd:
- tk = t.get(k)
- if self.use(k,tk):
- allv = d.keys()
- allv.sort()
- for v in allv:
- tv = t.get(v)
- if self.use(v,tv) and not self.toocommon(v,tv):
- f.write('%s -> %s' % ( self.fix(k),self.fix(v) ) )
- self.write_attributes(f,self.edge_attributes(k,v))
- f.write(';\n')
- f.write(self.fix(k))
- self.write_attributes(f,self.node_attributes(k,tk))
- f.write(';\n')
- f.write('}\n')
-
- def write_attributes(self,f,a):
- if a:
- f.write(' [')
- f.write(','.join(a))
- f.write(']')
-
- def node_attributes(self,k,type):
+class hooks (object) :
+ """
+ Modules show up if visible_mod_test(...) == True.
+
+ """
+ def __init__(self,
+ invisible_mods=INVISIBLE_MODS,
+ invisible_paths=INVISIBLE_PATHS,
+ visible_paths=VISIBLE_PATHS,
+ link_outside_visited_nodes=True,
+ ignore_builtins=True) :
+ self._invisible_mods = invisible_mods
+ self._invisible_paths = invisible_paths
+ self._visible_paths = visible_paths
+ self._link_outside_visited_nodes = link_outside_visited_nodes
+ self._ignore_builtins = ignore_builtins
+ self._entered_bonus_nodes = {} # a dict of bonus nodes already printed
+ self._debug = False
+ def continue_test(self) :
+ return True
+ def visible_mod_test(self, mod_name, dep_dict, type, path,
+ check_external_link=True) :
+ """
+ Return true if this module is interesting and should be drawn.
+ Return false if it should be completely omitted.
+ """
+ if self._invisible_name(mod_name) == True :
+ if self._debug : print "\t\tinvisible module", mod_name
+ return False
+ if self._link_outside_visited_nodes == False \
+ and check_external_link == True \
+ and mod_name != '__main__' :
+ if self.follow_edge_test('__main__', imp.PY_SOURCE, './dummy.py',
+ mod_name, type, path) == False:
+ return False # don't draw nodes we wouldn't visit
+ return True
+ def follow_edge_test(self, module_name, type, path,
+ dname, dtype, dpath):
+ if self._debug :
+ print "\ttesting edge from %s %s %s to %s %s %s" \
+ % (module_name, type, path, dname, dtype, dpath)
+ if self.visible_mod_test(dname, None, dtype, dpath,
+ check_external_link=False) == False :
+ if self._debug : print "\t\tinvisible target module"
+ return False # don't draw edges to invisible modules
+ elif dname == '__main__':
+ # references *to* __main__ are never interesting. omitting them means
+ # that main floats to the top of the page
+ if self._debug : print "\t\ttarget is __main__"
+ return False
+ elif self._invisible_path(path) == True and module_name != '__main__' :
+ # the path for __main__ seems to be it's filename
+ if self._debug : print "\t\tinvisible module parent path", path
+ return False # don't draw edges from invisible path modules
+ elif self._link_outside_visited_nodes == False \
+ and self._invisible_path(dpath) == True :
+ if self._debug : print "\t\tinvisible module path", dpath
+ return False # don't draw edges to invisible path modules
+ elif dtype == imp.PKG_DIRECTORY:
+ # don't draw edges to packages.
+ if self._debug : print "\t\tpackage"
+ return False
+ return True
+ def _invisible_name(self, mod_name) :
+ if mod_name in self._invisible_mods :
+ # nearly all modules use all of these... more or less.
+ # They add nothing to our diagram.
+ return True
+ return False
+ def _invisible_path(self, path) :
+ """
+ Paths are visible by default. Adding a regexp to invisible_paths hides
+ matching paths, unless the path matches a regexp in visible_paths, in
+ which case it is again visible.
+ """
+ if path == None and self._ignore_builtins :
+ return True # ignore modules without paths (builtins, etc)
+ if (_pathmatch(self._invisible_paths, path)
+ and not _pathmatch(self._visible_paths, path)):
+ return True
+ return False
+
+class dotformat (object) :
+ def __init__(self, colored=True, hooks_instance=None) :
+ if hooks_instance != None :
+ self._hooks = hooks_instance
+ else :
+ self._hooks = hooks()
+ self._colored = colored
+ def header(self):
+ return ('digraph G {\n'
+ #' concentrate = true;\n'
+ #' ordering = out;\n'
+ ' ranksep=1.0;\n'
+ ' node [style=filled,fontname=Helvetica,fontsize=10];\n')
+ def footer(self):
+ return '}\n'
+ def module(self, mod_name, dep_dict, type, path) :
+ name = self._fix_name(mod_name)
a = []
- a.append('label="%s"' % self.label(k))
- if self.colored:
- a.append('fillcolor="%s"' % self.color(k,type))
+ if mod_name == '__main__' :
+ # the path for __main__ seems to be it's filename
+ a.append('label="%s"' % self._label(path))
+ else :
+ a.append('label="%s"' % self._label(mod_name))
+ if self._colored:
+ a.append('fillcolor="%s"' % self._color(mod_name,type))
else:
a.append('fillcolor=white')
- if self.toocommon(k,type):
+ if self._hooks._invisible_path(path):
+ # for printing `invisible' modules
a.append('peripheries=2')
- return a
-
- def edge_attributes(self,k,v):
+ return self._dot_node(name, a)
+ def edge(self, mod_name, dep_dict, type, path,
+ dep_name, dep_type, dep_path) :
+ name = self._fix_name(mod_name)
+ target = self._fix_name(dep_name)
a = []
- weight = self.weight(k,v)
+ weight = self._weight(mod_name,dep_name)
if weight!=1:
a.append('weight=%d' % weight)
- length = self.alien(k,v)
+ length = self._alien(mod_name)
if length:
a.append('minlen=%d' % length)
- return a
-
- def get_data(self):
- t = eval(sys.stdin.read())
- return t['depgraph'],t['types']
-
- def get_output_file(self):
- return sys.stdout
-
- def use(self,s,type):
- # Return true if this module is interesting and should be drawn. Return false
- # if it should be completely omitted. This is a default policy - please override.
- if s in ('os','sys','qt','time','__future__','types','re','string'):
- # nearly all modules use all of these... more or less. They add nothing to
- # our diagram.
- return 0
- if s.startswith('encodings.'):
- return 0
- if s=='__main__':
- return 1
- if self.toocommon(s,type):
- # A module where we dont want to draw references _to_. Dot doesnt handle these
- # well, so it is probably best to not draw them at all.
- return 0
- return 1
+ return self._dot_edge(name, target, a)
- def toocommon(self,s,type):
- # Return true if references to this module are uninteresting. Such references
- # do not get drawn. This is a default policy - please override.
- #
- if s=='__main__':
- # references *to* __main__ are never interesting. omitting them means
- # that main floats to the top of the page
- return 1
- if type==imp.PKG_DIRECTORY:
- # dont draw references to packages.
- return 1
- return 0
-
- def weight(self,a,b):
+ def _fix_name(self, mod_name):
+ # Convert a module name to a syntactically correct node name
+ return mod_name.replace('.','_')
+ def _label(self,s):
+ # Convert a module name to a formatted node label.
+ return '\\.\\n'.join(s.split('.'))
+ def _weight(self, mod_name, target_name):
# Return the weight of the dependency from a to b. Higher weights
# usually have shorter straighter edges. Return 1 if it has normal weight.
# A value of 4 is usually good for ensuring that a related pair of modules
- # are drawn next to each other. This is a default policy - please override.
+ # are drawn next to each other.
#
- if b.split('.')[-1].startswith('_'):
+ if target_name.split('.')[-1].startswith('_'):
# A module that starts with an underscore. You need a special reason to
# import these (for example random imports _random), so draw them close
# together
return 4
return 1
-
- def alien(self,a,b):
+ def _alien(self, mod_name):
# Return non-zero if references to this module are strange, and should be drawn
# extra-long. the value defines the length, in rank. This is also good for putting some
- # vertical space between seperate subsystems. This is a default policy - please override.
- #
+ # vertical space between seperate subsystems.
return 0
-
- def label(self,s):
- # Convert a module name to a formatted node label. This is a default policy - please override.
- #
- return '\\.\\n'.join(s.split('.'))
-
- def color(self,s,type):
- # Return the node color for this module name. This is a default policy - please override.
- #
+ def _color(self, mod_name, type):
+ # Return the node color for this module name.
+ if type == imp.C_EXTENSION:
+ # make C extensions bluegreen
+ # bluegreen is at 180 deg, see http://en.wikipedia.org/wiki/Image:HueScale.svg
+ r,g,b = colorsys.hsv_to_rgb(180.0/360.0, .2, 1)
+ return '#%02x%02x%02x' % (r*255,g*255,b*255)
# Calculate a color systematically based on the hash of the module name. Modules in the
# same package have the same color. Unpackaged modules are grey
- t = self.normalise_module_name_for_hash_coloring(s,type)
- return self.color_from_name(t)
-
- def normalise_module_name_for_hash_coloring(self,s,type):
+ t = self._normalise_module_name_for_hash_coloring(mod_name,type)
+ return self._color_from_name(t)
+ def _normalise_module_name_for_hash_coloring(self,mod_name,type):
if type==imp.PKG_DIRECTORY:
- return s
+ return mod_name
else:
- i = s.rfind('.')
+ i = mod_name.rfind('.')
if i<0:
return ''
else:
- return s[:i]
-
- def color_from_name(self,name):
+ return mod_name[:i]
+ def _color_from_name(self,name):
n = md5.md5(name).digest()
hf = float(ord(n[0])+ord(n[1])*0xff)/0xffff
sf = float(ord(n[2]))/0xff
vf = float(ord(n[3]))/0xff
r,g,b = colorsys.hsv_to_rgb(hf, 0.3+0.6*sf, 0.8+0.2*vf)
return '#%02x%02x%02x' % (r*256,g*256,b*256)
+
+ # abstract out most of the dot language for head and edge declarations
+ def _dot_node(self, name, attrs) :
+ string = ' %s' % self._fix_name(name)
+ string += self._attribute_string(attrs)
+ string += ';\n'
+ return string
+ def _dot_edge(self, source, target, attrs) :
+ string = ' %s -> %s' % (source, target)
+ string += self._attribute_string(attrs)
+ string += ';\n'
+ return string
+ def _attribute_string(self, attributes):
+ string = ''
+ if attributes:
+ string += ' [%s]' % (','.join(attributes))
+ return string
+class dotformat_Cext (dotformat) :
+ # support for listing C-language extension code.
+ _visible_paths = VISIBLE_PATHS
+ def module(self, mod_name, dep_dict, type, path) :
+ name = self._fix_name(mod_name)
+ a = []
+ if mod_name == '__main__' :
+ # the path for __main__ seems to be it's filename
+ a.append('label="%s"' % self._label(path))
+ else :
+ a.append('label="%s"' % self._label(mod_name))
+ if self._colored:
+ a.append('fillcolor="%s"' % self._color(mod_name,type))
+ else:
+ a.append('fillcolor=white')
+ if self._hooks._invisible_path(path):
+ # for printing `invisible' modules
+ a.append('peripheries=2')
+ string = self._dot_node(name, a)
+ #print "type %s:\t%s\t(%s)" % (mod_name, type, imp.C_EXTENSION)
+ if type == imp.C_EXTENSION:
+ string += self._Cext_depend_dotstring(mod_name, path)
+ return string
+ def _Cext_depend_dotstring(self, mod_name, path) :
+ deps = self._Cext_depends(mod_name, path)
+ string = ""
+ for dep in deps :
+ edge_attrs = self._Cext_edge_attributes(mod_name, dep)
+ string += self._dot_node(dep, self._Cext_node_attributes(dep))
+ string += self._dot_edge(mod_name, dep, edge_attrs)
+ return string
+ def _Cext_depends(self, s, path):
+ "Return a list of dependencies for a shared object file"
+ # make sure the extension is a shared object file (sanity check)
+ ret = []
+ if path.find('.so') != len(path)-len('.so'):
+ return ret
+ for line in popen('ldd %s' % path, 'r') :
+ try: # ldd line: soname [=> path] (address)
+ soname = line.split('=>')[0].strip()
+ sopath = line.split('=>')[1].split('(')[0].strip()
+ except IndexError:
+ continue # irregular dependency (kernel?)
+ if _pathmatch(self._visible_paths, path) :
+ ret.append(soname)
+ return ret
-def main():
- pydepgraphdot().main(sys.argv[1:])
+ def _Cext_edge_attributes(self, mod_name, dep_name):
+ return [] # nothing for now...
-if __name__=='__main__':
- main()
+ def _Cext_node_attributes(self, dep_name):
+ a = []
+ a.append('label="%s"' % self._label(dep_name))
+ if self._colored:
+ a.append('fillcolor="%s"' % self._Cext_depcolor(dep_name))
+ else:
+ a.append('fillcolor=white')
+ return a
+
+ def _Cext_depcolor(self, dep_name):
+ # make extension dependencies green
+ r,g,b = colorsys.hsv_to_rgb(120.0/360.0, .2, 1) # green is at 120 deg, see http://en.wikipedia.org/wiki/Image:HueScale.svg
+ return '#%02x%02x%02x' % (r*255,g*255,b*255)
+
+
+
+
+class pydepgraphdot (object) :
+ def __init__(self, hooks_instance=None, dotformat_instance=None) :
+ if dotformat_instance != None :
+ self._dotformat = dotformat_instance
+ else :
+ self._dotformat = dotformat()
+ if hooks_instance != None :
+ self._hooks = hooks_instance
+ else :
+ self._hooks = hooks()
+ self.reset()
+ self._debug=False
+
+ def render(self, root_module='__main__'):
+ depgraph,types,paths = self.get_data()
+ if root_module != None :
+ self.add_module_target(root_module)
+
+ depgraph,type,paths = self.fill_missing_deps(depgraph, types, paths)
+
+ f = self.get_output_file()
+
+ f.write(self._dotformat.header())
+
+ while True :
+ if self._hooks.continue_test() == False :
+ if self.debug : print '\t\tcontinue_test() False'
+ break
+ mod = self.next_module_target()
+ if mod == None :
+ if self._debug : print '\t\tout of modules'
+ break # out of modules
+ # I don't know anything about the underlying implementation,
+ # but I assume `key in dict` is more efficient than `key in list`
+ # because dicts are inherently hashed.
+ # That's my excuse for passing around deps with dummy values.
+ deps = depgraph[mod]
+ type = types[mod]
+ path = paths[mod]
+ if self._hooks.visible_mod_test(mod, deps, type, path) == False :
+ if self._debug : print '\t\tinvisible module'
+ continue
+ f.write(self._dotformat.module(mod, deps, type, path))
+ ds = deps.keys() # now we want a consistent ordering,
+ ds.sort() # so pull out the keys and sort them
+ for d in ds :
+ if self._hooks.follow_edge_test(mod, type, path,
+ d, types[d], paths[d]) :
+ if self._debug : print '\t\tfollow to %s' % d
+ #print "%s, %s, %s, %s, %s, %s, %s" % (mod, deps, type, path, d, types[d], paths[d])
+ f.write(self._dotformat.edge(mod, deps, type, path,
+ d, types[d], paths[d]))
+ self.add_module_target(d)
+ else :
+ if self._debug : print "\t\tdon't follow to %s" % d
+
+ f.write(self._dotformat.footer())
+
+ # data processing methods (input, output, checking)
+ def get_data(self):
+ t = eval(sys.stdin.read())
+ return t['depgraph'],t['types'],t['paths']
+ def get_output_file(self):
+ return sys.stdout
+ def fill_missing_deps(self, depgraph, types, paths) :
+ # normalize our input data
+ for mod,deps in depgraph.items(): # module and it's dependencies
+ for dep in deps.keys():
+ if not depgraph.has_key(dep):
+ # if dep not listed in depgraph somehow...
+ # add it in, with no further dependencies
+ depgraph[dep] = {}
+ # add dummies to types and paths too, if neccessary
+ if not dep in types :
+ types[dep] = None
+ if not dep in paths :
+ paths[dep] = None
+ if self._debug :
+ print "Adding dummy entry for missing module '%s'" \
+ % dep
+ return (depgraph, types, paths)
+
+ # keep a list of modules for a breadth-first search.
+ def reset(self) :
+ # create stacks of nodes for traversing the mesh
+ self._modules_todo = []
+ self._modules_entered = []
+ def add_module_target(self, target_module) :
+ if not target_module in self._modules_entered :
+ # add to the back of the stack
+ if self._debug : print '\tpush', target_module
+ self._modules_todo.append(target_module)
+ self._modules_entered.append(target_module)
+ # otherwise, it's already on the list, so don't worry about it.
+ def next_module_target(self) :
+ if len(self._modules_todo) > 0 :
+ if self._debug : print '\tpop', self._modules_todo[0]
+ return self._modules_todo.pop(0) # remove from front of the list
+ else :
+ return None # no more modules! we're done.
+
+
+def main():
+ opts,args = getopt.getopt(sys.argv,'',['mono'])
+ colored = True
+ for o,v in opts:
+ if o=='--mono':
+ colored = False
+ # Fancyness with shared hooks instance so we can do slick thinks like
+ # printing all modules just inside an invisible zone, since we'll need
+ # the dotformatter to know which nodes are visible.
+ hk = hooks(link_outside_visited_nodes=False)
+ #hk._debug = True
+ dt = dotformat_Cext(colored=colored, hooks_instance=hk)
+ py = pydepgraphdot(hooks_instance=hk, dotformat_instance=dt)
+ #py._debug = True
+ py.render()
+if __name__=='__main__':
+ main()
projects / depgraph.git / blobdiff