wildcard.py
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| text/x-python
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PythonLexer
/ IPython / wildcard.py
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r988 | # -*- coding: utf-8 -*- | ||
"""Support for wildcard pattern matching in object inspection. | ||||
$Id: OInspect.py 608 2005-07-06 17:52:32Z fperez $ | ||||
""" | ||||
#***************************************************************************** | ||||
# Copyright (C) 2005 Jörgen Stenarson <jorgen.stenarson@bostream.nu> | ||||
# | ||||
# Distributed under the terms of the BSD License. The full license is in | ||||
# the file COPYING, distributed as part of this software. | ||||
#***************************************************************************** | ||||
from IPython import Release | ||||
__author__ = "Jörgen Stenarson <jorgen.stenarson@bostream.nu>" | ||||
__license__ = Release.license | ||||
import __builtin__ | ||||
import exceptions | ||||
import pdb | ||||
import pprint | ||||
import re | ||||
import types | ||||
from IPython.genutils import dir2 | ||||
def create_typestr2type_dicts(dont_include_in_type2type2str=["lambda"]): | ||||
"""Return dictionaries mapping lower case typename to type objects, from | ||||
the types package, and vice versa.""" | ||||
typenamelist=[] | ||||
for tname in dir(types): | ||||
if tname[-4:]=="Type": | ||||
typenamelist.append(tname) | ||||
typestr2type={} | ||||
type2typestr={} | ||||
for tname in typenamelist: | ||||
name=tname[:-4].lower() | ||||
obj=getattr(types,tname) | ||||
typestr2type[name]=getattr(types,tname) | ||||
if name in dont_include_in_type2type2str: | ||||
type2typestr[obj]=name | ||||
return typestr2type,type2typestr | ||||
typestr2type,type2typestr=create_typestr2type_dicts() | ||||
def is_type(obj,typestr_or_type): | ||||
"""is_type(obj,typestr_or_type) verifies if obj is of a certain type or | ||||
group of types takes strings as parameters of the for 'tuple'<->TupleType | ||||
'all' matches all types. TODO: Should be extended for choosing more than | ||||
one type | ||||
""" | ||||
if typestr_or_type=="all": | ||||
return True | ||||
if type(typestr_or_type)==types.TypeType: | ||||
test_type=typestr_or_type | ||||
else: | ||||
test_type=typestr2type.get(typestr_or_type,False) | ||||
if test_type: | ||||
return isinstance(obj,test_type) | ||||
else: | ||||
return False | ||||
def show_hidden(str,show_all=False): | ||||
"""Return true for strings starting with single _ if show_all is true.""" | ||||
return show_all or str.startswith("__") or not str.startswith("_") | ||||
class NameSpace(object): | ||||
"""NameSpace holds the dictionary for a namespace and implements filtering | ||||
on name and types""" | ||||
def __init__(self,obj,name_pattern="*",type_pattern="all",ignore_case=True, | ||||
show_all=True): | ||||
self.show_all = show_all #Hide names beginning with single _ | ||||
self.object = obj | ||||
self.name_pattern = name_pattern | ||||
self.type_pattern = type_pattern | ||||
self.ignore_case = ignore_case | ||||
# We should only match EXACT dicts here, so DON'T use isinstance() | ||||
if type(obj) == types.DictType: | ||||
self._ns = obj | ||||
else: | ||||
kv = [] | ||||
for key in dir2(obj): | ||||
if isinstance(key, basestring): | ||||
# This seemingly unnecessary try/except is actually needed | ||||
# because there is code out there with metaclasses that | ||||
# create 'write only' attributes, where a getattr() call | ||||
# will fail even if the attribute appears listed in the | ||||
# object's dictionary. Properties can actually do the same | ||||
# thing. In particular, Traits use this pattern | ||||
try: | ||||
kv.append((key,getattr(obj,key))) | ||||
except AttributeError: | ||||
pass | ||||
self._ns = dict(kv) | ||||
def get_ns(self): | ||||
"""Return name space dictionary with objects matching type and name patterns.""" | ||||
return self.filter(self.name_pattern,self.type_pattern) | ||||
ns=property(get_ns) | ||||
def get_ns_names(self): | ||||
"""Return list of object names in namespace that match the patterns.""" | ||||
return self.ns.keys() | ||||
ns_names=property(get_ns_names,doc="List of objects in name space that " | ||||
"match the type and name patterns.") | ||||
def filter(self,name_pattern,type_pattern): | ||||
"""Return dictionary of filtered namespace.""" | ||||
def glob_filter(lista,name_pattern,hidehidden,ignore_case): | ||||
"""Return list of elements in lista that match pattern.""" | ||||
pattern=name_pattern.replace("*",".*").replace("?",".") | ||||
if ignore_case: | ||||
reg=re.compile(pattern+"$",re.I) | ||||
else: | ||||
reg=re.compile(pattern+"$") | ||||
result=[x for x in lista if reg.match(x) and show_hidden(x,hidehidden)] | ||||
return result | ||||
ns=self._ns | ||||
#Filter namespace by the name_pattern | ||||
all=[(x,ns[x]) for x in glob_filter(ns.keys(),name_pattern, | ||||
self.show_all,self.ignore_case)] | ||||
#Filter namespace by type_pattern | ||||
all=[(key,obj) for key,obj in all if is_type(obj,type_pattern)] | ||||
all=dict(all) | ||||
return all | ||||
#TODO: Implement dictionary like access to filtered name space? | ||||
def list_namespace(namespace,type_pattern,filter,ignore_case=False,show_all=False): | ||||
"""Return dictionary of all objects in namespace that matches type_pattern | ||||
and filter.""" | ||||
pattern_list=filter.split(".") | ||||
if len(pattern_list)==1: | ||||
ns=NameSpace(namespace,name_pattern=pattern_list[0],type_pattern=type_pattern, | ||||
ignore_case=ignore_case,show_all=show_all) | ||||
return ns.ns | ||||
else: | ||||
# This is where we can change if all objects should be searched or | ||||
# only modules. Just change the type_pattern to module to search only | ||||
# modules | ||||
ns=NameSpace(namespace,name_pattern=pattern_list[0],type_pattern="all", | ||||
ignore_case=ignore_case,show_all=show_all) | ||||
res={} | ||||
nsdict=ns.ns | ||||
for name,obj in nsdict.iteritems(): | ||||
ns=list_namespace(obj,type_pattern,".".join(pattern_list[1:]), | ||||
ignore_case=ignore_case,show_all=show_all) | ||||
for inner_name,inner_obj in ns.iteritems(): | ||||
res["%s.%s"%(name,inner_name)]=inner_obj | ||||
return res | ||||