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Add pexpect version 2.3 (revision 507) to IPython.external....
Add pexpect version 2.3 (revision 507) to IPython.external. We will only use our copy if the system-installed one isn't found. This lets us run the core of ipython on top of the stdlib, while having far better subprocess control than we otherwise would on posix. On windows, pexpect doesn't exist, so the subprocess situation is still not ideal. pexpect is MIT-licensed. For more information on pexpect: http://www.noah.org/wiki/Pexpect

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wildcard.py
146 lines | 5.8 KiB | text/x-python | PythonLexer
# -*- coding: utf-8 -*-
"""Support for wildcard pattern matching in object inspection.
Authors
-------
- Jörgen Stenarson <jorgen.stenarson@bostream.nu>
"""
#*****************************************************************************
# 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.
#*****************************************************************************
import __builtin__
import re
import types
from IPython.utils.dir2 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