##// END OF EJS Templates
new completer for qtconsole....
new completer for qtconsole. add a completer to the qtconsole that is navigable by arraow keys and tab. One need to call it twice to get it on focus and be able to select completion with Return. looks like zsh completer, not the gui drop down list of --gui-completer. This also try to split the completion logic from console_widget, and try to keep the old completer qui around. The plain completer that never takes focus back, and the QlistWidget completer. to switch between the 3, the --gui-completion flag as been changed to take an argument (plain, droplist, ncurses).

File last commit:

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ipipe.py
2328 lines | 70.0 KiB | text/x-python | PythonLexer
# -*- coding: iso-8859-1 -*-
"""
``ipipe`` provides classes to be used in an interactive Python session. Doing a
``from ipipe import *`` is the preferred way to do this. The name of all
objects imported this way starts with ``i`` to minimize collisions.
``ipipe`` supports "pipeline expressions", which is something resembling Unix
pipes. An example is::
>>> ienv | isort("key.lower()")
This gives a listing of all environment variables sorted by name.
There are three types of objects in a pipeline expression:
* ``Table``s: These objects produce items. Examples are ``ils`` (listing the
current directory, ``ienv`` (listing environment variables), ``ipwd`` (listing
user accounts) and ``igrp`` (listing user groups). A ``Table`` must be the
first object in a pipe expression.
* ``Pipe``s: These objects sit in the middle of a pipe expression. They
transform the input in some way (e.g. filtering or sorting it). Examples are:
``ifilter`` (which filters the input pipe), ``isort`` (which sorts the input
pipe) and ``ieval`` (which evaluates a function or expression for each object
in the input pipe).
* ``Display``s: These objects can be put as the last object in a pipeline
expression. There are responsible for displaying the result of the pipeline
expression. If a pipeline expression doesn't end in a display object a default
display objects will be used. One example is ``ibrowse`` which is a ``curses``
based browser.
Adding support for pipeline expressions to your own objects can be done through
three extensions points (all of them optional):
* An object that will be displayed as a row by a ``Display`` object should
implement the method ``__xattrs__(self, mode)`` method or register an
implementation of the generic function ``xattrs``. For more info see ``xattrs``.
* When an object ``foo`` is displayed by a ``Display`` object, the generic
function ``xrepr`` is used.
* Objects that can be iterated by ``Pipe``s must iterable. For special cases,
where iteration for display is different than the normal iteration a special
implementation can be registered with the generic function ``xiter``. This
makes it possible to use dictionaries and modules in pipeline expressions,
for example::
>>> import sys
>>> sys | ifilter("isinstance(value, int)") | idump
key |value
api_version| 1012
dllhandle | 503316480
hexversion | 33817328
maxint |2147483647
maxunicode | 65535
>>> sys.modules | ifilter("_.value is not None") | isort("_.key.lower()")
...
Note: The expression strings passed to ``ifilter()`` and ``isort()`` can
refer to the object to be filtered or sorted via the variable ``_`` and to any
of the attributes of the object, i.e.::
>>> sys.modules | ifilter("_.value is not None") | isort("_.key.lower()")
does the same as::
>>> sys.modules | ifilter("value is not None") | isort("key.lower()")
In addition to expression strings, it's possible to pass callables (taking
the object as an argument) to ``ifilter()``, ``isort()`` and ``ieval()``::
>>> sys | ifilter(lambda _:isinstance(_.value, int)) \
... | ieval(lambda _: (_.key, hex(_.value))) | idump
0 |1
api_version|0x3f4
dllhandle |0x1e000000
hexversion |0x20402f0
maxint |0x7fffffff
maxunicode |0xffff
"""
skip_doctest = True # ignore top-level docstring as a doctest.
import sys, os, os.path, stat, glob, new, csv, datetime, types
import itertools, mimetypes, StringIO
try: # Python 2.3 compatibility
import collections
except ImportError:
deque = list
else:
deque = collections.deque
try: # Python 2.3 compatibility
set
except NameError:
import sets
set = sets.Set
try: # Python 2.3 compatibility
sorted
except NameError:
def sorted(iterator, key=None, reverse=False):
items = list(iterator)
if key is not None:
items.sort(lambda i1, i2: cmp(key(i1), key(i2)))
else:
items.sort()
if reverse:
items.reverse()
return items
try: # Python 2.4 compatibility
GeneratorExit
except NameError:
GeneratorExit = SystemExit
try:
import pwd
except ImportError:
pwd = None
try:
import grp
except ImportError:
grp = None
from IPython.external import simplegeneric
from IPython.external import path
try:
import IPython.utils.io
from IPython.utils import generics
except ImportError:
Term = None
generics = None
from IPython.core import ipapi
__all__ = [
"ifile", "ils", "iglob", "iwalk", "ipwdentry", "ipwd", "igrpentry", "igrp",
"icsv", "ix", "ichain", "isort", "ifilter", "ieval", "ienum",
"ienv", "ihist", "ialias", "icap", "idump", "iless"
]
os.stat_float_times(True) # enable microseconds
class AttrNamespace(object):
"""
Helper class that is used for providing a namespace for evaluating
expressions containing attribute names of an object.
"""
def __init__(self, wrapped):
self.wrapped = wrapped
def __getitem__(self, name):
if name == "_":
return self.wrapped
try:
return getattr(self.wrapped, name)
except AttributeError:
raise KeyError(name)
# Python 2.3 compatibility
# use eval workaround to find out which names are used in the
# eval string and put them into the locals. This works for most
# normal uses case, bizarre ones like accessing the locals()
# will fail
try:
eval("_", None, AttrNamespace(None))
except TypeError:
real_eval = eval
def eval(codestring, _globals, _locals):
"""
eval(source[, globals[, locals]]) -> value
Evaluate the source in the context of globals and locals.
The source may be a string representing a Python expression
or a code object as returned by compile().
The globals must be a dictionary and locals can be any mappping.
This function is a workaround for the shortcomings of
Python 2.3's eval.
"""
if isinstance(codestring, basestring):
code = compile(codestring, "_eval", "eval")
else:
code = codestring
newlocals = {}
for name in code.co_names:
try:
newlocals[name] = _locals[name]
except KeyError:
pass
return real_eval(code, _globals, newlocals)
noitem = object()
def item(iterator, index, default=noitem):
"""
Return the ``index``th item from the iterator ``iterator``.
``index`` must be an integer (negative integers are relative to the
end (i.e. the last items produced by the iterator)).
If ``default`` is given, this will be the default value when
the iterator doesn't contain an item at this position. Otherwise an
``IndexError`` will be raised.
Note that using this function will partially or totally exhaust the
iterator.
"""
i = index
if i>=0:
for item in iterator:
if not i:
return item
i -= 1
else:
i = -index
cache = deque()
for item in iterator:
cache.append(item)
if len(cache)>i:
cache.popleft()
if len(cache)==i:
return cache.popleft()
if default is noitem:
raise IndexError(index)
else:
return default
def getglobals(g):
"""
Return the global namespace that is used for expression strings in
``ifilter`` and others. This is ``g`` or (if ``g`` is ``None``) IPython's
user namespace.
"""
if g is None:
if ipapi is not None:
api = ipapi.get()
if api is not None:
return api.user_ns
return globals()
return g
class Descriptor(object):
"""
A ``Descriptor`` object is used for describing the attributes of objects.
"""
def __hash__(self):
return hash(self.__class__) ^ hash(self.key())
def __eq__(self, other):
return self.__class__ is other.__class__ and self.key() == other.key()
def __ne__(self, other):
return self.__class__ is not other.__class__ or self.key() != other.key()
def key(self):
pass
def name(self):
"""
Return the name of this attribute for display by a ``Display`` object
(e.g. as a column title).
"""
key = self.key()
if key is None:
return "_"
return str(key)
def attrtype(self, obj):
"""
Return the type of this attribute (i.e. something like "attribute" or
"method").
"""
def valuetype(self, obj):
"""
Return the type of this attribute value of the object ``obj``.
"""
def value(self, obj):
"""
Return the value of this attribute of the object ``obj``.
"""
def doc(self, obj):
"""
Return the documentation for this attribute.
"""
def shortdoc(self, obj):
"""
Return a short documentation for this attribute (defaulting to the
first line).
"""
doc = self.doc(obj)
if doc is not None:
doc = doc.strip().splitlines()[0].strip()
return doc
def iter(self, obj):
"""
Return an iterator for this attribute of the object ``obj``.
"""
return xiter(self.value(obj))
class SelfDescriptor(Descriptor):
"""
A ``SelfDescriptor`` describes the object itself.
"""
def key(self):
return None
def attrtype(self, obj):
return "self"
def valuetype(self, obj):
return type(obj)
def value(self, obj):
return obj
def __repr__(self):
return "Self"
selfdescriptor = SelfDescriptor() # there's no need for more than one
class AttributeDescriptor(Descriptor):
"""
An ``AttributeDescriptor`` describes a simple attribute of an object.
"""
__slots__ = ("_name", "_doc")
def __init__(self, name, doc=None):
self._name = name
self._doc = doc
def key(self):
return self._name
def doc(self, obj):
return self._doc
def attrtype(self, obj):
return "attr"
def valuetype(self, obj):
return type(getattr(obj, self._name))
def value(self, obj):
return getattr(obj, self._name)
def __repr__(self):
if self._doc is None:
return "Attribute(%r)" % self._name
else:
return "Attribute(%r, %r)" % (self._name, self._doc)
class IndexDescriptor(Descriptor):
"""
An ``IndexDescriptor`` describes an "attribute" of an object that is fetched
via ``__getitem__``.
"""
__slots__ = ("_index",)
def __init__(self, index):
self._index = index
def key(self):
return self._index
def attrtype(self, obj):
return "item"
def valuetype(self, obj):
return type(obj[self._index])
def value(self, obj):
return obj[self._index]
def __repr__(self):
return "Index(%r)" % self._index
class MethodDescriptor(Descriptor):
"""
A ``MethodDescriptor`` describes a method of an object that can be called
without argument. Note that this method shouldn't change the object.
"""
__slots__ = ("_name", "_doc")
def __init__(self, name, doc=None):
self._name = name
self._doc = doc
def key(self):
return self._name
def doc(self, obj):
if self._doc is None:
return getattr(obj, self._name).__doc__
return self._doc
def attrtype(self, obj):
return "method"
def valuetype(self, obj):
return type(self.value(obj))
def value(self, obj):
return getattr(obj, self._name)()
def __repr__(self):
if self._doc is None:
return "Method(%r)" % self._name
else:
return "Method(%r, %r)" % (self._name, self._doc)
class IterAttributeDescriptor(Descriptor):
"""
An ``IterAttributeDescriptor`` works like an ``AttributeDescriptor`` but
doesn't return an attribute values (because this value might be e.g. a large
list).
"""
__slots__ = ("_name", "_doc")
def __init__(self, name, doc=None):
self._name = name
self._doc = doc
def key(self):
return self._name
def doc(self, obj):
return self._doc
def attrtype(self, obj):
return "iter"
def valuetype(self, obj):
return noitem
def value(self, obj):
return noitem
def iter(self, obj):
return xiter(getattr(obj, self._name))
def __repr__(self):
if self._doc is None:
return "IterAttribute(%r)" % self._name
else:
return "IterAttribute(%r, %r)" % (self._name, self._doc)
class IterMethodDescriptor(Descriptor):
"""
An ``IterMethodDescriptor`` works like an ``MethodDescriptor`` but doesn't
return an attribute values (because this value might be e.g. a large list).
"""
__slots__ = ("_name", "_doc")
def __init__(self, name, doc=None):
self._name = name
self._doc = doc
def key(self):
return self._name
def doc(self, obj):
if self._doc is None:
return getattr(obj, self._name).__doc__
return self._doc
def attrtype(self, obj):
return "itermethod"
def valuetype(self, obj):
return noitem
def value(self, obj):
return noitem
def iter(self, obj):
return xiter(getattr(obj, self._name)())
def __repr__(self):
if self._doc is None:
return "IterMethod(%r)" % self._name
else:
return "IterMethod(%r, %r)" % (self._name, self._doc)
class FunctionDescriptor(Descriptor):
"""
A ``FunctionDescriptor`` turns a function into a descriptor. The function
will be called with the object to get the type and value of the attribute.
"""
__slots__ = ("_function", "_name", "_doc")
def __init__(self, function, name=None, doc=None):
self._function = function
self._name = name
self._doc = doc
def key(self):
return self._function
def name(self):
if self._name is not None:
return self._name
return getattr(self._function, "__xname__", self._function.__name__)
def doc(self, obj):
if self._doc is None:
return self._function.__doc__
return self._doc
def attrtype(self, obj):
return "function"
def valuetype(self, obj):
return type(self._function(obj))
def value(self, obj):
return self._function(obj)
def __repr__(self):
if self._doc is None:
return "Function(%r)" % self._name
else:
return "Function(%r, %r)" % (self._name, self._doc)
class Table(object):
"""
A ``Table`` is an object that produces items (just like a normal Python
iterator/generator does) and can be used as the first object in a pipeline
expression. The displayhook will open the default browser for such an object
(instead of simply printing the ``repr()`` result).
"""
# We want to support ``foo`` and ``foo()`` in pipeline expression:
# So we implement the required operators (``|`` and ``+``) in the metaclass,
# instantiate the class and forward the operator to the instance
class __metaclass__(type):
def __iter__(self):
return iter(self())
def __or__(self, other):
return self() | other
def __add__(self, other):
return self() + other
def __radd__(self, other):
return other + self()
def __getitem__(self, index):
return self()[index]
def __getitem__(self, index):
return item(self, index)
def __contains__(self, item):
for haveitem in self:
if item == haveitem:
return True
return False
def __or__(self, other):
# autoinstantiate right hand side
if isinstance(other, type) and issubclass(other, (Table, Display)):
other = other()
# treat simple strings and functions as ``ieval`` instances
elif not isinstance(other, Display) and not isinstance(other, Table):
other = ieval(other)
# forward operations to the right hand side
return other.__ror__(self)
def __add__(self, other):
# autoinstantiate right hand side
if isinstance(other, type) and issubclass(other, Table):
other = other()
return ichain(self, other)
def __radd__(self, other):
# autoinstantiate left hand side
if isinstance(other, type) and issubclass(other, Table):
other = other()
return ichain(other, self)
class Pipe(Table):
"""
A ``Pipe`` is an object that can be used in a pipeline expression. It
processes the objects it gets from its input ``Table``/``Pipe``. Note that
a ``Pipe`` object can't be used as the first object in a pipeline
expression, as it doesn't produces items itself.
"""
class __metaclass__(Table.__metaclass__):
def __ror__(self, input):
return input | self()
def __ror__(self, input):
# autoinstantiate left hand side
if isinstance(input, type) and issubclass(input, Table):
input = input()
self.input = input
return self
def xrepr(item, mode="default"):
"""
Generic function that adds color output and different display modes to ``repr``.
The result of an ``xrepr`` call is iterable and consists of ``(style, string)``
tuples. The ``style`` in this tuple must be a ``Style`` object from the
``astring`` module. To reconfigure the output the first yielded tuple can be
a ``(aligment, full)`` tuple instead of a ``(style, string)`` tuple.
``alignment`` can be -1 for left aligned, 0 for centered and 1 for right
aligned (the default is left alignment). ``full`` is a boolean that specifies
whether the complete output must be displayed or the ``Display`` object is
allowed to stop output after enough text has been produced (e.g. a syntax
highlighted text line would use ``True``, but for a large data structure
(i.e. a nested list, tuple or dictionary) ``False`` would be used).
The default is full output.
There are four different possible values for ``mode`` depending on where
the ``Display`` object will display ``item``:
``"header"``
``item`` will be displayed in a header line (this is used by ``ibrowse``).
``"footer"``
``item`` will be displayed in a footer line (this is used by ``ibrowse``).
``"cell"``
``item`` will be displayed in a table cell/list.
``"default"``
default mode. If an ``xrepr`` implementation recursively outputs objects,
``"default"`` must be passed in the recursive calls to ``xrepr``.
If no implementation is registered for ``item``, ``xrepr`` will try the
``__xrepr__`` method on ``item``. If ``item`` doesn't have an ``__xrepr__``
method it falls back to ``repr``/``__repr__`` for all modes.
"""
try:
func = item.__xrepr__
except AttributeError:
yield (astyle.style_default, repr(item))
else:
try:
for x in func(mode):
yield x
except (KeyboardInterrupt, SystemExit, GeneratorExit):
raise
except Exception:
yield (astyle.style_default, repr(item))
xrepr = simplegeneric.generic(xrepr)
def xrepr_none(self, mode="default"):
yield (astyle.style_type_none, repr(self))
xrepr.when_object(None)(xrepr_none)
def xrepr_noitem(self, mode="default"):
yield (2, True)
yield (astyle.style_nodata, "<?>")
xrepr.when_object(noitem)(xrepr_noitem)
def xrepr_bool(self, mode="default"):
yield (astyle.style_type_bool, repr(self))
xrepr.when_type(bool)(xrepr_bool)
def xrepr_str(self, mode="default"):
if mode == "cell":
yield (astyle.style_default, repr(self.expandtabs(tab))[1:-1])
else:
yield (astyle.style_default, repr(self))
xrepr.when_type(str)(xrepr_str)
def xrepr_unicode(self, mode="default"):
if mode == "cell":
yield (astyle.style_default, repr(self.expandtabs(tab))[2:-1])
else:
yield (astyle.style_default, repr(self))
xrepr.when_type(unicode)(xrepr_unicode)
def xrepr_number(self, mode="default"):
yield (1, True)
yield (astyle.style_type_number, repr(self))
xrepr.when_type(int)(xrepr_number)
xrepr.when_type(long)(xrepr_number)
xrepr.when_type(float)(xrepr_number)
def xrepr_complex(self, mode="default"):
yield (astyle.style_type_number, repr(self))
xrepr.when_type(complex)(xrepr_number)
def xrepr_datetime(self, mode="default"):
if mode == "cell":
# Don't use strftime() here, as this requires year >= 1900
yield (astyle.style_type_datetime,
"%04d-%02d-%02d %02d:%02d:%02d.%06d" % \
(self.year, self.month, self.day,
self.hour, self.minute, self.second,
self.microsecond),
)
else:
yield (astyle.style_type_datetime, repr(self))
xrepr.when_type(datetime.datetime)(xrepr_datetime)
def xrepr_date(self, mode="default"):
if mode == "cell":
yield (astyle.style_type_datetime,
"%04d-%02d-%02d" % (self.year, self.month, self.day))
else:
yield (astyle.style_type_datetime, repr(self))
xrepr.when_type(datetime.date)(xrepr_date)
def xrepr_time(self, mode="default"):
if mode == "cell":
yield (astyle.style_type_datetime,
"%02d:%02d:%02d.%06d" % \
(self.hour, self.minute, self.second, self.microsecond))
else:
yield (astyle.style_type_datetime, repr(self))
xrepr.when_type(datetime.time)(xrepr_time)
def xrepr_timedelta(self, mode="default"):
yield (astyle.style_type_datetime, repr(self))
xrepr.when_type(datetime.timedelta)(xrepr_timedelta)
def xrepr_type(self, mode="default"):
if self.__module__ == "__builtin__":
yield (astyle.style_type_type, self.__name__)
else:
yield (astyle.style_type_type, "%s.%s" % (self.__module__, self.__name__))
xrepr.when_type(type)(xrepr_type)
def xrepr_exception(self, mode="default"):
if self.__class__.__module__ == "exceptions":
classname = self.__class__.__name__
else:
classname = "%s.%s" % \
(self.__class__.__module__, self.__class__.__name__)
if mode == "header" or mode == "footer":
yield (astyle.style_error, "%s: %s" % (classname, self))
else:
yield (astyle.style_error, classname)
xrepr.when_type(Exception)(xrepr_exception)
def xrepr_listtuple(self, mode="default"):
if mode == "header" or mode == "footer":
if self.__class__.__module__ == "__builtin__":
classname = self.__class__.__name__
else:
classname = "%s.%s" % \
(self.__class__.__module__,self.__class__.__name__)
yield (astyle.style_default,
"<%s object with %d items at 0x%x>" % \
(classname, len(self), id(self)))
else:
yield (-1, False)
if isinstance(self, list):
yield (astyle.style_default, "[")
end = "]"
else:
yield (astyle.style_default, "(")
end = ")"
for (i, subself) in enumerate(self):
if i:
yield (astyle.style_default, ", ")
for part in xrepr(subself, "default"):
yield part
yield (astyle.style_default, end)
xrepr.when_type(list)(xrepr_listtuple)
xrepr.when_type(tuple)(xrepr_listtuple)
def xrepr_dict(self, mode="default"):
if mode == "header" or mode == "footer":
if self.__class__.__module__ == "__builtin__":
classname = self.__class__.__name__
else:
classname = "%s.%s" % \
(self.__class__.__module__,self.__class__.__name__)
yield (astyle.style_default,
"<%s object with %d items at 0x%x>" % \
(classname, len(self), id(self)))
else:
yield (-1, False)
if isinstance(self, dict):
yield (astyle.style_default, "{")
end = "}"
else:
yield (astyle.style_default, "dictproxy((")
end = "})"
for (i, (key, value)) in enumerate(self.iteritems()):
if i:
yield (astyle.style_default, ", ")
for part in xrepr(key, "default"):
yield part
yield (astyle.style_default, ": ")
for part in xrepr(value, "default"):
yield part
yield (astyle.style_default, end)
xrepr.when_type(dict)(xrepr_dict)
xrepr.when_type(types.DictProxyType)(xrepr_dict)
def upgradexattr(attr):
"""
Convert an attribute descriptor string to a real descriptor object.
If attr already is a descriptor object return it unmodified. A
``SelfDescriptor`` will be returned if ``attr`` is ``None``. ``"foo"``
returns an ``AttributeDescriptor`` for the attribute named ``"foo"``.
``"foo()"`` returns a ``MethodDescriptor`` for the method named ``"foo"``.
``"-foo"`` will return an ``IterAttributeDescriptor`` for the attribute
named ``"foo"`` and ``"-foo()"`` will return an ``IterMethodDescriptor``
for the method named ``"foo"``. Furthermore integers will return the appropriate
``IndexDescriptor`` and callables will return a ``FunctionDescriptor``.
"""
if attr is None:
return selfdescriptor
elif isinstance(attr, Descriptor):
return attr
elif isinstance(attr, basestring):
if attr.endswith("()"):
if attr.startswith("-"):
return IterMethodDescriptor(attr[1:-2])
else:
return MethodDescriptor(attr[:-2])
else:
if attr.startswith("-"):
return IterAttributeDescriptor(attr[1:])
else:
return AttributeDescriptor(attr)
elif isinstance(attr, (int, long)):
return IndexDescriptor(attr)
elif callable(attr):
return FunctionDescriptor(attr)
else:
raise TypeError("can't handle descriptor %r" % attr)
def xattrs(item, mode="default"):
"""
Generic function that returns an iterable of attribute descriptors
to be used for displaying the attributes ob the object ``item`` in display
mode ``mode``.
There are two possible modes:
``"detail"``
The ``Display`` object wants to display a detailed list of the object
attributes.
``"default"``
The ``Display`` object wants to display the object in a list view.
If no implementation is registered for the object ``item`` ``xattrs`` falls
back to trying the ``__xattrs__`` method of the object. If this doesn't
exist either, ``dir(item)`` is used for ``"detail"`` mode and ``(None,)``
for ``"default"`` mode.
The implementation must yield attribute descriptors (see the class
``Descriptor`` for more info). The ``__xattrs__`` method may also return
attribute descriptor strings (and ``None``) which will be converted to real
descriptors by ``upgradexattr()``.
"""
try:
func = item.__xattrs__
except AttributeError:
if mode == "detail":
for attrname in dir(item):
yield AttributeDescriptor(attrname)
else:
yield selfdescriptor
else:
for attr in func(mode):
yield upgradexattr(attr)
xattrs = simplegeneric.generic(xattrs)
def xattrs_complex(self, mode="default"):
if mode == "detail":
return (AttributeDescriptor("real"), AttributeDescriptor("imag"))
return (selfdescriptor,)
xattrs.when_type(complex)(xattrs_complex)
def _isdict(item):
try:
itermeth = item.__class__.__iter__
except (AttributeError, TypeError):
return False
return itermeth is dict.__iter__ or itermeth is types.DictProxyType.__iter__
def _isstr(item):
if not isinstance(item, basestring):
return False
try:
itermeth = item.__class__.__iter__
except AttributeError:
return True
return False # ``__iter__`` has been redefined
def xiter(item):
"""
Generic function that implements iteration for pipeline expression. If no
implementation is registered for ``item`` ``xiter`` falls back to ``iter``.
"""
try:
func = item.__xiter__
except AttributeError:
if _isdict(item):
def items(item):
fields = ("key", "value")
for (key, value) in item.iteritems():
yield Fields(fields, key=key, value=value)
return items(item)
elif isinstance(item, new.module):
def items(item):
fields = ("key", "value")
for key in sorted(item.__dict__):
yield Fields(fields, key=key, value=getattr(item, key))
return items(item)
elif _isstr(item):
if not item:
raise ValueError("can't enter empty string")
lines = item.splitlines()
if len(lines) == 1:
def iterone(item):
yield item
return iterone(item)
else:
return iter(lines)
return iter(item)
else:
return iter(func()) # iter() just to be safe
xiter = simplegeneric.generic(xiter)
class ichain(Pipe):
"""
Chains multiple ``Table``s into one.
"""
def __init__(self, *iters):
self.iters = iters
def __iter__(self):
return itertools.chain(*self.iters)
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer":
for (i, item) in enumerate(self.iters):
if i:
yield (astyle.style_default, "+")
if isinstance(item, Pipe):
yield (astyle.style_default, "(")
for part in xrepr(item, mode):
yield part
if isinstance(item, Pipe):
yield (astyle.style_default, ")")
else:
yield (astyle.style_default, repr(self))
def __repr__(self):
args = ", ".join([repr(it) for it in self.iters])
return "%s.%s(%s)" % \
(self.__class__.__module__, self.__class__.__name__, args)
class ifile(path.path):
"""
file (or directory) object.
"""
def getmode(self):
return self.stat().st_mode
mode = property(getmode, None, None, "Access mode")
def gettype(self):
data = [
(stat.S_ISREG, "file"),
(stat.S_ISDIR, "dir"),
(stat.S_ISCHR, "chardev"),
(stat.S_ISBLK, "blockdev"),
(stat.S_ISFIFO, "fifo"),
(stat.S_ISLNK, "symlink"),
(stat.S_ISSOCK,"socket"),
]
lstat = self.lstat()
if lstat is not None:
types = set([text for (func, text) in data if func(lstat.st_mode)])
else:
types = set()
m = self.mode
types.update([text for (func, text) in data if func(m)])
return ", ".join(types)
type = property(gettype, None, None, "file type (file, directory, link, etc.)")
def getmodestr(self):
m = self.mode
data = [
(stat.S_IRUSR, "-r"),
(stat.S_IWUSR, "-w"),
(stat.S_IXUSR, "-x"),
(stat.S_IRGRP, "-r"),
(stat.S_IWGRP, "-w"),
(stat.S_IXGRP, "-x"),
(stat.S_IROTH, "-r"),
(stat.S_IWOTH, "-w"),
(stat.S_IXOTH, "-x"),
]
return "".join([text[bool(m&bit)] for (bit, text) in data])
modestr = property(getmodestr, None, None, "Access mode as string")
def getblocks(self):
return self.stat().st_blocks
blocks = property(getblocks, None, None, "File size in blocks")
def getblksize(self):
return self.stat().st_blksize
blksize = property(getblksize, None, None, "Filesystem block size")
def getdev(self):
return self.stat().st_dev
dev = property(getdev)
def getnlink(self):
return self.stat().st_nlink
nlink = property(getnlink, None, None, "Number of links")
def getuid(self):
return self.stat().st_uid
uid = property(getuid, None, None, "User id of file owner")
def getgid(self):
return self.stat().st_gid
gid = property(getgid, None, None, "Group id of file owner")
def getowner(self):
stat = self.stat()
try:
return pwd.getpwuid(stat.st_uid).pw_name
except KeyError:
return stat.st_uid
owner = property(getowner, None, None, "Owner name (or id)")
def getgroup(self):
stat = self.stat()
try:
return grp.getgrgid(stat.st_gid).gr_name
except KeyError:
return stat.st_gid
group = property(getgroup, None, None, "Group name (or id)")
def getadate(self):
return datetime.datetime.utcfromtimestamp(self.atime)
adate = property(getadate, None, None, "Access date")
def getcdate(self):
return datetime.datetime.utcfromtimestamp(self.ctime)
cdate = property(getcdate, None, None, "Creation date")
def getmdate(self):
return datetime.datetime.utcfromtimestamp(self.mtime)
mdate = property(getmdate, None, None, "Modification date")
def mimetype(self):
"""
Return MIME type guessed from the extension.
"""
return mimetypes.guess_type(self.basename())[0]
def encoding(self):
"""
Return guessed compression (like "compress" or "gzip").
"""
return mimetypes.guess_type(self.basename())[1]
def __repr__(self):
return "ifile(%s)" % path._base.__repr__(self)
if sys.platform == "win32":
defaultattrs = (None, "type", "size", "modestr", "mdate")
else:
defaultattrs = (None, "type", "size", "modestr", "owner", "group", "mdate")
def __xattrs__(self, mode="default"):
if mode == "detail":
return (
"name",
"basename()",
"abspath()",
"realpath()",
"type",
"mode",
"modestr",
"stat()",
"lstat()",
"uid",
"gid",
"owner",
"group",
"dev",
"nlink",
"ctime",
"mtime",
"atime",
"cdate",
"mdate",
"adate",
"size",
"blocks",
"blksize",
"isdir()",
"islink()",
"mimetype()",
"encoding()",
"-listdir()",
"-dirs()",
"-files()",
"-walk()",
"-walkdirs()",
"-walkfiles()",
)
else:
return self.defaultattrs
def xiter_ifile(self):
if self.isdir():
yield (self / os.pardir).abspath()
for child in sorted(self.listdir()):
yield child
else:
f = self.open("rb")
for line in f:
yield line
f.close()
xiter.when_type(ifile)(xiter_ifile)
# We need to implement ``xrepr`` for ``ifile`` as a generic function, because
# otherwise ``xrepr_str`` would kick in.
def xrepr_ifile(self, mode="default"):
try:
if self.isdir():
name = "idir"
style = astyle.style_dir
else:
name = "ifile"
style = astyle.style_file
except IOError:
name = "ifile"
style = astyle.style_default
if mode in ("cell", "header", "footer"):
abspath = repr(path._base(self.normpath()))
if abspath.startswith("u"):
abspath = abspath[2:-1]
else:
abspath = abspath[1:-1]
if mode == "cell":
yield (style, abspath)
else:
yield (style, "%s(%s)" % (name, abspath))
else:
yield (style, repr(self))
xrepr.when_type(ifile)(xrepr_ifile)
class ils(Table):
"""
List the current (or a specified) directory.
Examples::
>>> ils
<class 'IPython.extensions.ipipe.ils'>
>>> ils("/usr/local/lib/python2.4")
IPython.extensions.ipipe.ils('/usr/local/lib/python2.4')
>>> ils("~")
IPython.extensions.ipipe.ils('/home/fperez')
# all-random
"""
def __init__(self, base=os.curdir, dirs=True, files=True):
self.base = os.path.expanduser(base)
self.dirs = dirs
self.files = files
def __iter__(self):
base = ifile(self.base)
yield (base / os.pardir).abspath()
for child in sorted(base.listdir()):
if self.dirs:
if self.files:
yield child
else:
if child.isdir():
yield child
elif self.files:
if not child.isdir():
yield child
def __xrepr__(self, mode="default"):
return xrepr(ifile(self.base), mode)
def __repr__(self):
return "%s.%s(%r)" % \
(self.__class__.__module__, self.__class__.__name__, self.base)
class iglob(Table):
"""
List all files and directories matching a specified pattern.
(See ``glob.glob()`` for more info.).
Examples::
>>> iglob("*.py")
IPython.extensions.ipipe.iglob('*.py')
"""
def __init__(self, glob):
self.glob = glob
def __iter__(self):
for name in glob.glob(self.glob):
yield ifile(name)
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer" or mode == "cell":
yield (astyle.style_default,
"%s(%r)" % (self.__class__.__name__, self.glob))
else:
yield (astyle.style_default, repr(self))
def __repr__(self):
return "%s.%s(%r)" % \
(self.__class__.__module__, self.__class__.__name__, self.glob)
class iwalk(Table):
"""
List all files and directories in a directory and it's subdirectory::
>>> iwalk
<class 'IPython.extensions.ipipe.iwalk'>
>>> iwalk("/usr/lib")
IPython.extensions.ipipe.iwalk('/usr/lib')
>>> iwalk("~")
IPython.extensions.ipipe.iwalk('/home/fperez') # random
"""
def __init__(self, base=os.curdir, dirs=True, files=True):
self.base = os.path.expanduser(base)
self.dirs = dirs
self.files = files
def __iter__(self):
for (dirpath, dirnames, filenames) in os.walk(self.base):
if self.dirs:
for name in sorted(dirnames):
yield ifile(os.path.join(dirpath, name))
if self.files:
for name in sorted(filenames):
yield ifile(os.path.join(dirpath, name))
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer" or mode == "cell":
yield (astyle.style_default,
"%s(%r)" % (self.__class__.__name__, self.base))
else:
yield (astyle.style_default, repr(self))
def __repr__(self):
return "%s.%s(%r)" % \
(self.__class__.__module__, self.__class__.__name__, self.base)
class ipwdentry(object):
"""
``ipwdentry`` objects encapsulate entries in the Unix user account and
password database.
"""
def __init__(self, id):
self._id = id
self._entry = None
def __eq__(self, other):
return self.__class__ is other.__class__ and self._id == other._id
def __ne__(self, other):
return self.__class__ is not other.__class__ or self._id != other._id
def _getentry(self):
if self._entry is None:
if isinstance(self._id, basestring):
self._entry = pwd.getpwnam(self._id)
else:
self._entry = pwd.getpwuid(self._id)
return self._entry
def getname(self):
if isinstance(self._id, basestring):
return self._id
else:
return self._getentry().pw_name
name = property(getname, None, None, "User name")
def getpasswd(self):
return self._getentry().pw_passwd
passwd = property(getpasswd, None, None, "Password")
def getuid(self):
if isinstance(self._id, basestring):
return self._getentry().pw_uid
else:
return self._id
uid = property(getuid, None, None, "User id")
def getgid(self):
return self._getentry().pw_gid
gid = property(getgid, None, None, "Primary group id")
def getgroup(self):
return igrpentry(self.gid)
group = property(getgroup, None, None, "Group")
def getgecos(self):
return self._getentry().pw_gecos
gecos = property(getgecos, None, None, "Information (e.g. full user name)")
def getdir(self):
return self._getentry().pw_dir
dir = property(getdir, None, None, "$HOME directory")
def getshell(self):
return self._getentry().pw_shell
shell = property(getshell, None, None, "Login shell")
def __xattrs__(self, mode="default"):
return ("name", "passwd", "uid", "gid", "gecos", "dir", "shell")
def __repr__(self):
return "%s.%s(%r)" % \
(self.__class__.__module__, self.__class__.__name__, self._id)
class ipwd(Table):
"""
List all entries in the Unix user account and password database.
Example::
>>> ipwd | isort("uid")
<IPython.extensions.ipipe.isort key='uid' reverse=False at 0x849efec>
# random
"""
def __iter__(self):
for entry in pwd.getpwall():
yield ipwdentry(entry.pw_name)
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer" or mode == "cell":
yield (astyle.style_default, "%s()" % self.__class__.__name__)
else:
yield (astyle.style_default, repr(self))
class igrpentry(object):
"""
``igrpentry`` objects encapsulate entries in the Unix group database.
"""
def __init__(self, id):
self._id = id
self._entry = None
def __eq__(self, other):
return self.__class__ is other.__class__ and self._id == other._id
def __ne__(self, other):
return self.__class__ is not other.__class__ or self._id != other._id
def _getentry(self):
if self._entry is None:
if isinstance(self._id, basestring):
self._entry = grp.getgrnam(self._id)
else:
self._entry = grp.getgrgid(self._id)
return self._entry
def getname(self):
if isinstance(self._id, basestring):
return self._id
else:
return self._getentry().gr_name
name = property(getname, None, None, "Group name")
def getpasswd(self):
return self._getentry().gr_passwd
passwd = property(getpasswd, None, None, "Password")
def getgid(self):
if isinstance(self._id, basestring):
return self._getentry().gr_gid
else:
return self._id
gid = property(getgid, None, None, "Group id")
def getmem(self):
return self._getentry().gr_mem
mem = property(getmem, None, None, "Members")
def __xattrs__(self, mode="default"):
return ("name", "passwd", "gid", "mem")
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer" or mode == "cell":
yield (astyle.style_default, "group ")
try:
yield (astyle.style_default, self.name)
except KeyError:
if isinstance(self._id, basestring):
yield (astyle.style_default, self.name_id)
else:
yield (astyle.style_type_number, str(self._id))
else:
yield (astyle.style_default, repr(self))
def __iter__(self):
for member in self.mem:
yield ipwdentry(member)
def __repr__(self):
return "%s.%s(%r)" % \
(self.__class__.__module__, self.__class__.__name__, self._id)
class igrp(Table):
"""
This ``Table`` lists all entries in the Unix group database.
"""
def __iter__(self):
for entry in grp.getgrall():
yield igrpentry(entry.gr_name)
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer":
yield (astyle.style_default, "%s()" % self.__class__.__name__)
else:
yield (astyle.style_default, repr(self))
class Fields(object):
def __init__(self, fieldnames, **fields):
self.__fieldnames = [upgradexattr(fieldname) for fieldname in fieldnames]
for (key, value) in fields.iteritems():
setattr(self, key, value)
def __xattrs__(self, mode="default"):
return self.__fieldnames
def __xrepr__(self, mode="default"):
yield (-1, False)
if mode == "header" or mode == "cell":
yield (astyle.style_default, self.__class__.__name__)
yield (astyle.style_default, "(")
for (i, f) in enumerate(self.__fieldnames):
if i:
yield (astyle.style_default, ", ")
yield (astyle.style_default, f.name())
yield (astyle.style_default, "=")
for part in xrepr(getattr(self, f), "default"):
yield part
yield (astyle.style_default, ")")
elif mode == "footer":
yield (astyle.style_default, self.__class__.__name__)
yield (astyle.style_default, "(")
for (i, f) in enumerate(self.__fieldnames):
if i:
yield (astyle.style_default, ", ")
yield (astyle.style_default, f.name())
yield (astyle.style_default, ")")
else:
yield (astyle.style_default, repr(self))
class FieldTable(Table, list):
def __init__(self, *fields):
Table.__init__(self)
list.__init__(self)
self.fields = fields
def add(self, **fields):
self.append(Fields(self.fields, **fields))
def __xrepr__(self, mode="default"):
yield (-1, False)
if mode == "header" or mode == "footer":
yield (astyle.style_default, self.__class__.__name__)
yield (astyle.style_default, "(")
for (i, f) in enumerate(self.__fieldnames):
if i:
yield (astyle.style_default, ", ")
yield (astyle.style_default, f)
yield (astyle.style_default, ")")
else:
yield (astyle.style_default, repr(self))
def __repr__(self):
return "<%s.%s object with fields=%r at 0x%x>" % \
(self.__class__.__module__, self.__class__.__name__,
", ".join(map(repr, self.fields)), id(self))
class List(list):
def __xattrs__(self, mode="default"):
return xrange(len(self))
def __xrepr__(self, mode="default"):
yield (-1, False)
if mode == "header" or mode == "cell" or mode == "footer" or mode == "default":
yield (astyle.style_default, self.__class__.__name__)
yield (astyle.style_default, "(")
for (i, item) in enumerate(self):
if i:
yield (astyle.style_default, ", ")
for part in xrepr(item, "default"):
yield part
yield (astyle.style_default, ")")
else:
yield (astyle.style_default, repr(self))
class ienv(Table):
"""
List environment variables.
Example::
>>> ienv
<class 'IPython.extensions.ipipe.ienv'>
"""
def __iter__(self):
fields = ("key", "value")
for (key, value) in os.environ.iteritems():
yield Fields(fields, key=key, value=value)
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "cell":
yield (astyle.style_default, "%s()" % self.__class__.__name__)
else:
yield (astyle.style_default, repr(self))
class ihist(Table):
"""
IPython input history
Example::
>>> ihist
<class 'IPython.extensions.ipipe.ihist'>
>>> ihist(True) # raw mode
<IPython.extensions.ipipe.ihist object at 0x849602c> # random
"""
def __init__(self, raw=True):
self.raw = raw
def __iter__(self):
api = ipapi.get()
if self.raw:
for line in api.input_hist_raw:
yield line.rstrip("\n")
else:
for line in api.input_hist:
yield line.rstrip("\n")
class Alias(object):
"""
Entry in the alias table
"""
def __init__(self, name, args, command):
self.name = name
self.args = args
self.command = command
def __xattrs__(self, mode="default"):
return ("name", "args", "command")
class ialias(Table):
"""
IPython alias list
Example::
>>> ialias
<class 'IPython.extensions.ipipe.ialias'>
"""
def __iter__(self):
api = ipapi.get()
for (name, (args, command)) in api.alias_manager.alias_table.iteritems():
yield Alias(name, args, command)
class icsv(Pipe):
"""
This ``Pipe`` turns the input (with must be a pipe outputting lines
or an ``ifile``) into lines of CVS columns.
"""
def __init__(self, **csvargs):
"""
Create an ``icsv`` object. ``cvsargs`` will be passed through as
keyword arguments to ``cvs.reader()``.
"""
self.csvargs = csvargs
def __iter__(self):
input = self.input
if isinstance(input, ifile):
input = input.open("rb")
reader = csv.reader(input, **self.csvargs)
for line in reader:
yield List(line)
def __xrepr__(self, mode="default"):
yield (-1, False)
if mode == "header" or mode == "footer":
input = getattr(self, "input", None)
if input is not None:
for part in xrepr(input, mode):
yield part
yield (astyle.style_default, " | ")
yield (astyle.style_default, "%s(" % self.__class__.__name__)
for (i, (name, value)) in enumerate(self.csvargs.iteritems()):
if i:
yield (astyle.style_default, ", ")
yield (astyle.style_default, name)
yield (astyle.style_default, "=")
for part in xrepr(value, "default"):
yield part
yield (astyle.style_default, ")")
else:
yield (astyle.style_default, repr(self))
def __repr__(self):
args = ", ".join(["%s=%r" % item for item in self.csvargs.iteritems()])
return "<%s.%s %s at 0x%x>" % \
(self.__class__.__module__, self.__class__.__name__, args, id(self))
class ix(Table):
"""
Execute a system command and list its output as lines
(similar to ``os.popen()``).
Examples::
>>> ix("ps x")
IPython.extensions.ipipe.ix('ps x')
>>> ix("find .") | ifile
<IPython.extensions.ipipe.ieval expr=<class 'IPython.extensions.ipipe.ifile'> at 0x8509d2c>
# random
"""
def __init__(self, cmd):
self.cmd = cmd
self._pipeout = None
def __iter__(self):
(_pipein, self._pipeout) = os.popen4(self.cmd)
_pipein.close()
for l in self._pipeout:
yield l.rstrip("\r\n")
self._pipeout.close()
self._pipeout = None
def __del__(self):
if self._pipeout is not None and not self._pipeout.closed:
self._pipeout.close()
self._pipeout = None
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer":
yield (astyle.style_default,
"%s(%r)" % (self.__class__.__name__, self.cmd))
else:
yield (astyle.style_default, repr(self))
def __repr__(self):
return "%s.%s(%r)" % \
(self.__class__.__module__, self.__class__.__name__, self.cmd)
class ifilter(Pipe):
"""
Filter an input pipe. Only objects where an expression evaluates to true
(and doesn't raise an exception) are listed.
Examples::
>>> ils | ifilter("_.isfile() and size>1000")
>>> igrp | ifilter("len(mem)")
>>> sys.modules | ifilter(lambda _:_.value is not None)
# all-random
"""
def __init__(self, expr, globals=None, errors="raiseifallfail"):
"""
Create an ``ifilter`` object. ``expr`` can be a callable or a string
containing an expression. ``globals`` will be used as the global
namespace for calling string expressions (defaulting to IPython's
user namespace). ``errors`` specifies how exception during evaluation
of ``expr`` are handled:
``"drop"``
drop all items that have errors;
``"keep"``
keep all items that have errors;
``"keeperror"``
keep the exception of all items that have errors;
``"raise"``
raise the exception;
``"raiseifallfail"``
raise the first exception if all items have errors; otherwise drop
those with errors (this is the default).
"""
self.expr = expr
self.globals = globals
self.errors = errors
def __iter__(self):
if callable(self.expr):
test = self.expr
else:
g = getglobals(self.globals)
expr = compile(self.expr, "ipipe-expression", "eval")
def test(item):
return eval(expr, g, AttrNamespace(item))
ok = 0
exc_info = None
for item in xiter(self.input):
try:
if test(item):
yield item
ok += 1
except (KeyboardInterrupt, SystemExit):
raise
except Exception, exc:
if self.errors == "drop":
pass # Ignore errors
elif self.errors == "keep":
yield item
elif self.errors == "keeperror":
yield exc
elif self.errors == "raise":
raise
elif self.errors == "raiseifallfail":
if exc_info is None:
exc_info = sys.exc_info()
if not ok and exc_info is not None:
raise exc_info[0], exc_info[1], exc_info[2]
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer":
input = getattr(self, "input", None)
if input is not None:
for part in xrepr(input, mode):
yield part
yield (astyle.style_default, " | ")
yield (astyle.style_default, "%s(" % self.__class__.__name__)
for part in xrepr(self.expr, "default"):
yield part
yield (astyle.style_default, ")")
else:
yield (astyle.style_default, repr(self))
def __repr__(self):
return "<%s.%s expr=%r at 0x%x>" % \
(self.__class__.__module__, self.__class__.__name__,
self.expr, id(self))
class ieval(Pipe):
"""
Evaluate an expression for each object in the input pipe.
Examples::
>>> ils | ieval("_.abspath()")
# random
>>> sys.path | ieval(ifile)
# random
"""
def __init__(self, expr, globals=None, errors="raiseifallfail"):
"""
Create an ``ieval`` object. ``expr`` can be a callable or a string
containing an expression. For the meaning of ``globals`` and
``errors`` see ``ifilter``.
"""
self.expr = expr
self.globals = globals
self.errors = errors
def __iter__(self):
if callable(self.expr):
do = self.expr
else:
g = getglobals(self.globals)
expr = compile(self.expr, "ipipe-expression", "eval")
def do(item):
return eval(expr, g, AttrNamespace(item))
ok = 0
exc_info = None
for item in xiter(self.input):
try:
yield do(item)
except (KeyboardInterrupt, SystemExit):
raise
except Exception, exc:
if self.errors == "drop":
pass # Ignore errors
elif self.errors == "keep":
yield item
elif self.errors == "keeperror":
yield exc
elif self.errors == "raise":
raise
elif self.errors == "raiseifallfail":
if exc_info is None:
exc_info = sys.exc_info()
if not ok and exc_info is not None:
raise exc_info[0], exc_info[1], exc_info[2]
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer":
input = getattr(self, "input", None)
if input is not None:
for part in xrepr(input, mode):
yield part
yield (astyle.style_default, " | ")
yield (astyle.style_default, "%s(" % self.__class__.__name__)
for part in xrepr(self.expr, "default"):
yield part
yield (astyle.style_default, ")")
else:
yield (astyle.style_default, repr(self))
def __repr__(self):
return "<%s.%s expr=%r at 0x%x>" % \
(self.__class__.__module__, self.__class__.__name__,
self.expr, id(self))
class ienum(Pipe):
"""
Enumerate the input pipe (i.e. wrap each input object in an object
with ``index`` and ``object`` attributes).
Examples::
>>> xrange(20) | ieval("_,_*_") | ienum | ifilter("index % 2 == 0") | ieval("object")
"""
skip_doctest = True
def __iter__(self):
fields = ("index", "object")
for (index, object) in enumerate(xiter(self.input)):
yield Fields(fields, index=index, object=object)
class isort(Pipe):
"""
Sorts the input pipe.
Examples::
>>> ils | isort("size")
<IPython.extensions.ipipe.isort key='size' reverse=False at 0x849ec2c>
>>> ils | isort("_.isdir(), _.lower()", reverse=True)
<IPython.extensions.ipipe.isort key='_.isdir(), _.lower()' reverse=True at 0x849eacc>
# all-random
"""
def __init__(self, key=None, globals=None, reverse=False):
"""
Create an ``isort`` object. ``key`` can be a callable or a string
containing an expression (or ``None`` in which case the items
themselves will be sorted). If ``reverse`` is true the sort order
will be reversed. For the meaning of ``globals`` see ``ifilter``.
"""
self.key = key
self.globals = globals
self.reverse = reverse
def __iter__(self):
if self.key is None:
items = sorted(xiter(self.input), reverse=self.reverse)
elif callable(self.key):
items = sorted(xiter(self.input), key=self.key, reverse=self.reverse)
else:
g = getglobals(self.globals)
key = compile(self.key, "ipipe-expression", "eval")
def realkey(item):
return eval(key, g, AttrNamespace(item))
items = sorted(xiter(self.input), key=realkey, reverse=self.reverse)
for item in items:
yield item
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer":
input = getattr(self, "input", None)
if input is not None:
for part in xrepr(input, mode):
yield part
yield (astyle.style_default, " | ")
yield (astyle.style_default, "%s(" % self.__class__.__name__)
for part in xrepr(self.key, "default"):
yield part
if self.reverse:
yield (astyle.style_default, ", ")
for part in xrepr(True, "default"):
yield part
yield (astyle.style_default, ")")
else:
yield (astyle.style_default, repr(self))
def __repr__(self):
return "<%s.%s key=%r reverse=%r at 0x%x>" % \
(self.__class__.__module__, self.__class__.__name__,
self.key, self.reverse, id(self))
tab = 3 # for expandtabs()
def _format(field):
if isinstance(field, str):
text = repr(field.expandtabs(tab))[1:-1]
elif isinstance(field, unicode):
text = repr(field.expandtabs(tab))[2:-1]
elif isinstance(field, datetime.datetime):
# Don't use strftime() here, as this requires year >= 1900
text = "%04d-%02d-%02d %02d:%02d:%02d.%06d" % \
(field.year, field.month, field.day,
field.hour, field.minute, field.second, field.microsecond)
elif isinstance(field, datetime.date):
text = "%04d-%02d-%02d" % (field.year, field.month, field.day)
else:
text = repr(field)
return text
class Display(object):
class __metaclass__(type):
def __ror__(self, input):
return input | self()
def __init__(self, input=None):
self.input = input
def __ror__(self, input):
self.input = input
return self
def display(self):
pass
class iless(Display):
cmd = "less --quit-if-one-screen --LONG-PROMPT --LINE-NUMBERS --chop-long-lines --shift=8 --RAW-CONTROL-CHARS"
def display(self):
try:
pager = os.popen(self.cmd, "w")
try:
for item in xiter(self.input):
first = False
for attr in xattrs(item, "default"):
if first:
first = False
else:
pager.write(" ")
attr = upgradexattr(attr)
if not isinstance(attr, SelfDescriptor):
pager.write(attr.name())
pager.write("=")
pager.write(str(attr.value(item)))
pager.write("\n")
finally:
pager.close()
except Exception, exc:
print "%s: %s" % (exc.__class__.__name__, str(exc))
class _RedirectIO(object):
def __init__(self,*args,**kwargs):
"""
Map the system output streams to self.
"""
self.stream = StringIO.StringIO()
self.stdout = sys.stdout
sys.stdout = self
self.stderr = sys.stderr
sys.stderr = self
def write(self, text):
"""
Write both to screen and to self.
"""
self.stream.write(text)
self.stdout.write(text)
if "\n" in text:
self.stdout.flush()
def writelines(self, lines):
"""
Write lines both to screen and to self.
"""
self.stream.writelines(lines)
self.stdout.writelines(lines)
self.stdout.flush()
def restore(self):
"""
Restore the default system streams.
"""
self.stdout.flush()
self.stderr.flush()
sys.stdout = self.stdout
sys.stderr = self.stderr
class icap(Table):
"""
Execute a python string and capture any output to stderr/stdout.
Examples::
>>> import time
>>> icap("for i in range(10): print i, time.sleep(0.1)")
"""
skip_doctest = True
def __init__(self, expr, globals=None):
self.expr = expr
self.globals = globals
log = _RedirectIO()
try:
exec(expr, getglobals(globals))
finally:
log.restore()
self.stream = log.stream
def __iter__(self):
self.stream.seek(0)
for line in self.stream:
yield line.rstrip("\r\n")
def __xrepr__(self, mode="default"):
if mode == "header" or mode == "footer":
yield (astyle.style_default,
"%s(%r)" % (self.__class__.__name__, self.expr))
else:
yield (astyle.style_default, repr(self))
def __repr__(self):
return "%s.%s(%r)" % \
(self.__class__.__module__, self.__class__.__name__, self.expr)
def xformat(value, mode, maxlength):
align = None
full = True
width = 0
text = astyle.Text()
for (style, part) in xrepr(value, mode):
# only consider the first result
if align is None:
if isinstance(style, int):
# (style, text) really is (alignment, stop)
align = style
full = part
continue
else:
align = -1
full = True
if not isinstance(style, int):
text.append((style, part))
width += len(part)
if width >= maxlength and not full:
text.append((astyle.style_ellisis, "..."))
width += 3
break
if align is None: # default to left alignment
align = -1
return (align, width, text)
import astyle
class idump(Display):
# The approximate maximum length of a column entry
maxattrlength = 200
# Style for column names
style_header = astyle.Style.fromstr("white:black:bold")
def __init__(self, input=None, *attrs):
Display.__init__(self, input)
self.attrs = [upgradexattr(attr) for attr in attrs]
self.headerpadchar = " "
self.headersepchar = "|"
self.datapadchar = " "
self.datasepchar = "|"
def display(self):
stream = Term.cout
allattrs = []
attrset = set()
colwidths = {}
rows = []
for item in xiter(self.input):
row = {}
attrs = self.attrs
if not attrs:
attrs = xattrs(item, "default")
for attr in attrs:
if attr not in attrset:
allattrs.append(attr)
attrset.add(attr)
colwidths[attr] = len(attr.name())
try:
value = attr.value(item)
except (KeyboardInterrupt, SystemExit):
raise
except Exception, exc:
value = exc
(align, width, text) = xformat(value, "cell", self.maxattrlength)
colwidths[attr] = max(colwidths[attr], width)
# remember alignment, length and colored parts
row[attr] = (align, width, text)
rows.append(row)
stream.write("\n")
for (i, attr) in enumerate(allattrs):
attrname = attr.name()
self.style_header(attrname).write(stream)
spc = colwidths[attr] - len(attrname)
if i < len(colwidths)-1:
stream.write(self.headerpadchar*spc)
stream.write(self.headersepchar)
stream.write("\n")
for row in rows:
for (i, attr) in enumerate(allattrs):
(align, width, text) = row[attr]
spc = colwidths[attr] - width
if align == -1:
text.write(stream)
if i < len(colwidths)-1:
stream.write(self.datapadchar*spc)
elif align == 0:
spc = colwidths[attr] - width
spc1 = spc//2
spc2 = spc-spc1
stream.write(self.datapadchar*spc1)
text.write(stream)
if i < len(colwidths)-1:
stream.write(self.datapadchar*spc2)
else:
stream.write(self.datapadchar*spc)
text.write(stream)
if i < len(colwidths)-1:
stream.write(self.datasepchar)
stream.write("\n")
class AttributeDetail(Table):
"""
``AttributeDetail`` objects are use for displaying a detailed list of object
attributes.
"""
def __init__(self, object, descriptor):
self.object = object
self.descriptor = descriptor
def __iter__(self):
return self.descriptor.iter(self.object)
def name(self):
return self.descriptor.name()
def attrtype(self):
return self.descriptor.attrtype(self.object)
def valuetype(self):
return self.descriptor.valuetype(self.object)
def doc(self):
return self.descriptor.doc(self.object)
def shortdoc(self):
return self.descriptor.shortdoc(self.object)
def value(self):
return self.descriptor.value(self.object)
def __xattrs__(self, mode="default"):
attrs = ("name()", "attrtype()", "valuetype()", "value()", "shortdoc()")
if mode == "detail":
attrs += ("doc()",)
return attrs
def __xrepr__(self, mode="default"):
yield (-1, True)
valuetype = self.valuetype()
if valuetype is not noitem:
for part in xrepr(valuetype):
yield part
yield (astyle.style_default, " ")
yield (astyle.style_default, self.attrtype())
yield (astyle.style_default, " ")
yield (astyle.style_default, self.name())
yield (astyle.style_default, " of ")
for part in xrepr(self.object):
yield part
try:
from ibrowse import ibrowse
except ImportError:
# No curses (probably Windows) => try igrid
try:
from igrid import igrid
except ImportError:
# no wx either => use ``idump`` as the default display.
defaultdisplay = idump
else:
defaultdisplay = igrid
__all__.append("igrid")
else:
defaultdisplay = ibrowse
__all__.append("ibrowse")
# If we're running under IPython, register our objects with IPython's
# generic function ``result_display``, else install a displayhook
# directly as sys.displayhook
if generics is not None:
def display_display(obj):
return obj.display()
generics.result_display.when_type(Display)(display_display)
def display_tableobject(obj):
return display_display(defaultdisplay(obj))
generics.result_display.when_type(Table)(display_tableobject)
def display_tableclass(obj):
return display_tableobject(obj())
generics.result_display.when_type(Table.__metaclass__)(display_tableclass)
else:
def installdisplayhook():
_originalhook = sys.displayhook
def displayhook(obj):
if isinstance(obj, type) and issubclass(obj, Table):
obj = obj()
if isinstance(obj, Table):
obj = defaultdisplay(obj)
if isinstance(obj, Display):
return obj.display()
else:
_originalhook(obj)
sys.displayhook = displayhook
installdisplayhook()