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"""CallTips.py - An IDLE Extension to Jog Your Memory
Call Tips are floating windows which display function, class, and method
parameter and docstring information when you type an opening parenthesis, and
which disappear when you type a closing parenthesis.
"""
import re
import sys
import types
import inspect
from idlelib import CallTipWindow
from idlelib.HyperParser import HyperParser
import __main__
class CallTips:
menudefs = [
('edit', [
("Show call tip", "<<force-open-calltip>>"),
])
]
def __init__(self, editwin=None):
if editwin is None: # subprocess and test
self.editwin = None
else:
self.editwin = editwin
self.text = editwin.text
self.active_calltip = None
self._calltip_window = self._make_tk_calltip_window
def close(self):
self._calltip_window = None
def _make_tk_calltip_window(self):
# See __init__ for usage
return CallTipWindow.CallTip(self.text)
def _remove_calltip_window(self, event=None):
if self.active_calltip:
self.active_calltip.hidetip()
self.active_calltip = None
def force_open_calltip_event(self, event):
"The user selected the menu entry or hotkey, open the tip."
self.open_calltip(True)
def try_open_calltip_event(self, event):
"""Happens when it would be nice to open a CallTip, but not really
necessary, for example after an opening bracket, so function calls
won't be made.
"""
self.open_calltip(False)
def refresh_calltip_event(self, event):
if self.active_calltip and self.active_calltip.is_active():
self.open_calltip(False)
def open_calltip(self, evalfuncs):
self._remove_calltip_window()
hp = HyperParser(self.editwin, "insert")
sur_paren = hp.get_surrounding_brackets('(')
if not sur_paren:
return
hp.set_index(sur_paren[0])
expression = hp.get_expression()
if not expression:
return
if not evalfuncs and (expression.find('(') != -1):
return
argspec = self.fetch_tip(expression)
if not argspec:
return
self.active_calltip = self._calltip_window()
self.active_calltip.showtip(argspec, sur_paren[0], sur_paren[1])
def fetch_tip(self, expression):
"""Return the argument list and docstring of a function or class.
If there is a Python subprocess, get the calltip there. Otherwise,
either this fetch_tip() is running in the subprocess or it was
called in an IDLE running without the subprocess.
The subprocess environment is that of the most recently run script. If
two unrelated modules are being edited some calltips in the current
module may be inoperative if the module was not the last to run.
To find methods, fetch_tip must be fed a fully qualified name.
"""
try:
rpcclt = self.editwin.flist.pyshell.interp.rpcclt
except AttributeError:
rpcclt = None
if rpcclt:
return rpcclt.remotecall("exec", "get_the_calltip",
(expression,), {})
else:
return get_argspec(get_entity(expression))
def get_entity(expression):
"""Return the object corresponding to expression evaluated
in a namespace spanning sys.modules and __main.dict__.
"""
if expression:
namespace = sys.modules.copy()
namespace.update(__main__.__dict__)
try:
return eval(expression, namespace)
except BaseException:
# An uncaught exception closes idle, and eval can raise any
# exception, especially if user classes are involved.
return None
# The following are used in both get_argspec and tests
_first_param = re.compile('(?<=\()\w*\,?\s*')
_default_callable_argspec = "No docstring, see docs."
def get_argspec(ob):
'''Return a string describing the arguments and return of a callable object.
For Python-coded functions and methods, the first line is introspected.
Delete 'self' parameter for classes (.__init__) and bound methods.
The last line is the first line of the doc string. For builtins, this typically
includes the arguments in addition to the return value.
'''
argspec = ""
if hasattr(ob, '__call__'):
if isinstance(ob, type):
fob = getattr(ob, '__init__', None)
elif isinstance(ob.__call__, types.MethodType):
fob = ob.__call__
else:
fob = ob
if isinstance(fob, (types.FunctionType, types.MethodType)):
argspec = inspect.formatargspec(*inspect.getfullargspec(fob))
if (isinstance(ob, (type, types.MethodType)) or
isinstance(ob.__call__, types.MethodType)):
argspec = _first_param.sub("", argspec)
if isinstance(ob.__call__, types.MethodType):
doc = ob.__call__.__doc__
else:
doc = getattr(ob, "__doc__", "")
if doc:
doc = doc.lstrip()
pos = doc.find("\n")
if pos < 0 or pos > 70:
pos = 70
if argspec:
argspec += "\n"
argspec += doc[:pos]
if not argspec:
argspec = _default_callable_argspec
return argspec
#################################################
#
# Test code tests CallTips.fetch_tip, get_entity, and get_argspec
def main():
# Putting expected in docstrings results in doubled tips for test
def t1(): "()"
def t2(a, b=None): "(a, b=None)"
def t3(a, *args): "(a, *args)"
def t4(*args): "(*args)"
def t5(a, b=None, *args, **kw): "(a, b=None, *args, **kw)"
class TC(object):
"(ai=None, *b)"
def __init__(self, ai=None, *b): "(self, ai=None, *b)"
def t1(self): "(self)"
def t2(self, ai, b=None): "(self, ai, b=None)"
def t3(self, ai, *args): "(self, ai, *args)"
def t4(self, *args): "(self, *args)"
def t5(self, ai, b=None, *args, **kw): "(self, ai, b=None, *args, **kw)"
def t6(no, self): "(no, self)"
@classmethod
def cm(cls, a): "(cls, a)"
@staticmethod
def sm(b): "(b)"
def __call__(self, ci): "(self, ci)"
tc = TC()
# Python classes that inherit builtin methods
class Int(int): "Int(x[, base]) -> integer"
class List(list): "List() -> new empty list"
# Simulate builtin with no docstring for default argspec test
class SB: __call__ = None
__main__.__dict__.update(locals()) # required for get_entity eval()
num_tests = num_fail = 0
tip = CallTips().fetch_tip
def test(expression, expected):
nonlocal num_tests, num_fail
num_tests += 1
argspec = tip(expression)
if argspec != expected:
num_fail += 1
fmt = "%s - expected\n%r\n - but got\n%r"
print(fmt % (expression, expected, argspec))
def test_builtins():
# if first line of a possibly multiline compiled docstring changes,
# must change corresponding test string
test('int', "int(x[, base]) -> integer")
test('Int', Int.__doc__)
test('types.MethodType', "method(function, instance)")
test('list', "list() -> new empty list")
test('List', List.__doc__)
test('list.__new__',
'T.__new__(S, ...) -> a new object with type S, a subtype of T')
test('list.__init__',
'x.__init__(...) initializes x; see help(type(x)) for signature')
append_doc = "L.append(object) -> None -- append object to end"
test('list.append', append_doc)
test('[].append', append_doc)
test('List.append', append_doc)
test('SB()', _default_callable_argspec)
def test_funcs():
for func in (t1, t2, t3, t4, t5, TC,):
fdoc = func.__doc__
test(func.__name__, fdoc + "\n" + fdoc)
for func in (TC.t1, TC.t2, TC.t3, TC.t4, TC.t5, TC.t6, TC.sm,
TC.__call__):
fdoc = func.__doc__
test('TC.'+func.__name__, fdoc + "\n" + fdoc)
fdoc = TC.cm.__func__.__doc__
test('TC.cm.__func__', fdoc + "\n" + fdoc)
def test_methods():
# test that first parameter is correctly removed from argspec
# using _first_param re to calculate expected masks re errors
for meth, mdoc in ((tc.t1, "()"), (tc.t4, "(*args)"), (tc.t6, "(self)"),
(TC.cm, "(a)"),):
test('tc.'+meth.__name__, mdoc + "\n" + meth.__doc__)
test('tc', "(ci)" + "\n" + tc.__call__.__doc__)
# directly test that re works to delete unicode parameter name
uni = "(A\u0391\u0410\u05d0\u0627\u0905\u1e00\u3042, a)" # various As
assert _first_param.sub('', uni) == '(a)'
def test_non_callables():
# expression evaluates, but not to a callable
for expr in ('0', '0.0' 'num_tests', b'num_tests', '[]', '{}'):
test(expr, '')
# expression does not evaluate, but raises an exception
for expr in ('1a', 'xyx', 'num_tests.xyz', '[int][1]', '{0:int}[1]'):
test(expr, '')
test_builtins()
test_funcs()
test_non_callables()
test_methods()
print("%d of %d tests failed" % (num_fail, num_tests))
if __name__ == '__main__':
main()
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