# CallTips.py - An IDLE extension that provides "Call Tips" - ie, a floating window that
# displays parameter information as you open parens.
import string
import sys
import inspect
import traceback
class CallTips:
menudefs = [
]
keydefs = {
'<<paren-open>>': ['<Key-parenleft>'],
'<<paren-close>>': ['<Key-parenright>'],
'<<check-calltip-cancel>>': ['<KeyRelease>'],
'<<calltip-cancel>>': ['<ButtonPress>', '<Key-Escape>'],
}
windows_keydefs = {
}
unix_keydefs = {
}
def __init__(self, editwin):
self.editwin = editwin
self.text = editwin.text
self.calltip = None
if hasattr(self.text, "make_calltip_window"):
self._make_calltip_window = self.text.make_calltip_window
else:
self._make_calltip_window = self._make_tk_calltip_window
def close(self):
self._make_calltip_window = None
# Makes a Tk based calltip window. Used by IDLE, but not Pythonwin.
# See __init__ above for how this is used.
def _make_tk_calltip_window(self):
import CallTipWindow
return CallTipWindow.CallTip(self.text)
def _remove_calltip_window(self):
if self.calltip:
self.calltip.hidetip()
self.calltip = None
def paren_open_event(self, event):
self._remove_calltip_window()
arg_text = get_arg_text(self.get_object_at_cursor())
if arg_text:
self.calltip_start = self.text.index("insert")
self.calltip = self._make_calltip_window()
self.calltip.showtip(arg_text)
return "" #so the event is handled normally.
def paren_close_event(self, event):
# Now just hides, but later we should check if other
# paren'd expressions remain open.
self._remove_calltip_window()
return "" #so the event is handled normally.
def check_calltip_cancel_event(self, event):
if self.calltip:
# If we have moved before the start of the calltip,
# or off the calltip line, then cancel the tip.
# (Later need to be smarter about multi-line, etc)
if self.text.compare("insert", "<=", self.calltip_start) or \
self.text.compare("insert", ">", self.calltip_start + " lineend"):
self._remove_calltip_window()
return "" #so the event is handled normally.
def calltip_cancel_event(self, event):
self._remove_calltip_window()
return "" #so the event is handled normally.
def get_object_at_cursor(self,
wordchars="._" + string.ascii_uppercase + string.ascii_lowercase + string.digits):
# XXX - This needs to be moved to a better place
# so the "." attribute lookup code can also use it.
text = self.text
chars = text.get("insert linestart", "insert")
i = len(chars)
while i and chars[i-1] in wordchars:
i = i-1
word = chars[i:]
if word:
# How is this for a hack!
import sys, __main__
namespace = sys.modules.copy()
namespace.update(__main__.__dict__)
try:
return eval(word, namespace)
except:
pass
return None # Can't find an object.
def _find_constructor(class_ob):
# Given a class object, return a function object used for the
# constructor (ie, __init__() ) or None if we can't find one.
try:
if sys.version_info < (3,):
return class_ob.__init__.im_func
else:
return class_ob.__init__.__func__
except AttributeError:
for base in class_ob.__bases__:
rc = _find_constructor(base)
if rc is not None: return rc
return None
def get_arg_text(ob):
# Get a string describing the arguments for the given object.
argText = ""
if ob is not None:
argOffset = 0
if inspect.isclass(ob):
# Look for the highest __init__ in the class chain.
fob = _find_constructor(ob)
if fob is None:
fob = lambda: None
else:
fob = ob
if inspect.isfunction(fob) or inspect.ismethod(fob):
try:
# py3k has a 'getfullargspec' which can handle py3k specific things.
arg_getter = getattr(inspect, "getfullargspec", inspect.getargspec)
argText = inspect.formatargspec(*arg_getter(fob))
except:
print("Failed to format the args")
traceback.print_exc()
# See if we can use the docstring
if hasattr(ob, "__doc__"):
doc=ob.__doc__
try:
doc = doc.strip()
pos = doc.find("\n")
except AttributeError:
## New style classes may have __doc__ slot without actually
## having a string assigned to it
pass
else:
if pos<0 or pos>70: pos=70
if argText: argText = argText + "\n"
argText = argText + doc[:pos]
return argText
#################################################
#
# Test code
#
if __name__=='__main__':
def t1(): "()"
def t2(a, b=None): "(a, b=None)"
def t3(a, *args): "(a, *args)"
def t4(*args): "(*args)"
def t5(a, *args): "(a, *args)"
def t6(a, b=None, *args, **kw): "(a, b=None, *args, **kw)"
class TC:
"(self, a=None, *b)"
def __init__(self, a=None, *b): "(self, a=None, *b)"
def t1(self): "(self)"
def t2(self, a, b=None): "(self, a, b=None)"
def t3(self, a, *args): "(self, a, *args)"
def t4(self, *args): "(self, *args)"
def t5(self, a, *args): "(self, a, *args)"
def t6(self, a, b=None, *args, **kw): "(self, a, b=None, *args, **kw)"
def test( tests ):
failed=[]
for t in tests:
expected = t.__doc__ + "\n" + t.__doc__
if get_arg_text(t) != expected:
failed.append(t)
print("%s - expected %s, but got %s" % (t, repr(expected), repr(get_arg_text(t))))
print("%d of %d tests failed" % (len(failed), len(tests)))
tc = TC()
tests = t1, t2, t3, t4, t5, t6, \
TC, tc.t1, tc.t2, tc.t3, tc.t4, tc.t5, tc.t6
test(tests)