#!/usr/bin/env python
import __builtin__
import __main__
import codeop
import keyword
import gtk
import os
import re
import readline
import threading
import traceback
import signal
import sys
def walk_class (klass):
list = []
for item in dir (klass.__class__):
if item[0] != "_":
list.append (item)
for base in klass.__class__.__bases__:
list = list + walk_class (base())
return list
class Completer:
def __init__ (self, lokals):
self.locals = lokals
self.completions = keyword.kwlist + \
__builtins__.__dict__.keys() + \
__main__.__dict__.keys()
def complete (self, text, state):
if state == 0:
if "." in text:
self.matches = self.attr_matches (text)
else:
self.matches = self.global_matches (text)
try:
return self.matches[state]
except IndexError:
return None
def update (self, locs):
self.locals = locs
for key in self.locals.keys ():
if not key in self.completions:
self.completions.append (key)
def global_matches (self, text):
matches = []
n = len (text)
for word in self.completions:
if word[:n] == text:
matches.append (word)
return matches
def attr_matches (self, text):
m = re.match(r"(\w+(\.\w+)*)\.(\w*)", text)
if not m:
return
expr, attr = m.group(1, 3)
obj = eval (expr, self.locals)
if str (obj)[1:4] == "gtk":
words = walk_class (obj)
else:
words = dir(eval(expr, self.locals))
matches = []
n = len(attr)
for word in words:
if word[:n] == attr:
matches.append ("%s.%s" % (expr, word))
return matches
class GtkInterpreter (threading.Thread):
"""Run a gtk mainloop() in a separate thread.
Python commands can be passed to the thread where they will be executed.
This is implemented by periodically checking for passed code using a
GTK timeout callback.
"""
TIMEOUT = 100 # Millisecond interval between timeouts.
def __init__ (self):
threading.Thread.__init__ (self)
self.ready = threading.Condition ()
self.globs = globals ()
self.locs = locals ()
self._kill = 0
self.cmd = '' # Current code block
self.new_cmd = None # Waiting line of code, or None if none waiting
self.completer = Completer (self.locs)
readline.set_completer (self.completer.complete)
readline.parse_and_bind ('tab: complete')
def run (self):
gtk.timeout_add (self.TIMEOUT, self.code_exec)
gtk.mainloop ()
def code_exec (self):
"""Execute waiting code. Called every timeout period."""
self.ready.acquire ()
if self._kill: gtk.mainquit ()
if self.new_cmd != None:
self.ready.notify ()
self.cmd = self.cmd + self.new_cmd
self.new_cmd = None
try:
code = codeop.compile_command (self.cmd[:-1])
if code:
self.cmd = ''
exec (code, self.globs, self.locs)
self.completer.update (self.locs)
except Exception:
traceback.print_exc ()
self.cmd = ''
self.ready.release()
return 1
def feed (self, code):
"""Feed a line of code to the thread.
This function will block until the code checked by the GTK thread.
Return true if executed the code.
Returns false if deferring execution until complete block available.
"""
if (not code) or (code[-1]<>'\n'): code = code +'\n' # raw_input strips newline
self.completer.update (self.locs)
self.ready.acquire()
self.new_cmd = code
self.ready.wait () # Wait until processed in timeout interval
self.ready.release ()
return not self.cmd
def kill (self):
"""Kill the thread, returning when it has been shut down."""
self.ready.acquire()
self._kill=1
self.ready.release()
self.join()
# Read user input in a loop, and send each line to the interpreter thread.
def signal_handler (*args):
print "SIGNAL:", args
sys.exit()
if __name__=="__main__":
signal.signal (signal.SIGINT, signal_handler)
signal.signal (signal.SIGSEGV, signal_handler)
prompt = '>>> '
interpreter = GtkInterpreter ()
interpreter.start ()
interpreter.feed ("from gtk import *")
interpreter.feed ("sys.path.append('.')")
if len (sys.argv) > 1:
for file in open (sys.argv[1]).readlines ():
interpreter.feed (file)
print 'Interactive GTK Shell'
try:
while 1:
command = raw_input (prompt) + '\n' # raw_input strips newlines
prompt = interpreter.feed (command) and '>>> ' or '... '
except (EOFError, KeyboardInterrupt): pass
interpreter.kill()
print
