wxWidgets/wxPython/samples/ide/activegrid/tool/DebuggerHarness.py
Robin Dunn 2eeaec1909 Docview and IDE patch from Morag Hua with fix for bug #1217890
"Closing view crashes Python" plus some new features:

    New feature added to the IDE is 'Extensions'.  Under
    Tools|Options|Extensions, you can add calls to external programs.
    For example you can add a "Notepad" extension (under windows) that
    will exec Notepad on the currently open file.  A new "Notepad"
    menu item will appear under the Tools menu.


git-svn-id: https://svn.wxwidgets.org/svn/wx/wxWidgets/trunk@34638 c3d73ce0-8a6f-49c7-b76d-6d57e0e08775
2005-06-11 23:18:57 +00:00

778 lines
28 KiB
Python

#----------------------------------------------------------------------------
# Name: DebuggerHarness.py
# Purpose:
#
# Author: Matt Fryer
#
# Created: 7/28/04
# CVS-ID: $Id$
# Copyright: (c) 2005 ActiveGrid, Inc.
# License: wxWindows License
#----------------------------------------------------------------------------
import bdb
import sys
import SimpleXMLRPCServer
import threading
import xmlrpclib
import os
import types
import Queue
import traceback
import inspect
from xml.dom.minidom import getDOMImplementation
import atexit
import pickle
import cStringIO
import bz2
if sys.platform.startswith("win"):
import win32api
_WINDOWS = True
else:
_WINDOWS = False
_VERBOSE = False
_DEBUG_DEBUGGER = False
class Adb(bdb.Bdb):
def __init__(self, harness, queue):
bdb.Bdb.__init__(self)
self._harness = harness
self._userBreak = False
self._queue = queue
self._knownCantExpandFiles = {}
self._knownExpandedFiles = {}
def getLongName(self, filename):
if not _WINDOWS:
return filename
if self._knownCantExpandFiles.get(filename):
return filename
if self._knownExpandedFiles.get(filename):
return self._knownExpandedFiles.get(filename)
try:
newname = win32api.GetLongPathName(filename)
self._knownExpandedFiles[filename] = newname
return newname
except:
self._knownCantExpandFiles[filename] = filename
return filename
def canonic(self, orig_filename):
if orig_filename == "<" + orig_filename[1:-1] + ">":
return orig_filename
filename = self.getLongName(orig_filename)
canonic = self.fncache.get(filename)
if not canonic:
canonic = os.path.abspath(filename)
canonic = os.path.normcase(canonic)
self.fncache[filename] = canonic
return canonic
# Overriding this so that we continue to trace even if no breakpoints are set.
def set_continue(self):
self.stopframe = self.botframe
self.returnframe = None
self.quitting = 0
def do_clear(self, arg):
bdb.Breakpoint.bpbynumber[int(arg)].deleteMe()
def user_line(self, frame):
if self.in_debugger_code(frame):
self.set_step()
return
message = self.__frame2message(frame)
self._harness.interaction(message, frame, "")
def user_call(self, frame, argument_list):
if self.in_debugger_code(frame):
self.set_step()
return
if self.stop_here(frame):
message = self.__frame2message(frame)
self._harness.interaction(message, frame, "")
def user_return(self, frame, return_value):
if self.in_debugger_code(frame):
self.set_step()
return
message = self.__frame2message(frame)
self._harness.interaction(message, frame, "")
def user_exception(self, frame, (exc_type, exc_value, exc_traceback)):
frame.f_locals['__exception__'] = exc_type, exc_value
if type(exc_type) == type(''):
exc_type_name = exc_type
else:
exc_type_name = exc_type.__name__
message = "Exception occured: " + repr(exc_type_name) + " See locals.__exception__ for details."
traceback.print_exception(exc_type, exc_value, exc_traceback)
self._harness.interaction(message, frame, message)
def in_debugger_code(self, frame):
if _DEBUG_DEBUGGER: return False
message = self.__frame2message(frame)
return message.count('DebuggerHarness') > 0
def frame2message(self, frame):
return self.__frame2message(frame)
def __frame2message(self, frame):
code = frame.f_code
filename = code.co_filename
lineno = frame.f_lineno
basename = os.path.basename(filename)
message = "%s:%s" % (basename, lineno)
if code.co_name != "?":
message = "%s: %s()" % (message, code.co_name)
return message
def runFile(self, fileName):
self.reset()
#global_dict = {}
#global_dict['__name__'] = '__main__'
try:
fileToRun = open(fileName, mode='r')
if _VERBOSE: print "Running file ", fileName
sys.settrace(self.trace_dispatch)
import __main__
exec fileToRun in __main__.__dict__,__main__.__dict__
except SystemExit:
pass
except:
tp, val, tb = sys.exc_info()
traceback.print_exception(tp, val, tb)
sys.settrace(None)
self.quitting = 1
#global_dict.clear()
def trace_dispatch(self, frame, event, arg):
if self.quitting:
return # None
# Check for ui events
self.readQueue()
if event == 'line':
return self.dispatch_line(frame)
if event == 'call':
return self.dispatch_call(frame, arg)
if event == 'return':
return self.dispatch_return(frame, arg)
if event == 'exception':
return self.dispatch_exception(frame, arg)
print 'Adb.dispatch: unknown debugging event:', `event`
return self.trace_dispatch
def readQueue(self):
while self._queue.qsize():
try:
item = self._queue.get_nowait()
if item.kill():
self._harness.do_exit(kill=True)
elif item.breakHere():
self._userBreak = True
elif item.hasBreakpoints():
self.set_all_breakpoints(item.getBreakpoints())
except Queue.Empty:
pass
def set_all_breakpoints(self, dict):
self.clear_all_breaks()
for fileName in dict.keys():
lineList = dict[fileName]
for lineNumber in lineList:
if _VERBOSE: print "Setting break at line ", str(lineNumber), " in file ", self.canonic(fileName)
self.set_break(fileName, int(lineNumber))
return ""
def stop_here(self, frame):
if self._userBreak:
return True
# (CT) stopframe may now also be None, see dispatch_call.
# (CT) the former test for None is therefore removed from here.
if frame is self.stopframe:
return True
while frame is not None and frame is not self.stopframe:
if frame is self.botframe:
return True
frame = frame.f_back
return False
class BreakNotify(object):
def __init__(self, bps=None, break_here=False, kill=False):
self._bps = bps
self._break_here = break_here
self._kill = kill
def breakHere(self):
return self._break_here
def kill(self):
return self._kill
def getBreakpoints(self):
return self._bps
def hasBreakpoints(self):
return (self._bps != None)
class AGXMLRPCServer(SimpleXMLRPCServer.SimpleXMLRPCServer):
def __init__(self, address, logRequests=0):
SimpleXMLRPCServer.SimpleXMLRPCServer.__init__(self, address, logRequests=logRequests)
class BreakListenerThread(threading.Thread):
def __init__(self, host, port, queue):
threading.Thread.__init__(self)
self._host = host
self._port = int(port)
self._keepGoing = True
self._queue = queue
self._server = AGXMLRPCServer((self._host, self._port), logRequests=0)
self._server.register_function(self.update_breakpoints)
self._server.register_function(self.break_requested)
self._server.register_function(self.die)
def break_requested(self):
bn = BreakNotify(break_here=True)
self._queue.put(bn)
return ""
def update_breakpoints(self, pickled_Binary_bpts):
dict = pickle.loads(pickled_Binary_bpts.data)
bn = BreakNotify(bps=dict)
self._queue.put(bn)
return ""
def die(self):
bn = BreakNotify(kill=True)
self._queue.put(bn)
return ""
def run(self):
while self._keepGoing:
try:
self._server.handle_request()
except:
if _VERBOSE:
tp, val, tb = sys.exc_info()
print "Exception in BreakListenerThread.run():", str(tp), str(val)
self._keepGoing = False
def AskToStop(self):
self._keepGoing = False
if type(self._server) is not types.NoneType:
if _VERBOSE: print "Before calling server close on breakpoint server"
self._server.server_close()
if _VERBOSE: print "Calling server close on breakpoint server"
self._server = None
class DebuggerHarness(object):
def __init__(self):
# Host and port for debugger-side RPC server
self._hostname = sys.argv[1]
self._portNumber = int(sys.argv[2])
# Name the gui proxy object is registered under
self._breakPortNumber = int(sys.argv[3])
# Host and port where the gui proxy can be found.
self._guiHost = sys.argv[4]
self._guiPort = int(sys.argv[5])
# Command to debug.
self._command = sys.argv[6]
# Strip out the harness' arguments so that the process we run will see argv as if
# it was called directly.
sys.argv = sys.argv[6:]
self._currentFrame = None
self._wait = False
# Connect to the gui-side RPC server.
self._guiServerUrl = 'http://' + self._guiHost + ':' + str(self._guiPort) + '/'
if _VERBOSE: print "Connecting to gui server at ", self._guiServerUrl
self._guiServer = xmlrpclib.ServerProxy(self._guiServerUrl,allow_none=1)
# Start the break listener
self._breakQueue = Queue.Queue(50)
self._breakListener = BreakListenerThread(self._hostname, self._breakPortNumber, self._breakQueue)
self._breakListener.start()
# Create the debugger.
self._adb = Adb(self, self._breakQueue)
# Create the debugger-side RPC Server and register functions for remote calls.
self._server = AGXMLRPCServer((self._hostname, self._portNumber), logRequests=0)
self._server.register_function(self.set_step)
self._server.register_function(self.set_continue)
self._server.register_function(self.set_next)
self._server.register_function(self.set_return)
self._server.register_function(self.set_breakpoint)
self._server.register_function(self.clear_breakpoint)
self._server.register_function(self.set_all_breakpoints)
self._server.register_function(self.attempt_introspection)
self._server.register_function(self.execute_in_frame)
self._server.register_function(self.add_watch)
self._server.register_function(self.request_frame_document)
self.frame_stack = []
self.message_frame_dict = {}
self.introspection_list = []
atexit.register(self.do_exit)
def run(self):
self._adb.runFile(self._command)
self.do_exit(kill=True)
def do_exit(self, kill=False):
self._adb.set_quit()
self._breakListener.AskToStop()
self._server.server_close()
try:
self._guiServer.quit()
except:
pass
if kill:
try:
sys.exit()
except:
pass
def set_breakpoint(self, fileName, lineNo):
self._adb.set_break(fileName, lineNo)
return ""
def set_all_breakpoints(self, dict):
self._adb.clear_all_breaks()
for fileName in dict.keys():
lineList = dict[fileName]
for lineNumber in lineList:
self._adb.set_break(fileName, int(lineNumber))
if _VERBOSE: print "Setting break at ", str(lineNumber), " in file ", fileName
return ""
def clear_breakpoint(self, fileName, lineNo):
self._adb.clear_break(fileName, lineNo)
return ""
def add_watch(self, name, text, frame_message, run_once):
if len(frame_message) > 0:
frame = self.message_frame_dict[frame_message]
try:
item = eval(text, frame.f_globals, frame.f_locals)
return self.get_watch_document(item, name)
except:
tp, val, tb = sys.exc_info()
return self.get_exception_document(tp, val, tb)
return ""
def execute_in_frame(self, frame_message, command):
frame = self.message_frame_dict[frame_message]
output = cStringIO.StringIO()
out = sys.stdout
err = sys.stderr
sys.stdout = output
sys.stderr = output
try:
code = compile(command, '<string>', 'single')
exec code in frame.f_globals, frame.f_locals
return output.getvalue()
sys.stdout = out
sys.stderr = err
except:
sys.stdout = out
sys.stderr = err
tp, val, tb = sys.exc_info()
output = cStringIO.StringIO()
traceback.print_exception(tp, val, tb, file=output)
return output.getvalue()
def attempt_introspection(self, frame_message, chain):
try:
frame = self.message_frame_dict[frame_message]
if frame:
name = chain.pop(0)
if name == 'globals':
item = frame.f_globals
elif name == 'locals':
item = frame.f_locals
for name in chain:
item = self.getNextItem(item, name)
return self.get_introspection_document(item, name)
except:
tp, val, tb = sys.exc_info()
traceback.print_exception(tp, val, tb)
return self.get_empty_introspection_document()
def getNextItem(self, link, identifier):
tp = type(link)
if self.isTupleized(identifier):
return self.deTupleize(link, identifier)
else:
if tp == types.DictType or tp == types.DictProxyType:
return link[identifier]
else:
if hasattr(link, identifier):
return getattr(link, identifier)
if _VERBOSE or True: print "Failed to find link ", identifier, " on thing: ", self.saferepr(link), " of type ", repr(type(link))
return None
def isPrimitive(self, item):
tp = type(item)
return tp is types.IntType or tp is types.LongType or tp is types.FloatType \
or tp is types.BooleanType or tp is types.ComplexType \
or tp is types.StringType
def isTupleized(self, value):
return value.count('[')
def deTupleize(self, link, string1):
try:
start = string1.find('[')
end = string1.find(']')
num = int(string1[start+1:end])
return link[num]
except:
tp,val,tb = sys.exc_info()
if _VERBOSE: print "Got exception in deTupleize: ", val
return None
def wrapAndCompress(self, stringDoc):
import bz2
return xmlrpclib.Binary(bz2.compress(stringDoc))
def get_empty_introspection_document(self):
doc = getDOMImplementation().createDocument(None, "replacement", None)
return self.wrapAndCompress(doc.toxml())
def get_watch_document(self, item, identifier):
doc = getDOMImplementation().createDocument(None, "watch", None)
top_element = doc.documentElement
self.addAny(top_element, identifier, item, doc, 2)
return self.wrapAndCompress(doc.toxml())
def get_introspection_document(self, item, identifier):
doc = getDOMImplementation().createDocument(None, "replacement", None)
top_element = doc.documentElement
self.addAny(top_element, identifier, item, doc, 2)
return self.wrapAndCompress(doc.toxml())
def get_exception_document(self, name, tp, val, tb):
stack = traceback.format_exception(tp, val, tb)
wholeStack = ""
for line in stack:
wholeStack += line
doc = getDOMImplementation().createDocument(None, "watch", None)
top_element = doc.documentElement
item_node = doc.createElement("dict_nv_element")
item_node.setAttribute('value', wholeStack)
item_node.setAttribute('name', str(name))
top_element.appendChild(item_node)
cantIntro = [types.FunctionType,
types.LambdaType,
types.UnicodeType,
types.StringType,
types.NoneType,
types.IntType,
types.LongType,
types.FloatType,
types.BooleanType]
def addAny(self, top_element, name, item, doc, ply):
tp = type(item)
if tp in DebuggerHarness.cantIntro or ply < 1:
self.addNode(top_element,name, item, doc)
elif tp is types.TupleType or tp is types.ListType:
self.addTupleOrList(top_element, name, item, doc, ply - 1)
elif tp is types.DictType or tp is types.DictProxyType:
self.addDict(top_element, name, item, doc, ply -1)
elif inspect.ismodule(item):
self.addModule(top_element, name, item, doc, ply -1)
elif inspect.isclass(item) or tp is types.InstanceType:
self.addClass(top_element, name, item, doc, ply -1)
elif hasattr(item, '__dict__'):
self.addDictAttr(top_element, name, item, doc, ply -1)
else:
self.addNode(top_element,name, item, doc)
def canIntrospect(self, item):
tp = type(item)
if tp in DebuggerHarness.cantIntro:
return False
elif tp is types.TupleType or tp is types.ListType:
return len(item) > 0
elif tp is types.DictType or tp is types.DictProxyType:
return len(item) > 0
elif inspect.ismodule(item):
return True
elif inspect.isclass(item) or tp is types.InstanceType:
if hasattr(item, '__dict__'):
return True
elif hasattr(item, '__name__'):
return True
elif hasattr(item, '__module__'):
return True
elif hasattr(item, '__doc__'):
return True
else:
return False
elif hasattr(item, '__dict__'):
return len(item.__dict__) > 0
else:
return False
def addNode(self, parent_node, name, item, document):
item_node = document.createElement("dict_nv_element")
item_node.setAttribute('value', self.saferepr(item))
item_node.setAttribute('name', str(name))
introVal = str(self.canIntrospect(item))
item_node.setAttribute('intro', str(introVal))
parent_node.appendChild(item_node)
def addTupleOrList(self, top_node, name, tupple, doc, ply):
tupleNode = doc.createElement('tuple')
tupleNode.setAttribute('name', str(name))
tupleNode.setAttribute('value', self.saferepr(tupple))
top_node.appendChild(tupleNode)
count = 0
for item in tupple:
self.addAny(tupleNode, name +'[' + str(count) + ']',item, doc, ply -1)
count += 1
def addDictAttr(self, root_node, name, thing, document, ply):
dict_node = document.createElement('thing')
dict_node.setAttribute('name', name)
dict_node.setAttribute('value', self.saferepr(thing))
root_node.appendChild(dict_node)
self.addDict(dict_node, '', thing.__dict__, document, ply) # Not decreminting ply
def addDict(self, root_node, name, dict, document, ply):
if name != '':
dict_node = document.createElement('dict')
dict_node.setAttribute('name', name)
dict_node.setAttribute('value', self.saferepr(dict))
root_node.appendChild(dict_node)
else:
dict_node = root_node
for key in dict.keys():
strkey = str(key)
try:
value = dict[key]
self.addAny(dict_node, strkey, value, document, ply-1)
except:
if _VERBOSE:
tp,val,tb=sys.exc_info()
print "Error recovering key: ", str(key), " from node ", str(name), " Val = ", str(val)
traceback.print_exception(tp, val, tb)
def addClass(self, root_node, name, class_item, document, ply):
item_node = document.createElement('class')
item_node.setAttribute('name', str(name))
item_node.setAttribute('value', self.saferepr(class_item))
root_node.appendChild(item_node)
try:
if hasattr(class_item, '__dict__'):
self.addDict(item_node, '', class_item.__dict__, document, ply -1)
except:
tp,val,tb=sys.exc_info()
if _VERBOSE:
traceback.print_exception(tp, val, tb)
try:
if hasattr(class_item, '__name__'):
self.addAny(item_node,'__name__',class_item.__name__, document, ply -1)
except:
tp,val,tb=sys.exc_info()
if _VERBOSE:
traceback.print_exception(tp, val, tb)
try:
if hasattr(class_item, '__module__'):
self.addAny(item_node, '__module__', class_item.__module__, document, ply -1)
except:
tp,val,tb=sys.exc_info()
if _VERBOSE:
traceback.print_exception(tp, val, tb)
try:
if hasattr(class_item, '__doc__'):
self.addAny(item_node, '__doc__', class_item.__doc__, document, ply -1)
except:
tp,val,tb=sys.exc_info()
if _VERBOSE:
traceback.print_exception(tp, val, tb)
try:
if hasattr(class_item, '__bases__'):
self.addAny(item_node, '__bases__', class_item.__bases__, document, ply -1)
except:
tp,val,tb=sys.exc_info()
if _VERBOSE:
traceback.print_exception(tp, val, tb)
def addModule(self, root_node, name, module_item, document, ply):
item_node = document.createElement('module')
item_node.setAttribute('name', str(name))
item_node.setAttribute('value', self.saferepr(module_item))
root_node.appendChild(item_node)
try:
if hasattr(module_item, '__file__'):
self.addAny(item_node, '__file__', module_item.__file__, document, ply -1)
except:
pass
try:
if hasattr(module_item, '__doc__'):
self.addAny(item_node,'__doc__', module_item.__doc__, document, ply -1)
except:
pass
def getFrameXML(self, base_frame):
self.frame_stack = []
frame = base_frame
while frame is not None:
if((frame.f_code.co_filename.count('DebuggerHarness.py') == 0) or _DEBUG_DEBUGGER):
self.frame_stack.append(frame)
frame = frame.f_back
self.frame_stack.reverse()
self.message_frame_dict = {}
doc = getDOMImplementation().createDocument(None, "stack", None)
top_element = doc.documentElement
numberFrames = len(self.frame_stack)
for index in range(numberFrames):
frame = self.frame_stack[index]
message = self._adb.frame2message(frame)
# We include globals and locals only for the last frame as an optimization for cases
# where there are a lot of frames.
self.addFrame(frame, top_element, doc, includeContent=(index == numberFrames - 1))
return doc.toxml()
def addFrame(self, frame, root_element, document, includeContent=False):
frameNode = document.createElement('frame')
root_element.appendChild(frameNode)
code = frame.f_code
filename = code.co_filename
frameNode.setAttribute('file', str(filename))
frameNode.setAttribute('line', str(frame.f_lineno))
message = self._adb.frame2message(frame)
frameNode.setAttribute('message', message)
self.message_frame_dict[message] = frame
if includeContent:
self.addDict(frameNode, "locals", frame.f_locals, document, 2)
self.addNode(frameNode, "globals", frame.f_globals, document)
def request_frame_document(self, message):
frame = self.message_frame_dict[message]
doc = getDOMImplementation().createDocument(None, "stack", None)
top_element = doc.documentElement
if frame:
self.addFrame(frame, top_element, doc, includeContent=True)
return xmlrpclib.Binary(bz2.compress(doc.toxml()))
def getRepr(self, varName, globals, locals):
try:
return repr(eval(varName, globals, locals))
except:
return 'Error: Could not recover value.'
def saferepr(self, thing):
try:
try:
return repr(thing)
except:
return str(type(thing))
except:
tp, val, tb = sys.exc_info()
#traceback.print_exception(tp, val, tb)
return repr(val)
# The debugger calls this method when it reaches a breakpoint.
def interaction(self, message, frame, info):
if _VERBOSE:
print 'hit debug side interaction'
self._adb._userBreak = False
self._currentFrame = frame
done = False
while not done:
try:
xml = self.getFrameXML(frame)
arg = xmlrpclib.Binary(bz2.compress(xml))
if _VERBOSE:
print '============== calling gui side interaction============'
self._guiServer.interaction(xmlrpclib.Binary(message), arg, info)
if _VERBOSE:
print 'after interaction'
done = True
except:
tp, val, tb = sys.exc_info()
if True or _VERBOSE:
print 'Error contacting GUI server!: '
try:
traceback.print_exception(tp, val, tb)
except:
print "Exception printing traceback",
tp, val, tb = sys.exc_info()
traceback.print_exception(tp, val, tb)
done = False
# Block while waiting to be called back from the GUI. Eventually, self._wait will
# be set false by a function on this side. Seems pretty lame--I'm surprised it works.
self.waitForRPC()
def waitForRPC(self):
self._wait = True
while self._wait :
try:
if _VERBOSE:
print "+++ in harness wait for rpc, before handle_request"
self._server.handle_request()
if _VERBOSE:
print "+++ in harness wait for rpc, after handle_request"
except:
if _VERBOSE:
tp, val, tb = sys.exc_info()
print "Got waitForRpc exception : ", repr(tp), ": ", val
#time.sleep(0.1)
def set_step(self):
self._adb.set_step()
self._wait = False
return ""
def set_continue(self):
self._adb.set_continue()
self._wait = False
return ""
def set_next(self):
self._adb.set_next(self._currentFrame)
self._wait = False
return ""
def set_return(self):
self._adb.set_return(self._currentFrame)
self._wait = False
return ""
if __name__ == '__main__':
try:
harness = DebuggerHarness()
harness.run()
harness.do_exit(kill=True)
except SystemExit:
print "Exiting..."
except:
tp, val, tb = sys.exc_info()
traceback.print_exception(tp, val, tb)