""" Frontend class that uses IPython0 to prefilter the inputs. Using the IPython0 mechanism gives us access to the magics. This is a transitory class, used here to do the transition between ipython0 and ipython1. This class is meant to be short-lived as more functionnality is abstracted out of ipython0 in reusable functions and is added on the interpreter. This class can be a used to guide this refactoring. """ __docformat__ = "restructuredtext en" #------------------------------------------------------------------------------- # Copyright (C) 2008 The IPython Development Team # # Distributed under the terms of the BSD License. The full license is in # the file COPYING, distributed as part of this software. #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # Imports #------------------------------------------------------------------------------- import sys import pydoc import os import re import __builtin__ from IPython.ipmaker import make_IPython from IPython.ipapi import IPApi from IPython.kernel.core.redirector_output_trap import RedirectorOutputTrap from IPython.kernel.core.sync_traceback_trap import SyncTracebackTrap from IPython.genutils import Term from linefrontendbase import LineFrontEndBase, common_prefix def mk_system_call(system_call_function, command): """ given a os.system replacement, and a leading string command, returns a function that will execute the command with the given argument string. """ def my_system_call(args): system_call_function("%s %s" % (command, args)) my_system_call.__doc__ = "Calls %s" % command return my_system_call #------------------------------------------------------------------------------- # Frontend class using ipython0 to do the prefiltering. #------------------------------------------------------------------------------- class PrefilterFrontEnd(LineFrontEndBase): """ Class that uses ipython0 to do prefilter the input, do the completion and the magics. The core trick is to use an ipython0 instance to prefilter the input, and share the namespace between the interpreter instance used to execute the statements and the ipython0 used for code completion... """ debug = False def __init__(self, ipython0=None, *args, **kwargs): """ Parameters: ----------- ipython0: an optional ipython0 instance to use for command prefiltering and completion. """ # This is a hack to avoid the IPython exception hook to trigger # on exceptions (https://bugs.launchpad.net/bugs/337105) # XXX: This is horrible: module-leve monkey patching -> side # effects. from IPython import iplib iplib.InteractiveShell.isthreaded = True LineFrontEndBase.__init__(self, *args, **kwargs) self.shell.output_trap = RedirectorOutputTrap( out_callback=self.write, err_callback=self.write, ) self.shell.traceback_trap = SyncTracebackTrap( formatters=self.shell.traceback_trap.formatters, ) # Start the ipython0 instance: self.save_output_hooks() if ipython0 is None: # Instanciate an IPython0 interpreter to be able to use the # prefiltering. # Suppress all key input, to avoid waiting def my_rawinput(x=None): return '\n' old_rawinput = __builtin__.raw_input __builtin__.raw_input = my_rawinput # XXX: argv=[] is a bit bold. ipython0 = make_IPython(argv=[], user_ns=self.shell.user_ns, user_global_ns=self.shell.user_global_ns) __builtin__.raw_input = old_rawinput self.ipython0 = ipython0 # Set the pager: self.ipython0.set_hook('show_in_pager', lambda s, string: self.write("\n" + string)) self.ipython0.write = self.write self._ip = _ip = IPApi(self.ipython0) # Make sure the raw system call doesn't get called, as we don't # have a stdin accessible. self._ip.system = self.system_call # XXX: Muck around with magics so that they work better # in our environment if not sys.platform.startswith('win'): self.ipython0.magic_ls = mk_system_call(self.system_call, 'ls -CF') # And now clean up the mess created by ipython0 self.release_output() if not 'banner' in kwargs and self.banner is None: self.banner = self.ipython0.BANNER # FIXME: __init__ and start should be two different steps self.start() #-------------------------------------------------------------------------- # FrontEndBase interface #-------------------------------------------------------------------------- def show_traceback(self): """ Use ipython0 to capture the last traceback and display it. """ # Don't do the capture; the except_hook has already done some # modifications to the IO streams, if we store them, we'll be # storing the wrong ones. #self.capture_output() self.ipython0.showtraceback(tb_offset=-1) self.release_output() def execute(self, python_string, raw_string=None): if self.debug: print 'Executing Python code:', repr(python_string) self.capture_output() LineFrontEndBase.execute(self, python_string, raw_string=raw_string) self.release_output() def save_output_hooks(self): """ Store all the output hooks we can think of, to be able to restore them. We need to do this early, as starting the ipython0 instance will screw ouput hooks. """ self.__old_cout_write = Term.cout.write self.__old_cerr_write = Term.cerr.write self.__old_stdout = sys.stdout self.__old_stderr= sys.stderr self.__old_help_output = pydoc.help.output self.__old_display_hook = sys.displayhook def capture_output(self): """ Capture all the output mechanisms we can think of. """ self.save_output_hooks() Term.cout.write = self.write Term.cerr.write = self.write sys.stdout = Term.cout sys.stderr = Term.cerr pydoc.help.output = self.shell.output_trap.out def release_output(self): """ Release all the different captures we have made. """ Term.cout.write = self.__old_cout_write Term.cerr.write = self.__old_cerr_write sys.stdout = self.__old_stdout sys.stderr = self.__old_stderr pydoc.help.output = self.__old_help_output sys.displayhook = self.__old_display_hook def complete(self, line): # FIXME: This should be factored out in the linefrontendbase # method. word = self._get_completion_text(line) print 'Completion', word completions = self.ipython0.complete(word) # FIXME: The proper sort should be done in the complete method. key = lambda x: x.replace('_', '') completions.sort(key=key) if completions: prefix = common_prefix(completions) line = line[:-len(word)] + prefix return line, completions #-------------------------------------------------------------------------- # LineFrontEndBase interface #-------------------------------------------------------------------------- def prefilter_input(self, input_string): """ Using IPython0 to prefilter the commands to turn them in executable statements that are valid Python strings. """ input_string = LineFrontEndBase.prefilter_input(self, input_string) filtered_lines = [] # The IPython0 prefilters sometime produce output. We need to # capture it. self.capture_output() self.last_result = dict(number=self.prompt_number) ## try: ## for line in input_string.split('\n'): ## filtered_lines.append( ## self.ipython0.prefilter(line, False).rstrip()) ## except: ## # XXX: probably not the right thing to do. ## self.ipython0.showsyntaxerror() ## self.after_execute() ## finally: ## self.release_output() try: try: for line in input_string.split('\n'): filtered_lines.append( self.ipython0.prefilter(line, False).rstrip()) except: # XXX: probably not the right thing to do. self.ipython0.showsyntaxerror() self.after_execute() finally: self.release_output() # Clean up the trailing whitespace, to avoid indentation errors filtered_string = '\n'.join(filtered_lines) return filtered_string #-------------------------------------------------------------------------- # PrefilterFrontEnd interface #-------------------------------------------------------------------------- def system_call(self, command_string): """ Allows for frontend to define their own system call, to be able capture output and redirect input. """ return os.system(command_string) def do_exit(self): """ Exit the shell, cleanup and save the history. """ self.ipython0.atexit_operations() def _get_completion_text(self, line): """ Returns the text to be completed by breaking the line at specified delimiters. """ # Break at: spaces, '=', all parentheses (except if balanced). # FIXME2: In the future, we need to make the implementation similar to # that in the 'pyreadline' module (modes/basemode.py) where we break at # each delimiter and try to complete the residual line, until we get a # successful list of completions. expression = '\s|=|,|:|\((?!.*\))|\[(?!.*\])|\{(?!.*\})' complete_sep = re.compile(expression) text = complete_sep.split(line)[-1] return text