# coding: utf-8
"""
Inputhook management for GUI event loop integration.
"""

#-----------------------------------------------------------------------------
#  Copyright (C) 2008-2011  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
#-----------------------------------------------------------------------------

try:
    import ctypes
except ImportError:
    ctypes = None
import os
import sys

from IPython.utils.warn import warn

#-----------------------------------------------------------------------------
# Constants
#-----------------------------------------------------------------------------

# Constants for identifying the GUI toolkits.
GUI_WX = 'wx'
GUI_QT = 'qt'
GUI_QT4 = 'qt4'
GUI_GTK = 'gtk'
GUI_TK = 'tk'
GUI_OSX = 'osx'
GUI_GLUT = 'glut'
GUI_PYGLET = 'pyglet'
GUI_GTK3 = 'gtk3'
GUI_NONE = 'none' # i.e. disable

#-----------------------------------------------------------------------------
# Utilities
#-----------------------------------------------------------------------------

def _stdin_ready_posix():
    """Return True if there's something to read on stdin (posix version)."""
    infds, outfds, erfds = select.select([sys.stdin],[],[],0)
    return bool(infds)

def _stdin_ready_nt():
    """Return True if there's something to read on stdin (nt version)."""
    return msvcrt.kbhit()

def _stdin_ready_other():
    """Return True, assuming there's something to read on stdin."""
    return True #


def _ignore_CTRL_C_posix():
    """Ignore CTRL+C (SIGINT)."""
    signal.signal(signal.SIGINT, signal.SIG_IGN)

def _allow_CTRL_C_posix():
    """Take CTRL+C into account (SIGINT)."""
    signal.signal(signal.SIGINT, signal.default_int_handler)

def _ignore_CTRL_C_other():
    """Ignore CTRL+C (not implemented)."""
    pass

def _allow_CTRL_C_other():
    """Take CTRL+C into account (not implemented)."""
    pass

if os.name == 'posix':
    import select
    import signal
    stdin_ready = _stdin_ready_posix
    ignore_CTRL_C = _ignore_CTRL_C_posix
    allow_CTRL_C = _allow_CTRL_C_posix
elif os.name == 'nt':
    import msvcrt
    stdin_ready = _stdin_ready_nt
    ignore_CTRL_C = _ignore_CTRL_C_other
    allow_CTRL_C = _allow_CTRL_C_other
else:
    stdin_ready = _stdin_ready_other
    ignore_CTRL_C = _ignore_CTRL_C_other
    allow_CTRL_C = _allow_CTRL_C_other


#-----------------------------------------------------------------------------
# Main InputHookManager class
#-----------------------------------------------------------------------------


class InputHookManager(object):
    """Manage PyOS_InputHook for different GUI toolkits.

    This class installs various hooks under ``PyOSInputHook`` to handle
    GUI event loop integration.
    """
    
    def __init__(self):
        if ctypes is None:
            warn("IPython GUI event loop requires ctypes, %gui will not be available\n")
            return
        self.PYFUNC = ctypes.PYFUNCTYPE(ctypes.c_int)
        self._apps = {}
        self._reset()

    def _reset(self):
        self._callback_pyfunctype = None
        self._callback = None
        self._installed = False
        self._current_gui = None

    def get_pyos_inputhook(self):
        """Return the current PyOS_InputHook as a ctypes.c_void_p."""
        return ctypes.c_void_p.in_dll(ctypes.pythonapi,"PyOS_InputHook")

    def get_pyos_inputhook_as_func(self):
        """Return the current PyOS_InputHook as a ctypes.PYFUNCYPE."""
        return self.PYFUNC.in_dll(ctypes.pythonapi,"PyOS_InputHook")

    def set_inputhook(self, callback):
        """Set PyOS_InputHook to callback and return the previous one."""
        # On platforms with 'readline' support, it's all too likely to
        # have a KeyboardInterrupt signal delivered *even before* an
        # initial ``try:`` clause in the callback can be executed, so
        # we need to disable CTRL+C in this situation.
        ignore_CTRL_C()
        self._callback = callback
        self._callback_pyfunctype = self.PYFUNC(callback)
        pyos_inputhook_ptr = self.get_pyos_inputhook()
        original = self.get_pyos_inputhook_as_func()
        pyos_inputhook_ptr.value = \
            ctypes.cast(self._callback_pyfunctype, ctypes.c_void_p).value
        self._installed = True
        return original

    def clear_inputhook(self, app=None):
        """Set PyOS_InputHook to NULL and return the previous one.

        Parameters
        ----------
        app : optional, ignored
          This parameter is allowed only so that clear_inputhook() can be
          called with a similar interface as all the ``enable_*`` methods.  But
          the actual value of the parameter is ignored.  This uniform interface
          makes it easier to have user-level entry points in the main IPython
          app like :meth:`enable_gui`."""
        pyos_inputhook_ptr = self.get_pyos_inputhook()
        original = self.get_pyos_inputhook_as_func()
        pyos_inputhook_ptr.value = ctypes.c_void_p(None).value
        allow_CTRL_C()
        self._reset()
        return original

    def clear_app_refs(self, gui=None):
        """Clear IPython's internal reference to an application instance.

        Whenever we create an app for a user on qt4 or wx, we hold a
        reference to the app.  This is needed because in some cases bad things
        can happen if a user doesn't hold a reference themselves.  This
        method is provided to clear the references we are holding.

        Parameters
        ----------
        gui : None or str
            If None, clear all app references.  If ('wx', 'qt4') clear
            the app for that toolkit.  References are not held for gtk or tk
            as those toolkits don't have the notion of an app.
        """
        if gui is None:
            self._apps = {}
        elif self._apps.has_key(gui):
            del self._apps[gui]

    def enable_wx(self, app=None):
        """Enable event loop integration with wxPython.

        Parameters
        ----------
        app : WX Application, optional.
            Running application to use.  If not given, we probe WX for an
            existing application object, and create a new one if none is found.

        Notes
        -----
        This methods sets the ``PyOS_InputHook`` for wxPython, which allows
        the wxPython to integrate with terminal based applications like
        IPython.

        If ``app`` is not given we probe for an existing one, and return it if
        found.  If no existing app is found, we create an :class:`wx.App` as
        follows::

            import wx
            app = wx.App(redirect=False, clearSigInt=False)
        """
        from IPython.lib.inputhookwx import inputhook_wx
        self.set_inputhook(inputhook_wx)
        self._current_gui = GUI_WX
        import wx
        if app is None:
            app = wx.GetApp()
        if app is None:
            app = wx.App(redirect=False, clearSigInt=False)
        app._in_event_loop = True
        self._apps[GUI_WX] = app
        return app

    def disable_wx(self):
        """Disable event loop integration with wxPython.

        This merely sets PyOS_InputHook to NULL.
        """
        if self._apps.has_key(GUI_WX):
            self._apps[GUI_WX]._in_event_loop = False
        self.clear_inputhook()

    def enable_qt4(self, app=None):
        """Enable event loop integration with PyQt4.
        
        Parameters
        ----------
        app : Qt Application, optional.
            Running application to use.  If not given, we probe Qt for an
            existing application object, and create a new one if none is found.

        Notes
        -----
        This methods sets the PyOS_InputHook for PyQt4, which allows
        the PyQt4 to integrate with terminal based applications like
        IPython.

        If ``app`` is not given we probe for an existing one, and return it if
        found.  If no existing app is found, we create an :class:`QApplication`
        as follows::

            from PyQt4 import QtCore
            app = QtGui.QApplication(sys.argv)
        """
        from IPython.lib.inputhookqt4 import create_inputhook_qt4
        app, inputhook_qt4 = create_inputhook_qt4(self, app)
        self.set_inputhook(inputhook_qt4)

        self._current_gui = GUI_QT4
        app._in_event_loop = True
        self._apps[GUI_QT4] = app
        return app

    def disable_qt4(self):
        """Disable event loop integration with PyQt4.

        This merely sets PyOS_InputHook to NULL.
        """
        if self._apps.has_key(GUI_QT4):
            self._apps[GUI_QT4]._in_event_loop = False
        self.clear_inputhook()

    def enable_gtk(self, app=None):
        """Enable event loop integration with PyGTK.

        Parameters
        ----------
        app : ignored
           Ignored, it's only a placeholder to keep the call signature of all
           gui activation methods consistent, which simplifies the logic of
           supporting magics.

        Notes
        -----
        This methods sets the PyOS_InputHook for PyGTK, which allows
        the PyGTK to integrate with terminal based applications like
        IPython.
        """
        import gtk
        try:
            gtk.set_interactive(True)
            self._current_gui = GUI_GTK
        except AttributeError:
            # For older versions of gtk, use our own ctypes version
            from IPython.lib.inputhookgtk import inputhook_gtk
            self.set_inputhook(inputhook_gtk)
            self._current_gui = GUI_GTK

    def disable_gtk(self):
        """Disable event loop integration with PyGTK.
        
        This merely sets PyOS_InputHook to NULL.
        """
        self.clear_inputhook()

    def enable_tk(self, app=None):
        """Enable event loop integration with Tk.

        Parameters
        ----------
        app : toplevel :class:`Tkinter.Tk` widget, optional.
            Running toplevel widget to use.  If not given, we probe Tk for an
            existing one, and create a new one if none is found.

        Notes
        -----
        If you have already created a :class:`Tkinter.Tk` object, the only
        thing done by this method is to register with the
        :class:`InputHookManager`, since creating that object automatically
        sets ``PyOS_InputHook``.
        """
        self._current_gui = GUI_TK
        if app is None:
            import Tkinter
            app = Tkinter.Tk()
            app.withdraw()
            self._apps[GUI_TK] = app
            return app

    def disable_tk(self):
        """Disable event loop integration with Tkinter.
        
        This merely sets PyOS_InputHook to NULL.
        """
        self.clear_inputhook()


    def enable_glut(self, app=None):
        """ Enable event loop integration with GLUT.

        Parameters
        ----------

        app : ignored
            Ignored, it's only a placeholder to keep the call signature of all
            gui activation methods consistent, which simplifies the logic of
            supporting magics.

        Notes
        -----

        This methods sets the PyOS_InputHook for GLUT, which allows the GLUT to
        integrate with terminal based applications like IPython. Due to GLUT
        limitations, it is currently not possible to start the event loop
        without first creating a window. You should thus not create another
        window but use instead the created one. See 'gui-glut.py' in the
        docs/examples/lib directory.
        
        The default screen mode is set to:
        glut.GLUT_DOUBLE | glut.GLUT_RGBA | glut.GLUT_DEPTH
        """

        import OpenGL.GLUT as glut
        from IPython.lib.inputhookglut import glut_display_mode, \
                                              glut_close, glut_display, \
                                              glut_idle, inputhook_glut

        if not self._apps.has_key( GUI_GLUT ):
            glut.glutInit( sys.argv )
            glut.glutInitDisplayMode( glut_display_mode )
            # This is specific to freeglut
            if bool(glut.glutSetOption):
                glut.glutSetOption( glut.GLUT_ACTION_ON_WINDOW_CLOSE,
                                    glut.GLUT_ACTION_GLUTMAINLOOP_RETURNS )
            glut.glutCreateWindow( sys.argv[0] )
            glut.glutReshapeWindow( 1, 1 )
            glut.glutHideWindow( )
            glut.glutWMCloseFunc( glut_close )
            glut.glutDisplayFunc( glut_display )
            glut.glutIdleFunc( glut_idle )
        else:
            glut.glutWMCloseFunc( glut_close )
            glut.glutDisplayFunc( glut_display )
            glut.glutIdleFunc( glut_idle)
        self.set_inputhook( inputhook_glut )
        self._current_gui = GUI_GLUT
        self._apps[GUI_GLUT] = True


    def disable_glut(self):
        """Disable event loop integration with glut.
        
        This sets PyOS_InputHook to NULL and set the display function to a
        dummy one and set the timer to a dummy timer that will be triggered
        very far in the future.
        """
        import OpenGL.GLUT as glut
        from glut_support import glutMainLoopEvent

        glut.glutHideWindow() # This is an event to be processed below
        glutMainLoopEvent()
        self.clear_inputhook()

    def enable_pyglet(self, app=None):
        """Enable event loop integration with pyglet.

        Parameters
        ----------
        app : ignored
           Ignored, it's only a placeholder to keep the call signature of all
           gui activation methods consistent, which simplifies the logic of
           supporting magics.

        Notes
        -----
        This methods sets the ``PyOS_InputHook`` for pyglet, which allows
        pyglet to integrate with terminal based applications like
        IPython.

        """
        import pyglet
        from IPython.lib.inputhookpyglet import inputhook_pyglet
        self.set_inputhook(inputhook_pyglet)
        self._current_gui = GUI_PYGLET
        return app

    def disable_pyglet(self):
        """Disable event loop integration with pyglet.

        This merely sets PyOS_InputHook to NULL.
        """
        self.clear_inputhook()

    def enable_gtk3(self, app=None):
        """Enable event loop integration with Gtk3 (gir bindings).

        Parameters
        ----------
        app : ignored
           Ignored, it's only a placeholder to keep the call signature of all
           gui activation methods consistent, which simplifies the logic of
           supporting magics.

        Notes
        -----
        This methods sets the PyOS_InputHook for Gtk3, which allows
        the Gtk3 to integrate with terminal based applications like
        IPython.
        """
        from IPython.lib.inputhookgtk3 import inputhook_gtk3
        self.set_inputhook(inputhook_gtk3)
        self._current_gui = GUI_GTK

    def disable_gtk3(self):
        """Disable event loop integration with PyGTK.

        This merely sets PyOS_InputHook to NULL.
        """
        self.clear_inputhook()

    def current_gui(self):
        """Return a string indicating the currently active GUI or None."""
        return self._current_gui

inputhook_manager = InputHookManager()

enable_wx = inputhook_manager.enable_wx
disable_wx = inputhook_manager.disable_wx
enable_qt4 = inputhook_manager.enable_qt4
disable_qt4 = inputhook_manager.disable_qt4
enable_gtk = inputhook_manager.enable_gtk
disable_gtk = inputhook_manager.disable_gtk
enable_tk = inputhook_manager.enable_tk
disable_tk = inputhook_manager.disable_tk
enable_glut = inputhook_manager.enable_glut
disable_glut = inputhook_manager.disable_glut
enable_pyglet = inputhook_manager.enable_pyglet
disable_pyglet = inputhook_manager.disable_pyglet
enable_gtk3 = inputhook_manager.enable_gtk3
disable_gtk3 = inputhook_manager.disable_gtk3
clear_inputhook = inputhook_manager.clear_inputhook
set_inputhook = inputhook_manager.set_inputhook
current_gui = inputhook_manager.current_gui
clear_app_refs = inputhook_manager.clear_app_refs


# Convenience function to switch amongst them
def enable_gui(gui=None, app=None):
    """Switch amongst GUI input hooks by name.

    This is just a utility wrapper around the methods of the InputHookManager
    object.

    Parameters
    ----------
    gui : optional, string or None
      If None (or 'none'), clears input hook, otherwise it must be one
      of the recognized GUI names (see ``GUI_*`` constants in module).

    app : optional, existing application object.
      For toolkits that have the concept of a global app, you can supply an
      existing one.  If not given, the toolkit will be probed for one, and if
      none is found, a new one will be created.  Note that GTK does not have
      this concept, and passing an app if `gui`=="GTK" will raise an error.

    Returns
    -------
    The output of the underlying gui switch routine, typically the actual
    PyOS_InputHook wrapper object or the GUI toolkit app created, if there was
    one.
    """
    guis = {None: clear_inputhook,
            GUI_NONE: clear_inputhook,
            GUI_OSX: lambda app=False: None,
            GUI_TK: enable_tk,
            GUI_GTK: enable_gtk,
            GUI_WX: enable_wx,
            GUI_QT: enable_qt4, # qt3 not supported
            GUI_QT4: enable_qt4,
            GUI_GLUT: enable_glut,
            GUI_PYGLET: enable_pyglet,
            GUI_GTK3: enable_gtk3,
            }
    try:
        gui_hook = guis[gui]
    except KeyError:
        e = "Invalid GUI request %r, valid ones are:%s" % (gui, guis.keys())
        raise ValueError(e)
    return gui_hook(app)