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/*
    This file is part of the KDE games library
    Copyright (C) 2001 Martin Heni ([email protected])
    Copyright (C) 2001 Andreas Beckermann ([email protected])

    This library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Library General Public
    License version 2 as published by the Free Software Foundation.

    This library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    Library General Public License for more details.

    You should have received a copy of the GNU Library General Public License
    along with this library; see the file COPYING.LIB.  If not, write to
    the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
    Boston, MA 02110-1301, USA.
*/
/*
    $Id$
*/
#ifndef __KGAMEIO_H__
#define __KGAMEIO_H__

#include <tqstring.h>
#include <tqobject.h>
#include <kdemacros.h>
class KPlayer;
class KGame;
class KProcess;

/**
 *  \short Base class for IO devices for games
 *
 *  This is the master class for
 *  creating IO game devices. You cannot use it directly.
 *  Either take one of the classes derived from it or
 *  you have to create your own IO class derived from it (more probably).
 *
 *  The idea behind this class is to provide a common interface
 *  for input devices into your game. By programming a KGameIO
 *  device you need not distinguish the actual IO in the game
 *  anymore. All work is done by the IO's. This allows very
 *  easy reuse in other games as well.
 *  A further advantage of using the IO's is that you can exchange
 *  the control of a player at runtime. E.g. you switch a player
 *  to be controlled by the computer or vice versa.
 *
 *  To achieve this you have to make all of your player inputs through a
 *  KGameIO. You will usually call KGameIO::sendInput to do so. 
 *
 *  @author Martin Heni <[email protected]>
 */
class KDE_EXPORT KGameIO : public TQObject
{
  Q_OBJECT
  TQ_OBJECT

public:
    /**
     * Constructs a KGameIO object
     */
   KGameIO();
   KGameIO(KPlayer*);
   virtual ~KGameIO();

    /**
     * Gives debug output of the game status
     */
   void Debug();

   /**
    * Identifies the KGameIO via the rtti function
    */
   enum IOMode {GenericIO=1,KeyIO=2,MouseIO=4,ProcessIO=8,ComputerIO=16};
   /**
    * Run time idendification. Predefined values are from IOMode
    * You MUST overwrite this in derived classes!
    *
    * @return rtti value
    */
   virtual int rtti() const = 0;  // Computer, network, local, ...
   
   /**
    * This function returns the player who owns this IO
    *
    * @return the player this IO device is plugged into
    */
   KPlayer *player() const {return mPlayer;}

   /**
    * Equivalent to player()->game()
    * @return the @ref KGame object of this player
    **/
   KGame* game() const;

   /**
    * Sets the player to which this IO belongs to. This
    * is done automatically when adding a device to a 
    * player
    *
    * @param p the player
    */
   void setPlayer(KPlayer *p) {mPlayer=p;}

   /**
    * Init this device by setting the player and e.g. sending an
    * init message to the device. This initialisation message is
    * very useful for computer players as you can transmit the
    * game status to them and only update this status in the setTurn
    * commands.
    *
    * Called by @ref KPlayer::addGameIO only!
    */
   virtual void initIO(KPlayer *p);

    /**
     * Notifies the IO device that the player's setTurn had been called
     * Called by KPlayer
     *
     * This emits @ref signalPrepareTurn and sends the turn if the send
     * parameter is set to true.
     *
     * @param b turn is true/false
     */
    virtual void notifyTurn(bool b);

    /**
     * Send an input message using @ref KPlayer::forwardInput
     **/
    bool sendInput(TQDataStream& stream, bool transmit = true, TQ_UINT32 sender = 0);

signals:
    /**
     * Signal generated when @ref KPlayer::myTurn changes. This can either be
     * when you get the turn status or when you lose it.
     *
     * The datastream has to be filled with a move. If you set (or leave) the
     * send parameter to FALSE then nothing happens: the datastream will be
     * ignored. If you set it to TRUE @ref sendInput is used to
     * send the move.
     *
     * Often you want to ignore this signal (leave send=FALSE) and send the
     * message later. This is usually the case for a human player as he probably
     * doesn't react immediately. But you can still use this e.g. to notify the
     * player about the turn change. 
     *
     * Example:
     * \code
     *  void GameWindow::slotPrepareTurn(TQDataStream &stream,bool b,KGameIO *input,bool * )
     *  {
     *    KPlayer *player=input->player();
     *    if (!player->myTurn()) return ;
     *    if (!b) return ;        // only do something on setTurn(true)
     *    stream << 1 << 2 << 3;  // Some data for the process
     *  }
     * \endcode
     *
     * @param io the KGameIO object itself
     * @param stream the stream into which the move will be written
     * @param turn the argument of setTurn
     * @param send set this to true to send the generated move using @ref
     * sendInput
     **/
    void signalPrepareTurn(TQDataStream & stream, bool turn, KGameIO *io, bool * send);


private:
   KPlayer *mPlayer;
};

/**
 *  The KGameKeyIO class. It is used to process keyboard input
 *  from a widget and create moves for the player it belongs to.
 *  @author Martin Heni <[email protected]>
 */
class KDE_EXPORT KGameKeyIO : public KGameIO
{
  Q_OBJECT
  TQ_OBJECT

public:
    /**
     * Create a keyboard input devices. All keyboards
     * inputs of the given widgets are passed through a signal
     * handler signalKeyEvent and can be used to generate
     * a valid move for the player.
     * Note the widget you pass to the constructor must be
     * the main window of your application, e.g. view->parentWidget()
     * as QT does not forward your keyevents otherwise. This means
     * that this might be a different widget comapred to the one you
     * use for mouse inputs!
     * Example:
     * \code
     * KGameKeyIO *input;
     *  input=new KGameKeyIO(myWidget);
     *  connect(input,TQT_SIGNAL(signalKeyEvent(KGameIO *,TQDataStream &,TQKeyEvent *,bool *)),
     *          this,TQT_SLOT(slotKeyInput(KGameIO *,TQDataStream &,TQKeyEvent *,bool *)));
     * \endcode
     *
     * @param tqparent The parents widget whose keyboard events * should be grabbed
     */
    KGameKeyIO(TQWidget *tqparent);
    virtual ~KGameKeyIO();

    /**
     * The idendification of the IO
     *
     * @return KeyIO
     */
    virtual int rtti() const;

signals:
      /**
       * Signal handler for keyboard events. This function is called
       * on every keyboard event. If appropriate it can generate a
       * move for the player the device belongs to. If this is done
       * and the event is eaten eatevent needs to be set to true.
       * What move you generate (i.e. what you write to the stream)
       * is totally up to you as it will not be evaluated but forwared
       * to the player's/game's  input move function
       * Example:
       * \code
       * KPlayer *player=input->player(); // Get the player
       * TQ_INT32 key=e->key();
       * stream << key;
       * eatevent=true;
       * \endcode
       *
       * @param io the IO device we belong to
       * @param stream the stream where we write our move into
       * @param m The TQKeyEvent we can evaluate
       * @param eatevent set this to true if we processed the event
       */
      void signalKeyEvent(KGameIO *io,TQDataStream &stream,TQKeyEvent *m,bool *eatevent);

protected:
       /**
       * Internal method to process the events
       */
       bool eventFilter( TQObject *o, TQEvent *e );
};

/**
 *  The KGameMouseIO class. It is used to process mouse input
 *  from a widget and create moves for the player it belongs to.
 *  @author Martin Heni <[email protected]>
 */
class KDE_EXPORT KGameMouseIO : public KGameIO
{
  Q_OBJECT
  TQ_OBJECT
    
public:
    /**
     * Creates a mouse IO device. It captures all mouse
     * event of the given widget and forwards them to the
     * signal handler signalMouseEvent.
     * Example:
     * \code
     * KGameMouseIO *input;
     * input=new KGameMouseIO(mView);
     * connect(input,TQT_SIGNAL(signalMouseEvent(KGameIO *,TQDataStream &,TQMouseEvent *,bool *)),
     *        this,TQT_SLOT(slotMouseInput(KGameIO *,TQDataStream &,TQMouseEvent *,bool *)));
     * \endcode
     *
     * @param tqparent The widget whose events should be captured
     * @param trackmouse enables mouse tracking (gives mouse move events)
     */
    KGameMouseIO(TQWidget *tqparent,bool trackmouse=false);
    virtual ~KGameMouseIO();
    
    /**
     * Manually activate or deactivate mouse tracking
     *
     * @param b true = tracking on
     */
    void setMouseTracking(bool b);
    /**
     * The idendification of the IO
     *
     * @return MouseIO
     */
    virtual int rtti() const; 

signals:
      /**
       * Signal handler for mouse events. This function is called
       * on every mouse event. If appropriate it can generate a
       * move for the player the device belongs to. If this is done
       * and the event is eaten eatevent needs to be set to true.
       * @see signalKeyEvent
       * Example:
       * \code
       * KPlayer *player=input->player(); // Get the player
       * TQ_INT32 button=e->button();
       * stream << button;
       * eatevent=true;
       * \endcode
       *
       * @param io the IO device we belong to
       * @param stream the stream where we write our move into
       * @param m The TQMouseEvent we can evaluate
       * @param eatevent set this to true if we processed the event
       */
      void signalMouseEvent(KGameIO *io,TQDataStream &stream,TQMouseEvent *m,bool *eatevent);

protected:
      /**
      * Internal event filter
      */
      bool eventFilter( TQObject *o, TQEvent *e );

};


/**
 *  The KGameProcessIO class. It is used to create a computer player
 *  via a separate process and communicate transparetly with it.
 *  Its counterpart is the @ref KGameProcess class which needs
 *  to be used by the computer player. See its documentation
 *  for the definition of the computer player.
 *  @author Martin Heni <[email protected]>
 */
class KDE_EXPORT KGameProcessIO : public KGameIO
{
  Q_OBJECT
  TQ_OBJECT
    
public:
    /** 
     * Creates a computer player via a separate process. The process
     * name is given as fully qualified filename. 
     * Example:
     * \code
     * KGameProcessIO *input;
     *   input=new KGameProcessIO(executable_file);
     *  connect(input,TQT_SIGNAL(signalPrepareTurn(TQDataStream &,bool,KGameIO *,bool *)),
     *          this,TQT_SLOT(slotPrepareTurn(TQDataStream &,bool,KGameIO *,bool *)));
     *  connect(input,TQT_SIGNAL(signalProcessQuery(TQDataStream &,KGameProcessIO *)),
     *          this,TQT_SLOT(slotProcessQuery(TQDataStream &,KGameProcessIO *)));
     * \endcode
     *
     * @param name the filename of the process to start
     */
    KGameProcessIO(const TQString& name);

    /**
     * Deletes the process input devices 
     */
    virtual ~KGameProcessIO();

    /**
     * The idendification of the IO
     *
     * @return ProcessIO
     */
    int rtti() const;
    
    /**
     * Send a message to the process. This is analogous to the sendMessage
     * commands of KGame. It will result in a signal of the computer player
     * on which you can react in the process player.
     *
     * @param stream  - the actual data
     * @param msgid - the id of the message
     * @param receiver - not used
     * @param sender - who send the message
     */
    void sendMessage(TQDataStream &stream,int msgid, TQ_UINT32 receiver, TQ_UINT32 sender);

    /**
     * Send a system message to the process. This is analogous to the sendMessage
     * commands of KGame. It will result in a signal of the computer player
     * on which you can react in the process player.
     *
     * @param stream  - the actual data
     * @param msgid - the id of the message
     * @param receiver - not used
     * @param sender - who send the message
     */
    void sendSystemMessage(TQDataStream &stream, int msgid, TQ_UINT32 receiver, TQ_UINT32 sender);

    /** 
     * Init this device by setting the player and e.g. sending an
     * init message to the device. Calling this function will emit
     * the IOAdded signal on which you can react and initilise the
     * computer player. 
     * This function is called automatically when adding the IO to
     * a player.
     */
    void initIO(KPlayer *p);

    /**
     *  Notifies the IO device that the player's setTurn had been called
     *  Called by KPlayer. You can react on the @ref signalPrepareTurn to
     *  prepare a message for the process, i.e. either update it on
     * the changes made to the game since the last turn or the initIO
     * has been called or transmit your gamestatus now.
     *
     *  @param turn is true/false
     */
    virtual void notifyTurn(bool turn);

  protected:
    /**
     * Internal ~ombined function for all message handling 
     **/
    void sendAllMessages(TQDataStream &stream,int msgid, TQ_UINT32 receiver, TQ_UINT32 sender, bool usermsg);

  protected slots:
  /**
  * Internal message handler to receive data from the process
  */
    void receivedMessage(const TQByteArray& receiveBuffer);

  
signals:
  /**
   * A computer query message is received. This is a 'dummy'
   * message sent by the process if it needs to communicate
   * with us. It is not forwarded over the network.
   * Reacting to this message allows you to 'answer' questions
   * of the process, e.g. sending addition data which the process
   * needs to calculate a move.
   *
   * Example:
   * \code
   *  void GameWindow::slotProcessQuery(TQDataStream &stream,KGameProcessIO *reply)
   *  {
   *    int no;
   *    stream >> no;  // We assume the process sends us an integer question numner
   *    if (no==1)     // but YOU have to do this in the process player
   *    {
   *      TQByteArray buffer;
   *      TQDataStream out(buffer,IO_WriteOnly);
   *      reply->sendSystemMessage(out,4242,0,0);  // lets reply something...
   *    }
   *  }
   * \endcode
   */
  void signalProcessQuery(TQDataStream &stream,KGameProcessIO *me);

  /**
  * Signal generated when the computer player is added. 
  * You can use this to communicated with the process and
  * e.g. send initialisation information to the process.
  *
  * @param game the KGameIO object itself
  * @param stream the stream into which the move will be written
  * @param p the player itself
  * @param send set this to false if no move should be generated
  */
  void signalIOAdded(KGameIO *game,TQDataStream &stream,KPlayer *p,bool *send);


protected:

private:
  class KGameProcessIOPrivate;
  KGameProcessIOPrivate* d;
};

/**
 *  \brief KGameIO variant for real-time games
 *
 *  The KGameComputerIO class. It is used to create a LOCAL computer player
 *  and communicate transparently with it. 
 *  Question: Is this needed or is it overwritten anyway for a real game?
 *
 *  You most probably don't want to use this if you want to design a turn based
 *  game/player. You'll rather use @ref KGameIO directly, i.e. subclass it
 *  yourself. You just need to use @ref KGameIO::signalPrepareTurn and/or @ref
 *  KGameIO::notifyTurn there.
 *
 *  This is rather meant to be of use in real time games.
 *
 *  @author  <[email protected]>
 */
class KDE_EXPORT KGameComputerIO : public KGameIO
{
  Q_OBJECT
  TQ_OBJECT
    
public:
    /** 
     * Creates a LOCAL computer player 
     *
     */
    KGameComputerIO();
    KGameComputerIO(KPlayer* player);
    ~KGameComputerIO();

    int rtti() const;

    /**
     * The number of advance calls until the player (or rather: the IO)
     * does something (default: 1). 
     **/
    void setReactionPeriod(int advanceCalls);
    int reactionPeriod() const;

    /**
     * Start a TQTimer which calls advance every @p ms milli seconds.
     **/
    void setAdvancePeriod(int ms);

    void stopAdvancePeriod();

    /**
     * Ignore calls number of advance calls. if calls is -1 then all 
     * following advance calls are ignored until unpause is called.
     *
     * This simply prevents the internal advance counter to be increased.
     *
     * You may want to use this to emulate a "thinking" computer player. Note
     * that this means if you increase the advance period (see 
     * setAdvancePeriod), i.e. if you change the speed of your game, your
     * computer player thinks "faster".
     * @param calls Number of advance calls to be ignored
     **/
    void pause(int calls = -1);

    /**
     * Equivalent to pause(0). Immediately continue to increase the internal
     * advance counter.
     **/
    void unpause();
    
public slots:
    /**
     * Works kind of similar to TQCanvas::advance. Increase the internal
     * advance counter. If @p reactionPeriod is reached the counter is set back to
     * 0 and @ref signalReaction is emitted. This is when the player is meant 
     * to do something (move its units or so).
     *
     * This is very useful if you use TQCanvas as you can use this in your
     * TQCanvas::advance call. The advantage is that if you change the speed
     * of the game (i.e. change TQCanvas::setAdvancePeriod) the computer
     * player gets slower as well.
     *
     * If you don't use TQCanvas you can use setAdvancePeriod to get
     * the same result. Alternatively you can just use a TQTimer.
     * 
     **/
    virtual void advance();
  
signals:
    /**
     * This signal is emitted when your computer player is meant to do
     * something, or better is meant to be allowed to do something.
     **/
    void signalReaction();

protected:
    /**
     * Default implementation simply emits signalReaction
     **/
    virtual void reaction();

private:
    void init();
 
private:
    class KGameComputerIOPrivate;
    KGameComputerIOPrivate* d;
};


#endif