tdegames/libtdegames/kgame/kgameio.cpp

/*
    This file is part of the TDE games library
    Copyright (C) 2001 Martin Heni (martin@heni-online.de)
    Copyright (C) 2001 Andreas Beckermann (b_mann@gmx.de)

    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.
*/
/*
    $Id$
*/

#include "kgameio.h"
#include "kgameio.moc"
#include "kgame.h"
#include "kplayer.h"
#include "kgamemessage.h"
#include "kmessageio.h"

#include <kdebug.h>

#include <tqwidget.h>
#include <tqbuffer.h>
#include <tqtimer.h>

#include <stdlib.h>

// ----------------------- Generic IO -------------------------
KGameIO::KGameIO() : TQObject(0,0)
{
  kdDebug(11001) << k_funcinfo << ": this=" << this << ", sizeof(this)" << sizeof(KGameIO) << endl;
  mPlayer = 0;
}

KGameIO::KGameIO(KPlayer* player) : TQObject(0,0)
{
  kdDebug(11001) << k_funcinfo << ": this=" << this << ", sizeof(this)" << sizeof(KGameIO) << endl;
  mPlayer = 0;
  if (player)
  {
    player->addGameIO(this);
  }
}

KGameIO::~KGameIO()
{
  kdDebug(11001) << k_funcinfo << ": this=" << this << endl;
  // unregister ourselves
  if (player())
  {
    player()->removeGameIO(this, false);
  }
}

void KGameIO::initIO(KPlayer *p)
{
  setPlayer(p);
}

void KGameIO::notifyTurn(bool b)
{
  if (!player())
  {
    kdWarning(11001) << k_funcinfo << ": player() is NULL" << endl;
    return;
  }
  bool sendit=false;
  TQByteArray buffer;
  TQDataStream stream(buffer, IO_WriteOnly);
  emit signalPrepareTurn(stream, b, this, &sendit);
  if (sendit)
  {
    TQDataStream ostream(buffer,IO_ReadOnly);
    TQ_UINT32 sender = player()->id();  // force correct sender
    kdDebug(11001) << "Prepare turn sendInput" << endl;
    sendInput(ostream, true, sender);
  }
}

KGame* KGameIO::game() const
{
  if (!player())
  {
    return 0;
  }
  return player()->game();
}

bool KGameIO::sendInput(TQDataStream& s, bool transmit, TQ_UINT32 sender)
{
  if (!player())
  {
    return false;
  }
  return player()->forwardInput(s, transmit, sender);
}

void KGameIO::Debug()
{
  kdDebug(11001) << "------------------- KGAMEINPUT --------------------" << endl;
  kdDebug(11001) << "this:    " << this << endl;
  kdDebug(11001) << "rtti :   " << rtti() << endl;
  kdDebug(11001) << "Player:  " << player() << endl;
  kdDebug(11001) << "---------------------------------------------------" << endl;
}


// ----------------------- Key IO ---------------------------
KGameKeyIO::KGameKeyIO(TQWidget *parent) 
   : KGameIO()
{
  if (parent)
  {
    kdDebug(11001) << "Key Event filter installed" << endl;
    parent->installEventFilter(this);
  }
}

KGameKeyIO::~KGameKeyIO()
{
  if (parent())
  {
    parent()->removeEventFilter(this);
  }
}

int KGameKeyIO::rtti() const { return KeyIO; }

bool KGameKeyIO::eventFilter( TQObject *o, TQEvent *e )
{
  if (!player())
  {
    return false;
  }

  // key press/release
  if ( e->type() == TQEvent::KeyPress ||
       e->type() == TQEvent::KeyRelease )
  {
     TQKeyEvent *k = (TQKeyEvent*)e;
  //   kdDebug(11001) << "KGameKeyIO " << this << " key press/release " <<  k->key() << endl ;
     TQByteArray buffer;
     TQDataStream stream(buffer,IO_WriteOnly);
     bool eatevent=false;
     emit signalKeyEvent(this,stream,k,&eatevent);
     TQDataStream msg(buffer,IO_ReadOnly);

     if (eatevent && sendInput(msg))
     {
       return eatevent;
     }
     return false; // do not eat otherwise
  }
  return TQObject::eventFilter( o, e );    // standard event processing
}


// ----------------------- Mouse IO ---------------------------
KGameMouseIO::KGameMouseIO(TQWidget *parent,bool trackmouse) 
   : KGameIO()
{
  if (parent)
  {
    kdDebug(11001) << "Mouse Event filter installed tracking=" << trackmouse << endl;
    parent->installEventFilter(this);
    parent->setMouseTracking(trackmouse);
  }
}

KGameMouseIO::~KGameMouseIO()
{
  if (parent())
  {
    parent()->removeEventFilter(this);
  }
}

int KGameMouseIO::rtti() const
{
  return MouseIO;
}

void KGameMouseIO::setMouseTracking(bool b)
{
  if (parent())
  {
    ((TQWidget*)parent())->setMouseTracking(b);
  }
}

bool KGameMouseIO::eventFilter( TQObject *o, TQEvent *e )
{
  if (!player())
  {
    return false;
  }
//  kdDebug(11001) << "KGameMouseIO " << this  << endl ;

  // mouse action
  if ( e->type() == TQEvent::MouseButtonPress ||
       e->type() == TQEvent::MouseButtonRelease ||
       e->type() == TQEvent::MouseButtonDblClick ||
       e->type() == TQEvent::Wheel ||
       e->type() == TQEvent::MouseMove
       )
  {
     TQMouseEvent *k = (TQMouseEvent*)e;
     // kdDebug(11001) << "KGameMouseIO " << this  << endl ;
     TQByteArray buffer;
     TQDataStream stream(buffer,IO_WriteOnly);
     bool eatevent=false;
     emit signalMouseEvent(this,stream,k,&eatevent);
//     kdDebug(11001) << "################# eatevent=" << eatevent << endl;
     TQDataStream msg(buffer,IO_ReadOnly);
     if (eatevent && sendInput(msg))
     {
       return eatevent;
     }
     return false; // do not eat otherwise
  }
  return TQObject::eventFilter( o, e );    // standard event processing
}


// ----------------------- KGameProcesPrivate ---------------------------
class KGameProcessIO::KGameProcessIOPrivate
{
public:
  KGameProcessIOPrivate()
  {
    //mMessageServer = 0;
    //mMessageClient = 0;
    mProcessIO=0;
  }
  //KMessageServer *mMessageServer;
  //KMessageClient *mMessageClient;
  KMessageProcess *mProcessIO;
};

// ----------------------- Process IO ---------------------------
KGameProcessIO::KGameProcessIO(const TQString& name) 
   : KGameIO()
{
  kdDebug(11001) << k_funcinfo << ": this=" << this << ", sizeof(this)=" << sizeof(KGameProcessIO) << endl;
  d = new KGameProcessIOPrivate;

  //kdDebug(11001) << "================= KMEssageServer ==================== " << endl;
  //d->mMessageServer=new KMessageServer(0,this);
  //kdDebug(11001) << "================= KMEssageClient ==================== " << endl;
  //d->mMessageClient=new KMessageClient(this);
  kdDebug(11001) << "================= KMEssageProcessIO ==================== " << endl;
  d->mProcessIO=new KMessageProcess(this,name);
  kdDebug(11001) << "================= KMEssage Add client ==================== " << endl;
  //d->mMessageServer->addClient(d->mProcessIO);
  //kdDebug(11001) << "================= KMEssage SetSErver ==================== " << endl;
  //d->mMessageClient->setServer(d->mMessageServer);
  kdDebug(11001) << "================= KMEssage: Connect ==================== " << endl;
  //connect(d->mMessageClient, TQT_SIGNAL(broadcastReceived(const TQByteArray&, TQ_UINT32)),
  //        this, TQT_SLOT(clientMessage(const TQByteArray&, TQ_UINT32)));
  //connect(d->mMessageClient, TQT_SIGNAL(forwardReceived(const TQByteArray&, TQ_UINT32, const TQValueList <TQ_UINT32> &)),
  //        this, TQT_SLOT(clientMessage(const TQByteArray&, TQ_UINT32, const TQValueList <TQ_UINT32> &)));
  connect(d->mProcessIO, TQT_SIGNAL(received(const TQByteArray&)),
          this, TQT_SLOT(receivedMessage(const TQByteArray&)));
  //kdDebug(11001) << "Our client is id="<<d->mMessageClient->id() << endl;
}

KGameProcessIO::~KGameProcessIO()
{
  kdDebug(11001) << k_funcinfo << ": this=" << this << endl;
  kdDebug(11001) << "player="<<player() << endl;
  if (player())
  {
    player()->removeGameIO(this,false);
  }
  if (d->mProcessIO)
  {
    delete d->mProcessIO;
    d->mProcessIO=0;
  }
  delete d;
}

int KGameProcessIO::rtti() const
{
  return ProcessIO;
}

void KGameProcessIO::initIO(KPlayer *p)
{
  KGameIO::initIO(p);
  // Send 'hello' to process
  TQByteArray buffer;
  TQDataStream stream(buffer, IO_WriteOnly);
  TQ_INT16 id = p->userId();
  stream << id;

  bool sendit=true;
  if (p)
  {
    emit signalIOAdded(this,stream,p,&sendit);
    if (sendit )
    {
      TQ_UINT32 sender = p->id();
      kdDebug(11001) <<  "Sending IOAdded to process player !!!!!!!!!!!!!! " << endl;
      sendSystemMessage(stream, KGameMessage::IdIOAdded, 0, sender);
    }
  }
}

void KGameProcessIO::notifyTurn(bool b)
{
  if (!player())
  {
    kdWarning(11001) << k_funcinfo << ": player() is NULL" << endl;
    return;
  }
  bool sendit=true;
  TQByteArray buffer;
  TQDataStream stream(buffer,IO_WriteOnly);
  stream << (TQ_INT8)b;
  emit signalPrepareTurn(stream,b,this,&sendit);
  if (sendit)
  {
    TQ_UINT32 sender=player()->id();
    kdDebug(11001) <<  "Sending Turn to process player !!!!!!!!!!!!!! " << endl;
    sendSystemMessage(stream, KGameMessage::IdTurn, 0, sender);
  }
}

void KGameProcessIO::sendSystemMessage(TQDataStream &stream,int msgid, TQ_UINT32 receiver, TQ_UINT32 sender)
{
  sendAllMessages(stream, msgid, receiver, sender, false);
}

void KGameProcessIO::sendMessage(TQDataStream &stream,int msgid, TQ_UINT32 receiver, TQ_UINT32 sender)
{
  sendAllMessages(stream, msgid, receiver, sender, true);
}

void KGameProcessIO::sendAllMessages(TQDataStream &stream,int msgid, TQ_UINT32 receiver, TQ_UINT32 sender, bool usermsg)
{
  kdDebug(11001) << "==============>  KGameProcessIO::sendMessage (usermsg="<<usermsg<<")" << endl;
  // if (!player()) return ;
  //if (!player()->isActive()) return ;

  if (usermsg)
  {
    msgid+=KGameMessage::IdUser;
  }

  kdDebug(11001) << "=============* ProcessIO (" << msgid << "," << receiver << "," << sender << ") ===========" << endl;

  TQByteArray buffer;
  TQDataStream ostream(buffer,IO_WriteOnly);
  TQBuffer *device=(TQBuffer *)stream.device();
  TQByteArray data=device->buffer();;

  KGameMessage::createHeader(ostream,sender,receiver,msgid);
  // ostream.writeRawBytes(data.data()+device->at(),data.size()-device->at());
  ostream.writeRawBytes(data.data(),data.size());
  kdDebug(11001) << "   Adding user data from pos="<< device->at() <<" amount= " << data.size() << " byte " << endl;
  //if (d->mMessageClient) d->mMessageClient->sendBroadcast(buffer);
  if (d->mProcessIO)
  {
    d->mProcessIO->send(buffer);
  }
}

//void KGameProcessIO::clientMessage(const TQByteArray& receiveBuffer, TQ_UINT32 clientID, const TQValueList <TQ_UINT32> &recv)
void KGameProcessIO::receivedMessage(const TQByteArray& receiveBuffer)
{
  TQDataStream stream(receiveBuffer,IO_ReadOnly);
  int msgid;
  TQ_UINT32 sender;
  TQ_UINT32 receiver;
  KGameMessage::extractHeader(stream,sender,receiver,msgid);

  kdDebug(11001) << "************* Got process message sender =" << sender 
          << " receiver=" << receiver << "   msgid=" << msgid << endl;


  // Cut out the header part...to not confuse network code
  TQBuffer *buf=(TQBuffer *)stream.device();
  TQByteArray newbuffer;
  newbuffer.setRawData(buf->buffer().data()+buf->at(),buf->size()-buf->at());
  TQDataStream ostream(newbuffer,IO_ReadOnly);
  kdDebug(11001) << "Newbuffer size=" << newbuffer.size() << endl;



// This is a dummy message which allows us the process to talk with its owner
  if (msgid==KGameMessage::IdProcessQuery)
  {
    emit signalProcessQuery(ostream,this);
  }
  else if (player())
  {
    sender = player()->id();  // force correct sender
    if (msgid==KGameMessage::IdPlayerInput) 
    {
      sendInput(ostream,true,sender);
    }
    else
    {
      player()->forwardMessage(ostream,msgid,receiver,sender);
    }
  }
  else
  {
    kdDebug(11001) << k_funcinfo << ": Got message from process but no player defined!" << endl;
  }
  newbuffer.resetRawData(buf->buffer().data()+buf->at(),buf->size()-buf->at());
}


// ----------------------- Computer IO --------------------------
class KGameComputerIO::KGameComputerIOPrivate
{
//TODO: maybe these should be KGameProperties!!
public:
  KGameComputerIOPrivate()
  {
    mAdvanceCounter = 0;
    mReactionPeriod = 0;

    mPauseCounter = 0;

    mAdvanceTimer = 0;
  }
  int mAdvanceCounter;
  int mReactionPeriod;

  int mPauseCounter;

  TQTimer* mAdvanceTimer;
};

KGameComputerIO::KGameComputerIO() : KGameIO()
{
  init();
}

KGameComputerIO::KGameComputerIO(KPlayer* p) : KGameIO(p)
{
  init();
}

void KGameComputerIO::init()
{
  d = new KGameComputerIOPrivate;
}

KGameComputerIO::~KGameComputerIO()
{
  if (d->mAdvanceTimer)
  {
    delete d->mAdvanceTimer;
  }
  delete d;
}

int KGameComputerIO::rtti() const
{
  return ComputerIO;
}

void KGameComputerIO::setReactionPeriod(int calls)
{
 d->mReactionPeriod = calls;
}

int KGameComputerIO::reactionPeriod() const
{
  return d->mReactionPeriod;
}

void KGameComputerIO::setAdvancePeriod(int ms)
{
  stopAdvancePeriod();
  d->mAdvanceTimer = new TQTimer(this);
  connect(d->mAdvanceTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(advance()));
  d->mAdvanceTimer->start(ms);
}

void KGameComputerIO::stopAdvancePeriod()
{
  if (d->mAdvanceTimer)
  {
    d->mAdvanceTimer->stop();
    delete d->mAdvanceTimer;
  }
}

void KGameComputerIO::pause(int calls)
{
  d->mPauseCounter = calls;
}

void KGameComputerIO::unpause()
{
  pause(0);
}

void KGameComputerIO::advance()
{
  if (d->mPauseCounter > 0)
  {
    d->mPauseCounter--;
    return;
  }
  else if (d->mPauseCounter < 0)
  {
    return;
  }
  d->mAdvanceCounter++;
  if (d->mAdvanceCounter >= d->mReactionPeriod)
  {
    d->mAdvanceCounter = 0;
    reaction();
  }
}

void KGameComputerIO::reaction()
{
  emit signalReaction();
}