stk-code_catmod/src/modes/world.cpp

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// $Id$
//
// SuperTuxKart - a fun racing game with go-kart
// Copyright (C) 2006 SuperTuxKart-Team
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 3
// of the License, or (at your option) any later version.
//
// This program 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 General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#include "modes/world.hpp"
#include <assert.h>
#include <sstream>
#include <stdexcept>
#include <algorithm>
#include <ctime>
#include "audio/sound_manager.hpp"
#include "audio/sfx_manager.hpp"
#include "audio/sfx_base.hpp"
#include "challenges/unlock_manager.hpp"
#include "config/user_config.hpp"
#include "graphics/camera.hpp"
#include "states_screens/state_manager.hpp"
#include "states_screens/race_gui.hpp"
#include "io/file_manager.hpp"
#include "items/projectile_manager.hpp"
#include "karts/auto_kart.hpp"
#include "karts/controller/default_ai_controller.hpp"
#include "karts/controller/new_ai_controller.hpp"
#include "karts/controller/player_controller.hpp"
#include "karts/controller/end_controller.hpp"
#include "karts/kart_properties_manager.hpp"
#include "network/network_manager.hpp"
#include "network/race_state.hpp"
#include "physics/btKart.hpp"
#include "race/highscore_manager.hpp"
#include "race/history.hpp"
#include "race/race_manager.hpp"
#include "tracks/track.hpp"
#include "tracks/track_manager.hpp"
#include "utils/constants.hpp"
#include "utils/translation.hpp"
#include "utils/string_utils.hpp"
World* World::m_world = NULL;
/** The main world class is used to handle the track and the karts.
* The end of the race is detected in two phases: first the (abstract)
* function isRaceOver, which must be implemented by all game modes,
* must return true. In which case enterRaceOverState is called. At
* this time a winning (or losing) animation can be played. The WorldStatus
* class will in its enterRaceOverState switch to DELAY_FINISH_PHASE,
* but the remaining AI kart will keep on racing during that time.
* After a time period specified in stk_config.xml WorldStatus will
* switch to FINISH_PHASE and call terminateRace. Now the finishing status
* of all karts is set (i.e. in a normal race the arrival time for karts
* will be estimated), highscore is updated, and the race result gui
* is being displayed.
*/
//-----------------------------------------------------------------------------
/** Constructor. Note that in the constructor it is not possible to call any
* functions that use World::getWorld(), since this is only defined
* after the constructor. Those functions must be called in the init()
* function, which is called immediately after the constructor.
*/
World::World() : WorldStatus()
{
m_physics = NULL;
m_race_gui = NULL;
m_use_highscores = true;
m_track = NULL;
WorldStatus::setClockMode(CLOCK_CHRONO);
} // World
// ----------------------------------------------------------------------------
/** This function is called after the World constructor. In init() functions
* can be called that use World::getWorld(). The init function is
* called immediately after the constructor.
*/
void World::init()
{
race_state = new RaceState();
m_faster_music_active = false;
m_fastest_lap = 9999999.9f;
m_fastest_kart = 0;
m_eliminated_karts = 0;
m_eliminated_players = 0;
m_num_players = 0;
// Create the race gui before anything else is attached to the scene node
// (which happens when the track is loaded). This allows the race gui to
// do any rendering on texture.
m_race_gui = new RaceGUI();
// Grab the track file
try
{
m_track = track_manager->getTrack(race_manager->getTrackName());
}
catch(std::runtime_error)
{
std::ostringstream msg;
msg << "Track '" << race_manager->getTrackName() << "' not found.\n";
throw std::runtime_error(msg.str());
}
// Create the physics
m_physics = new Physics();
unsigned int num_karts = race_manager->getNumberOfKarts();
assert(num_karts > 0);
// Load the track models - this must be done before the karts so that the
// karts can be positioned properly on (and not in) the tracks.
m_track->loadTrackModel();
for(unsigned int i=0; i<num_karts; i++)
{
btTransform init_pos=m_track->getStartTransform(i);
const std::string& kart_ident = race_manager->getKartIdent(i);
int local_player_id = race_manager->getKartLocalPlayerId(i);
int global_player_id = race_manager->getKartGlobalPlayerId(i);
Kart* newkart = createKart(kart_ident, i, local_player_id,
global_player_id, init_pos);
m_karts.push_back(newkart);
newkart->setWorldKartId(m_karts.size()-1);
} // for i
resetAllKarts();
// Note: track reset must be called after all karts exist, since check
// objects need to allocate data structures depending on the number
// of karts.
m_track->reset();
m_track->startMusic();
if(!history->replayHistory()) history->initRecording();
network_manager->worldLoaded();
// erase messages left over
RaceGUI* m = World::getWorld()->getRaceGUI();
if (m) m->clearAllMessages();
} // init
//-----------------------------------------------------------------------------
/** Creates a kart, having a certain position, starting location, and local
* and global player id (if applicable).
* \param kart_ident Identifier of the kart to create.
* \param index Index of the kart.
* \param local_player_id If the kart is a player kart this is the index of
* this player on the local machine.
* \param global_player_id If the kart is a player kart this is the index of
* this player globally (i.e. including network players).
* \param init_pos The start transform (xyz and hpr).
*/
Kart *World::createKart(const std::string &kart_ident, int index,
int local_player_id, int global_player_id,
const btTransform &init_pos)
{
int position = index+1;
Kart *new_kart = new Kart(kart_ident, position, init_pos);
Controller *controller = NULL;
switch(race_manager->getKartType(index))
{
case RaceManager::KT_PLAYER:
std::cout << "===== World : creating player controller for kart #" << index << " which has local_player_id " << local_player_id << " ===========\n";
controller = new PlayerController(new_kart,
StateManager::get()->getActivePlayer(local_player_id),
local_player_id);
m_num_players ++;
break;
case RaceManager::KT_NETWORK_PLAYER:
break; // Avoid compiler warning about enum not handled.
//controller = new NetworkController(kart_ident, position, init_pos,
// global_player_id);
//m_num_players++;
//break;
case RaceManager::KT_AI:
std::cout << "===== World : creating AI controller for #" << index << "===========\n";
controller = loadAIController(new_kart);
break;
case RaceManager::KT_GHOST:
break;
case RaceManager::KT_LEADER:
break;
}
new_kart->setController(controller);
return new_kart;
} // createKart
//-----------------------------------------------------------------------------
/** Creates an AI controller for the kart.
* \param kart The kart to be controlled by an AI.
*/
Controller* World::loadAIController(Kart *kart)
{
Controller *controller;
// const int NUM_ROBOTS = 1;
// For now: instead of random switching, use each
// robot in turns: switch(m_random.get(NUM_ROBOTS))
// static int turn=1;
// turn=1-turn;
// For now disable the new AI.
int turn=0;
switch(turn)
{
case 0:
controller = new DefaultAIController(kart);
break;
case 1:
controller = new NewAIController(kart);
break;
default:
std::cerr << "Warning: Unknown robot, using default." << std::endl;
controller = new DefaultAIController(kart);
break;
}
return controller;
} // loadAIController
//-----------------------------------------------------------------------------
World::~World()
{
delete m_race_gui;
delete race_state;
// In case that a race is aborted (e.g. track not found) m_track is 0.
if(m_track)
m_track->cleanup();
for ( unsigned int i = 0 ; i < m_karts.size() ; i++ )
delete m_karts[i];
m_karts.clear();
projectile_manager->cleanup();
// In case that the track is not found, m_physics is still undefined.
if(m_physics)
delete m_physics;
sound_manager -> stopMusic();
m_world = NULL;
} // ~World
//-----------------------------------------------------------------------------
/** Called when 'go' is being displayed for the first time. Here the brakes
* of the karts are released.
*/
void World::onGo()
{
// Reset the brakes now that the prestart
// phase is over (braking prevents the karts
// from sliding downhill)
for(unsigned int i=0; i<m_karts.size(); i++)
{
m_karts[i]->resetBrakes();
}
} // onGo
//-----------------------------------------------------------------------------
/** Called at the end of a race. Updates highscores, pauses the game, and
* informs the unlock manager about the finished race. This function must
* be called after all other stats were updated from the different game
* modes.
*/
void World::terminateRace()
{
// Update the estimated finishing time for all karts that haven't
// finished yet.
const unsigned int kart_amount = getNumKarts();
for(unsigned int i = 0; i < kart_amount ; i++)
{
if(!m_karts[i]->hasFinishedRace() && !m_karts[i]->isEliminated())
{
m_karts[i]->finishedRace(estimateFinishTimeForKart(m_karts[i]));
}
} // i<kart_amount
updateHighscores();
WorldStatus::pause();
unlock_manager->raceFinished();
RaceGUI* m = World::getWorld()->getRaceGUI();
if (m) m->clearAllMessages();
WorldStatus::terminateRace();
} // terminateRace
//-----------------------------------------------------------------------------
/** Waits till each kart is resting on the ground
*
* Does simulation steps still all karts reach the ground, i.e. are not
* moving anymore
*/
void World::resetAllKarts()
{
//Project karts onto track from above. This will lower each kart so
//that at least one of its wheel will be on the surface of the track
for ( KartList::iterator i=m_karts.begin(); i!=m_karts.end(); i++)
{
///start projection from top of kart
btVector3 up_offset(0, 0, 0.5f * ((*i)->getKartHeight()));
(*i)->getVehicle()->getRigidBody()->translate (up_offset);
bool kart_over_ground = m_physics->projectKartDownwards(*i);
if (!kart_over_ground)
{
fprintf(stderr, "ERROR: no valid starting position for kart %d on track %s.\n",
(int)(i-m_karts.begin()), m_track->getIdent().c_str());
exit(-1);
}
}
bool all_finished=false;
// kart->isInRest() is not fully correct, since it only takes the
// velocity in count, which might be close to zero when the kart
// is just hitting the floor, before being pushed up again by
// the suspension. So we just do a longer initial simulation,
// which should be long enough for all karts to be firmly on ground.
for(int i=0; i<60; i++) m_physics->update(1.f/60.f);
// Stil wait will all karts are in rest (and handle the case that a kart
// fell through the ground, which can happen if a kart falls for a long
// time, therefore having a high speed when hitting the ground.
while(!all_finished)
{
m_physics->update(1.f/60.f);
all_finished=true;
for ( KartList::iterator i=m_karts.begin(); i!=m_karts.end(); i++)
{
if(!(*i)->isInRest())
{
float hot;
Vec3 normal;
const Material *material;
// We can't use (*i)->getXYZ(), since this is only defined
// after update() was called. Instead we have to get the
// real position of the rigid body.
btTransform t;
(*i)->getBody()->getMotionState()->getWorldTransform(t);
// This test can not be done only once before the loop, since
// it can happen that the kart falls through the track later!
m_track->getTerrainInfo(t.getOrigin(), &hot, &normal, &material);
if(!material)
{
fprintf(stderr, "ERROR: no valid starting position for kart %d on track %s.\n",
(int)(i-m_karts.begin()), m_track->getIdent().c_str());
exit(-1);
}
all_finished=false;
break;
}
}
} // while
// Now store the current (i.e. in rest) suspension length for each kart,
// so that the karts can visualise the suspension.
for ( KartList::iterator i=m_karts.begin(); i!=m_karts.end(); i++)
(*i)->setSuspensionLength();
for(unsigned int i=0; i<m_karts.size(); i++)
if(m_karts[i]->getCamera())
m_karts[i]->getCamera()->setInitialTransform();
} // resetAllKarts
//-----------------------------------------------------------------------------
/** This is the main interface to update the world. This function calls
* update(), and checks for the end of the race. Note that race over
* handling can not necessarily be done in update(), since not all
* data structures might have been updated (e.g.LinearWorld must
* call World::update() first, to get updated kart positions. If race
* over would be handled in World::update, LinearWorld had no opportunity
* to update its data structures before the race is finished).
* \param dt Time step size.
*/
void World::updateWorld(float dt)
{
update(dt);
if( (!isFinishPhase()) && isRaceOver())
{
enterRaceOverState();
}
} // updateWorld
#define MEASURE_FPS 0
//-----------------------------------------------------------------------------
void World::update(float dt)
{
#if MEASURE_FPS
static float time = 0.0f;
time += dt;
if (time > 5.0f)
{
time -= 5.0f;
printf("%i\n",irr_driver->getVideoDriver()->getFPS());
}
#endif
if(history->replayHistory()) dt=history->getNextDelta();
WorldStatus::update(dt);
// Clear race state so that new information can be stored
race_state->clear();
if(network_manager->getMode()!=NetworkManager::NW_CLIENT &&
!history->dontDoPhysics())
{
m_physics->update(dt);
}
const int kart_amount = m_karts.size();
for (int i = 0 ; i < kart_amount; ++i)
{
// Update all karts that are not eliminated
if(!m_karts[i]->isEliminated()) m_karts[i]->update(dt) ;
}
// The order of updates is rather important: if track update would
// be called before kart update, then the check manager (called from
// track update) will be using the old kart position to determine
// e.g. if a kart has crossed a new line. But linear world (from
// which this is called in case of a race) will be using the new
// position of the karts to determine the driveline quad a kart
// is on. So if a kart just arrived at quad 0 (meaning the distance
// along the track goes from close-to-lap-length to close-to-zero),
// the order of karts will be incorrect, since this kart will not
// have started the next lap. While this will only last for one
// frame (since in the next frame the check manager will detect
// the new lap), it causes an unwanted display of icons in the
// icon display.
m_track->update(dt);
projectile_manager->update(dt);
} // update
// ----------------------------------------------------------------------------
HighscoreEntry* World::getHighscores() const
{
if(!m_use_highscores) return NULL;
const HighscoreEntry::HighscoreType type = "HST_" + getIdent();
HighscoreEntry* highscores =
highscore_manager->getHighscoreEntry(type,
getNumKarts(),
race_manager->getDifficulty(),
race_manager->getTrackName(),
race_manager->getNumLaps());
return highscores;
} // getHighscores
// ----------------------------------------------------------------------------
/*
* Usually called at the end of a race. Checks if the current times are worth a new
* score, if so it notifies the HighscoreManager so the new score is added and saved.
*/
void World::updateHighscores()
{
if(!m_use_highscores) return;
// Add times to highscore list. First compute the order of karts,
// so that the timing of the fastest kart is added first (otherwise
// someone might get into the highscore list, only to be kicked out
// again by a faster kart in the same race), which might be confusing
// if we ever decide to display a message (e.g. during a race)
unsigned int *index = new unsigned int[m_karts.size()];
const unsigned int kart_amount = m_karts.size();
for (unsigned int i=0; i<kart_amount; i++ )
{
index[i] = 999; // first reset the contents of the array
}
for (unsigned int i=0; i<kart_amount; i++ )
{
const int pos = m_karts[i]->getPosition()-1;
if(pos < 0 || pos >= (int)kart_amount) continue; // wrong position
index[pos] = i;
}
for(unsigned int pos=0; pos<kart_amount; pos++)
{
if(index[pos] == 999)
{
// no kart claimed to be in this position, most likely means
// the kart location data is wrong
#ifdef DEBUG
fprintf(stderr, "Error, incorrect kart positions:");
for (unsigned int i=0; i<m_karts.size(); i++ )
{
fprintf(stderr, "i=%d position %d\n",i, m_karts[i]->getPosition());
}
#endif
continue;
}
// Only record times for player karts and only if they finished the race
if(!m_karts[index[pos]]->getController()->isPlayerController()) continue;
if (!m_karts[index[pos]]->hasFinishedRace()) continue;
assert(index[pos] >= 0);
assert(index[pos] < m_karts.size());
Kart *k = (Kart*)m_karts[index[pos]];
HighscoreEntry* highscores = getHighscores();
PlayerController *controller = (PlayerController*)(k->getController());
if(highscores->addData(k->getIdent(),
controller->getPlayer()->getProfile()->getName(),
k->getFinishTime())>0 )
{
highscore_manager->Save();
}
} // next position
delete []index;
} // updateHighscores
//-----------------------------------------------------------------------------
/** Returns the n-th player kart. Note that this function is O(N), not O(1),
* so it shouldn't be called inside of loops.
* \param n Index of player kart to return.
*/
Kart *World::getPlayerKart(unsigned int n) const
{
unsigned int count=-1;
for(unsigned int i=0; i<m_karts.size(); i++)
if(m_karts[i]->getController()->isPlayerController())
{
count++;
if(count==n) return m_karts[i];
}
return NULL;
} // getPlayerKart
//-----------------------------------------------------------------------------
/** Returns the nth local player kart, i.e. a player kart that has a camera.
* \param n Index of player kart to return.
*/
Kart *World::getLocalPlayerKart(unsigned int n) const
{
unsigned int count=-1;
for(unsigned int i=0; i<m_karts.size(); i++)
{
if(m_karts[i]->getCamera() && m_karts[i]->getController()->isPlayerController())
{
count++;
if(count==n) return m_karts[i];
}
}
return NULL;
} // getLocalPlayerKart
//-----------------------------------------------------------------------------
/** Remove (eliminate) a kart from the race */
void World::removeKart(int kart_number, bool notifyOfElimination)
{
Kart *kart = m_karts[kart_number];
// Display a message about the eliminated kart in the race gui
if (notifyOfElimination)
{
for (KartList::iterator i = m_karts.begin(); i != m_karts.end(); i++ )
{
if(!(*i)->getCamera()) continue;
if(*i==kart)
{
m_race_gui->addMessage(_("You have been\neliminated!"), *i, 2.0f, 60);
}
else
{
m_race_gui->addMessage(StringUtils::insertValues(_("'%s' has\nbeen eliminated."),
kart->getName().c_str()),
*i, 2.0f, 60);
}
} // for i in kart
}
if(kart->getController()->isPlayerController())
{
// Change the camera so that it will be attached to the leader
// and facing backwards.
Camera* camera=kart->getCamera();
camera->setMode(Camera::CM_LEADER_MODE);
m_eliminated_players++;
}
// The kart can't be really removed from the m_kart array, since otherwise
// a race can't be restarted. So it's only marked to be eliminated (and
// ignored in all loops). Important:world->getCurrentNumKarts() returns
// the number of karts still racing. This value can not be used for loops
// over all karts, use race_manager->getNumKarts() instead!
kart->eliminate();
m_eliminated_karts++;
} // removeKart
//-----------------------------------------------------------------------------
void World::getDefaultCollectibles(int& collectible_type, int& amount )
{
collectible_type = POWERUP_NOTHING;
amount = 0;
}
//-----------------------------------------------------------------------------
void World::restartRace()
{
WorldStatus::reset();
m_faster_music_active = false;
m_eliminated_karts = 0;
m_eliminated_players = 0;
for ( KartList::iterator i = m_karts.begin(); i != m_karts.end() ; ++i )
{
(*i)->reset();
}
resetAllKarts();
// Start music from beginning
sound_manager->stopMusic();
m_track->reset();
m_track->startMusic();
// Enable SFX again
sfx_manager->resumeAll();
projectile_manager->cleanup();
race_manager->reset();
} // restartRace
//-----------------------------------------------------------------------------
void World::pause()
{
sound_manager->pauseMusic();
sfx_manager->pauseAll();
WorldStatus::pause();
} // pause
//-----------------------------------------------------------------------------
void World::unpause()
{
sound_manager->resumeMusic() ;
sfx_manager->resumeAll();
WorldStatus::unpause();
for(unsigned int i=0; i<m_karts.size(); i++)
if(m_karts[i]->getController()->isPlayerController())
((PlayerController*)(m_karts[i]->getController()))->resetInputState();
} // pause
/* EOF */