#include "Player.h" #include "Weapon.h" #include "CollisionManager.h" #include "Game.h" using namespace GameLogic; using namespace Oyster::Physics; const float MOVE_FORCE = 30; const float KEY_TIMER = 0.03f; const float AFFECTED_TIMER = 1.0f; Player::Player() :DynamicObject() { Player::initPlayerData(); this->weapon = NULL; this->teamID = -1; this->playerScore.killScore = 0; this->playerScore.deathScore = 0; } Player::Player(Oyster::Physics::ICustomBody *rigidBody, void (*EventOnCollision)(Oyster::Physics::ICustomBody *proto,Oyster::Physics::ICustomBody *deuter,Oyster::Math::Float kineticEnergyLoss), ObjectSpecialType type, int objectID, int teamID) :DynamicObject(rigidBody, EventOnCollision, type, objectID) { this->weapon = new Weapon(2,this); Player::initPlayerData(); this->teamID = teamID; this->playerScore.killScore = 0; this->playerScore.deathScore = 0; } Player::Player(Oyster::Physics::ICustomBody *rigidBody, Oyster::Physics::ICustomBody::SubscriptMessage (*EventOnCollision)(Oyster::Physics::ICustomBody *proto,Oyster::Physics::ICustomBody *deuter,Oyster::Math::Float kineticEnergyLoss), ObjectSpecialType type, int objectID, int teamID) :DynamicObject(rigidBody, EventOnCollision, type, objectID) { this->weapon = new Weapon(2,this); Player::initPlayerData(); this->teamID = teamID; this->playerScore.killScore = 0; this->playerScore.deathScore = 0; } Player::~Player(void) { if(this->weapon) { delete this->weapon; this->weapon = NULL; } } void Player::initPlayerData() { this->playerStats.hp = MAX_HP; this->playerStats.movementSpeed = BASIC_SPEED; this->playerState = PLAYER_STATE_IDLE; this->lookDir = Oyster::Math::Float3(0,0,-1); this->key_forward = 0; this->key_backward = 0; this->key_strafeRight = 0; this->key_strafeLeft = 0; this->key_jump = 0; this->RecentlyAffected = 0; this->deathTimer = 0; this->rotationUp = 0; } void Player::BeginFrame() { if( this->playerState != PLAYER_STATE_DEAD && this->playerState != PLAYER_STATE_DIED) { weapon->Update(0.002f); Oyster::Math::Float maxSpeed = 30; // Rotate player accordingly this->rigidBody->AddRotationAroundY(this->rotationUp); this->rigidBody->SetUp(this->rigidBody->GetState().centerPos.GetNormalized()); this->rotationUp = 0; // Direction data Oyster::Math::Float4x4 xform; xform = this->rigidBody->GetState().GetOrientation(); Oyster::Math::Float3 forwardDir = xform.v[2]; Oyster::Math::Float3 upDir = xform.v[1]; Oyster::Math::Float3 rightDir = xform.v[0]; forwardDir.Normalize(); upDir.Normalize(); rightDir.Normalize(); // Previous velocities data Oyster::Math::Float3 linearVelocity = this->rigidBody->GetLinearVelocity(); Oyster::Math::Float3 forwardVelocity = linearVelocity*Oyster::Math::Float3(fabs(forwardDir.x), fabs(forwardDir.y), fabs(forwardDir.z)); Oyster::Math::Float forwardSpeed = (linearVelocity*forwardDir).GetLength(); Oyster::Math::Float3 rightVelocity = linearVelocity*Oyster::Math::Float3(fabs(rightDir.x), fabs(rightDir.y), fabs(rightDir.z)); Oyster::Math::Float rightSpeed = (linearVelocity*rightDir).GetLength(); Oyster::Math::Float3 upVelocity = linearVelocity*Oyster::Math::Float3(fabs(upDir.x), fabs(upDir.y), fabs(upDir.z)); // Walking data Oyster::Math::Float3 walkDirection = Oyster::Math::Float3(0.0, 0.0, 0.0); Oyster::Math::Float walkSpeed = this->playerStats.movementSpeed*0.2f; // Check for input if(key_forward > 0.001) { key_forward -= gameInstance->GetFrameTime(); walkDirection += forwardDir; } if(key_backward > 0.001) { key_backward -= gameInstance->GetFrameTime(); walkDirection -= forwardDir; } if(key_strafeRight > 0.001) { key_strafeRight -= gameInstance->GetFrameTime(); walkDirection += rightDir; } if(key_strafeLeft > 0.001) { key_strafeLeft -= gameInstance->GetFrameTime(); walkDirection -= rightDir; } // Dampen velocity if certain keys are not pressed if(key_jump <= 0.001 && IsWalking()) { if(key_forward <= 0.001 && key_backward <= 0.001) { forwardVelocity *= Oyster::Math::Float3(0.2f*fabs(forwardDir.x), 0.2f*fabs(forwardDir.y), 0.2f*fabs(forwardDir.z)); } if(key_strafeRight <= 0.001 && key_strafeLeft <= 0.001) { rightVelocity *= Oyster::Math::Float3(0.2f*fabs(rightDir.x), 0.2f*fabs(rightDir.y), 0.2f*fabs(rightDir.z)); } } if(walkDirection == Oyster::Math::Float3::null) { if(this->playerState != PLAYER_STATE::PLAYER_STATE_JUMPING) { if(this->playerState != PLAYER_STATE::PLAYER_STATE_IDLE) this->gameInstance->onActionEventFnc( this, PlayerAction::PlayerAction_Idle); this->playerState = PLAYER_STATE::PLAYER_STATE_IDLE; } } // Walk if walkdirection is something if(walkDirection != Oyster::Math::Float3::null) { walkDirection.Normalize(); // If on the ground, accelerate normally if(IsWalking()) { if(forwardSpeed < maxSpeed) { forwardVelocity += walkDirection*Oyster::Math::Float3(fabs(forwardDir.x), fabs(forwardDir.y), fabs(forwardDir.z)) * walkSpeed; } if(rightSpeed < maxSpeed) { rightVelocity += walkDirection*Oyster::Math::Float3(fabs(rightDir.x), abs(rightDir.y), fabs(rightDir.z)) * walkSpeed; } } // If in the air, accelerate slower if(IsJumping()) { if(forwardSpeed < maxSpeed) { forwardVelocity += walkDirection*Oyster::Math::Float3(fabs(forwardDir.x), fabs(forwardDir.y), fabs(forwardDir.z)) * walkSpeed*0.2f; } if(rightSpeed < maxSpeed) { rightVelocity += walkDirection*Oyster::Math::Float3(fabs(rightDir.x), fabs(rightDir.y), fabs(rightDir.z)) * walkSpeed*0.2f; } } if(this->playerState != PLAYER_STATE::PLAYER_STATE_JUMPING) { if(this->playerState != PLAYER_STATE::PLAYER_STATE_WALKING) this->gameInstance->onActionEventFnc( this, PlayerAction::PlayerAction_Walk); this->playerState = PLAYER_STATE::PLAYER_STATE_WALKING; } } // Adjust velocities so no squaring occurs forwardVelocity *= Oyster::Math::Float3(fabs(forwardDir.x), fabs(forwardDir.y), fabs(forwardDir.z)); rightVelocity *= Oyster::Math::Float3(fabs(rightDir.x), fabs(rightDir.y), fabs(rightDir.z)); upVelocity *= Oyster::Math::Float3(fabs(upDir.x), fabs(upDir.y), fabs(upDir.z)); this->rigidBody->SetLinearVelocity(forwardVelocity+rightVelocity+upVelocity); //Jump if(key_jump > 0.001) { this->key_jump -= this->gameInstance->GetFrameTime(); if(IsWalking()) { Oyster::Math::Float3 up = this->rigidBody->GetState().centerPos.GetNormalized(); this->rigidBody->ApplyImpulse(up*this->rigidBody->GetState().mass * 20); if(this->playerState != PLAYER_STATE::PLAYER_STATE_JUMPING) this->gameInstance->onActionEventFnc( this, PlayerAction::PlayerAction_Jump); this->playerState = PLAYER_STATE::PLAYER_STATE_JUMPING; } } else { if(this->playerState == PLAYER_STATE::PLAYER_STATE_JUMPING) { this->gameInstance->onActionEventFnc( this, PlayerAction::PlayerAction_Idle); this->playerState = PLAYER_STATE::PLAYER_STATE_IDLE; } } } } void Player::EndFrame() { } void Player::Move(const PLAYER_MOVEMENT &movement) { switch(movement) { case PLAYER_MOVEMENT::PLAYER_MOVEMENT_FORWARD: MoveForward(); break; case PLAYER_MOVEMENT::PLAYER_MOVEMENT_BACKWARD: MoveBackwards(); break; case PLAYER_MOVEMENT::PLAYER_MOVEMENT_LEFT: MoveLeft(); break; case PLAYER_MOVEMENT::PLAYER_MOVEMENT_RIGHT: MoveRight(); break; case PLAYER_MOVEMENT::PLAYER_MOVEMENT_JUMP: Jump(); break; } } void Player::MoveForward() { key_forward = KEY_TIMER; } void Player::MoveBackwards() { key_backward = KEY_TIMER; } void Player::MoveRight() { key_strafeRight = KEY_TIMER; } void Player::MoveLeft() { key_strafeLeft = KEY_TIMER; } void Player::UseWeapon(const WEAPON_FIRE &usage) { this->weapon->Use(usage,gameInstance->GetFrameTime()); } void Player::Respawn(Oyster::Math::Float3 spawnPoint) { if( this->playerState == PLAYER_STATE_DEAD) { Player::initPlayerData(); this->rigidBody->SetPosition(spawnPoint); this->gameInstance->onRespawnFnc( this, spawnPoint); this->gameInstance->onDamageTakenFnc( this, this->playerStats.hp); } } void Player::SetLookDir(const Oyster::Math3D::Float3& lookDir) { // this is the camera right vector this->lookDir = -lookDir; } void Player::TurnLeft(Oyster::Math3D::Float deltaRadians) { this->rotationUp += deltaRadians; } void Player::Jump() { this->key_jump = KEY_TIMER; } bool Player::IsWalking() { return (this->rigidBody->GetLambdaUp() < 0.99f); } bool Player::IsJumping() { return (this->rigidBody->GetLambdaUp() == 1.0f); } bool Player::IsIdle() { return (this->rigidBody->GetLambdaUp() == 1.0f && this->rigidBody->GetLinearVelocity().GetMagnitude() < 0.0001f); } void Player::Inactivate() { //this-> } void Player::ResetPlayer( Oyster::Math::Float3 spawnPos) { Player::initPlayerData(); this->rigidBody->SetPosition(spawnPos); this->playerScore.killScore = 0; this->playerScore.deathScore = 0; } Oyster::Math::Float3 Player::GetPosition() const { return (Oyster::Math::Float3) this->rigidBody->GetState().centerPos; } Oyster::Math::Float4x4 Player::GetOrientation() const { return this->rigidBody->GetState().GetOrientation(); } Oyster::Math::Float3 Player::GetLookDir() const { return this->lookDir; } int Player::GetTeamID() const { return this->teamID; } PLAYER_STATE Player::GetState() const { return this->playerState; } void Player::AddKill() { this->playerScore.killScore++; } void Player::AddDeath() { this->playerScore.deathScore++; } int Player::GetKills() const { return this->playerScore.killScore; } int Player::GetDeath() const { return this->playerScore.deathScore; } void Player::DamageLife(int damage) { if(damage != 0) { this->playerStats.hp -= damage; if(this->playerStats.hp > 100) this->playerStats.hp = 100; // send hp to client this->gameInstance->onDamageTakenFnc( this, this->playerStats.hp); if(this->playerStats.hp <= 0) { this->playerStats.hp = 0; this->playerState = PLAYER_STATE_DIED; } } } bool Player::deathTimerTick(float dt) { this->deathTimer -= dt; if( this->deathTimer <= 0) { return true; } return false; } void Player::setDeathTimer(float deathTimer) { this->deathTimer = deathTimer; this->playerState = PLAYER_STATE_DEAD; }