void AnimCtrlPlayerCharacter::updateAimRotation(Ogre::Radian angleHorizontal, Ogre::Radian angleVertical, unsigned long timeSinceLastFrame)
{
// This is freaking important! Must be in seconds and an Ogre::Real
Ogre::Real secSinceLastFrame = (Ogre::Real) timeSinceLastFrame / 1000.f;
// Set manual frame position
// ---------------------------------------
float prevValue = animPipeline->getAnimManualTimePos( "aim" );
float maxValue = animPipeline->getAnimLength( "aim" );
float aimFrame = interpolateAiming( angleHorizontal.valueDegrees(), 360.f, prevValue, maxValue, 3500.f, secSinceLastFrame );
animPipeline->setAnimManualTimePos( "aim", aimFrame );
animPipeline->setAnimManualTimePos( "aimUp", aimFrame );
animPipeline->setAnimManualTimePos( "aimDown", aimFrame );
// Set blend value
// ---------------------------------------
// Modify Angle; animated only from 45° (up) to -45° (down)
float aimBlend = angleVertical.valueDegrees() - 45.f;
aimBlend = std::max( 0.f, aimBlend );
aimBlend = std::min( 90.f, aimBlend );
prevValue = getFlagValue( "aim_vertical2", 0 ) +
getFlagValue( "aim_vertical3", 0 );
aimBlend = interpolateAiming( aimBlend, 90.f, prevValue, 2.f, 2000.f, secSinceLastFrame );
// Split up blend value from 0 to 1 into three blend values for the LERP tree
float aimBlendTrees = (aimBlend > 1.f) ? 1.f : 0.f; setFlagValue( "aim_vertical1", aimBlendTrees );
float aimBlend2 = std::min( 1.f, aimBlend ); setFlagValue( "aim_vertical2", aimBlend2 );
float aimBlend3 = std::max( 1.f, aimBlend ) - 1.f; setFlagValue( "aim_vertical3", aimBlend3 );
}
inline void moveCamera() {
camera_->rotate(AngleVector(-rotY_.valueDegrees(), rotX_.valueDegrees(), 0.0));
camera_->translate(camera_->getOrientation().yawOrientation * translateVector_);
const double maxPitch = 60.0;
AngleVector rotation = camera_->getRotation();
const double pitch = rotation.pitch;
// Limit the pitch.
if(fabs(pitch) > maxPitch) {
rotation.pitch = (pitch > 0.0) ? maxPitch : -maxPitch;
camera_->setRotation(rotation);
}
}
Ogre::Vector3 LuaScriptUtilities::QuaternionToRotationDegrees(
const Ogre::Quaternion& quaternion)
{
Ogre::Vector3 angles;
Ogre::Radian xAngle;
Ogre::Radian yAngle;
Ogre::Radian zAngle;
Ogre::Matrix3 rotation;
quaternion.ToRotationMatrix(rotation);
rotation.ToEulerAnglesXYZ(xAngle, yAngle, zAngle);
angles.x = xAngle.valueDegrees();
angles.y = yAngle.valueDegrees();
angles.z = zAngle.valueDegrees();
return angles;
}
// Returns volume for the right ear.
// If the sound is directly to the right, that channel gets 254 of intensity.
// If the sound is directly in front of us, each channel gets 254/2 of intensity.
int SoundManager::calcPanning(Ogre::Camera* mCamera, Ogre::Vector3 soundPosition) {
Ogre::Vector3 camDirection = mCamera->getOrientation() * Ogre::Vector3::NEGATIVE_UNIT_Z;
Ogre::Vector3 soundDir = soundPosition - mCamera->getPosition();
soundDir.normalise();
// Retrieve the angle made between the sound position and the camera's direction,
// which should be pointing forwards.
Ogre::Quaternion q = camDirection.getRotationTo(soundDir);
Ogre::Radian radians = q.getYaw();
// anything left of the camera returns positive degrees
float degrees = radians.valueDegrees();
int leftIntensity;
int rightIntensity;
// from 0 to -179 it's the right ear.
if(degrees <= 0) {
//std::cout << "degrees " << degrees << std::endl;
degrees *= -1;
if(degrees > 90)
degrees = 90 - (degrees - 90); // if 91, we subtract 1 and go back to 89
// Intensity can never be 255 because then the effect cancels out.
int intensity = (degrees / 90.0) * 254/2 + 254/2;
//std::cout << "intensity " << intensity << std::endl;
rightIntensity = intensity;
leftIntensity = 255 - (rightIntensity);
}
// from 0 to 179 it's the left ear.
else {
if(degrees > 90)
degrees = 90 - (degrees - 90);
int intensity = (degrees / 90) * 254/2 + 254/2;
//std::cout << "intensity " << intensity << std::endl;
leftIntensity = intensity;
rightIntensity = 254 - (leftIntensity);
}
return rightIntensity;
}
void Turret::Update()
{
bool PlayerInRoom = false;
DynamicObject::Update();
hkpWorldRayCastOutput OutPut;
hkpWorldRayCastInput Ray;
Player* theplayer = 0;
Ogre::Vector3 RayDirection = (mPlayerPos - mPosition).normalisedCopy();
Ray.m_from = hkVector4(mPosition.x + (RayDirection.x * 25)
,mPosition.y + (RayDirection.y * 25)
,mPosition.z + (RayDirection.z * 25));
Ray.m_to = hkVector4(mPlayerPos.x, mPlayerPos.y, mPlayerPos.z);
mPhysicsManager->GetPhysicsWorld()->castRay(Ray,OutPut);
if(OutPut.hasHit())
{
const hkpCollidable* col = OutPut.m_rootCollidable;
hkpRigidBody* body = hkpGetRigidBody(col);
theplayer = dynamic_cast<Player*> ((BaseObject *)body->getUserData());
if(theplayer != 0)
{
PlayerInRoom = true;
}
else
{
mPlayerInSight = false;
mKillTimer = 0;
}
}
Ogre::Vector3 NewDir = Ogre::Vector3(RayDirection.x,0,RayDirection.z);
NewDir.normalise();
Ogre::Radian angle = NewDir.angleBetween(ObjectNode->getOrientation() * Ogre::Vector3::UNIT_X);
if(PlayerInRoom || !mPlayerInSight)
{
if(angle.valueDegrees() < 20 || angle.valueDegrees() > -20)
{
mPlayerInSight = true;
}
}
if(mPlayerInSight)
{
mRotateValue += angle.valueRadians();
Body->setRotation(hkQuaternion(hkVector4(0,1,0),mRotateValue));
mKillTimer++;
if(mKillTimer > 800)
{
mShutdown = true;
//theplayer->OnDeath();
}
}
else
{
if(mRotateValue < -2)
{
mChangeInRotation = 0.001;
}
else if (mRotateValue > 2)
{
mChangeInRotation = -0.001;
}
mRotateValue += mChangeInRotation;
Body->setRotation(hkQuaternion(hkVector4(0,1,0),mRotateValue));
}
}
void OGRERendererRacer::update() {
mpVehicle = mpApp->mRacer;
const cml::vector3d& pos = mpVehicle->mPos;
mVehicleNode->setPosition(pos[0], pos[1], pos[2]);
Ogre::Quaternion q;
const quat& orientation = mpVehicle->getOrientation();
q.w = orientation.as_vector()[0];
q.x = orientation.as_vector()[1];
q.y = orientation.as_vector()[2];
q.z = orientation.as_vector()[3];
if (q != mOrientation) {
Ogre::Quaternion transition = q * mOrientation.Inverse();
Ogre::Radian a;
Ogre::Vector3 v;
transition.ToAngleAxis(a, v);
if (a.valueDegrees() > 0.1) {
Ogre::Quaternion t2;
// TODO 3: Make rotation speed configurable
t2.FromAngleAxis(a * 0.05, v);
mOrientation = t2 * mOrientation;
} else {
mOrientation = q;
}
}
//################# BEGIN Construct Sideward thrust roll quaternion ################
// cml::vector3f velDirSidewardComponent = cml::dot(mpVehicle->mDirLeft, mpVehicle->mVelocity) * mpVehicle->mDirLeft;
if (mpVehicle->mAddThrustLeft || mpVehicle->mAddThrustRight) {
mRollAngle = -mpVehicle->mThrustSideward * 500;
} else {
mRollAngle *= 0.98;
}
float dot = cml::dot(mpVehicle->mDirLeft, mpVehicle->mVelocity);
mRollAngle = -dot * 50;
Ogre::Quaternion qSidewardThrustRoll(Ogre::Degree(mRollAngle), Ogre::Vector3(0, 0, -1));
cml::vector3f g = mpVehicle->getGravity();
cml::vector3f velDirGravityComponent = cml::dot(g, mpVehicle->mVelocity) * g;
dot = cml::dot(velDirGravityComponent, g);
if (velDirGravityComponent.length() > 0.000001) {
mPitchAngle = -cml::sign(dot) * velDirGravityComponent.length() * 500000;
} else {
if (mpVehicle->mAddThrustForward && mPitchAngle > -7) {
mPitchAngle -= 0.1;
} else {
mPitchAngle *= 0.95;
}
}
Ogre::Quaternion qForwardThrustPitch(Ogre::Degree(mPitchAngle), Ogre::Vector3(1, 0, 0));
//################# END Construct Sideward thrust roll quaternion ################
bool mSidewardThrustRollCamera = false;
if (mSidewardThrustRollCamera) {
// Roll both vehicle and camera:
mVehicleNode->setOrientation(q * qSidewardThrustRoll * qForwardThrustPitch);
} else {
// Roll only the vehicle, not the camera:
mVehicleNode->setOrientation(mOrientation);
mVehicleMeshNode->setOrientation(qSidewardThrustRoll * qForwardThrustPitch);
}
//############# BEGIN Update engine particle emitters ####################
// TODO 1: Reimplement
bool emit = (mpVehicle->mGameState == 0) && mpVehicle->mThrustForward > 0;
mEngineFlameParticleSystem->setEmitting(emit);
mEngineSmokeParticleSystem->setEmitting(emit);
Ogre::ParticleEmitter* emitter = mEngineFlameParticleSystem->getEmitter(0);
emitter->setParticleVelocity(mpVehicle->mThrustForward * 6000);
emitter->setEmissionRate(mpVehicle->mThrustForward * 10000);
emitter = mEngineSmokeParticleSystem->getEmitter(0);
emitter->setEmissionRate(mpVehicle->mThrustForward * 7000);
//############# END Update engine particle emitters ####################
}