diff options
Diffstat (limited to '')
-rw-r--r-- | src/vehicles/Floater.cpp | 177 |
1 files changed, 159 insertions, 18 deletions
diff --git a/src/vehicles/Floater.cpp b/src/vehicles/Floater.cpp index 1ae1c5c3..92e3d80e 100644 --- a/src/vehicles/Floater.cpp +++ b/src/vehicles/Floater.cpp @@ -7,18 +7,40 @@ #include "Vehicle.h" #include "Floater.h" +//--MIAMI: done + cBuoyancy mod_Buoyancy; -static float fVolMultiplier = 1.0f; +float fVolMultiplier = 1.0f; // amount of boat volume in bounding box // 1.0-volume is the empty space in the bbox -static float fBoatVolumeDistribution[9] = { +float fBoatVolumeDistribution[9] = { // rear 0.75f, 0.9f, 0.75f, 0.95f, 1.0f, 0.95f, - 0.3f, 0.7f, 0.3f + 0.4f, 0.7f, 0.4f // bow }; +float fBoatVolumeDistributionCat[9] = { + 0.9f, 0.3f, 0.9f, + 1.0f, 0.5f, 1.0f, + 0.95f, 0.4f, 0.95f +}; +float fBoatVolumeDistributionSail[9] = { + 0.55f, 0.95f, 0.55f, + 0.75f, 1.1f, 0.75f, + 0.3f, 0.8f, 0.3f +}; +float fBoatVolumeDistributionDinghy[9] = { + 0.65f, 0.85f, 0.65f, + 0.85f, 1.1f, 0.85f, + 0.65f, 0.95f, 0.65f +}; +float fBoatVolumeDistributionSpeed[9] = { + 0.7f, 0.9f, 0.7f, + 0.95f, 1.0f, 0.95f, + 0.6f, 0.7f, 0.6f +}; bool cBuoyancy::ProcessBuoyancy(CPhysical *phys, float buoyancy, CVector *point, CVector *impulse) @@ -37,6 +59,76 @@ cBuoyancy::ProcessBuoyancy(CPhysical *phys, float buoyancy, CVector *point, CVec return f != 0.0f; } +bool +cBuoyancy::ProcessBuoyancyBoat(CVehicle *veh, float buoyancy, CVector *point, CVector *impulse, bool bNoTurnForce) +{ + m_numSteps = 2.0f; + + if(!CWaterLevel::GetWaterLevel(veh->GetPosition(), &m_waterlevel, veh->bTouchingWater)) + return false; + m_matrix = veh->GetMatrix(); + PreCalcSetup(veh, buoyancy); + + + float x, y; + int ix, i; + tWaterLevel waterPosition; + CVector waterNormal; + + // Floater is divided into 3x3 parts. Process and sum each of them + float volDiv = 1.0f/((m_dimMax.z - m_dimMin.z)*sq(m_numSteps+1.0f)); + ix = 0; + for(x = m_dimMin.x; x <= m_dimMax.x; x += m_step.x){ + i = ix; + for(y = m_dimMin.y; y <= m_dimMax.y; y += m_step.y){ + CVector waterLevel(x, y, 0.0f); + FindWaterLevelNorm(m_positionZ, &waterLevel, &waterPosition, &waterNormal); + switch(veh->GetModelIndex()){ + case MI_RIO: + fVolMultiplier = fBoatVolumeDistributionCat[i]; + break; + case MI_SQUALO: + case MI_SPEEDER: + case MI_JETMAX: + fVolMultiplier = fBoatVolumeDistributionSpeed[i]; + break; + case MI_COASTG: + case MI_DINGHY: + fVolMultiplier = fBoatVolumeDistributionDinghy[i]; + break; + case MI_MARQUIS: + fVolMultiplier = fBoatVolumeDistributionSail[i]; + break; + case MI_PREDATOR: + case MI_SKIMMER: + case MI_REEFER: + case MI_TROPIC: + default: + fVolMultiplier = fBoatVolumeDistribution[i]; + break; + } + if(waterPosition != FLOATER_ABOVE_WATER){ + float volume = SimpleSumBuoyancyData(waterLevel, waterPosition); + float upImpulse = volume * volDiv * buoyancy * CTimer::GetTimeStep(); + CVector speed = veh->GetSpeed(Multiply3x3(veh->GetMatrix(), CVector(x, y, 0.0f))); + float damp = 1.0f - DotProduct(speed, waterNormal)*veh->pHandling->fSuspensionDampingLevel; + float finalImpulse = upImpulse*Max(damp, 0.0f); + impulse->z += finalImpulse; + if(!bNoTurnForce) + veh->ApplyTurnForce(finalImpulse*waterNormal, Multiply3x3(m_matrix, waterLevel)); + } + i += 3; + } + ix++; + } + + m_volumeUnderWater *= volDiv; + + *point = Multiply3x3(m_matrix, m_impulsePoint); + return m_isBoat || m_haveVolume; + +} + void cBuoyancy::PreCalcSetup(CPhysical *phys, float buoyancy) { @@ -48,17 +140,55 @@ cBuoyancy::PreCalcSetup(CPhysical *phys, float buoyancy) m_dimMax = colModel->boundingBox.max; if(m_isBoat){ - if(phys->GetModelIndex() == MI_PREDATOR){ + switch(phys->GetModelIndex()){ + case MI_PREDATOR: + default: + m_dimMax.y *= 1.05f; + m_dimMin.y *= 0.9f; + break; + case MI_SPEEDER: + m_dimMax.y *= 1.25f; + m_dimMin.y *= 0.83f; + break; + case MI_REEFER: + m_dimMin.y *= 0.9f; + break; + case MI_RIO: + m_dimMax.y *= 0.9f; + m_dimMin.y *= 0.9f; + m_dimMax.z += 0.25f; + m_dimMin.z -= 0.2f; + break; + case MI_SQUALO: m_dimMax.y *= 0.9f; m_dimMin.y *= 0.9f; - }else if(phys->GetModelIndex() == MI_SPEEDER){ + break; + case MI_TROPIC: + m_dimMax.y *= 1.3f; + m_dimMin.y *= 0.82f; + m_dimMin.z -= 0.2f; + break; + case MI_SKIMMER: + m_dimMin.y = -m_dimMax.y; + m_dimMax.y *= 1.2f; + break; + case MI_COASTG: m_dimMax.y *= 1.1f; m_dimMin.y *= 0.9f; - }else if(phys->GetModelIndex() == MI_REEFER){ + m_dimMin.z -= 0.3f; + break; + case MI_DINGHY: + m_dimMax.y *= 1.3f; m_dimMin.y *= 0.9f; - }else{ - m_dimMax.y *= 0.9f; + m_dimMin.z -= 0.2f; + break; + case MI_MARQUIS: + m_dimMax.y *= 1.3f; m_dimMin.y *= 0.9f; + break; + case MI_JETMAX: + m_dimMin.y *= 0.9f; + break; } } @@ -92,22 +222,17 @@ void cBuoyancy::SimpleCalcBuoyancy(void) { float x, y; - int ix, i; tWaterLevel waterPosition; // Floater is divided into 3x3 parts. Process and sum each of them - ix = 0; for(x = m_dimMin.x; x <= m_dimMax.x; x += m_step.x){ - i = ix; for(y = m_dimMin.y; y <= m_dimMax.y; y += m_step.y){ CVector waterLevel(x, y, 0.0f); FindWaterLevel(m_positionZ, &waterLevel, &waterPosition); - fVolMultiplier = m_isBoat ? fBoatVolumeDistribution[i] : 1.0f; + fVolMultiplier = 1.0f; if(waterPosition != FLOATER_ABOVE_WATER) SimpleSumBuoyancyData(waterLevel, waterPosition); - i += 3; } - ix++; } m_volumeUnderWater /= (m_dimMax.z - m_dimMin.z)*sq(m_numSteps+1.0f); @@ -129,10 +254,6 @@ cBuoyancy::SimpleSumBuoyancyData(CVector &waterLevel, tWaterLevel waterPosition) if(m_isBoat){ fThisVolume *= fVolMultiplier; - if(fThisVolume < 0.5f) - fThisVolume = 2.0f*sq(fThisVolume); - if(fThisVolume < 1.0f) - fThisVolume = sq(fThisVolume); fThisVolume = sq(fThisVolume); } @@ -173,6 +294,26 @@ cBuoyancy::FindWaterLevel(const CVector &zpos, CVector *waterLevel, tWaterLevel } } +// Same as above but also get normal +void +cBuoyancy::FindWaterLevelNorm(const CVector &zpos, CVector *waterLevel, tWaterLevel *waterPosition, CVector *normal) +{ + *waterPosition = FLOATER_IN_WATER; + CVector xWaterLevel = Multiply3x3(m_matrix, *waterLevel); + CWaterLevel::GetWaterLevel(xWaterLevel.x + m_position.x, xWaterLevel.y + m_position.y, m_position.z, + &waterLevel->z, true); + waterLevel->z -= xWaterLevel.z + zpos.z; // make local + if(waterLevel->z >= m_dimMin.z) + *normal = CWaterLevel::GetWaterNormal(xWaterLevel.x + m_position.x, xWaterLevel.y + m_position.y); + if(waterLevel->z > m_dimMax.z){ + waterLevel->z = m_dimMax.z; + *waterPosition = FLOATER_UNDER_WATER; + }else if(waterLevel->z < m_dimMin.z){ + waterLevel->z = m_dimMin.z; + *waterPosition = FLOATER_ABOVE_WATER; + } +} + bool cBuoyancy::CalcBuoyancyForce(CPhysical *phys, CVector *point, CVector *impulse) { |