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https://gitlab.com/GaryOderNichts/re3-wiiu.git
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196 lines
5.4 KiB
C++
196 lines
5.4 KiB
C++
#include "common.h"
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#include "patcher.h"
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#include "Timer.h"
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#include "WaterLevel.h"
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#include "ModelIndices.h"
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#include "Physical.h"
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#include "Vehicle.h"
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#include "Floater.h"
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cBuoyancy &mod_Buoyancy = *(cBuoyancy*)0x8F2674;
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//static float fVolMultiplier = 1.0f;
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static float &fVolMultiplier = *(float*)0x601394;
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// amount of boat volume in bounding box
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// 1.0-volume is the empty space in the bbox
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static float fBoatVolumeDistribution[9] = {
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// rear
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0.75f, 0.9f, 0.75f,
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0.95f, 1.0f, 0.95f,
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0.3f, 0.7f, 0.3f
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// bow
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};
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bool
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cBuoyancy::ProcessBuoyancy(CPhysical *phys, float buoyancy, CVector *point, CVector *impulse)
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{
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m_numSteps = 2.0f;
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if(!CWaterLevel::GetWaterLevel(phys->GetPosition(), &m_waterlevel, phys->m_flagD8))
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return false;
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m_matrix = phys->GetMatrix();
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PreCalcSetup(phys, buoyancy);
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SimpleCalcBuoyancy();
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float f = CalcBuoyancyForce(phys, point, impulse);
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if(m_isBoat)
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return true;
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return f != 0.0f;
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}
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void
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cBuoyancy::PreCalcSetup(CPhysical *phys, float buoyancy)
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{
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CColModel *colModel;
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m_isBoat = phys->IsVehicle() && ((CVehicle*)phys)->IsBoat();
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colModel = phys->GetColModel();
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m_dimMin = colModel->boundingBox.min;
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m_dimMax = colModel->boundingBox.max;
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if(m_isBoat){
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if(phys->GetModelIndex() == MI_PREDATOR){
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m_dimMax.y *= 0.9f;
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m_dimMin.y *= 0.9f;
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}else if(phys->GetModelIndex() == MI_SPEEDER){
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m_dimMax.y *= 1.1f;
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m_dimMin.y *= 0.9f;
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}else if(phys->GetModelIndex() == MI_REEFER){
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m_dimMin.y *= 0.9f;
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}else{
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m_dimMax.y *= 0.9f;
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m_dimMin.y *= 0.9f;
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}
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}
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m_step = (m_dimMax - m_dimMin)/m_numSteps;
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if(m_step.z > m_step.x && m_step.z > m_step.y){
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m_stepRatio.x = m_step.x/m_step.z;
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m_stepRatio.y = m_step.y/m_step.z;
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m_stepRatio.z = 1.0f;
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}else if(m_step.y > m_step.x && m_step.y > m_step.z){
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m_stepRatio.x = m_step.x/m_step.y;
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m_stepRatio.y = 1.0f;
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m_stepRatio.z = m_step.z/m_step.y;
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}else{
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m_stepRatio.x = 1.0f;
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m_stepRatio.y = m_step.y/m_step.x;
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m_stepRatio.z = m_step.z/m_step.x;
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}
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m_haveVolume = false;
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m_numPartialVolumes = 1.0f;
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m_volumeUnderWater = 0.0f;
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m_impulsePoint = CVector(0.0f, 0.0f, 0.0f);
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m_position = phys->GetPosition();
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m_positionZ = CVector(0.0f, 0.0f, m_position.z);
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m_buoyancy = buoyancy;
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m_waterlevel += m_waterLevelInc;
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}
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void
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cBuoyancy::SimpleCalcBuoyancy(void)
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{
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float x, y;
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int ix, i;
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tWaterLevel waterPosition;
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// Floater is divided into 3x3 parts. Process and sum each of them
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ix = 0;
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for(x = m_dimMin.x; x <= m_dimMax.x; x += m_step.x){
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i = ix;
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for(y = m_dimMin.y; y <= m_dimMax.y; y += m_step.y){
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CVector waterLevel(x, y, 0.0f);
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FindWaterLevel(m_positionZ, &waterLevel, &waterPosition);
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fVolMultiplier = m_isBoat ? fBoatVolumeDistribution[i] : 1.0f;
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if(waterPosition != FLOATER_ABOVE_WATER)
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SimpleSumBuoyancyData(waterLevel, waterPosition);
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i += 3;
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}
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ix++;
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}
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m_volumeUnderWater /= (m_dimMax.z - m_dimMin.z)*sq(m_numSteps+1.0f);
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}
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float
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cBuoyancy::SimpleSumBuoyancyData(CVector &waterLevel, tWaterLevel waterPosition)
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{
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static float fThisVolume;
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static CVector AverageOfWaterLevel;
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static float fFraction;
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static float fRemainingSlice;
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float submerged = Abs(waterLevel.z - m_dimMin.z);
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// subtract empty space from submerged volume
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fThisVolume = submerged - (1.0f - fVolMultiplier);
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if(fThisVolume < 0.0f)
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return 0.0f;
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if(m_isBoat){
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fThisVolume *= fVolMultiplier;
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if(fThisVolume < 0.5f)
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fThisVolume = 2.0f*sq(fThisVolume);
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if(fThisVolume < 1.0f)
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fThisVolume = sq(fThisVolume);
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fThisVolume = sq(fThisVolume);
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}
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m_volumeUnderWater += fThisVolume;
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AverageOfWaterLevel.x = waterLevel.x * m_stepRatio.x;
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AverageOfWaterLevel.y = waterLevel.y * m_stepRatio.y;
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AverageOfWaterLevel.z = (waterLevel.z+m_dimMin.z)/2.0f * m_stepRatio.z;
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if(m_flipAverage)
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AverageOfWaterLevel = -AverageOfWaterLevel;
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fFraction = 1.0f/m_numPartialVolumes;
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fRemainingSlice = 1.0f - fFraction;
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m_impulsePoint = m_impulsePoint*fRemainingSlice + AverageOfWaterLevel*fThisVolume*fFraction;
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m_numPartialVolumes += 1.0f;
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m_haveVolume = true;
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return fThisVolume;
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}
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void
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cBuoyancy::FindWaterLevel(const CVector &zpos, CVector *waterLevel, tWaterLevel *waterPosition)
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{
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*waterPosition = FLOATER_IN_WATER;
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// waterLevel is a local x,y point
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// m_position is the global position of our floater
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// zpos is the global z coordinate of our floater
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CVector xWaterLevel = Multiply3x3(m_matrix, *waterLevel);
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CWaterLevel::GetWaterLevel(xWaterLevel.x + m_position.x, xWaterLevel.y + m_position.y, m_position.z,
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&waterLevel->z, true);
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waterLevel->z -= xWaterLevel.z + zpos.z; // make local
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if(waterLevel->z > m_dimMax.z){
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waterLevel->z = m_dimMax.z;
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*waterPosition = FLOATER_UNDER_WATER;
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}else if(waterLevel->z < m_dimMin.z){
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waterLevel->z = m_dimMin.z;
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*waterPosition = FLOATER_ABOVE_WATER;
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}
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}
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bool
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cBuoyancy::CalcBuoyancyForce(CPhysical *phys, CVector *point, CVector *impulse)
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{
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if(!m_haveVolume)
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return false;
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*point = Multiply3x3(m_matrix, m_impulsePoint);
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*impulse = CVector(0.0f, 0.0f, m_volumeUnderWater*m_buoyancy*CTimer::GetTimeStep());
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return true;
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}
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STARTPATCHES
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InjectHook(0x546270, &cBuoyancy::ProcessBuoyancy, PATCH_JUMP);
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InjectHook(0x546360, &cBuoyancy::PreCalcSetup, PATCH_JUMP);
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InjectHook(0x5466F0, &cBuoyancy::SimpleCalcBuoyancy, PATCH_JUMP);
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InjectHook(0x546820, &cBuoyancy::SimpleSumBuoyancyData, PATCH_JUMP);
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InjectHook(0x546620, &cBuoyancy::FindWaterLevel, PATCH_JUMP);
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InjectHook(0x5465A0, &cBuoyancy::CalcBuoyancyForce, PATCH_JUMP);
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ENDPATCHES
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