SilentPatch/SilentPatchSA/VehicleSA.cpp

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#include "StdAfxSA.h"
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#include <functional>
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#include <algorithm>
#include <vector>
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#include "VehicleSA.h"
#include "TimerSA.h"
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#include "DelimStringReader.h"
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std::vector<int32_t> vecRotorExceptions;
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static bool ShouldIgnoreRotor( int32_t id )
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{
return std::find( vecRotorExceptions.begin(), vecRotorExceptions.end(), id ) != vecRotorExceptions.end();
}
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static void* varVehicleRender = AddressByVersion<void*>(0x6D0E60, 0x6D1680, 0x70C0B0);
WRAPPER void CVehicle::Render() { VARJMP(varVehicleRender); }
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static void* varIsLawEnforcementVehicle = AddressByVersion<void*>(0x6D2370, 0x6D2BA0, 0x70D8C0);
WRAPPER bool CVehicle::IsLawEnforcementVehicle() { VARJMP(varIsLawEnforcementVehicle); }
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static void* varSetComponentRotation = AddressByVersion<void*>(0x6DBA30, 0, 0);
WRAPPER void CVehicle::SetComponentRotation( RwFrame* component, int axis, float angle, bool absolute ) { VARJMP(varSetComponentRotation); }
void (CAutomobile::*CAutomobile::orgPreRender)();
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static int32_t random(int32_t from, int32_t to)
{
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return from + ( Int32Rand() % (to-from) );
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}
static RwObject* GetCurrentAtomicObject( RwFrame* frame )
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{
RwObject* obj = nullptr;
RwFrameForAllObjects( frame, [&obj]( RwObject* object ) -> RwObject* {
if ( RpAtomicGetFlags(object) & rpATOMICRENDER )
{
obj = object;
return nullptr;
}
return object;
} );
return obj;
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}
static RwFrame* GetFrameFromName( RwFrame* topFrame, const char* name )
{
class GetFramePredicate
{
public:
RwFrame* foundFrame = nullptr;
GetFramePredicate( const char* name )
: m_name( name )
{
}
RwFrame* operator() ( RwFrame* frame )
{
if ( strcmp( m_name, GetFrameNodeName(frame) ) == 0 )
{
foundFrame = frame;
return nullptr;
}
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RwFrameForAllChildren( frame, *this );
return foundFrame != nullptr ? nullptr : frame;
}
private:
const char* const m_name;
};
GetFramePredicate p( name );
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RwFrameForAllChildren( topFrame, p );
return p.foundFrame;
}
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void ReadRotorFixExceptions(const wchar_t* pPath)
{
const size_t SCRATCH_PAD_SIZE = 32767;
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WideDelimStringReader reader( SCRATCH_PAD_SIZE );
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GetPrivateProfileSectionW( L"RotorFixExceptions", reader.GetBuffer(), reader.GetSize(), pPath );
while ( const wchar_t* str = reader.GetString() )
{
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int32_t toList = wcstol( str, nullptr, 0 );
if ( toList > 0 )
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vecRotorExceptions.push_back( toList );
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}
}
void CVehicle::SetComponentAtomicAlpha(RpAtomic* pAtomic, int nAlpha)
{
RpGeometry* pGeometry = RpAtomicGetGeometry(pAtomic);
pGeometry->flags |= rpGEOMETRYMODULATEMATERIALCOLOR;
RpGeometryForAllMaterials( pGeometry, [nAlpha] (RpMaterial* material) {
material->color.alpha = RwUInt8(nAlpha);
return material;
} );
}
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bool CVehicle::CustomCarPlate_TextureCreate(CVehicleModelInfo* pModelInfo)
{
char PlateText[CVehicleModelInfo::PLATE_TEXT_LEN+1];
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const char* pOverrideText = pModelInfo->GetCustomCarPlateText();
if ( pOverrideText )
strncpy_s(PlateText, pOverrideText, CVehicleModelInfo::PLATE_TEXT_LEN);
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else
CCustomCarPlateMgr::GeneratePlateText(PlateText, CVehicleModelInfo::PLATE_TEXT_LEN);
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PlateText[CVehicleModelInfo::PLATE_TEXT_LEN] = '\0';
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PlateTexture = CCustomCarPlateMgr::CreatePlateTexture(PlateText, pModelInfo->m_nPlateType);
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if ( pModelInfo->m_nPlateType != -1 )
PlateDesign = pModelInfo->m_nPlateType;
else if ( IsLawEnforcementVehicle() )
PlateDesign = CCustomCarPlateMgr::GetMapRegionPlateDesign();
else
PlateDesign = random(0, 20) == 0 ? int8_t(random(0, 3)) : CCustomCarPlateMgr::GetMapRegionPlateDesign();
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assert(PlateDesign >= 0 && PlateDesign < 3);
pModelInfo->m_plateText[0] = '\0';
pModelInfo->m_nPlateType = -1;
return true;
}
void CVehicle::CustomCarPlate_BeforeRenderingStart(CVehicleModelInfo* pModelInfo)
{
for ( size_t i = 0; i < pModelInfo->m_apPlateMaterials->m_numPlates; i++ )
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{
RpMaterialSetTexture(pModelInfo->m_apPlateMaterials->m_plates[i], PlateTexture);
}
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for ( size_t i = 0; i < pModelInfo->m_apPlateMaterials->m_numPlatebacks; i++ )
{
CCustomCarPlateMgr::SetupMaterialPlatebackTexture(pModelInfo->m_apPlateMaterials->m_platebacks[i], PlateDesign);
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}
}
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void CHeli::Render()
{
double dRotorsSpeed, dMovingRotorSpeed;
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bool bDisplayRotors = !ShouldIgnoreRotor( FLAUtils::GetExtendedID( &m_nModelIndex ) );
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bool bHasMovingRotor = m_pCarNode[13] != nullptr && bDisplayRotors;
bool bHasMovingRotor2 = m_pCarNode[15] != nullptr && bDisplayRotors;
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m_nTimeTillWeNeedThisCar = CTimer::m_snTimeInMilliseconds + 3000;
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if ( m_fRotorSpeed > 0.0 )
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dRotorsSpeed = std::min(1.7 * (1.0/0.22) * m_fRotorSpeed, 1.5);
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else
dRotorsSpeed = 0.0;
dMovingRotorSpeed = dRotorsSpeed - 0.4;
if ( dMovingRotorSpeed < 0.0 )
dMovingRotorSpeed = 0.0;
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int nStaticRotorAlpha = static_cast<int>(std::min((1.5-dRotorsSpeed) * 255.0, 255.0));
int nMovingRotorAlpha = static_cast<int>(std::min(dMovingRotorSpeed * 175.0, 175.0));
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if ( m_pCarNode[12] != nullptr )
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{
RpAtomic* pOutAtomic = (RpAtomic*)GetCurrentAtomicObject( m_pCarNode[12] );
if ( pOutAtomic != nullptr )
SetComponentAtomicAlpha(pOutAtomic, bHasMovingRotor ? nStaticRotorAlpha : 255);
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}
if ( m_pCarNode[14] != nullptr )
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{
RpAtomic* pOutAtomic = (RpAtomic*)GetCurrentAtomicObject( m_pCarNode[14] );
if ( pOutAtomic != nullptr )
SetComponentAtomicAlpha(pOutAtomic, bHasMovingRotor2 ? nStaticRotorAlpha : 255);
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}
if ( m_pCarNode[13] != nullptr )
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{
RpAtomic* pOutAtomic = (RpAtomic*)GetCurrentAtomicObject( m_pCarNode[13] );
if ( pOutAtomic != nullptr )
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SetComponentAtomicAlpha(pOutAtomic, bHasMovingRotor ? nMovingRotorAlpha : 0);
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}
if ( m_pCarNode[15] != nullptr )
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{
RpAtomic* pOutAtomic = (RpAtomic*)GetCurrentAtomicObject( m_pCarNode[15] );
if ( pOutAtomic != nullptr )
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SetComponentAtomicAlpha(pOutAtomic, bHasMovingRotor2 ? nMovingRotorAlpha : 0);
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}
CEntity::Render();
}
void CPlane::Render()
{
double dRotorsSpeed, dMovingRotorSpeed;
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bool bDisplayRotors = !ShouldIgnoreRotor( FLAUtils::GetExtendedID( &m_nModelIndex ) );
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bool bHasMovingProp = m_pCarNode[13] != nullptr && bDisplayRotors;
bool bHasMovingProp2 = m_pCarNode[15] != nullptr && bDisplayRotors;
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m_nTimeTillWeNeedThisCar = CTimer::m_snTimeInMilliseconds + 3000;
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if ( m_fPropellerSpeed > 0.0 )
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dRotorsSpeed = std::min(1.7 * (1.0/0.31) * m_fPropellerSpeed, 1.5);
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else
dRotorsSpeed = 0.0;
dMovingRotorSpeed = dRotorsSpeed - 0.4;
if ( dMovingRotorSpeed < 0.0 )
dMovingRotorSpeed = 0.0;
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int nStaticRotorAlpha = static_cast<int>(std::min((1.5-dRotorsSpeed) * 255.0, 255.0));
int nMovingRotorAlpha = static_cast<int>(std::min(dMovingRotorSpeed * 175.0, 175.0));
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if ( m_pCarNode[12] != nullptr )
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{
RpAtomic* pOutAtomic = (RpAtomic*)GetCurrentAtomicObject( m_pCarNode[12] );
if ( pOutAtomic != nullptr )
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SetComponentAtomicAlpha(pOutAtomic, bHasMovingProp ? nStaticRotorAlpha : 255);
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}
if ( m_pCarNode[14] != nullptr )
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{
RpAtomic* pOutAtomic = (RpAtomic*)GetCurrentAtomicObject( m_pCarNode[14] );
if ( pOutAtomic != nullptr )
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SetComponentAtomicAlpha(pOutAtomic, bHasMovingProp2 ? nStaticRotorAlpha : 255);
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}
if ( m_pCarNode[13] != nullptr )
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{
RpAtomic* pOutAtomic = (RpAtomic*)GetCurrentAtomicObject( m_pCarNode[13] );
if ( pOutAtomic != nullptr )
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SetComponentAtomicAlpha(pOutAtomic, bHasMovingProp ? nMovingRotorAlpha : 0);
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}
if ( m_pCarNode[15] != nullptr )
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{
RpAtomic* pOutAtomic = (RpAtomic*)GetCurrentAtomicObject( m_pCarNode[15] );
if ( pOutAtomic != nullptr )
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SetComponentAtomicAlpha(pOutAtomic, bHasMovingProp2 ? nMovingRotorAlpha : 0);
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}
CVehicle::Render();
}
void CPlane::Fix_SilentPatch()
{
// Reset bouncing panels
// No reset on Vortex
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const int32_t extID = FLAUtils::GetExtendedID( &m_nModelIndex );
for ( ptrdiff_t i = extID == 539 ? 1 : 0; i < 3; i++ )
{
m_aBouncingPanel[i].m_nNodeIndex = -1;
}
}
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void CAutomobile::PreRender()
{
(this->*(orgPreRender))();
if ( FLAUtils::GetExtendedID( &m_nModelIndex ) == 603 )
{
ProcessPhoenixBlower();
}
}
void CAutomobile::Fix_SilentPatch()
{
ResetFrames();
// Reset bouncing panels
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const int32_t extID = FLAUtils::GetExtendedID( &m_nModelIndex );
for ( ptrdiff_t i = (extID == 525 && m_pCarNode[21]) || (extID == 531 && m_pCarNode[17]) ? 1 : 0; i < 3; i++ )
{
// Towtruck/Tractor fix
m_aBouncingPanel[i].m_nNodeIndex = -1;
}
}
void CAutomobile::ResetFrames()
{
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RpClump* pOrigClump = reinterpret_cast<RpClump*>(ms_modelInfoPtrs[ FLAUtils::GetExtendedID( &m_nModelIndex ) ]->pRwObject);
if ( pOrigClump != nullptr )
{
// Instead of setting frame rotation to (0,0,0) like R* did, obtain the original frame matrix from CBaseNodelInfo clump
for ( ptrdiff_t i = 8; i < 25; i++ )
{
if ( m_pCarNode[i] != nullptr )
{
// Find a frame in CBaseModelInfo object
RwFrame* origFrame = GetFrameFromName( RpClumpGetFrame(pOrigClump), GetFrameNodeName(m_pCarNode[i]) );
if ( origFrame != nullptr )
{
// Found a frame, reset it
*RwFrameGetMatrix(m_pCarNode[i]) = *RwFrameGetMatrix(origFrame);
RwMatrixUpdate(RwFrameGetMatrix(m_pCarNode[i]));
}
}
}
}
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}
void CAutomobile::ProcessPhoenixBlower()
{
if ( m_pCarNode[20] == nullptr ) return;
float finalAngle = 0.0f;
if ( m_fGasPedal > 0.0f )
{
if ( m_fSpecialComponentAngle < 1.3f )
{
finalAngle = m_fSpecialComponentAngle = std::min( m_fSpecialComponentAngle + 0.1f * CTimer::m_fTimeStep, 1.3f );
}
else
{
finalAngle = m_fSpecialComponentAngle + (std::sin( (CTimer::m_snTimeInMilliseconds % 10000) / 70.0f ) * 0.13f);
}
}
else
{
if ( m_fSpecialComponentAngle > 0.0f )
{
finalAngle = m_fSpecialComponentAngle = std::max( m_fSpecialComponentAngle - 0.05f * CTimer::m_fTimeStep, 0.0f );
}
}
SetComponentRotation( m_pCarNode[20], 0, finalAngle, true );
}