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author | Nikolay Korolev <nickvnuk@gmail.com> | 2019-09-14 19:53:04 +0200 |
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committer | Nikolay Korolev <nickvnuk@gmail.com> | 2019-09-14 19:53:04 +0200 |
commit | 57f24ad5336594c3355c83c2571ea373f6167a62 (patch) | |
tree | f3ff779ddc0716189677d63dfa9ccbc87d2d29c6 /src | |
parent | Merge remote-tracking branch 'upstream/master' into carctrl_dev (diff) | |
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Diffstat (limited to 'src')
-rw-r--r-- | src/control/CarAI.cpp | 1 | ||||
-rw-r--r-- | src/control/CarAI.h | 1 | ||||
-rw-r--r-- | src/control/CarCtrl.cpp | 542 | ||||
-rw-r--r-- | src/control/CarCtrl.h | 18 | ||||
-rw-r--r-- | src/control/PathFind.h | 9 | ||||
-rw-r--r-- | src/control/Replay.cpp | 1 | ||||
-rw-r--r-- | src/vehicles/Vehicle.cpp | 2 | ||||
-rw-r--r-- | src/vehicles/Vehicle.h | 2 |
8 files changed, 535 insertions, 41 deletions
diff --git a/src/control/CarAI.cpp b/src/control/CarAI.cpp index 470c3d24..c98c2137 100644 --- a/src/control/CarAI.cpp +++ b/src/control/CarAI.cpp @@ -11,6 +11,7 @@ WRAPPER void CCarAI::MakeWayForCarWithSiren(CVehicle *veh) { EAXJMP(0x416280); } WRAPPER eCarMission CCarAI::FindPoliceCarMissionForWantedLevel() { EAXJMP(0x415E30); } WRAPPER int32 CCarAI::FindPoliceCarSpeedForWantedLevel(CVehicle*) { EAXJMP(0x415EB0); } WRAPPER void CCarAI::AddPoliceOccupants(CVehicle*) { EAXJMP(0x415C60); } +WRAPPER void CCarAI::TellOccupantsToLeaveCar(CVehicle*) { EAXJMP(0x415D20); } void CCarAI::CarHasReasonToStop(CVehicle* pVehicle) { diff --git a/src/control/CarAI.h b/src/control/CarAI.h index 0b0a939b..b04db021 100644 --- a/src/control/CarAI.h +++ b/src/control/CarAI.h @@ -13,4 +13,5 @@ public: static eCarMission FindPoliceCarMissionForWantedLevel(); static void AddPoliceOccupants(CVehicle*); static void CarHasReasonToStop(CVehicle*); + static void TellOccupantsToLeaveCar(CVehicle*); }; diff --git a/src/control/CarCtrl.cpp b/src/control/CarCtrl.cpp index 118fa5c9..94f414a8 100644 --- a/src/control/CarCtrl.cpp +++ b/src/control/CarCtrl.cpp @@ -52,6 +52,23 @@ #define ATTEMPTS_TO_FIND_NEXT_NODE 15 +#define TIME_COPS_WAIT_TO_EXIT_AFTER_STOPPING 2500 +#define DISTANCE_TO_SWITCH_FROM_BLOCK_TO_STOP 5.0f +#define DISTANCE_TO_SWITCH_FROM_STOP_TO_BLOCK 10.0f +#define MAX_SPEED_TO_ACCOUNT_IN_INTERCEPTING 0.13f +#define DISTANCE_TO_NEXT_NODE_TO_CONSIDER_SLOWING_DOWN 40.0f +#define MAX_ANGLE_TO_STEER_AT_HIGH_SPEED 0.2f +#define MIN_SPEED_TO_START_LIMITING_STEER 0.45f +#define DISTANCE_TO_NEXT_NODE_TO_SELECT_NEW 5.0f +#define DISTANCE_TO_FACING_NEXT_NODE_TO_SELECT_NEW 8.0f +#define DEFAULT_MAX_STEER_ANGLE 0.5f +#define MIN_LOWERING_SPEED_COEFFICIENT 0.4f +#define MAX_ANGLE_FOR_SPEED_LIMITING 1.2f +#define MIN_ANGLE_FOR_SPEED_LIMITING 0.4f +#define MIN_ANGLE_FOR_SPEED_LIMITING_BETWEEN_NODES 0.1f +#define MIN_ANGLE_TO_APPLY_HANDBRAKE 0.7f +#define MIN_SPEED_TO_APPLY_HANDBRAKE 0.3f + int &CCarCtrl::NumLawEnforcerCars = *(int*)0x8F1B38; int &CCarCtrl::NumAmbulancesOnDuty = *(int*)0x885BB0; int &CCarCtrl::NumFiretrucksOnDuty = *(int*)0x9411F0; @@ -66,16 +83,15 @@ int32 &CCarCtrl::MaxNumberOfCarsInUse = *(int32*)0x5EC8B8; uint32 &CCarCtrl::LastTimeLawEnforcerCreated = *(uint32*)0x8F5FF0; uint32 &CCarCtrl::LastTimeFireTruckCreated = *(uint32*)0x941450; uint32 &CCarCtrl::LastTimeAmbulanceCreated = *(uint32*)0x880F5C; -int32 (&CCarCtrl::TotalNumOfCarsOfRating)[7] = *(int32(*)[7])*(uintptr*)0x8F1A60; -int32 (&CCarCtrl::NextCarOfRating)[TOTAL_CUSTOM_CLASSES] = *(int32(*)[7])*(uintptr*)0x9412AC; -int32 (&CCarCtrl::CarArrays)[TOTAL_CUSTOM_CLASSES][MAX_CAR_MODELS_IN_ARRAY] = *(int32(*)[7][MAX_CAR_MODELS_IN_ARRAY])*(uintptr*)0x6EB860; +int32 (&CCarCtrl::TotalNumOfCarsOfRating)[TOTAL_CUSTOM_CLASSES] = *(int32(*)[TOTAL_CUSTOM_CLASSES])*(uintptr*)0x8F1A60; +int32 (&CCarCtrl::NextCarOfRating)[TOTAL_CUSTOM_CLASSES] = *(int32(*)[TOTAL_CUSTOM_CLASSES])*(uintptr*)0x9412AC; +int32 (&CCarCtrl::CarArrays)[TOTAL_CUSTOM_CLASSES][MAX_CAR_MODELS_IN_ARRAY] = *(int32(*)[TOTAL_CUSTOM_CLASSES][MAX_CAR_MODELS_IN_ARRAY])*(uintptr*)0x6EB860; CVehicle* (&apCarsToKeep)[MAX_CARS_TO_KEEP] = *(CVehicle*(*)[MAX_CARS_TO_KEEP])*(uintptr*)0x70D830; WRAPPER void CCarCtrl::SwitchVehicleToRealPhysics(CVehicle*) { EAXJMP(0x41F7F0); } WRAPPER void CCarCtrl::UpdateCarCount(CVehicle*, bool) { EAXJMP(0x4202E0); } WRAPPER bool CCarCtrl::JoinCarWithRoadSystemGotoCoors(CVehicle*, CVector, bool) { EAXJMP(0x41FA00); } WRAPPER void CCarCtrl::JoinCarWithRoadSystem(CVehicle*) { EAXJMP(0x41F820); } -WRAPPER void CCarCtrl::SteerAICarWithPhysics(CVehicle*) { EAXJMP(0x41DA60); } WRAPPER void CCarCtrl::RemoveFromInterestingVehicleList(CVehicle* v) { EAXJMP(0x41F7A0); } WRAPPER void CCarCtrl::GenerateEmergencyServicesCar(void) { EAXJMP(0x41FC50); } @@ -393,12 +409,12 @@ CCarCtrl::GenerateOneRandomCar() CCarPathLink* pCurrentLink = &ThePaths.m_carPathLinks[pCar->AutoPilot.m_nCurrentPathNodeInfo]; CCarPathLink* pNextLink = &ThePaths.m_carPathLinks[pCar->AutoPilot.m_nNextPathNodeInfo]; CVector positionOnCurrentLinkIncludingLane( - pCurrentLink->posX + GetOffsetOfLaneFromCenterOfRoad(pCar->AutoPilot.m_nCurrentLane, pCurrentLink) * currentPathLinkForwardY, - pCurrentLink->posY - GetOffsetOfLaneFromCenterOfRoad(pCar->AutoPilot.m_nCurrentLane, pCurrentLink) * currentPathLinkForwardX, + pCurrentLink->posX + ((pCar->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForwardY, + pCurrentLink->posY - ((pCar->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForwardX, 0.0f); CVector positionOnNextLinkIncludingLane( - pNextLink->posX + GetOffsetOfLaneFromCenterOfRoad(pCar->AutoPilot.m_nNextLane, pNextLink) * nextPathLinkForwardY, - pNextLink->posY - GetOffsetOfLaneFromCenterOfRoad(pCar->AutoPilot.m_nNextLane, pNextLink) * nextPathLinkForwardX, + pNextLink->posX + ((pCar->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardY, + pNextLink->posY - ((pCar->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardX, 0.0f); float directionCurrentLinkX = pCurrentLink->dirX * pCar->AutoPilot.m_nCurrentDirection; float directionCurrentLinkY = pCurrentLink->dirY * pCar->AutoPilot.m_nCurrentDirection; @@ -771,12 +787,12 @@ CCarCtrl::UpdateCarOnRails(CVehicle* pVehicle) float nextPathLinkForwardX = pNextLink->dirX * pVehicle->AutoPilot.m_nNextDirection; float nextPathLinkForwardY = pNextLink->dirY * pVehicle->AutoPilot.m_nNextDirection; CVector positionOnCurrentLinkIncludingLane( - pCurrentLink->posX + GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nCurrentLane, pCurrentLink) * currentPathLinkForwardY, - pCurrentLink->posY - GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nCurrentLane, pCurrentLink) * currentPathLinkForwardX, + pCurrentLink->posX + ((pVehicle->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForwardY, + pCurrentLink->posY - ((pVehicle->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForwardX, 0.0f); CVector positionOnNextLinkIncludingLane( - pNextLink->posX + GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nNextLane, pNextLink) * nextPathLinkForwardY, - pNextLink->posY - GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nNextLane, pNextLink) * nextPathLinkForwardX, + pNextLink->posX + ((pVehicle->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardY, + pNextLink->posY - ((pVehicle->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardX, 0.0f); CVector directionCurrentLink(currentPathLinkForwardX, currentPathLinkForwardY, 0.0f); CVector directionNextLink(nextPathLinkForwardX, nextPathLinkForwardY, 0.0f); @@ -1586,12 +1602,12 @@ void CCarCtrl::PickNextNodeRandomly(CVehicle* pVehicle) if (pVehicle->AutoPilot.m_bStayInFastLane) pVehicle->AutoPilot.m_nNextLane = 0; CVector positionOnCurrentLinkIncludingLane( - pCurLink->posX + GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nCurrentLane, pCurLink), /* ...what about Y? */ - pCurLink->posY - GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nCurrentLane, pCurLink) * currentPathLinkForwardX, + pCurLink->posX + ((pVehicle->AutoPilot.m_nCurrentLane + pCurLink->OneWayLaneOffset()) * LANE_WIDTH), /* ...what about Y? */ + pCurLink->posY - ((pVehicle->AutoPilot.m_nCurrentLane + pCurLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForwardX, 0.0f); CVector positionOnNextLinkIncludingLane( - pNextLink->posX + GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nNextLane, pNextLink), - pNextLink->posY - GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nNextLane, pNextLink) * nextPathLinkForwardX, + pNextLink->posX + ((pVehicle->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH), + pNextLink->posY - ((pVehicle->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardX, 0.0f); float directionCurrentLinkX = pCurLink->dirX * pVehicle->AutoPilot.m_nCurrentDirection; float directionCurrentLinkY = pCurLink->dirY * pVehicle->AutoPilot.m_nCurrentDirection; @@ -1766,12 +1782,12 @@ void CCarCtrl::PickNextNodeToChaseCar(CVehicle* pVehicle, float targetX, float t if (pVehicle->AutoPilot.m_bStayInFastLane) pVehicle->AutoPilot.m_nNextLane = 0; CVector positionOnCurrentLinkIncludingLane( - pCurLink->posX + GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nCurrentLane, pCurLink) * currentPathLinkForwardY, - pCurLink->posY - GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nCurrentLane, pCurLink) * currentPathLinkForwardX, + pCurLink->posX + ((pVehicle->AutoPilot.m_nCurrentLane + pCurLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForwardY, + pCurLink->posY - ((pVehicle->AutoPilot.m_nCurrentLane + pCurLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForwardX, 0.0f); CVector positionOnNextLinkIncludingLane( - pNextLink->posX + GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nNextLane, pNextLink) * nextPathLinkForwardY, - pNextLink->posY - GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nNextLane, pNextLink) * nextPathLinkForwardX, + pNextLink->posX + ((pVehicle->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardY, + pNextLink->posY - ((pVehicle->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardX, 0.0f); float directionCurrentLinkX = pCurLink->dirX * pVehicle->AutoPilot.m_nCurrentDirection; float directionCurrentLinkY = pCurLink->dirY * pVehicle->AutoPilot.m_nCurrentDirection; @@ -1846,12 +1862,12 @@ bool CCarCtrl::PickNextNodeToFollowPath(CVehicle* pVehicle) if (pVehicle->AutoPilot.m_bStayInFastLane) pVehicle->AutoPilot.m_nNextLane = 0; CVector positionOnCurrentLinkIncludingLane( - pCurLink->posX + GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nCurrentLane, pCurLink) * currentPathLinkForwardY, - pCurLink->posY - GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nCurrentLane, pCurLink) * currentPathLinkForwardX, + pCurLink->posX + ((pVehicle->AutoPilot.m_nCurrentLane + pCurLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForwardY, + pCurLink->posY - ((pVehicle->AutoPilot.m_nCurrentLane + pCurLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForwardX, 0.0f); CVector positionOnNextLinkIncludingLane( - pNextLink->posX + GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nNextLane, pNextLink) * nextPathLinkForwardY, - pNextLink->posY - GetOffsetOfLaneFromCenterOfRoad(pVehicle->AutoPilot.m_nNextLane, pNextLink) * nextPathLinkForwardX, + pNextLink->posX + ((pVehicle->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardY, + pNextLink->posY - ((pVehicle->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardX, 0.0f); float directionCurrentLinkX = pCurLink->dirX * pVehicle->AutoPilot.m_nCurrentDirection; float directionCurrentLinkY = pCurLink->dirY * pVehicle->AutoPilot.m_nCurrentDirection; @@ -1956,7 +1972,7 @@ void CCarCtrl::DragCarToPoint(CVehicle* pVehicle, CVector* pPoint) actualBehindZ = point.point.z; pVehicle->m_pCurGroundEntity = pRoadObject; if (ThisRoadObjectCouldMove(pRoadObject->GetModelIndex())) - pVehicle->m_aCollPolys[0].valid = false; + pVehicle->m_aCollPolys[1].valid = false; }else{ actualBehindZ = pVehicle->m_fMapObjectHeightBehind; } @@ -1970,12 +1986,477 @@ void CCarCtrl::DragCarToPoint(CVehicle* pVehicle, CVector* pPoint) pVehicle->GetPosition() = (CVector(midPos.x, midPos.y, actualBehindZ) + CVector(posTarget.x, posTarget.y, actualAheadZ)) / 2; pVehicle->GetPosition().z += pVehicle->GetHeightAboveRoad(); - debug("right: %f %f %f\n", pVehicle->GetRight().x, pVehicle->GetRight().y, pVehicle->GetRight().z); - debug("forward: %f %f %f\n", pVehicle->GetForward().x, pVehicle->GetForward().y, pVehicle->GetForward().z); - debug("up: %f %f %f\n", pVehicle->GetUp().x, pVehicle->GetUp().y, pVehicle->GetUp().z); - debug("pos: %f %f %f\n", pVehicle->GetPosition().x, pVehicle->GetPosition().y, pVehicle->GetPosition().z); } +float CCarCtrl::FindSpeedMultiplier(float angleChange, float minAngle, float maxAngle, float coef) +{ + float actual = ((float(*)(float, float, float, float))(0x41D980))(angleChange, minAngle, maxAngle, coef); + float angle = Abs(LimitRadianAngle(angleChange)); + float n = angle - minAngle; + n = max(0.0f, n); + float d = maxAngle - minAngle; + float mult = 1.0f - n / d * (1.0f - coef); + if (n > d) + return coef == actual ? coef : ASSERT(0), coef; + if (ABS(mult - actual) > 0.01f) + ASSERT(0); + return mult; +} + +void CCarCtrl::SteerAICarWithPhysics(CVehicle* pVehicle) +{ + float swerve; + float accel; + float brake; + bool handbrake; + switch (pVehicle->AutoPilot.m_nTempAction){ + case TEMPACT_WAIT: + swerve = 0.0f; + accel = 0.0f; + brake = 0.2f; + handbrake = false; + if (CTimer::GetTimeInMilliseconds() > pVehicle->AutoPilot.m_nTimeTempAction){ + pVehicle->AutoPilot.m_nTempAction = TEMPACT_NONE; + pVehicle->AutoPilot.m_nAntiReverseTimer = CTimer::GetTimeInMilliseconds(); + pVehicle->AutoPilot.m_nTimeTempAction = CTimer::GetTimeInMilliseconds(); + } + break; + case TEMPACT_REVERSE: + SteerAICarWithPhysics_OnlyMission(pVehicle, &swerve, &accel, &brake, &handbrake); + handbrake = false; + swerve = -swerve; + if (DotProduct(pVehicle->GetMoveSpeed(), pVehicle->GetForward()) > 0.04f){ + accel = 0.0f; + brake = 0.5f; + }else{ + accel = -0.5f; + brake = 0.0f; + } + if (CTimer::GetTimeInMilliseconds() > pVehicle->AutoPilot.m_nTimeTempAction) + pVehicle->AutoPilot.m_nTempAction = TEMPACT_NONE; + break; + case TEMPACT_HANDBRAKETURNLEFT: + swerve = -1.0f; // It seems like this should be swerve = 1.0f (fixed in VC) + accel = 0.0f; + brake = 0.0f; + handbrake = true; + if (CTimer::GetTimeInMilliseconds() > pVehicle->AutoPilot.m_nTimeTempAction) + pVehicle->AutoPilot.m_nTempAction = TEMPACT_NONE; + break; + case TEMPACT_HANDBRAKETURNRIGHT: + swerve = 1.0f; // It seems like this should be swerve = -1.0f (fixed in VC) + accel = 0.0f; + brake = 0.0f; + handbrake = true; + if (CTimer::GetTimeInMilliseconds() > pVehicle->AutoPilot.m_nTimeTempAction) + pVehicle->AutoPilot.m_nTempAction = TEMPACT_NONE; + break; + case TEMPACT_HANDBRAKESTRAIGHT: + swerve = 0.0f; + accel = 0.0f; + brake = 0.0f; + handbrake = true; + if (CTimer::GetTimeInMilliseconds() > pVehicle->AutoPilot.m_nTimeTempAction) + pVehicle->AutoPilot.m_nTempAction = TEMPACT_NONE; + break; + case TEMPACT_TURNLEFT: + swerve = 1.0f; + accel = 1.0f; + brake = 0.0f; + handbrake = false; + if (CTimer::GetTimeInMilliseconds() > pVehicle->AutoPilot.m_nTimeTempAction) + pVehicle->AutoPilot.m_nTempAction = TEMPACT_NONE; + break; + case TEMPACT_TURNRIGHT: + swerve = -1.0f; + accel = 1.0f; + brake = 0.0f; + handbrake = false; + if (CTimer::GetTimeInMilliseconds() > pVehicle->AutoPilot.m_nTimeTempAction) + pVehicle->AutoPilot.m_nTempAction = TEMPACT_NONE; + break; + case TEMPACT_GOFORWARD: + swerve = 0.0f; + accel = 0.5f; + brake = 0.0f; + handbrake = false; + if (CTimer::GetTimeInMilliseconds() > pVehicle->AutoPilot.m_nTimeTempAction) + pVehicle->AutoPilot.m_nTempAction = TEMPACT_NONE; + break; + case TEMPACT_SWERVELEFT: + case TEMPACT_SWERVERIGHT: + swerve = (pVehicle->AutoPilot.m_nTempAction == TEMPACT_SWERVERIGHT) ? 0.15f : -0.15f; + accel = 0.0f; + brake = 0.001f; + handbrake = false; + if (CTimer::GetTimeInMilliseconds() > pVehicle->AutoPilot.m_nTimeTempAction - 1000) + swerve = -swerve; + if (CTimer::GetTimeInMilliseconds() > pVehicle->AutoPilot.m_nTimeTempAction) + pVehicle->AutoPilot.m_nTempAction = TEMPACT_NONE; + break; + default: + SteerAICarWithPhysics_OnlyMission(pVehicle, &swerve, &accel, &brake, &handbrake); + break; + } + pVehicle->m_fSteerAngle = swerve; + pVehicle->bIsHandbrakeOn = handbrake; + pVehicle->m_fGasPedal = accel; + pVehicle->m_fBrakePedal = brake; +} + +void CCarCtrl::SteerAICarWithPhysics_OnlyMission(CVehicle* pVehicle, float* pSwerve, float* pAccel, float* pBrake, bool* pHandbrake) +{ + switch (pVehicle->AutoPilot.m_nCarMission) { + case MISSION_NONE: + *pSwerve = 0.0f; + *pAccel = 0.0f; + *pBrake = 0.5f; + *pHandbrake = true; + return; + case MISSION_CRUISE: + case MISSION_RAMPLAYER_FARAWAY: + case MISSION_BLOCKPLAYER_FARAWAY: + case MISSION_GOTOCOORDS: + case MISSION_GOTOCOORDS_ACCURATE: + case MISSION_RAMCAR_FARAWAY: + case MISSION_BLOCKCAR_FARAWAY: + { + SteerAICarWithPhysicsFollowPath(pVehicle, pSwerve, pAccel, pBrake, pHandbrake); + return; + } + case MISSION_RAMPLAYER_CLOSE: + { + CVector2D targetPos = FindPlayerCoors(); + if (FindPlayerVehicle()){ + if (pVehicle->m_randomSeed & 1 && DotProduct(FindPlayerVehicle()->GetForward(), pVehicle->GetForward()) > 0.5f){ + float targetWidth = FindPlayerVehicle()->GetColModel()->boundingBox.max.x; + float ownWidth = pVehicle->GetColModel()->boundingBox.max.x; + if (pVehicle->m_randomSeed & 2){ + targetPos += (targetWidth + ownWidth - 0.2f) * FindPlayerVehicle()->GetRight(); + }else{ + targetPos -= (targetWidth + ownWidth - 0.2f) * FindPlayerVehicle()->GetRight(); + } + float targetSpeed = FindPlayerVehicle()->GetMoveSpeed().Magnitude(); + float distanceToTarget = ((CVector2D)pVehicle->GetPosition() - targetPos).Magnitude(); + if (12.0f * targetSpeed + 2.0f > distanceToTarget && pVehicle->AutoPilot.m_nTempAction == TEMPACT_NONE){ + pVehicle->AutoPilot.m_nTempAction = (pVehicle->m_randomSeed & 2) ? TEMPACT_TURNLEFT : TEMPACT_TURNRIGHT; + pVehicle->AutoPilot.m_nTimeTempAction = CTimer::GetTimeInMilliseconds() + 250; + } + }else{ + targetPos += FindPlayerVehicle()->GetRight() / 160 * ((pVehicle->m_randomSeed & 0xFF) - 128); + } + } + SteerAICarWithPhysicsHeadingForTarget(pVehicle, FindPlayerVehicle(), targetPos.x, targetPos.y, pSwerve, pAccel, pBrake, pHandbrake); + return; + } + case MISSION_BLOCKPLAYER_CLOSE: + SteerAICarWithPhysicsTryingToBlockTarget(pVehicle, FindPlayerCoors().x, FindPlayerCoors().y, + FindPlayerSpeed().x, FindPlayerSpeed().y, pSwerve, pAccel, pBrake, pHandbrake); + return; + case MISSION_BLOCKPLAYER_HANDBRAKESTOP: + SteerAICarWithPhysicsTryingToBlockTarget_Stop(pVehicle, FindPlayerCoors().x, FindPlayerCoors().y, + FindPlayerSpeed().x, FindPlayerSpeed().y, pSwerve, pAccel, pBrake, pHandbrake); + return; + case MISSION_GOTOCOORDS_STRAIGHT: + case MISSION_GOTO_COORDS_STRAIGHT_ACCURATE: + SteerAICarWithPhysicsHeadingForTarget(pVehicle, nil, + pVehicle->AutoPilot.m_vecDestinationCoors.x, pVehicle->AutoPilot.m_vecDestinationCoors.y, + pSwerve, pAccel, pBrake, pHandbrake); + return; + case MISSION_EMERGENCYVEHICLE_STOP: + case MISSION_STOP_FOREVER: + *pSwerve = 0.0f; + *pAccel = 0.0f; + *pHandbrake = true; + *pBrake = 0.5f; + return; + case MISSION_RAMCAR_CLOSE: + SteerAICarWithPhysicsHeadingForTarget(pVehicle, pVehicle->AutoPilot.m_pTargetCar, + pVehicle->AutoPilot.m_pTargetCar->GetPosition().x, pVehicle->AutoPilot.m_pTargetCar->GetPosition().y, + pSwerve, pAccel, pBrake, pHandbrake); + return; + case MISSION_BLOCKCAR_CLOSE: + SteerAICarWithPhysicsTryingToBlockTarget(pVehicle, + pVehicle->AutoPilot.m_pTargetCar->GetPosition().x, + pVehicle->AutoPilot.m_pTargetCar->GetPosition().y, + pVehicle->AutoPilot.m_pTargetCar->GetMoveSpeed().x, + pVehicle->AutoPilot.m_pTargetCar->GetMoveSpeed().y, + pSwerve, pAccel, pBrake, pHandbrake); + return; + case MISSION_BLOCKCAR_HANDBRAKESTOP: + SteerAICarWithPhysicsTryingToBlockTarget_Stop(pVehicle, + pVehicle->AutoPilot.m_pTargetCar->GetPosition().x, + pVehicle->AutoPilot.m_pTargetCar->GetPosition().y, + pVehicle->AutoPilot.m_pTargetCar->GetMoveSpeed().x, + pVehicle->AutoPilot.m_pTargetCar->GetMoveSpeed().y, + pSwerve, pAccel, pBrake, pHandbrake); + return; + default: + return; + } +} + +void CCarCtrl::SteerAIBoatWithPhysics(CBoat* pBoat) +{ + if (pBoat->AutoPilot.m_nCarMission == MISSION_GOTOCOORDS_ASTHECROWSWIMS){ + SteerAIBoatWithPhysicsHeadingForTarget(pBoat, + pBoat->AutoPilot.m_vecDestinationCoors.x, pBoat->AutoPilot.m_vecDestinationCoors.y, + &pBoat->m_fSteeringLeftRight, &pBoat->m_fAccelerate, &pBoat->m_fBrake); + }else if (pBoat->AutoPilot.m_nCarMission == MISSION_NONE){ + pBoat->m_fSteeringLeftRight = 0.0f; + pBoat->m_fAccelerate = 0.0f; + pBoat->m_fBrake = 0.0f; + } + pBoat->m_fSteerAngle = pBoat->m_fSteeringLeftRight; + pBoat->m_fGasPedal = pBoat->m_fAccelerate; + pBoat->m_fBrakePedal = pBoat->m_fBrake; + pBoat->bIsHandbrakeOn = false; +} + +float CCarCtrl::FindMaxSteerAngle(CVehicle* pVehicle) +{ + return pVehicle->GetModelIndex() == MI_ENFORCER ? 0.7f : DEFAULT_MAX_STEER_ANGLE; +} + +void CCarCtrl::SteerAICarWithPhysicsFollowPath(CVehicle* pVehicle, float* pSwerve, float* pAccel, float* pBrake, bool* pHandbrake) +{ + CVector2D forward = pVehicle->GetForward(); + forward.Normalise(); + CCarPathLink* pCurrentLink = &ThePaths.m_carPathLinks[pVehicle->AutoPilot.m_nCurrentPathNodeInfo]; + CCarPathLink* pNextLink = &ThePaths.m_carPathLinks[pVehicle->AutoPilot.m_nNextPathNodeInfo]; + CVector2D currentPathLinkForward(pCurrentLink->dirX * pVehicle->AutoPilot.m_nCurrentDirection, + pCurrentLink->dirY * pVehicle->AutoPilot.m_nCurrentDirection); + float nextPathLinkForwardX = pNextLink->dirX * pVehicle->AutoPilot.m_nNextDirection; + float nextPathLinkForwardY = pNextLink->dirY * pVehicle->AutoPilot.m_nNextDirection; + CVector2D positionOnCurrentLinkIncludingLane( + pCurrentLink->posX + ((pVehicle->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForward.y, + pCurrentLink->posY - ((pVehicle->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForward.x); + CVector2D positionOnNextLinkIncludingLane( + pNextLink->posX + ((pVehicle->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardY, + pNextLink->posY - ((pVehicle->AutoPilot.m_nNextLane + pNextLink->OneWayLaneOffset()) * LANE_WIDTH) * nextPathLinkForwardX); + CVector2D distanceToNextNode = (CVector2D)pVehicle->GetPosition() - positionOnCurrentLinkIncludingLane; + float scalarDistanceToNextNode = distanceToNextNode.Magnitude(); + CVector2D distanceBetweenNodes = positionOnNextLinkIncludingLane - positionOnCurrentLinkIncludingLane; + float dp = DotProduct2D(distanceBetweenNodes, distanceToNextNode); + if (scalarDistanceToNextNode < DISTANCE_TO_NEXT_NODE_TO_SELECT_NEW || + dp > 0.0f && scalarDistanceToNextNode < DISTANCE_TO_FACING_NEXT_NODE_TO_SELECT_NEW || + dp / (scalarDistanceToNextNode * distanceBetweenNodes.Magnitude()) > 0.7f || + pVehicle->AutoPilot.m_nNextPathNodeInfo == pVehicle->AutoPilot.m_nCurrentPathNodeInfo){ + if (PickNextNodeAccordingStrategy(pVehicle)) { + switch (pVehicle->AutoPilot.m_nCarMission){ + case MISSION_GOTOCOORDS: + pVehicle->AutoPilot.m_nCarMission = MISSION_GOTOCOORDS_STRAIGHT; + *pSwerve = 0.0f; + *pAccel = 0.0f; + *pBrake = 0.0f; + *pHandbrake = false; + return; + case MISSION_GOTOCOORDS_ACCURATE: + pVehicle->AutoPilot.m_nCarMission = MISSION_GOTO_COORDS_STRAIGHT_ACCURATE; + *pSwerve = 0.0f; + *pAccel = 0.0f; + *pBrake = 0.0f; + *pHandbrake = false; + return; + } + } + pCurrentLink = &ThePaths.m_carPathLinks[pVehicle->AutoPilot.m_nCurrentPathNodeInfo]; + scalarDistanceToNextNode = CVector2D( + pCurrentLink->posX + ((pVehicle->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForward.y - pVehicle->GetPosition().x, + pCurrentLink->posY - ((pVehicle->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForward.x - pVehicle->GetPosition().y).Magnitude(); + pNextLink = &ThePaths.m_carPathLinks[pVehicle->AutoPilot.m_nNextPathNodeInfo]; + currentPathLinkForward.x = pCurrentLink->dirX * pVehicle->AutoPilot.m_nCurrentDirection; + currentPathLinkForward.y = pCurrentLink->dirY * pVehicle->AutoPilot.m_nCurrentDirection; + nextPathLinkForwardX = pNextLink->dirX * pVehicle->AutoPilot.m_nNextDirection; + nextPathLinkForwardY = pNextLink->dirY * pVehicle->AutoPilot.m_nNextDirection; + } + positionOnCurrentLinkIncludingLane.x = pCurrentLink->posX + ((pVehicle->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForward.y; + positionOnCurrentLinkIncludingLane.y = pCurrentLink->posY - ((pVehicle->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForward.x; + CVector2D projectedPosition = positionOnCurrentLinkIncludingLane - currentPathLinkForward * scalarDistanceToNextNode * 0.4f; + if (scalarDistanceToNextNode > DISTANCE_TO_NEXT_NODE_TO_CONSIDER_SLOWING_DOWN){ + projectedPosition.x = positionOnCurrentLinkIncludingLane.x; + projectedPosition.y = positionOnCurrentLinkIncludingLane.y; + } + CVector2D distanceToProjectedPosition = projectedPosition - pVehicle->GetPosition(); + float angleCurrentLink = CGeneral::GetATanOfXY(distanceToProjectedPosition.x, distanceToProjectedPosition.y); + float angleForward = CGeneral::GetATanOfXY(forward.x, forward.y); + if (pVehicle->AutoPilot.m_nDrivingStyle == DRIVINGSTYLE_AVOID_CARS) + angleCurrentLink = FindAngleToWeaveThroughTraffic(pVehicle, nil, angleCurrentLink, angleForward); + float steerAngle = LimitRadianAngle(angleCurrentLink - angleForward); + float maxAngle = FindMaxSteerAngle(pVehicle); + steerAngle = min(maxAngle, max(-maxAngle, steerAngle)); + if (pVehicle->GetMoveSpeed().Magnitude() > MIN_SPEED_TO_START_LIMITING_STEER) + steerAngle = min(MAX_ANGLE_TO_STEER_AT_HIGH_SPEED, max(-MAX_ANGLE_TO_STEER_AT_HIGH_SPEED, steerAngle)); + float currentForwardSpeed = DotProduct(pVehicle->GetMoveSpeed(), pVehicle->GetForward()) * GAME_SPEED_TO_CARAI_SPEED; + float speedStyleMultiplier; + switch (pVehicle->AutoPilot.m_nDrivingStyle) { + case DRIVINGSTYLE_STOP_FOR_CARS: + case DRIVINGSTYLE_SLOW_DOWN_FOR_CARS: + speedStyleMultiplier = FindMaximumSpeedForThisCarInTraffic(pVehicle) / pVehicle->AutoPilot.m_nCruiseSpeed; + break; + default: + speedStyleMultiplier = 1.0f; + break; + } + switch (pVehicle->AutoPilot.m_nDrivingStyle) { + case DRIVINGSTYLE_STOP_FOR_CARS: + case DRIVINGSTYLE_SLOW_DOWN_FOR_CARS: + if (CTrafficLights::ShouldCarStopForLight(pVehicle, false)){ + CCarAI::CarHasReasonToStop(pVehicle); + speedStyleMultiplier = 0.0f; + } + break; + default: + break; + } + if (CTrafficLights::ShouldCarStopForBridge(pVehicle)){ + CCarAI::CarHasReasonToStop(pVehicle); + speedStyleMultiplier = 0.0f; + } + CVector2D trajectory(pCurrentLink->posX + ((pVehicle->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForward.y, + pCurrentLink->posY - ((pVehicle->AutoPilot.m_nCurrentLane + pCurrentLink->OneWayLaneOffset()) * LANE_WIDTH) * currentPathLinkForward.x); + trajectory -= pVehicle->GetPosition(); + float speedAngleMultiplier = FindSpeedMultiplier( + CGeneral::GetATanOfXY(trajectory.x, trajectory.y) - angleForward, + MIN_ANGLE_FOR_SPEED_LIMITING, MAX_ANGLE_FOR_SPEED_LIMITING, MIN_LOWERING_SPEED_COEFFICIENT); + float tmpWideMultiplier = FindSpeedMultiplier( + CGeneral::GetATanOfXY(currentPathLinkForward.x, currentPathLinkForward.y) - + CGeneral::GetATanOfXY(nextPathLinkForwardX, nextPathLinkForwardY), + MIN_ANGLE_FOR_SPEED_LIMITING_BETWEEN_NODES, MAX_ANGLE_FOR_SPEED_LIMITING, MIN_LOWERING_SPEED_COEFFICIENT); + float speedNodesMultiplier; + if (scalarDistanceToNextNode > DISTANCE_TO_NEXT_NODE_TO_CONSIDER_SLOWING_DOWN || pVehicle->AutoPilot.m_nCruiseSpeed < 12) + speedNodesMultiplier = 1.0f; + else + speedNodesMultiplier = 1.0f - + (1.0f - scalarDistanceToNextNode / DISTANCE_TO_NEXT_NODE_TO_CONSIDER_SLOWING_DOWN) * + (1.0f - tmpWideMultiplier); + float speedMultiplier = min(speedStyleMultiplier, min(speedAngleMultiplier, speedNodesMultiplier)); + float speed = pVehicle->AutoPilot.m_nCruiseSpeed * speedMultiplier; + float speedDifference = speed - currentForwardSpeed; + if (speed < 0.05f && speedDifference < 0.03f){ + *pBrake = 1.0f; + *pAccel = 0.0f; + }else if (speedDifference <= 0.0f){ + *pBrake = min(0.5f, -speedDifference * 0.05f); + *pAccel = 0.0f; + }else if (currentForwardSpeed < 2.0f){ + *pBrake = 0.0f; + *pAccel = min(1.0f, speedDifference * 0.25f); + }else{ + *pBrake = 0.0f; + *pAccel = min(1.0f, speedDifference * 0.125f); + } + *pSwerve = steerAngle; + *pHandbrake = false; +} + +void CCarCtrl::SteerAICarWithPhysicsHeadingForTarget(CVehicle* pVehicle, CPhysical* pTarget, float targetX, float targetY, float* pSwerve, float* pAccel, float* pBrake, bool* pHandbrake) +{ + *pHandbrake = false; + CVector2D forward = pVehicle->GetForward(); + forward.Normalise(); + float angleToTarget = CGeneral::GetATanOfXY(targetX - pVehicle->GetPosition().x, targetY - pVehicle->GetPosition().y); + float angleForward = CGeneral::GetATanOfXY(forward.x, forward.y); + if (pVehicle->AutoPilot.m_nDrivingStyle == DRIVINGSTYLE_AVOID_CARS) + angleToTarget = FindAngleToWeaveThroughTraffic(pVehicle, pTarget, angleToTarget, angleForward); + float steerAngle = LimitRadianAngle(angleToTarget - angleForward); + if (pVehicle->GetMoveSpeed().Magnitude() > MIN_SPEED_TO_APPLY_HANDBRAKE) + if (ABS(steerAngle) > MIN_ANGLE_TO_APPLY_HANDBRAKE) + *pHandbrake = true; + float maxAngle = FindMaxSteerAngle(pVehicle); + steerAngle = min(maxAngle, max(-maxAngle, steerAngle)); + float speedMultiplier = FindSpeedMultiplier(angleToTarget - angleForward, + MIN_ANGLE_FOR_SPEED_LIMITING, MAX_ANGLE_FOR_SPEED_LIMITING, MIN_LOWERING_SPEED_COEFFICIENT); + float speedTarget = pVehicle->AutoPilot.m_nCruiseSpeed * speedMultiplier; + float currentSpeed = pVehicle->GetMoveSpeed().Magnitude() * GAME_SPEED_TO_CARAI_SPEED; + float speedDiff = speedTarget - currentSpeed; + if (speedDiff <= 0.0f){ + *pAccel = 0.0f; + *pBrake = min(0.5f, -speedDiff * 0.05f); + }else if (currentSpeed < 25.0f){ + *pAccel = min(1.0f, speedDiff * 0.1f); + *pBrake = 0.0f; + }else{ + *pAccel = 1.0f; + *pBrake = 0.0f; + } + *pSwerve = steerAngle; +} + +void CCarCtrl::SteerAICarWithPhysicsTryingToBlockTarget(CVehicle* pVehicle, float targetX, float targetY, float targetSpeedX, float targetSpeedY, float* pSwerve, float* pAccel, float* pBrake, bool* pHandbrake) +{ + CVector2D targetPos(targetX, targetY); + CVector2D offset(targetSpeedX, targetSpeedY); + float trajectoryLen = offset.Magnitude(); + if (trajectoryLen > MAX_SPEED_TO_ACCOUNT_IN_INTERCEPTING) + offset *= MAX_SPEED_TO_ACCOUNT_IN_INTERCEPTING / trajectoryLen; + targetPos += offset * GAME_SPEED_TO_CARAI_SPEED; + pVehicle->AutoPilot.m_nDrivingStyle = DRIVINGSTYLE_AVOID_CARS; + SteerAICarWithPhysicsHeadingForTarget(pVehicle, nil, targetPos.x, targetPos.y, pSwerve, pAccel, pBrake, pHandbrake); + if ((targetPos - pVehicle->GetPosition()).MagnitudeSqr() < SQR(DISTANCE_TO_SWITCH_FROM_BLOCK_TO_STOP)) + pVehicle->AutoPilot.m_nCarMission = (pVehicle->AutoPilot.m_nCarMission == MISSION_BLOCKCAR_CLOSE) ? + MISSION_BLOCKCAR_HANDBRAKESTOP : MISSION_BLOCKPLAYER_HANDBRAKESTOP; +} +void CCarCtrl::SteerAICarWithPhysicsTryingToBlockTarget_Stop(CVehicle* pVehicle, float targetX, float targetY, float targetSpeedX, float targetSpeedY, float* pSwerve, float* pAccel, float* pBrake, bool* pHandbrake) +{ + *pSwerve = 0.0f; + *pAccel = 0.0f; + *pBrake = 1.0f; + *pHandbrake = true; + float distanceToTargetSqr = (CVector2D(targetX, targetY) - pVehicle->GetPosition()).MagnitudeSqr(); + if (distanceToTargetSqr > SQR(DISTANCE_TO_SWITCH_FROM_STOP_TO_BLOCK)){ + pVehicle->AutoPilot.m_nCarMission = (pVehicle->AutoPilot.m_nCarMission == MISSION_BLOCKCAR_HANDBRAKESTOP) ? + MISSION_BLOCKCAR_CLOSE : MISSION_BLOCKPLAYER_CLOSE; + return; + } + if (pVehicle->AutoPilot.m_nCarMission == MISSION_BLOCKCAR_HANDBRAKESTOP){ + if (((CVector2D)pVehicle->GetMoveSpeed()).MagnitudeSqr() < SQR(0.01f) && + CVector2D(targetSpeedX, targetSpeedY).MagnitudeSqr() < SQR(0.02f) && + pVehicle->bIsLawEnforcer){ + CCarAI::TellOccupantsToLeaveCar(pVehicle); + pVehicle->AutoPilot.m_nCruiseSpeed = 0; + pVehicle->AutoPilot.m_nCarMission = MISSION_NONE; + } + }else{ + if (FindPlayerVehicle() && FindPlayerVehicle()->GetMoveSpeed().Magnitude() < 0.05f) +#ifdef FIX_BUGS + pVehicle->m_nTimeBlocked += CTimer::GetTimeStepInMilliseconds(); +#else + pVehicle->m_nTimeBlocked += 16.66f * CTimer::GetTimeStep(); // very doubtful constant +#endif + else + pVehicle->m_nTimeBlocked = 0; + if ((FindPlayerVehicle() == nil || FindPlayerVehicle()->IsUpsideDown() || + FindPlayerVehicle()->GetMoveSpeed().Magnitude() < 0.05f) && + pVehicle->m_nTimeBlocked > TIME_COPS_WAIT_TO_EXIT_AFTER_STOPPING){ + if (pVehicle->bIsLawEnforcer && distanceToTargetSqr < SQR(DISTANCE_TO_SWITCH_FROM_STOP_TO_BLOCK)){ + CCarAI::TellOccupantsToLeaveCar(pVehicle); + pVehicle->AutoPilot.m_nCruiseSpeed = 0; + pVehicle->AutoPilot.m_nCarMission = MISSION_NONE; + } + } + } +} + +void CCarCtrl::SteerAIBoatWithPhysicsHeadingForTarget(CBoat* pBoat, float targetX, float targetY, float* pSwerve, float* pAccel, float* pBrake) +{ + CVector2D forward(pBoat->GetForward()); + forward.Normalise(); + CVector2D distanceToTarget = CVector2D(targetX, targetY) - pBoat->GetPosition(); + float angleToTarget = CGeneral::GetATanOfXY(distanceToTarget.x, distanceToTarget.y); + float angleForward = CGeneral::GetATanOfXY(forward.x, forward.y); + float angleDiff = LimitRadianAngle(angleToTarget - angleForward); + angleDiff = min(DEFAULT_MAX_STEER_ANGLE, max(-DEFAULT_MAX_STEER_ANGLE, angleDiff)); + float currentSpeed = pBoat->GetMoveSpeed().Magnitude(); // +0.0f for some reason + float speedDiff = pBoat->AutoPilot.m_nCruiseSpeed - currentSpeed; + if (speedDiff > 0.0f){ + float accRemaining = speedDiff / pBoat->AutoPilot.m_nCruiseSpeed; + *pAccel = (accRemaining > 0.25f) ? 1.0f : 1.0f - (0.25f - accRemaining) * 4.0f; + }else + *pAccel = (speedDiff < -5.0f) ? -0.2f : -0.1f; + *pBrake = 0.0f; + *pSwerve = angleDiff; +} bool CCarCtrl::ThisRoadObjectCouldMove(int16 mi) { @@ -1994,9 +2475,6 @@ InjectHook(0x416580, &CCarCtrl::GenerateRandomCars, PATCH_JUMP); InjectHook(0x417EC0, &CCarCtrl::ChooseModel, PATCH_JUMP); InjectHook(0x418320, &CCarCtrl::RemoveDistantCars, PATCH_JUMP); InjectHook(0x418430, &CCarCtrl::PossiblyRemoveVehicle, PATCH_JUMP); -InjectHook(0x418C10, &CCarCtrl::FindMaximumSpeedForThisCarInTraffic, PATCH_JUMP); -InjectHook(0x41A590, &CCarCtrl::FindAngleToWeaveThroughTraffic, PATCH_JUMP); -InjectHook(0x41BA50, &CCarCtrl::PickNextNodeAccordingStrategy, PATCH_JUMP); InjectHook(0x41D280, &CCarCtrl::Init, PATCH_JUMP); InjectHook(0x41D3B0, &CCarCtrl::ReInit, PATCH_JUMP); ENDPATCHES diff --git a/src/control/CarCtrl.h b/src/control/CarCtrl.h index f545d492..17dc4bf5 100644 --- a/src/control/CarCtrl.h +++ b/src/control/CarCtrl.h @@ -1,5 +1,6 @@ #pragma once #include "PathFind.h" +#include "Boat.h" #include "Vehicle.h" class CZoneInfo; @@ -44,7 +45,6 @@ public: static int32 ChooseCarModel(int32 vehclass); static bool JoinCarWithRoadSystemGotoCoors(CVehicle*, CVector, bool); static void JoinCarWithRoadSystem(CVehicle*); - static void SteerAICarWithPhysics(CVehicle*); static void UpdateCarOnRails(CVehicle*); static bool MapCouldMoveInThisArea(float x, float y); static void ScanForPedDanger(CVehicle *veh); @@ -84,14 +84,18 @@ public: static uint8 FindPathDirection(int32, int32, int32); static void Init(void); static void ReInit(void); + static float FindSpeedMultiplier(float, float, float, float); + static void SteerAICarWithPhysics(CVehicle*); + static void SteerAICarWithPhysics_OnlyMission(CVehicle*, float*, float*, float*, bool*); + static void SteerAIBoatWithPhysics(CBoat*); + static float FindMaxSteerAngle(CVehicle*); + static void SteerAICarWithPhysicsFollowPath(CVehicle*, float*, float*, float*, bool*); + static void SteerAICarWithPhysicsHeadingForTarget(CVehicle*, CPhysical*, float, float, float*, float*, float*, bool*); + static void SteerAICarWithPhysicsTryingToBlockTarget(CVehicle*, float, float, float, float, float*, float*, float*, bool*); + static void SteerAICarWithPhysicsTryingToBlockTarget_Stop(CVehicle*, float, float, float, float, float*, float*, float*, bool*); + static void SteerAIBoatWithPhysicsHeadingForTarget(CBoat*, float, float, float*, float*, float*); static bool ThisRoadObjectCouldMove(int16); - static float GetOffsetOfLaneFromCenterOfRoad(int8 lane, CCarPathLink* pLink) - { - return (lane + ((pLink->numLeftLanes == 0) ? (0.5f - 0.5f * pLink->numRightLanes) : - ((pLink->numRightLanes == 0) ? (0.5f - 0.5f * pLink->numLeftLanes) : 0.5f))) * LANE_WIDTH; - } - static float GetPositionAlongCurrentCurve(CVehicle* pVehicle) { uint32 timeInCurve = CTimer::GetTimeInMilliseconds() - pVehicle->AutoPilot.m_nTimeEnteredCurve; diff --git a/src/control/PathFind.h b/src/control/PathFind.h index d3f89154..91e2e0b1 100644 --- a/src/control/PathFind.h +++ b/src/control/PathFind.h @@ -75,6 +75,15 @@ struct CCarPathLink uint8 bBridgeLights : 1; // more? + + float OneWayLaneOffset() + { + if (numLeftLanes == 0) + return 0.5f - 0.5f * numRightLanes; + if (numRightLanes == 0) + return 0.5f - 0.5f * numLeftLanes; + return 0.5f; + } }; struct CPathInfoForObject diff --git a/src/control/Replay.cpp b/src/control/Replay.cpp index c157786d..65ee2840 100644 --- a/src/control/Replay.cpp +++ b/src/control/Replay.cpp @@ -960,6 +960,7 @@ void CReplay::EmptyReplayBuffer(void) { if (Mode == MODE_PLAYBACK) return; + Record.m_nOffset = 0; for (int i = 0; i < 8; i++){ BufferStatus[i] = REPLAYBUFFER_UNUSED; } diff --git a/src/vehicles/Vehicle.cpp b/src/vehicles/Vehicle.cpp index 8d22606a..8abba646 100644 --- a/src/vehicles/Vehicle.cpp +++ b/src/vehicles/Vehicle.cpp @@ -78,7 +78,7 @@ CVehicle::CVehicle(uint8 CreatedBy) m_veh_flagD1 = false; m_veh_flagD2 = false; m_nGunFiringTime = 0; - field_214 = 0; + m_nTimeBlocked = 0; bLightsOn = false; bVehicleColProcessed = false; m_numPedsUseItAsCover = 0; diff --git a/src/vehicles/Vehicle.h b/src/vehicles/Vehicle.h index 0a86d4e5..4c4f1767 100644 --- a/src/vehicles/Vehicle.h +++ b/src/vehicles/Vehicle.h @@ -183,7 +183,7 @@ public: float m_fChangeGearTime; uint32 m_nGunFiringTime; // last time when gun on vehicle was fired (used on boats) uint32 m_nTimeOfDeath; - int16 field_214; + uint16 m_nTimeBlocked; int16 m_nBombTimer; // goes down with each frame CEntity *m_pBlowUpEntity; float m_fMapObjectHeightAhead; // front Z? |