void CVehicleSeatActionRotateTurret::MaintainPartRotationWorldSpace(EVehicleTurretRotationType eType) { CVehiclePartBase* pPart = m_rotations[eType].m_pPart; IVehiclePart* pParent = pPart->GetParent(); IActor* pActor = m_pSeat->GetPassengerActor(); bool remote = m_pSeat->GetCurrentTransition() == IVehicleSeat::eVT_RemoteUsage; bool worldSpace = m_rotations[eType].m_worldSpace && VehicleCVars().v_independentMountedGuns != 0; if (worldSpace && pParent && pActor && pActor->IsClient() && !remote) { // we want to keep the old worldspace rotation // therefore we're updating the local transform from it // NB: there is no need to clamp here, its done later Matrix34 localTM = pParent->GetWorldTM().GetInverted() * Matrix34(m_rotations[eType].m_prevWorldQuat); localTM.OrthonormalizeFast(); // precision issue const Matrix34 &baseTM = pPart->GetLocalBaseTM(); if (!Matrix34::IsEquivalent(baseTM,localTM)) { Ang3 anglesCurr(baseTM); Ang3 angles(localTM); if (eType == eVTRT_Pitch) { angles.y = anglesCurr.y; angles.z = anglesCurr.z; } else if (eType == eVTRT_Yaw) { angles.x = anglesCurr.x; angles.y = anglesCurr.y; } localTM.SetRotationXYZ(angles); localTM.SetTranslation(baseTM.GetTranslation()); pPart->SetLocalBaseTM(localTM); m_pSeat->ChangedNetworkState(CVehicle::ASPECT_PART_MATRIX); } #if ENABLE_VEHICLE_DEBUG if (VehicleCVars().v_debugdraw == eVDB_Parts) { float color[] = {1,1,1,1}; Ang3 a(localTM), aBase(baseTM); gEnv->pRenderer->Draw2dLabel(200,200,1.4f,color,false,"localAng: %.1f (real: %.1f)", RAD2DEG(a.z), RAD2DEG(aBase.z)); } #endif } }
//------------------------------------------------------------------------ void CVehicleSeatActionRotateTurret::UpdatePartRotation(EVehicleTurretRotationType eType, float frameTime) { CRY_ASSERT( eType < eVTRT_NumRotationTypes ); const float threshold = 0.01f; if (frameTime > 0.08f) frameTime = 0.08f; CVehiclePartBase* pPart = m_rotations[eType].m_pPart; IVehiclePart* pParent = pPart->GetParent(); IActor* pActor = m_pSeat->GetPassengerActor(); float rot_dir = fsgnf(m_rotations[eType].m_action); float max_rotation = fabsf(m_rotations[eType].m_action); float rot_speed = DEG2RAD(fabsf(m_rotations[eType].m_speed)) * GetDamageSpeedMul(pPart); float delta = rot_dir * rot_speed * frameTime; delta += m_rotations[eType].m_aimAssist; delta = fmod(delta, gf_PI2); if (delta > gf_PI) delta -= gf_PI2; if (delta < -gf_PI) delta += gf_PI2; Limit( delta, -max_rotation, max_rotation); Ang3 deltaAngles(ZERO); if (eType == eVTRT_Pitch) deltaAngles.x = delta; else if (eType == eVTRT_Yaw) deltaAngles.z = delta; else CRY_ASSERT(false && "Unknown turret rotation"); Matrix34 tm = pPart->GetLocalBaseTM(); Ang3 angles = Ang3::GetAnglesXYZ(tm) + deltaAngles; float lerp = 0.f; if (eType == eVTRT_Pitch) { Vec3 yAxis = m_rotations[eVTRT_Yaw].m_pPart->GetLocalBaseTM().GetColumn1(); yAxis.z = 0.f; yAxis.normalize(); lerp = 0.5f - 0.5f * yAxis.y; Limit(lerp, 0.0f, 1.0f); } // clamp to limits if (m_rotations[eType].m_minLimitF != 0.0f || m_rotations[eType].m_maxLimit != 0.0f) { // Different clamp angles facing forwards/backwards float minLimit = m_rotations[eType].m_minLimitF + (m_rotations[eType].m_minLimitB - m_rotations[eType].m_minLimitF) * lerp; float angle = (eType == eVTRT_Pitch) ? angles.x : angles.z; if (angle > m_rotations[eType].m_maxLimit || angle < minLimit) { angle = clamp_tpl(angle, minLimit, m_rotations[eType].m_maxLimit); m_rotations[eType].m_currentValue = 0.f; if (eType == eVTRT_Pitch) angles.x = angle; else angles.z = angle; } } m_rotations[eType].m_orientation.Set(Quat::CreateRotationXYZ(angles)); m_rotations[eType].m_orientation.Update(frameTime); m_rotations[eType].m_action = 0.0f; m_rotations[eType].m_aimAssist = 0.0f; Matrix34 newTM(m_rotations[eType].m_orientation.Get().GetNormalized()); newTM.SetTranslation(tm.GetTranslation()); pPart->SetLocalBaseTM(newTM); // store world-space rotation const Matrix34 &worldTM = pPart->GetWorldTM(); m_rotations[eType].m_prevWorldQuat = Quat(worldTM); CRY_ASSERT(m_rotations[eType].m_prevWorldQuat.IsValid()); // now update the turret sound based on the calculated rotation speed UpdateRotationSound(eType, delta, frameTime); }