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Fix sin & cos calls
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@ -1330,8 +1330,8 @@ void CCarCtrl::WeaveForOtherCar(CEntity* pOtherEntity, CVehicle* pVehicle, float
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forward.NormaliseSafe();
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float forwardAngle = CGeneral::GetATanOfXY(forward.x, forward.y);
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float angleDiff = angleBetweenVehicles - forwardAngle;
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float lenProjection = ABS(pOtherCar->GetColModel()->boundingBox.max.y * sin(angleDiff));
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float widthProjection = ABS(pOtherCar->GetColModel()->boundingBox.max.x * cos(angleDiff));
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float lenProjection = ABS(pOtherCar->GetColModel()->boundingBox.max.y * Sin(angleDiff));
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float widthProjection = ABS(pOtherCar->GetColModel()->boundingBox.max.x * Cos(angleDiff));
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float lengthToEvade = (2 * (lenProjection + widthProjection) + WIDTH_COEF_TO_WEAVE_SAFELY * 2 * pVehicle->GetColModel()->boundingBox.max.x) / distance;
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float diffToLeftAngle = LimitRadianAngle(angleBetweenVehicles - *pAngleToWeaveLeft);
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diffToLeftAngle = ABS(diffToLeftAngle);
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@ -437,8 +437,8 @@ int8 CRunningScript::ProcessCommands300To399(int32 command)
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float length = *(float*)&ScriptParams[5];
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float x, y;
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if (angle != 0.0f){
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y = cos(angle) * length;
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x = sin(angle) * length;
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y = Cos(angle) * length;
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x = Sin(angle) * length;
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}else{
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y = length;
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x = 0.0f;
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@ -948,10 +948,10 @@ void CRunningScript::PlayerInAngledAreaCheckCommand(int32 command, uint32* pIp)
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initAngle -= TWOPI;
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// it looks like the idea is to use a rectangle using the diagonal of the rectangle as
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// the side of new rectangle, with "length" being the length of second side
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float rotatedSupX = supX + side2length * sin(initAngle);
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float rotatedSupY = supY - side2length * cos(initAngle);
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float rotatedInfX = infX + side2length * sin(initAngle);
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float rotatedInfY = infY - side2length * cos(initAngle);
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float rotatedSupX = supX + side2length * Sin(initAngle);
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float rotatedSupY = supY - side2length * Cos(initAngle);
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float rotatedInfX = infX + side2length * Sin(initAngle);
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float rotatedInfY = infY - side2length * Cos(initAngle);
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float side1X = supX - infX;
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float side1Y = supY - infY;
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float side1Length = CVector2D(side1X, side1Y).Magnitude();
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@ -4933,9 +4933,9 @@ CCam::Process_FollowCar_SA(const CVector& CameraTarget, float TargetOrientation,
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AlphaSpeed = 0.0;
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Distance = 1000.0;
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Front.x = -(cos(Beta) * cos(Alpha));
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Front.y = -(sin(Beta) * cos(Alpha));
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Front.z = sin(Alpha);
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Front.x = -(Cos(Beta) * Cos(Alpha));
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Front.y = -(Sin(Beta) * Cos(Alpha));
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Front.z = Sin(Alpha);
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m_aTargetHistoryPosOne = TargetCoors - nextDistance * Front;
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@ -5210,9 +5210,9 @@ CCam::Process_FollowCar_SA(const CVector& CameraTarget, float TargetOrientation,
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lastBeta = Beta;
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Front.x = -(cos(Beta) * cos(Alpha));
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Front.y = -(sin(Beta) * cos(Alpha));
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Front.z = sin(Alpha);
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Front.x = -(Cos(Beta) * Cos(Alpha));
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Front.y = -(Sin(Beta) * Cos(Alpha));
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Front.z = Sin(Alpha);
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GetVectorsReadyForRW();
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TheCamera.m_bCamDirectlyBehind = false;
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TheCamera.m_bCamDirectlyInFront = false;
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@ -5222,9 +5222,9 @@ CCam::Process_FollowCar_SA(const CVector& CameraTarget, float TargetOrientation,
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m_cvecTargetCoorsForFudgeInter = TargetCoors;
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m_aTargetHistoryPosThree = m_aTargetHistoryPosOne;
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float nextAlpha = alphaWithSpeedAccounted + zoomModeAlphaOffset;
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float nextFrontX = -(cos(Beta) * cos(nextAlpha));
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float nextFrontY = -(sin(Beta) * cos(nextAlpha));
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float nextFrontZ = sin(nextAlpha);
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float nextFrontX = -(Cos(Beta) * Cos(nextAlpha));
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float nextFrontY = -(Sin(Beta) * Cos(nextAlpha));
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float nextFrontZ = Sin(nextAlpha);
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m_aTargetHistoryPosOne.x = TargetCoors.x - nextFrontX * nextDistance;
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m_aTargetHistoryPosOne.y = TargetCoors.y - nextFrontY * nextDistance;
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