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Scripting/SMath

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The SMath class contains common math functions, see also SVector and SQuaternion for Vector and Quaternion related math functions.

Fields

Pi

float Pi ;

Returns the constant value of Π (readonly).

Space.Log(Space.Math.Pi);
-- prints 3.14159274101257


Members

Random

float Random ();

Returns a random float between 0 and 1 (inclusive)

local randomNumber = Space.Math.Random();
Space.Log(randomNumber);
-- prints 0.689094245433807


RandomRange

float RandomRange (float min, float max);

Returns a random float between min and max (inclusive)

local min = 100.0;
local max = 500.0;
local randomNumber = Space.Math.RandomRange(min, max );
Space.Log(randomNumber);
-- prints 0206.659149169922


RandomInteger

int RandomInteger (int min, int max);

Returns a random float between min (inclusive) and max (exclusive)

local min = 50;
local max = 75;
local randomInteger = Space.Math.RandomInteger(min, max);
Space.Log(randomInteger);
-- prints 52


Abs

float Abs (float val);

Returns the absolute value of 'val'

local value = -4.2
local absoluteNum = Space.Math.Abs(value);
Space.Log(absoluteNum);
-- prints 4 [BUG] should be 4.2


Abs

int Abs (int val);

Returns the absolute value of 'val'

local value = -4
local absoluteNum = Space.Math.Abs(value);
Space.Log(absoluteNum);
-- prints 4


Acos

float Acos (float val);

Returns the arc cosine value of 'val'

local value = 0.5;
local arcCosine = Space.Math.Acos(value);
Space.Log(arcCosine);
-- prints 1.04719758033752 (radians) which is 60 degrees


Approximately

bool Approximately (float a, float b);

True if the difference between a and b is less than epsilon

local a = 5.0;
local b = 5;
local approx1 = Space.Math.Approximately(a, b);
Space.Log(approx1);
-- prints true

local a = 5.01;
local b = 5.0;
local approx2 = Space.Math.Approximately(a, b);
Space.Log(approx2);
-- prints false

local a = 5.01;
local b = 5.0;
local approx3 = Space.Math.Approximately(a, b);
Space.Log(approx3);
-- prints false


Asin

bool Asin (float val);

Returns the arc sine value of 'val'

local value = 0.5;
local arcSine = Space.Math.Asin(value);
Space.Log(arcSine);
-- prints 0.523598790168762 (radians) which is 30 degrees


Atan

bool Atan (float val);

Returns the arc tangent value of 'val'

local value = 1.732050808;
local arcTangent = Space.Math.Atan(value);
Space.Log(arcTangent);
-- prints 1.04719758033752 (radians) which is 60 degrees


Atan2

bool Atan2 (float y, float x);

Returns the arc tangent of y/x

local x = 0.5;
local y = 0.5;
local arcTangent = Space.Math.Atan2(y, x);
Space.Log(arcTangent);
-- prints 0.785398185253143


Ceil

int Ceil (float val);

Returns the ceil value of 'val' as an integer

Space.Log(Space.Math.Ceil(4.0));
-- prints 4

Space.Log(Space.Math.Ceil(4.2));
-- prints 5

Space.Log(Space.Math.Ceil(-4.2));
-- prints -4


Clamp

float Clamp (float val, float min, float max);

Clamps val between min and max, and returns the result

local value = 100.0;
local min = 20.0;
local max = 82.0;

local clampedValue = Space.Math.Clamp(value, min, max);
Space.Log(clampedValue);
-- prints 82


Clamp01

float Clamp01 (float val);

Clamps val between 0 and 1, and returns the result

local value = -1.0;

local clampedValue = Space.Math.Clamp01(value);
Space.Log(clampedValue);
-- prints 0


ClosestPowerOfTwo

int ClosestPowerOfTwo (int val);

Returns the closest power of two to val

local value = 33;

local powerOfTwo = Space.Math.ClosestPowerOfTwo(value);
Space.Log(powerOfTwo);
-- prints 32


Cos

float Cos (float val);

Returns the cosine of val

local angle = 1.04719758033752; -- converts to 60 degrees
local cosine = Space.Math.Cos(angle);
Space.Log(cosine);
-- prints 0.499999970197678

local angle2 = Space.Math.Pi/3; -- converts to 60 degrees
local cosine2 = Space.Math.Cos(angle2);
Space.Log(cosine2);
-- prints 0.499999970197678


DeltaAngle

float DeltaAngle (float current, float target);

Returns the difference in degrees between two values (e.g. 350' and 17' returns 27')

Space.Log(Space.Math.DeltaAngle(350.0, 17.0));
-- prints 27


Exp

float Exp (float val);

Returns e raised to val power.

Space.Log(Space.Math.Exp(3.0));
-- prints 20.0855369567871


Floor

int Floor (float val);

Returns floor of val, converted to an int

Space.Log(Space.Math.Floor(4.0));
-- prints 4

Space.Log(Space.Math.Floor(4.2));
-- prints 4

Space.Log(Space.Math.Floor(-4.2));
-- prints -5


GammaToLinearSpace

float GammaToLinearSpace (float val);

Converts a colour value from Gamma to Linear Space (Pow 2.2)

Space.Log(Space.Math.GammaToLinearSpace(0.5));
-- prints 0.214041143655777


InverseLerp

float InverseLerp (float a, float b, float val);

Returns the percentage between a and b that 'val' is on a line (opposite of Lerp)

local sliderStart = 0.0;
local sliderStop = 100.0;
local currentSliderPos = 75.0;

local percentage = Space.Math.InverseLerp(sliderStart, sliderStop, currentSliderPos);
Space.Log(percentage);
-- prints 0.75


IsPowerOfTwo

bool IsPowerOfTwo (int val);

Returns true if val is a power of two

Space.Log(Space.Math.IsPowerOfTwo(55));
-- prints False

Space.Log(Space.Math.IsPowerOfTwo(32));
-- prints True


Lerp

float Lerp (float a, float b, float val);

Interpolates between 'a' and 'b' based on 'val', assuming 'val' is between 0 and 1

local sliderStart = 0.0;
local sliderStop = 100.0;
local percentage = 0.75;

local currentSliderPos = Space.Math.Lerp(sliderStart, sliderStop, percentage);
Space.Log(currentSliderPos);
-- prints 75


LerpAngle

float LerpAngle (float a, float b, float val);

Interpolates between angles 'a' and 'b' based on 'val', assuming 'val' is between 0 and 1

local sliderStartAngle = 0.0;
local sliderStopAngle = Space.Math.Pi;-- 180 degrees
local percentage = 0.50;

local currentSliderPos = Space.Math.LerpAngle(sliderStartAngle, sliderStopAngle, percentage);
Space.Log(currentSliderPos);
-- prints 1.57079637050629 (90 degrees)


LerpUnclamped

float LerpUnclamped (float a, float b, float val);

Interpolates between 'a' and 'b' based on 'val', assuming 'val' is between 0 and 1, but unbounded (allowing higher/lower values)

local sliderStart = 0.0;
local sliderStop = 100.0;
local percentage = 2.0;

local currentSliderPos = Space.Math.LerpUnclamped(sliderStart, sliderStop, percentage);
Space.Log(currentSliderPos);
-- prints 200


LinearToGammaSpace

float LinearToGammaSpace (float val);

Converts a colour value from Linear to Gamma Space (Pow 1/2.2)

Space.Log(Space.Math.LinearToGammaSpace(0.214041143655777));
-- prints 0.5


Log

float Log (float val);

Returns the natural logarithm for 'val'

Space.Log(Space.Math.Log(30.0));
-- prints 3.40119743347168


Log

float Log (float val, float p);

Returns the logarithm of 'p' for 'val'

Space.Log(Space.Math.Log(4.0, 2.0));
-- prints 2


Log10

float Log10 (float val);

Returns the Log10 value for 'val'

Space.Log(Space.Math.Log10(100.0));
-- prints 2


Max

float Max (float a, float b);

Returns higher of 'a' or 'b'

Space.Log(Space.Math.Max(20.0, 100.0));
-- prints 100


Min

float Min (float a, float b);

Returns lower of 'a' or 'b'

Space.Log(Space.Math.Min(20.0, 100.0));
-- prints 20


MoveTowards

float MoveTowards (float value, float target, float delta);

Move value to target, but by no more than delta

local sliderStart = 5.0;

local sliderStop = 10.0;
local deltaChange = 1.0;

local currentSliderPos = Space.Math.MoveTowards(sliderStart, sliderStop, deltaChange);
Space.Log(currentSliderPos);
-- prints 6 (moves forward 1)


local sliderStart = 5.0;
local sliderStop = 10.0;
local deltaChange = 7.0;

local currentSliderPos = Space.Math.MoveTowards(sliderStart, sliderStop, deltaChange);
Space.Log(currentSliderPos); -- prints 10 (caps out at at the target value)

-- NOTE: Use negative delta to move away from target.


MoveTowardsAngle

float MoveTowardsAngle (float value, float target, float delta);

Move angle value to target, but by no more than delta

local sliderStartAngle = Space.Math.Pi/2; -- 90 degrees

local sliderStopAngle = Space.Math.Pi; -- 180 degrees
local deltaChange = Space.Math.Pi/6; -- 30 degrees

local currentSliderPos = Space.Math.MoveTowardsAngle(sliderStartAngle, sliderStopAngle, deltaChange);
Space.Log(currentSliderPos);
-- prints 2.09439516067505 (moves forward 30 degrees to 120 degrees)

-- NOTE: Add 180 degrees (Space.Math.Pi) to move away from target.


NextPowerOfTwo

int NextPowerOfTwo (int val);

Return the next power of two larger or equal to val

Space.Log(Space.Math.NextPowerOfTwo(16));
-- prints 16

Space.Log(Space.Math.NextPowerOfTwo(17));
-- prints 32


PerlinNoise

float PerlinNoise (float x, float y);

Return 2D Perlin noise for coordinates x and y

-- Lua Translation of Unity C# Documentation

local ball = Space.Host.ExecutingObject;
ball.SubscribeToEvents();

-- animates this object to move upwards on the y axis with slight random movement
local animateBall = function()
  local heightScale = 0.1; -- controls speed of movement
  local xScale = 1.0; -- shifts x position on perlin noise plane

  local height = heightScale * Space.Math.PerlinNoise(Space.Time * xScale, 0.0);
  local pos = ball.LocalPosition;
  pos.y = pos.y + height;
  ball.LocalPosition = pos;
  Space.Log(pos.y);
end

ball.OnUpdate(animateBall);

-- NOTE: If you need a guaranteed range of [0,1], make sure to clamp the value with Space.Math.Clamp01.


PingPong

float PingPong (float val, float length);

Return a value between 0 and length that oscillates upwards and back based on the position of 'val'

--[[ In this example, if you traced the output of Space.Math.PingPong(value, length),

the return values would cycle forward through the range [0,5] then cycle backwards through the range [5,0] in order. --]]

local ball = Space.Host.ExecutingObject;
local originalPos = ball.LocalPosition;
ball.SubscribeToEvents();

-- The ball object oscillates back and forth on the x-axis.
local animateBall = function()
  local value = Space.Time;
  local length = 5.0;

  local newPos = Vector.New(Space.Math.PingPong(value, length) + originalPos.x, originalPos.y, originalPos.z);
  ball.LocalPosition = newPos;
end

ball.OnUpdate(animateBall);


Pow

float Pow (float x, float y);

Return x raised to y power

Space.Log(Space.Math.Pow(2, 4));
-- prints 16


Repeat

float Repeat (float val, float length);

Return a value between 0 and length that returns to 0 after exceeding length based on 'val'

No example provided yet


Round

int Round (float val);

Returns the nearest integer value to val

No example provided yet


Sign

float Sign (float val);

Returns either 1 or -1 based on the sign of 'val'

No example provided yet


Sin

float Sin (float val);

Returns the sine of val

No example provided yet


SmoothStep

float SmoothStep (float from, float to, float val);

Similar to Lerp but moves slowly closer to the edges ('Spherical Lerp')

No example provided yet


Sqrt

float Sqrt (float val);

Returns the square root of val

No example provided yet


Tan

float Tan (float val);

Returns the tangent value of 'val'

No example provided yet