mirror of
https://github.com/sbrl/Minetest-WorldEditAdditions.git
synced 2024-12-27 07:47:31 +01:00
dd8cd78d6b
this is completely arbitrary, but will assist in discovering types of tables etc.
441 lines
16 KiB
Lua
441 lines
16 KiB
Lua
--- A 3-dimensional vector.
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-- @class
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local Vector3 = {}
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Vector3.__index = Vector3
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Vector3.__name = "Vector3" -- A hack to allow identification in wea.inspect
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--- Creates a new Vector3 instance.
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-- @param x number The x co-ordinate value.
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-- @param y number The y co-ordinate value.
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-- @param z number The z co-ordinate value.
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function Vector3.new(x, y, z)
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x = x or 0
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y = y or 0
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z = z or 0
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local result = {
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x = x,
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y = y,
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z = z
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}
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setmetatable(result, Vector3)
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return result
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end
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--- Returns a new instance of this vector.
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-- @param a Vector3 The vector to clone.
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-- @returns Vector3 A new vector whose values are identical to those of the original vector.
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function Vector3.clone(a)
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return Vector3.new(a.x, a.y, a.z)
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end
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--- Adds the specified vectors or numbers together.
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-- Returns the result as a new vector.
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-- If 1 of the inputs is a number and the other a vector, then the number will
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-- be added to each of the components of the vector.
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-- @param a Vector3|number The first item to add.
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-- @param a Vector3|number The second item to add.
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-- @returns Vector3 The result as a new Vector3 object.
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function Vector3.add(a, b)
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if type(a) == "number" then
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return Vector3.new(b.x + a, b.y + a, b.z + a)
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elseif type(b) == "number" then
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return Vector3.new(a.x + b, a.y + b, a.z + b)
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end
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return Vector3.new(a.x + b.x, a.y + b.y, a.z + b.z)
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end
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--- Subtracts the specified vectors or numbers together.
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-- Returns the result as a new vector.
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-- If 1 of the inputs is a number and the other a vector, then the number will
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-- be subtracted to each of the components of the vector.
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-- @param a Vector3|number The first item to subtract.
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-- @param a Vector3|number The second item to subtract.
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-- @returns Vector3 The result as a new Vector3 object.
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function Vector3.subtract(a, b)
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if type(a) == "number" then
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return Vector3.new(b.x - a, b.y - a, b.z - a)
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elseif type(b) == "number" then
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return Vector3.new(a.x - b, a.y - b, a.z - b)
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end
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return Vector3.new(a.x - b.x, a.y - b.y, a.z - b.z)
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end
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--- Alias for Vector3.subtract.
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function Vector3.sub(a, b) return Vector3.subtract(a, b) end
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--- Multiplies the specified vectors or numbers together.
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-- Returns the result as a new vector.
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-- If 1 of the inputs is a number and the other a vector, then the number will
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-- be multiplied to each of the components of the vector.
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--
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-- If both of the inputs are vectors, then the components are multiplied
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-- by each other (NOT the cross product). In other words:
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-- a.x * b.x, a.y * b.y, a.z * b.z
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--
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-- @param a Vector3|number The first item to multiply.
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-- @param a Vector3|number The second item to multiply.
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-- @returns Vector3 The result as a new Vector3 object.
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function Vector3.multiply(a, b)
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if type(a) == "number" then
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return Vector3.new(b.x * a, b.y * a, b.z * a)
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elseif type(b) == "number" then
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return Vector3.new(a.x * b, a.y * b, a.z * b)
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end
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return Vector3.new(a.x * b.x, a.y * b.y, a.z * b.z)
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end
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--- Alias for Vector3.multiply.
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function Vector3.mul(a, b) return Vector3.multiply(a, b) end
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--- Divides the specified vectors or numbers together.
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-- Returns the result as a new vector.
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-- If 1 of the inputs is a number and the other a vector, then the number will
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-- be divided to each of the components of the vector.
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-- @param a Vector3|number The first item to divide.
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-- @param a Vector3|number The second item to divide.
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-- @returns Vector3 The result as a new Vector3 object.
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function Vector3.divide(a, b)
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if type(a) == "number" then
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return Vector3.new(b.x / a, b.y / a, b.z / a)
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elseif type(b) == "number" then
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return Vector3.new(a.x / b, a.y / b, a.z / b)
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end
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return Vector3.new(a.x / b.x, a.y / b.y, a.z / b.z)
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end
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--- Alias for Vector3.divide.
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function Vector3.div(a, b) return Vector3.divide(a, b) end
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--- Rounds the components of this vector down.
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-- @param a Vector3 The vector to operate on.
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-- @returns Vector3 A new instance with the x/y/z components rounded down.
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function Vector3.floor(a)
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return Vector3.new(math.floor(a.x), math.floor(a.y), math.floor(a.z))
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end
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--- Rounds the components of this vector up.
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-- @param a Vector3 The vector to operate on.
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-- @returns Vector3 A new instance with the x/y/z components rounded up.
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function Vector3.ceil(a)
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return Vector3.new(math.ceil(a.x), math.ceil(a.y), math.ceil(a.z))
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end
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--- Rounds the components of this vector.
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-- @param a Vector3 The vector to operate on.
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-- @returns Vector3 A new instance with the x/y/z components rounded.
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function Vector3.round(a)
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return Vector3.new(math.floor(a.x+0.5), math.floor(a.y+0.5), math.floor(a.z+0.5))
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end
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--- Snaps this Vector3 to an imaginary square grid with the specified sized
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-- squares.
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-- @param a Vector3 The vector to operate on.
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-- @param number grid_size The size of the squares on the imaginary grid to which to snap.
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-- @returns Vector3 A new Vector3 instance snapped to an imaginary grid of the specified size.
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function Vector3.snap_to(a, grid_size)
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return (a / grid_size):round() * grid_size
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end
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--- Returns the area of this vector.
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-- In other words, multiplies all the components together and returns a scalar value.
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-- @param a Vector3 The vector to return the area of.
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-- @returns number The area of this vector.
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function Vector3.area(a)
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return a.x * a.y * a.z
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end
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--- Returns the scalar length of this vector squared.
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-- @param a Vector3 The vector to operate on.
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-- @returns number The length squared of this vector as a scalar value.
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function Vector3.length_squared(a)
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return a.x * a.x + a.y * a.y + a.z * a.z
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end
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--- Square roots each component of this vector.
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-- @param a Vector3 The vector to operate on.
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-- @returns number A new vector with each component square rooted.
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function Vector3.sqrt(a)
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return Vector3.new(math.sqrt(a.x), math.sqrt(a.y), math.sqrt(a.z))
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end
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--- Calculates the scalar length of this vector.
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-- @param a Vector3 The vector to operate on.
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-- @returns number The length of this vector as a scalar value.
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function Vector3.length(a)
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return math.sqrt(a:length_squared())
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end
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--- Calculates the dot product of this vector and another vector.
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-- @param a Vector3 The first vector to operate on.
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-- @param a Vector3 The second vector to operate on.
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-- @returns number The dot product of this vector as a scalar value.
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function Vector3.dot(a, b)
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return a.x * b.x + a.y * b.y + a.z * b.z;
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end
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--- Alias of Vector3.dot.
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function Vector3.dot_product(a, b)
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return Vector3.dot(a, b)
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end
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--- Determines if 2 vectors are equal to each other.
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-- 2 vectors are equal if their values are identical.
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-- @param a Vector3 The first vector to test.
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-- @param a Vector3 The second vector to test.
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-- @returns bool Whether the 2 vectors are equal or not.
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function Vector3.equals(a, b)
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return a.x == b.x
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and a.y == b.y
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and a.z == b.z
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end
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--- Returns a new vector whose length clamped to the given length.
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-- The direction in which the vector is pointing is not changed.
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-- @param a Vector3 The vector to operate on.
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-- @returns Vector3 A new Vector3 instance limited to the specified length.
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function Vector3.limit_to(a, length)
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if type(length) ~= "number" then error("Error: Expected number, but found "..type(length)..".") end
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if a:length() > length then
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return (a / a:length()) * length
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end
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return a:clone()
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end
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--- Returns a new vector whose length clamped to the given length.
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-- The direction in which the vector is pointing is not changed.
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-- @param a Vector3 The vector to operate on.
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-- @returns Vector3 A new Vector3 instance limited to the specified length.
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function Vector3.set_to(a, length)
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if type(length) ~= "number" then error("Error: Expected number, but found "..type(length)..".") end
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return (a / a:length()) * length
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end
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--- Returns the unit vector of this vector.
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-- The unit vector is a vector with a length of 1.
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-- Returns a new vector.
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-- Does not change the direction of the vector.
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-- @param a Vector3 The vector to operate on.
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-- @returns Vector3 The unit vector of this vector.
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function Vector3.unit(a)
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return a / a:length()
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end
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--- Alias of Vector3.unit.
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function Vector3.normalise(a) return a:unit() end
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--- Return a vector that is amount distance towards b from a.
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-- @param a Vector3 The vector to move from.
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-- @param b Vector3 The vector to move towards.
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-- @param amount number The amount to move.
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function Vector3.move_towards(a, b, amount)
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return a + (b - a):limit_to(amount)
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end
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--- Returns the value of the minimum component of the vector.
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-- Returns a scalar value.
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-- @param a Vector3 The vector to operate on.
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-- @returns number The value of the minimum component of the vector.
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function Vector3.min_component(a)
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return math.min(a.x, a.y, a.z)
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end
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--- Returns the value of the maximum component of the vector.
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-- Returns a scalar value.
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-- @param a Vector3 The vector to operate on.
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-- @returns number The value of the maximum component of the vector.
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function Vector3.max_component(a)
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return math.max(a.x, a.y, a.z)
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end
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--- Returns the absolute form of this vector.
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-- In other words, it removes the minus sign from all components of the vector.
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-- @param a Vector3 The vector to operate on.
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-- @returns Vector3 The absolute form of the given vector.
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function Vector3.abs(a)
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return Vector3.new(math.abs(a.x), math.abs(a.y), math.abs(a.z))
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end
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--- Sorts the components of the given vectors.
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-- pos1 will contain the minimum values, and pos2 the maximum values.
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-- Returns 2 new vectors.
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-- Note that for this specific function
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-- the vectors provided do not *have* to be instances of Vector3.
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-- It is only required that they have the keys x, y, and z.
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-- Vector3 instances are always returned.
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-- This enables convenient ingesting of positions from outside.
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-- @param pos1 Vector3 The first vector to operate on.
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-- @param pos2 Vector3 The second vector to operate on.
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-- @returns Vector3,Vector3 The 2 sorted vectors (min, max).
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function Vector3.sort(pos1, pos2)
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local pos1_new = Vector3.clone(pos1) -- This way we can accept non-Vector3 instances
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local pos2_new = Vector3.clone(pos2) -- This way we can accept non-Vector3 instances
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if pos1_new.x > pos2_new.x then
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pos1_new.x, pos2_new.x = pos2_new.x, pos1_new.x
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end
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if pos1_new.y > pos2_new.y then
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pos1_new.y, pos2_new.y = pos2_new.y, pos1_new.y
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end
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if pos1_new.z > pos2_new.z then
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pos1_new.z, pos2_new.z = pos2_new.z, pos1_new.z
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end
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return pos1_new, pos2_new
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end
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--- Determines if this vector is contained within the region defined by the given vectors.
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-- @param a Vector3 The target vector to check.
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-- @param pos1 Vector3 pos1 of the defined region.
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-- @param pos2 Vector3 pos2 of the defined region.
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-- @return boolean Whether the given target is contained within the defined worldedit region.
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function Vector3.is_contained(target, pos1, pos2)
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local pos1, pos2 = Vector3.sort(pos1, pos2)
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return pos1.x <= target.x
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and pos1.y <= target.y
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and pos1.z <= target.z
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and pos2.x >= target.x
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and pos2.y >= target.y
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and pos2.z >= target.z
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end
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--- Clamps the given point to fall within the region defined by 2 points.
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-- @param a Vector3 The target vector to clamp.
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-- @param pos1 Vector3 pos1 of the defined region.
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-- @param pos2 Vector3 pos2 of the defined region.
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-- @returns Vector3 The target vector, clamped to fall within the defined region.
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function Vector3.clamp(a, pos1, pos2)
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pos1, pos2 = Vector3.sort(pos1, pos2)
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return Vector3.min(Vector3.max(a, pos1), pos2)
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end
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--- Expands the defined region to include the given point.
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-- @param target Vector3 The target vector to include.
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-- @param pos1 Vector3 pos1 of the defined region.
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-- @param pos2 Vector3 pos2 of the defined region.
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-- @returns Vector3,Vector3 2 vectors that represent the expand_region.
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function Vector3.expand_region(target, pos1, pos2)
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local pos1, pos2 = Vector3.sort(pos1, pos2)
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if target.x < pos1.x then pos1.x = target.x end
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if target.y < pos1.y then pos1.y = target.y end
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if target.z < pos1.z then pos1.z = target.z end
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if target.x > pos2.x then pos2.x = target.x end
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if target.y > pos2.y then pos2.y = target.y end
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if target.z > pos2.z then pos2.z = target.z end
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return pos1, pos2
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end
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--- Returns the mean (average) of 2 positions.
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-- In other words, returns the centre of 2 points.
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-- @param pos1 Vector3|number pos1 of the defined region.
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-- @param pos2 Vector3|number pos2 of the defined region.
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-- @param target Vector3 Centre coordinates.
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function Vector3.mean(pos1, pos2)
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return (pos1 + pos2) / 2
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end
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--- Returns a vector of the min components of 2 vectors.
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-- @param pos1 Vector3|number The first vector to operate on.
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-- @param pos2 Vector3|number The second vector to operate on.
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-- @return Vector3 The minimum values from the input vectors
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function Vector3.min(pos1, pos2)
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if type(pos1) == "number" then
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pos1 = Vector3.new(pos1, pos1, pos1)
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end
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if type(pos2) == "number" then
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pos2 = Vector3.new(pos2, pos2, pos2)
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end
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return Vector3.new(
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math.min(pos1.x, pos2.x),
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math.min(pos1.y, pos2.y),
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math.min(pos1.z, pos2.z)
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)
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end
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--- Returns a vector of the max values of 2 vectors.
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-- @param pos1 Vector3 The first vector to operate on.
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-- @param pos2 Vector3 The second vector to operate on.
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-- @return Vector3 The maximum values from the input vectors.
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function Vector3.max(pos1, pos2)
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if type(pos1) == "number" then
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pos1 = Vector3.new(pos1, pos1, pos1)
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end
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if type(pos2) == "number" then
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pos2 = Vector3.new(pos2, pos2, pos2)
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end
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return Vector3.new(
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math.max(pos1.x, pos2.x),
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math.max(pos1.y, pos2.y),
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math.max(pos1.z, pos2.z)
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)
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end
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--- Given 2 angles and a length, return a Vector3 pointing in that direction.
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-- Consider a sphere, with the 2 angles defining a point on the sphere's surface.
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-- This function returns that point as a Vector3.
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-- @source https://math.stackexchange.com/a/1881767/221181
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-- @param angle_x number The X angle.
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-- @param angle_y number The Y angle.
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-- @param length number The radius of the sphere in question.
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-- @returns Vector3 The point on the sphere defined by the aforementioned parameters.
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function Vector3.fromBearing(angle_x, angle_y, length)
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return Vector3.new( -- X and Y swapped
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length * math.cos(angle_x),
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length * math.sin(angle_x) * math.sin(angle_y),
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length * math.sin(angle_x) * math.cos(angle_y)
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)
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end
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-- ██████ ██████ ███████ ██████ █████ ████████ ██████ ██████
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-- ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██
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-- ██ ██ ██████ █████ ██████ ███████ ██ ██ ██ ██████
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-- ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██
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-- ██████ ██ ███████ ██ ██ ██ ██ ██ ██████ ██ ██
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--
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-- ██████ ██ ██ ███████ ██████ ██████ ██ ██████ ███████ ███████
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-- ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██
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-- ██ ██ ██ ██ █████ ██████ ██████ ██ ██ ██ █████ ███████
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-- ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██ ██
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-- ██████ ████ ███████ ██ ██ ██ ██ ██ ██████ ███████ ███████
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function Vector3.__call(x, y, z) return Vector3.new(x, y, z) end
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function Vector3.__add(a, b)
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return Vector3.add(a, b)
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end
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function Vector3.__sub(a, b)
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return Vector3.sub(a, b)
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end
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function Vector3.__mul(a, b)
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return Vector3.mul(a, b)
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end
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function Vector3.__div(a, b)
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return Vector3.divide(a, b)
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end
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function Vector3.__eq(a, b)
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return Vector3.equals(a, b)
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end
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--- Returns the current Vector3 as a string.
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function Vector3.__tostring(a)
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return "("..a.x..", "..a.y..", "..a.z..")"
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end
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function Vector3.__concat(a, b)
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if type(a) ~= "string" then a = tostring(a) end
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if type(b) ~= "string" then b = tostring(b) end
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return a .. b
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end
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return Vector3
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