Difference between revisions of "love.math.noise"
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local randomY = love.math.random(1024) | local randomY = love.math.random(1024) | ||
for y = 1, 60 do | for y = 1, 60 do | ||
− | + | grod[y] = {} | |
for x = 1, 60 do | for x = 1, 60 do | ||
grid[y][x] = love.math.noise(0.1*x + randomX, 0.2*y + randomY) | grid[y][x] = love.math.noise(0.1*x + randomX, 0.2*y + randomY) |
Revision as of 13:38, 26 September 2022
Available since LÖVE 0.9.0 |
This function is not supported in earlier versions. |
Generates a Simplex or Perlin noise value in 1-4 dimensions. The return value will always be the same, given the same arguments.
Simplex noise is closely related to Perlin noise. It is widely used for procedural content generation.
There are many webpages which discuss Perlin and Simplex noise in detail.
The return value might be constant if only integer arguments are used. Avoid solely passing in integers, to get varying return values. |
Contents
Function
Generates Simplex noise from 1 dimension.
Synopsis
value = love.math.noise( x )
Arguments
number x
- The number used to generate the noise value.
Returns
number value
- The noise value in the range of [0, 1].
Function
Generates Simplex noise from 2 dimensions.
Synopsis
value = love.math.noise( x, y )
Arguments
number x
- The first value of the 2-dimensional vector used to generate the noise value.
number y
- The second value of the 2-dimensional vector used to generate the noise value.
Returns
number value
- The noise value in the range of [0, 1].
Function
Generates Perlin noise (Simplex noise in version 0.9.2 and older) from 3 dimensions.
Synopsis
value = love.math.noise( x, y, z )
Arguments
number x
- The first value of the 3-dimensional vector used to generate the noise value.
number y
- The second value of the 3-dimensional vector used to generate the noise value.
number z
- The third value of the 3-dimensional vector used to generate the noise value.
Returns
number value
- The noise value in the range of [0, 1].
Function
Generates Perlin noise (Simplex noise in version 0.9.2 and older) from 4 dimensions.
Synopsis
value = love.math.noise( x, y, z, w )
Arguments
number x
- The first value of the 4-dimensional vector used to generate the noise value.
number y
- The second value of the 4-dimensional vector used to generate the noise value.
number z
- The third value of the 4-dimensional vector used to generate the noise value.
number w
- The fourth value of the 4-dimensional vector used to generate the noise value.
Returns
number value
- The noise value in the range of [0, 1].
Examples
Fills a two-dimensional grid with simplex noise each time a key is pressed.
local grid = {}
function love.draw()
local gridSize = 8
for y = 1, #grid do
for x = 1, #grid[y] do
local value = grid[y][x]
love.graphics.setColor( value, value, value )
love.graphics.rectangle( 'fill', x * gridSize, y * gridSize, gridSize-1, gridSize-1 )
end
end
end
-- Fill each pixel in our grid with simplex noise.
local function noise()
local randomX = love.math.random(1024)
local randomY = love.math.random(1024)
for y = 1, 60 do
grod[y] = {}
for x = 1, 60 do
grid[y][x] = love.math.noise(0.1*x + randomX, 0.2*y + randomY)
end
end
end
function love.keypressed()
noise()
end
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