Difference between revisions of "Tutorial:Physics"
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| − | In this | + | In this example we will create a red ball that rolls around on a green ground. |
The finished example is at the end of this page. All of these functions may be placed in one file: main.lua | The finished example is at the end of this page. All of these functions may be placed in one file: main.lua | ||
| − | We'll start in the [[ | + | We'll start in the [[love.load]]() function. |
=== love.load() === | === love.load() === | ||
| − | First we need to set up a world for the physics bodies to exist in. | + | First we need to set up a [[love.physics.newWorld|world]] for the physics bodies to exist in. |
<source lang="lua"> | <source lang="lua"> | ||
function love.load() | function love.load() | ||
| − | world = love.physics.newWorld( | + | love.physics.setMeter(64) --the height of a meter our worlds will be 64px |
| − | + | world = love.physics.newWorld(0, 9.81*64, true) --create a world for the bodies to exist in with horizontal gravity of 0 and vertical gravity of 9.81 | |
| − | |||
</source> | </source> | ||
| − | Now that a [[world]] has been created, we can add [[bodies]] to it. | + | Now that a [[love.physics.newWorld|world]] has been created, we can add [[Body|bodies]], [[Shape|shapes]], and [[Fixture|fixture]] to it. |
<source lang="lua"> | <source lang="lua"> | ||
| − | + | objects = {} -- table to hold all our physical objects | |
--let's create the ground | --let's create the ground | ||
objects.ground = {} | objects.ground = {} | ||
| − | + | objects.ground.body = love.physics.newBody(world, 650/2, 650-50/2) --remember, the shape (the rectangle we create next) anchors to the body from its center, so we have to move it to (650/2, 650-50/2) | |
| − | objects.ground.body = love.physics.newBody(world, 650/2, | + | objects.ground.shape = love.physics.newRectangleShape(650, 50) --make a rectangle with a width of 650 and a height of 50 |
| − | objects.ground.shape = love.physics.newRectangleShape( | + | objects.ground.fixture = love.physics.newFixture(objects.ground.body, objects.ground.shape) --attach shape to body |
--let's create a ball | --let's create a ball | ||
objects.ball = {} | objects.ball = {} | ||
| − | objects.ball.body = love.physics.newBody(world, 650/2, 650/2, | + | objects.ball.body = love.physics.newBody(world, 650/2, 650/2, "dynamic") --place the body in the center of the world and make it dynamic, so it can move around |
| − | objects.ball. | + | objects.ball.shape = love.physics.newCircleShape( 20) --the ball's shape has a radius of 20 |
| + | objects.ball.fixture = love.physics.newFixture(objects.ball.body, objects.ball.shape, 1) -- Attach fixture to body and give it a density of 1. | ||
| + | objects.ball.fixture:setRestitution(0.9) --let the ball bounce | ||
| + | |||
| + | --let's create a couple blocks to play around with | ||
| + | objects.block1 = {} | ||
| + | objects.block1.body = love.physics.newBody(world, 200, 550, "dynamic") | ||
| + | objects.block1.shape = love.physics.newRectangleShape(0, 0, 50, 100) | ||
| + | objects.block1.fixture = love.physics.newFixture(objects.block1.body, objects.block1.shape, 5) -- A higher density gives it more mass. | ||
| + | |||
| + | objects.block2 = {} | ||
| + | objects.block2.body = love.physics.newBody(world, 200, 400, "dynamic") | ||
| + | objects.block2.shape = love.physics.newRectangleShape(0, 0, 100, 50) | ||
| + | objects.block2.fixture = love.physics.newFixture(objects.block2.body, objects.block2.shape, 2) | ||
</source> | </source> | ||
| − | Now to wrap up the love.load function, let's set up the screen size and background color. | + | Now to wrap up the [[love.load]]() function, let's set up the screen size and background color. |
<source lang="lua"> | <source lang="lua"> | ||
--initial graphics setup | --initial graphics setup | ||
| − | love.graphics.setBackgroundColor( | + | love.graphics.setBackgroundColor(0.41, 0.53, 0.97) --set the background color to a nice blue |
| − | love. | + | love.window.setMode(650, 650) --set the window dimensions to 650 by 650 with no fullscreen, vsync on, and no antialiasing |
end | end | ||
</source> | </source> | ||
Okay, that's enough for the initial set up of the physics engine. | Okay, that's enough for the initial set up of the physics engine. | ||
| − | Now we need | + | Now we need to edit the [[love.update]]() function. |
=== love.update() === | === love.update() === | ||
| Line 56: | Line 68: | ||
objects.ball.body:applyForce(-400, 0) | objects.ball.body:applyForce(-400, 0) | ||
elseif love.keyboard.isDown("up") then --press the up arrow key to set the ball in the air | elseif love.keyboard.isDown("up") then --press the up arrow key to set the ball in the air | ||
| − | objects.ball.body: | + | objects.ball.body:setPosition(650/2, 650/2) |
| + | objects.ball.body:setLinearVelocity(0, 0) --we must set the velocity to zero to prevent a potentially large velocity generated by the change in position | ||
end | end | ||
end | end | ||
| Line 69: | Line 82: | ||
<source lang="lua"> | <source lang="lua"> | ||
function love.draw() | function love.draw() | ||
| − | love.graphics.setColor( | + | love.graphics.setColor(0.28, 0.63, 0.05) -- set the drawing color to green for the ground |
| − | love.graphics.polygon("fill", objects.ground.shape:getPoints()) -- draw a "filled in" polygon using the ground's coordinates | + | love.graphics.polygon("fill", objects.ground.body:getWorldPoints(objects.ground.shape:getPoints())) -- draw a "filled in" polygon using the ground's coordinates |
</source> | </source> | ||
| − | And finally, we can draw the circle that represents the ball. | + | And finally, we can draw the circle that represents the ball and the blocks. |
<source lang="lua"> | <source lang="lua"> | ||
| − | love.graphics.setColor( | + | love.graphics.setColor(0.76, 0.18, 0.05) --set the drawing color to red for the ball |
| − | love.graphics.circle("fill", objects.ball.body:getX(), objects.ball.body:getY(), objects.ball.shape:getRadius(), 20) -- | + | love.graphics.circle("fill", objects.ball.body:getX(), objects.ball.body:getY(), objects.ball.shape:getRadius()) |
| + | |||
| + | love.graphics.setColor(0.20, 0.20, 0.20) -- set the drawing color to grey for the blocks | ||
| + | love.graphics.polygon("fill", objects.block1.body:getWorldPoints(objects.block1.shape:getPoints())) | ||
| + | love.graphics.polygon("fill", objects.block2.body:getWorldPoints(objects.block2.shape:getPoints())) | ||
end | end | ||
</source> | </source> | ||
| Line 83: | Line 100: | ||
There you have it! Put this file in a [[zip|zip file]], rename it to physics.love (or whatever), run it. And you'll have a ball rolling around in a lush green environment like I promised. | There you have it! Put this file in a [[zip|zip file]], rename it to physics.love (or whatever), run it. And you'll have a ball rolling around in a lush green environment like I promised. | ||
| − | [[Image:Tutorial-PhysicsBall.jpg|thumb|Screenshot of the finished product.]] | + | [[Image:Tutorial-PhysicsBall.jpg|thumb|Screenshot of the mostly finished product.]] |
| Line 89: | Line 106: | ||
<source lang="lua"> | <source lang="lua"> | ||
function love.load() | function love.load() | ||
| − | world = love.physics.newWorld( | + | love.physics.setMeter(64) --the height of a meter our worlds will be 64px |
| − | + | world = love.physics.newWorld(0, 9.81*64, true) --create a world for the bodies to exist in with horizontal gravity of 0 and vertical gravity of 9.81 | |
| − | + | ||
| − | |||
objects = {} -- table to hold all our physical objects | objects = {} -- table to hold all our physical objects | ||
--let's create the ground | --let's create the ground | ||
objects.ground = {} | objects.ground = {} | ||
| − | + | objects.ground.body = love.physics.newBody(world, 650/2, 650-50/2) --remember, the shape (the rectangle we create next) anchors to the body from its center, so we have to move it to (650/2, 650-50/2) | |
| − | objects.ground.body = love.physics.newBody(world, 650/2, | + | objects.ground.shape = love.physics.newRectangleShape(650, 50) --make a rectangle with a width of 650 and a height of 50 |
| − | objects.ground.shape = love.physics.newRectangleShape( | + | objects.ground.fixture = love.physics.newFixture(objects.ground.body, objects.ground.shape); --attach shape to body |
--let's create a ball | --let's create a ball | ||
objects.ball = {} | objects.ball = {} | ||
| − | objects.ball.body = love.physics.newBody(world, 650/2, 650/2, | + | objects.ball.body = love.physics.newBody(world, 650/2, 650/2, "dynamic") --place the body in the center of the world and make it dynamic, so it can move around |
| − | objects.ball. | + | objects.ball.shape = love.physics.newCircleShape(20) --the ball's shape has a radius of 20 |
| + | objects.ball.fixture = love.physics.newFixture(objects.ball.body, objects.ball.shape, 1) -- Attach fixture to body and give it a density of 1. | ||
| + | objects.ball.fixture:setRestitution(0.9) --let the ball bounce | ||
| + | |||
| + | --let's create a couple blocks to play around with | ||
| + | objects.block1 = {} | ||
| + | objects.block1.body = love.physics.newBody(world, 200, 550, "dynamic") | ||
| + | objects.block1.shape = love.physics.newRectangleShape(0, 0, 50, 100) | ||
| + | objects.block1.fixture = love.physics.newFixture(objects.block1.body, objects.block1.shape, 5) -- A higher density gives it more mass. | ||
| + | |||
| + | objects.block2 = {} | ||
| + | objects.block2.body = love.physics.newBody(world, 200, 400, "dynamic") | ||
| + | objects.block2.shape = love.physics.newRectangleShape(0, 0, 100, 50) | ||
| + | objects.block2.fixture = love.physics.newFixture(objects.block2.body, objects.block2.shape, 2) | ||
--initial graphics setup | --initial graphics setup | ||
| − | love.graphics.setBackgroundColor( | + | love.graphics.setBackgroundColor(0.41, 0.53, 0.97) --set the background color to a nice blue |
| − | love. | + | love.window.setMode(650, 650) --set the window dimensions to 650 by 650 |
end | end | ||
| Line 121: | Line 150: | ||
objects.ball.body:applyForce(-400, 0) | objects.ball.body:applyForce(-400, 0) | ||
elseif love.keyboard.isDown("up") then --press the up arrow key to set the ball in the air | elseif love.keyboard.isDown("up") then --press the up arrow key to set the ball in the air | ||
| − | objects.ball.body: | + | objects.ball.body:setPosition(650/2, 650/2) |
| + | objects.ball.body:setLinearVelocity(0, 0) --we must set the velocity to zero to prevent a potentially large velocity generated by the change in position | ||
end | end | ||
end | end | ||
function love.draw() | function love.draw() | ||
| − | love.graphics.setColor( | + | love.graphics.setColor(0.28, 0.63, 0.05) -- set the drawing color to green for the ground |
| − | love.graphics.polygon("fill", objects.ground.shape:getPoints()) -- draw a "filled in" polygon using the ground's coordinates | + | love.graphics.polygon("fill", objects.ground.body:getWorldPoints(objects.ground.shape:getPoints())) -- draw a "filled in" polygon using the ground's coordinates |
| + | |||
| + | love.graphics.setColor(0.76, 0.18, 0.05) --set the drawing color to red for the ball | ||
| + | love.graphics.circle("fill", objects.ball.body:getX(), objects.ball.body:getY(), objects.ball.shape:getRadius()) | ||
| − | love.graphics.setColor( | + | love.graphics.setColor(0.20, 0.20, 0.20) -- set the drawing color to grey for the blocks |
| − | love.graphics. | + | love.graphics.polygon("fill", objects.block1.body:getWorldPoints(objects.block1.shape:getPoints())) |
| + | love.graphics.polygon("fill", objects.block2.body:getWorldPoints(objects.block2.shape:getPoints())) | ||
end | end | ||
</source> | </source> | ||
[[Category:Tutorials]] | [[Category:Tutorials]] | ||
| − | {{#set:LOVE Version=0. | + | {{#set:LOVE Version=0.10.0}} |
| − | {{#set:Description=A tutorial for learning to use [[ | + | {{#set:Description=A tutorial for learning to use [[love.physics]].}} |
== Other languages == | == Other languages == | ||
{{i18n|Tutorial:Physics}} | {{i18n|Tutorial:Physics}} | ||
Revision as of 08:56, 26 April 2018
In this example we will create a red ball that rolls around on a green ground.
The finished example is at the end of this page. All of these functions may be placed in one file: main.lua
We'll start in the love.load() function.
love.load()
First we need to set up a world for the physics bodies to exist in.
function love.load()
love.physics.setMeter(64) --the height of a meter our worlds will be 64px
world = love.physics.newWorld(0, 9.81*64, true) --create a world for the bodies to exist in with horizontal gravity of 0 and vertical gravity of 9.81
Now that a world has been created, we can add bodies, shapes, and fixture to it.
objects = {} -- table to hold all our physical objects
--let's create the ground
objects.ground = {}
objects.ground.body = love.physics.newBody(world, 650/2, 650-50/2) --remember, the shape (the rectangle we create next) anchors to the body from its center, so we have to move it to (650/2, 650-50/2)
objects.ground.shape = love.physics.newRectangleShape(650, 50) --make a rectangle with a width of 650 and a height of 50
objects.ground.fixture = love.physics.newFixture(objects.ground.body, objects.ground.shape) --attach shape to body
--let's create a ball
objects.ball = {}
objects.ball.body = love.physics.newBody(world, 650/2, 650/2, "dynamic") --place the body in the center of the world and make it dynamic, so it can move around
objects.ball.shape = love.physics.newCircleShape( 20) --the ball's shape has a radius of 20
objects.ball.fixture = love.physics.newFixture(objects.ball.body, objects.ball.shape, 1) -- Attach fixture to body and give it a density of 1.
objects.ball.fixture:setRestitution(0.9) --let the ball bounce
--let's create a couple blocks to play around with
objects.block1 = {}
objects.block1.body = love.physics.newBody(world, 200, 550, "dynamic")
objects.block1.shape = love.physics.newRectangleShape(0, 0, 50, 100)
objects.block1.fixture = love.physics.newFixture(objects.block1.body, objects.block1.shape, 5) -- A higher density gives it more mass.
objects.block2 = {}
objects.block2.body = love.physics.newBody(world, 200, 400, "dynamic")
objects.block2.shape = love.physics.newRectangleShape(0, 0, 100, 50)
objects.block2.fixture = love.physics.newFixture(objects.block2.body, objects.block2.shape, 2)
Now to wrap up the love.load() function, let's set up the screen size and background color.
--initial graphics setup
love.graphics.setBackgroundColor(0.41, 0.53, 0.97) --set the background color to a nice blue
love.window.setMode(650, 650) --set the window dimensions to 650 by 650 with no fullscreen, vsync on, and no antialiasing
end
Okay, that's enough for the initial set up of the physics engine. Now we need to edit the love.update() function.
love.update()
function love.update(dt)
world:update(dt) --this puts the world into motion
--here we are going to create some keyboard events
if love.keyboard.isDown("right") then --press the right arrow key to push the ball to the right
objects.ball.body:applyForce(400, 0)
elseif love.keyboard.isDown("left") then --press the left arrow key to push the ball to the left
objects.ball.body:applyForce(-400, 0)
elseif love.keyboard.isDown("up") then --press the up arrow key to set the ball in the air
objects.ball.body:setPosition(650/2, 650/2)
objects.ball.body:setLinearVelocity(0, 0) --we must set the velocity to zero to prevent a potentially large velocity generated by the change in position
end
end
Now that the world is updating, we can draw the ground and ball.
love.draw()
First, the ground.
function love.draw()
love.graphics.setColor(0.28, 0.63, 0.05) -- set the drawing color to green for the ground
love.graphics.polygon("fill", objects.ground.body:getWorldPoints(objects.ground.shape:getPoints())) -- draw a "filled in" polygon using the ground's coordinates
And finally, we can draw the circle that represents the ball and the blocks.
love.graphics.setColor(0.76, 0.18, 0.05) --set the drawing color to red for the ball
love.graphics.circle("fill", objects.ball.body:getX(), objects.ball.body:getY(), objects.ball.shape:getRadius())
love.graphics.setColor(0.20, 0.20, 0.20) -- set the drawing color to grey for the blocks
love.graphics.polygon("fill", objects.block1.body:getWorldPoints(objects.block1.shape:getPoints()))
love.graphics.polygon("fill", objects.block2.body:getWorldPoints(objects.block2.shape:getPoints()))
end
There you have it! Put this file in a zip file, rename it to physics.love (or whatever), run it. And you'll have a ball rolling around in a lush green environment like I promised.
The main.lua
function love.load()
love.physics.setMeter(64) --the height of a meter our worlds will be 64px
world = love.physics.newWorld(0, 9.81*64, true) --create a world for the bodies to exist in with horizontal gravity of 0 and vertical gravity of 9.81
objects = {} -- table to hold all our physical objects
--let's create the ground
objects.ground = {}
objects.ground.body = love.physics.newBody(world, 650/2, 650-50/2) --remember, the shape (the rectangle we create next) anchors to the body from its center, so we have to move it to (650/2, 650-50/2)
objects.ground.shape = love.physics.newRectangleShape(650, 50) --make a rectangle with a width of 650 and a height of 50
objects.ground.fixture = love.physics.newFixture(objects.ground.body, objects.ground.shape); --attach shape to body
--let's create a ball
objects.ball = {}
objects.ball.body = love.physics.newBody(world, 650/2, 650/2, "dynamic") --place the body in the center of the world and make it dynamic, so it can move around
objects.ball.shape = love.physics.newCircleShape(20) --the ball's shape has a radius of 20
objects.ball.fixture = love.physics.newFixture(objects.ball.body, objects.ball.shape, 1) -- Attach fixture to body and give it a density of 1.
objects.ball.fixture:setRestitution(0.9) --let the ball bounce
--let's create a couple blocks to play around with
objects.block1 = {}
objects.block1.body = love.physics.newBody(world, 200, 550, "dynamic")
objects.block1.shape = love.physics.newRectangleShape(0, 0, 50, 100)
objects.block1.fixture = love.physics.newFixture(objects.block1.body, objects.block1.shape, 5) -- A higher density gives it more mass.
objects.block2 = {}
objects.block2.body = love.physics.newBody(world, 200, 400, "dynamic")
objects.block2.shape = love.physics.newRectangleShape(0, 0, 100, 50)
objects.block2.fixture = love.physics.newFixture(objects.block2.body, objects.block2.shape, 2)
--initial graphics setup
love.graphics.setBackgroundColor(0.41, 0.53, 0.97) --set the background color to a nice blue
love.window.setMode(650, 650) --set the window dimensions to 650 by 650
end
function love.update(dt)
world:update(dt) --this puts the world into motion
--here we are going to create some keyboard events
if love.keyboard.isDown("right") then --press the right arrow key to push the ball to the right
objects.ball.body:applyForce(400, 0)
elseif love.keyboard.isDown("left") then --press the left arrow key to push the ball to the left
objects.ball.body:applyForce(-400, 0)
elseif love.keyboard.isDown("up") then --press the up arrow key to set the ball in the air
objects.ball.body:setPosition(650/2, 650/2)
objects.ball.body:setLinearVelocity(0, 0) --we must set the velocity to zero to prevent a potentially large velocity generated by the change in position
end
end
function love.draw()
love.graphics.setColor(0.28, 0.63, 0.05) -- set the drawing color to green for the ground
love.graphics.polygon("fill", objects.ground.body:getWorldPoints(objects.ground.shape:getPoints())) -- draw a "filled in" polygon using the ground's coordinates
love.graphics.setColor(0.76, 0.18, 0.05) --set the drawing color to red for the ball
love.graphics.circle("fill", objects.ball.body:getX(), objects.ball.body:getY(), objects.ball.shape:getRadius())
love.graphics.setColor(0.20, 0.20, 0.20) -- set the drawing color to grey for the blocks
love.graphics.polygon("fill", objects.block1.body:getWorldPoints(objects.block1.shape:getPoints()))
love.graphics.polygon("fill", objects.block2.body:getWorldPoints(objects.block2.shape:getPoints()))
end
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