Tutorial:Gridlocked Player
In this tutorial, we will create a VERY basic game wherein you can move a "player" around the screen in fixed increments. This could be useful if you are creating a game that is tile-based, and want your player to stay aligned to the grid.
Starting Elements
To start with, we need to create a player. The player will have several aspects before we're done, so we're going to make the player variable a table.
function love.load()
player = {}
end
Next we'll need to see what we're doing. We can render the player as a rectangle using love.graphics.rectangle() in love.draw().
function love.draw()
love.graphics.rectangle("fill", 0, 0, 32, 32)
end
Let's fill in the player table a little so that the player has a position. Note that we're using the shorthand way of putting variables into a table: just define them inside the curly brackets, using commas to separate them.
function love.load()
player = {
x = 256,
y = 256
}
end
function love.draw()
love.graphics.rectangle("fill", player.x, player.y, 32, 32)
end
Now that the player has position, let's add in some controls using love.keypressed(). All we do is check to see if the key matches, and change the a value in the player table.
function love.keypressed(key, uni)
if key == "down" then
player.y = player.y + 32
end
end
We can expand this to more keys using elseif.
function love.keypressed(key, uni)
if key == "up" then
player.y = player.y - 32
elseif key == "down" then
player.y = player.y + 32
elseif key == "left" then
player.x = player.x - 32
elseif key == "right" then
player.x = player.x + 32
end
end
So we now have a happy little square that can jump around the screen as fast as you can hit the keyboard. Now let's add in the smooth transitions. To do this, we're going to need to shift up the variables in the player table. Don't forget that this will affect all reference to the player table.
There are two things that we will now need. One, we need actual XY coordinates as opposed to the gridlocked coordinates that will now serve as destination coordinates. Two, we need to update the actual coordinates in love.update() to move towards the destination coordinates. We can do that with a simple math problem:
actual_x = actual_x - (actual_x - destination_x)
Or, in real Lua this time:
function love.load()
player = {
grid_x = 256,
grid_y = 256,
act_x = 200,
act_y = 200
}
end
function love.update(dt)
player.act_y = player.act_y - (player.act_y - player.grid_y)
player.act_x = player.act_x - (player.act_x - player.grid_x)
end
function love.draw()
love.graphics.rectangle("fill", player.act_x, player.act_y, 32, 32)
end
function love.keypressed(key, uni)
if key == "up" then
player.grid_y = player.grid_y - 32
elseif key == "down" then
player.grid_y = player.grid_y + 32
elseif key == "left" then
player.grid_x = player.grid_x - 32
elseif key == "right" then
player.grid_x = player.grid_x + 32
end
end
As you probably noticed, you probably can't see any difference. We need dt to control speed, and then a speed property to further control that:
function love.load()
player = {
grid_x = 256,
grid_y = 256,
act_x = 200,
act_y = 200,
speed = 10
}
end
function love.update(dt)
player.act_y = player.act_y - ((player.act_y - player.grid_y) * player.speed * dt)
player.act_x = player.act_x - ((player.act_x - player.grid_x) * player.speed * dt)
end
function love.draw()
love.graphics.rectangle("fill", player.act_x, player.act_y, 32, 32)
end
function love.keypressed(key, uni)
if key == "up" then
player.grid_y = player.grid_y - 32
elseif key == "down" then
player.grid_y = player.grid_y + 32
elseif key == "left" then
player.grid_x = player.grid_x - 32
elseif key == "right" then
player.grid_x = player.grid_x + 32
end
end
Polishing Touches
See Also