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love2d-tank/bullet.lua

130 lines
3.2 KiB

Bullet = Object:extend()
local pi = math.pi
local cos = math.cos
local sin = math.sin
local atan = math.atan
local deg = math.deg
function Bullet:new(x, y, p, speed, rotation)
self.image = love.graphics.newImage("assets/bullet.png")
self.x = x
self.y = y
self.p = p
self.speed = speed
self.rotation = rotation
self.width = self.image:getWidth()
self.height = self.image:getHeight()
self.scaleX = 1
self.scaleY = 1
self.originX = self.width / 2
self.originY = self.height / 2
self.collider = World:newCircleCollider(x, y, 10)
--self.collider = World:newRectangleCollider(x, y, 10, 10)
--self.collider:setType("")
self.collider:setFixedRotation(true)
self.collider:setPosition(self.x, self.y)
self.bounce = 0 -- how many times this bullet has bounced
if self.p == 1 then
self.collider:setCollisionClass("Bullet1")
elseif self.p == 2 then
self.collider:setCollisionClass("Bullet2")
end
end
function Bullet:update(dt)
-- Calculate the velocity
local dx = math.cos(self.rotation) * self.speed * dt
local dy = math.sin(self.rotation) * self.speed * dt
-- Check for collisions
if self.collider:enter("Wall") then
self.bounce = self.bounce + 1
-- Get the collision normal
local collision_data = self.collider:getEnterCollisionData("Wall")
local contact = collision_data.contact
local normal_x, normal_y = contact:getNormal()
-- Debug print to verify normal values
--print("---------------------------------")
--print("Collision detected!")
--print("Normal X:", normal_x, "Normal Y:", normal_y)
--print("Initial Velocity X:", dx, "Initial Velocity Y:", dy)
--print("Initial Angle: ", self.rotation)
-- Reflect the velocity using the normal
local dot_product = dx * normal_x + dy * normal_y
dx = dx - 2 * dot_product * normal_x
dy = dy - 2 * dot_product * normal_y
--print("################################")
-- Debug print to verify reflected velocity
--print("Reflected Velocity X:", dx, "Reflected Velocity Y:", dy)
self.rotation = deg(atan(dy, dx))
-- Update the rotation based on the new velocity direction
--self.rotation = deg(atan(dy, dx))
--print("Reflected Angle (radians):", self.rotation)
--print("Reflected Angle (degrees):", self.rotation)
--print("---------------------------------")
end
-- Set the linear velocity of the collider
self.collider:setLinearVelocity(dx, dy)
-- Update position
self.x = self.collider:getX()
self.y = self.collider:getY()
end
--[[
function Bullet:update(dt)
local normal_x, normal_y = 0, 0
local dx, dy = 0, 0
if self.p == 1 or self.p == 2 then
if self.collider:enter("Wall") then
self.collider:setLinearVelocity(dx, dy)
else
dx = cos(self.rotation) * self.speed * dt
dy = sin(self.rotation) * self.speed * dt
self.collider:setLinearVelocity(dx, dy)
end
end
-- Update position
self.x = self.collider:getX()
self.y = self.collider:getY()
end
]]
function Bullet:draw()
for _, _ in ipairs(Bullets1) do
love.graphics.draw(
self.image,
self.x,
self.y,
self.rotation,
self.scaleX,
self.scaleY,
self.originX,
self.originY
)
end
for _, _ in ipairs(Bullets2) do
love.graphics.draw(
self.image,
self.x,
self.y,
self.rotation,
self.scaleX,
self.scaleY,
self.originX,
self.originY
)
end
end