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@@ -1,6 +1,6 @@ |
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life = Class{} |
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life = Class{} |
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function life:init( y , x , fat ) |
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function life:init( y , x , fat, undead) |
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self.RED = 255 |
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self.RED = 255 |
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self.GREEN = 255 |
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self.GREEN = 255 |
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self.BLUE = 255 |
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self.BLUE = 255 |
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@@ -12,21 +12,34 @@ function life:init( y , x , fat ) |
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self.dead = false |
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self.dead = false |
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self.multiplycounter = 1 |
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self.multiplycounter = 1 |
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self.closest = 999999 |
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self.closest = 999999 |
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self.childrenCount = 0 |
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self.childThreshold = math.random(30, 100) |
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self.childMaxThreshold = math.random(1, 5) |
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self.hasRandomTarget = false |
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self.sx = x |
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self.sy = y |
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self.lifeSpan = math.random(50, 100) |
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if undead then |
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self.lifeSpan = undead |
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end |
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end |
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end |
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function life:update(dt) |
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function life:update(dt) |
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if not self.dead then |
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if not self.dead then |
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if self.fat - self.width < -self.width*0.3 then |
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self.lifeSpan = self.lifeSpan - dt*0.7 |
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print("LIFE: " .. self.lifeSpan) |
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if self.fat <= 0 or self.lifeSpan <= 0 then |
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self.dead = true |
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self.dead = true |
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end |
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end |
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self.fat = self.fat - self.width*0.0001*dt |
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self.fat = self.fat - self.width*0.001*dt |
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if not self:checkIfEating() then |
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if not self:checkIfEating() then |
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self:lookForFood(dt) |
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self:lookForFood(dt) |
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end |
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end |
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if self.width > 30 then |
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table.insert(bugs, life(self.y+self.width, self.x+self.width, self.fat/2)) |
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if self.width > self.childThreshold and self.childrenCount < self.childMaxThreshold then |
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table.insert(bugs, life(self.y+self.width, self.x+self.width, self.fat/2+5)) |
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self.width = self.width/2 |
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self.width = self.width/2 |
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self.fat = self.fat/2 |
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self.fat = self.fat/2-5 |
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self.childrenCount = self.childrenCount + 1 |
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end |
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end |
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@@ -35,17 +48,26 @@ function life:update(dt) |
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end |
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end |
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function life:lookForFood(dt) |
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function life:lookForFood(dt) |
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self.closest = 9000000 |
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self.closest = 9000000 |
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local sx, sy = self.x, self.y |
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print("looking for food...") |
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print("looking for food...") |
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for i, food in ipairs(edibles) do |
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for i, food in ipairs(edibles) do |
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if math.sqrt((self.x - food.x)^2 + (self.y-food.y)^2) < self.closest then |
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dist = math.sqrt((self.x - food.x)^2 + (self.y-food.y)^2) |
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if dist < self.closest and dist < self.fat*20 then |
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self.closest = math.sqrt((self.x - food.x)^2 + (self.y-food.y)^2) |
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self.closest = math.sqrt((self.x - food.x)^2 + (self.y-food.y)^2) |
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sx, sy = food.x, food.y |
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self.sx, self.sy = food.x, food.y |
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print("going to " .. i) |
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print("going to " .. i) |
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self.hasRandomTarget = true |
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elseif not self.hasRandomTarget then |
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self.sx, self.sy = math.floor(math.random(0, VIRTUAL_WIDTH)), math.floor(math.random(0, VIRTUAL_HEIGHT)) |
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print(self.sx) |
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self.hasRandomTarget = true |
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end |
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end |
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end |
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end |
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self:goTo(sx, sy, dt) |
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if self.hasRandomTarget and math.abs(self.x - self.sx) < 5 and math.abs(self.y-self.sy) < 5 then |
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print("going random" .. self.sx.. " " .. self.sy) |
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self.sx, self.sy = math.floor(math.random(0, VIRTUAL_WIDTH)), math.floor(math.random(0, VIRTUAL_HEIGHT)) |
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self.hasRandomTarget = false |
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end |
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self:goTo(self.sx, self.sy, dt) |
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end |
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end |
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function life:goTo(x, y, dt) |
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function life:goTo(x, y, dt) |
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self.speed = (10 + self.fat * 0.5 ) |
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self.speed = (10 + self.fat * 0.5 ) |
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@@ -107,5 +129,7 @@ end |
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function life:render() |
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function life:render() |
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love.graphics.setColor(self.RED, self.GREEN, self.BLUE, self.fat*20/200) |
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love.graphics.setColor(self.RED, self.GREEN, self.BLUE, self.fat*20/200) |
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love.graphics.circle('fill', self.x, self.y, self.width) |
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love.graphics.circle('fill', self.x, self.y, self.width) |
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love.graphics.setColor(255,255,255,255) |
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love.graphics.printf(math.floor(self.lifeSpan), smallfont, self.x+self.width, self.y, self.width*10, 'left') |
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love.graphics.setColor(255, 255, 255, 255) |
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love.graphics.setColor(255, 255, 255, 255) |
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end |
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end |