mirror of
https://github.com/tanema/light_world.lua.git
synced 2024-12-24 20:24:19 +00:00
327 lines
10 KiB
Lua
327 lines
10 KiB
Lua
local _PACKAGE = (...):match("^(.+)[%./][^%./]+") or ""
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local class = require(_PACKAGE.."/class")
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local stencils = require(_PACKAGE..'/stencils')
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local vector = require(_PACKAGE..'/vector')
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local light = class()
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function light:init(world, x, y, r, g, b, range)
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self.world = world
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self.direction = 0
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self.angle = math.pi * 2.0
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self.range = 0
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self.shadow = love.graphics.newCanvas()
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self.shine = love.graphics.newCanvas()
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self.x = x or 0
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self.y = y or 0
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self.z = 15
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self.red = r or 255
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self.green = g or 255
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self.blue = b or 255
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self.range = range or 300
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self.smooth = 1.0
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self.glowSize = 0.1
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self.glowStrength = 0.0
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self.visible = true
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end
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-- set position
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function light:setPosition(x, y, z)
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if x ~= self.x or y ~= self.y or (z and z ~= self.z) then
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self.x = x
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self.y = y
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if z then
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self.z = z
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end
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end
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end
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-- get x
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function light:getX()
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return self.x
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end
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-- get y
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function light:getY()
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return self.y
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end
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-- set x
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function light:setX(x)
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if x ~= self.x then
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self.x = x
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end
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end
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-- set y
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function light:setY(y)
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if y ~= self.y then
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self.y = y
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end
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end
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-- set color
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function light:setColor(red, green, blue)
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self.red = red
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self.green = green
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self.blue = blue
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end
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-- set range
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function light:setRange(range)
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if range ~= self.range then
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self.range = range
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end
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end
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-- set direction
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function light:setDirection(direction)
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if direction ~= self.direction then
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if direction > math.pi * 2 then
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self.direction = math.mod(direction, math.pi * 2)
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elseif direction < 0.0 then
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self.direction = math.pi * 2 - math.mod(math.abs(direction), math.pi * 2)
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else
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self.direction = direction
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end
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end
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end
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-- set angle
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function light:setAngle(angle)
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if angle ~= self.angle then
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if angle > math.pi then
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self.angle = math.mod(angle, math.pi)
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elseif angle < 0.0 then
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self.angle = math.pi - math.mod(math.abs(angle), math.pi)
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else
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self.angle = angle
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end
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end
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end
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-- set glow size
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function light:setSmooth(smooth)
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self.smooth = smooth
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end
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-- set glow size
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function light:setGlowSize(size)
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self.glowSize = size
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end
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-- set glow strength
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function light:setGlowStrength(strength)
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self.glowStrength = strength
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end
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function light:updateShadow()
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if self.x + self.range > self.world.translate_x and self.x - self.range < love.graphics.getWidth() + self.world.translate_x
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and self.y + self.range > self.world.translate_y and self.y - self.range < love.graphics.getHeight() + self.world.translate_y
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then
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local lightposrange = {self.x, love.graphics.getHeight() - self.y, self.range}
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self.world.direction = self.world.direction + 0.002
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self.world.shader:send("lightPosition", {self.x - self.world.translate_x, love.graphics.getHeight() - (self.y - self.world.translate_y), self.z})
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self.world.shader:send("lightRange", self.range)
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self.world.shader:send("lightColor", {self.red / 255.0, self.green / 255.0, self.blue / 255.0})
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self.world.shader:send("lightSmooth", self.smooth)
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self.world.shader:send("lightGlow", {1.0 - self.glowSize, self.glowStrength})
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self.world.shader:send("lightAngle", math.pi - self.angle / 2.0)
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self.world.shader:send("lightDirection", self.direction)
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love.graphics.setCanvas(self.shadow)
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love.graphics.clear()
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-- calculate shadows
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local shadow_geometry = self:calculateShadows()
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-- draw shadow
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love.graphics.setInvertedStencil(stencils.shadow(shadow_geometry, self.world.body))
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love.graphics.setBlendMode("additive")
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-- FIND THIS TOOOO
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love.graphics.rectangle("fill", self.world.translate_x, self.world.translate_y, love.graphics.getWidth(), love.graphics.getHeight())
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-- draw color shadows
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love.graphics.setBlendMode("multiplicative")
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love.graphics.setShader()
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for k = 1,#shadow_geometry do
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if shadow_geometry[k].alpha < 1.0 then
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love.graphics.setColor(
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shadow_geometry[k].red * (1.0 - shadow_geometry[k].alpha),
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shadow_geometry[k].green * (1.0 - shadow_geometry[k].alpha),
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shadow_geometry[k].blue * (1.0 - shadow_geometry[k].alpha)
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)
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love.graphics.polygon("fill", unpack(shadow_geometry[k]))
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end
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end
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for k = 1, #self.world.body do
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self.world.body[k]:drawShadow(self)
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end
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love.graphics.setShader(self.world.shader)
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-- draw shine
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love.graphics.setCanvas(self.shine)
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self.shine:clear(255, 255, 255)
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love.graphics.setBlendMode("alpha")
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love.graphics.setStencil(stencils.poly(self.world.body))
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-- WHOA THIS MAY BE THE ISSUE HERE FIND THIS!
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love.graphics.rectangle("fill", self.world.translate_x, self.world.translate_y, love.graphics.getWidth(), love.graphics.getHeight())
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self.visible = true
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else
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self.visible = false
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end
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end
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function light:drawShadow()
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if self.visible then
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love.graphics.draw(self.shadow, self.world.translate_x, self.world.translate_y)
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end
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end
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function light:drawShine()
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if self.visible then
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love.graphics.draw(self.shine, self.world.translate_x, self.world.translate_y)
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end
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end
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local shadowLength = 100000
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function light:calculateShadows()
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local shadowGeometry = {}
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local body = self.world.body
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for i = 1, #body do
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local current
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if body[i].shadowType == "rectangle" or body[i].shadowType == "polygon" then
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current = self:calculatePolyShadow(body[i])
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elseif body[i].shadowType == "circle" then
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current = self:calculateCircleShadow(body[i])
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end
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if current ~= nil then
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shadowGeometry[#shadowGeometry + 1] = current
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end
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end
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return shadowGeometry
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end
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function light:calculatePolyShadow(poly)
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if poly.castsNoShadow then
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return nil
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end
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local curPolygon = poly.data
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local edgeFacingTo = {}
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for k = 1, #curPolygon, 2 do
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local indexOfNextVertex = (k + 2) % #curPolygon
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local normal = {-curPolygon[indexOfNextVertex+1] + curPolygon[k + 1], curPolygon[indexOfNextVertex] - curPolygon[k]}
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local selfToPoint = {curPolygon[k] - self.x, curPolygon[k + 1] - self.y}
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normal = vector.normalize(normal)
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selfToPoint = vector.normalize(selfToPoint)
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local dotProduct = vector.dot(normal, selfToPoint)
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if dotProduct > 0 then table.insert(edgeFacingTo, true)
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else table.insert(edgeFacingTo, false) end
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end
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local curShadowGeometry = {}
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for k = 1, #edgeFacingTo do
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local nextIndex = (k + 1) % #edgeFacingTo
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if nextIndex == 0 then nextIndex = #edgeFacingTo end
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if edgeFacingTo[k] and not edgeFacingTo[nextIndex] then
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curShadowGeometry[1] = curPolygon[nextIndex*2-1]
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curShadowGeometry[2] = curPolygon[nextIndex*2]
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local selfVecFrontBack = vector.normalize({curPolygon[nextIndex*2-1] - self.x, curPolygon[nextIndex*2] - self.y})
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curShadowGeometry[3] = curShadowGeometry[1] + selfVecFrontBack[1] * shadowLength
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curShadowGeometry[4] = curShadowGeometry[2] + selfVecFrontBack[2] * shadowLength
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elseif not edgeFacingTo[k] and edgeFacingTo[nextIndex] then
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curShadowGeometry[7] = curPolygon[nextIndex*2-1]
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curShadowGeometry[8] = curPolygon[nextIndex*2]
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local selfVecBackFront = vector.normalize({curPolygon[nextIndex*2-1] - self.x, curPolygon[nextIndex*2] - self.y})
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curShadowGeometry[5] = curShadowGeometry[7] + selfVecBackFront[1] * shadowLength
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curShadowGeometry[6] = curShadowGeometry[8] + selfVecBackFront[2] * shadowLength
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end
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end
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if curShadowGeometry[1]
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and curShadowGeometry[2]
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and curShadowGeometry[3]
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and curShadowGeometry[4]
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and curShadowGeometry[5]
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and curShadowGeometry[6]
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and curShadowGeometry[7]
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and curShadowGeometry[8]
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then
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curShadowGeometry.alpha = poly.alpha
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curShadowGeometry.red = poly.red
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curShadowGeometry.green = poly.green
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curShadowGeometry.blue = poly.blue
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return curShadowGeometry
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else
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return nil
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end
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end
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function light:calculateCircleShadow(circle)
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if circle.castsNoShadow then
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return nil
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end
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local length = math.sqrt(math.pow(self.x - (circle.x - circle.ox), 2) + math.pow(self.y - (circle.y - circle.oy), 2))
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if length >= circle.radius and length <= self.range then
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local curShadowGeometry = {}
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local angle = math.atan2(self.x - (circle.x - circle.ox), (circle.y - circle.oy) - self.y) + math.pi / 2
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local x2 = ((circle.x - circle.ox) + math.sin(angle) * circle.radius)
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local y2 = ((circle.y - circle.oy) - math.cos(angle) * circle.radius)
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local x3 = ((circle.x - circle.ox) - math.sin(angle) * circle.radius)
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local y3 = ((circle.y - circle.oy) + math.cos(angle) * circle.radius)
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curShadowGeometry[1] = x2
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curShadowGeometry[2] = y2
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curShadowGeometry[3] = x3
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curShadowGeometry[4] = y3
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curShadowGeometry[5] = x3 - (self.x - x3) * shadowLength
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curShadowGeometry[6] = y3 - (self.y - y3) * shadowLength
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curShadowGeometry[7] = x2 - (self.x - x2) * shadowLength
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curShadowGeometry[8] = y2 - (self.y - y2) * shadowLength
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curShadowGeometry.alpha = circle.alpha
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curShadowGeometry.red = circle.red
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curShadowGeometry.green = circle.green
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curShadowGeometry.blue = circle.blue
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return curShadowGeometry
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else
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return nil
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end
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end
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function light:drawPixelShadow()
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if self.visible then
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if self.normalInvert then
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self.world.normalInvertShader:send('screenResolution', {love.graphics.getWidth(), love.graphics.getHeight()})
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self.world.normalInvertShader:send('lightColor', {self.red / 255.0, self.green / 255.0, self.blue / 255.0})
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self.world.normalInvertShader:send('lightPosition',{self.x, love.graphics.getHeight() - self.y, self.z / 255.0})
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self.world.normalInvertShader:send('lightRange',{self.range})
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self.world.normalInvertShader:send("lightSmooth", self.smooth)
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self.world.normalInvertShader:send("lightAngle", math.pi - self.angle / 2.0)
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self.world.normalInvertShader:send("lightDirection", self.direction)
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love.graphics.setShader(self.world.normalInvertShader)
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else
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self.world.normalShader:send('screenResolution', {love.graphics.getWidth(), love.graphics.getHeight()})
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self.world.normalShader:send('lightColor', {self.red / 255.0, self.green / 255.0, self.blue / 255.0})
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self.world.normalShader:send('lightPosition',{self.x, love.graphics.getHeight() - self.y, self.z / 255.0})
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self.world.normalShader:send('lightRange',{self.range})
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self.world.normalShader:send("lightSmooth", self.smooth)
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self.world.normalShader:send("lightAngle", math.pi - self.angle / 2.0)
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self.world.normalShader:send("lightDirection", self.direction)
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love.graphics.setShader(self.world.normalShader)
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end
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love.graphics.draw(self.world.normalMap, self.world.translate_x, self.world.translate_y)
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end
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end
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return light
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