Add example browser.

This commit is contained in:
Marcus Ihde 2014-04-08 19:45:21 +02:00
parent 16cc91724b
commit 88b5014326
10 changed files with 1676 additions and 1109 deletions

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examples/complex.lua Normal file
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-- Example: Complex Example
require "lib/postshader"
require "lib/light"
function initScene()
-- physic world
physicWorld = love.physics.newWorld(0, 9.81 * 64, true)
wall1 = {}
wall1.body = love.physics.newBody(physicWorld, 400, 605, "static")
wall1.shape = love.physics.newRectangleShape(0, 0, 800, 10)
wall1.fixture = love.physics.newFixture(wall1.body, wall1.shape)
wall2 = {}
wall2.body = love.physics.newBody(physicWorld, -5, 300, "static")
wall2.shape = love.physics.newRectangleShape(0, 0, 10, 600)
wall2.fixture = love.physics.newFixture(wall2.body, wall2.shape)
wall3 = {}
wall3.body = love.physics.newBody(physicWorld, 805, 300, "static")
wall3.shape = love.physics.newRectangleShape(0, 0, 10, 600)
wall3.fixture = love.physics.newFixture(wall3.body, wall3.shape)
wall4 = {}
wall4.body = love.physics.newBody(physicWorld, 400, -5, "static")
wall4.shape = love.physics.newRectangleShape(0, 0, 800, 10)
wall4.fixture = love.physics.newFixture(wall4.body, wall4.shape)
phyCnt = 0
phyLight = {}
phyBody = {}
phyShape = {}
phyFixture = {}
end
function love.load()
love.graphics.setBackgroundColor(0, 0, 0)
love.graphics.setDefaultFilter("nearest", "nearest")
-- load image font
font = love.graphics.newImageFont("gfx/font.png", " abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789.,!?-+/():;%&`'*#=[]\"")
love.graphics.setFont(font)
-- set background
quadScreen = love.graphics.newQuad(0, 0, love.window.getWidth() + 32, love.window.getHeight() + 24, 32, 24)
imgFloor = love.graphics.newImage("gfx/floor.png")
imgFloor:setWrap("repeat", "repeat")
-- load image examples
circle = love.graphics.newImage("gfx/circle.png")
circle_normal = love.graphics.newImage("gfx/circle_normal.png")
cone = love.graphics.newImage("gfx/cone.png")
cone_large = love.graphics.newImage("gfx/cone_large.png")
cone_large_normal = love.graphics.newImage("gfx/cone_large_normal.png")
cone_normal = love.graphics.newImage("gfx/cone_normal.png")
chest = love.graphics.newImage("gfx/chest.png")
chest_normal = love.graphics.newImage("gfx/chest_normal.png")
machine = love.graphics.newImage("gfx/machine.png")
machine_normal = love.graphics.newImage("gfx/machine_normal.png")
machine_glow = love.graphics.newImage("gfx/machine_glow.png")
machine2 = love.graphics.newImage("gfx/machine2.png")
machine2_normal = love.graphics.newImage("gfx/machine2_normal.png")
machine2_glow = love.graphics.newImage("gfx/machine2_glow.png")
blopp = love.graphics.newImage("gfx/blopp.png")
tile = love.graphics.newImage("gfx/tile.png")
tile_normal = love.graphics.newImage("gfx/tile_normal.png")
tile_glow = love.graphics.newImage("gfx/tile_glow.png")
refraction_normal = love.graphics.newImage("gfx/refraction_normal.png")
water = love.graphics.newImage("gfx/water.png")
led = love.graphics.newImage("gfx/led.png")
led2 = love.graphics.newImage("gfx/led2.png")
led3 = love.graphics.newImage("gfx/led3.png")
led_normal = love.graphics.newImage("gfx/led_normal.png")
led_glow = love.graphics.newImage("gfx/led_glow.png")
led_glow2 = love.graphics.newImage("gfx/led_glow2.png")
led_glow3 = love.graphics.newImage("gfx/led_glow3.png")
ape = love.graphics.newImage("gfx/ape.png")
ape_normal = love.graphics.newImage("gfx/ape_normal.png")
ape_glow = love.graphics.newImage("gfx/ape_glow.png")
imgLight = love.graphics.newImage("gfx/light.png")
-- materials
material = {}
local files = love.filesystem.getDirectoryItems("gfx/sphere")
for i, file in ipairs(files) do
material[i] = love.graphics.newImage("gfx/sphere/" .. file)
end
-- light world
lightRange = 400
lightSmooth = 1.0
lightWorld = love.light.newWorld()
lightWorld.setAmbientColor(15, 15, 31)
lightWorld.setRefractionStrength(16.0)
lightWorld.setReflectionVisibility(0.75)
mouseLight = lightWorld.newLight(0, 0, 255, 191, 127, lightRange)
mouseLight.setGlowStrength(0.3)
mouseLight.setSmooth(lightSmooth)
mouseLight.z = 63
lightDirection = 0.0
colorAberration = 0.0
-- init physic world
initScene()
helpOn = false
physicOn = false
lightOn = true
gravityOn = 1
shadowBlur = 2.0
bloomOn = 0.25
textureOn = true
normalOn = false
glowBlur = 1.0
effectOn = 0.0
offsetX = 0.0
offsetY = 0.0
offsetOldX = 0.0
offsetOldY = 0.0
offsetChanged = false
tileX = 0
tileY = 0
end
function love.update(dt)
love.window.setTitle("Light vs. Shadow Engine (FPS:" .. love.timer.getFPS() .. ")")
mouseLight.setPosition(love.mouse.getX(), love.mouse.getY(), 16.0 + (math.sin(lightDirection) + 1.0) * 64.0)
mx = love.mouse.getX()
my = love.mouse.getY()
lightDirection = lightDirection + dt
colorAberration = math.max(0.0, colorAberration - dt * 10.0)
if love.keyboard.isDown("w") then
for i = 1, phyCnt do
if phyBody[i] then
phyBody[i]:applyForce(0, -2000)
end
end
elseif love.keyboard.isDown("s") then
for i = 1, phyCnt do
if phyBody[i] then
phyBody[i]:applyForce(0, 2000)
end
end
end
if love.keyboard.isDown("a") then
for i = 1, phyCnt do
if phyBody[i] then
phyBody[i]:applyForce(-2000, 0)
end
end
elseif love.keyboard.isDown("d") then
for i = 1, phyCnt do
if phyBody[i] then
phyBody[i]:applyForce(2000, 0)
end
end
end
if love.keyboard.isDown("up") then
offsetY = offsetY + dt * 200
elseif love.keyboard.isDown("down") then
offsetY = offsetY - dt * 200
end
if love.keyboard.isDown("left") then
offsetX = offsetX + dt * 200
elseif love.keyboard.isDown("right") then
offsetX = offsetX - dt * 200
end
if offsetX ~= offsetOldX or offsetY ~= offsetOldY then
offsetChanged = true
for i = 2, lightWorld.getLightCount() do
lightWorld.setLightPosition(i, lightWorld.getLightX(i) + (offsetX - offsetOldX), lightWorld.getLightY(i) + (offsetY - offsetOldY))
end
else
offsetChanged = false
end
for i = 1, lightWorld.getLightCount() do
lightWorld.setLightDirection(i, lightDirection)
end
tileX = tileX + dt * 32.0
tileY = tileY + dt * 8.0
for i = 1, phyCnt do
if phyBody[i] and (phyBody[i]:isAwake() or offsetChanged) then
if offsetChanged then
phyBody[i]:setX(phyBody[i]:getX() + (offsetX - offsetOldX))
phyBody[i]:setY(phyBody[i]:getY() + (offsetY - offsetOldY))
end
if phyLight[i].getType() == "polygon" then
phyLight[i].setPoints(phyBody[i]:getWorldPoints(phyShape[i]:getPoints()))
elseif phyLight[i].getType() == "circle" then
phyLight[i].setPosition(phyBody[i]:getX(), phyBody[i]:getY())
elseif phyLight[i].getType() == "image" then
phyLight[i].setPosition(phyBody[i]:getX(), phyBody[i]:getY())
elseif phyLight[i].getType() == "refraction" then
--phyLight[i].setPosition(phyBody[i]:getX(), phyBody[i]:getY())
end
end
if phyLight[i].getType() == "refraction" then
--if math.mod(i, 2) == 0 then
phyLight[i].setNormalTileOffset(tileX, tileY)
--end
if offsetChanged then
phyLight[i].setPosition(phyLight[i].getX() + (offsetX - offsetOldX), phyLight[i].getY() + (offsetY - offsetOldY))
end
end
end
if physicOn then
physicWorld:update(dt)
end
offsetOldX = offsetX
offsetOldY = offsetY
end
function love.draw()
-- update lightmap (don't need deltatime)
if lightOn then
lightWorld.update()
end
-- set shader buffer
if bloomOn then
love.postshader.setBuffer("render")
end
love.graphics.setBlendMode("alpha")
if normalOn then
love.graphics.setColor(127, 127, 255)
love.graphics.rectangle("fill", 0, 0, love.graphics.getWidth(), love.graphics.getHeight())
else
love.graphics.setColor(255, 255, 255)
if textureOn then
love.graphics.draw(imgFloor, quadScreen, offsetX % 32 - 32, offsetY % 24 - 24)
else
love.graphics.rectangle("fill", 0, 0, love.graphics.getWidth(), love.graphics.getHeight())
end
end
for i = 1, phyCnt do
if phyLight[i].getType() == "refraction" then
if not normalOn then
--if math.mod(i, 2) == 0 then
love.graphics.setBlendMode("alpha")
love.graphics.setColor(255, 255, 255, 191)
love.graphics.draw(water, phyLight[i].x - phyLight[i].ox, phyLight[i].y - phyLight[i].oy)
--else
--love.graphics.setBlendMode("multiplicative")
--math.randomseed(i)
--love.graphics.setColor(math.random(0, 255), math.random(0, 255), math.random(0, 255))
--love.graphics.rectangle("fill", phyLight[i].x - phyLight[i].ox, phyLight[i].y - phyLight[i].oy, 128, 128)
--end
end
end
end
-- draw lightmap shadows
if lightOn and not normalOn then
lightWorld.drawShadow()
end
for i = 1, phyCnt do
math.randomseed(i)
love.graphics.setColor(math.random(0, 255), math.random(0, 255), math.random(0, 255))
if phyLight[i].getType() == "polygon" then
love.graphics.polygon("fill", phyLight[i].getPoints())
elseif phyLight[i].getType() == "circle" then
love.graphics.circle("fill", phyLight[i].getX(), phyLight[i].getY(), phyLight[i].getRadius())
end
end
-- draw lightmap shine
if lightOn and not normalOn then
lightWorld.drawShine()
end
love.graphics.setBlendMode("alpha")
for i = 1, phyCnt do
if phyLight[i].getType() == "image" then
if normalOn and phyLight[i].normal then
love.graphics.setColor(255, 255, 255)
love.graphics.draw(phyLight[i].normal, phyLight[i].x - phyLight[i].nx, phyLight[i].y - phyLight[i].ny)
elseif not phyLight[i].material then
math.randomseed(i)
love.graphics.setColor(math.random(127, 255), math.random(127, 255), math.random(127, 255))
love.graphics.draw(phyLight[i].img, phyLight[i].x - phyLight[i].ix, phyLight[i].y - phyLight[i].iy)
end
end
end
if not normalOn then
lightWorld.drawMaterial()
end
-- draw pixel shadow
if lightOn and not normalOn then
lightWorld.drawPixelShadow()
end
-- draw glow
if lightOn and not normalOn then
lightWorld.drawGlow()
end
-- draw reflection
lightWorld.drawReflection()
-- draw refraction
lightWorld.drawRefraction()
love.graphics.draw(imgLight, mx - 5, (my - 5) - (16.0 + (math.sin(lightDirection) + 1.0) * 64.0))
-- draw help
if helpOn then
love.graphics.setBlendMode("alpha")
love.graphics.setColor(0, 0, 0, 191)
love.graphics.rectangle("fill", 0, 0, love.graphics.getWidth(), 44)
love.graphics.rectangle("fill", 0, love.graphics.getHeight() - 68, 240, 68)
love.graphics.rectangle("fill", love.graphics.getWidth() - 244, love.graphics.getHeight() - 84, 244, 84)
love.graphics.setColor(0, 255, 0)
love.graphics.print("F1: Help (on)", 4 + 152 * 0, 4)
if physicOn then
love.graphics.setColor(0, 255, 0)
love.graphics.print("F2: Physic (on)", 4 + 152 * 1, 4)
else
love.graphics.setColor(255, 0, 0)
love.graphics.print("F2: Physic (off)", 4 + 152 * 1, 4)
end
if lightOn then
love.graphics.setColor(0, 255, 0)
love.graphics.print("F3: Light (on)", 4 + 152 * 2, 4)
else
love.graphics.setColor(255, 0, 0)
love.graphics.print("F3: Light (off)", 4 + 152 * 2, 4)
end
if gravityOn == 1.0 then
love.graphics.setColor(0, 255, 0)
love.graphics.print("F4: Gravity (on)", 4 + 152 * 3, 4)
else
love.graphics.setColor(255, 0, 0)
love.graphics.print("F4: Gravity (off)", 4 + 152 * 3, 4)
end
if shadowBlur >= 1.0 then
love.graphics.setColor(0, 255, 0)
love.graphics.print("F5: Shadowblur (" .. shadowBlur .. ")", 4 + 152 * 4, 4)
else
love.graphics.setColor(255, 0, 0)
love.graphics.print("F5: Shadowblur (off)", 4 + 152 * 4, 4)
end
if bloomOn > 0.0 then
love.graphics.setColor(0, 255, 0)
love.graphics.print("F6: Bloom (" .. (bloomOn * 4) .. ")", 4 + 152 * 0, 4 + 20 * 1)
else
love.graphics.setColor(255, 0, 0)
love.graphics.print("F6: Bloom (off)", 4 + 152 * 0, 4 + 20 * 1)
end
if textureOn then
love.graphics.setColor(0, 255, 0)
love.graphics.print("F7: Texture (on)", 4 + 152 * 1, 4 + 20 * 1)
else
love.graphics.setColor(255, 0, 0)
love.graphics.print("F7: Texture (off)", 4 + 152 * 1, 4 + 20 * 1)
end
if normalOn then
love.graphics.setColor(0, 255, 0)
love.graphics.print("F8: Normal (on)", 4 + 152 * 2, 4 + 20 * 1)
else
love.graphics.setColor(255, 0, 0)
love.graphics.print("F8: Normal (off)", 4 + 152 * 2, 4 + 20 * 1)
end
if glowBlur >= 1.0 then
love.graphics.setColor(0, 255, 0)
love.graphics.print("F9: Glow Blur (" .. glowBlur .. ")", 4 + 152 * 3, 4 + 20 * 1)
else
love.graphics.setColor(255, 0, 0)
love.graphics.print("F9: Glow Blur (off)", 4 + 152 * 3, 4 + 20 * 1)
end
if effectOn >= 1.0 then
love.graphics.setColor(0, 255, 0)
love.graphics.print("F10: Effects (" .. effectOn .. ")", 4 + 152 * 4, 4 + 20 * 1)
else
love.graphics.setColor(255, 0, 0)
love.graphics.print("F10: Effects (off)", 4 + 152 * 4, 4 + 20 * 1)
end
love.graphics.setColor(255, 0, 255)
love.graphics.print("F11: Clear obj.", 4 + 152 * 4, 4 + 20 * 2)
love.graphics.print("F12: Clear lights", 4 + 152 * 4, 4 + 20 * 3)
love.graphics.setColor(0, 127, 255)
love.graphics.print("WASD Keys: Move objects", 4, love.graphics.getHeight() - 20 * 3)
love.graphics.print("Arrow Keys: Move map", 4, love.graphics.getHeight() - 20 * 2)
love.graphics.print("0-9 Keys: Add object", 4, love.graphics.getHeight() - 20 * 1)
love.graphics.setColor(255, 127, 0)
love.graphics.print("M.left: Add cube", love.graphics.getWidth() - 240, love.graphics.getHeight() - 20 * 4)
love.graphics.print("M.middle: Add light", love.graphics.getWidth() - 240, love.graphics.getHeight() - 20 * 3)
love.graphics.print("M.right: Add circle", love.graphics.getWidth() - 240, love.graphics.getHeight() - 20 * 2)
love.graphics.print("M.scroll: Change smooth", love.graphics.getWidth() - 240, love.graphics.getHeight() - 20 * 1)
love.graphics.setColor(255, 127, 0)
else
love.graphics.setColor(255, 255, 255, 191)
love.graphics.print("F1: Help", 4, 4)
end
-- draw shader
if colorAberration > 0.0 then
-- vert / horz blur
love.postshader.addEffect("blur", 2.0, 2.0)
love.postshader.addEffect("chromatic", math.sin(lightDirection * 10.0) * colorAberration, math.cos(lightDirection * 10.0) * colorAberration, math.cos(lightDirection * 10.0) * colorAberration, math.sin(lightDirection * 10.0) * -colorAberration, math.sin(lightDirection * 10.0) * colorAberration, math.cos(lightDirection * 10.0) * -colorAberration)
end
if bloomOn > 0.0 then
-- blur, strength
love.postshader.addEffect("bloom", 2.0, bloomOn)
end
if effectOn == 1.0 then
love.postshader.addEffect("4colors", {15, 56, 15}, {48, 98, 48}, {139, 172, 15}, {155, 188, 15})
--love.postshader.addEffect("4colors", {108, 108, 78}, {142, 139, 87}, {195, 196, 165}, {227, 230, 201})
elseif effectOn == 2.0 then
love.postshader.addEffect("monochrom")
elseif effectOn == 3.0 then
love.postshader.addEffect("scanlines")
elseif effectOn == 4.0 then
love.postshader.addEffect("tiltshift", 4.0)
end
love.postshader.draw()
end
function love.mousepressed(x, y, c)
if c == "m" then
-- add light
local r = lightWorld.getLightCount() % 3
local light
if r == 0 then
light = lightWorld.newLight(x, y, 31, 127, 63, lightRange)
elseif r == 1 then
light = lightWorld.newLight(x, y, 127, 63, 31, lightRange)
else
light = lightWorld.newLight(x, y, 31, 63, 127, lightRange)
end
light.setSmooth(lightSmooth)
light.setGlowStrength(0.3)
elseif c == "l" then
-- add rectangle
math.randomseed(love.timer.getTime())
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newPolygon()
phyBody[phyCnt] = love.physics.newBody(physicWorld, x, y, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, math.random(32, 64), math.random(32, 64))
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif c == "r" then
-- add circle
math.randomseed(love.timer.getTime())
cRadius = math.random(8, 32)
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newCircle(x, y, cRadius)
phyBody[phyCnt] = love.physics.newBody(physicWorld, x, y, "dynamic")
phyShape[phyCnt] = love.physics.newCircleShape(0, 0, cRadius)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif c == "wu" then
if lightSmooth < 4.0 then
lightSmooth = lightSmooth * 1.1
mouseLight.setSmooth(lightSmooth)
end
elseif c == "wd" then
if lightSmooth > 0.5 then
lightSmooth = lightSmooth / 1.1
mouseLight.setSmooth(lightSmooth)
end
end
end
function love.keypressed(k, u)
-- debug options
if k == "f1" then
helpOn = not helpOn
elseif k == "f2" then
physicOn = not physicOn
elseif k == "f3" then
lightOn = not lightOn
elseif k == "f4" then
gravityOn = 1 - gravityOn
physicWorld:setGravity(0, gravityOn * 9.81 * 64)
elseif k == "f5" then
shadowBlur = math.max(1, shadowBlur * 2.0)
if shadowBlur > 8.0 then
shadowBlur = 0.0
end
lightWorld.setBlur(shadowBlur)
elseif k == "f6" or k == "b" then
bloomOn = math.max(0.25, bloomOn * 2.0)
if bloomOn > 1.0 then
bloomOn = 0.0
end
elseif k == "f7" then
textureOn = not textureOn
elseif k == "f8" then
normalOn = not normalOn
elseif k == "f9" then
glowBlur = glowBlur + 1.0
if glowBlur > 8.0 then
glowBlur = 0.0
end
lightWorld.setGlowStrength(glowBlur)
elseif k == "f10" then
effectOn = effectOn + 1.0
if effectOn > 4.0 then
effectOn = 0.0
end
elseif k == "f11" then
physicWorld:destroy()
lightWorld.clearBodys()
initScene()
elseif k == "f12" then
lightWorld.clearLights()
mouseLight = lightWorld.newLight(0, 0, 255, 191, 127, lightRange)
mouseLight.setGlowStrength(0.3)
mouseLight.setSmooth(lightSmooth)
elseif k == "1" then
-- add image
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(circle, mx, my)
phyLight[phyCnt].setNormalMap(circle_normal)
phyLight[phyCnt].setShadowType("circle", 16)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 32, 32)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif k == "2" then
local r = lightWorld.getBodyCount() % 2
if r == 0 then
-- add image
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(cone, mx, my, 24, 12, 12, 16)
phyLight[phyCnt].setNormalMap(cone_normal)
phyLight[phyCnt].setShadowType("circle", 12, 0, -8)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 24, 32)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif r == 1 then
-- add image
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(chest, mx, my, 32, 24, 16, 0)
phyLight[phyCnt].setNormalMap(chest_normal)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 32, 24)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
end
elseif k == "3" then
-- add image
local r = lightWorld.getBodyCount() % #material
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(ape, mx, my, 160, 128, 80, 64)
phyLight[phyCnt].setNormalMap(ape_normal)
if r == 3 then
phyLight[phyCnt].setGlowMap(ape_glow)
end
phyLight[phyCnt].setMaterial(material[r + 1])
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 32, 24)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
phyLight[phyCnt].setShadowType("image", 0, -16, 0.0)
elseif k == "4" then
-- add glow image
local r = lightWorld.getBodyCount() % 5
if r == 0 then
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(machine, mx, my, 32, 24, 16, 0)
phyLight[phyCnt].setNormalMap(machine_normal)
phyLight[phyCnt].setGlowMap(machine_glow)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 32, 24)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif r == 1 then
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(machine2, mx, my, 24, 12, 12, -4)
phyLight[phyCnt].setNormalMap(machine2_normal)
phyLight[phyCnt].setGlowMap(machine2_glow)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 24, 32)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif r == 2 then
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(led, mx, my, 32, 6, 16, -8)
phyLight[phyCnt].setNormalMap(led_normal)
phyLight[phyCnt].setGlowMap(led_glow)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 32, 6)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif r == 3 then
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(led2, mx, my, 32, 6, 16, -8)
phyLight[phyCnt].setNormalMap(led_normal)
phyLight[phyCnt].setGlowMap(led_glow2)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 32, 6)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif r == 4 then
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(led3, mx, my, 32, 6, 16, -8)
phyLight[phyCnt].setNormalMap(led_normal)
phyLight[phyCnt].setGlowMap(led_glow3)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 32, 6)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
end
elseif k == "5" then
-- add image
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(cone_large, mx, my, 24, 128, 12, 64)
phyLight[phyCnt].setNormalMap(cone_large_normal)
phyLight[phyCnt].setShadowType("image", 0, -6, 0.0)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 24, 32)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif k == "6" then
-- add image
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(blopp, mx, my, 42, 16, 21, 0)
phyLight[phyCnt].generateNormalMapGradient("gradient", "gradient")
phyLight[phyCnt].setAlpha(0.5)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 42, 29)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif k == "7" then
-- add image
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newImage(tile, mx, my)
phyLight[phyCnt].setHeightMap(tile_normal, 2.0)
phyLight[phyCnt].setGlowMap(tile_glow)
phyLight[phyCnt].setShadow(false)
phyLight[phyCnt].reflective = false
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, 64, 64)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif k == "8" then
-- add rectangle
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newPolygon()
phyLight[phyCnt].setAlpha(0.5)
phyLight[phyCnt].setGlowStrength(1.0)
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
math.randomseed(love.timer.getTime())
phyShape[phyCnt] = love.physics.newRectangleShape(0, 0, math.random(32, 64), math.random(32, 64))
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
math.randomseed(phyCnt)
phyLight[phyCnt].setGlowColor(math.random(0, 255), math.random(0, 255), math.random(0, 255))
math.randomseed(phyCnt)
phyLight[phyCnt].setColor(math.random(0, 255), math.random(0, 255), math.random(0, 255))
elseif k == "9" then
-- add circle
math.randomseed(love.timer.getTime())
cRadius = math.random(8, 32)
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newCircle(mx, my, cRadius)
phyLight[phyCnt].setAlpha(0.5)
phyLight[phyCnt].setGlowStrength(1.0)
math.randomseed(phyCnt)
phyLight[phyCnt].setGlowColor(math.random(0, 255), math.random(0, 255), math.random(0, 255))
math.randomseed(phyCnt)
phyLight[phyCnt].setColor(math.random(0, 255), math.random(0, 255), math.random(0, 255))
phyBody[phyCnt] = love.physics.newBody(physicWorld, mx, my, "dynamic")
phyShape[phyCnt] = love.physics.newCircleShape(0, 0, cRadius)
phyFixture[phyCnt] = love.physics.newFixture(phyBody[phyCnt], phyShape[phyCnt])
phyFixture[phyCnt]:setRestitution(0.5)
elseif k == "0" then
phyCnt = phyCnt + 1
phyLight[phyCnt] = lightWorld.newRefraction(refraction_normal, mx, my)
phyLight[phyCnt].setReflection(true)
elseif k == "l" then
-- add light
local r = lightWorld.getLightCount() % 3
local light
if r == 0 then
light = lightWorld.newLight(mx, my, 31, 127, 63, lightRange)
elseif r == 1 then
light = lightWorld.newLight(mx, my, 127, 63, 31, lightRange)
else
light = lightWorld.newLight(mx, my, 31, 63, 127, lightRange)
end
light.setSmooth(lightSmooth)
light.setGlowStrength(0.3)
math.randomseed(love.timer.getTime())
light.setAngle(math.random(1, 5) * 0.1 * math.pi)
elseif k == "c" then
if colorAberration == 0.0 then
colorAberration = 3.0
end
end
end

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@ -1,5 +1,6 @@
require "postshader" -- Example: Short Example
require "light" require "lib/postshader"
require "lib/light"
function love.load() function love.load()
-- load images -- load images

BIN
gfx/love-big-ball.png Normal file

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@ -1,3 +1,27 @@
--[[
The MIT License (MIT)
Copyright (c) 2014 Marcus Ihde
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
]]
LOVE_POSTSHADER_BUFFER_RENDER = love.graphics.newCanvas() LOVE_POSTSHADER_BUFFER_RENDER = love.graphics.newCanvas()
LOVE_POSTSHADER_BUFFER_BACK = love.graphics.newCanvas() LOVE_POSTSHADER_BUFFER_BACK = love.graphics.newCanvas()
LOVE_POSTSHADER_LAST_BUFFER = nil LOVE_POSTSHADER_LAST_BUFFER = nil
@ -11,10 +35,6 @@ LOVE_POSTSHADER_MONOCHROM = love.graphics.newShader("shader/monochrom.glsl")
LOVE_POSTSHADER_SCANLINES = love.graphics.newShader("shader/scanlines.glsl") LOVE_POSTSHADER_SCANLINES = love.graphics.newShader("shader/scanlines.glsl")
LOVE_POSTSHADER_TILT_SHIFT = love.graphics.newShader("shader/tilt_shift.glsl") LOVE_POSTSHADER_TILT_SHIFT = love.graphics.newShader("shader/tilt_shift.glsl")
LOVE_POSTSHADER_BLURV:send("screen", {love.window.getWidth(), love.window.getHeight()})
LOVE_POSTSHADER_BLURH:send("screen", {love.window.getWidth(), love.window.getHeight()})
LOVE_POSTSHADER_SCANLINES:send("screenHeight", {love.window.getWidth(), love.window.getHeight()})
love.postshader = {} love.postshader = {}
love.postshader.setBuffer = function(path) love.postshader.setBuffer = function(path)
@ -35,6 +55,8 @@ love.postshader.addEffect = function(shader, ...)
if shader == "bloom" then if shader == "bloom" then
-- Bloom Shader -- Bloom Shader
LOVE_POSTSHADER_BLURV:send("screen", {love.window.getWidth(), love.window.getHeight()})
LOVE_POSTSHADER_BLURH:send("screen", {love.window.getWidth(), love.window.getHeight()})
LOVE_POSTSHADER_BLURV:send("steps", args[1] or 2.0) LOVE_POSTSHADER_BLURV:send("steps", args[1] or 2.0)
LOVE_POSTSHADER_BLURH:send("steps", args[1] or 2.0) LOVE_POSTSHADER_BLURH:send("steps", args[1] or 2.0)
@ -57,6 +79,8 @@ love.postshader.addEffect = function(shader, ...)
love.graphics.setBlendMode("alpha") love.graphics.setBlendMode("alpha")
elseif shader == "blur" then elseif shader == "blur" then
-- Blur Shader -- Blur Shader
LOVE_POSTSHADER_BLURV:send("screen", {love.window.getWidth(), love.window.getHeight()})
LOVE_POSTSHADER_BLURH:send("screen", {love.window.getWidth(), love.window.getHeight()})
LOVE_POSTSHADER_BLURV:send("steps", args[1] or 2.0) LOVE_POSTSHADER_BLURV:send("steps", args[1] or 2.0)
LOVE_POSTSHADER_BLURH:send("steps", args[2] or 2.0) LOVE_POSTSHADER_BLURH:send("steps", args[2] or 2.0)
@ -85,16 +109,27 @@ love.postshader.addEffect = function(shader, ...)
love.graphics.draw(LOVE_POSTSHADER_BUFFER_RENDER) love.graphics.draw(LOVE_POSTSHADER_BUFFER_RENDER)
elseif shader == "monochrom" then elseif shader == "monochrom" then
-- Monochrom Shader -- Monochrom Shader
LOVE_POSTSHADER_MONOCHROM:send("time", love.timer.getTime()) for i = 1, 3 do
if args[i] then
args[i] = args[i] / 255.0
end
end
LOVE_POSTSHADER_MONOCHROM:send("tint", {args[1] or 1.0, args[2] or 1.0, args[3] or 1.0})
LOVE_POSTSHADER_MONOCHROM:send("fudge", args[4] or 0.1)
LOVE_POSTSHADER_MONOCHROM:send("time", args[5] or love.timer.getTime())
love.graphics.setShader(LOVE_POSTSHADER_MONOCHROM) love.graphics.setShader(LOVE_POSTSHADER_MONOCHROM)
love.graphics.draw(LOVE_POSTSHADER_BUFFER_RENDER) love.graphics.draw(LOVE_POSTSHADER_BUFFER_RENDER)
elseif shader == "scanlines" then elseif shader == "scanlines" then
-- Scanlines Shader -- Scanlines Shader
LOVE_POSTSHADER_SCANLINES:send("time", love.timer.getTime()) LOVE_POSTSHADER_SCANLINES:send("screen", {love.window.getWidth(), love.window.getHeight()})
LOVE_POSTSHADER_SCANLINES:send("strength", args[1] or 2.0)
LOVE_POSTSHADER_SCANLINES:send("time", args[2] or love.timer.getTime())
love.graphics.setShader(LOVE_POSTSHADER_SCANLINES) love.graphics.setShader(LOVE_POSTSHADER_SCANLINES)
love.graphics.draw(LOVE_POSTSHADER_BUFFER_RENDER) love.graphics.draw(LOVE_POSTSHADER_BUFFER_RENDER)
elseif shader == "tiltshift" then elseif shader == "tiltshift" then
-- Blur Shader -- Blur Shader
LOVE_POSTSHADER_BLURV:send("screen", {love.window.getWidth(), love.window.getHeight()})
LOVE_POSTSHADER_BLURH:send("screen", {love.window.getWidth(), love.window.getHeight()})
LOVE_POSTSHADER_BLURV:send("steps", args[1] or 2.0) LOVE_POSTSHADER_BLURV:send("steps", args[1] or 2.0)
LOVE_POSTSHADER_BLURH:send("steps", args[1] or 2.0) LOVE_POSTSHADER_BLURH:send("steps", args[1] or 2.0)
@ -104,7 +139,7 @@ love.postshader.addEffect = function(shader, ...)
love.graphics.setShader(LOVE_POSTSHADER_BLURH) love.graphics.setShader(LOVE_POSTSHADER_BLURH)
love.graphics.draw(LOVE_POSTSHADER_BUFFER_BACK) love.graphics.draw(LOVE_POSTSHADER_BUFFER_BACK)
LOVE_POSTSHADER_TILT_SHIFT:send("buffer", LOVE_POSTSHADER_BUFFER_RENDER) LOVE_POSTSHADER_TILT_SHIFT:send("imgBuffer", LOVE_POSTSHADER_BUFFER_RENDER)
love.graphics.setShader(LOVE_POSTSHADER_TILT_SHIFT) love.graphics.setShader(LOVE_POSTSHADER_TILT_SHIFT)
love.graphics.draw(LOVE_POSTSHADER_BUFFER_BACK) love.graphics.draw(LOVE_POSTSHADER_BUFFER_BACK)
end end
@ -120,9 +155,16 @@ end
love.postshader.draw = function() love.postshader.draw = function()
if LOVE_POSTSHADER_LAST_BUFFER then if LOVE_POSTSHADER_LAST_BUFFER then
love.graphics.setBackgroundColor(0, 0, 0)
love.graphics.setBlendMode("alpha")
love.graphics.setCanvas() love.graphics.setCanvas()
love.graphics.setShader() love.graphics.setShader()
love.graphics.setColor(255, 255, 255) love.graphics.setColor(255, 255, 255)
love.graphics.draw(LOVE_POSTSHADER_LAST_BUFFER) love.graphics.draw(LOVE_POSTSHADER_LAST_BUFFER)
end end
end
love.postshader.refreshScreenSize = function()
LOVE_POSTSHADER_BUFFER_RENDER = love.graphics.newCanvas()
LOVE_POSTSHADER_BUFFER_BACK = love.graphics.newCanvas()
end end

1031
main.lua

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@ -1,4 +1,6 @@
extern float time = 0.0; extern float time = 0.0;
extern vec3 tint = vec3(1.0, 1.0, 1.0);
extern float fudge = 0.1;
float rand(vec2 position, float seed) { float rand(vec2 position, float seed) {
return fract(sin(dot(position.xy,vec2(12.9898, 78.233))) * seed); return fract(sin(dot(position.xy,vec2(12.9898, 78.233))) * seed);
@ -6,6 +8,6 @@ float rand(vec2 position, float seed) {
vec4 effect(vec4 color, Image texture, vec2 texture_coords, vec2 pixel_coords){ vec4 effect(vec4 color, Image texture, vec2 texture_coords, vec2 pixel_coords){
vec4 pixel = Texel(texture, texture_coords); vec4 pixel = Texel(texture, texture_coords);
float intensity = (pixel.r + pixel.g + pixel.b) / 3.0 + (rand(texture_coords, time) - 0.5) * fudge;
return vec4(vec3((pixel.r + pixel.g + pixel.b) / 3.0) + (rand(texture_coords, time) - 0.5) * 0.1, 1.0); return vec4(intensity * tint.r, intensity * tint.g, intensity * tint.b, 1.0);
} }

View File

@ -1,22 +1,24 @@
extern vec2 screenHeight = vec2(800.0, 600.0); extern vec2 screenHeight = vec2(800.0, 600.0);
extern float strength = 2.0;
extern float time = 0.0; extern float time = 0.0;
vec4 effect(vec4 color, Image texture, vec2 texture_coords, vec2 pixel_coords){ vec4 effect(vec4 color, Image texture, vec2 texture_coords, vec2 pixel_coords){
vec2 pSize = 1.0 / screenHeight; vec2 pSize = 1.0 / screenHeight;
float brightness = 1.0; float brightness = 1.0;
float offsetX = sin(texture_coords.y * 10.0 + time * 2.0) * pSize.x; float offsetX = sin(texture_coords.y * 10.0 + time * strength) * pSize.x;
float corner = 500.0;
if(texture_coords.x < 0.5) { if(texture_coords.x < 0.5) {
if(texture_coords.y < 0.5) { if(texture_coords.y < 0.5) {
brightness = min(texture_coords.x * texture_coords.y * 100.0, 1.0); brightness = min(texture_coords.x * texture_coords.y * corner, 1.0);
} else { } else {
brightness = min(texture_coords.x * (1.0 - texture_coords.y) * 100.0, 1.0); brightness = min(texture_coords.x * (1.0 - texture_coords.y) * corner, 1.0);
} }
} else { } else {
if(texture_coords.y < 0.5) { if(texture_coords.y < 0.5) {
brightness = min((1.0 - texture_coords.x) * texture_coords.y * 100.0, 1.0); brightness = min((1.0 - texture_coords.x) * texture_coords.y * corner, 1.0);
} else { } else {
brightness = min((1.0 - texture_coords.x) * (1.0 - texture_coords.y) * 100.0, 1.0); brightness = min((1.0 - texture_coords.x) * (1.0 - texture_coords.y) * corner, 1.0);
} }
} }
float red = Texel(texture, vec2(texture_coords.x + offsetX, texture_coords.y + pSize.y * 0.5)).r; float red = Texel(texture, vec2(texture_coords.x + offsetX, texture_coords.y + pSize.y * 0.5)).r;

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@ -1,12 +1,12 @@
extern Image buffer; extern Image imgBuffer;
vec4 effect(vec4 color, Image texture, vec2 texture_coords, vec2 pixel_coords){ vec4 effect(vec4 color, Image texture, vec2 texture_coords, vec2 pixel_coords){
vec4 pixel = Texel(texture, texture_coords); vec4 pixel = Texel(texture, texture_coords);
vec4 pixel2 = Texel(buffer, texture_coords); vec4 pixelBuffer = Texel(imgBuffer, texture_coords);
if(texture_coords.y > 0.5) { if(texture_coords.y > 0.5) {
return vec4(pixel.rgb * (texture_coords.y - 0.5) * 2.0 + pixel2.rgb * (1.0 - texture_coords.y) * 2.0, 1.0); return vec4(pixel.rgb * (texture_coords.y - 0.5) * 2.0 + pixelBuffer.rgb * (1.0 - texture_coords.y) * 2.0, 1.0);
} else { } else {
return vec4(pixel.rgb * (0.5 - texture_coords.y) * 2.0 + pixel2.rgb * texture_coords.y * 2.0, 1.0); return vec4(pixel.rgb * (0.5 - texture_coords.y) * 2.0 + pixelBuffer.rgb * texture_coords.y * 2.0, 1.0);
} }
} }