Mercurial > games > semicongine
view examples/E10_pong.nim @ 323:9defff46da48
add: first complete working version of multiple materials and shaders per scene, yipie :)
author | Sam <sam@basx.dev> |
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date | Sat, 19 Aug 2023 22:24:06 +0700 |
parents | b145a05c2459 |
children | 887ddc8d45fd |
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import std/times import ../src/semicongine let barcolor = hexToColorAlpha("5A3F00").gamma(2.2).colorToHex() barSize = 0.1'f barWidth = 0.01'f ballcolor = hexToColorAlpha("B17F08").gamma(2.2).colorToHex() ballSize = 0.01'f backgroundColor = hexToColorAlpha("FAC034FF").gamma(2.2) ballSpeed = 60'f var level: Scene ballVelocity = newVec2f(1, 1).normalized * ballSpeed when isMainModule: var myengine = initEngine("Pong") level = newScene("scene", newEntity("Level")) var playerbarmesh = rect(color=barcolor) var playerbar = newEntity("playerbar", {"mesh": Component(playerbarmesh)}) playerbar.transform = scale3d(barWidth, barSize, 1'f) * translate3d(0.5'f, 0'f, 0'f) var player = newEntity("player", [], playerbar) player.transform = translate3d(0'f, 0.3'f, 0'f) level.root.add player var ballmesh = circle(color=ballcolor) var ball = newEntity("ball", {"mesh": Component(ballmesh)}) ball.transform = scale3d(ballSize, ballSize, 1'f) * translate3d(10'f, 10'f, 0'f) level.root.add ball const inputs = @[ attr[Vec3f]("position"), attr[Vec4f]("color", memoryPerformanceHint=PreferFastWrite), attr[Mat4]("transform", memoryPerformanceHint=PreferFastWrite, perInstance=true), ] intermediate = @[attr[Vec4f]("outcolor")] uniforms = @[attr[Mat4]("projection")] outputs = @[attr[Vec4f]("color")] (vertexCode, fragmentCode) = compileVertexFragmentShaderSet( inputs=inputs, intermediate=intermediate, outputs=outputs, uniforms=uniforms, vertexCode="""outcolor = color; gl_Position = vec4(position, 1) * (transform * Uniforms.projection);""", fragmentCode="color = outcolor;", ) # set up rendering myengine.setRenderer(myengine.gpuDevice.simpleForwardRenderPass(vertexCode, fragmentCode, clearColor=backgroundColor)) myengine.addScene(level, inputs, @[], transformAttribute="transform") level.addShaderGlobal("projection", Unit4f32) var winsize = myengine.getWindow().size height = float32(winsize[1]) / float32(winsize[0]) width = 1'f currentTime = cpuTime() showSystemCursor = true fullscreen = false while myengine.updateInputs() == Running and not myengine.keyIsDown(Escape): if myengine.keyWasPressed(C): if showSystemCursor: myengine.hideSystemCursor() else: myengine.showSystemCursor() showSystemCursor = not showSystemCursor if myengine.keyWasPressed(F): fullscreen = not fullscreen myengine.fullscreen(fullscreen) let dt: float32 = cpuTime() - currentTime currentTime = cpuTime() if myengine.windowWasResized(): winsize = myengine.getWindow().size height = float32(winsize[1]) / float32(winsize[0]) width = 1'f setShaderGlobal(level, "projection", ortho(0, width, 0, height, 0, 1)) var player = level.root.firstWithName("player") if myengine.keyIsDown(Down) and (player.transform.col(3).y + barSize/2) < height: player.transform = player.transform * translate3d(0'f, 1'f * dt, 0'f) if myengine.keyIsDown(Up) and (player.transform.col(3).y - barSize/2) > 0: player.transform = player.transform * translate3d(0'f, -1'f * dt, 0'f) # bounce level if ball.transform.col(3).x + ballSize/2 > width: ballVelocity[0] = -ballVelocity[0] if ball.transform.col(3).y - ballSize/2 <= 0: ballVelocity[1] = -ballVelocity[1] if ball.transform.col(3).y + ballSize/2 > height: ballVelocity[1] = -ballVelocity[1] ball.transform = ball.transform * translate3d(ballVelocity[0] * dt, ballVelocity[1] * dt, 0'f32) # loose if ball.transform.col(3).x - ballSize/2 <= 0: ball.transform = scale3d(ballSize, ballSize, 1'f) * translate3d(30'f, 30'f, 0'f) ballVelocity = newVec2f(1, 1).normalized * ballSpeed # bar if ball.transform.col(3).x - ballSize/2 <= barWidth: let barTop = player.transform.col(3).y - barSize/2 barBottom = player.transform.col(3).y + barSize/2 ballTop = ball.transform.col(3).y - ballSize/2 ballBottom = ball.transform.col(3).y + ballSize/2 if ballTop >= barTop and ballBottom <= barBottom: ballVelocity[0] = abs(ballVelocity[0]) myengine.renderScene(level)