Adding "glint", the shapes that appear on top of the glyphs in the Resurrections opening titles.

TODO.txt

@@ -17,14 +17,11 @@ Playdate version
     Maybe crank sounds? Not sure yet
 
 Support Resurrections anomaly streaks
-  Kind of like the cursor: new rain pass output channel, new config prop
-  MSDF
-    They should line up in Photoshop without too much trouble, actually
-  Texture
-    Maybe give normal Matrix code a pixel grill texture
+  grit texture multiply
   Lighting
     Different parts of a streak glow at different intensities, at different times
     The streaks often dim slower, ie. are brighter, than the glyphs beneath them
+      Different brightness/contrast?
     Imagine they're metallic or something
 
 Support Resurrections SDF bevel and "lights"

js/config.js

@@ -26,6 +26,7 @@ const fonts = {
 	resurrections: {
 		// The glyphs seen in the film trilogy
 		glyphTexURL: "assets/resurrections_msdf.png",
+		glintTexURL: "assets/resurrections_glint_msdf.png",
 		glyphSequenceLength: 135,
 		glyphTextureGridSize: [13, 12],
 	},
@@ -57,6 +58,8 @@ const defaults = {
 	backgroundColor: [0, 0, 0], // The color "behind" the glyphs
 	isolateCursor: true, // Whether the "cursor"— the brightest glyph at the bottom of a raindrop— has its own color
 	cursorColor: [1.5, 2, 0.9], // The color of the cursor
+	isolateGlint: false, // Whether the "glint"— highlights on certain symbols in the font— should appear
+	glintColor: [1, 1, 1], // The color of the glint
 	volumetric: false, // A mode where the raindrops appear in perspective
 	animationSpeed: 1, // The global rate that all animations progress
 	forwardSpeed: 0.25, // The speed volumetric rain approaches the eye
@@ -188,6 +191,28 @@ const versions = {
 			{ hsl: [0.375, 1.0, 1.0], at: 1.0 },
 		],
 	},
+	trinity: {
+		font: "resurrections",
+		glyphEdgeCrop: 0.1,
+		cursorColor: [1.4, 2, 1.2],
+		isolateGlint: true,
+		glintColor: [2, 1.5, 0.5],
+		baseBrightness: -0.9,
+		baseContrast: 1.5,
+		highPassThreshold: 0,
+		numColumns: 50,
+		cycleSpeed: 0.03,
+		bloomStrength: 0.7,
+		fallSpeed: 0.3,
+		paletteEntries: [
+			{ hsl: [0.4, 0.9, 0.0], at: 0.0 },
+			{ hsl: [0.4, 1.0, 0.5], at: 1.0 },
+		],
+		volumetric: true,
+		forwardSpeed: 0.2,
+		raindropLength: 0.3,
+		density: 0.5,
+	},
 	palimpsest: {
 		font: "huberfishA",
 		isolateCursor: false,
@@ -303,6 +328,7 @@ const paramMapping = {
 	stripeColors: { key: "stripeColors", parser: (s) => s },
 	backgroundColor: { key: "backgroundColor", parser: (s) => s.split(",").map(parseFloat) },
 	cursorColor: { key: "cursorColor", parser: (s) => s.split(",").map(parseFloat) },
+	glintColor: { key: "glintColor", parser: (s) => s.split(",").map(parseFloat) },
 	volumetric: { key: "volumetric", parser: (s) => s.toLowerCase().includes("true") },
 	loops: { key: "loops", parser: (s) => s.toLowerCase().includes("true") },
 	renderer: { key: "renderer", parser: (s) => s },
@@ -321,8 +347,14 @@ export default (urlParams) => {
 			.filter(([_, value]) => value != null)
 	);
 
-	if (validParams.effect != null && validParams.cursorColor == null) {
-		validParams.cursorColor = [2, 2, 2];
+	if (validParams.effect != null) {
+		if (validParams.cursorColor == null) {
+			validParams.cursorColor = [2, 2, 2];
+		}
+
+		if (validParams.glintColor == null) {
+			validParams.glintColor = [1, 1, 1];
+		}
 	}
 
 	const version = validParams.version in versions ? versions[validParams.version] : versions.classic;

js/regl/palettePass.js

@@ -65,7 +65,7 @@ const makePalette = (regl, entries) => {
 export default ({ regl, config }, inputs) => {
 	const output = makePassFBO(regl, config.useHalfFloat);
 	const palette = makePalette(regl, config.paletteEntries);
-	const { backgroundColor, cursorColor, ditherMagnitude, bloomStrength } = config;
+	const { backgroundColor, cursorColor, glintColor, ditherMagnitude, bloomStrength } = config;
 
 	const palettePassFrag = loadText("shaders/glsl/palettePass.frag.glsl");
 
@@ -75,6 +75,7 @@ export default ({ regl, config }, inputs) => {
 		uniforms: {
 			backgroundColor,
 			cursorColor,
+			glintColor,
 			ditherMagnitude,
 			bloomStrength,
 			tex: inputs.primary,

js/regl/rainPass.js

@@ -116,6 +116,7 @@ export default ({ regl, config, lkg }) => {
 
 	// We render the code into an FBO using MSDFs: https://github.com/Chlumsky/msdfgen
 	const msdf = loadImage(regl, config.glyphTexURL);
+	const glintMSDF = loadImage(regl, config.glintTexURL);
 	const rainPassVert = loadText("shaders/glsl/rainPass.vert.glsl");
 	const rainPassFrag = loadText("shaders/glsl/rainPass.frag.glsl");
 	const output = makePassFBO(regl, config.useHalfFloat);
@@ -131,6 +132,7 @@ export default ({ regl, config, lkg }) => {
 			"brightnessThreshold",
 			"brightnessOverride",
 			"isolateCursor",
+			"isolateGlint",
 			"glyphEdgeCrop",
 			"isPolar",
 		]),
@@ -160,6 +162,7 @@ export default ({ regl, config, lkg }) => {
 			symbolState: symbolDoubleBuffer.front,
 			effectState: effectDoubleBuffer.front,
 			glyphTex: msdf.texture,
+			glintTex: glintMSDF.texture,
 
 			camera: regl.prop("camera"),
 			transform: regl.prop("transform"),
@@ -201,7 +204,7 @@ export default ({ regl, config, lkg }) => {
 		{
 			primary: output,
 		},
-		Promise.all([msdf.loaded, rainPassShine.loaded, rainPassSymbol.loaded, rainPassVert.loaded, rainPassFrag.loaded]),
+		Promise.all([msdf.loaded, glintMSDF.loaded, rainPassShine.loaded, rainPassSymbol.loaded, rainPassVert.loaded, rainPassFrag.loaded]),
 		(w, h) => {
 			output.resize(w, h);
 			const aspectRatio = w / h;

js/regl/stripePass.js

@@ -31,7 +31,7 @@ const prideStripeColors = [
 export default ({ regl, config }, inputs) => {
 	const output = makePassFBO(regl, config.useHalfFloat);
 
-	const { backgroundColor, cursorColor, ditherMagnitude, bloomStrength } = config;
+	const { backgroundColor, cursorColor, glintColor, ditherMagnitude, bloomStrength } = config;
 
 	// Expand and convert stripe colors into 1D texture data
 	const stripeColors =
@@ -50,6 +50,7 @@ export default ({ regl, config }, inputs) => {
 		uniforms: {
 			backgroundColor,
 			cursorColor,
+			glintColor,
 			ditherMagnitude,
 			bloomStrength,
 			tex: inputs.primary,

js/regl/utils.js

@@ -30,7 +30,7 @@ const loadImage = (regl, url) => {
 	let loaded = false;
 	return {
 		texture: () => {
-			if (!loaded) {
+			if (!loaded && url != null) {
 				console.warn(`texture still loading: ${url}`);
 			}
 			return texture;

js/webgpu/palettePass.js

@@ -108,6 +108,7 @@ export default ({ config, device, timeBuffer }) => {
 			ditherMagnitude: config.ditherMagnitude,
 			backgroundColor: config.backgroundColor,
 			cursorColor: config.cursorColor,
+			glintColor: config.glintColor,
 		});
 
 		const paletteUniforms = paletteShaderUniforms.Palette;

js/webgpu/rainPass.js

@@ -26,7 +26,7 @@ const makeConfigBuffer = (device, configUniforms, config, density, gridSize) =>
 export default ({ config, device, timeBuffer }) => {
 	const { mat4, vec3 } = glMatrix;
 
-	const assets = [loadTexture(device, config.glyphTexURL), loadShader(device, "shaders/wgsl/rainPass.wgsl")];
+	const assets = [loadTexture(device, config.glyphTexURL), loadTexture(device, config.glintTexURL), loadShader(device, "shaders/wgsl/rainPass.wgsl")];
 
 	// The volumetric mode multiplies the number of columns
 	// to reach the desired density, and then overlaps them
@@ -85,7 +85,7 @@ export default ({ config, device, timeBuffer }) => {
 	let highPassOutput;
 
 	const loaded = (async () => {
-		const [msdfTexture, rainShader] = await Promise.all(assets);
+		const [msdfTexture, glintMSDFTexture, rainShader] = await Promise.all(assets);
 
 		const rainShaderUniforms = structs.from(rainShader.code);
 		configBuffer = makeConfigBuffer(device, rainShaderUniforms.Config, config, density, gridSize);
@@ -143,7 +143,15 @@ export default ({ config, device, timeBuffer }) => {
 		]);
 
 		computeBindGroup = makeBindGroup(device, computePipeline, 0, [configBuffer, timeBuffer, cellsBuffer]);
-		renderBindGroup = makeBindGroup(device, renderPipeline, 0, [configBuffer, timeBuffer, sceneBuffer, linearSampler, msdfTexture.createView(), cellsBuffer]);
+		renderBindGroup = makeBindGroup(device, renderPipeline, 0, [
+			configBuffer,
+			timeBuffer,
+			sceneBuffer,
+			linearSampler,
+			msdfTexture.createView(),
+			glintMSDFTexture.createView(),
+			cellsBuffer,
+		]);
 	})();
 
 	const build = (size) => {

js/webgpu/stripePass.js

@@ -79,6 +79,7 @@ export default ({ config, device, timeBuffer }) => {
 			ditherMagnitude: config.ditherMagnitude,
 			backgroundColor: config.backgroundColor,
 			cursorColor: config.cursorColor,
+			glintColor: config.glintColor,
 		});
 	})();
 

js/webgpu/utils.js

@@ -20,6 +20,14 @@ const loadTexture = async (device, url) => {
 */
 
 const loadTexture = async (device, url) => {
+	if (url == null) {
+		return device.createTexture({
+			size: [1, 1, 1],
+			format: "rgba8unorm",
+			usage: GPUTextureUsage.TEXTURE_BINDING | GPUTextureUsage.COPY_DST | GPUTextureUsage.RENDER_ATTACHMENT,
+		});
+	}
+
 	const image = new Image();
 	image.crossOrigin = "Anonymous";
 	image.src = url;

shaders/glsl/palettePass.frag.glsl

@@ -7,7 +7,7 @@ uniform sampler2D palette;
 uniform float bloomStrength;
 uniform float ditherMagnitude;
 uniform float time;
-uniform vec3 backgroundColor, cursorColor;
+uniform vec3 backgroundColor, cursorColor, glintColor;
 varying vec2 vUV;
 
 highp float rand( const in vec2 uv, const in float t ) {
@@ -26,12 +26,13 @@ void main() {
 	vec4 brightness = getBrightness(vUV);
 
 	// Dither: subtract a random value from the brightness
-	brightness -= rand( gl_FragCoord.xy, time ) * ditherMagnitude;
+	brightness -= rand( gl_FragCoord.xy, time ) * ditherMagnitude / 3.0;
 
 	// Map the brightness to a position in the palette texture
 	gl_FragColor = vec4(
 		texture2D( palette, vec2(brightness.r, 0.0)).rgb
 			+ min(cursorColor * brightness.g, vec3(1.0))
+			+ min(glintColor * brightness.b, vec3(1.0))
 			+ backgroundColor,
 		1.0
 	);

shaders/glsl/rainPass.frag.glsl

@@ -6,7 +6,7 @@ precision lowp float;
 
 uniform sampler2D raindropState, symbolState, effectState;
 uniform float numColumns, numRows;
-uniform sampler2D glyphTex;
+uniform sampler2D glyphTex, glintTex;
 uniform float glyphHeightToWidth, glyphSequenceLength, glyphEdgeCrop;
 uniform float baseContrast, baseBrightness;
 uniform float brightnessOverride, brightnessThreshold;
@@ -16,7 +16,7 @@ uniform float slantScale;
 uniform bool isPolar;
 uniform bool showDebugView;
 uniform bool volumetric;
-uniform bool isolateCursor;
+uniform bool isolateCursor, isolateGlint;
 
 varying vec2 vUV;
 varying vec4 vRaindrop, vSymbol, vEffect;
@@ -87,7 +87,7 @@ vec2 getSymbolUV(float index) {
 	return vec2(symbolX, symbolY);
 }
 
-float getSymbol(vec2 uv, float index) {
+vec2 getSymbol(vec2 uv, float index) {
 	// resolve UV to cropped position of glyph in MSDF texture
 	uv = fract(uv * vec2(numColumns, numRows));
 	uv -= 0.5;
@@ -96,9 +96,20 @@ float getSymbol(vec2 uv, float index) {
 	uv = (uv + getSymbolUV(index)) / glyphTextureGridSize;
 
 	// MSDF: calculate brightness of fragment based on distance to shape
-	vec3 dist = texture2D(glyphTex, uv).rgb;
-	float sigDist = median3(dist) - 0.5;
-	return clamp(sigDist / fwidth(sigDist) + 0.5, 0., 1.);
+	vec2 symbol;
+	{
+		vec3 dist = texture2D(glyphTex, uv).rgb;
+		float sigDist = median3(dist) - 0.5;
+		symbol.r = clamp(sigDist / fwidth(sigDist) + 0.5, 0., 1.);
+	}
+
+	if (isolateGlint) {
+		vec3 dist = texture2D(glintTex, uv).rgb;
+		float sigDist = median3(dist) - 0.5;
+		symbol.g = clamp(sigDist / fwidth(sigDist) + 0.5, 0., 1.);
+	}
+
+	return symbol;
 }
 
 void main() {
@@ -111,7 +122,7 @@ void main() {
 	vec4   effectData = volumetric ?   vEffect : texture2D(  effectState, uv);
 
 	vec2 brightness = getBrightness(raindropData.r, raindropData.g, effectData.r, effectData.g);
-	float symbol = getSymbol(uv, symbolData.r);
+	vec2 symbol = getSymbol(uv, symbolData.r);
 
 	if (showDebugView) {
 		gl_FragColor = vec4(
@@ -121,10 +132,10 @@ void main() {
 					1. - (raindropData.r * 3.),
 					1. - (raindropData.r * 8.)
 				) * (1. - raindropData.g)
-			) * symbol,
+			) * symbol.r,
 			1.
 		);
 	} else {
-		gl_FragColor = vec4(brightness * symbol, 0., 0.);
+		gl_FragColor = vec4(brightness * symbol.r, brightness.r * symbol.g, 0.);
 	}
 }

shaders/glsl/stripePass.frag.glsl

@@ -7,7 +7,7 @@ uniform float bloomStrength;
 uniform sampler2D stripes;
 uniform float ditherMagnitude;
 uniform float time;
-uniform vec3 backgroundColor, cursorColor;
+uniform vec3 backgroundColor, cursorColor, glintColor;
 varying vec2 vUV;
 
 highp float rand( const in vec2 uv, const in float t ) {
@@ -28,11 +28,12 @@ void main() {
 	vec4 brightness = getBrightness(vUV);
 
 	// Dither: subtract a random value from the brightness
-	brightness -= rand( gl_FragCoord.xy, time ) * ditherMagnitude;
+	brightness -= rand( gl_FragCoord.xy, time ) * ditherMagnitude / 3.0;
 	
 	gl_FragColor = vec4(
 		color * brightness.r
-			+ min(cursorColor * brightness.g, 1.0)
+			+ min(cursorColor * brightness.g, vec3(1.0))
+			+ min(glintColor * brightness.b, vec3(1.0))
 			+ backgroundColor,
 		1.0
 	);

shaders/wgsl/palettePass.wgsl

@@ -2,7 +2,8 @@ struct Config {
 	bloomStrength : f32,
 	ditherMagnitude : f32,
 	backgroundColor : vec3<f32>,
-	cursorColor : vec3<f32>
+	cursorColor : vec3<f32>,
+	glintColor : vec3<f32>,
 };
 
 struct Palette {
@@ -58,7 +59,7 @@ fn getBrightness(uv : vec2<f32>) -> vec4<f32> {
 	var brightness = getBrightness(uv);
 
 	// Dither: subtract a random value from the brightness
-	brightness -= randomFloat( uv + vec2<f32>(time.seconds) ) * config.ditherMagnitude;
+	brightness -= randomFloat( uv + vec2<f32>(time.seconds) ) * config.ditherMagnitude / 3.0;
 
 	// Map the brightness to a position in the palette texture
 	var paletteIndex = clamp(i32(brightness.r * 512.0), 0, 511);
@@ -66,6 +67,7 @@ fn getBrightness(uv : vec2<f32>) -> vec4<f32> {
 	textureStore(outputTex, coord, vec4<f32>(
 		palette.colors[paletteIndex]
 			+ min(config.cursorColor * brightness.g, vec3<f32>(1.0))
+			+ min(config.glintColor * brightness.b, vec3<f32>(1.0))
 			+ config.backgroundColor,
 		1.0
 	));

shaders/wgsl/rainPass.wgsl

@@ -37,6 +37,7 @@ struct Config {
 	slantVec : vec2<f32>,
 	volumetric : i32,
 	isolateCursor : i32,
+	isolateGlint : i32,
 	loops : i32,
 	highPassThreshold : f32,
 };
@@ -76,7 +77,8 @@ struct CellData {
 @group(0) @binding(2) var<uniform> scene : Scene;
 @group(0) @binding(3) var linearSampler : sampler;
 @group(0) @binding(4) var msdfTexture : texture_2d<f32>;
-@group(0) @binding(5) var<storage, read> cells_RO : CellData;
+@group(0) @binding(5) var glintMSDFTexture : texture_2d<f32>;
+@group(0) @binding(6) var<storage, read> cells_RO : CellData;
 
 // Shader params
 
@@ -401,7 +403,7 @@ fn getSymbolUV(symbol : i32) -> vec2<f32> {
 	return vec2<f32>(f32(symbolX), f32(symbolY));
 }
 
-fn getSymbol(cellUV : vec2<f32>, index : i32) -> f32 {
+fn getSymbol(cellUV : vec2<f32>, index : i32) -> vec2<f32> {
 	// resolve UV to cropped position of glyph in MSDF texture
 	var uv = fract(cellUV * config.gridSize);
 	uv.y = 1.0 - uv.y; // WebGL -> WebGPU y-flip
@@ -410,10 +412,22 @@ fn getSymbol(cellUV : vec2<f32>, index : i32) -> f32 {
 	uv += 0.5;
 	uv = (uv + getSymbolUV(index)) / vec2<f32>(config.glyphTextureGridSize);
 
+	var symbol = vec2<f32>();
+
 	// MSDF: calculate brightness of fragment based on distance to shape
-	var dist = textureSample(msdfTexture, linearSampler, uv).rgb;
-	var sigDist = median3(dist) - 0.5;
-	return clamp(sigDist / fwidth(sigDist) + 0.5, 0.0, 1.0);
+	{
+		var dist = textureSample(msdfTexture, linearSampler, uv).rgb;
+		var sigDist = median3(dist) - 0.5;
+		symbol.r = clamp(sigDist / fwidth(sigDist) + 0.5, 0.0, 1.0);
+	}
+
+	if (bool(config.isolateGlint)) {
+		var dist = textureSample(glintMSDFTexture, linearSampler, uv).rgb;
+		var sigDist = median3(dist) - 0.5;
+		symbol.g =  clamp(sigDist / fwidth(sigDist) + 0.5, 0.0, 1.0);
+	}
+
+	return symbol;
 }
 
 // Fragment shader
@@ -446,11 +460,11 @@ fn getSymbol(cellUV : vec2<f32>, index : i32) -> f32 {
 					1.0 - (cell.raindrop.r * 3.0),
 					1.0 - (cell.raindrop.r * 8.0)
 				) * (1.0 - cell.raindrop.g)
-			) * symbol,
+			) * symbol.r,
 			1.0
 		);
 	} else {
-		output.color = vec4(brightness * symbol, 0.0, 0.0);
+		output.color = vec4(brightness * symbol.r, brightness.r * symbol.g, 0.0);
 	}
 
 	var highPassColor = output.color;

shaders/wgsl/stripePass.wgsl

@@ -2,7 +2,8 @@ struct Config {
 	bloomStrength : f32,
 	ditherMagnitude : f32,
 	backgroundColor : vec3<f32>,
-	cursorColor : vec3<f32>
+	cursorColor : vec3<f32>,
+	glintColor : vec3<f32>,
 };
 
 struct Time {
@@ -56,11 +57,12 @@ fn getBrightness(uv : vec2<f32>) -> vec4<f32> {
 	var brightness = getBrightness(uv);
 
 	// Dither: subtract a random value from the brightness
-	brightness -= randomFloat( uv + vec2<f32>(time.seconds) ) * config.ditherMagnitude;
+	brightness -= randomFloat( uv + vec2<f32>(time.seconds) ) * config.ditherMagnitude / 3.0;
 
 	textureStore(outputTex, coord, vec4<f32>(
 		color * brightness.r
 			+ min(config.cursorColor * brightness.g, vec3<f32>(1.0))
+			+ min(config.glintColor * brightness.b, vec3<f32>(1.0))
 			+ config.backgroundColor,
 		1.0
 	));