import { convert, brightness } from 'chromatism' import { alphaBlend, getTextColor, rgba2css, mixrgb, relativeLuminance } from '../color_convert/color_convert.js' import { colorFunctions, shadowFunctions, process } from './theme3_slot_functions.js' const DEBUG = false // Ensuring the order of components const components = { Root: null, Text: null, FunText: null, Link: null, Icon: null, Border: null, Panel: null, Chat: null, ChatMessage: null } const findColor = (color, dynamicVars, staticVars) => { if (typeof color !== 'string' || (!color.startsWith('--') && !color.startsWith('$'))) return color let targetColor = null if (color.startsWith('--')) { const [variable, modifier] = color.split(/,/g).map(str => str.trim()) const variableSlot = variable.substring(2) if (variableSlot === 'stack') { const { r, g, b } = dynamicVars.stacked targetColor = { r, g, b } } else if (variableSlot.startsWith('parent')) { if (variableSlot === 'parent') { const { r, g, b } = dynamicVars.lowerLevelBackground targetColor = { r, g, b } } else { const virtualSlot = variableSlot.replace(/^parent/, '') targetColor = convert(dynamicVars.lowerLevelVirtualDirectivesRaw[virtualSlot]).rgb } } else { switch (variableSlot) { case 'inheritedBackground': targetColor = convert(dynamicVars.inheritedBackground).rgb break case 'background': targetColor = convert(dynamicVars.background).rgb break default: targetColor = convert(staticVars[variableSlot]).rgb } } if (modifier) { const effectiveBackground = dynamicVars.lowerLevelBackground ?? targetColor const isLightOnDark = relativeLuminance(convert(effectiveBackground).rgb) < 0.5 const mod = isLightOnDark ? 1 : -1 targetColor = brightness(Number.parseFloat(modifier) * mod, targetColor).rgb } } if (color.startsWith('$')) { try { targetColor = process(color, colorFunctions, findColor, dynamicVars, staticVars) } catch (e) { console.error('Failure executing color function', e) targetColor = '#FF00FF' } } // Color references other color return targetColor } const getTextColorAlpha = (directives, intendedTextColor, dynamicVars, staticVars) => { const opacity = directives.textOpacity const backgroundColor = convert(dynamicVars.lowerLevelBackground).rgb const textColor = convert(findColor(intendedTextColor, dynamicVars, staticVars)).rgb if (opacity === null || opacity === undefined || opacity >= 1) { return convert(textColor).hex } if (opacity === 0) { return convert(backgroundColor).hex } const opacityMode = directives.textOpacityMode switch (opacityMode) { case 'fake': return convert(alphaBlend(textColor, opacity, backgroundColor)).hex case 'mixrgb': return convert(mixrgb(backgroundColor, textColor)).hex default: return rgba2css({ a: opacity, ...textColor }) } } // Loading all style.js[on] files dynamically const componentsContext = require.context('src', true, /\.style.js(on)?$/) componentsContext.keys().forEach(key => { const component = componentsContext(key).default if (components[component.name] != null) { console.warn(`Component in file ${key} is trying to override existing component ${component.name}! You have collisions/duplicates!`) } components[component.name] = component }) // "Unrolls" a tree structure of item: { parent: { ...item2, parent: { ...item3, parent: {...} } }} // into an array [item2, item3] for iterating const unroll = (item) => { const out = [] let currentParent = item while (currentParent) { out.push(currentParent) currentParent = currentParent.parent } return out } // This gives you an array of arrays of all possible unique (i.e. order-insensitive) combinations export const getAllPossibleCombinations = (array) => { const combos = [array.map(x => [x])] for (let comboSize = 2; comboSize <= array.length; comboSize++) { const previous = combos[combos.length - 1] const selfSet = new Set() const newCombos = previous.map(self => { self.forEach(x => selfSet.add(x)) const nonSelf = array.filter(x => !selfSet.has(x)) return nonSelf.map(x => [...self, x]) }) const flatCombos = newCombos.reduce((acc, x) => [...acc, ...x], []) combos.push(flatCombos) } return combos.reduce((acc, x) => [...acc, ...x], []) } // Converts rule, parents and their criteria into a CSS (or path if ignoreOutOfTreeSelector == true) selector export const ruleToSelector = (rule, ignoreOutOfTreeSelector, isParent) => { if (!rule && !isParent) return null const component = components[rule.component] const { states, variants, selector, outOfTreeSelector } = component const applicableStates = ((rule.state || []).filter(x => x !== 'normal')).map(state => states[state]) const applicableVariantName = (rule.variant || 'normal') let applicableVariant = '' if (applicableVariantName !== 'normal') { applicableVariant = variants[applicableVariantName] } else { applicableVariant = variants?.normal ?? '' } let realSelector if (selector === ':root') { realSelector = '' } else if (isParent) { realSelector = selector } else { if (outOfTreeSelector && !ignoreOutOfTreeSelector) realSelector = outOfTreeSelector else realSelector = selector } const selectors = [realSelector, applicableVariant, ...applicableStates] .toSorted((a, b) => { if (a.startsWith(':')) return 1 if (/^[a-z]/.exec(a)) return -1 else return 0 }) .join('') if (rule.parent) { return (ruleToSelector(rule.parent, ignoreOutOfTreeSelector, true) + ' ' + selectors).trim() } return selectors.trim() } const combinationsMatch = (criteria, subject, strict) => { if (criteria.component !== subject.component) return false // All variants inherit from normal if (subject.variant !== 'normal' || strict) { if (criteria.variant !== subject.variant) return false } // Subject states > 1 essentially means state is "normal" and therefore matches if (subject.state.length > 1 || strict) { const subjectStatesSet = new Set(subject.state) const criteriaStatesSet = new Set(criteria.state) const setsAreEqual = [...criteriaStatesSet].every(state => subjectStatesSet.has(state)) && [...subjectStatesSet].every(state => criteriaStatesSet.has(state)) if (!setsAreEqual) return false } return true } const findRules = (criteria, strict) => subject => { // If we searching for "general" rules - ignore "specific" ones if (criteria.parent === null && !!subject.parent) return false if (!combinationsMatch(criteria, subject, strict)) return false if (criteria.parent !== undefined && criteria.parent !== null) { if (!subject.parent && !strict) return true const pathCriteria = unroll(criteria) const pathSubject = unroll(subject) if (pathCriteria.length < pathSubject.length) return false // Search: .a .b .c // Matches: .a .b .c; .b .c; .c; .z .a .b .c // Does not match .a .b .c .d, .a .b .e for (let i = 0; i < pathCriteria.length; i++) { const criteriaParent = pathCriteria[i] const subjectParent = pathSubject[i] if (!subjectParent) return true if (!combinationsMatch(criteriaParent, subjectParent, strict)) return false } } return true } const normalizeCombination = rule => { rule.variant = rule.variant ?? 'normal' rule.state = [...new Set(['normal', ...(rule.state || [])])] } export const init = (extraRuleset, palette) => { const stacked = {} const computed = {} const eagerRules = [] const lazyRules = [] const rulesetUnsorted = [ ...Object.values(components) .map(c => (c.defaultRules || []).map(r => ({ component: c.name, ...r }))) .reduce((acc, arr) => [...acc, ...arr], []), ...extraRuleset ].map(rule => { normalizeCombination(rule) let currentParent = rule.parent while (currentParent) { normalizeCombination(currentParent) currentParent = currentParent.parent } return rule }) const ruleset = rulesetUnsorted .map((data, index) => ({ data, index })) .sort(({ data: a, index: ai }, { data: b, index: bi }) => { const parentsA = unroll(a).length const parentsB = unroll(b).length if (parentsA === parentsB) { if (a.component === 'Text') return -1 if (b.component === 'Text') return 1 return ai - bi } if (parentsA === 0 && parentsB !== 0) return -1 if (parentsB === 0 && parentsA !== 0) return 1 return parentsA - parentsB }) .map(({ data }) => data) const virtualComponents = new Set(Object.values(components).filter(c => c.virtual).map(c => c.name)) let counter = 0 const promises = [] const processInnerComponent = (component, rules, parent) => { const addRule = (rule) => { rules.push(rule) } const parentSelector = ruleToSelector(parent, true) // const parentList = parent ? unroll(parent).reverse().map(c => c.component) : [] // if (!component.virtual) { // const path = [...parentList, component.name].join(' > ') // console.log('Component ' + path + ' process starting') // } // const t0 = performance.now() const { validInnerComponents = [], states: originalStates = {}, variants: originalVariants = {}, name } = component // Normalizing states and variants to always include "normal" const states = { normal: '', ...originalStates } const variants = { normal: '', ...originalVariants } const innerComponents = (validInnerComponents).map(name => { const result = components[name] if (result === undefined) console.error(`Component ${component.name} references a component ${name} which does not exist!`) return result }) // Optimization: we only really need combinations without "normal" because all states implicitly have it const permutationStateKeys = Object.keys(states).filter(s => s !== 'normal') const stateCombinations = [ ['normal'], ...getAllPossibleCombinations(permutationStateKeys) .map(combination => ['normal', ...combination]) .filter(combo => { // Optimization: filter out some hard-coded combinations that don't make sense if (combo.indexOf('disabled') >= 0) { return !( combo.indexOf('hover') >= 0 || combo.indexOf('focused') >= 0 || combo.indexOf('pressed') >= 0 ) } return true }) ] const stateVariantCombination = Object.keys(variants).map(variant => { return stateCombinations.map(state => ({ variant, state })) }).reduce((acc, x) => [...acc, ...x], []) stateVariantCombination.forEach(combination => { counter++ // const tt0 = performance.now() combination.component = component.name const soloSelector = ruleToSelector(combination, true) const soloCssSelector = ruleToSelector(combination) const selector = [parentSelector, soloSelector].filter(x => x).join(' ') const cssSelector = [parentSelector, soloCssSelector].filter(x => x).join(' ') const lowerLevelSelector = parentSelector const lowerLevelBackground = computed[lowerLevelSelector]?.background const lowerLevelVirtualDirectives = computed[lowerLevelSelector]?.virtualDirectives const lowerLevelVirtualDirectivesRaw = computed[lowerLevelSelector]?.virtualDirectivesRaw const dynamicVars = computed[selector] || { lowerLevelBackground, lowerLevelVirtualDirectives, lowerLevelVirtualDirectivesRaw } // Inheriting all of the applicable rules const existingRules = ruleset.filter(findRules({ component: component.name, ...combination, parent })) const computedDirectives = existingRules.map(r => r.directives).reduce((acc, directives) => ({ ...acc, ...directives }), {}) const computedRule = { component: component.name, ...combination, parent, directives: computedDirectives } computed[selector] = computed[selector] || {} computed[selector].computedRule = computedRule computed[selector].dynamicVars = dynamicVars if (virtualComponents.has(component.name)) { const virtualName = [ '--', component.name.toLowerCase(), combination.variant === 'normal' ? '' : combination.variant[0].toUpperCase() + combination.variant.slice(1).toLowerCase(), ...combination.state.filter(x => x !== 'normal').toSorted().map(state => state[0].toUpperCase() + state.slice(1).toLowerCase()) ].join('') let inheritedTextColor = computedDirectives.textColor let inheritedTextAuto = computedDirectives.textAuto let inheritedTextOpacity = computedDirectives.textOpacity let inheritedTextOpacityMode = computedDirectives.textOpacityMode const lowerLevelTextSelector = [...selector.split(/ /g).slice(0, -1), soloSelector].join(' ') const lowerLevelTextRule = computed[lowerLevelTextSelector] if (inheritedTextColor == null || inheritedTextOpacity == null || inheritedTextOpacityMode == null) { inheritedTextColor = computedDirectives.textColor ?? lowerLevelTextRule.textColor inheritedTextAuto = computedDirectives.textAuto ?? lowerLevelTextRule.textAuto inheritedTextOpacity = computedDirectives.textOpacity ?? lowerLevelTextRule.textOpacity inheritedTextOpacityMode = computedDirectives.textOpacityMode ?? lowerLevelTextRule.textOpacityMode } const newTextRule = { ...computedRule, directives: { ...computedRule.directives, textColor: inheritedTextColor, textAuto: inheritedTextAuto ?? 'preserve', textOpacity: inheritedTextOpacity, textOpacityMode: inheritedTextOpacityMode } } dynamicVars.inheritedBackground = lowerLevelBackground dynamicVars.stacked = convert(stacked[lowerLevelSelector]).rgb const intendedTextColor = convert(findColor(inheritedTextColor, dynamicVars, palette)).rgb const textColor = newTextRule.directives.textAuto === 'no-auto' ? intendedTextColor : getTextColor( convert(stacked[lowerLevelSelector]).rgb, intendedTextColor, newTextRule.directives.textAuto === 'preserve' ) // Updating previously added rule const earlyLowerLevelRules = rules.filter(findRules(parent, true)) const earlyLowerLevelRule = earlyLowerLevelRules.slice(-1)[0] const virtualDirectives = earlyLowerLevelRule.virtualDirectives || {} const virtualDirectivesRaw = earlyLowerLevelRule.virtualDirectivesRaw || {} // Storing color data in lower layer to use as custom css properties virtualDirectives[virtualName] = getTextColorAlpha(newTextRule.directives, textColor, dynamicVars) virtualDirectivesRaw[virtualName] = textColor earlyLowerLevelRule.virtualDirectives = virtualDirectives earlyLowerLevelRule.virtualDirectivesRaw = virtualDirectivesRaw computed[lowerLevelSelector].virtualDirectives = virtualDirectives computed[lowerLevelSelector].virtualDirectivesRaw = virtualDirectivesRaw // Debug: lets you see what it think background color should be if (!DEBUG) return const directives = { textColor, background: convert(computed[lowerLevelSelector].background).hex, ...inheritedTextOpacity } addRule({ dynamicVars, selector: cssSelector, virtual: true, component: component.name, parent, ...combination, directives, virtualDirectives, virtualDirectivesRaw }) } else { computed[selector] = computed[selector] || {} // TODO: DEFAULT TEXT COLOR const lowerLevelStackedBackground = stacked[lowerLevelSelector] || convert('#FF00FF').rgb if (computedDirectives.background) { let inheritRule = null const variantRules = ruleset.filter(findRules({ component: component.name, variant: combination.variant, parent })) const lastVariantRule = variantRules[variantRules.length - 1] if (lastVariantRule) { inheritRule = lastVariantRule } else { const normalRules = ruleset.filter(findRules({ component: component.name, parent })) const lastNormalRule = normalRules[normalRules.length - 1] inheritRule = lastNormalRule } const inheritSelector = ruleToSelector({ ...inheritRule, parent }, true) const inheritedBackground = computed[inheritSelector].background dynamicVars.inheritedBackground = inheritedBackground const rgb = convert(findColor(computedDirectives.background, dynamicVars, palette)).rgb if (!stacked[selector]) { let blend const alpha = computedDirectives.opacity if (alpha >= 1) { blend = rgb } else if (alpha <= 0) { blend = lowerLevelStackedBackground } else { blend = alphaBlend(rgb, computedDirectives.opacity, lowerLevelStackedBackground) } stacked[selector] = blend computed[selector].background = { ...rgb, a: computedDirectives.opacity ?? 1 } } } if (computedDirectives.shadow) { dynamicVars.shadow = (computedDirectives.shadow || []).map(shadow => { let targetShadow if (typeof shadow === 'string') { if (shadow.startsWith('$')) { targetShadow = process(shadow, shadowFunctions, findColor, dynamicVars, palette) } } else { targetShadow = shadow } return { ...targetShadow, color: findColor(targetShadow.color, dynamicVars, palette) } }) } if (!stacked[selector]) { computedDirectives.background = 'transparent' computedDirectives.opacity = 0 stacked[selector] = lowerLevelStackedBackground computed[selector].background = { ...lowerLevelStackedBackground, a: 0 } } dynamicVars.stacked = lowerLevelStackedBackground dynamicVars.background = computed[selector].background const dynamicSlots = Object.entries(computedDirectives).filter(([k, v]) => k.startsWith('--')) dynamicSlots.forEach(([k, v]) => { const [type, value] = v.split('|').map(x => x.trim()) // woah, Extreme! switch (type) { case 'color': dynamicVars[k] = findColor(value, dynamicVars, palette) } }) addRule({ dynamicVars, selector: cssSelector, component: component.name, ...combination, parent, directives: computedDirectives }) } innerComponents.forEach(innerComponent => { if (innerComponent.lazy) { promises.push(new Promise((resolve, reject) => { setTimeout(() => { try { processInnerComponent(innerComponent, lazyRules, { parent, component: name, ...combination }) resolve() } catch (e) { reject(e) } }, 0) })) } else { processInnerComponent(innerComponent, rules, { parent, component: name, ...combination }) } }) // const tt1 = performance.now() // if (!component.virtual) { // console.log('State-variant ' + combination.variant + ' : ' + combination.state.join('+') + ' procession time: ' + (tt1 - tt0) + 'ms') // } }) // const t1 = performance.now() // if (!component.virtual) { // const path = [...parentList, component.name].join(' > ') // console.log('Component ' + path + ' procession time: ' + (t1 - t0) + 'ms') // } } processInnerComponent(components.Root, eagerRules) console.log('TOTAL COMBOS: ' + counter) const lazyExec = Promise.all(promises).then(() => { console.log('TOTAL COMBOS: ' + counter) }).then(() => lazyRules) return { lazy: lazyExec, eager: eagerRules } }