// "Unrolls" a tree structure of item: { parent: { ...item2, parent: { ...item3, parent: {...} } }} // into an array [item2, item3] for iterating export 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 genericRuleToSelector = components => (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 (genericRuleToSelector(components)(rule.parent, ignoreOutOfTreeSelector, true) + ' ' + selectors).trim() } return selectors.trim() } export 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 } export 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 } export const normalizeCombination = rule => { rule.variant = rule.variant ?? 'normal' rule.state = [...new Set(['normal', ...(rule.state || [])])] }