mirror of
https://github.com/betagouv/mon-entreprise
synced 2025-02-10 15:05:01 +00:00
00b122fa97
Gros changements en perspective : - Supprime la notion de période, au bénéfice de celle d'unité (`période : mensuelle` devient `unité: €/mois`) - Améliore les rapports d'erreur avec des messages plus clair - Ajoute un avertissement lorsque des types ne sont pas compatible - Ajoute la conversion automatique d'unité dans le moteur - Ajoute une notion d'unité par défaut de la simulation, c'est l'unité vers laquelle les règles qui ne spécifient pas d'unité seront converties - Ajoute une notion d'unité par défaut des règles, qui spécifie l'unité de la règle qui prévaut lorsque qu'il n'y a pas d'unité par défaut de la simulation (utile pour les question ou pour s'assurer du bon type d'une règle)
232 lines
6.9 KiB
JavaScript
232 lines
6.9 KiB
JavaScript
import { T } from 'Components'
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import { ShowValuesConsumer } from 'Components/rule/ShowValuesContext'
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import RuleLink from 'Components/RuleLink'
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import evaluate from 'Engine/evaluateRule'
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import { parse } from 'Engine/parse'
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import { evolve, map } from 'ramda'
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import React from 'react'
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import { coerceArray } from '../utils'
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import { evaluateNode, makeJsx } from './evaluation'
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import { Node } from './mecanismViews/common'
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import { disambiguateRuleReference, findParentDependencies } from './rules'
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export default (rules, rule, parsedRules) => {
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if (parsedRules[rule.dottedName]) return parsedRules[rule.dottedName]
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parsedRules[rule.dottedName] = 'being parsed'
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/*
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The parseRule function will traverse the tree of the `rule` and produce an AST, an object containing other objects containing other objects...
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Some of the attributes of the rule are dynamic, they need to be parsed. It is the case of `non applicable si`, `applicable si`, `formule`.
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These attributes' values themselves may have mechanism properties (e. g. `barème`) or inline expressions (e. g. `maVariable + 3`).
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These mechanisms or variables are in turn traversed by `parse()`. During this processing, 'evaluate' and'jsx' functions are attached to the objects of the AST. They will be evaluated during the evaluation phase, called "analyse".
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*/
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let parentDependencies = findParentDependencies(rules, rule)
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let root = { ...rule, parentDependencies }
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let parsedRoot = evolve({
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// Voilà les attributs d'une règle qui sont aujourd'hui dynamiques, donc à traiter
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// Les métadonnées d'une règle n'en font pas aujourd'hui partie
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// condition d'applicabilité de la règle
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parentDependencies: parents =>
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parents.map(parent => {
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let node = parse(rules, rule, parsedRules)(parent.dottedName)
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let jsx = (nodeValue, explanation) => (
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<ShowValuesConsumer>
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{showValues =>
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!showValues ? (
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<div>Active seulement si {makeJsx(explanation)}</div>
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) : nodeValue === true ? (
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<div>Active car {makeJsx(explanation)}</div>
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) : nodeValue === false ? (
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<div>Non active car {makeJsx(explanation)}</div>
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) : null
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}
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</ShowValuesConsumer>
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)
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return {
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evaluate: (cache, situation, parsedRules) =>
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node.evaluate(cache, situation, parsedRules, node),
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jsx,
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category: 'ruleProp',
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rulePropType: 'cond',
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name: 'parentDependencies',
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type: 'numeric',
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explanation: node
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}
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}),
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'non applicable si': evolveCond(
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'non applicable si',
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rule,
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rules,
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parsedRules
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),
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'applicable si': evolveCond('applicable si', rule, rules, parsedRules),
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'rend non applicable': nonApplicableRules =>
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coerceArray(nonApplicableRules).map(referenceName => {
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return disambiguateRuleReference(rules, rule, referenceName)
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}),
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remplace: evolveReplacement(rules, rule, parsedRules),
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formule: value => {
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let evaluate = (cache, situationGate, parsedRules, node) => {
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let explanation = evaluateNode(
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cache,
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situationGate,
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parsedRules,
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node.explanation
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),
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{ nodeValue, unit, missingVariables } = explanation
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return { ...node, nodeValue, unit, missingVariables, explanation }
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}
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let child = parse(rules, rule, parsedRules)(value)
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let jsx = (nodeValue, explanation) => makeJsx(explanation)
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return {
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evaluate,
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jsx,
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category: 'ruleProp',
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rulePropType: 'formula',
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name: 'formule',
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unit: child.unit,
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explanation: child
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}
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},
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contrôles: map(control => {
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let testExpression = parse(rules, rule, parsedRules)(control.si)
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if (
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!testExpression.explanation &&
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!(testExpression.category === 'reference')
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)
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throw new Error(
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'Ce contrôle ne semble pas être compris :' + control['si']
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)
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return {
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dottedName: rule.dottedName,
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level: control['niveau'],
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test: control['si'],
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message: control['message'],
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testExpression,
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solution: control['solution']
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}
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})
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})(root)
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parsedRules[rule.dottedName] = {
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// Pas de propriété explanation et jsx ici car on est parti du (mauvais) principe que 'non applicable si' et 'formule' sont particuliers, alors qu'ils pourraient être rangé avec les autres mécanismes
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...parsedRoot,
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evaluate,
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parsed: true,
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isDisabledBy: [],
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defaultUnit: parsedRoot.defaultUnit || parsedRoot.formule?.unit,
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replacedBy: []
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}
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parsedRules[rule.dottedName]['rendu non applicable'] = {
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evaluate: (cache, situation, parsedRules, node) => {
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const isDisabledBy = node.explanation.isDisabledBy.map(disablerNode =>
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evaluateNode(cache, situation, parsedRules, disablerNode)
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)
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const nodeValue = isDisabledBy.some(x => !!x.nodeValue)
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const explanation = { ...node.explanation, isDisabledBy }
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return { ...node, explanation, nodeValue }
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},
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jsx: (nodeValue, { isDisabledBy }) => {
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return (
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isDisabledBy.length > 0 && (
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<>
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<h3>Exception{isDisabledBy.length > 1 && 's'}</h3>
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<p>
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<T>Cette règle ne s'applique pas pour</T> :{' '}
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{isDisabledBy.map((rule, i) => (
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<React.Fragment key={i}>
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{i > 0 && ', '}
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<RuleLink dottedName={rule.dottedName} />
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</React.Fragment>
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))}
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</p>
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</>
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)
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)
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},
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category: 'ruleProp',
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rulePropType: 'cond',
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name: 'rendu non applicable',
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type: 'boolean',
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explanation: parsedRules[rule.dottedName]
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}
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return parsedRules[rule.dottedName]
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}
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let evolveCond = (name, rule, rules, parsedRules) => value => {
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let evaluate = (cache, situationGate, parsedRules, node) => {
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let explanation = evaluateNode(
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cache,
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situationGate,
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parsedRules,
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node.explanation
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),
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nodeValue = explanation.nodeValue,
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missingVariables = explanation.missingVariables
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return { ...node, nodeValue, explanation, missingVariables }
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}
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let child = parse(rules, rule, parsedRules)(value)
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let jsx = (nodeValue, explanation) => (
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<Node
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classes="ruleProp mecanism cond"
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name={name}
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value={nodeValue}
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child={
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explanation.category === 'variable' ? (
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<div className="node">{makeJsx(explanation)}</div>
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) : (
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makeJsx(explanation)
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)
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}
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/>
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)
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return {
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evaluate,
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jsx,
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category: 'ruleProp',
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rulePropType: 'cond',
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name,
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type: 'boolean',
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explanation: child
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}
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}
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let evolveReplacement = (rules, rule, parsedRules) => replacements =>
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coerceArray(replacements).map(reference => {
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const referenceName =
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typeof reference === 'string' ? reference : reference.règle
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let replacementNode = reference.par
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if (replacementNode != null) {
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replacementNode = parse(rules, rule, parsedRules)(replacementNode)
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}
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let [whiteListedNames, blackListedNames] = [
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reference.dans,
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reference['sauf dans']
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]
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.map(name => name && coerceArray(name))
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.map(
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names =>
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names &&
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names.map(name => disambiguateRuleReference(rules, rule, name))
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)
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return {
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referenceName: disambiguateRuleReference(rules, rule, referenceName),
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replacementNode,
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whiteListedNames,
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blackListedNames
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}
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})
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