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https://github.com/gristlabs/grist-core.git
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72066bf0e4
Summary: Dropdown conditions can now reference a `user` variable, similar to the one available in Access Rules. Test Plan: Browser test. Reviewers: jarek, paulfitz Reviewed By: jarek, paulfitz Differential Revision: https://phab.getgrist.com/D4255
220 lines
8.0 KiB
TypeScript
220 lines
8.0 KiB
TypeScript
/**
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* Representation and compilation of predicate formulas.
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*
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* An example of a predicate formula is: "rec.office == 'Seattle' and user.email in ['sally@', 'xie@']".
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* These formulas are parsed in Python into a tree with nodes of the form [NODE_TYPE, ...args].
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* See sandbox/grist/predicate_formula.py for details.
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*
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* This module includes typings for the nodes, and the compilePredicateFormula() function that
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* turns such trees into actual predicate functions.
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*/
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import {CellValue, RowRecord} from 'app/common/DocActions';
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import {ErrorWithCode} from 'app/common/ErrorWithCode';
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import {InfoView} from 'app/common/RecordView';
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import {UserInfo} from 'app/common/User';
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import {decodeObject} from 'app/plugin/objtypes';
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import constant = require('lodash/constant');
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/**
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* Representation of a parsed predicate formula.
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*/
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export type PrimitiveCellValue = number|string|boolean|null;
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export type ParsedPredicateFormula = [string, ...(ParsedPredicateFormula|PrimitiveCellValue)[]];
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/**
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* Inputs to a predicate formula function.
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*/
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export interface PredicateFormulaInput {
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user?: UserInfo;
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rec?: RowRecord|InfoView;
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newRec?: InfoView;
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docId?: string;
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choice?: string|RowRecord|InfoView;
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}
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/**
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* The result of compiling ParsedPredicateFormula.
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*/
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export type CompiledPredicateFormula = (input: PredicateFormulaInput) => boolean;
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const GRIST_CONSTANTS: Record<string, string> = {
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EDITOR: 'editors',
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OWNER: 'owners',
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VIEWER: 'viewers',
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};
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/**
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* An intermediate predicate formula returned during compilation, which may return
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* a non-boolean value.
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*/
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type IntermediatePredicateFormula = (input: PredicateFormulaInput) => any;
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export interface CompilePredicateFormulaOptions {
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/** Defaults to `'acl'`. */
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variant?: 'acl'|'dropdown-condition';
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}
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/**
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* Compiles a parsed predicate formula and returns it.
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*/
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export function compilePredicateFormula(
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parsedPredicateFormula: ParsedPredicateFormula,
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options: CompilePredicateFormulaOptions = {}
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): CompiledPredicateFormula {
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const {variant = 'acl'} = options;
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function compileNode(node: ParsedPredicateFormula): IntermediatePredicateFormula {
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const rawArgs = node.slice(1);
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const args = rawArgs as ParsedPredicateFormula[];
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switch (node[0]) {
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case 'And': { const parts = args.map(compileNode); return (input) => parts.every(p => p(input)); }
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case 'Or': { const parts = args.map(compileNode); return (input) => parts.some(p => p(input)); }
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case 'Add': return compileAndCombine(args, ([a, b]) => a + b);
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case 'Sub': return compileAndCombine(args, ([a, b]) => a - b);
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case 'Mult': return compileAndCombine(args, ([a, b]) => a * b);
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case 'Div': return compileAndCombine(args, ([a, b]) => a / b);
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case 'Mod': return compileAndCombine(args, ([a, b]) => a % b);
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case 'Not': return compileAndCombine(args, ([a]) => !a);
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case 'Eq': return compileAndCombine(args, ([a, b]) => a === b);
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case 'NotEq': return compileAndCombine(args, ([a, b]) => a !== b);
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case 'Lt': return compileAndCombine(args, ([a, b]) => a < b);
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case 'LtE': return compileAndCombine(args, ([a, b]) => a <= b);
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case 'Gt': return compileAndCombine(args, ([a, b]) => a > b);
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case 'GtE': return compileAndCombine(args, ([a, b]) => a >= b);
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case 'Is': return compileAndCombine(args, ([a, b]) => a === b);
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case 'IsNot': return compileAndCombine(args, ([a, b]) => a !== b);
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case 'In': return compileAndCombine(args, ([a, b]) => Boolean(b?.includes(a)));
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case 'NotIn': return compileAndCombine(args, ([a, b]) => !b?.includes(a));
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case 'List': return compileAndCombine(args, (values) => values);
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case 'Const': return constant(node[1] as CellValue);
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case 'Name': {
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const name = rawArgs[0] as keyof PredicateFormulaInput;
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if (GRIST_CONSTANTS[name]) { return constant(GRIST_CONSTANTS[name]); }
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let validNames: string[];
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switch (variant) {
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case 'acl': {
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validNames = ['newRec', 'rec', 'user'];
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break;
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}
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case 'dropdown-condition': {
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validNames = ['rec', 'choice', 'user'];
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break;
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}
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}
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if (!validNames.includes(name)) { throw new Error(`Unknown variable '${name}'`); }
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return (input) => input[name];
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}
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case 'Attr': {
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const attrName = rawArgs[1] as string;
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return compileAndCombine([args[0]], ([value]) => getAttr(value, attrName, args[0]));
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}
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case 'Comment': return compileNode(args[0]);
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}
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throw new Error(`Unknown node type '${node[0]}'`);
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}
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/**
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* Helper for operators: compile a list of nodes, then when evaluating, evaluate them all and
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* combine the array of results using the given combine() function.
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*/
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function compileAndCombine(
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args: ParsedPredicateFormula[],
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combine: (values: any[]) => any
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): IntermediatePredicateFormula {
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const compiled = args.map(compileNode);
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return (input: PredicateFormulaInput) => combine(compiled.map(c => c(input)));
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}
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const compiledPredicateFormula = compileNode(parsedPredicateFormula);
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return (input) => Boolean(compiledPredicateFormula(input));
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}
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function describeNode(node: ParsedPredicateFormula): string {
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if (node[0] === 'Name') {
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return node[1] as string;
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} else if (node[0] === 'Attr') {
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return describeNode(node[1] as ParsedPredicateFormula) + '.' + (node[2] as string);
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} else {
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return 'value';
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}
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}
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function getAttr(value: any, attrName: string, valueNode: ParsedPredicateFormula): any {
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if (value == null) {
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if (valueNode[0] === 'Name' && (valueNode[1] === 'rec' || valueNode[1] === 'newRec')) {
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// This code is recognized by GranularAccess to know when an ACL rule is row-specific.
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throw new ErrorWithCode('NEED_ROW_DATA', `Missing row data '${valueNode[1]}'`);
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}
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throw new Error(`No value for '${describeNode(valueNode)}'`);
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}
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return typeof value.get === 'function'
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? decodeObject(value.get(attrName)) // InfoView
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: value[attrName];
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}
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/**
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* Predicate formula properties.
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*/
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export interface PredicateFormulaProperties {
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/**
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* List of column ids that are referenced by either `$` or `rec.` notation.
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*/
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recColIds?: string[];
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/**
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* List of column ids that are referenced by `choice.` notation.
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*
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* Only applies to the `dropdown-condition` variant of predicate formulas,
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* and only for Reference and Reference List columns.
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*/
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choiceColIds?: string[];
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}
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/**
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* Returns properties about a predicate `formula`.
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*
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* Properties include the list of column ids referenced in the formula.
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* Currently, this information is used for error validation; specifically, to
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* report when invalid column ids are referenced in ACL formulas and dropdown
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* conditions.
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*/
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export function getPredicateFormulaProperties(
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formula: ParsedPredicateFormula
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): PredicateFormulaProperties {
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return {
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recColIds: [...getRecColIds(formula)],
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choiceColIds: [...getChoiceColIds(formula)],
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};
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}
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function isRecOrNewRec(formula: ParsedPredicateFormula|PrimitiveCellValue): boolean {
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return Array.isArray(formula) &&
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formula[0] === 'Name' &&
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(formula[1] === 'rec' || formula[1] === 'newRec');
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}
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function getRecColIds(formula: ParsedPredicateFormula): string[] {
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return [...new Set(collectColIds(formula, isRecOrNewRec))];
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}
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function isChoice(formula: ParsedPredicateFormula|PrimitiveCellValue): boolean {
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return Array.isArray(formula) && formula[0] === 'Name' && formula[1] === 'choice';
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}
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function getChoiceColIds(formula: ParsedPredicateFormula): string[] {
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return [...new Set(collectColIds(formula, isChoice))];
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}
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function collectColIds(
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formula: ParsedPredicateFormula,
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isIdentifierWithColIds: (formula: ParsedPredicateFormula|PrimitiveCellValue) => boolean,
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): string[] {
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if (!Array.isArray(formula)) { throw new Error('expected a list'); }
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if (formula[0] === 'Attr' && isIdentifierWithColIds(formula[1])) {
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const colId = String(formula[2]);
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return [colId];
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}
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return formula.flatMap(el => Array.isArray(el) ? collectColIds(el, isIdentifierWithColIds) : []);
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}
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