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2983e61870
* Step 1 * Step 2 * False sense of confidence * Couple more before dinner * Update schema package * Update format-title * Upgrade specs file * Close * Replace ts-node-dev with tsx, and various others * Replace lodash with lodash-es * Add lodash-es types * Update knex import * More fun is had * FSE * Consolidate repos * Various tweaks and fixes * Fix specs * Remove dependency on knex-schema-inspector * Fix wrong imports of inspector * Move shared exceptions to new package * Move constants to separate module * Move types to new types package * Use directus/types * I believe this is no longer needed * [WIP] Start moving utils to esm * ESMify Shared * Move shared utils to @directus/utils * Use @directus/utils instead of @directus/shared/utils * It runs! * Use correct schemaoverview type * Fix imports * Fix the thing * Start on new update-checker lib * Use new update-check package * Swap out directus/shared in app * Pushing through the last bits now * Dangerously make extensions SDK ESM * Use @directus/types in tests * Copy util function to test * Fix linter config * Add missing import * Hot takes * Fix build * Curse these default exports * No tests in constants * Add tests * Remove tests from types * Add tests for exceptions * Fix test * Fix app tests * Fix import in test * Fix various tests * Fix specs export * Some more tests * Remove broken integration tests These were broken beyond repair.. They were also written before we really knew what we we're doing with tests, so I think it's better to say goodbye and start over with these * Regenerate lockfile * Fix imports from merge * I create my own problems * Make sharp play nice * Add vitest config * Install missing blackbox dep * Consts shouldn't be in types tsk tsk tsk tsk * Fix type/const usage in extensions-sdk * cursed.default * Reduce circular deps * Fix circular dep in items service * vvv * Trigger testing for all vendors * Add workaround for rollup * Prepend the file protocol for the ESM loader to be compatible with Windows "WARN: Only URLs with a scheme in: file and data are supported by the default ESM loader. On Windows, absolute paths must be valid file:// URLs. Received protocol 'c:'" * Fix postgres * Schema package updates Co-authored-by: Azri Kahar <42867097+azrikahar@users.noreply.github.com> * Resolve cjs/mjs extensions * Clean-up eslint config * fixed extension concatination * using string interpolation for consistency * Revert MySQL optimisation * Revert testing for all vendors * Replace tsx with esbuild-kit/esm-loader Is a bit faster and we can rely on the built-in `watch` and `inspect` functionalities of Node.js Note: The possibility to watch other files (.env in our case) might be added in the future, see https://github.com/nodejs/node/issues/45467 * Use exact version for esbuild-kit/esm-loader * Fix import --------- Co-authored-by: ian <licitdev@gmail.com> Co-authored-by: Brainslug <tim@brainslug.nl> Co-authored-by: Azri Kahar <42867097+azrikahar@users.noreply.github.com> Co-authored-by: Pascal Jufer <pascal-jufer@bluewin.ch>
304 lines
7.3 KiB
TypeScript
304 lines
7.3 KiB
TypeScript
import { getFilterOperatorsForType } from '../../utils/get-filter-operators-for-type';
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import type { ClientFilterOperator } from '@directus/types';
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import { FilterValidator, FilterEmptyValidator } from '@query/filter';
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import { GeneratedFilter } from '..';
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export const type = 'bigInteger';
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export const filterOperatorList = getFilterOperatorsForType(type);
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export const generateFilterForDataType = (filter: ClientFilterOperator, possibleValues: any): GeneratedFilter[] => {
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if (!filterOperatorList.includes(filter)) {
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throw new Error(`Invalid filter operator for ${type}: ${filter}`);
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}
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switch (filter) {
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case 'eq':
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case 'neq':
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case 'lt':
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case 'lte':
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case 'gt':
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case 'gte':
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if (Array.isArray(possibleValues)) {
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return possibleValues.map((value) => {
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return {
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operator: filter,
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value: value,
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filter: {
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[`_${filter}`]: value,
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},
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validatorFunction: getValidatorFunction(filter),
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emptyAllowedFunction: getEmptyAllowedFunction(filter),
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};
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});
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}
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return [
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{
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operator: filter,
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value: possibleValues,
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filter: {
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[`_${filter}`]: possibleValues,
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},
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validatorFunction: getValidatorFunction(filter),
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emptyAllowedFunction: getEmptyAllowedFunction(filter),
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},
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];
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case 'between':
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case 'nbetween':
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if (Array.isArray(possibleValues)) {
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// Check if other values outside of the range can be filtered
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const sortedPossibleValues = [...possibleValues].sort();
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const middleIndex = Math.floor(sortedPossibleValues.length / 2);
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return [
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{
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operator: filter,
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value: [sortedPossibleValues[0], sortedPossibleValues[middleIndex]],
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filter: {
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[`_${filter}`]: [sortedPossibleValues[0], sortedPossibleValues[middleIndex]],
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},
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validatorFunction: getValidatorFunction(filter),
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emptyAllowedFunction: getEmptyAllowedFunction(filter),
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},
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];
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}
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return [
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{
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operator: filter,
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value: [possibleValues, possibleValues],
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filter: {
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[`_${filter}`]: [possibleValues, possibleValues],
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},
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validatorFunction: getValidatorFunction(filter),
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emptyAllowedFunction: getEmptyAllowedFunction(filter),
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},
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];
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case 'null':
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case 'nnull':
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return [
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{
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operator: filter,
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value: true,
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filter: {
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[`_${filter}`]: true,
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},
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validatorFunction: getValidatorFunction(filter),
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emptyAllowedFunction: getEmptyAllowedFunction(filter),
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},
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];
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case 'in':
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case 'nin':
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if (Array.isArray(possibleValues)) {
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// Check if other values outside of the range can be filtered
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const middleIndex = Math.floor(possibleValues.length / 2);
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const partialPossibleValues = possibleValues.slice(0, middleIndex);
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return [
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{
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operator: filter,
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value: partialPossibleValues,
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filter: {
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[`_${filter}`]: partialPossibleValues,
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},
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validatorFunction: getValidatorFunction(filter),
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emptyAllowedFunction: getEmptyAllowedFunction(filter),
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},
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];
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}
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return [
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{
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operator: filter,
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value: [possibleValues],
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filter: {
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[`_${filter}`]: [possibleValues],
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},
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validatorFunction: getValidatorFunction(filter),
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emptyAllowedFunction: getEmptyAllowedFunction(filter),
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},
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];
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default:
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throw new Error(`Unimplemented filter operator for ${type}: ${filter}`);
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}
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};
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export const getValidatorFunction = (filter: ClientFilterOperator): FilterValidator => {
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if (!filterOperatorList.includes(filter)) {
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throw new Error(`Invalid filter operator for ${type}: ${filter}`);
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}
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switch (filter) {
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case 'eq':
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return _eq;
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case 'neq':
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return _neq;
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case 'lt':
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return _lt;
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case 'lte':
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return _lte;
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case 'gt':
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return _gt;
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case 'gte':
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return _gte;
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case 'between':
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return _between;
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case 'nbetween':
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return _nbetween;
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case 'null':
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return _null;
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case 'nnull':
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return _nnull;
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case 'in':
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return _in;
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case 'nin':
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return _nin;
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default:
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throw new Error(`Unimplemented filter operator for ${type}: ${filter}`);
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}
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};
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const _eq = (inputValue: any, possibleValues: any): boolean => {
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if (BigInt(inputValue) === possibleValues) {
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return true;
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}
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return false;
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};
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const _neq = (inputValue: any, possibleValues: any): boolean => {
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if (BigInt(inputValue) !== possibleValues) {
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return true;
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}
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return false;
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};
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const _lt = (inputValue: any, possibleValues: any): boolean => {
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if (BigInt(inputValue) < possibleValues) {
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return true;
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}
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return false;
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};
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const _lte = (inputValue: any, possibleValues: any): boolean => {
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if (BigInt(inputValue) <= possibleValues) {
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return true;
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}
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return false;
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};
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const _gt = (inputValue: any, possibleValues: any): boolean => {
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if (BigInt(inputValue) > possibleValues) {
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return true;
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}
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return false;
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};
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const _gte = (inputValue: any, possibleValues: any): boolean => {
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if (BigInt(inputValue) >= possibleValues) {
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return true;
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}
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return false;
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};
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const _between = (inputValue: any, possibleValues: any): boolean => {
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if (BigInt(inputValue) >= possibleValues[0] && BigInt(inputValue) <= possibleValues[1]) {
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return true;
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}
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return false;
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};
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const _nbetween = (inputValue: any, possibleValues: any): boolean => {
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if (BigInt(inputValue) < possibleValues[0] || BigInt(inputValue) > possibleValues[1]) {
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return true;
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}
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return false;
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};
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const _null = (inputValue: any, _possibleValues: any): boolean => {
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if (inputValue === undefined || inputValue === null) {
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return true;
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}
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return false;
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};
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const _nnull = (inputValue: any, _possibleValues: any): boolean => {
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if (inputValue !== undefined && inputValue !== null) {
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return true;
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}
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return false;
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};
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const _in = (inputValue: any, possibleValues: any): boolean => {
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if (possibleValues.includes(BigInt(inputValue))) {
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return true;
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}
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return false;
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};
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const _nin = (inputValue: any, possibleValues: any): boolean => {
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if (!possibleValues.includes(BigInt(inputValue))) {
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return true;
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}
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return false;
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};
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export const getEmptyAllowedFunction = (filter: ClientFilterOperator): FilterEmptyValidator => {
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if (!filterOperatorList.includes(filter)) {
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throw new Error(`Invalid filter operator for ${type}: ${filter}`);
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}
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switch (filter) {
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case 'lt':
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return empty_lt;
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case 'gt':
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return empty_gt;
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case 'nbetween':
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return empty_nbetween;
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default:
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return empty_invalid;
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}
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};
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const empty_invalid = (_inputValue: any, _possibleValues: any): boolean => {
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return false;
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};
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const empty_lt = (inputValue: any, possibleValues: any): boolean => {
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if (Array.isArray(possibleValues)) {
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for (const value of possibleValues) {
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if (value < BigInt(inputValue)) {
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return false;
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}
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}
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return true;
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} else {
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return BigInt(inputValue) >= possibleValues;
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}
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};
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const empty_gt = (inputValue: any, possibleValues: any): boolean => {
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if (Array.isArray(possibleValues)) {
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for (const value of possibleValues) {
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if (value > BigInt(inputValue)) {
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return false;
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}
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}
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return true;
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} else {
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return BigInt(inputValue) <= possibleValues;
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}
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};
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const empty_nbetween = (inputValue: any, possibleValues: any): boolean => {
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if (Array.isArray(possibleValues)) {
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for (const value of possibleValues) {
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if (value < BigInt(inputValue[0]) || value > BigInt(inputValue[1])) {
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return false;
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}
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}
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return true;
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} else {
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return BigInt(inputValue[0]) >= possibleValues && BigInt(inputValue[1]) <= possibleValues;
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}
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};
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