2020-07-21 13:20:51 +00:00
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import {ActionSummary, ColumnDelta, createEmptyActionSummary, createEmptyTableDelta} from 'app/common/ActionSummary';
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import {CellDelta} from 'app/common/TabularDiff';
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2023-05-08 22:06:24 +00:00
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import {concatenateSummaries} from 'app/common/ActionSummarizer';
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2020-07-21 13:20:51 +00:00
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import {ISQLiteDB, quoteIdent, ResultRow} from 'app/server/lib/SQLiteDB';
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import keyBy = require('lodash/keyBy');
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import matches = require('lodash/matches');
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import sortBy = require('lodash/sortBy');
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import toPairs = require('lodash/toPairs');
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/**
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* We can combine an ActionSummary with the current state of the database
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* to answer questions about the state of the database in the past. This
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* is particularly useful for grist metadata tables, which are needed to
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* interpret the content of user tables fully.
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* - TimeCursor is a simple container for the db and an ActionSummary
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* - TimeQuery offers a db-like interface for a given table and set of columns
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* - TimeLayout answers a couple of concrete questions about table meta-data using a
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* set of TimeQuery objects hooked up to _grist_* tables. It could be used to
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* improve the rendering of the ActionLog, for example, although it is not (yet).
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*/
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/** Track the state of the database at a particular time. */
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export class TimeCursor {
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public summary: ActionSummary;
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constructor(public db: ISQLiteDB) {
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this.summary = createEmptyActionSummary();
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}
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/** add a summary of an action just before the last action applied to the TimeCursor */
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public prepend(prevSummary: ActionSummary) {
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this.summary = concatenateSummaries([prevSummary, this.summary]);
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}
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/** add a summary of an action just after the last action applied to the TimeCursor */
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public append(nextSummary: ActionSummary) {
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this.summary = concatenateSummaries([this.summary, nextSummary]);
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}
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}
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/** internal class for storing a ResultRow dictionary, keyed by rowId */
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class ResultRows {
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[rowId: number]: ResultRow;
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}
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/**
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* Query the state of a particular table in the past, given a TimeCursor holding the
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* current db and a summary of all changes between that past time and now.
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* For the moment, for simplicity, names of tables and columns are assumed not to
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* change, and TimeQuery should only be used for _grist_* tables.
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*/
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export class TimeQuery {
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private _currentRows: ResultRow[];
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private _pastRows: ResultRow[];
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constructor(public tc: TimeCursor, public tableId: string, public colIds: string[]) {
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}
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/** Get fresh data from DB and overlay with any past data */
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public async update(): Promise<ResultRow[]> {
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this._currentRows = await this.tc.db.all(
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`select ${['id', ...this.colIds].map(quoteIdent).join(',')} from ${quoteIdent(this.tableId)}`);
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// Let's see everything the summary has accumulated about the table back then.
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const td = this.tc.summary.tableDeltas[this.tableId] || createEmptyTableDelta();
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// Now rewrite the summary as a ResultRow dictionary, to make it comparable
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// with database.
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const summaryRows: ResultRows = {};
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for (const [colId, columns] of toPairs(td.columnDeltas)) {
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for (const [rowId, cell] of toPairs(columns) as unknown as Array<[keyof ColumnDelta, CellDelta]>) {
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if (!summaryRows[rowId]) { summaryRows[rowId] = {}; }
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const val = cell[0];
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summaryRows[rowId][colId] = (val !== null && typeof val === 'object' ) ? val[0] : null;
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}
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}
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// Prepare to access the current database state by rowId.
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const rowsById = keyBy(this._currentRows, r => (r.id as number));
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// Prepare a list of rowIds at the time of interest.
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// The past rows are whatever the db has now, omitting rows that were added
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// since the past time, and adding back any rows that were removed since then.
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// Careful about the order of this, since rows could be replaced.
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const additions = new Set(td.addRows);
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const pastRowIds =
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new Set([...this._currentRows.map(r => r.id as number).filter(r => !additions.has(r)),
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...td.removeRows]);
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// Now prepare a row for every expected rowId, using current db data if available
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// and relevant, and overlaying past data when available.
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this._pastRows = new Array<ResultRow>();
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const colIdsOfInterest = new Set(this.colIds);
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for (const id of Array.from(pastRowIds).sort()) {
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const row: ResultRow = rowsById[id] || {id};
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if (summaryRows[id] && !additions.has(id)) {
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for (const [colId, val] of toPairs(summaryRows[id])) {
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if (colIdsOfInterest.has(colId)) { row[colId] = val; }
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}
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}
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this._pastRows.push(row);
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}
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return this._pastRows;
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}
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/**
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* Do a query with a single result, specifying any desired filters. Exception thrown
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* if there is no result.
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*/
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public one(args: {[name: string]: any}): ResultRow {
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const result = this._pastRows.find(matches(args));
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if (!result) {
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throw new Error(`could not find: ${JSON.stringify(args)} for ${this.tableId}`);
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}
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return result;
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}
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/** Get all results for a query. */
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public all(args?: {[name: string]: any}): ResultRow[] {
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if (!args) { return this._pastRows; }
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return this._pastRows.filter(matches(args));
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}
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}
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/**
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* Put some TimeQuery queries to work answering questions about column order and
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* user-facing name of tables.
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*/
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export class TimeLayout {
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public tables: TimeQuery;
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public fields: TimeQuery;
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public columns: TimeQuery;
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public views: TimeQuery;
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2022-04-27 17:46:24 +00:00
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public sections: TimeQuery;
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2020-07-21 13:20:51 +00:00
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constructor(public tc: TimeCursor) {
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2022-04-27 17:46:24 +00:00
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this.tables = new TimeQuery(tc, '_grist_Tables', ['tableId', 'primaryViewId', 'rawViewSectionRef']);
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2020-07-21 13:20:51 +00:00
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this.fields = new TimeQuery(tc, '_grist_Views_section_field',
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['parentId', 'parentPos', 'colRef']);
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this.columns = new TimeQuery(tc, '_grist_Tables_column', ['parentId', 'colId']);
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this.views = new TimeQuery(tc, '_grist_Views', ['id', 'name']);
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2022-04-27 17:46:24 +00:00
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this.sections = new TimeQuery(tc, '_grist_Views_section', ['id', 'title']);
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2020-07-21 13:20:51 +00:00
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}
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/** update from TimeCursor */
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public async update() {
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await this.tables.update();
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await this.columns.update();
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await this.fields.update();
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await this.views.update();
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2022-04-27 17:46:24 +00:00
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await this.sections.update();
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2020-07-21 13:20:51 +00:00
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}
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public getColumnOrder(tableId: string): string[] {
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const primaryViewId = this.tables.one({tableId}).primaryViewId;
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const preorder = this.fields.all({parentId: primaryViewId});
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const precol = keyBy(this.columns.all(), 'id');
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const ordered = sortBy(preorder, 'parentPos');
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const names = ordered.map(r => precol[r.colRef].colId);
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return names;
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}
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public getTableName(tableId: string): string {
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2022-04-27 17:46:24 +00:00
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const rawViewSectionRef = this.tables.one({tableId}).rawViewSectionRef;
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return this.sections.one({id: rawViewSectionRef}).title;
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2020-07-21 13:20:51 +00:00
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}
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}
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