import {CellSelector, COL, ROW} from 'app/client/components/CellSelector'; import {copyToClipboard} from 'app/client/lib/clipboardUtils'; import {Delay} from "app/client/lib/Delay"; import {KoArray} from 'app/client/lib/koArray'; import {ViewFieldRec} from 'app/client/models/entities/ViewFieldRec'; import {UserError} from 'app/client/models/errors'; import {ALL, RowsChanged, SortedRowSet} from "app/client/models/rowset"; import {showTransientTooltip} from 'app/client/ui/tooltips'; import {colors, isNarrowScreen, isNarrowScreenObs, theme, vars} from 'app/client/ui2018/cssVars'; import {icon} from 'app/client/ui2018/icons'; import {CellValue} from 'app/common/DocActions'; import {isEmptyList, isListType, isRefListType} from "app/common/gristTypes"; import {TableData} from "app/common/TableData"; import {BaseFormatter} from 'app/common/ValueFormatter'; import ko from 'knockout'; import {Computed, Disposable, dom, makeTestId, Observable, styled, subscribe} from 'grainjs'; import {makeT} from 'app/client/lib/localization'; const t = makeT('SelectionSummary'); /** * A beginning and end index for a range of columns or rows. */ interface Range { begin: number; end: number; } /** * A single part of the cell selection summary. */ interface SummaryPart { /** Identifier for the summary part. */ id: 'sum' | 'count' | 'dimensions'; /** Label that's shown to the left of `value`. */ label: string; /** Value of the summary part. */ value: string; /** If true, displays a copy button on hover. Defaults to false. */ clickToCopy?: boolean; } const testId = makeTestId('test-selection-summary-'); // We can handle a million cells in under 60ms on a good laptop. Much beyond that, and we'll break // selection with the bad performance. Instead, skip the counting and summing for too many cells. const MAX_CELLS_TO_SCAN = 1_000_000; export class SelectionSummary extends Disposable { private _colTotalCount = Computed.create(this, (use) => use(use(this._viewFields).getObservable()).length); private _rowTotalCount = Computed.create(this, (use) => { const rowIds = use(this._sortedRows.getKoArray().getObservable()); const includesNewRow = (rowIds.length > 0 && rowIds[rowIds.length - 1] === 'new'); return rowIds.length - (includesNewRow ? 1 : 0); }); // In CellSelector, start and end are 0-based, inclusive, and not necessarily in order. // It's not good for representing an empty range. Here, we convert ranges as [begin, end), // with end >= begin. private _rowRange = Computed.create(this, (use) => { const type = use(this._cellSelector.currentSelectType); if (type === COL) { return {begin: 0, end: use(this._rowTotalCount)}; } else { const start = use(this._cellSelector.row.start); const end = use(this._cellSelector.row.end); return { begin: Math.min(start, end), end: Math.max(start, end) + 1, }; } }); private _colRange = Computed.create(this, (use) => { const type = use(this._cellSelector.currentSelectType); if (type === ROW) { return {begin: 0, end: use(this._colTotalCount)}; } else { const start = use(this._cellSelector.col.start); const end = use(this._cellSelector.col.end); return { begin: Math.min(start, end), end: Math.max(start, end) + 1, }; } }); private _summary = Observable.create(this, []); private _delayedRecalc = this.autoDispose(Delay.create()); constructor( private _cellSelector: CellSelector, private _tableData: TableData, private _sortedRows: SortedRowSet, private _viewFields: ko.Computed>, ) { super(); this.autoDispose(this._sortedRows.getKoArray().subscribe(this._onSpliceChange, this, 'spliceChange')); const onRowNotify = this._onRowNotify.bind(this); this._sortedRows.on('rowNotify', onRowNotify); this.onDispose(() => this._sortedRows.off('rowNotify', onRowNotify)); this.autoDispose(subscribe(this._rowRange, this._colRange, () => this._scheduleRecalc())); this.autoDispose(isNarrowScreenObs().addListener((isNarrow) => { if (isNarrow) { return; } // No calculations occur while the screen is narrow, so we need to schedule one. this._scheduleRecalc(); })); } public buildDom() { return cssSummary( dom.forEach(this._summary, ({id, label, value, clickToCopy}) => cssSummaryPart( label ? dom('span', cssLabelText(label), cssCopyIcon('Copy')) : null, value, cssSummaryPart.cls('-copyable', Boolean(clickToCopy)), (clickToCopy ? dom.on('click', (ev, elem) => doCopy(value, elem)) : null), testId(id), ) ), ); } private _onSpliceChange(splice: {start: number}) { const rowRange = this._rowRange.get(); const rowCount = rowRange.end - rowRange.begin; if (rowCount === 1) { return; } if (splice.start >= rowRange.end) { return; } // We could be smart here and only recalculate when the splice affects our selection. But for // that to make sense, the selection itself needs to be smart. Currently, the selection is // lost whenever the cursor is affected. For example, when you have a selection and another // user adds/removes columns or rows before the selection, the selection won't be shifted // with the cursor, and will instead be cleared. Since we can't always rely on the selection // being there, we'll err on the safe side and always schedule a recalc. this._scheduleRecalc(); } private _onRowNotify(rows: RowsChanged) { const rowRange = this._rowRange.get(); if (rows === ALL) { this._scheduleRecalc(); } else { const rowArray = this._sortedRows.getKoArray().peek(); const rowIdSet = new Set(rows); for (let r = rowRange.begin; r < rowRange.end; r++) { if (rowIdSet.has(rowArray[r])) { this._scheduleRecalc(); break; } } } } /** * Schedules a re-calculation to occur in the immediate future. * * May be called repeatedly, but only a single re-calculation will be scheduled, to * avoid queueing unnecessary amounts of work. */ private _scheduleRecalc() { // `_recalc` may take a non-trivial amount of time, so we defer until the stack is clear. this._delayedRecalc.schedule(0, () => this._recalc()); } private _recalc() { const rowRange = this._rowRange.get(); const colRange = this._colRange.get(); let rowCount = rowRange.end - rowRange.begin; let colCount = colRange.end - colRange.begin; const cellCount = rowCount * colCount; const summary: SummaryPart[] = []; // Do nothing on narrow screens, because we haven't come up with a place to render sum anyway. if (cellCount > 1 && !isNarrowScreen()) { if (cellCount <= MAX_CELLS_TO_SCAN) { const rowArray = this._sortedRows.getKoArray().peek(); const fields = this._viewFields.peek().peek(); let countNumeric = 0; let countNonEmpty = 0; let sum = 0; let sumFormatter: BaseFormatter|null = null; const rowIndices: number[] = []; for (let r = rowRange.begin; r < rowRange.end; r++) { const rowId = rowArray[r]; if (rowId === undefined || rowId === 'new') { // We can run into this whenever the selection gets out of sync due to external // changes, like another user removing some rows. For now, we'll skip rows that are // still selected and no longer exist, but the real TODO is to better update the // selection so that it doesn't have out-of-date and invalid ranges. rowCount -= 1; continue; } rowIndices.push(this._tableData.getRowIdIndex(rowId)!); } for (let c = colRange.begin; c < colRange.end; c++) { const field = fields[c]; if (field === undefined) { // Like with rows (see comment above), we need to watch out for out-of-date ranges. colCount -= 1; continue; } const col = fields[c].column.peek(); const displayCol = fields[c].displayColModel.peek(); const colType = col.type.peek(); const visibleColType = fields[c].visibleColModel.peek().type.peek(); const effectiveColType = visibleColType ?? colType; const displayColId = displayCol.colId.peek(); // Note: we get values from the display column so that reference columns displaying // numbers are included in the computed sum. Unfortunately, that also means we can't // show a count of non-empty references. For now, that's a trade-off we'll have to make, // but in the future it should be possible to allow showing multiple summary parts with // some level of configurability. const values = this._tableData.getColValues(displayColId); if (!values) { throw new UserError(`Invalid column ${this._tableData.tableId}.${displayColId}`); } const isNumeric = ['Numeric', 'Int', 'Any'].includes(effectiveColType); const isEmpty: undefined | ((value: CellValue) => boolean) = ( colType.startsWith('Ref:') && !visibleColType ? value => (value === 0) : isRefListType(colType) || isListType(effectiveColType) ? isEmptyList : undefined ); // The loops below are optimized, minimizing the amount of work done per row. For // example, column values are retrieved in bulk above instead of once per row. In one // unscientific test, they take 30-60ms per million numeric cells. // // TODO: Add a benchmark test suite that automates checking for performance regressions. if (isNumeric) { if (!sumFormatter) { sumFormatter = fields[c].formatter.peek(); } for (const i of rowIndices) { const value = values[i]; if (typeof value === 'number') { countNumeric++; sum += value; } else if (value !== null && value !== undefined && value !== '' && !isEmpty?.(value)) { countNonEmpty++; } } } else { for (const i of rowIndices) { const value = values[i]; if (value !== null && value !== undefined && value !== '' && !isEmpty?.(value)) { countNonEmpty++; } } } } if (countNumeric > 0) { const sumValue = sumFormatter ? sumFormatter.formatAny(sum) : String(sum); summary.push({id: 'sum', label: 'Sum ', value: sumValue, clickToCopy: true}); } else { summary.push({id: 'count', label: 'Count ', value: String(countNonEmpty), clickToCopy: true}); } } summary.push({id: 'dimensions', label: '', value: `${rowCount}тип${colCount}`}); } this._summary.set(summary); } } async function doCopy(value: string, elem: Element) { await copyToClipboard(value); showTransientTooltip(elem, t("Copied to clipboard"), {key: 'copy-selection-summary'}); } const cssSummary = styled('div', ` position: absolute; bottom: -18px; height: 18px; line-height: 18px; display: flex; column-gap: 8px; width: 100%; justify-content: end; color: ${theme.text}; font-family: ${vars.fontFamilyData}; @media print { & { display: none; } } `); // Note: the use of an extra element for the background is to set its opacity, to make it a bit // lighter (or darker, in dark-mode) than actual mediumGrey, without defining a special color. const cssSummaryPart = styled('div', ` padding: 0 8px; border-radius: 4px; border-top-left-radius: 0px; border-top-right-radius: 0px; border-top: none; z-index: 100; position: relative; overflow: hidden; text-overflow: ellipsis; white-space: nowrap; /* Set explicit backdrop to improve visibility in raw data views. */ background-color: ${theme.mainPanelBg}; &-copyable:hover { cursor: pointer; } &::before { content: ""; position: absolute; top: 0; left: 0; bottom: 0; right: 0; background-color: ${colors.mediumGrey}; opacity: 0.8; z-index: -1; } `); const cssLabelText = styled('span', ` font-size: ${vars.xsmallFontSize}; text-transform: uppercase; position: relative; margin-right: 4px; .${cssSummaryPart.className}-copyable:hover & { visibility: hidden; } `); const cssCopyIcon = styled(icon, ` position: absolute; top: 0; margin: 1px 0 0 4px; --icon-color: ${theme.controlFg}; display: none; .${cssSummaryPart.className}-copyable:hover & { display: block; } `);