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@ -7,7 +7,6 @@ import { generateRandomNumber, isRowEmpty } from '~/utils'
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const emit = defineEmits(['expandRecord', 'newRecord']) |
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const { |
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// activeCalendarView, |
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selectedDate, |
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selectedTime, |
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formattedData, |
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@ -81,7 +80,7 @@ const calculateNewDates = ({
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return { endDate, startDate } |
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} |
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/* const getGridTime = (date: dayjs.Dayjs, round = false) => { |
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const getGridTime = (date: dayjs.Dayjs, round = false) => { |
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const gridCalc = date.hour() * 60 + date.minute() |
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if (round) { |
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return Math.ceil(gridCalc) |
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@ -95,10 +94,9 @@ const getGridTimeSlots = (from: dayjs.Dayjs, to: dayjs.Dayjs) => {
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from: getGridTime(from, false), |
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to: getGridTime(to, true) - 1, |
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} |
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} */ |
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} |
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/* const hasSlotForRecord = ( |
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record: Row, |
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const hasSlotForRecord = ( |
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columnArray: Row[], |
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dates: { |
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fromDate: dayjs.Dayjs |
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@ -117,7 +115,9 @@ const getGridTimeSlots = (from: dayjs.Dayjs, to: dayjs.Dayjs) => {
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const { startDate: columnFromDate, endDate: columnToDate } = calculateNewDates({ |
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startDate: dayjs(column.row[columnFromCol.title!]), |
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endDate: columnToCol ? dayjs(column.row[columnToCol.title!]) : dayjs(column.row[columnFromCol.title!]).add(1, 'hour'), |
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endDate: columnToCol |
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? dayjs(column.row[columnToCol.title!]) |
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: dayjs(column.row[columnFromCol.title!]).add(1, 'hour').subtract(1, 'minute'), |
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scheduleStart: dayjs(selectedDate.value).startOf('day'), |
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scheduleEnd: dayjs(selectedDate.value).endOf('day'), |
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}) |
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@ -130,65 +130,60 @@ const getGridTimeSlots = (from: dayjs.Dayjs, to: dayjs.Dayjs) => {
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} |
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} |
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return true |
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} */ |
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/* const getMaxOfGrid = ( |
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} |
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const getMaxOverlaps = ({ |
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row, |
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gridTimeMap, |
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columnArray, |
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}: { |
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row: Row |
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gridTimeMap: Map< |
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number, |
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{ |
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fromDate, |
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toDate, |
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}: { |
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fromDate: dayjs.Dayjs |
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toDate: dayjs.Dayjs |
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}, |
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gridTimeMap: Map<number, number>, |
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) => { |
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let max = 0 |
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const gridTimes = getGridTimeSlots(fromDate, toDate) |
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count: number |
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id: string[] |
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} |
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> |
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columnArray: Array<Array<Row>> |
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}) => { |
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const visited: Set<string> = new Set() |
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const graph: Map<string, Set<string>> = new Map() |
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for (let gridCounter = gridTimes.from; gridCounter <= gridTimes.to; gridCounter++) { |
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if (gridTimeMap.has(gridCounter) && gridTimeMap.get(gridCounter) > max) { |
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max = gridTimeMap.get(gridCounter) |
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// Build the graph |
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for (const [_gridTime, { id: ids }] of gridTimeMap) { |
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for (const id1 of ids) { |
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if (!graph.has(id1)) { |
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graph.set(id1, new Set()) |
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} |
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for (const id2 of ids) { |
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if (id1 !== id2) { |
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graph.get(id1)!.add(id2) |
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} |
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} |
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} |
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} |
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return max |
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} */ |
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/* const isOverlaps = (row1: Row, row2: Row) => { |
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const fromCol1 = row1.rowMeta.range?.fk_from_col |
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const toCol1 = row1.rowMeta.range?.fk_to_col |
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const fromCol2 = row2.rowMeta.range?.fk_from_col |
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const toCol2 = row2.rowMeta.range?.fk_to_col |
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if (!fromCol1 || !fromCol2) return false |
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const { startDate: startDate1, endDate: endDate1 } = calculateNewDates({ |
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endDate: toCol1 ? dayjs(row1.row[toCol1.title!]) : dayjs(row1.row[fromCol1.title!]).add(1, 'hour'), |
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startDate: dayjs(row1.row[fromCol1.title!]), |
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scheduleStart: dayjs(selectedDate.value).startOf('day'), |
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scheduleEnd: dayjs(selectedDate.value).endOf('day'), |
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}) |
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const { startDate: startDate2, endDate: endDate2 } = calculateNewDates({ |
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endDate: toCol2 ? dayjs(row2.row[toCol2.title!]) : dayjs(row2.row[fromCol2.title!]).add(1, 'hour'), |
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startDate: dayjs(row2.row[fromCol2.title!]), |
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scheduleStart: dayjs(selectedDate.value).startOf('day'), |
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scheduleEnd: dayjs(selectedDate.value).endOf('day'), |
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}) |
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return startDate1.isBetween(startDate2, endDate2, null, '[]') || endDate1.isBetween(startDate2, endDate2, null, '[]') |
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} */ |
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/* const getMaxOverlaps = ({ row, rowArray }: { row: Row; rowArray: Row[] }) => { |
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let maxOverlaps = row.rowMeta.numberOfOverlaps |
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for (const record of rowArray) { |
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if (isOverlaps(row, record)) { |
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if (!record.rowMeta.numberOfOverlaps || !row.rowMeta.numberOfOverlaps) continue |
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if (record.rowMeta.numberOfOverlaps > row.rowMeta.numberOfOverlaps) { |
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maxOverlaps = record.rowMeta.numberOfOverlaps |
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const dfs = (id: string): number => { |
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visited.add(id) |
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let maxOverlaps = 1 |
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const neighbors = graph.get(id) |
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if (neighbors) { |
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for (const neighbor of neighbors) { |
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if (!visited.has(neighbor)) { |
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maxOverlaps = Math.min(Math.max(maxOverlaps, dfs(neighbor) + 1), columnArray.length) |
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} |
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} |
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} |
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return maxOverlaps |
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} */ |
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} |
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let maxOverlaps = 1 |
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const id = row.rowMeta.id as string |
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if (graph.has(id)) { |
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maxOverlaps = dfs(id) |
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} |
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return maxOverlaps |
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} |
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const recordsAcrossAllRange = computed<{ |
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record: Row[] |
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@ -220,10 +215,16 @@ const recordsAcrossAllRange = computed<{
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const perRecordHeight = 60 |
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/* const columnArray: Array<Array<Row>> = [[]] |
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const gridTimeMap = new Map() */ |
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const columnArray: Array<Array<Row>> = [[]] |
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const gridTimeMap = new Map< |
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number, |
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{ |
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count: number |
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id: string[] |
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} |
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>() |
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let recordsByRange: Array<Row> = [] |
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const recordsByRange: Array<Row> = [] |
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calendarRange.value.forEach((range) => { |
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const fromCol = range.fk_from_col |
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@ -268,36 +269,11 @@ const recordsAcrossAllRange = computed<{
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// The height of the record is calculated based on the difference between the start and end date |
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const heightInPixels = Math.max(endDate.diff(startDate, 'minute'), perRecordHeight) |
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const startHour = startDate.hour() |
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let _startDate = startDate.clone() |
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const style: Partial<CSSStyleDeclaration> = { |
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height: `${heightInPixels}px`, |
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top: `${topInPixels}px`, |
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} |
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// We loop through every 1 minutes between the start and end date and keep track of the number of records that overlap at a given time |
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// If the number of records exceeds 4, we hide the record and show a button to view more records |
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while (_startDate.isBefore(endDate)) { |
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const timeKey = _startDate.format('HH:mm') |
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if (!overlaps[timeKey]) { |
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overlaps[timeKey] = { |
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id: [], |
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overflow: false, |
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overflowCount: 0, |
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} |
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} |
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overlaps[timeKey].id.push(id) |
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// If the number of records exceeds 4, we hide the record mark the time as overflow |
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if (overlaps[timeKey].id.length > 4) { |
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overlaps[timeKey].overflow = true |
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style.display = 'none' |
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overlaps[timeKey].overflowCount += 1 |
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} |
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_startDate = _startDate.add(1, 'minutes') |
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} |
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// This property is used to determine which side the record should be rounded. It can be top, bottom, both or none |
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// We use the start and end date to determine the position of the record |
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let position = 'none' |
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@ -330,41 +306,12 @@ const recordsAcrossAllRange = computed<{
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} else if (fromCol) { |
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const { startDate, endDate } = calculateNewDates({ |
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startDate: dayjs(record.row[fromCol.title!]), |
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endDate: dayjs(record.row[fromCol.title!]).add(1, 'hour'), |
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endDate: dayjs(record.row[fromCol.title!]).add(1, 'hour').subtract(1, 'minute'), |
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scheduleStart, |
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scheduleEnd, |
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}) |
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const startHour = startDate.hour() |
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let style: Partial<CSSStyleDeclaration> = {} |
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let _startDate = startDate.clone() |
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// We loop through every minute between the start and end date and keep track of the number of records that overlap at a given time |
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while (_startDate.isBefore(endDate, 'minute')) { |
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const timeKey = _startDate.format('HH:mm') |
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if (!overlaps[timeKey]) { |
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overlaps[timeKey] = { |
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id: [], |
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overflow: false, |
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overflowCount: 0, |
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} |
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} |
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overlaps[timeKey].id.push(id) |
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// If the number of records exceeds 8, we hide the record and mark it as overflow |
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if (overlaps[timeKey].id.length > 8) { |
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overlaps[timeKey].overflow = true |
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overlaps[timeKey].overflowCount += 1 |
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style = { |
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...style, |
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display: 'none', |
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} |
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} |
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_startDate = _startDate.add(1, 'minute') |
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} |
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// The top of the record is calculated based on the start hour |
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// Update such that it is also based on Minutes |
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@ -392,41 +339,15 @@ const recordsAcrossAllRange = computed<{
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} |
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} |
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}) |
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/* |
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recordsByRange.sort((a, b) => { |
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const fromColA = a.rowMeta.range?.fk_from_col |
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const fromColB = b.rowMeta.range?.fk_from_col |
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if (!fromColA || !fromColB) return 0 |
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return dayjs(a.row[fromColA.title!]).isBefore(dayjs(b.row[fromColB.title!])) ? -1 : 1 |
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}) */ |
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// We can't calculate the width & left of the records without knowing the number of records that overlap at a given time |
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// So we loop through the records again and calculate the width & left of the records based on the number of records that overlap at a given time |
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recordsByRange = recordsByRange.map((record) => { |
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// MaxOverlaps is the number of records that overlap at a given time |
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// overlapIndex is the index of the record in the list of records that overlap at a given time |
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let maxOverlaps = 1 |
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let overlapIndex = 0 |
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for (const minutes in overlaps) { |
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if (overlaps[minutes].id.includes(record.rowMeta.id!)) { |
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maxOverlaps = Math.max(maxOverlaps, overlaps[minutes].id.length - overlaps[minutes].overflowCount) |
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overlapIndex = Math.max(overlaps[minutes].id.indexOf(record.rowMeta.id!), overlapIndex) |
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} |
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} |
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const spacing = 0.25 |
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const widthPerRecord = (100 - spacing * (maxOverlaps - 1)) / maxOverlaps |
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const leftPerRecord = (widthPerRecord + spacing) * overlapIndex |
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record.rowMeta.style = { |
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...record.rowMeta.style, |
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left: `${leftPerRecord - 0.08}%`, |
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width: `calc(${widthPerRecord}%)`, |
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} |
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return record |
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}) |
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// TODO: Rewrite the calculations for the style of the records |
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/* for (const record of recordsByRange) { |
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for (const record of recordsByRange) { |
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const fromCol = record.rowMeta.range?.fk_from_col |
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const toCol = record.rowMeta.range?.fk_to_col |
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@ -434,7 +355,7 @@ const recordsAcrossAllRange = computed<{
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const { startDate, endDate } = calculateNewDates({ |
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startDate: dayjs(record.row[fromCol.title!]), |
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endDate: toCol ? dayjs(record.row[toCol.title!]) : dayjs(record.row[fromCol.title!]).add(1, 'hour'), |
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endDate: toCol ? dayjs(record.row[toCol.title!]) : dayjs(record.row[fromCol.title!]).add(1, 'hour').subtract(1, 'minute'), |
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scheduleStart, |
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scheduleEnd, |
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}) |
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@ -442,10 +363,16 @@ const recordsAcrossAllRange = computed<{
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const gridTimes = getGridTimeSlots(startDate, endDate) |
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for (let gridCounter = gridTimes.from; gridCounter <= gridTimes.to; gridCounter++) { |
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if (gridTimeMap.has(gridCounter)) { |
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gridTimeMap.set(gridCounter, gridTimeMap.get(gridCounter) + 1) |
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if (!gridTimeMap.has(gridCounter)) { |
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gridTimeMap.set(gridCounter, { |
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count: 1, |
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id: [record.rowMeta.id!], |
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}) |
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} else { |
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gridTimeMap.set(gridCounter, 1) |
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gridTimeMap.set(gridCounter, { |
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count: gridTimeMap.get(gridCounter)!.count + 1, |
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id: [...gridTimeMap.get(gridCounter)!.id, record.rowMeta.id!], |
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}) |
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} |
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} |
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@ -453,7 +380,7 @@ const recordsAcrossAllRange = computed<{
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for (const column in columnArray) { |
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if ( |
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hasSlotForRecord(record, columnArray[column], { |
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hasSlotForRecord(columnArray[column], { |
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fromDate: startDate, |
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toDate: endDate, |
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}) |
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@ -470,45 +397,60 @@ const recordsAcrossAllRange = computed<{
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} |
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for (const columnIndex in columnArray) { |
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for (const record of columnArray[columnIndex]) { |
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const recordRange = record.rowMeta.range |
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const fromCol = recordRange?.fk_from_col |
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const toCol = recordRange?.fk_to_col |
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if (!fromCol) continue |
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const { startDate, endDate } = calculateNewDates({ |
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startDate: dayjs(record.row[fromCol.title!]), |
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endDate: toCol ? dayjs(record.row[toCol.title!]) : dayjs(record.row[fromCol.title!]).add(1, 'hour'), |
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scheduleStart: dayjs(selectedDate.value).startOf('day'), |
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scheduleEnd: dayjs(selectedDate.value).endOf('day'), |
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}) |
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record.rowMeta.numberOfOverlaps = |
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getMaxOfGrid( |
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{ |
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fromDate: startDate, |
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toDate: endDate, |
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}, |
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gridTimeMap, |
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) - 1 |
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record.rowMeta.overLapIteration = parseInt(columnIndex) + 1 |
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} |
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} |
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for (const record of recordsByRange) { |
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record.rowMeta.numberOfOverlaps = getMaxOverlaps({ |
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const numberOfOverlaps = getMaxOverlaps({ |
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row: record, |
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rowArray: recordsByRange, |
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gridTimeMap, |
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columnArray, |
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}) |
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const width = 100 / columnArray.length |
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const left = width * (record.rowMeta.overLapIteration - 1) |
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record.rowMeta.numberOfOverlaps = numberOfOverlaps |
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let width |
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let left = 100 |
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let display = 'block' |
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if (numberOfOverlaps && numberOfOverlaps > 0) { |
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width = 100 / Math.min(numberOfOverlaps, 8) |
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if (record.rowMeta.overLapIteration! - 1 > 7) { |
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display = 'none' |
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gridTimeMap.forEach((value, key) => { |
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if (value.id.includes(record.rowMeta.id!)) { |
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if (!overlaps[key]) { |
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overlaps[key] = { |
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id: value.id, |
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overflow: true, |
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overflowCount: value.id.length, |
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} |
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} else { |
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overlaps[key].overflow = true |
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value.id.forEach((id) => { |
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if (!overlaps[key].id.includes(id)) { |
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overlaps[key].id.push(id) |
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} |
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}) |
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} |
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} |
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}) |
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} else { |
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left = width * (record.rowMeta.overLapIteration! - 1) |
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} |
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} else { |
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width = 100 |
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left = 0 |
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} |
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record.rowMeta.style = { |
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...record.rowMeta.style, |
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display, |
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width: `${width.toFixed(2)}%`, |
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left: `${left}%`, |
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left: `${left.toFixed(2)}%`, |
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} |
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} |
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} */ |
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return { |
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count: overlaps, |
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@ -802,7 +744,7 @@ const isOverflowAcrossHourRange = (hour: dayjs.Dayjs) => {
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let overflowCount = 0 |
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while (startOfHour.isBefore(endOfHour, 'minute')) { |
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const hourKey = startOfHour.format('HH:mm') |
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const hourKey = startOfHour.hour() * 60 + startOfHour.minute() |
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if (recordsAcrossAllRange.value?.count?.[hourKey]?.overflow) { |
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isOverflow = true |
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