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* Comparison Query Builder
* Handles period-over-period comparison queries with compareDateRange
*
* Responsibilities:
* - Normalize compareDateRange date formats (relative strings, explicit arrays)
* - Expand comparison queries into multiple period sub-queries
* - Merge results with period metadata for client-side visualization
* - Calculate period alignment (day-of-period index) for overlay charts
*/
import type {
SemanticQuery,
TimeDimension,
QueryResult,
TimeGranularity,
PeriodComparisonMetadata
} from './types'
import { DateTimeBuilder } from './builders/date-time-builder'
import type { DatabaseAdapter } from './adapters/base-adapter'
/**
* Normalized period range with start/end dates and metadata
*/
export interface NormalizedPeriod {
/** Start date of the period */
start: Date
/** End date of the period */
end: Date
/** Human-readable label for the period */
label: string
/** Index in the comparison (0 = first/current, 1 = second/prior, etc.) */
index: number
}
/**
* Extended result row with period metadata for alignment
*/
export interface ComparisonResultRow extends Record<string, unknown> {
/** Period label (e.g., "2024-01-01 - 2024-01-31") */
__period: string
/** Period index (0 = current, 1 = prior, etc.) */
__periodIndex: number
/** Day-of-period index for alignment in overlay mode */
__periodDayIndex: number
}
export class ComparisonQueryBuilder {
private dateTimeBuilder: DateTimeBuilder
constructor(databaseAdapter: DatabaseAdapter) {
this.dateTimeBuilder = new DateTimeBuilder(databaseAdapter)
}
/**
* Check if a query contains compareDateRange
*/
hasComparison(query: SemanticQuery): boolean {
return query.timeDimensions?.some(td =>
td.compareDateRange && td.compareDateRange.length >= 2
) ?? false
}
/**
* Get the time dimension with compareDateRange
*/
getComparisonTimeDimension(query: SemanticQuery): TimeDimension | undefined {
return query.timeDimensions?.find(td =>
td.compareDateRange && td.compareDateRange.length >= 2
)
}
/**
* Normalize compareDateRange entries to concrete date ranges
* Handles both relative strings ('last 30 days') and explicit arrays (['2024-01-01', '2024-01-31'])
*/
normalizePeriods(
compareDateRange: (string | [string, string])[]
): NormalizedPeriod[] {
const periods: NormalizedPeriod[] = []
for (let i = 0; i < compareDateRange.length; i++) {
const range = compareDateRange[i]
let start: Date
let end: Date
let label: string
if (typeof range === 'string') {
// Relative date string (e.g., 'last 30 days', 'this week')
const parsed = this.dateTimeBuilder.parseRelativeDateRange(range)
if (parsed) {
start = parsed.start
end = parsed.end
label = range
} else E{
// Try to parse as absolute date
const dateObj = new Date(range)
if (!isNaN(dateObj.getTime())) {
start = new Date(dateObj)
start.setUTCHours(0, 0, 0, 0)
end = new Date(dateObj)
end.setUTCHours(23, 59, 59, 999)
label = range
} else {
// Skip invalid range
continue
}
}
} else {
// Explicit array format ['2024-01-01', '2024-01-31']
start = new Date(range[0])
end = new Date(range[1])
Iif (isNaN(start.getTime()) || isNaN(end.getTime())) {
// Skip invalid range
continue
}
// For date-only strings, treat end date as end-of-day
Eif (/^\d{4}-\d{2}-\d{2}$/.test(range[1])) {
end.setUTCHours(23, 59, 59, 999)
}
label = `${range[0]} - ${range[1]}`
}
periods.push({
start,
end,
label,
index: i
})
}
return periods
}
/**
* Create sub-query for a specific period
* Replaces compareDateRange with a concrete dateRange for that period
*/
createPeriodQuery(
query: SemanticQuery,
period: NormalizedPeriod
): SemanticQuery {
return {
...query,
timeDimensions: query.timeDimensions?.map(td => {
Eif (td.compareDateRange) {
// Replace compareDateRange with concrete dateRange for this period
return {
...td,
dateRange: [
period.start.toISOString(),
period.end.toISOString()
],
// Remove compareDateRange to prevent recursion
compareDateRange: undefined
}
}
return td
})
}
}
/**
* Calculate the day-of-period index for a date
* Used for aligning data points across periods in overlay mode
*/
calculatePeriodDayIndex(
date: Date | string,
periodStart: Date,
granularity: TimeGranularity
): number {
const dateObj = typeof date === 'string' ? new Date(date) : date
const startTime = periodStart.getTime()
const dateTime = dateObj.getTime()
switch (granularity) {
case 'second':
return Math.floor((dateTime - startTime) / 1000)
case 'minute':
return Math.floor((dateTime - startTime) / (1000 * 60))
case 'hour':
return Math.floor((dateTime - startTime) / (1000 * 60 * 60))
case 'day':
return Math.floor((dateTime - startTime) / (1000 * 60 * 60 * 24))
case 'week':
return Math.floor((dateTime - startTime) / (1000 * 60 * 60 * 24 * 7))
case 'month': {
const startYear = periodStart.getUTCFullYear()
const startMonth = periodStart.getUTCMonth()
const dateYear = dateObj.getUTCFullYear()
const dateMonth = dateObj.getUTCMonth()
return (dateYear - startYear) * 12 + (dateMonth - startMonth)
}
case 'quarter': {
const startYear = periodStart.getUTCFullYear()
const startQuarter = Math.floor(periodStart.getUTCMonth() / 3)
const dateYear = dateObj.getUTCFullYear()
const dateQuarter = Math.floor(dateObj.getUTCMonth() / 3)
return (dateYear - startYear) * 4 + (dateQuarter - startQuarter)
}
case 'year':
return dateObj.getUTCFullYear() - periodStart.getUTCFullYear()
default:
// Default to days
return Math.floor((dateTime - startTime) / (1000 * 60 * 60 * 24))
}
}
/**
* Add period metadata to result rows
*/
addPeriodMetadata(
data: Record<string, unknown>[],
period: NormalizedPeriod,
timeDimensionKey: string,
granularity: TimeGranularity
): ComparisonResultRow[] {
return data.map(row => {
const timeDimensionValue = row[timeDimensionKey]
let periodDayIndex = 0
Eif (timeDimensionValue) {
const dateValue = typeof timeDimensionValue === 'string'
? new Date(timeDimensionValue)
: timeDimensionValue instanceof Date
? timeDimensionValue
: null
Eif (dateValue && !isNaN(dateValue.getTime())) {
periodDayIndex = this.calculatePeriodDayIndex(
dateValue,
period.start,
granularity
)
}
}
return {
...row,
__period: period.label,
__periodIndex: period.index,
__periodDayIndex: periodDayIndex
} as ComparisonResultRow
})
}
/**
* Merge results from multiple period queries
* Adds period metadata and creates combined result with annotation
*/
mergeComparisonResults(
periodResults: Array<{ result: QueryResult; period: NormalizedPeriod }>,
timeDimension: TimeDimension,
granularity: TimeGranularity
): QueryResult {
const allData: ComparisonResultRow[] = []
let mergedAnnotation = {
measures: {} as Record<string, any>,
dimensions: {} as Record<string, any>,
segments: {} as Record<string, any>,
timeDimensions: {} as Record<string, any>
}
const periods = periodResults.map(pr => pr.period)
for (const { result, period } of periodResults) {
// Add period metadata to each row
const rowsWithMetadata = this.addPeriodMetadata(
result.data,
period,
timeDimension.dimension,
granularity
)
allData.push(...rowsWithMetadata)
// Merge annotations (they should be the same across periods)
mergedAnnotation = {
measures: { ...mergedAnnotation.measures, ...result.annotation.measures },
dimensions: { ...mergedAnnotation.dimensions, ...result.annotation.dimensions },
segments: { ...mergedAnnotation.segments, ...result.annotation.segments },
timeDimensions: { ...mergedAnnotation.timeDimensions, ...result.annotation.timeDimensions }
}
}
// Add period comparison metadata
const periodMetadata: PeriodComparisonMetadata = {
ranges: periods.map(p => [
p.start.toISOString().split('T')[0],
p.end.toISOString().split('T')[0]
] as [string, string]),
labels: periods.map(p => p.label),
timeDimension: timeDimension.dimension,
granularity
}
return {
data: allData,
annotation: {
...mergedAnnotation,
periods: periodMetadata
}
}
}
/**
* Sort merged results by period index and then by time dimension
* Ensures consistent ordering for client-side processing
*/
sortComparisonResults(
data: ComparisonResultRow[],
timeDimensionKey: string
): ComparisonResultRow[] {
return [...data].sort((a, b) => {
// First sort by period index
const periodDiff = a.__periodIndex - b.__periodIndex
if (periodDiff !== 0) return periodDiff
// Then sort by time dimension
const aTime = a[timeDimensionKey]
const bTime = b[timeDimensionKey]
if (typeof aTime === 'string' && typeof bTime === 'string') {
return new Date(aTime).getTime() - new Date(bTime).getTime()
}
return 0
})
}
}
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