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* Calculated Measure Resolver
*
* Handles dependency resolution for calculated measures:
* - Extracts {member} references from calculatedSql templates
* - Builds dependency graph
* - Performs topological sorting to determine calculation order
* - Detects circular dependencies
*/
import type { Cube, Measure } from './types/cube'
/**
* Dependency information for a calculated measure
*/
export interface MeasureDependency {
/** Full measure name (e.g., "Cube.measure" or "measure") */
measureName: string
/** Referenced cube name (null if same cube) */
cubeName: string | null
/** Referenced field name */
fieldName: string
}
/**
* Dependency graph node
*/
interface GraphNode {
/** Full measure identifier */
id: string
/** List of dependencies (what this measure depends on) */
dependencies: Set<string>
/** Incoming edge count for topological sort */
inDegree: number
}
/**
* Calculated Measure Resolver
* Manages dependency resolution for calculated measures
*/
export class CalculatedMeasureResolver {
private dependencyGraph: Map<string, GraphNode>
private cubes: Map<string, Cube>
constructor(cubes: Map<string, Cube> | Cube) {
this.cubes = cubes instanceof Map ? cubes : new Map([[cubes.name, cubes]])
this.dependencyGraph = new Map()
}
/**
* Extract {member} references from calculatedSql template
* Supports both {measure} and {Cube.measure} syntax
*
* @param calculatedSql - Template string with {member} references
* @returns Array of dependency information
*/
extractDependencies(calculatedSql: string): MeasureDependency[] {
// Match {member} or {Cube.member} patterns
const regex = /\{([^}]+)\}/g
const matches = calculatedSql.matchAll(regex)
const dependencies: MeasureDependency[] = []
for (const match of matches) {
const memberRef = match[1].trim()
// Parse member reference
Iif (memberRef.includes('.')) {
// Cross-cube reference: {Cube.measure}
const [cubeName, fieldName] = memberRef.split('.')
dependencies.push({
measureName: memberRef,
cubeName: cubeName.trim(),
fieldName: fieldName.trim()
})
} else {
// Same-cube reference: {measure}
dependencies.push({
measureName: memberRef,
cubeName: null,
fieldName: memberRef
})
}
}
return dependencies
}
/**
* Build dependency graph for all calculated measures in a cube
*
* @param cube - The cube containing measures
*/
buildGraph(cube: Cube): void {
for (const [fieldName, measure] of Object.entries(cube.measures)) {
if (measure.type === 'calculated' && measure.calculatedSql) {
const measureId = `${cube.name}.${fieldName}`
// Extract dependencies
const deps = this.extractDependencies(measure.calculatedSql)
const depSet = new Set<string>()
for (const dep of deps) {
// Resolve to full measure ID
const depCubeName = dep.cubeName || cube.name
const depId = `${depCubeName}.${dep.fieldName}`
depSet.add(depId)
}
// Add to graph
this.dependencyGraph.set(measureId, {
id: measureId,
dependencies: depSet,
inDegree: 0
})
}
}
// Calculate in-degrees
this.calculateInDegrees()
}
/**
* Build dependency graph for multiple cubes
*
* @param cubes - Map of cubes to analyze
*/
buildGraphForMultipleCubes(cubes: Map<string, Cube>): void {
for (const cube of cubes.values()) {
this.buildGraph(cube)
}
}
/**
* Calculate in-degree for each node (number of measures depending on it)
*/
private calculateInDegrees(): void {
// Reset all in-degrees to 0
for (const node of this.dependencyGraph.values()) {
node.inDegree = 0
}
// Count incoming edges
for (const node of this.dependencyGraph.values()) {
for (const depId of node.dependencies) {
const depNode = this.dependencyGraph.get(depId)
if (depNode) {
depNode.inDegree++
}
}
}
}
/**
* Perform topological sort using Kahn's algorithm
* Returns measures in dependency order (dependencies first)
*
* @param measureNames - List of measure names to sort
* @returns Sorted array of measure names
* @throws Error if circular dependency detected
*/
topologicalSort(measureNames: string[]): string[] {
// Build subgraph for requested measures only
const subgraph = new Map<string, GraphNode>()
const queue: string[] = []
const sorted: string[] = []
// Initialize subgraph with dependencies copied from main graph
for (const measureName of measureNames) {
const node = this.dependencyGraph.get(measureName)
Eif (node) {
subgraph.set(measureName, {
id: node.id,
dependencies: new Set(node.dependencies),
inDegree: 0 // Will recalculate below
})
}
}
// Calculate in-degrees within the subgraph
// In-degree = number of dependencies that are IN the subgraph
for (const node of subgraph.values()) {
let inDegree = 0
for (const depId of node.dependencies) {
if (subgraph.has(depId)) {
inDegree++
}
}
node.inDegree = inDegree
}
// Find nodes with no dependencies within the subgraph (in-degree = 0)
// These are ready to be processed immediately
for (const [id, node] of subgraph) {
if (node.inDegree === 0) {
queue.push(id)
}
}
// Process queue using Kahn's algorithm
while (queue.length > 0) {
const currentId = queue.shift()!
sorted.push(currentId)
// Find all nodes in the subgraph that depend on the current node
// and decrease their in-degree since we've now processed their dependency
for (const [nodeId, node] of subgraph) {
if (node.dependencies.has(currentId)) {
node.inDegree--
if (node.inDegree === 0) {
queue.push(nodeId)
}
}
}
}
// Check if all nodes were processed
Iif (sorted.length < subgraph.size) {
const cycle = this.detectCycle()
throw new Error(
`Circular dependency detected in calculated measures: ${cycle ? cycle.join(' -> ') : 'unknown cycle'}`
)
}
return sorted
}
/**
* Detect circular dependencies using DFS
* Returns the cycle path if found, null otherwise
*
* @returns Array representing the cycle, or null
*/
detectCycle(): string[] | null {
const visited = new Set<string>()
const recursionStack = new Set<string>()
const path: string[] = []
for (const nodeId of this.dependencyGraph.keys()) {
Eif (!visited.has(nodeId)) {
const cycle = this.dfs(nodeId, visited, recursionStack, path)
if (cycle) {
return cycle
}
}
}
return null
}
/**
* DFS helper for cycle detection
*/
private dfs(
nodeId: string,
visited: Set<string>,
recursionStack: Set<string>,
path: string[]
): string[] | null {
visited.add(nodeId)
recursionStack.add(nodeId)
path.push(nodeId)
const node = this.dependencyGraph.get(nodeId)
if (!node) {
path.pop()
recursionStack.delete(nodeId)
return null
}
for (const depId of node.dependencies) {
if (!visited.has(depId)) {
const cycle = this.dfs(depId, visited, recursionStack, path)
if (cycle) {
return cycle
}
} else if (recursionStack.has(depId)) {
// Found a cycle
const cycleStart = path.indexOf(depId)
return [...path.slice(cycleStart), depId]
}
}
path.pop()
recursionStack.delete(nodeId)
return null
}
/**
* Get all dependencies for a specific measure (direct and transitive)
*
* @param measureName - Full measure name (e.g., "Cube.measure")
* @returns Set of all dependency measure names
*/
getAllDependencies(measureName: string): Set<string> {
const allDeps = new Set<string>()
const visited = new Set<string>()
const collectDeps = (id: string) => {
if (visited.has(id)) return
visited.add(id)
const node = this.dependencyGraph.get(id)
if (!node) return
for (const depId of node.dependencies) {
allDeps.add(depId)
collectDeps(depId)
}
}
collectDeps(measureName)
return allDeps
}
/**
* Validate that all dependencies exist
*
* @param cube - The cube to validate
* @throws Error if dependencies are missing
*/
validateDependencies(cube: Cube): void {
for (const [fieldName, measure] of Object.entries(cube.measures)) {
if (measure.type === 'calculated' && measure.calculatedSql) {
const deps = this.extractDependencies(measure.calculatedSql)
for (const dep of deps) {
const targetCubeName = dep.cubeName || cube.name
const targetCube = this.cubes.get(targetCubeName)
Iif (!targetCube) {
throw new Error(
`Calculated measure '${cube.name}.${fieldName}' references unknown cube '${targetCubeName}'`
)
}
const targetMeasure = targetCube.measures[dep.fieldName]
if (!targetMeasure) {
throw new Error(
`Calculated measure '${cube.name}.${fieldName}' references unknown measure '${dep.measureName}'`
)
}
// Prevent self-reference
if (targetCubeName === cube.name && dep.fieldName === fieldName) {
throw new Error(
`Calculated measure '${cube.name}.${fieldName}' cannot reference itself`
)
}
}
}
}
}
/**
* Auto-populate dependencies array for calculated measures
* Updates the measure objects with detected dependencies
*
* @param cube - The cube to update
*/
populateDependencies(cube: Cube): void {
for (const [, measure] of Object.entries(cube.measures)) {
if (measure.type === 'calculated' && measure.calculatedSql && !measure.dependencies) {
const deps = this.extractDependencies(measure.calculatedSql)
measure.dependencies = deps.map(d => d.measureName)
}
}
}
/**
* Check if a measure is a calculated measure
*
* @param measure - The measure to check
* @returns True if the measure is calculated
*/
static isCalculatedMeasure(measure: Measure): boolean {
return measure.type === 'calculated' && !!measure.calculatedSql
}
}
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