344 lines
11 KiB
TypeScript
344 lines
11 KiB
TypeScript
import {
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deepNormalizeScriptCov,
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normalizeFunctionCov,
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normalizeProcessCov,
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normalizeRangeTree,
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normalizeScriptCov,
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} from "./normalize";
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import { RangeTree } from "./range-tree";
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import { FunctionCov, ProcessCov, Range, RangeCov, ScriptCov } from "./types";
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/**
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* Merges a list of process coverages.
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*
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* The result is normalized.
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* The input values may be mutated, it is not safe to use them after passing
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* them to this function.
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* The computation is synchronous.
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*
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* @param processCovs Process coverages to merge.
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* @return Merged process coverage.
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*/
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export function mergeProcessCovs(processCovs: ReadonlyArray<ProcessCov>): ProcessCov {
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if (processCovs.length === 0) {
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return {result: []};
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}
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const urlToScripts: Map<string, ScriptCov[]> = new Map();
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for (const processCov of processCovs) {
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for (const scriptCov of processCov.result) {
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let scriptCovs: ScriptCov[] | undefined = urlToScripts.get(scriptCov.url);
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if (scriptCovs === undefined) {
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scriptCovs = [];
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urlToScripts.set(scriptCov.url, scriptCovs);
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}
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scriptCovs.push(scriptCov);
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}
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}
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const result: ScriptCov[] = [];
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for (const scripts of urlToScripts.values()) {
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// assert: `scripts.length > 0`
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result.push(mergeScriptCovs(scripts)!);
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}
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const merged: ProcessCov = {result};
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normalizeProcessCov(merged);
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return merged;
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}
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/**
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* Merges a list of matching script coverages.
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*
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* Scripts are matching if they have the same `url`.
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* The result is normalized.
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* The input values may be mutated, it is not safe to use them after passing
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* them to this function.
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* The computation is synchronous.
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*
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* @param scriptCovs Process coverages to merge.
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* @return Merged script coverage, or `undefined` if the input list was empty.
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*/
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export function mergeScriptCovs(scriptCovs: ReadonlyArray<ScriptCov>): ScriptCov | undefined {
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if (scriptCovs.length === 0) {
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return undefined;
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} else if (scriptCovs.length === 1) {
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const merged: ScriptCov = scriptCovs[0];
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deepNormalizeScriptCov(merged);
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return merged;
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}
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const first: ScriptCov = scriptCovs[0];
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const scriptId: string = first.scriptId;
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const url: string = first.url;
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const rangeToFuncs: Map<string, FunctionCov[]> = new Map();
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for (const scriptCov of scriptCovs) {
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for (const funcCov of scriptCov.functions) {
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const rootRange: string = stringifyFunctionRootRange(funcCov);
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let funcCovs: FunctionCov[] | undefined = rangeToFuncs.get(rootRange);
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if (funcCovs === undefined ||
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// if the entry in rangeToFuncs is function-level granularity and
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// the new coverage is block-level, prefer block-level.
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(!funcCovs[0].isBlockCoverage && funcCov.isBlockCoverage)) {
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funcCovs = [];
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rangeToFuncs.set(rootRange, funcCovs);
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} else if (funcCovs[0].isBlockCoverage && !funcCov.isBlockCoverage) {
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// if the entry in rangeToFuncs is block-level granularity, we should
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// not append function level granularity.
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continue;
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}
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funcCovs.push(funcCov);
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}
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}
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const functions: FunctionCov[] = [];
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for (const funcCovs of rangeToFuncs.values()) {
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// assert: `funcCovs.length > 0`
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functions.push(mergeFunctionCovs(funcCovs)!);
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}
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const merged: ScriptCov = {scriptId, url, functions};
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normalizeScriptCov(merged);
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return merged;
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}
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/**
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* Returns a string representation of the root range of the function.
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*
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* This string can be used to match function with same root range.
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* The string is derived from the start and end offsets of the root range of
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* the function.
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* This assumes that `ranges` is non-empty (true for valid function coverages).
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*
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* @param funcCov Function coverage with the range to stringify
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* @internal
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*/
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function stringifyFunctionRootRange(funcCov: Readonly<FunctionCov>): string {
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const rootRange: RangeCov = funcCov.ranges[0];
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return `${rootRange.startOffset.toString(10)};${rootRange.endOffset.toString(10)}`;
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}
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/**
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* Merges a list of matching function coverages.
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*
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* Functions are matching if their root ranges have the same span.
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* The result is normalized.
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* The input values may be mutated, it is not safe to use them after passing
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* them to this function.
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* The computation is synchronous.
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*
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* @param funcCovs Function coverages to merge.
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* @return Merged function coverage, or `undefined` if the input list was empty.
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*/
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export function mergeFunctionCovs(funcCovs: ReadonlyArray<FunctionCov>): FunctionCov | undefined {
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if (funcCovs.length === 0) {
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return undefined;
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} else if (funcCovs.length === 1) {
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const merged: FunctionCov = funcCovs[0];
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normalizeFunctionCov(merged);
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return merged;
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}
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const functionName: string = funcCovs[0].functionName;
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const trees: RangeTree[] = [];
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for (const funcCov of funcCovs) {
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// assert: `fn.ranges.length > 0`
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// assert: `fn.ranges` is sorted
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trees.push(RangeTree.fromSortedRanges(funcCov.ranges)!);
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}
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// assert: `trees.length > 0`
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const mergedTree: RangeTree = mergeRangeTrees(trees)!;
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normalizeRangeTree(mergedTree);
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const ranges: RangeCov[] = mergedTree.toRanges();
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const isBlockCoverage: boolean = !(ranges.length === 1 && ranges[0].count === 0);
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const merged: FunctionCov = {functionName, ranges, isBlockCoverage};
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// assert: `merged` is normalized
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return merged;
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}
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/**
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* @precondition Same `start` and `end` for all the trees
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*/
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function mergeRangeTrees(trees: ReadonlyArray<RangeTree>): RangeTree | undefined {
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if (trees.length <= 1) {
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return trees[0];
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}
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const first: RangeTree = trees[0];
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let delta: number = 0;
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for (const tree of trees) {
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delta += tree.delta;
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}
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const children: RangeTree[] = mergeRangeTreeChildren(trees);
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return new RangeTree(first.start, first.end, delta, children);
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}
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class RangeTreeWithParent {
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readonly parentIndex: number;
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readonly tree: RangeTree;
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constructor(parentIndex: number, tree: RangeTree) {
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this.parentIndex = parentIndex;
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this.tree = tree;
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}
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}
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class StartEvent {
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readonly offset: number;
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readonly trees: RangeTreeWithParent[];
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constructor(offset: number, trees: RangeTreeWithParent[]) {
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this.offset = offset;
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this.trees = trees;
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}
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static compare(a: StartEvent, b: StartEvent): number {
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return a.offset - b.offset;
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}
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}
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class StartEventQueue {
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private readonly queue: StartEvent[];
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private nextIndex: number;
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private pendingOffset: number;
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private pendingTrees: RangeTreeWithParent[] | undefined;
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private constructor(queue: StartEvent[]) {
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this.queue = queue;
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this.nextIndex = 0;
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this.pendingOffset = 0;
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this.pendingTrees = undefined;
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}
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static fromParentTrees(parentTrees: ReadonlyArray<RangeTree>): StartEventQueue {
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const startToTrees: Map<number, RangeTreeWithParent[]> = new Map();
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for (const [parentIndex, parentTree] of parentTrees.entries()) {
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for (const child of parentTree.children) {
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let trees: RangeTreeWithParent[] | undefined = startToTrees.get(child.start);
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if (trees === undefined) {
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trees = [];
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startToTrees.set(child.start, trees);
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}
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trees.push(new RangeTreeWithParent(parentIndex, child));
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}
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}
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const queue: StartEvent[] = [];
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for (const [startOffset, trees] of startToTrees) {
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queue.push(new StartEvent(startOffset, trees));
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}
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queue.sort(StartEvent.compare);
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return new StartEventQueue(queue);
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}
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setPendingOffset(offset: number): void {
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this.pendingOffset = offset;
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}
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pushPendingTree(tree: RangeTreeWithParent): void {
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if (this.pendingTrees === undefined) {
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this.pendingTrees = [];
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}
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this.pendingTrees.push(tree);
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}
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next(): StartEvent | undefined {
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const pendingTrees: RangeTreeWithParent[] | undefined = this.pendingTrees;
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const nextEvent: StartEvent | undefined = this.queue[this.nextIndex];
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if (pendingTrees === undefined) {
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this.nextIndex++;
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return nextEvent;
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} else if (nextEvent === undefined) {
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this.pendingTrees = undefined;
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return new StartEvent(this.pendingOffset, pendingTrees);
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} else {
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if (this.pendingOffset < nextEvent.offset) {
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this.pendingTrees = undefined;
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return new StartEvent(this.pendingOffset, pendingTrees);
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} else {
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if (this.pendingOffset === nextEvent.offset) {
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this.pendingTrees = undefined;
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for (const tree of pendingTrees) {
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nextEvent.trees.push(tree);
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}
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}
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this.nextIndex++;
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return nextEvent;
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}
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}
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}
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}
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function mergeRangeTreeChildren(parentTrees: ReadonlyArray<RangeTree>): RangeTree[] {
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const result: RangeTree[] = [];
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const startEventQueue: StartEventQueue = StartEventQueue.fromParentTrees(parentTrees);
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const parentToNested: Map<number, RangeTree[]> = new Map();
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let openRange: Range | undefined;
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while (true) {
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const event: StartEvent | undefined = startEventQueue.next();
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if (event === undefined) {
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break;
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}
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if (openRange !== undefined && openRange.end <= event.offset) {
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result.push(nextChild(openRange, parentToNested));
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openRange = undefined;
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}
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if (openRange === undefined) {
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let openRangeEnd: number = event.offset + 1;
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for (const {parentIndex, tree} of event.trees) {
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openRangeEnd = Math.max(openRangeEnd, tree.end);
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insertChild(parentToNested, parentIndex, tree);
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}
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startEventQueue.setPendingOffset(openRangeEnd);
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openRange = {start: event.offset, end: openRangeEnd};
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} else {
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for (const {parentIndex, tree} of event.trees) {
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if (tree.end > openRange.end) {
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const right: RangeTree = tree.split(openRange.end);
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startEventQueue.pushPendingTree(new RangeTreeWithParent(parentIndex, right));
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}
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insertChild(parentToNested, parentIndex, tree);
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}
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}
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}
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if (openRange !== undefined) {
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result.push(nextChild(openRange, parentToNested));
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}
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return result;
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}
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function insertChild(parentToNested: Map<number, RangeTree[]>, parentIndex: number, tree: RangeTree): void {
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let nested: RangeTree[] | undefined = parentToNested.get(parentIndex);
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if (nested === undefined) {
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nested = [];
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parentToNested.set(parentIndex, nested);
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}
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nested.push(tree);
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}
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function nextChild(openRange: Range, parentToNested: Map<number, RangeTree[]>): RangeTree {
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const matchingTrees: RangeTree[] = [];
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for (const nested of parentToNested.values()) {
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if (nested.length === 1 && nested[0].start === openRange.start && nested[0].end === openRange.end) {
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matchingTrees.push(nested[0]);
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} else {
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matchingTrees.push(new RangeTree(
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openRange.start,
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openRange.end,
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0,
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nested,
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));
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}
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}
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parentToNested.clear();
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return mergeRangeTrees(matchingTrees)!;
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}
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