import type {TraceTree} from './traceTree'; import {TraceTreeNode} from './traceTreeNode'; export class ParentAutogroupNode extends TraceTreeNode { head: TraceTreeNode; tail: TraceTreeNode; groupCount: number = 0; profiles: TraceTree.Profile[] = []; private _autogroupedSegments: [number, number][] | undefined; constructor( parent: TraceTreeNode | null, node: TraceTree.ChildrenAutogroup, metadata: TraceTree.Metadata, head: TraceTreeNode, tail: TraceTreeNode ) { super(parent, node, metadata); this.expanded = false; this.head = head; this.tail = tail; } get autogroupedSegments(): [number, number][] { if (this._autogroupedSegments) { return this._autogroupedSegments; } const children: TraceTreeNode[] = []; let start: TraceTreeNode | undefined = this.head; while (start && start !== this.tail) { children.push(start); start = start.children[0]; } children.push(this.tail); this._autogroupedSegments = computeCollapsedBarSpace(children); return this._autogroupedSegments; } } // Returns a list of segments from a grouping sequence that can be used to render a span bar chart // It looks for gaps between spans and creates a segment for each gap. If there are no gaps, it // merges the n and n+1 segments. export function computeCollapsedBarSpace( nodes: TraceTreeNode[] ): [number, number][] { if (nodes.length === 0) { return []; } const first = nodes[0]; const segments: [number, number][] = []; let start = first.space[0]; let end = first.space[0] + first.space[1]; let i = 1; while (i < nodes.length) { const next = nodes[i]; if (next.space[0] > end) { segments.push([start, end - start]); start = next.space[0]; end = next.space[0] + next.space[1]; i++; } else { end = next.space[0] + next.space[1]; i++; } } segments.push([start, end - start]); return segments; }