/* Any copyright is dedicated to the Public Domain. http://creativecommons.org/publicdomain/zero/1.0/ */ "use strict"; // Test that the HeapAnalyses{Client,Worker} can get census individuals. const COUNT = { by: "count", count: true, bytes: true }; const CENSUS_BREAKDOWN = { by: "coarseType", objects: COUNT, strings: COUNT, scripts: COUNT, other: COUNT, domNode: COUNT, }; const LABEL_BREAKDOWN = { by: "internalType", then: COUNT, }; const MAX_INDIVIDUALS = 10; add_task(async function() { const client = new HeapAnalysesClient(); const snapshotFilePath = saveNewHeapSnapshot(); await client.readHeapSnapshot(snapshotFilePath); ok(true, "Should have read the heap snapshot"); const dominatorTreeId = await client.computeDominatorTree(snapshotFilePath); ok(true, "Should have computed dominator tree"); const { report } = await client.takeCensus( snapshotFilePath, { breakdown: CENSUS_BREAKDOWN }, { asTreeNode: true } ); ok(report, "Should get a report"); let nodesWithLeafIndicesFound = 0; await (async function assertCanGetIndividuals(censusNode) { if (censusNode.reportLeafIndex !== undefined) { nodesWithLeafIndicesFound++; const response = await client.getCensusIndividuals({ dominatorTreeId, indices: DevToolsUtils.isSet(censusNode.reportLeafIndex) ? censusNode.reportLeafIndex : new Set([censusNode.reportLeafIndex]), censusBreakdown: CENSUS_BREAKDOWN, labelBreakdown: LABEL_BREAKDOWN, maxRetainingPaths: 1, maxIndividuals: MAX_INDIVIDUALS, }); dumpn(`response = ${JSON.stringify(response, null, 4)}`); equal( response.nodes.length, Math.min(MAX_INDIVIDUALS, censusNode.count), "response.nodes.length === Math.min(MAX_INDIVIDUALS, censusNode.count)" ); let lastRetainedSize = Infinity; for (const individual of response.nodes) { equal( typeof individual.nodeId, "number", "individual.nodeId should be a number" ); ok( individual.retainedSize <= lastRetainedSize, "individual.retainedSize <= lastRetainedSize" ); lastRetainedSize = individual.retainedSize; ok( individual.shallowSize, "individual.shallowSize should exist and be non-zero" ); ok(individual.shortestPaths, "individual.shortestPaths should exist"); ok( individual.shortestPaths.nodes, "individual.shortestPaths.nodes should exist" ); ok( individual.shortestPaths.edges, "individual.shortestPaths.edges should exist" ); ok(individual.label, "individual.label should exist"); } } if (censusNode.children) { for (const child of censusNode.children) { await assertCanGetIndividuals(child); } } })(report); equal( nodesWithLeafIndicesFound, 4, "Should have found a leaf for each coarse type" ); client.destroy(); });