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/* Any copyright is dedicated to the Public Domain.
http://creativecommons.org/publicdomain/zero/1.0/ */
// Test that filtered and inverted allocation stack census trees are sorted
// properly.
function run_test() {
const countBreakdown = { by: "count", count: true, bytes: true };
const BREAKDOWN = {
by: "allocationStack",
then: countBreakdown,
noStack: countBreakdown,
};
const stacks = [];
function foo(depth = 1) {
stacks.push(saveStack(depth));
bar(depth + 1);
baz(depth + 1);
stacks.push(saveStack(depth));
}
function bar(depth = 1) {
stacks.push(saveStack(depth));
stacks.push(saveStack(depth));
}
function baz(depth = 1) {
stacks.push(saveStack(depth));
bang(depth + 1);
stacks.push(saveStack(depth));
}
function bang(depth = 1) {
stacks.push(saveStack(depth));
stacks.push(saveStack(depth));
stacks.push(saveStack(depth));
}
foo();
bar();
baz();
bang();
const REPORT = new Map(stacks.map((s, i) => {
return [s, {
count: i + 1,
bytes: (i + 1) * 10
}];
}));
const tree = censusReportToCensusTreeNode(BREAKDOWN, REPORT, {
filter: "baz",
invert: true
});
dumpn("tree = " + JSON.stringify(tree, savedFrameReplacer, 4));
(function assertSortedBySelf(node) {
if (node.children) {
let lastSelfBytes = Infinity;
for (let child of node.children) {
ok(child.bytes <= lastSelfBytes, `${child.bytes} <= ${lastSelfBytes}`);
lastSelfBytes = child.bytes;
assertSortedBySelf(child);
}
}
}(tree));
}
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