1 files changed, 176 insertions, 0 deletions

diff --git a/devtools/client/performance/test/unit/test_tree-model-06.js b/devtools/client/performance/test/unit/test_tree-model-06.js
new file mode 100644
index 000000000..7a678852c
--- /dev/null
+++ b/devtools/client/performance/test/unit/test_tree-model-06.js
@@ -0,0 +1,176 @@
+/* Any copyright is dedicated to the Public Domain.
+   http://creativecommons.org/publicdomain/zero/1.0/ */
+"use strict";
+
+/**
+ * Tests that when constructing FrameNodes, if optimization data is available,
+ * the FrameNodes have the correct optimization data after iterating over samples,
+ * and only youngest frames capture optimization data.
+ */
+
+function run_test() {
+  run_next_test();
+}
+
+add_task(function test() {
+  let { ThreadNode } = require("devtools/client/performance/modules/logic/tree-model");
+  let root = getFrameNodePath(new ThreadNode(gThread, { startTime: 0,
+                                                        endTime: 30 }), "(root)");
+
+  let A = getFrameNodePath(root, "A");
+  let B = getFrameNodePath(A, "B");
+  let C = getFrameNodePath(B, "C");
+  let Aopts = A.getOptimizations();
+  let Bopts = B.getOptimizations();
+  let Copts = C.getOptimizations();
+
+  ok(!Aopts, "A() was never youngest frame, so should not have optimization data");
+
+  equal(Bopts.length, 2, "B() only has optimization data when it was a youngest frame");
+
+  // Check a few properties on the OptimizationSites.
+  let optSitesObserved = new Set();
+  for (let opt of Bopts) {
+    if (opt.data.line === 12) {
+      equal(opt.samples, 2, "Correct amount of samples for B()'s first opt site");
+      equal(opt.data.attempts.length, 3, "First opt site has 3 attempts");
+      equal(opt.data.attempts[0].strategy, "SomeGetter1", "inflated strategy name");
+      equal(opt.data.attempts[0].outcome, "Failure1", "inflated outcome name");
+      equal(opt.data.types[0].typeset[0].keyedBy, "constructor", "inflates type info");
+      optSitesObserved.add("first");
+    } else {
+      equal(opt.samples, 1, "Correct amount of samples for B()'s second opt site");
+      optSitesObserved.add("second");
+    }
+  }
+
+  ok(optSitesObserved.has("first"), "first opt site for B() was checked");
+  ok(optSitesObserved.has("second"), "second opt site for B() was checked");
+
+  equal(Copts.length, 1, "C() always youngest frame, so has optimization data");
+});
+
+var gUniqueStacks = new RecordingUtils.UniqueStacks();
+
+function uniqStr(s) {
+  return gUniqueStacks.getOrAddStringIndex(s);
+}
+
+var gThread = RecordingUtils.deflateThread({
+  samples: [{
+    time: 0,
+    frames: [
+      { location: "(root)" }
+    ]
+  }, {
+    time: 10,
+    frames: [
+      { location: "(root)" },
+      { location: "A" },
+      { location: "B_LEAF_1" }
+    ]
+  }, {
+    time: 15,
+    frames: [
+      { location: "(root)" },
+      { location: "A" },
+      { location: "B_NOTLEAF" },
+      { location: "C" },
+    ]
+  }, {
+    time: 20,
+    frames: [
+      { location: "(root)" },
+      { location: "A" },
+      { location: "B_LEAF_2" }
+    ]
+  }, {
+    time: 25,
+    frames: [
+      { location: "(root)" },
+      { location: "A" },
+      { location: "B_LEAF_2" }
+    ]
+  }],
+  markers: []
+}, gUniqueStacks);
+
+var gRawSite1 = {
+  line: 12,
+  column: 2,
+  types: [{
+    mirType: uniqStr("Object"),
+    site: uniqStr("B (http://foo/bar:10)"),
+    typeset: [{
+      keyedBy: uniqStr("constructor"),
+      name: uniqStr("Foo"),
+      location: uniqStr("B (http://foo/bar:10)")
+    }, {
+      keyedBy: uniqStr("primitive"),
+      location: uniqStr("self-hosted")
+    }]
+  }],
+  attempts: {
+    schema: {
+      outcome: 0,
+      strategy: 1
+    },
+    data: [
+      [uniqStr("Failure1"), uniqStr("SomeGetter1")],
+      [uniqStr("Failure2"), uniqStr("SomeGetter2")],
+      [uniqStr("Inlined"), uniqStr("SomeGetter3")]
+    ]
+  }
+};
+
+var gRawSite2 = {
+  line: 22,
+  types: [{
+    mirType: uniqStr("Int32"),
+    site: uniqStr("Receiver")
+  }],
+  attempts: {
+    schema: {
+      outcome: 0,
+      strategy: 1
+    },
+    data: [
+      [uniqStr("Failure1"), uniqStr("SomeGetter1")],
+      [uniqStr("Failure2"), uniqStr("SomeGetter2")],
+      [uniqStr("Failure3"), uniqStr("SomeGetter3")]
+    ]
+  }
+};
+
+function serialize(x) {
+  return JSON.parse(JSON.stringify(x));
+}
+
+gThread.frameTable.data.forEach((frame) => {
+  const LOCATION_SLOT = gThread.frameTable.schema.location;
+  const OPTIMIZATIONS_SLOT = gThread.frameTable.schema.optimizations;
+
+  let l = gThread.stringTable[frame[LOCATION_SLOT]];
+  switch (l) {
+    case "A":
+      frame[OPTIMIZATIONS_SLOT] = serialize(gRawSite1);
+      break;
+  // Rename some of the location sites so we can register different
+  // frames with different opt sites
+    case "B_LEAF_1":
+      frame[OPTIMIZATIONS_SLOT] = serialize(gRawSite2);
+      frame[LOCATION_SLOT] = uniqStr("B");
+      break;
+    case "B_LEAF_2":
+      frame[OPTIMIZATIONS_SLOT] = serialize(gRawSite1);
+      frame[LOCATION_SLOT] = uniqStr("B");
+      break;
+    case "B_NOTLEAF":
+      frame[OPTIMIZATIONS_SLOT] = serialize(gRawSite1);
+      frame[LOCATION_SLOT] = uniqStr("B");
+      break;
+    case "C":
+      frame[OPTIMIZATIONS_SLOT] = serialize(gRawSite1);
+      break;
+  }
+});