// Ion eager fails the test below because we have not yet created any // Cache IR IC in baseline before running the content of the top-level // function. if (getJitCompilerOptions()["ion.warmup.trigger"] <= 100)
setJitCompilerOption("ion.warmup.trigger", 100);
// This test case checks that we are capable of recovering the Object.keys array // even if we optimized it away. It also checks that we indeed optimize it away // as we would expect.
// Prevent GC from cancelling/discarding Ion compilations.
gczeal(0);
function objKeysLength(obj, expected, i) { var keys = Object.keys(obj);
let len = keys.length;
assertRecoveredOnBailout(keys, true); if (i >= 99) { // bailout would hint Ion to remove everything after, making the keys // array appear like being only used by resume points.
bailout();
assertEq(arraysEqual(keys, expected), true);
} return len;
}
// This is the same test as above, except that the branch which is being removed // cause the introduction of a different resume point to be inserted in the // middle. At the moment we expect this circustances to to disable the // optimization. // // Removing this limitation would be useful but would require more verification // when applying the optimization. function objKeysLengthDiffBlock(obj, expected, i) { var keys = Object.keys(obj); if (i >= 99) { // bailout would hint Ion to remove everything after, making the keys // array appear like being only used by resume points.
bailout();
assertEq(arraysEqual(keys, expected), true);
}
let len = keys.length;
assertRecoveredOnBailout(keys, false); return len;
}
// Mutating the object in-between the call from Object.keys and the evaluation // of the length property should prevent the optimization from being reflected // as the mutation of the object would cause the a different result of // Object.keys evaluation. function objKeysLengthMutate0(obj, expected, i) { var keys = Object.keys(obj);
obj.foo = 42;
let len = keys.length;
assertRecoveredOnBailout(keys, false); if (i >= 99) {
bailout();
assertEq(arraysEqual(keys, expected), true);
} return len;
}
function objKeysLengthMutate1(obj, expected, i) { var keys = Object.keys(obj);
let len = keys.length;
assertRecoveredOnBailout(keys, false);
obj.foo = 42; if (i >= 99) {
bailout();
assertEq(arraysEqual(keys, expected), true);
} return len;
}
function objKeysLengthMutate2(obj, expected, i) { var keys = Object.keys(obj);
let len = keys.length;
assertRecoveredOnBailout(keys, false); if (i >= 99) {
bailout();
assertEq(arraysEqual(keys, expected), true);
}
obj.foo = 42; return len;
}
function objKeysLengthMutate3(obj, expected, i) { var keys = Object.keys(obj);
let len = keys.length;
assertRecoveredOnBailout(keys, true); if (i >= 99) { // When branches are pruned, Warp/Ion is not aware and would recover the // keys on bailout, and this is fine.
obj.foo = 42;
bailout();
assertEq(arraysEqual(keys, expected), true);
} return len;
}
function objKeysLengthMutate4(obj, expected, i) { // Mutating the objects ahead of keying the keys does not prevent optimizing // the keys length query, given that all side-effects are already acted by // the time we query the keys.
obj.foo = 42; var keys = Object.keys(obj);
let len = keys.length;
assertRecoveredOnBailout(keys, true); if (i >= 99) {
bailout();
assertEq(arraysEqual(keys, expected), true);
} return len;
}
function doNotInlineSideEffect() {
eval("1");
}
function objKeysLengthSideEffect0(obj, expected, i) { var keys = Object.keys(obj);
let len = keys.length;
assertRecoveredOnBailout(keys, false);
doNotInlineSideEffect(); if (i >= 99) {
bailout();
assertEq(arraysEqual(keys, expected), true);
} return len;
}
function objKeysLengthSideEffect1(obj, expected, i) { var keys = Object.keys(obj);
let len = keys.length;
assertRecoveredOnBailout(keys, false); if (i >= 99) {
bailout();
assertEq(arraysEqual(keys, expected), true);
}
doNotInlineSideEffect(); return len;
}
function objKeysLengthSideEffect2(obj, expected, i) { var keys = Object.keys(obj);
let len = keys.length;
assertRecoveredOnBailout(keys, true); if (i >= 99) { // When branches are pruned, Warp/Ion is not aware and would recover the // keys on bailout, and this is fine.
doNotInlineSideEffect();
bailout();
assertEq(arraysEqual(keys, expected), true);
} return len;
}
function objKeysLengthSideEffect3(obj, expected, i) {
doNotInlineSideEffect(); var keys = Object.keys(obj);
let len = keys.length;
assertRecoveredOnBailout(keys, true); if (i >= 99) {
bailout();
assertEq(arraysEqual(keys, expected), true);
} return len;
}
// Check what we are doing as optimizations when the object is fully known and // when it does not escape. // // Except that today, Object.keys(..) is still assumed to make side-effect // despite being removed later. function nonEscapedObjKeysLength(i) {
let obj = {a: i}; var keys = Object.keys(obj);
let len = keys.length;
assertRecoveredOnBailout(keys, true);
assertRecoveredOnBailout(obj, false); if (i >= 99) {
bailout();
assertEq(arraysEqual(keys, ["a"]), true);
} return len;
}
// Prevent compilation of the top-level.
eval(`${arraysEqual}`);
let obj = {a: 0, b: 1, c: 2, d: 3};
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