blob: cf6b0f8ca5616d531dac5a2e20cf80d8712b0f74 [file] [log] [blame]
if (!this.alert) {
debug = print;
description = print;
}
description(
'This test checks stack trace corectness in special cases.'
);
function printStack(stackTrace) {
debug("--> Stack Trace:")
stackTrace = stackTrace.split("\n");
var length = Math.min(stackTrace.length, 100);
for (var i = 0; i < length; i++) {
var indexOfAt = stackTrace[i].indexOf('@')
var indexOfLastSlash = stackTrace[i].lastIndexOf('/');
if (indexOfLastSlash == -1)
indexOfLastSlash = indexOfAt
var functionName = stackTrace[i].substring(0, indexOfAt);
var fileName = stackTrace[i].substring(indexOfLastSlash + 1);
debug(" " + i + " " + functionName + " at " + fileName);
}
debug('');
}
function hostThrower() { Element.prototype.appendChild.call({ }, [{ }]); }
function callbacker(f) { [0].map(f); }
function outer(errorName) { inner(errorName); }
function inner(errorName) { throw new Error("Error in " + errorName); }
function evaler(code) { eval(code); }
function normalOuter() { normalInner(); }
function normalInner() { if(thisVarDoesntExist) failIfTrue("shouldFailBeforeThis") };
function scripterInner() { htmlInner(); }
function scripterOuter() { htmlOuter(); }
// Expected functions in stack trace
// Normal Case
try { normalOuter() } catch (e) { printStack(e.stack) } // normalOuter -> normalInner
// Eval Case
try { evaler("inner('inner eval');"); } catch (e) { printStack(e.stack) } // evaler -> eval -> inner
try { evaler("outer('outer eval');"); } catch (e) { printStack(e.stack) } // evaler -> eval -> outer -> inner
// Function Callback Case
try { callbacker(inner('inner map')); } catch (e) { printStack(e.stack); } // callbacker -> map -> inner
try { callbacker(outer('outer map')); } catch (e) { printStack(e.stack); } // callbacker -> map -> outer -> inner
// Host Code Case
try { hostThrower(); } catch (e) { printStack(e.stack); } // hostThrower
try { scripterInner(); } catch (e) { printStack(e.stack) } // program -> scripter -> inner
try { scripterOuter(); } catch (e) { printStack(e.stack) } // program -> scripter -> outer -> inner
function selfRecursive1() { selfRecursive1();
}
try { selfRecursive1(); } catch (e) { printStack(e.stack) } // selfRecursive1 -> selfRecursive1 -> selfRecursive1 -> selfRecursive1 ...
function selfRecursive2() {
// A little work to make the DFG kick in
for (var i = 0; i < 10; i++) {
if (i == 9)
selfRecursive2();
}
}
try { selfRecursive2(); } catch (e) { printStack(e.stack) } // selfRecursive2 -> selfRecursive2 -> selfRecursive2 -> selfRecursive2 ...
function selfRecursive3() {
eval("selfRecursive3()");
}
try { selfRecursive3(); } catch (e) { printStack(e.stack) } // selfRecursive3 -> eval -> selfRecursive3 -> eval ...
var callCount = 0;
function throwError() {
throw {};
}
var object = {
get getter1() {
var o = {
valueOf: function() {
throwError()
}
};
+o;
},
get getter2() {
var o = {
valueOf: throwError
};
+o;
},
get getter3() {
var o1 = {
valueOf: throwError
};
var o2 = {
valueOf: function () {
throwError();
}
};
if (callCount == 9998)
+o1;
if (callCount == 9999)
+o2;
},
nonInlineable : function () {
if (0) return [arguments, function(){}];
++callCount;
if (callCount == 1) {
this.getter1;
} else if (callCount == 2) {
this.getter2;
} else {
this.getter3;
}
},
inlineable : function () {
this.nonInlineable();
}
}
function yetAnotherInlinedCall(o) {
o.inlineable();
}
function makeInlinableCall(o) {
for (var i = 0; i < 10000; i++) {
new yetAnotherInlinedCall(o);
}
}
for (var k = 0; k < 4; k++) {
try {
function g() {
var j = 0;
for (var i = 0; i < 1000; i++) {
j++;
makeInlinableCall(object);
}
}
[1].map(g);
} catch (e) {
printStack(e.stack);
}
}
function h() {
if (callCount++ == 1000)
throw {};
if (callCount > 1000) {
[].map.apply(undefined, throwError);
}
}
function mapTest(a) {
a.map(h);
}
function mapTestDriver() {
var a = [1,2,3];
for (var i = 0; i < 2000; i++)
mapTest(a);
}
try {
callCount = 0;
mapTestDriver()
} catch(e) {
printStack(e.stack);
}
try {
mapTestDriver()
} catch(e) {
printStack(e.stack);
}
var dfgFunctionShouldThrow = false;
function dfgFunction() {
if (dfgFunctionShouldThrow) {
dfgFunctionShouldThrow = false;
throwError();
}
}
for (var k = 0; k < 1000; k++)
dfgFunction();
try {
dfgFunctionShouldThrow = true;
[1,2,3,4].map(dfgFunction);
} catch (e) {
printStack(e.stack);
}
try {
var o = { };
o.__defineGetter__("g", dfgFunction);
function f(o) {
o.g;
}
for (var k = 0; k < 1000; k++)
f(o);
dfgFunctionShouldThrow = true;
f(o);
} catch (e) {
printStack(e.stack);
}
var someValue = null;
function callNonCallable() {
someValue();
}
for (var i = 0; i < 100; i++) {
try {
callNonCallable();
} catch (e) {
}
}
function dfgTest(f) {
dfgCount = 0;
while (dfgCount++ < 1000) {
try {
f();
} catch (e) {
printStack(e.stack)
return;
}
}
}
function inlineableThrow() {
if (dfgCount > 500) throw {};
}
var dfgThing = {
get willThrow() {
if (dfgCount > 500)
throw {};
},
get willThrowEventually() {
inlineableThrow();
},
willThrowFunc: function () { if (dfgCount > 500) throw {}; },
willThrowEventuallyFunc: function () { inlineableThrow(); }
}
dfgThing.__defineGetter__("hostWillThrow", hostThrower);
function dfg1() {
dfgThing.willThrow
}
function dfg2() {
dfg1();
}
function dfg3() {
dfg2();
}
function dfg4() {
dfgThing.willThrowFunc();
}
function dfg5() {
dfg4();
}
function dfg6() {
dfg5();
}
function dfg7() {
dfgThing.willThrowEventually
}
function dfg8() {
dfg7();
}
function dfg9() {
dfg8();
}
function dfga() {
dfgThing.willThrowEventuallyFunc();
}
function dfgb() {
dfga();
}
function dfgc() {
dfgb();
}
dfgTest(dfg3)
dfgTest(dfg6)
dfgTest(dfg9)
dfgTest(dfgc)
successfullyParsed = true;