v8/test/mjsunit/mjsunit.js
Clemens Hammacher ee64674811 [wasm] Fix test utils and tests
Add a check to appendToTable to catch illegal input, and fix a test
case triggering this check.
Also removing unused variables and fix indentation.

R=ahaas@chromium.org

Change-Id: I0eaa48ab95ef710530a3cfbe94ed4dd419618cda
Reviewed-on: https://chromium-review.googlesource.com/458436
Commit-Queue: Clemens Hammacher <clemensh@chromium.org>
Reviewed-by: Andreas Haas <ahaas@chromium.org>
Cr-Commit-Position: refs/heads/master@{#44027}
2017-03-22 14:04:10 +00:00

583 lines
19 KiB
JavaScript

// Copyright 2008 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
function MjsUnitAssertionError(message) {
this.message = message;
// This allows fetching the stack trace using TryCatch::StackTrace.
this.stack = new Error("").stack;
}
/*
* This file is included in all mini jsunit test cases. The test
* framework expects lines that signal failed tests to start with
* the f-word and ignore all other lines.
*/
MjsUnitAssertionError.prototype.toString = function () {
return this.message + "\n\nStack: " + this.stack;
};
// Expected and found values the same objects, or the same primitive
// values.
// For known primitive values, please use assertEquals.
var assertSame;
// Expected and found values are identical primitive values or functions
// or similarly structured objects (checking internal properties
// of, e.g., Number and Date objects, the elements of arrays
// and the properties of non-Array objects).
var assertEquals;
// The difference between expected and found value is within certain tolerance.
var assertEqualsDelta;
// The found object is an Array with the same length and elements
// as the expected object. The expected object doesn't need to be an Array,
// as long as it's "array-ish".
var assertArrayEquals;
// The found object must have the same enumerable properties as the
// expected object. The type of object isn't checked.
var assertPropertiesEqual;
// Assert that the string conversion of the found value is equal to
// the expected string. Only kept for backwards compatability, please
// check the real structure of the found value.
var assertToStringEquals;
// Checks that the found value is true. Use with boolean expressions
// for tests that doesn't have their own assertXXX function.
var assertTrue;
// Checks that the found value is false.
var assertFalse;
// Checks that the found value is null. Kept for historical compatibility,
// please just use assertEquals(null, expected).
var assertNull;
// Checks that the found value is *not* null.
var assertNotNull;
// Assert that the passed function or eval code throws an exception.
// The optional second argument is an exception constructor that the
// thrown exception is checked against with "instanceof".
// The optional third argument is a message type string that is compared
// to the type property on the thrown exception.
var assertThrows;
// Assert that the passed function throws an exception.
// The exception is checked against the second argument using assertEquals.
var assertThrowsEquals;
// Assert that the passed function or eval code does not throw an exception.
var assertDoesNotThrow;
// Asserts that the found value is an instance of the constructor passed
// as the second argument.
var assertInstanceof;
// Assert that this code is never executed (i.e., always fails if executed).
var assertUnreachable;
// Assert that the function code is (not) optimized. If "no sync" is passed
// as second argument, we do not wait for the concurrent optimization thread to
// finish when polling for optimization status.
// Only works with --allow-natives-syntax.
var assertOptimized;
var assertUnoptimized;
// Assert that a string contains another expected substring.
var assertContains;
// Assert that a string matches a given regex.
var assertMatches;
// These bits must be in sync with bits defined in Runtime_GetOptimizationStatus
var V8OptimizationStatus = {
kIsFunction: 1 << 0,
kNeverOptimize: 1 << 1,
kAlwaysOptimize: 1 << 2,
kMaybeDeopted: 1 << 3,
kOptimized: 1 << 4,
kTurboFanned: 1 << 5,
kInterpreted: 1 << 6
};
// Returns true if --no-crankshaft mode is on.
var isNeverOptimize;
// Returns true if --always-opt mode is on.
var isAlwaysOptimize;
// Returns true if given function in interpreted.
var isInterpreted;
// Returns true if given function is optimized.
var isOptimized;
// Returns true if given function is compiled by Crankshaft.
var isCrankshafted;
// Returns true if given function is compiled by TurboFan.
var isTurboFanned;
// Monkey-patchable all-purpose failure handler.
var failWithMessage;
(function () { // Scope for utility functions.
var ObjectPrototypeToString = Object.prototype.toString;
var NumberPrototypeValueOf = Number.prototype.valueOf;
var BooleanPrototypeValueOf = Boolean.prototype.valueOf;
var StringPrototypeValueOf = String.prototype.valueOf;
var DatePrototypeValueOf = Date.prototype.valueOf;
var RegExpPrototypeToString = RegExp.prototype.toString;
var ArrayPrototypeMap = Array.prototype.map;
var ArrayPrototypeJoin = Array.prototype.join;
function classOf(object) {
// Argument must not be null or undefined.
var string = ObjectPrototypeToString.call(object);
// String has format [object <ClassName>].
return string.substring(8, string.length - 1);
}
function ValueOf(value) {
switch (classOf(value)) {
case "Number":
return NumberPrototypeValueOf.call(value);
case "String":
return StringPrototypeValueOf.call(value);
case "Boolean":
return BooleanPrototypeValueOf.call(value);
case "Date":
return DatePrototypeValueOf.call(value);
default:
return value;
}
}
function PrettyPrint(value) {
switch (typeof value) {
case "string":
return JSON.stringify(value);
case "number":
if (value === 0 && (1 / value) < 0) return "-0";
// FALLTHROUGH.
case "boolean":
case "undefined":
case "function":
case "symbol":
return String(value);
case "object":
if (value === null) return "null";
var objectClass = classOf(value);
switch (objectClass) {
case "Number":
case "String":
case "Boolean":
case "Date":
return objectClass + "(" + PrettyPrint(ValueOf(value)) + ")";
case "RegExp":
return RegExpPrototypeToString.call(value);
case "Array":
var mapped = ArrayPrototypeMap.call(value, PrettyPrintArrayElement);
var joined = ArrayPrototypeJoin.call(mapped, ",");
return "[" + joined + "]";
case "Uint8Array":
case "Int8Array":
case "Int16Array":
case "Uint16Array":
case "Uint32Array":
case "Int32Array":
case "Float32Array":
case "Float64Array":
var joined = ArrayPrototypeJoin.call(value, ",");
return objectClass + "([" + joined + "])";
case "Object":
break;
default:
return objectClass + "()";
}
// [[Class]] is "Object".
var name = value.constructor.name;
if (name) return name + "()";
return "Object()";
default:
return "-- unknown value --";
}
}
function PrettyPrintArrayElement(value, index, array) {
if (value === undefined && !(index in array)) return "";
return PrettyPrint(value);
}
failWithMessage = function failWithMessage(message) {
print("oh, we failed: " + message);
throw new MjsUnitAssertionError(message);
}
function fail(expectedText, found, name_opt) {
var message = "Fail" + "ure";
if (name_opt) {
// Fix this when we ditch the old test runner.
message += " (" + name_opt + ")";
}
var foundText = PrettyPrint(found);
if (expectedText.length <= 40 && foundText.length <= 40) {
message += ": expected <" + expectedText + "> found <" + foundText + ">";
} else {
message += ":\nexpected:\n" + expectedText + "\nfound:\n" + foundText;
}
return failWithMessage(message);
}
function deepObjectEquals(a, b) {
var aProps = Object.keys(a);
aProps.sort();
var bProps = Object.keys(b);
bProps.sort();
if (!deepEquals(aProps, bProps)) {
return false;
}
for (var i = 0; i < aProps.length; i++) {
if (!deepEquals(a[aProps[i]], b[aProps[i]])) {
return false;
}
}
return true;
}
function deepEquals(a, b) {
if (a === b) {
// Check for -0.
if (a === 0) return (1 / a) === (1 / b);
return true;
}
if (typeof a !== typeof b) return false;
if (typeof a === "number") return isNaN(a) && isNaN(b);
if (typeof a !== "object" && typeof a !== "function") return false;
// Neither a nor b is primitive.
var objectClass = classOf(a);
if (objectClass !== classOf(b)) return false;
if (objectClass === "RegExp") {
// For RegExp, just compare pattern and flags using its toString.
return RegExpPrototypeToString.call(a) ===
RegExpPrototypeToString.call(b);
}
// Functions are only identical to themselves.
if (objectClass === "Function") return false;
if (objectClass === "Array") {
var elementCount = 0;
if (a.length !== b.length) {
return false;
}
for (var i = 0; i < a.length; i++) {
if (!deepEquals(a[i], b[i])) return false;
}
return true;
}
if (objectClass === "String" || objectClass === "Number" ||
objectClass === "Boolean" || objectClass === "Date") {
if (ValueOf(a) !== ValueOf(b)) return false;
}
return deepObjectEquals(a, b);
}
assertSame = function assertSame(expected, found, name_opt) {
// TODO(mstarzinger): We should think about using Harmony's egal operator
// or the function equivalent Object.is() here.
if (found === expected) {
if (expected !== 0 || (1 / expected) === (1 / found)) return;
} else if ((expected !== expected) && (found !== found)) {
return;
}
fail(PrettyPrint(expected), found, name_opt);
};
assertEquals = function assertEquals(expected, found, name_opt) {
if (!deepEquals(found, expected)) {
fail(PrettyPrint(expected), found, name_opt);
}
};
assertEqualsDelta =
function assertEqualsDelta(expected, found, delta, name_opt) {
if (Math.abs(expected - found) > delta) {
fail(PrettyPrint(expected) + " +- " + PrettyPrint(delta), found, name_opt);
}
};
assertArrayEquals = function assertArrayEquals(expected, found, name_opt) {
var start = "";
if (name_opt) {
start = name_opt + " - ";
}
assertEquals(expected.length, found.length, start + "array length");
if (expected.length === found.length) {
for (var i = 0; i < expected.length; ++i) {
assertEquals(expected[i], found[i],
start + "array element at index " + i);
}
}
};
assertPropertiesEqual = function assertPropertiesEqual(expected, found,
name_opt) {
// Check properties only.
if (!deepObjectEquals(expected, found)) {
fail(expected, found, name_opt);
}
};
assertToStringEquals = function assertToStringEquals(expected, found,
name_opt) {
if (expected !== String(found)) {
fail(expected, found, name_opt);
}
};
assertTrue = function assertTrue(value, name_opt) {
assertEquals(true, value, name_opt);
};
assertFalse = function assertFalse(value, name_opt) {
assertEquals(false, value, name_opt);
};
assertNull = function assertNull(value, name_opt) {
if (value !== null) {
fail("null", value, name_opt);
}
};
assertNotNull = function assertNotNull(value, name_opt) {
if (value === null) {
fail("not null", value, name_opt);
}
};
assertThrows = function assertThrows(code, type_opt, cause_opt) {
try {
if (typeof code === 'function') {
code();
} else {
eval(code);
}
} catch (e) {
if (typeof type_opt === 'function') {
assertInstanceof(e, type_opt);
} else if (type_opt !== void 0) {
failWithMessage(
'invalid use of assertThrows, maybe you want assertThrowsEquals');
}
if (arguments.length >= 3) {
assertEquals(e.message, cause_opt);
}
// Success.
return;
}
failWithMessage('Did not throw exception');
};
assertThrowsEquals = function assertThrowsEquals(fun, val) {
try {
fun();
} catch(e) {
assertEquals(val, e);
return;
}
failWithMessage("Did not throw exception");
};
assertInstanceof = function assertInstanceof(obj, type) {
if (!(obj instanceof type)) {
var actualTypeName = null;
var actualConstructor = Object.getPrototypeOf(obj).constructor;
if (typeof actualConstructor === "function") {
actualTypeName = actualConstructor.name || String(actualConstructor);
}
failWithMessage("Object <" + PrettyPrint(obj) + "> is not an instance of <" +
(type.name || type) + ">" +
(actualTypeName ? " but of <" + actualTypeName + ">" : ""));
}
};
assertDoesNotThrow = function assertDoesNotThrow(code, name_opt) {
try {
if (typeof code === 'function') {
code();
} else {
eval(code);
}
} catch (e) {
failWithMessage("threw an exception: " + (e.message || e));
}
};
assertUnreachable = function assertUnreachable(name_opt) {
// Fix this when we ditch the old test runner.
var message = "Fail" + "ure: unreachable";
if (name_opt) {
message += " - " + name_opt;
}
failWithMessage(message);
};
assertContains = function(sub, value, name_opt) {
if (value == null ? (sub != null) : value.indexOf(sub) == -1) {
fail("contains '" + String(sub) + "'", value, name_opt);
}
};
assertMatches = function(regexp, str, name_opt) {
if (!(regexp instanceof RegExp)) {
regexp = new RegExp(regexp);
}
if (!str.match(regexp)) {
fail("should match '" + regexp + "'", str, name_opt);
}
};
var OptimizationStatusImpl = undefined;
var OptimizationStatus = function(fun, sync_opt) {
if (OptimizationStatusImpl === undefined) {
try {
OptimizationStatusImpl = new Function(
"fun", "sync", "return %GetOptimizationStatus(fun, sync);");
} catch (e) {
throw new Error("natives syntax not allowed");
}
}
return OptimizationStatusImpl(fun, sync_opt);
}
assertUnoptimized = function assertUnoptimized(fun, sync_opt, name_opt) {
if (sync_opt === undefined) sync_opt = "";
var opt_status = OptimizationStatus(fun, sync_opt);
// Tests that use assertOptimized() do not make sense if --always-opt
// option is provided. Such tests must add --no-always-opt to flags comment.
assertFalse((opt_status & V8OptimizationStatus.kAlwaysOptimize) !== 0,
"test does not make sense with --always-opt");
assertTrue((opt_status & V8OptimizationStatus.kIsFunction) !== 0, name_opt);
if ((opt_status & V8OptimizationStatus.kMaybeDeopted) !== 0) {
// When --deopt-every-n-times flag is specified it's no longer guaranteed
// that particular function is still deoptimized, so keep running the test
// to stress test the deoptimizer.
return;
}
assertFalse((opt_status & V8OptimizationStatus.kOptimized) !== 0, name_opt);
}
assertOptimized = function assertOptimized(fun, sync_opt, name_opt) {
if (sync_opt === undefined) sync_opt = "";
var opt_status = OptimizationStatus(fun, sync_opt);
// Tests that use assertOptimized() do not make sense if --no-crankshaft
// option is provided. Such tests must add --crankshaft to flags comment.
assertFalse((opt_status & V8OptimizationStatus.kNeverOptimize) !== 0,
"test does not make sense with --no-crankshaft");
assertTrue((opt_status & V8OptimizationStatus.kIsFunction) !== 0, name_opt);
if ((opt_status & V8OptimizationStatus.kMaybeDeopted) !== 0) {
// When --deopt-every-n-times flag is specified it's no longer guaranteed
// that particular function is still optimized, so keep running the test
// to stress test the deoptimizer.
return;
}
assertTrue((opt_status & V8OptimizationStatus.kOptimized) !== 0, name_opt);
}
isNeverOptimize = function isNeverOptimize() {
var opt_status = OptimizationStatus(undefined, "");
return (opt_status & V8OptimizationStatus.kNeverOptimize) !== 0;
}
isAlwaysOptimize = function isAlwaysOptimize() {
var opt_status = OptimizationStatus(undefined, "");
return (opt_status & V8OptimizationStatus.kAlwaysOptimize) !== 0;
}
isInterpreted = function isInterpreted(fun) {
var opt_status = OptimizationStatus(fun, "");
assertTrue((opt_status & V8OptimizationStatus.kIsFunction) !== 0,
"not a function");
return (opt_status & V8OptimizationStatus.kOptimized) === 0 &&
(opt_status & V8OptimizationStatus.kInterpreted) !== 0;
}
isOptimized = function isOptimized(fun) {
var opt_status = OptimizationStatus(fun, "");
assertTrue((opt_status & V8OptimizationStatus.kIsFunction) !== 0,
"not a function");
return (opt_status & V8OptimizationStatus.kOptimized) !== 0;
}
isCrankshafted = function isCrankshafted(fun) {
var opt_status = OptimizationStatus(fun, "");
assertTrue((opt_status & V8OptimizationStatus.kIsFunction) !== 0,
"not a function");
return (opt_status & V8OptimizationStatus.kOptimized) !== 0 &&
(opt_status & V8OptimizationStatus.kTurboFanned) === 0;
}
isTurboFanned = function isTurboFanned(fun) {
var opt_status = OptimizationStatus(fun, "");
assertTrue((opt_status & V8OptimizationStatus.kIsFunction) !== 0,
"not a function");
return (opt_status & V8OptimizationStatus.kOptimized) !== 0 &&
(opt_status & V8OptimizationStatus.kTurboFanned) !== 0;
}
})();