gecko/js/tests/shell.js

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is Mozilla Communicator client code, released
* March 31, 1998.
*
* The Initial Developer of the Original Code is
* Netscape Communications Corporation.
* Portions created by the Initial Developer are Copyright (C) 1998
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
* Rob Ginda rginda@netscape.com
* Bob Clary bob@bclary.com
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
// Spidermonkey shell now defaults to 1.8, so set the basic version to
// 1.5 for backwards compatibility.
if (typeof version != 'undefined')
{
version(150);
}
var STATUS = "STATUS: ";
var VERBOSE = false;
var SECT_PREFIX = 'Section ';
var SECT_SUFFIX = ' of test - ';
var callStack = new Array();
var gTestfile;
var gTestPath;
var gTestsuite;
var gTestsubsuite;
var gDelayTestDriverEnd = false;
var gTestcases = new Array();
var gTc = gTestcases.length;
var BUGNUMBER = '';
var summary = '';
var description = '';
var expected = '';
var actual = '';
var msg = '';
var SECTION = "";
var VERSION = "";
var BUGNUMBER = "";
/*
* constant strings
*/
var GLOBAL = "[object global]";
var PASSED = " PASSED! ";
var FAILED = " FAILED! ";
var DEBUG = false;
var DESCRIPTION;
var EXPECTED;
/*
* wrapper for test case constructor that doesn't require the SECTION
* argument.
*/
function AddTestCase( description, expect, actual ) {
new TestCase( SECTION, description, expect, actual );
}
/*
* Set up test environment.
*
*/
function startTest() {
// print out bugnumber
if ( BUGNUMBER ) {
print ("BUGNUMBER: " + BUGNUMBER );
}
if ( typeof version != 'function') {
return;
}
// JavaScript 1.3 is supposed to be compliant ecma version 1.0
if ( VERSION == "ECMA_1" ) {
version ( "130" );
}
else if ( VERSION == "JS_1.8" || gTestsuite == 'js1_8') {
version ( "180" );
}
else if ( VERSION == "JS_1.7" || gTestsuite == 'js1_7') {
version ( "170" );
}
else if ( VERSION == "JS_1.6" || gTestsuite == 'js1_6') {
version ( "160" );
}
else if ( VERSION == "JS_1.5" || gTestsuite == 'js1_5') {
version ( "150" );
}
else if ( VERSION == "JS_1.4" || gTestsuite == 'js1_4') {
version ( "140" );
}
else if ( VERSION == "JS_1.3" || gTestsuite == 'js1_3') {
version ( "130" );
}
else if ( VERSION == "JS_1.2" || gTestsuite == 'js1_2') {
version ( "120" );
}
else if ( VERSION == "JS_1.1" || gTestsuite == 'js1_1') {
version ( "110" );
}
}
function TestCase(n, d, e, a)
{
this.path = (typeof gTestPath == 'undefined') ?
(gTestsuite + '/' + gTestsubsuite + '/' + gTestfile) :
gTestPath;
this.file = gTestfile;
this.name = n;
this.description = d;
this.expect = e;
this.actual = a;
this.passed = getTestCaseResult(e, a);
this.reason = '';
this.bugnumber = typeof(BUGNUMER) != 'undefined' ? BUGNUMBER : '';
this.type = (typeof window == 'undefined' ? 'shell' : 'browser');
gTestcases[gTc++] = this;
}
TestCase.prototype.dump = function () {
dump('\njstest: ' + this.path + ' ' +
'bug: ' + this.bugnumber + ' ' +
'result: ' + (this.passed ? 'PASSED':'FAILED') + ' ' +
'type: ' + this.type + ' ' +
'description: ' + toPrinted(this.description) + ' ' +
'expected: ' + toPrinted(this.expect) + ' ' +
'actual: ' + toPrinted(this.actual) + ' ' +
'reason: ' + toPrinted(this.reason) + '\n');
};
/*
* The test driver searches for such a phrase in the test output.
* If such phrase exists, it will set n as the expected exit code.
*/
function expectExitCode(n)
{
print('--- NOTE: IN THIS TESTCASE, WE EXPECT EXIT CODE ' + n + ' ---');
}
/*
* Statuses current section of a test
*/
function inSection(x)
{
return SECT_PREFIX + x + SECT_SUFFIX;
}
/*
* Report a failure in the 'accepted' manner
*/
function reportFailure (msg)
{
var lines = msg.split ("\n");
var l;
var funcName = currentFunc();
var prefix = (funcName) ? "[reported from " + funcName + "] ": "";
for (var i=0; i<lines.length; i++)
print (FAILED + prefix + lines[i]);
}
/*
* Print a non-failure message.
*/
function printStatus (msg)
{
/* js1_6 had...
msg = String(msg);
msg = msg.toString();
*/
msg = msg.toString();
var lines = msg.split ("\n");
var l;
for (var i=0; i<lines.length; i++)
print (STATUS + lines[i]);
}
/*
* Print a bugnumber message.
*/
function printBugNumber (num)
{
BUGNUMBER = num;
print ('BUGNUMBER: ' + num);
}
function toPrinted(value)
{
if (typeof value == "xml")
{
value = value.toXMLString();
}
else
{
value = String(value);
}
value = value.replace(/\\n/g, 'NL').replace(/\n/g, 'NL').replace(/\\r/g, 'CR');
return value;
}
/*
* Compare expected result to actual result, if they differ (in value and/or
* type) report a failure. If description is provided, include it in the
* failure report.
*/
function reportCompare (expected, actual, description) {
var expected_t = typeof expected;
var actual_t = typeof actual;
var output = "";
if ((VERBOSE) && (typeof description != "undefined"))
printStatus ("Comparing '" + description + "'");
if (expected_t != actual_t)
{
output += "Type mismatch, expected type " + expected_t +
", actual type " + actual_t + " ";
}
else if (VERBOSE)
{
printStatus ("Expected type '" + expected_t + "' matched actual " +
"type '" + actual_t + "'");
}
if (expected != actual)
{
output += "Expected value '" + toPrinted(expected) +
"', Actual value '" + toPrinted(actual) + "' ";
}
else if (VERBOSE)
{
printStatus ("Expected value '" + toPrinted(expected) +
"' matched actual value '" + toPrinted(actual) + "'");
}
if (typeof description == "undefined")
description = '';
var testcase = new TestCase(gTestfile, description, expected, actual);
testcase.reason = output;
if (testcase.passed)
{
print('PASSED! ' + description);
}
else
{
reportFailure (output);
}
return testcase.passed;
}
/*
* Attempt to match a regular expression describing the result to
* the actual result, if they differ (in value and/or
* type) report a failure. If description is provided, include it in the
* failure report.
*/
function reportMatch (expectedRegExp, actual, description) {
var expected_t = "string";
var actual_t = typeof actual;
var output = "";
if ((VERBOSE) && (typeof description != "undefined"))
printStatus ("Comparing '" + description + "'");
if (expected_t != actual_t)
{
output += "Type mismatch, expected type " + expected_t +
", actual type " + actual_t + " ";
}
else if (VERBOSE)
{
printStatus ("Expected type '" + expected_t + "' matched actual " +
"type '" + actual_t + "'");
}
var matches = expectedRegExp.test(actual);
if (!matches)
{
output += "Expected match to '" + toPrinted(expectedRegExp) +
"', Actual value '" + toPrinted(actual) + "' ";
}
else if (VERBOSE)
{
printStatus ("Expected match to '" + toPrinted(expectedRegExp) +
"' matched actual value '" + toPrinted(actual) + "'");
}
if (typeof description == "undefined")
description = '';
var testcase = new TestCase(gTestfile, description, true, matches);
testcase.reason = output;
if (testcase.passed)
{
print('PASSED! ' + description);
}
else
{
reportFailure (output);
}
return testcase.passed;
}
/*
* Puts funcName at the top of the call stack. This stack is used to show
* a function-reported-from field when reporting failures.
*/
function enterFunc (funcName)
{
if (!funcName.match(/\(\)$/))
funcName += "()";
callStack.push(funcName);
}
/*
* Pops the top funcName off the call stack. funcName is optional, and can be
* used to check push-pop balance.
*/
function exitFunc (funcName)
{
var lastFunc = callStack.pop();
if (funcName)
{
if (!funcName.match(/\(\)$/))
funcName += "()";
if (lastFunc != funcName)
reportCompare(funcName, lastFunc, "Test driver failure wrong exit function ");
}
}
/*
* Peeks at the top of the call stack.
*/
function currentFunc()
{
return callStack[callStack.length - 1];
}
/*
Calculate the "order" of a set of data points {X: [], Y: []}
by computing successive "derivatives" of the data until
the data is exhausted or the derivative is linear.
*/
function BigO(data)
{
var order = 0;
var origLength = data.X.length;
while (data.X.length > 2)
{
var lr = new LinearRegression(data);
if (lr.b > 1e-6)
{
// only increase the order if the slope
// is "great" enough
order++;
}
if (lr.r > 0.98 || lr.Syx < 1 || lr.b < 1e-6)
{
// terminate if close to a line lr.r
// small error lr.Syx
// small slope lr.b
break;
}
data = dataDeriv(data);
}
if (2 == origLength - order)
{
order = Number.POSITIVE_INFINITY;
}
return order;
function LinearRegression(data)
{
/*
y = a + bx
for data points (Xi, Yi); 0 <= i < n
b = (n*SUM(XiYi) - SUM(Xi)*SUM(Yi))/(n*SUM(Xi*Xi) - SUM(Xi)*SUM(Xi))
a = (SUM(Yi) - b*SUM(Xi))/n
*/
var i;
if (data.X.length != data.Y.length)
{
throw 'LinearRegression: data point length mismatch';
}
if (data.X.length < 3)
{
throw 'LinearRegression: data point length < 2';
}
var n = data.X.length;
var X = data.X;
var Y = data.Y;
this.Xavg = 0;
this.Yavg = 0;
var SUM_X = 0;
var SUM_XY = 0;
var SUM_XX = 0;
var SUM_Y = 0;
var SUM_YY = 0;
for (i = 0; i < n; i++)
{
SUM_X += X[i];
SUM_XY += X[i]*Y[i];
SUM_XX += X[i]*X[i];
SUM_Y += Y[i];
SUM_YY += Y[i]*Y[i];
}
this.b = (n * SUM_XY - SUM_X * SUM_Y)/(n * SUM_XX - SUM_X * SUM_X);
this.a = (SUM_Y - this.b * SUM_X)/n;
this.Xavg = SUM_X/n;
this.Yavg = SUM_Y/n;
var SUM_Ydiff2 = 0;
var SUM_Xdiff2 = 0;
var SUM_XdiffYdiff = 0;
for (i = 0; i < n; i++)
{
var Ydiff = Y[i] - this.Yavg;
var Xdiff = X[i] - this.Xavg;
SUM_Ydiff2 += Ydiff * Ydiff;
SUM_Xdiff2 += Xdiff * Xdiff;
SUM_XdiffYdiff += Xdiff * Ydiff;
}
var Syx2 = (SUM_Ydiff2 - Math.pow(SUM_XdiffYdiff/SUM_Xdiff2, 2))/(n - 2);
var r2 = Math.pow((n*SUM_XY - SUM_X * SUM_Y), 2) /
((n*SUM_XX - SUM_X*SUM_X)*(n*SUM_YY-SUM_Y*SUM_Y));
this.Syx = Math.sqrt(Syx2);
this.r = Math.sqrt(r2);
}
function dataDeriv(data)
{
if (data.X.length != data.Y.length)
{
throw 'length mismatch';
}
var length = data.X.length;
if (length < 2)
{
throw 'length ' + length + ' must be >= 2';
}
var X = data.X;
var Y = data.Y;
var deriv = {X: [], Y: [] };
for (var i = 0; i < length - 1; i++)
{
deriv.X[i] = (X[i] + X[i+1])/2;
deriv.Y[i] = (Y[i+1] - Y[i])/(X[i+1] - X[i]);
}
return deriv;
}
return 0;
}
function compareSource(expect, actual, summary)
{
// compare source
var expectP = expect.
replace(/([(){},.:\[\]])/mg, ' $1 ').
replace(/(\w+)/mg, ' $1 ').
replace(/<(\/)? (\w+) (\/)?>/mg, '<$1$2$3>').
replace(/\s+/mg, ' ').
replace(/new (\w+)\s*\(\s*\)/mg, 'new $1');
var actualP = actual.
replace(/([(){},.:\[\]])/mg, ' $1 ').
replace(/(\w+)/mg, ' $1 ').
replace(/<(\/)? (\w+) (\/)?>/mg, '<$1$2$3>').
replace(/\s+/mg, ' ').
replace(/new (\w+)\s*\(\s*\)/mg, 'new $1');
print('expect:\n' + expectP);
print('actual:\n' + actualP);
reportCompare(expectP, actualP, summary);
// actual must be compilable if expect is?
try
{
var expectCompile = 'No Error';
var actualCompile;
eval(expect);
try
{
eval(actual);
actualCompile = 'No Error';
}
catch(ex1)
{
actualCompile = ex1 + '';
}
reportCompare(expectCompile, actualCompile,
summary + ': compile actual');
}
catch(ex)
{
}
}
function optionsInit() {
// record initial values to support resetting
// options to their initial values
options.initvalues = {};
// record values in a stack to support pushing
// and popping options
options.stackvalues = [];
var optionNames = options().split(',');
for (var i = 0; i < optionNames.length; i++)
{
var optionName = optionNames[i];
if (optionName)
{
options.initvalues[optionName] = '';
}
}
}
function optionsClear() {
// turn off current settings
var optionNames = options().split(',');
for (var i = 0; i < optionNames.length; i++)
{
var optionName = optionNames[i];
if (optionName)
{
options(optionName);
}
}
}
function optionsPush()
{
var optionsframe = {};
options.stackvalues.push(optionsframe);
var optionNames = options().split(',');
for (var i = 0; i < optionNames.length; i++)
{
var optionName = optionNames[i];
if (optionName)
{
optionsframe[optionName] = '';
}
}
optionsClear();
}
function optionsPop()
{
var optionsframe = options.stackvalues.pop();
optionsClear();
for (optionName in optionsframe)
{
options(optionName);
}
}
function optionsReset() {
optionsClear();
// turn on initial settings
for (optionName in options.initvalues)
{
options(optionName);
}
}
if (typeof options == 'function')
{
optionsInit();
optionsClear();
}
function getTestCaseResult(expected, actual)
{
var expected_t = typeof expected;
var actual_t = typeof actual;
var passed = true;
// because ( NaN == NaN ) always returns false, need to do
// a special compare to see if we got the right result.
if ( actual != actual )
{
if ( actual_t == "object" )
{
actual = "NaN object";
}
else
{
actual = "NaN number";
}
}
if ( expected != expected )
{
if ( expected_t == "object" )
{
expected = "NaN object";
}
else
{
expected = "NaN number";
}
}
if (expected_t != actual_t)
{
passed = false;
}
else if (expected != actual)
{
if (expected_t != 'number' || (Math.abs(actual - expected) > 1E-10))
{
passed = false;
}
}
return passed;
}
if (typeof dump == 'undefined')
{
if (typeof window == 'undefined' &&
typeof print == 'function')
{
dump = print;
}
else
{
dump = (function () {});
}
}
function test() {
for ( gTc=0; gTc < gTestcases.length; gTc++ ) {
// temporary hack to work around some unknown issue in 1.7
try
{
gTestcases[gTc].passed = writeTestCaseResult(
gTestcases[gTc].expect,
gTestcases[gTc].actual,
gTestcases[gTc].description +" = "+ gTestcases[gTc].actual );
gTestcases[gTc].reason += ( gTestcases[gTc].passed ) ? "" : "wrong value ";
}
catch(e)
{
print('test(): empty testcase for gTc = ' + gTc + ' ' + e);
}
}
stopTest();
return ( gTestcases );
}
/*
* Begin printing functions. These functions use the shell's
* print function. When running tests in the browser, these
* functions, override these functions with functions that use
* document.write.
*/
function writeTestCaseResult( expect, actual, string ) {
var passed = getTestCaseResult( expect, actual );
writeFormattedResult( expect, actual, string, passed );
return passed;
}
function writeFormattedResult( expect, actual, string, passed ) {
var s = ( passed ? PASSED : FAILED ) + string + ' expected: ' + expect;
print(s);
return passed;
}
function writeHeaderToLog( string ) {
print( string );
}
/* end of print functions */
/*
* When running in the shell, run the garbage collector after the
* test has completed.
*/
function stopTest() {
var gc;
if ( gc != undefined ) {
gc();
}
}
/*
* Convenience function for displaying failed test cases. Useful
* when running tests manually.
*
*/
function getFailedCases() {
for ( var i = 0; i < gTestcases.length; i++ ) {
if ( ! gTestcases[i].passed ) {
print( gTestcases[i].description + " = " +gTestcases[i].actual +
" expected: " + gTestcases[i].expect );
}
}
}
function jsTestDriverEnd()
{
// gDelayTestDriverEnd is used to
// delay collection of the test result and
// signal to Spider so that tests can continue
// to run after page load has fired. They are
// responsible for setting gDelayTestDriverEnd = true
// then when completed, setting gDelayTestDriverEnd = false
// then calling jsTestDriverEnd()
if (gDelayTestDriverEnd)
{
return;
}
try
{
optionsReset();
}
catch(ex)
{
dump('jsTestDriverEnd ' + ex);
}
for (var i = 0; i < gTestcases.length; i++)
{
gTestcases[i].dump();
}
}
/*
* Some tests need to know if we are in Rhino as opposed to SpiderMonkey
*/
function inRhino()
{
return (typeof defineClass == "function");
}
/* these functions are useful for running tests manually in Rhino */
function GetContext() {
return Packages.com.netscape.javascript.Context.getCurrentContext();
}
function OptLevel( i ) {
i = Number(i);
var cx = GetContext();
cx.setOptimizationLevel(i);
}
/* end of Rhino functions */