ArrayAssert.js revision 6eccb99d95a457b8714d60222b7bbc2ebaa0c1f2
/**
* The ArrayAssert object provides functions to test JavaScript array objects
* for a variety of cases.
*
* @class ArrayAssert
* @static
*/
Y.ArrayAssert = {
/**
* Asserts that a value is present in an array. This uses the triple equals
* sign so no type cohersion may occur.
* @param {Object} needle The value that is expected in the array.
* @param {Array} haystack An array of values.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method contains
* @static
*/
contains : function (needle, haystack,
message) {
Y.Assert._increment();
if (Y.Array.indexOf(haystack, needle) == -1){
Y.Assert.fail(Y.Assert._formatMessage(message, "Value " + needle + " (" + (typeof needle) + ") not found in array [" + haystack + "]."));
}
},
/**
* Asserts that a set of values are present in an array. This uses the triple equals
* sign so no type cohersion may occur. For this assertion to pass, all values must
* be found.
* @param {Object[]} needles An array of values that are expected in the array.
* @param {Array} haystack An array of values to check.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method containsItems
* @static
*/
containsItems : function (needles, haystack,
message) {
Y.Assert._increment();
//begin checking values
for (var i=0; i < needles.length; i++){
if (Y.Array.indexOf(haystack, needles[i]) == -1){
Y.Assert.fail(Y.Assert._formatMessage(message, "Value " + needles[i] + " (" + (typeof needles[i]) + ") not found in array [" + haystack + "]."));
}
}
},
/**
* Asserts that a value matching some condition is present in an array. This uses
* a function to determine a match.
* @param {Function} matcher A function that returns true if the items matches or false if not.
* @param {Array} haystack An array of values.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method containsMatch
* @static
*/
containsMatch : function (matcher, haystack,
message) {
Y.Assert._increment();
//check for valid matcher
if (typeof matcher != "function"){
throw new TypeError("ArrayAssert.containsMatch(): First argument must be a function.");
}
if (!Y.Array.some(matcher)){
Y.Assert.fail(Y.Assert._formatMessage(message, "No match found in array [" + haystack + "]."));
}
},
/**
* Asserts that a value is not present in an array. This uses the triple equals
* Asserts that a value is not present in an array. This uses the triple equals
* sign so no type cohersion may occur.
* @param {Object} needle The value that is expected in the array.
* @param {Array} haystack An array of values.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method doesNotContain
* @static
*/
doesNotContain : function (needle, haystack,
message) {
Y.Assert._increment();
if (Y.Array.indexOf(haystack, needle) > -1){
Y.Assert.fail(Y.Assert._formatMessage(message, "Value found in array [" + haystack + "]."));
}
},
/**
* Asserts that a set of values are not present in an array. This uses the triple equals
* sign so no type cohersion may occur. For this assertion to pass, all values must
* not be found.
* @param {Object[]} needles An array of values that are not expected in the array.
* @param {Array} haystack An array of values to check.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method doesNotContainItems
* @static
*/
doesNotContainItems : function (needles, haystack,
message) {
Y.Assert._increment();
for (var i=0; i < needles.length; i++){
if (Y.Array.indexOf(haystack, needles[i]) > -1){
Y.Assert.fail(Y.Assert._formatMessage(message, "Value found in array [" + haystack + "]."));
}
}
},
/**
* Asserts that no values matching a condition are present in an array. This uses
* a function to determine a match.
* @param {Function} matcher A function that returns true if the items matches or false if not.
* @param {Array} haystack An array of values.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method doesNotContainMatch
* @static
*/
doesNotContainMatch : function (matcher, haystack,
message) {
Y.Assert._increment();
//check for valid matcher
if (typeof matcher != "function"){
throw new TypeError("ArrayAssert.doesNotContainMatch(): First argument must be a function.");
}
if (Y.Array.some(matcher)){
Y.Assert.fail(Y.Assert._formatMessage(message, "Value found in array [" + haystack + "]."));
}
},
/**
* Asserts that the given value is contained in an array at the specified index.
* This uses the triple equals sign so no type cohersion will occur.
* @param {Object} needle The value to look for.
* @param {Array} haystack The array to search in.
* @param {int} index The index at which the value should exist.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method indexOf
* @static
*/
indexOf : function (needle, haystack, index, message) {
Y.Assert._increment();
//try to find the value in the array
for (var i=0; i < haystack.length; i++){
if (haystack[i] === needle){
if (index != i){
Y.Assert.fail(Y.Assert._formatMessage(message, "Value exists at index " + i + " but should be at index " + index + "."));
}
return;
}
}
//if it makes it here, it wasn't found at all
Y.Assert.fail(Y.Assert._formatMessage(message, "Value doesn't exist in array [" + haystack + "]."));
},
/**
* Asserts that the values in an array are equal, and in the same position,
* as values in another array. This uses the double equals sign
* so type cohersion may occur. Note that the array objects themselves
* need not be the same for this test to pass.
* @param {Array} expected An array of the expected values.
* @param {Array} actual Any array of the actual values.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method itemsAreEqual
* @static
*/
itemsAreEqual : function (expected, actual,
message) {
Y.Assert._increment();
//first check array length
if (expected.length != actual.length){
Y.Assert.fail(Y.Assert._formatMessage(message, "Array should have a length of " + expected.length + " but has a length of " + actual.length));
}
//begin checking values
for (var i=0; i < expected.length; i++){
if (expected[i] != actual[i]){
throw new Y.Assert.ComparisonFailure(Y.Assert._formatMessage(message, "Values in position " + i + " are not equal."), expected[i], actual[i]);
}
}
},
/**
* Asserts that the values in an array are equivalent, and in the same position,
* as values in another array. This uses a function to determine if the values
* are equivalent. Note that the array objects themselves
* need not be the same for this test to pass.
* @param {Array} expected An array of the expected values.
* @param {Array} actual Any array of the actual values.
* @param {Function} comparator A function that returns true if the values are equivalent
* or false if not.
* @param {String} message (Optional) The message to display if the assertion fails.
* @return {Void}
* @method itemsAreEquivalent
* @static
*/
itemsAreEquivalent : function (expected, actual,
comparator, message) {
Y.Assert._increment();
//make sure the comparator is valid
if (typeof comparator != "function"){
throw new TypeError("ArrayAssert.itemsAreEquivalent(): Third argument must be a function.");
}
//first check array length
if (expected.length != actual.length){
Y.Assert.fail(Y.Assert._formatMessage(message, "Array should have a length of " + expected.length + " but has a length of " + actual.length));
}
//begin checking values
for (var i=0; i < expected.length; i++){
if (!comparator(expected[i], actual[i])){
throw new Y.Assert.ComparisonFailure(Y.Assert._formatMessage(message, "Values in position " + i + " are not equivalent."), expected[i], actual[i]);
}
}
},
/**
* Asserts that an array is empty.
* @param {Array} actual The array to test.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method isEmpty
* @static
*/
isEmpty : function (actual, message) {
Y.Assert._increment();
if (actual.length > 0){
Y.Assert.fail(Y.Assert._formatMessage(message, "Array should be empty."));
}
},
/**
* Asserts that an array is not empty.
* @param {Array} actual The array to test.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method isNotEmpty
* @static
*/
isNotEmpty : function (actual, message) {
Y.Assert._increment();
if (actual.length === 0){
Y.Assert.fail(Y.Assert._formatMessage(message, "Array should not be empty."));
}
},
/**
* Asserts that the values in an array are the same, and in the same position,
* as values in another array. This uses the triple equals sign
* so no type cohersion will occur. Note that the array objects themselves
* need not be the same for this test to pass.
* @param {Array} expected An array of the expected values.
* @param {Array} actual Any array of the actual values.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method itemsAreSame
* @static
*/
itemsAreSame : function (expected, actual,
message) {
Y.Assert._increment();
//first check array length
if (expected.length != actual.length){
Y.Assert.fail(Y.Assert._formatMessage(message, "Array should have a length of " + expected.length + " but has a length of " + actual.length));
}
//begin checking values
for (var i=0; i < expected.length; i++){
if (expected[i] !== actual[i]){
throw new Y.Assert.ComparisonFailure(Y.Assert._formatMessage(message, "Values in position " + i + " are not the same."), expected[i], actual[i]);
}
}
},
/**
* Asserts that the given value is contained in an array at the specified index,
* starting from the back of the array.
* This uses the triple equals sign so no type cohersion will occur.
* @param {Object} needle The value to look for.
* @param {Array} haystack The array to search in.
* @param {int} index The index at which the value should exist.
* @param {String} message (Optional) The message to display if the assertion fails.
* @method lastIndexOf
* @static
*/
lastIndexOf : function (needle, haystack, index, message) {
//try to find the value in the array
for (var i=haystack.length; i >= 0; i--){
if (haystack[i] === needle){
if (index != i){
Y.Assert.fail(Y.Assert._formatMessage(message, "Value exists at index " + i + " but should be at index " + index + "."));
}
return;
}
}
//if it makes it here, it wasn't found at all
Y.Assert.fail(Y.Assert._formatMessage(message, "Value doesn't exist in array."));
}
};