package otto import ( "testing" ) // bind func Test_underscore_functions_0(t *testing.T) { tt(t, func() { test, _ := test_() test(` test("bind", function() { var context = {name : 'moe'}; var func = function(arg) { return "name: " + (this.name || arg); }; var bound = _.bind(func, context); equal(bound(), 'name: moe', 'can bind a function to a context'); bound = _(func).bind(context); equal(bound(), 'name: moe', 'can do OO-style binding'); bound = _.bind(func, null, 'curly'); equal(bound(), 'name: curly', 'can bind without specifying a context'); func = function(salutation, name) { return salutation + ': ' + name; }; func = _.bind(func, this, 'hello'); equal(func('moe'), 'hello: moe', 'the function was partially applied in advance'); func = _.bind(func, this, 'curly'); equal(func(), 'hello: curly', 'the function was completely applied in advance'); func = function(salutation, firstname, lastname) { return salutation + ': ' + firstname + ' ' + lastname; }; func = _.bind(func, this, 'hello', 'moe', 'curly'); equal(func(), 'hello: moe curly', 'the function was partially applied in advance and can accept multiple arguments'); func = function(context, message) { equal(this, context, message); }; _.bind(func, 0, 0, 'can bind a function to <0>')(); _.bind(func, '', '', 'can bind a function to an empty string')(); _.bind(func, false, false, 'can bind a function to ')(); // These tests are only meaningful when using a browser without a native bind function // To test this with a modern browser, set underscore's nativeBind to undefined var F = function () { return this; }; var Boundf = _.bind(F, {hello: "moe curly"}); equal(Boundf().hello, "moe curly", "When called without the new operator, it's OK to be bound to the context"); }); `) }) } // partial func Test_underscore_functions_1(t *testing.T) { tt(t, func() { test, _ := test_() test(` test("partial", function() { var obj = {name: 'moe'}; var func = function() { return this.name + ' ' + _.toArray(arguments).join(' '); }; obj.func = _.partial(func, 'a', 'b'); equal(obj.func('c', 'd'), 'moe a b c d', 'can partially apply'); }); `) }) } // bindAll func Test_underscore_functions_2(t *testing.T) { tt(t, func() { test, _ := test_() test(` test("bindAll", function() { var curly = {name : 'curly'}, moe = { name : 'moe', getName : function() { return 'name: ' + this.name; }, sayHi : function() { return 'hi: ' + this.name; } }; curly.getName = moe.getName; _.bindAll(moe, 'getName', 'sayHi'); curly.sayHi = moe.sayHi; equal(curly.getName(), 'name: curly', 'unbound function is bound to current object'); equal(curly.sayHi(), 'hi: moe', 'bound function is still bound to original object'); curly = {name : 'curly'}; moe = { name : 'moe', getName : function() { return 'name: ' + this.name; }, sayHi : function() { return 'hi: ' + this.name; } }; _.bindAll(moe); curly.sayHi = moe.sayHi; equal(curly.sayHi(), 'hi: moe', 'calling bindAll with no arguments binds all functions to the object'); }); `) }) } // memoize func Test_underscore_functions_3(t *testing.T) { tt(t, func() { test, _ := test_() test(` test("memoize", function() { var fib = function(n) { return n < 2 ? n : fib(n - 1) + fib(n - 2); }; var fastFib = _.memoize(fib); equal(fib(10), 55, 'a memoized version of fibonacci produces identical results'); equal(fastFib(10), 55, 'a memoized version of fibonacci produces identical results'); var o = function(str) { return str; }; var fastO = _.memoize(o); equal(o('toString'), 'toString', 'checks hasOwnProperty'); equal(fastO('toString'), 'toString', 'checks hasOwnProperty'); }); `) }) } // once func Test_underscore_functions_4(t *testing.T) { tt(t, func() { test, _ := test_() test(` test("once", function() { var num = 0; var increment = _.once(function(){ num++; }); increment(); increment(); equal(num, 1); }); `) }) } // wrap func Test_underscore_functions_5(t *testing.T) { tt(t, func() { test, _ := test_() test(` test("wrap", function() { var greet = function(name){ return "hi: " + name; }; var backwards = _.wrap(greet, function(func, name){ return func(name) + ' ' + name.split('').reverse().join(''); }); equal(backwards('moe'), 'hi: moe eom', 'wrapped the saluation function'); var inner = function(){ return "Hello "; }; var obj = {name : "Moe"}; obj.hi = _.wrap(inner, function(fn){ return fn() + this.name; }); equal(obj.hi(), "Hello Moe"); var noop = function(){}; var wrapped = _.wrap(noop, function(fn){ return Array.prototype.slice.call(arguments, 0); }); var ret = wrapped(['whats', 'your'], 'vector', 'victor'); deepEqual(ret, [noop, ['whats', 'your'], 'vector', 'victor']); }); `) }) } // compose func Test_underscore_functions_6(t *testing.T) { tt(t, func() { test, _ := test_() test(` test("compose", function() { var greet = function(name){ return "hi: " + name; }; var exclaim = function(sentence){ return sentence + '!'; }; var composed = _.compose(exclaim, greet); equal(composed('moe'), 'hi: moe!', 'can compose a function that takes another'); composed = _.compose(greet, exclaim); equal(composed('moe'), 'hi: moe!', 'in this case, the functions are also commutative'); }); `) }) } // after func Test_underscore_functions_7(t *testing.T) { tt(t, func() { test, _ := test_() test(` test("after", function() { var testAfter = function(afterAmount, timesCalled) { var afterCalled = 0; var after = _.after(afterAmount, function() { afterCalled++; }); while (timesCalled--) after(); return afterCalled; }; equal(testAfter(5, 5), 1, "after(N) should fire after being called N times"); equal(testAfter(5, 4), 0, "after(N) should not fire unless called N times"); equal(testAfter(0, 0), 1, "after(0) should fire immediately"); }); `) }) }