mirror of
https://github.com/Jermolene/TiddlyWiki5
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65932a9b21
* Outlines of the mem efficient linked list Need to stop for now. Found problem with $tw.utils.pushTop that I need consultation for. * Link list throws when given non-string vals * Think I got rid of the last LinkList infinite loops * LinkedList push better; fixed coding conventions * Cleaning up LinkedList code and tests * Ready to ship new mem efficient Linked List * Switching to double quotes in LinkedList
271 lines
9.2 KiB
JavaScript
271 lines
9.2 KiB
JavaScript
/*\
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title: test-linked-list.js
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type: application/javascript
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tags: [[$:/tags/test-spec]]
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Tests the utils.LinkedList class.
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LinkedList was built to behave exactly as $tw.utils.pushTop and
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Array.prototype.push would behave with an array.
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Many of these tests function by performing operations on a paired set of
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an array and LinkedList. It uses equivalent actions on both.
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Then we confirm that the two come out functionally identical.
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NOTE TO FURTHER LINKED LIST DEVELOPERS:
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If you want to add new functionality, like 'shift' or 'unshift', you'll
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probably need to deal with the fact that Linked List will insert undefined
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as a first entry into an item's 'prev' array when it's at the front of
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the list, but it doesn't do the same for the 'next' array when it's at
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the end. I think you'll probably be better off preventing 'prev' from ever
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adding undefined.
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\*/
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(function(){
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/*jslint node: true, browser: true */
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/*global $tw: false */
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"use strict";
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describe("LinkedList class tests", function() {
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// creates and initializes a new {array, list} pair for testing
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function newPair(initialArray) {
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var pair = {array: [], list: new $tw.utils.LinkedList()};
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if (initialArray) {
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push(pair, initialArray);
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}
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return pair;
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};
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// pushTops a value or array of values into both the array and linked list.
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function pushTop(pair, valueOrValues) {
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pair.list.pushTop(valueOrValues);
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$tw.utils.pushTop(pair.array, valueOrValues);
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return pair;
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};
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// pushes values into both the array and the linked list.
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function push(pair, values) {
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pair.list.push(values);
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pair.array.push.apply(pair.array, values);
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return pair;
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};
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// operates a remove action on an array and a linked list in parallel.
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function remove(pair, valueOrValues) {
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pair.list.remove(valueOrValues);
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$tw.utils.removeArrayEntries(pair.array, valueOrValues);
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return pair;
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};
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// compares an array and a linked list to make sure they match up
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function compare(pair) {
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expect(pair.list.toArray()).toEqual(pair.array);
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expect(pair.list.length).toBe(pair.array.length);
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return pair;
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};
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it("can pushTop", function() {
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var pair = newPair(["A", "B", "C"]);
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// singles
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pushTop(pair, "X");
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pushTop(pair, "B");
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compare(pair); // ACXB
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//arrays
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pushTop(pair, ["X", "A", "G", "A"]);
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// If the pushedTopped list has duplicates, they go in unempeded.
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compare(pair); // CBXAGA
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});
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it("can pushTop with tricky duplicates", function() {
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var pair = newPair(["A", "B", "A", "C", "A", "e"]);
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// If the original list contains duplicates, only one instance is cut
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compare(pushTop(pair, "A")); // BACAeA
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// And the Llist properly knows the next 'A' to cut if pushed again
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compare(pushTop(pair, ["X", "A"])); // BCAeAXA
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// One last time, to make sure we maintain the linked chain of copies
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compare(pushTop(pair, "A")); // BCeAXAA
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});
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it("can pushTop a single-value list with itself", function() {
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// This simple case actually requires special handling in LinkedList.
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compare(pushTop(newPair(["A"]), "A")); // A
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});
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it("can remove all instances of a multi-instance value", function() {
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var pair = compare(remove(newPair(["A", "A"]), ["A", "A"])); //
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// Now add 'A' back in, since internally it might be using arrays,
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// even though those arrays must be empty.
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compare(pushTop(pair, "A")); // A
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// Same idea, but push something else before readding 'A'
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compare(pushTop(remove(newPair(["A", "A"]), ["A", "A"]), ["B", "A"])); // BA
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// Again, but this time with other values mixed in
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compare(remove(newPair(["B", "A", "A", "C"]), ["A", "A"])) // BC;
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// And again, but this time with value inbetween too.
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compare(remove(newPair(["B", "A", "X", "Y", "Z", "A", "C"]), ["A", "A"])); // BXYZC
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// One last test, where removing a pair from the end could corrupt
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// list.last.
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pair = remove(newPair(["D", "C", "A", "A"]), ["A", "A"]);
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// But I can't figure out another way to test this. It's wrong
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// for list.last to be anything other than a string, but I
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// can't figure out how to make that corruption manifest a problem.
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// So I dig into its private members. Bleh...
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expect(typeof pair.list.last).toBe("string");
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});
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it("can pushTop value linked to by a repeat item", function() {
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var pair = newPair(["A", "B", "A", "C", "A", "C", "D"]);
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// This is tricky because that 'C' is referenced by a second 'A'
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// It WAS a crash before
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pushTop(pair, "C");
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compare(pair); // ABAACDC
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});
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it("can pushTop last value after pair", function() {
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// The 'next' ptrs for A would be polluted with an extraneous
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// undefined after the pop, which would make pushing the 'X'
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// back on problematic.
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compare(pushTop(newPair(["A", "A", "X"]), "X")); // AACX
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// And lets try a few other manipulations around pairs
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compare(pushTop(newPair(["A", "A", "X", "C"]), "X")); // AACX
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compare(pushTop(newPair(["X", "A", "A"]), "X")); // AAX
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compare(pushTop(newPair(["C", "X", "A", "A"]), "X")); // CAAX
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});
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it("can handle particularly nasty pushTop pitfall", function() {
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var pair = newPair(["A", "B", "A", "C"]);
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pushTop(pair, "A"); // BACA
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pushTop(pair, "X"); // BACAX
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remove(pair, "A"); // BCAX
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pushTop(pair, "A"); // BCXA
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remove(pair, "A"); // BCX
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// But! The way I initially coded the copy chains, a mystery A could
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// hang around.
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compare(pair); // BCX
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});
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it("can handle past-duplicate items when pushing", function() {
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var pair = newPair(["X", "Y", "A", "C", "A"]);
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// Removing an item, when it has a duplicat at the list's end
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remove(pair, "A");
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compare(pair); // XYCA
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// This actually caused an infinite loop once. So important test here.
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push(pair, ["A"]);
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compare(pair); // XYCAA
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pushTop(pair, "A") // switch those last As
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compare(pair); // XYCAA
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remove(pair, ["A", "A"]); // Remove all As, then add them back
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pushTop(pair, ["A", "A"])
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compare(pair); // XYCAA
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});
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it("can push", function() {
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var list = new $tw.utils.LinkedList();
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// singles
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expect(list.push("A")).toBe(1);
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expect(list.push("B")).toBe(2);
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// multiple args
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expect(list.push("C", "D", "E")).toBe(5);
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// array arg allowed
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expect(list.push(["F", "G"])).toBe(7);
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// No-op
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expect(list.push()).toBe(7);
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expect(list.toArray()).toEqual(["A", "B", "C", "D", "E", "F", "G"]);
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});
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it("can handle empty string", function() {
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compare(newPair(["", "", ""])); // ___
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compare(push(newPair([""]), [""])); // __
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compare(pushTop(newPair(["", "", ""]), ["A", ""])); // __A_
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compare(remove(newPair(["", "A"]), "A")); // _
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compare(push(newPair(["", "A"]), ["A"])); // _AA
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compare(remove(newPair(["A", ""]), "A")); // _
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compare(push(newPair(["A", ""]), ["A"])); // A_A
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// This one is tricky but precise. Remove 'B', and 'A' might mistake
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// it as being first in the list since it's before ''. 'C' would get
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// blasted from A's prev reference array.
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compare(remove(newPair(["C", "A", "", "B", "A"]), ["B", "A"])); // C_A
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// Same idea, but with A mistaking B for being at the list's end, and
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// thus removing C from its 'next' reference array.
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compare(remove(newPair(["A", "B", "", "A", "C"]), ["B", "A"])); // _AC
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});
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it("will throw if told to push non-strings", function() {
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var message = "Linked List only accepts string values, not ";
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var list = new $tw.utils.LinkedList();
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expect(() => list.push(undefined)).toThrow(message + "undefined");
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expect(() => list.pushTop(undefined)).toThrow(message + "undefined");
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expect(() => list.pushTop(["c", undefined])).toThrow(message + "undefined");
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expect(() => list.pushTop(5)).toThrow(message + "5");
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expect(() => list.pushTop(null)).toThrow(message + "null");
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// now lets do a quick test to make sure this exception
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// doesn't leave any side-effects
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// A.K.A Strong guarantee
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var pair = newPair(["A", "5", "B", "C"]);
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expect(() => pushTop(pair, 5)).toThrow(message + "5");
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compare(pair);
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expect(() => push(pair, ["D", 7])).toThrow(message + "7");
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compare(pair);
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expect(() => remove(pair, 5)).toThrow(message + "5");
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compare(pair);
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// This is the tricky one. 'A' and 'B' should not be removed or pushed.
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expect(() => pushTop(pair, ["A", "B", null])).toThrow(message + "null");
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compare(pair);
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expect(() => remove(pair, ["A", "B", null])).toThrow(message + "null");
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compare(pair);
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});
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it("can clear", function() {
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var list = new $tw.utils.LinkedList();
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list.push("A", "B", "C");
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list.clear();
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expect(list.toArray()).toEqual([]);
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expect(list.length).toBe(0);
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});
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it("can remove", function() {
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var list = new $tw.utils.LinkedList();
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list.push(["A", "x", "C", "x", "D", "x", "E", "x"]);
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// single
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list.remove("x");
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// arrays
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list.remove(["x", "A", "XXX", "x"]);
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expect(list.toArray()).toEqual(["C", "D", "E", "x"]);
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});
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it("can ignore removal of nonexistent items", function() {
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var pair = newPair(["A", "B", "C", "D"]);
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// single
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compare(remove(pair, "Z")); // ABCD
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// array
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compare(remove(pair, ["Z", "B", "X"])); // ACD
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});
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it("can iterate with each", function() {
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var list = new $tw.utils.LinkedList();
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list.push("0", "1", "2", "3");
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var counter = 0;
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list.each(function(value) {
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expect(value).toBe(counter.toString());
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counter = counter + 1;
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});
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expect(counter).toBe(4);
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});
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it("can iterate a list of the same item", function() {
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// Seems simple. Caused an infinite loop during development.
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compare(newPair(["A", "A"]));
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});
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});
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})();
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