428 lines
13 KiB
C++
428 lines
13 KiB
C++
/********************************************************************************
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* ReactPhysics3D physics library, http://www.reactphysics3d.com *
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* Copyright (c) 2010-2016 Daniel Chappuis *
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*********************************************************************************
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* *
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* This software is provided 'as-is', without any express or implied warranty. *
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* In no event will the authors be held liable for any damages arising from the *
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* use of this software. *
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* *
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* Permission is granted to anyone to use this software for any purpose, *
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* including commercial applications, and to alter it and redistribute it *
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* freely, subject to the following restrictions: *
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* *
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* 1. The origin of this software must not be misrepresented; you must not claim *
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* that you wrote the original software. If you use this software in a *
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* product, an acknowledgment in the product documentation would be *
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* appreciated but is not required. *
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* *
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* 2. Altered source versions must be plainly marked as such, and must not be *
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* misrepresented as being the original software. *
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* *
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* 3. This notice may not be removed or altered from any source distribution. *
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* *
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********************************************************************************/
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#ifndef TEST_LIST_H
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#define TEST_LIST_H
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// Libraries
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#include "Test.h"
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#include <reactphysics3d/containers/List.h>
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#include <reactphysics3d/memory/DefaultAllocator.h>
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/// Reactphysics3D namespace
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namespace reactphysics3d {
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// Class TestList
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/**
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* Unit test for the List class
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*/
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class TestList : public Test {
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private :
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// ---------- Atributes ---------- //
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DefaultAllocator mAllocator;
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public :
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// ---------- Methods ---------- //
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/// Constructor
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TestList(const std::string& name) : Test(name) {
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}
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/// Run the tests
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void run() {
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testConstructors();
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testAddRemoveClear();
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testAssignment();
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testIndexing();
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testFind();
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testEquality();
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testReserve();
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testIterators();
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}
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void testConstructors() {
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// ----- Constructors ----- //
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List<int> list1(mAllocator);
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rp3d_test(list1.capacity() == 0);
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rp3d_test(list1.size() == 0);
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List<int> list2(mAllocator, 100);
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rp3d_test(list2.capacity() == 100);
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rp3d_test(list2.size() == 0);
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List<int> list3(mAllocator);
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list3.add(1);
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list3.add(2);
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list3.add(3);
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rp3d_test(list3.capacity() == 4);
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rp3d_test(list3.size() == 3);
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// ----- Copy Constructors ----- //
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List<int> list4(list1);
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rp3d_test(list4.capacity() == 0);
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rp3d_test(list4.size() == 0);
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List<int> list5(list3);
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rp3d_test(list5.capacity() == list3.size());
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rp3d_test(list5.size() == list3.size());
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for (uint i=0; i<list3.size(); i++) {
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rp3d_test(list5[i] == list3[i]);
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}
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// ----- Test capacity grow ----- //
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List<std::string> list6(mAllocator, 20);
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rp3d_test(list6.capacity() == 20);
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for (uint i=0; i<20; i++) {
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list6.add("test");
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}
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rp3d_test(list6.capacity() == 20);
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list6.add("test");
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rp3d_test(list6.capacity() == 40);
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}
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void testAddRemoveClear() {
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// ----- Test add() ----- //
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List<int> list1(mAllocator);
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list1.add(4);
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rp3d_test(list1.size() == 1);
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rp3d_test(list1[0] == 4);
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list1.add(9);
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rp3d_test(list1.size() == 2);
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rp3d_test(list1[0] == 4);
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rp3d_test(list1[1] == 9);
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const int arraySize = 15;
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int arrayTest[arraySize] = {3, 145, -182, 34, 12, 95, -1834, 4143, -111, -111, 4343, 234, 22983, -3432, 753};
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List<int> list2(mAllocator);
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for (uint i=0; i<arraySize; i++) {
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list2.add(arrayTest[i]);
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}
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rp3d_test(list2.size() == arraySize);
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for (uint i=0; i<arraySize; i++) {
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rp3d_test(list2[i] == arrayTest[i]);
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}
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// ----- Test remove() ----- //
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List<int> list3(mAllocator);
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list3.add(1);
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list3.add(2);
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list3.add(3);
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list3.add(4);
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auto it = list3.removeAt(3);
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rp3d_test(list3.size() == 3);
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rp3d_test(list3.capacity() == 4);
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rp3d_test(it == list3.end());
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rp3d_test(list3[0] == 1);
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rp3d_test(list3[1] == 2);
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rp3d_test(list3[2] == 3);
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it = list3.removeAt(1);
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rp3d_test(list3.size() == 2);
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rp3d_test(list3.capacity() == 4);
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rp3d_test(list3[0] == 1);
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rp3d_test(list3[1] == 3);
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rp3d_test(*it == 3);
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list3.removeAt(0);
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rp3d_test(list3.size() == 1);
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rp3d_test(list3.capacity() == 4);
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rp3d_test(list3[0] == 3);
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it = list3.removeAt(0);
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rp3d_test(list3.size() == 0);
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rp3d_test(list3.capacity() == 4);
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rp3d_test(it == list3.end());
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list3.add(1);
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list3.add(2);
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list3.add(3);
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it = list3.begin();
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list3.remove(it);
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rp3d_test(list3.size() == 2);
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rp3d_test(list3[0] == 2);
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rp3d_test(list3[1] == 3);
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it = list3.find(3);
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list3.remove(it);
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rp3d_test(list3.size() == 1);
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rp3d_test(list3[0] == 2);
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list3.add(5);
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list3.add(6);
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list3.add(7);
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it = list3.remove(7);
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rp3d_test(it == list3.end());
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rp3d_test(list3.size() == 3);
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it = list3.remove(5);
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rp3d_test((*it) == 6);
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// ----- Test addRange() ----- //
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List<int> list4(mAllocator);
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list4.add(1);
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list4.add(2);
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list4.add(3);
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List<int> list5(mAllocator);
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list5.add(4);
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list5.add(5);
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List<int> list6(mAllocator);
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list6.addRange(list5);
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rp3d_test(list6.size() == list5.size());
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rp3d_test(list6[0] == 4);
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rp3d_test(list6[1] == 5);
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list4.addRange(list5);
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rp3d_test(list4.size() == 3 + list5.size());
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rp3d_test(list4[0] == 1);
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rp3d_test(list4[1] == 2);
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rp3d_test(list4[2] == 3);
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rp3d_test(list4[3] == 4);
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rp3d_test(list4[4] == 5);
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// ----- Test clear() ----- //
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List<std::string> list7(mAllocator);
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list7.add("test1");
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list7.add("test2");
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list7.add("test3");
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list7.clear();
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rp3d_test(list7.size() == 0);
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list7.add("new");
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rp3d_test(list7.size() == 1);
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rp3d_test(list7[0] == "new");
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}
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void testAssignment() {
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List<int> list1(mAllocator);
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list1.add(1);
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list1.add(2);
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list1.add(3);
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List<int> list2(mAllocator);
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list2.add(5);
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list2.add(6);
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List<int> list3(mAllocator);
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List<int> list4(mAllocator);
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list4.add(1);
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list4.add(2);
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List<int> list5(mAllocator);
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list5.add(1);
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list5.add(2);
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list5.add(3);
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list3 = list2;
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rp3d_test(list2.size() == list3.size());
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rp3d_test(list2[0] == list3[0]);
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rp3d_test(list2[1] == list3[1]);
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list4 = list1;
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rp3d_test(list4.size() == list1.size())
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rp3d_test(list4[0] == list1[0]);
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rp3d_test(list4[1] == list1[1]);
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rp3d_test(list4[2] == list1[2]);
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list5 = list2;
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rp3d_test(list5.size() == list2.size());
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rp3d_test(list5[0] == list2[0]);
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rp3d_test(list5[1] == list2[1]);
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}
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void testIndexing() {
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List<int> list1(mAllocator);
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list1.add(1);
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list1.add(2);
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list1.add(3);
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rp3d_test(list1[0] == 1);
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rp3d_test(list1[1] == 2);
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rp3d_test(list1[2] == 3);
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list1[0] = 6;
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list1[1] = 7;
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list1[2] = 8;
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rp3d_test(list1[0] == 6);
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rp3d_test(list1[1] == 7);
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rp3d_test(list1[2] == 8);
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const int a = list1[0];
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const int b = list1[1];
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rp3d_test(a == 6);
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rp3d_test(b == 7);
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list1[0]++;
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list1[1]++;
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rp3d_test(list1[0] == 7);
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rp3d_test(list1[1] == 8);
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}
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void testFind() {
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List<int> list1(mAllocator);
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list1.add(1);
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list1.add(2);
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list1.add(3);
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list1.add(4);
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list1.add(5);
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rp3d_test(list1.find(1) == list1.begin());
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rp3d_test(*(list1.find(2)) == 2);
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rp3d_test(*(list1.find(5)) == 5);
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}
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void testEquality() {
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List<int> list1(mAllocator);
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list1.add(1);
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list1.add(2);
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list1.add(3);
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List<int> list2(mAllocator);
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list2.add(1);
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list2.add(2);
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List<int> list3(mAllocator);
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list3.add(1);
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list3.add(2);
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list3.add(3);
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List<int> list4(mAllocator);
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list4.add(1);
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list4.add(5);
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list4.add(3);
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rp3d_test(list1 == list1);
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rp3d_test(list1 != list2);
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rp3d_test(list1 == list3);
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rp3d_test(list1 != list4);
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rp3d_test(list2 != list4);
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}
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void testReserve() {
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List<int> list1(mAllocator);
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list1.reserve(10);
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rp3d_test(list1.size() == 0);
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rp3d_test(list1.capacity() == 10);
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list1.add(1);
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list1.add(2);
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rp3d_test(list1.capacity() == 10);
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rp3d_test(list1.size() == 2);
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rp3d_test(list1[0] == 1);
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rp3d_test(list1[1] == 2);
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list1.reserve(1);
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rp3d_test(list1.capacity() == 10);
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list1.reserve(100);
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rp3d_test(list1.capacity() == 100);
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rp3d_test(list1[0] == 1);
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rp3d_test(list1[1] == 2);
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}
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void testIterators() {
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List<int> list1(mAllocator);
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rp3d_test(list1.begin() == list1.end());
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list1.add(5);
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list1.add(6);
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list1.add(8);
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list1.add(-1);
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List<int>::Iterator itBegin = list1.begin();
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List<int>::Iterator itEnd = list1.end();
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List<int>::Iterator it = list1.begin();
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rp3d_test(itBegin < itEnd);
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rp3d_test(itBegin <= itEnd);
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rp3d_test(itEnd > itBegin);
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rp3d_test(itEnd >= itBegin);
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rp3d_test(itBegin == it);
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rp3d_test(*it == 5);
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rp3d_test(*(it++) == 5);
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rp3d_test(*it == 6);
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rp3d_test(*(it--) == 6);
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rp3d_test(*it == 5);
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rp3d_test(*(++it) == 6);
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rp3d_test(*it == 6);
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rp3d_test(*(--it) == 5);
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rp3d_test(*it == 5);
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rp3d_test(it == itBegin);
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it = list1.end();
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rp3d_test(it == itEnd);
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it--;
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rp3d_test(*it == -1);
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it++;
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rp3d_test(it == itEnd);
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List<int> list2(mAllocator);
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for (auto it = list1.begin(); it != list1.end(); ++it) {
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list2.add(*it);
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}
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rp3d_test(list1 == list2);
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it = itBegin;
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rp3d_test(*(it + 2) == 8);
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it += 2;
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rp3d_test(*it == 8);
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rp3d_test(*(it - 2) == 5);
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it -= 2;
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rp3d_test(*it == 5);
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rp3d_test((itEnd - itBegin) == 4);
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it = itBegin;
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*it = 19;
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rp3d_test(*it == 19);
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}
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};
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}
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#endif
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