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utl/test/tests/deque.cpp

deque.cpp 14 KiB
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DEV: add deque (based on ring buffer) to utl
3 years ago
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  1. /*!

  2.  * \file deque.cpp

  3.  * \brief

  4.  *      Unit tests for deque

  5.  *

  6.  * \copyright Copyright (C) 2020 Christos Choutouridis <christos@choutouridis.net>

  7.  *

  8.  * <dl class=\"section copyright\"><dt>License</dt><dd>

  9.  * The MIT License (MIT)

  10.  *

  11.  * Permission is hereby granted, free of charge, to any person obtaining a copy

  12.  * of this software and associated documentation files (the "Software"), to deal

  13.  * in the Software without restriction, including without limitation the rights

  14.  * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell

  15.  * copies of the Software, and to permit persons to whom the Software is

  16.  * furnished to do so, subject to the following conditions:

  17.  *

  18.  * The above copyright notice and this permission notice shall be included in all

  19.  * copies or substantial portions of the Software.

  20.  *

  21.  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR

  22.  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,

  23.  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE

  24.  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER

  25.  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,

  26.  * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE

  27.  * SOFTWARE.

  28.  * </dd></dl>

  29.  *

  30.  */

  31. #include <utl/container/deque.h>

  32. //#include <utl/container/span.h>

  33. #include <gtest/gtest.h>

  34. 

  35. #include <array>

  36. #include <type_traits>

  37. #include <cstring>

  38. #ifndef WIN_TRHEADS

  39. #include <mutex>

  40. #include <thread>

  41. #else

  42. #include <mingw.thread.h>

  43. #include <mingw.mutex.h>

  44. #endif

  45. 

  46. namespace Tdeque {

  47.     using namespace utl;

  48. 

  49. //    template <typename>

  50. //    struct is_span : std::false_type {};

  51. //

  52. //    template <typename T, std::size_t S>

  53. //    struct is_span<tbx::span<T, S>> : std::true_type {};

  54. 

  55.     template <typename>

  56.     struct is_std_array : std::false_type {};

  57. 

  58.     template <typename T, std::size_t N>

  59.     struct is_std_array<std::array<T, N>> : std::true_type {};

  60. 

  61.     template <typename, typename = void>

  62.     struct has_size_and_data : std::false_type {};

  63. 

  64.     template <typename T>

  65.     struct has_size_and_data<T, std::void_t<decltype(std::declval<T>().size()),

  66.                                             decltype(std::declval<T>().data())>>

  67.         : std::true_type {};

  68. 

  69.     // Concept

  70.     TEST(Tdeque, concept) {

  71.         using deque_t = deque<int, 8>;

  72. 

  73.         EXPECT_EQ ( std::is_default_constructible<deque_t>::value, true);

  74.         EXPECT_EQ ( std::is_nothrow_default_constructible<deque_t>::value, true);

  75.         EXPECT_EQ (!std::is_copy_constructible<deque_t>::value, true);

  76.         EXPECT_EQ (!std::is_copy_assignable<deque_t>::value, true);

  77. 

  78. //        EXPECT_EQ (true, !is_span<deque_t>::value);

  79.         EXPECT_EQ (true, !is_std_array<deque_t>::value);

  80.         EXPECT_EQ (true, !std::is_array<deque_t>::value);

  81.         EXPECT_EQ (true,  has_size_and_data<deque_t>::value);

  82.     }

  83.     // Test construction

  84.     TEST(Tdeque, contruct) {

  85.         deque<int, 8> q1;

  86.         deque<int, 8> q2{1, 2, 3, 4, 5, 6, 7, 8};

  87.         deque<int, 8> q3{1, 2, 3, 4, 5};

  88. 

  89.         EXPECT_EQ (8UL, q1.capacity());

  90.         EXPECT_EQ (0UL, q1.size());

  91.         EXPECT_EQ (8UL, q2.capacity());

  92.         EXPECT_EQ (8UL, q2.size());

  93.         EXPECT_EQ (8UL, q3.capacity());

  94.         EXPECT_EQ (5UL, q3.size());

  95.     }

  96. 

  97.     // simple push-pop functionality

  98.     TEST(Tdeque, push_pop) {

  99.         deque<int, 8> q1;

  100.         deque<int, 8> q2{1, 2, 3, 4, 5, 6, 7, 8};

  101. 

  102.         q1.push_front(1);

  103.         q1.push_front(2);

  104.         EXPECT_EQ (1, q1.pop_back());

  105.         EXPECT_EQ (2, q1.pop_back());

  106. 

  107.         q1.push_back(1);

  108.         q1.push_back(2);

  109.         EXPECT_EQ (1, q1.pop_front());

  110.         EXPECT_EQ (2, q1.pop_front());

  111. 

  112.         q1.push_front(2);

  113.         q1.push_back(3);

  114.         q1.push_front(1);

  115.         q1.push_back(4);

  116. 

  117.         for (int i=1 ; i<= 4 ; ++i)

  118.             EXPECT_EQ ((int)i, q1.pop_front());

  119.     }

  120. 

  121.     // front-back

  122.     TEST(Tdeque, front_back) {

  123.         deque<int, 8> q1;

  124.         deque<int, 8> q2{1, 2, 3, 4, 5, 6, 7, 8};

  125. 

  126.         q1.push_front(2);

  127.         q1.push_front(1);

  128.         q1.push_back(3);

  129.         q1.push_back(4);

  130. 

  131.         EXPECT_EQ (1, q1.front());

  132.         EXPECT_EQ (4, q1.back());

  133.         EXPECT_EQ (1, q2.front());

  134.         EXPECT_EQ (8, q2.back());

  135.     }

  136. 

  137.     // capacity

  138.     TEST(Tdeque, capacity) {

  139.         deque<int, 8> q1;

  140.         deque<int, 8> q2{1, 2, 3, 4, 5, 6, 7, 8};

  141. 

  142.         q1.push_back(1);

  143.         q1.clear();

  144.         EXPECT_EQ (true, q1.empty());

  145.         EXPECT_EQ (true, q2.full());

  146. 

  147.         EXPECT_EQ (8UL, q1.capacity());

  148.         EXPECT_EQ (8UL, q2.capacity());

  149. 

  150.         EXPECT_EQ (0UL, q1.size());

  151.         EXPECT_EQ (8UL, q2.size());

  152. 

  153.         q1.push_back(2);

  154.         EXPECT_EQ (1UL, q1.size());

  155.         q1.push_front(1);

  156.         EXPECT_EQ (2UL, q1.size());

  157. 

  158.         q1.pop_back();

  159.         EXPECT_EQ (1UL, q1.size());

  160.         q1.pop_front();

  161.         EXPECT_EQ (0UL, q1.size());

  162.     }

  163. 

  164.     // push-pop limits

  165.     TEST (Tdeque, push_pop_limits) {

  166.         deque<int, 8> q1;

  167.         deque<int, 8> q2{1, 2, 3, 4, 5, 6, 7, 8};

  168. 

  169.         EXPECT_EQ (int{}, q1.pop_back());

  170.         EXPECT_EQ (0UL, q1.size());

  171.         EXPECT_EQ (true, q1.empty());

  172.         EXPECT_EQ (false, q1.full());

  173. 

  174.         EXPECT_EQ (int{}, q1.pop_front());

  175.         EXPECT_EQ (0UL, q1.size());

  176.         EXPECT_EQ (true, q1.empty());

  177.         EXPECT_EQ (false, q1.full());

  178. 

  179.         q2.push_front(0);

  180.         EXPECT_EQ (1, q2.front());

  181.         EXPECT_EQ (8, q2.back());

  182.         EXPECT_EQ (8UL, q2.size());

  183.         EXPECT_EQ (false, q2.empty());

  184.         EXPECT_EQ (true, q2.full());

  185. 

  186.         q2.push_back(9);

  187.         EXPECT_EQ (1, q2.front());

  188.         EXPECT_EQ (8, q2.back());

  189.         EXPECT_EQ (8UL, q2.size());

  190.         EXPECT_EQ (false, q2.empty());

  191.         EXPECT_EQ (true, q2.full());

  192.     }

  193. 

  194.     // iterators

  195.     TEST (Tdeque, iterators) {

  196.         deque<int, 8> q1{1, 2, 3, 4, 5, 6, 7, 8};

  197.         int check_it=1;

  198. 

  199.         EXPECT_EQ (q1.begin().base(), q1.end().base());

  200.         EXPECT_NE (q1.begin().iter(), q1.end().iter());

  201.         EXPECT_EQ (1, *q1.begin());

  202.         EXPECT_EQ (true, (q1.begin() == ++q1.end()));   // loop edge iterators

  203. 

  204.         for (auto it = q1.begin() ; it != q1.end() ; ++it)

  205.             EXPECT_EQ(*it, check_it++);

  206.         EXPECT_EQ(9, check_it);         // run through all

  207. 

  208.         EXPECT_EQ (1, q1.front());      // queue stays intact

  209.         EXPECT_EQ (8, q1.back());

  210.         EXPECT_EQ (8UL, q1.size());

  211.         EXPECT_EQ (false, q1.empty());

  212.         EXPECT_EQ (true, q1.full());

  213. 

  214.         q1.pop_front();

  215.         q1.pop_back();

  216. 

  217.         check_it=2;

  218.         for (auto& it : q1)

  219.             EXPECT_EQ(it, check_it++);

  220.         EXPECT_EQ(8, check_it);         // run through all

  221. 

  222.         EXPECT_EQ (2, q1.front());      // queue stays intact

  223.         EXPECT_EQ (7, q1.back());

  224.         EXPECT_EQ (6UL, q1.size());

  225.         EXPECT_EQ (false, q1.empty());

  226.         EXPECT_EQ (false, q1.full());

  227. 

  228.         deque<int, 8> q2;

  229.         q2.push_front(2);

  230.         q2.push_front(1);

  231.         q2.push_back(3);

  232.         q2.push_back(4);

  233.         q2.push_back(5);

  234.         check_it =1;

  235.         for (auto& it : q2)

  236.             EXPECT_EQ(it, check_it++);

  237.         EXPECT_EQ(6, check_it);         // run through all

  238. 

  239.     }

  240.     TEST (Tdeque, range) {

  241.         deque<int, 8> q1{1, 2, 3, 4, 5, 6, 7, 8};

  242.         int check_it=1;

  243. 

  244.         for (auto& it : q1.contents())

  245.             EXPECT_EQ(it, check_it++);

  246. 

  247.         EXPECT_EQ(9, check_it);         // run through all

  248.     }

  249. 

  250. 

  251.     // Concept

  252.     TEST(Tdeque, concept_atomic) {

  253.         using deque_t = deque<int, 8, true>;

  254. 

  255. //        EXPECT_EQ (true, !is_span<deque_t>::value);

  256.         EXPECT_EQ (true, !is_std_array<deque_t>::value);

  257.         EXPECT_EQ (true, !std::is_array<deque_t>::value);

  258.         EXPECT_EQ (true,  has_size_and_data<deque_t>::value);

  259.     }

  260.     // Test construction

  261.     TEST(Tdeque, contruct_atomic) {

  262.         deque<int, 8, true> q1;

  263.         deque<int, 8, true> q2{1, 2, 3, 4, 5, 6, 7, 8};

  264.         deque<int, 8, true> q3{1, 2, 3, 4, 5};

  265. 

  266.         EXPECT_EQ (8UL, q1.capacity());

  267.         EXPECT_EQ (0UL, q1.size());

  268.         EXPECT_EQ (8UL, q2.capacity());

  269.         EXPECT_EQ (8UL, q2.size());

  270.         EXPECT_EQ (8UL, q3.capacity());

  271.         EXPECT_EQ (5UL, q3.size());

  272.     }

  273. 

  274.     // simple push-pop functionality

  275.     TEST(Tdeque, push_pop_atomic) {

  276.         deque<int, 8, true> q1;

  277.         deque<int, 8, true> q2{1, 2, 3, 4, 5, 6, 7, 8};

  278. 

  279.         q1.push_front(1);

  280.         q1.push_front(2);

  281.         EXPECT_EQ (1, q1.pop_back());

  282.         EXPECT_EQ (2, q1.pop_back());

  283. 

  284.         q1.push_back(1);

  285.         q1.push_back(2);

  286.         EXPECT_EQ (1, q1.pop_front());

  287.         EXPECT_EQ (2, q1.pop_front());

  288. 

  289.         q1.push_front(2);

  290.         q1.push_back(3);

  291.         q1.push_front(1);

  292.         q1.push_back(4);

  293. 

  294.         for (int i=1 ; i<= 4 ; ++i)

  295.             EXPECT_EQ ((int)i, q1.pop_front());

  296.     }

  297. 

  298.     // front-back

  299.     TEST(Tdeque, front_back_atomic) {

  300.         deque<int, 8, true> q1;

  301.         deque<int, 8, true> q2{1, 2, 3, 4, 5, 6, 7, 8};

  302. 

  303.         q1.push_front(2);

  304.         q1.push_front(1);

  305.         q1.push_back(3);

  306.         q1.push_back(4);

  307. 

  308.         EXPECT_EQ (1, q1.front());

  309.         EXPECT_EQ (4, q1.back());

  310.         EXPECT_EQ (1, q2.front());

  311.         EXPECT_EQ (8, q2.back());

  312.     }

  313. 

  314.     // capacity

  315.     TEST(Tdeque, capacity_atomic) {

  316.         deque<int, 8, true> q1;

  317.         deque<int, 8, true> q2{1, 2, 3, 4, 5, 6, 7, 8};

  318. 

  319.         q1.push_back(1);

  320.         q1.clear();

  321.         EXPECT_EQ (true, q1.empty());

  322.         EXPECT_EQ (true, q2.full());

  323. 

  324.         EXPECT_EQ (8UL, q1.capacity());

  325.         EXPECT_EQ (8UL, q2.capacity());

  326. 

  327.         EXPECT_EQ (0UL, q1.size());

  328.         EXPECT_EQ (8UL, q2.size());

  329. 

  330.         q1.push_back(2);

  331.         EXPECT_EQ (1UL, q1.size());

  332.         q1.push_front(1);

  333.         EXPECT_EQ (2UL, q1.size());

  334. 

  335.         q1.pop_back();

  336.         EXPECT_EQ (1UL, q1.size());

  337.         q1.pop_front();

  338.         EXPECT_EQ (0UL, q1.size());

  339.     }

  340. 

  341.     // push-pop limits

  342.     TEST (Tdeque, push_pop_limits_atomic) {

  343.         deque<int, 8, true> q1;

  344.         deque<int, 8, true> q2{1, 2, 3, 4, 5, 6, 7, 8};

  345. 

  346.         EXPECT_EQ (int{}, q1.pop_back());

  347.         EXPECT_EQ (0UL, q1.size());

  348.         EXPECT_EQ (true, q1.empty());

  349.         EXPECT_EQ (false, q1.full());

  350. 

  351.         EXPECT_EQ (int{}, q1.pop_front());

  352.         EXPECT_EQ (0UL, q1.size());

  353.         EXPECT_EQ (true, q1.empty());

  354.         EXPECT_EQ (false, q1.full());

  355. 

  356.         q2.push_front(0);

  357.         EXPECT_EQ (1, q2.front());

  358.         EXPECT_EQ (8, q2.back());

  359.         EXPECT_EQ (8UL, q2.size());

  360.         EXPECT_EQ (false, q2.empty());

  361.         EXPECT_EQ (true, q2.full());

  362. 

  363.         q2.push_back(9);

  364.         EXPECT_EQ (1, q2.front());

  365.         EXPECT_EQ (8, q2.back());

  366.         EXPECT_EQ (8UL, q2.size());

  367.         EXPECT_EQ (false, q2.empty());

  368.         EXPECT_EQ (true, q2.full());

  369.     }

  370. 

  371.     // iterators

  372.     TEST (Tdeque, iterators_atomic) {

  373.         deque<int, 8, true> q1{1, 2, 3, 4, 5, 6, 7, 8};

  374.         int check_it=1;

  375. 

  376.         EXPECT_EQ (q1.begin().base(), q1.end().base());

  377.         EXPECT_NE (q1.begin().iter(), q1.end().iter());

  378.         EXPECT_EQ (1, *q1.begin());

  379.         EXPECT_EQ (true, (q1.begin() == ++q1.end()));   // loop edge iterators

  380. 

  381.         for (auto it = q1.begin() ; it != q1.end() ; ++it)

  382.             EXPECT_EQ(*it, check_it++);

  383.         EXPECT_EQ(9, check_it);         // run through all

  384. 

  385.         EXPECT_EQ (1, q1.front());      // queue stays intact

  386.         EXPECT_EQ (8, q1.back());

  387.         EXPECT_EQ (8UL, q1.size());

  388.         EXPECT_EQ (false, q1.empty());

  389.         EXPECT_EQ (true, q1.full());

  390. 

  391.         q1.pop_front();

  392.         q1.pop_back();

  393. 

  394.         check_it=2;

  395.         for (auto& it : q1)

  396.             EXPECT_EQ(it, check_it++);

  397.         EXPECT_EQ(8, check_it);         // run through all

  398. 

  399.         EXPECT_EQ (2, q1.front());      // queue stays intact

  400.         EXPECT_EQ (7, q1.back());

  401.         EXPECT_EQ (6UL, q1.size());

  402.         EXPECT_EQ (false, q1.empty());

  403.         EXPECT_EQ (false, q1.full());

  404. 

  405.         deque<int, 8, true> q2;

  406.         q2.push_front(2);

  407.         q2.push_front(1);

  408.         q2.push_back(3);

  409.         q2.push_back(4);

  410.         q2.push_back(5);

  411.         check_it =1;

  412.         for (auto& it : q2)

  413.             EXPECT_EQ(it, check_it++);

  414.         EXPECT_EQ(6, check_it);         // run through all

  415. 

  416.     }

  417.     TEST (Tdeque, range_atomic) {

  418.         deque<int, 8, true> q1{1, 2, 3, 4, 5, 6, 7, 8};

  419.         int check_it=1;

  420. 

  421.         for (auto& it : q1.contents())

  422.             EXPECT_EQ(it, check_it++);

  423. 

  424.         EXPECT_EQ(9, check_it);         // run through all

  425.     }

  426. 

  427.     TEST(Tdeque, race) {

  428.         constexpr size_t N = 1000000;

  429.         deque<int, N, true> q;

  430.         int result[N];

  431. 

  432.         auto push_front = [&](){

  433.             for (size_t i=1 ; i<=N ; ++i)   q.push_front(i);

  434.         };

  435.         auto push_back = [&](){

  436.             for (size_t i=1 ; i<=N ; ++i)   q.push_back(i);

  437.         };

  438.         auto pop_front = [&](){

  439.             for (size_t i=0 ; i<N ; ) {

  440.                 result[i] = q.pop_front();

  441.                 if (result[i] != int{})

  442.                     ++i;

  443.             }

  444.         };

  445.         auto pop_back = [&](){

  446.             for (size_t i=0 ; i<N ; ) {

  447.                 result[i] = q.pop_back();

  448.                 if (result[i] != int{})

  449.                     ++i;

  450.             }

  451.         };

  452. 

  453.         std::memset(result, 0, sizeof result);

  454.         std::thread th1 (push_front);

  455.         std::thread th2 (pop_back);

  456.         th1.join();

  457.         th2.join();

  458.         for (size_t i=0 ; i<N ; ++i)

  459.             EXPECT_EQ (result[i], (int)i+1);

  460. 

  461.         std::memset(result, 0, sizeof result);

  462.         std::thread th3 (push_back);

  463.         std::thread th4 (pop_front);

  464.         th3.join();

  465.         th4.join();

  466.         for (size_t i=0 ; i<N ; ++i)

  467.             EXPECT_EQ (result[i], (int)i+1);

  468.     }

  469. }