hoo2
/
utl

/*!
 * \file equeue.cpp
 * \brief
 *      Unit tests for equeue
 *
 * \copyright Copyright (C) 2020 Christos Choutouridis <christos@choutouridis.net>
 *
 * <dl class=\"section copyright\"><dt>License</dt><dd>
 * The MIT License (MIT)
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in all
 * copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 * </dd></dl>
 *
 */
#include <utl/container/equeue.h>
#include <gtest/gtest.h>

namespace Tequeue {
    using namespace utl;

    int global_flag =0;

    // Callable mocks
    void vfun(void) { ++global_flag; }

    struct vfoo {
       void operator() (void) { ++global_flag; }
    };

    // Test construction
    TEST(Tequeue, contruct) {
        using Equeue = equeue<int, 8>;
        struct T { int a,b; };
        int local{};

        Equeue e1(Equeue::size_match::GE, 3, [](){
            ++global_flag;
        });
        Equeue e2(Equeue::size_match::GE, 3, [&](){
            ++local;
        });
        Equeue e3(Equeue::size_match::EQ, 7, vfun);
        equeue<T, 8> e4(equeue<T, 8>::size_match::EQ, 2, vfoo{});

        equeue<int, 8> q1;
        equeue<int, 8> q2(equeue<int, 8>::size_match::DISABLED, 0, nullptr);

        EXPECT_EQ (8UL, e1.capacity());
        EXPECT_EQ (8UL, e2.capacity());
        EXPECT_EQ (8UL, e3.capacity());
        EXPECT_EQ (8UL, e4.capacity());

        EXPECT_EQ (8UL, q1.capacity());
        EXPECT_EQ (8UL, q2.capacity());
    }

    // simple push-pop functionality
    TEST(Tequeue, base_class) {
        using Equeue = equeue<int, 8>;

        Equeue e1(Equeue::size_match::GE, 3, [](){
            ++global_flag;
        });

        // Access of base class functionality
        EXPECT_EQ (8UL, e1.capacity());
        EXPECT_EQ (0UL, e1.size());
        EXPECT_EQ (true, e1.empty());
        EXPECT_EQ (false, e1.full());

        e1.push(42);
        EXPECT_EQ (42, e1.front());
        EXPECT_EQ (42, e1.back());
        EXPECT_EQ (42, e1.pop());

        e1.push(1);
        e1.push(2);
        e1.push(3);

        int check_it=1;
        for (auto it = e1.begin() ; it != e1.end() ; ++it)
            EXPECT_EQ(*it, check_it++);
        EXPECT_EQ(4, check_it);         // run through all

    }

    // trigger functionality
    TEST (Tequeue, set_clear_check_trigger) {
        using Equeue = equeue<int, 8>;
        bool flag{};

        Equeue e1(Equeue::size_match::GE, 1, [&](){ flag = true; });

        flag = false;
        e1.clear_trigger();
        EXPECT_EQ (false, flag);
        e1.push_back(1);            // 1,  no-trigger cleared
        EXPECT_EQ (false, flag);

        flag = false;
        e1.clear();
        e1.clear_trigger();
        EXPECT_EQ (false, flag);    // no spurious triggers
        e1.push_back(1);            // 1
        e1.push_back(2);            // 2
        e1.set_trigger(Equeue::size_match::GE, 1, [&](){ flag = true; });
        EXPECT_EQ (false, flag);    // no spurious triggers
        e1.check_trigger();         // manual trigger
        EXPECT_EQ (true, flag);

        flag = false;
        e1.check_trigger();         // manual trigger attempt
        EXPECT_EQ (false, flag);    // [SIZE triggers are auto clear]

        Equeue e2(Equeue::data_match::MATCH_PUSH, 42, [&](){ flag = true; });
        flag = false;
        e2.clear_trigger();
        EXPECT_EQ (false, flag);
        e2.push_back(42);           // push 42, no-trigger cleared
        EXPECT_EQ (false, flag);
        e2.set_trigger(Equeue::data_match::MATCH_PUSH, 42, [&](){ flag = true; });
        EXPECT_EQ (false, flag);    // no spurious triggers
        e2.push_back(42);           // push 42, trigger
        EXPECT_EQ (true, flag);

        flag = false;
        e2.push_back(42);           // push 42, re-trigger [DATA re-triggers]
        EXPECT_EQ (true, flag);
    }

    // stream push-pop
    TEST(Tequeue, stream_push_pop) {
        equeue<int, 8> q1;

        q1 << 1 << 2 << 3 << 4 << 5 << 6 << 7 << 8;
        EXPECT_EQ (8UL, q1.capacity());
        EXPECT_EQ (8UL, q1.size());
        EXPECT_EQ (false, q1.empty());
        EXPECT_EQ (true, q1.full());

        q1 << 9;                        // try to insert in full queue
        EXPECT_EQ (8UL, q1.capacity());
        EXPECT_EQ (8UL, q1.size());
        EXPECT_EQ (false, q1.empty());
        EXPECT_EQ (true, q1.full());

        int check_it=1;
        for (auto it = q1.begin() ; it != q1.end() ; ++it)
            EXPECT_EQ(*it, check_it++);
        EXPECT_EQ(9, check_it);         // run through all

        for (int i =1 ; i <= 8 ; ++i) {
            check_it << q1;
            EXPECT_EQ(i, check_it);
        }
        EXPECT_EQ (8UL, q1.capacity());
        EXPECT_EQ (0UL, q1.size());
        EXPECT_EQ (true, q1.empty());
        EXPECT_EQ (false, q1.full());

        q1 >> check_it;
        EXPECT_EQ (int{}, check_it);
    }

    // atomic
    // Test construction
    TEST(Tequeue, contruct_atomic) {
        using Equeue = equeue<int, 8, true>;
        struct T { int a,b; };
        int local{};

        Equeue e1(Equeue::size_match::GE, 3, [](){
            ++global_flag;
        });
        Equeue e2(Equeue::size_match::GE, 3, [&](){
            ++local;
        });
        Equeue e3(Equeue::size_match::EQ, 7, vfun);
        equeue<T, 8> e4(equeue<T, 8>::size_match::EQ, 2, vfoo{});

        equeue<int, 8, true> q1;
        equeue<int, 8, true> q2(equeue<int, 8, true>::size_match::DISABLED, 0, nullptr);

        EXPECT_EQ (8UL, e1.capacity());
        EXPECT_EQ (8UL, e2.capacity());
        EXPECT_EQ (8UL, e3.capacity());
        EXPECT_EQ (8UL, e4.capacity());

        EXPECT_EQ (8UL, q1.capacity());
        EXPECT_EQ (8UL, q2.capacity());
    }

    // simple push-pop functionality
    TEST(Tequeue, base_class_atomic) {
        using Equeue = equeue<int, 8, true>;

        Equeue e1(Equeue::size_match::GE, 3, [](){
            ++global_flag;
        });

        // Access of base class functionality
        EXPECT_EQ (8UL, e1.capacity());
        EXPECT_EQ (0UL, e1.size());
        EXPECT_EQ (true, e1.empty());
        EXPECT_EQ (false, e1.full());

        e1.push(42);
        EXPECT_EQ (42, e1.front());
        EXPECT_EQ (42, e1.back());
        EXPECT_EQ (42, e1.pop());

        e1.push(1);
        e1.push(2);
        e1.push(3);

        int check_it=1;
        for (auto it = e1.begin() ; it != e1.end() ; ++it)
            EXPECT_EQ(*it, check_it++);
        EXPECT_EQ(4, check_it);         // run through all

    }

    // trigger functionality
    TEST (Tequeue, set_clear_check_trigger_atomic) {
        using Equeue = equeue<int, 8, true>;
        bool flag{};

        Equeue e1(Equeue::size_match::GE, 1, [&](){ flag = true; });

        flag = false;
        e1.clear_trigger();
        EXPECT_EQ (false, flag);
        e1.push_back(1);            // 1,  no-trigger cleared
        EXPECT_EQ (false, flag);

        flag = false;
        e1.clear();
        e1.clear_trigger();
        EXPECT_EQ (false, flag);    // no spurious triggers
        e1.push_back(1);            // 1
        e1.push_back(2);            // 2
        e1.set_trigger(Equeue::size_match::GE, 1, [&](){ flag = true; });
        EXPECT_EQ (false, flag);    // no spurious triggers
        e1.check_trigger();         // manual trigger
        EXPECT_EQ (true, flag);

        flag = false;
        e1.check_trigger();         // manual trigger attempt
        EXPECT_EQ (false, flag);    // [SIZE triggers are auto clear]

        Equeue e2(Equeue::data_match::MATCH_PUSH, 42, [&](){ flag = true; });
        flag = false;
        e2.clear_trigger();
        EXPECT_EQ (false, flag);
        e2.push_back(42);           // push 42, no-trigger cleared
        EXPECT_EQ (false, flag);
        e2.set_trigger(Equeue::data_match::MATCH_PUSH, 42, [&](){ flag = true; });
        EXPECT_EQ (false, flag);    // no spurious triggers
        e2.push_back(42);           // push 42, trigger
        EXPECT_EQ (true, flag);

        flag = false;
        e2.push_back(42);           // push 42, re-trigger [DATA re-triggers]
        EXPECT_EQ (true, flag);
    }

    // stream push-pop
    TEST(Tequeue, stream_push_pop_atomic) {
        equeue<int, 8, true> q1;

        q1 << 1 << 2 << 3 << 4 << 5 << 6 << 7 << 8;
        EXPECT_EQ (8UL, q1.capacity());
        EXPECT_EQ (8UL, q1.size());
        EXPECT_EQ (false, q1.empty());
        EXPECT_EQ (true, q1.full());

        q1 << 9;                        // try to insert in full queue
        EXPECT_EQ (8UL, q1.capacity());
        EXPECT_EQ (8UL, q1.size());
        EXPECT_EQ (false, q1.empty());
        EXPECT_EQ (true, q1.full());

        int check_it=1;
        for (auto it = q1.begin() ; it != q1.end() ; ++it)
            EXPECT_EQ(*it, check_it++);
        EXPECT_EQ(9, check_it);         // run through all

        for (int i =1 ; i <= 8 ; ++i) {
            check_it << q1;
            EXPECT_EQ(i, check_it);
        }
        EXPECT_EQ (8UL, q1.capacity());
        EXPECT_EQ (0UL, q1.size());
        EXPECT_EQ (true, q1.empty());
        EXPECT_EQ (false, q1.full());

        q1 >> check_it;
        EXPECT_EQ (int{}, check_it);
    }

}