6 changed files with 602 additions and 61 deletions
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+57 -23include/cont/edeque.h
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+18 -16include/cont/equeue.h
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+15 -10include/cont/queue.h
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+297 -9test/tests/edeque.cpp
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+139 -3test/tests/equeue.cpp
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+76 -0test/tests/queue.cpp
+ 57
- 23
include/cont/edeque.h
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| @@ -55,17 +55,22 @@ namespace tbx { | |||
| * pushed or popped from the deque. If the criteria match we call call the callable of type | |||
| * \c Fn | |||
| * | |||
| * \tparam Data_t The char-like queued item type. Usually \c char | |||
| * \tparam N The size of edeque | |||
| * \tparam Fn The type of Callable | |||
| * \tparam Data_t The char-like queued item type. Usually \c char | |||
| * \tparam N The size of edeque | |||
| * \tparam SemiAtomic True for semi-atomic operation. In that case the \c ring_iterator is also atomic. | |||
| * \tparam Fn The type of Callable | |||
| * \note | |||
| * SemiAtomic means it is safe to access different ends from different threads. For example one thread can | |||
| * push only from front and another can pop from back to implement a queue. | |||
| */ | |||
| template <typename Data_t, size_t N, typename Fn = std::function<void()>> | |||
| class edeque : public deque<Data_t, N> { | |||
| template <typename Data_t, size_t N, bool SemiAtomic =false, typename Fn = std::function<void()>> | |||
| class edeque : public deque<Data_t, N, SemiAtomic> { | |||
| public: | |||
| // meta-identity types | |||
| using type = edeque<Data_t, N>; | |||
| using base_type = deque<Data_t, N>; | |||
| using type = edeque<Data_t, N, SemiAtomic, Fn>; | |||
| using base_type = deque<Data_t, N, SemiAtomic>; | |||
| using callable_t = Fn; | |||
| using range_t = typename base_type::range_t; | |||
| // STL | |||
| using value_type = typename base_type::value_type; | |||
| @@ -89,7 +94,11 @@ class edeque : public deque<Data_t, N> { | |||
| enum class size_match { DISABLED =0, EQ, NE, LT, LE, GT, GE }; | |||
| //! \enum data_match | |||
| //! The type of matching for data based match | |||
| enum class data_match { DISABLED =0, MATCH, MISMATCH}; | |||
| enum class data_match { DISABLED =0, MATCH_PUSH, MATCH_POP, MISMATCH_PUSH, MISMATCH_POP}; | |||
| // TODO: trigger mode for one-shot or repeated functionality | |||
| // enum class trigger_mode { ONE_SHOT, REPEATED }; | |||
| //! \struct size_trigger | |||
| //! Size trigger data type | |||
| struct size_trigger { | |||
| @@ -120,7 +129,7 @@ class edeque : public deque<Data_t, N> { | |||
| constexpr edeque () noexcept : | |||
| base_type() { } | |||
| //! | |||
| //! Size trigger constructor | |||
| constexpr edeque (size_match match, size_t size, callable_t&& fn) : | |||
| base_type(), | |||
| mode_{match_mode::SIZE}, | |||
| @@ -128,7 +137,7 @@ class edeque : public deque<Data_t, N> { | |||
| trigger_.tsize.type = match; | |||
| trigger_.tsize.size = size; | |||
| } | |||
| //! Data trigger constructor | |||
| constexpr edeque (data_match match, Data_t value, callable_t&& fn) : | |||
| base_type(), | |||
| mode_{match_mode::DATA}, | |||
| @@ -186,25 +195,25 @@ class edeque : public deque<Data_t, N> { | |||
| //! @{ | |||
| void push_front (const Data_t& it) { | |||
| base_type::push_front(it); | |||
| check_trigger_async_(it); | |||
| check_trigger_push_async_(it); | |||
| } | |||
| Data_t pop_front () { | |||
| Data_t t = base_type::pop_front(); | |||
| check_trigger_async_(t); | |||
| check_trigger_pop_async_(t); | |||
| return t; | |||
| } | |||
| void push_back (const Data_t& it) { | |||
| base_type::push_back(it); | |||
| check_trigger_async_(it); | |||
| check_trigger_push_async_(it); | |||
| } | |||
| Data_t pop_back () { | |||
| Data_t t = base_type::pop_back(); | |||
| check_trigger_async_(t); | |||
| check_trigger_pop_async_(t); | |||
| return t; | |||
| } | |||
| //! @} | |||
| //! \name Public interface | |||
| //! \name Private functionality | |||
| //! @{ | |||
| private: | |||
| //! \brief | |||
| @@ -230,28 +239,53 @@ class edeque : public deque<Data_t, N> { | |||
| } | |||
| //! \brief | |||
| //! Manually checks the data trigger and calls it we have match. | |||
| //! Manually checks the data trigger on push and calls it we have match. | |||
| //! \param it The item to check against | |||
| //! \return True if the callable has called. | |||
| bool check_trigger_value_ (const Data_t& it) { | |||
| bool check_trigger_push_value_ (const Data_t& it) { | |||
| bool match; | |||
| switch (trigger_.tdata.type) { | |||
| default: | |||
| case data_match::DISABLED: match = false; break; | |||
| case data_match::MATCH: match = (it == trigger_.tdata.value); break; | |||
| case data_match::MISMATCH: match = (it != trigger_.tdata.value); break; | |||
| case data_match::DISABLED: match = false; break; | |||
| case data_match::MATCH_PUSH: match = (it == trigger_.tdata.value); break; | |||
| case data_match::MISMATCH_PUSH: match = (it != trigger_.tdata.value); break; | |||
| } | |||
| if (match) | |||
| callback_(); | |||
| return match; | |||
| } | |||
| //! Wrapper for both triggers | |||
| bool check_trigger_async_ (const Data_t& it) { | |||
| //! \brief | |||
| //! Manually checks the data trigger on pop and calls it we have match. | |||
| //! \param it The item to check against | |||
| //! \return True if the callable has called. | |||
| bool check_trigger_pop_value_ (const Data_t& it) { | |||
| bool match; | |||
| switch (trigger_.tdata.type) { | |||
| default: | |||
| case data_match::DISABLED: match = false; break; | |||
| case data_match::MATCH_POP: match = (it == trigger_.tdata.value); break; | |||
| case data_match::MISMATCH_POP: match = (it != trigger_.tdata.value); break; | |||
| } | |||
| if (match) | |||
| callback_(); | |||
| return match; | |||
| } | |||
| //! Wrapper for both triggers at push | |||
| bool check_trigger_push_async_ (const Data_t& it) { | |||
| switch (mode_) { | |||
| default: | |||
| case match_mode::SIZE: return check_trigger_size_(); | |||
| case match_mode::DATA: return check_trigger_push_value_(it); | |||
| } | |||
| } | |||
| //! Wrapper for both triggers at pop | |||
| bool check_trigger_pop_async_ (const Data_t& it) { | |||
| switch (mode_) { | |||
| default: | |||
| case match_mode::SIZE: return check_trigger_size_(); | |||
| case match_mode::DATA: return check_trigger_value_(it); | |||
| case match_mode::DATA: return check_trigger_pop_value_(it); | |||
| } | |||
| } | |||
| //! @} | |||
+ 18
- 16
include/cont/equeue.h
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| @@ -49,16 +49,20 @@ namespace tbx { | |||
| * | |||
| * We also provide stream operators. | |||
| * | |||
| * \tparam Data_t The char-like queued item type. Usually \c char | |||
| * \tparam N The size of edeque | |||
| * \tparam Fn The type of Callable | |||
| * \tparam Data_t The char-like queued item type. Usually \c char | |||
| * \tparam N The size of edeque | |||
| * \tparam SemiAtomic True for semi-atomic operation. In that case the \c ring_iterator is also atomic. | |||
| * \tparam Fn The type of Callable | |||
| * \note | |||
| * SemiAtomic means it is safe to for one thread to push only from front and another can pop. | |||
| */ | |||
| template <typename Data_t, size_t N, typename Fn = std::function<void()>> | |||
| class equeue : public edeque<Data_t, N, Fn> { | |||
| template <typename Data_t, size_t N, bool SemiAtomic =false, typename Fn = std::function<void()>> | |||
| class equeue : public edeque<Data_t, N, SemiAtomic, Fn> { | |||
| public: | |||
| // meta-identity types | |||
| using equeue_t = equeue<Data_t, N>; | |||
| using base_type = edeque<Data_t, N, Fn>; | |||
| using equeue_t = equeue<Data_t, N, SemiAtomic, Fn>; | |||
| using base_type = edeque<Data_t, N, SemiAtomic, Fn>; | |||
| using range_t = typename base_type::range_t; | |||
| // STL | |||
| using value_type = typename base_type::value_type; | |||
| @@ -77,10 +81,7 @@ class equeue : public edeque<Data_t, N, Fn> { | |||
| //! Default constructor | |||
| constexpr equeue () noexcept : base_type() { } | |||
| //! fill contructor | |||
| constexpr equeue(const Data_t& value) noexcept : base_type(value) { } | |||
| //! Initializer list contructor | |||
| //! Forward constructor | |||
| template <typename ...It> | |||
| constexpr equeue(It&& ...it) noexcept : base_type(std::forward<It>(it)...) { } | |||
| @@ -125,16 +126,17 @@ class equeue : public edeque<Data_t, N, Fn> { | |||
| * | |||
| * This definition enables the "data << equeue" syntax for pop operation | |||
| * | |||
| * \tparam Data_t The char-like queued item type. Usually \c char | |||
| * \tparam N The size of queue | |||
| * \tparam Fn The type of Callable | |||
| * \tparam Data_t The char-like queued item type. Usually \c char | |||
| * \tparam N The size of queue | |||
| * \tparam SemiAtomic True for semi-atomic operation. In that case the \c ring_iterator is also atomic. | |||
| * \tparam Fn The type of Callable | |||
| * | |||
| * \param it The item to write to | |||
| * \param q The queue to read from | |||
| * \return Reference to the returned item | |||
| */ | |||
| template <typename Data_t, size_t N, typename Fn = std::function<void()>> | |||
| Data_t& operator<< (Data_t& it, equeue<Data_t, N, Fn>& q) { | |||
| template <typename Data_t, size_t N, bool SemiAtomic =false, typename Fn = std::function<void()>> | |||
| Data_t& operator<< (Data_t& it, equeue<Data_t, N, SemiAtomic, Fn>& q) { | |||
| it = q.pop(); | |||
| return it; | |||
| } | |||
+ 15
- 10
include/cont/queue.h
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| @@ -48,15 +48,19 @@ namespace tbx { | |||
| * | |||
| * We also provide stream operators. | |||
| * | |||
| * \tparam Data_t The char-like queued item type. Usually \c char | |||
| * \tparam N The size of queue | |||
| * \tparam Data_t The char-like queued item type. Usually \c char | |||
| * \tparam N The size of queue | |||
| * \tparam SemiAtomic True for semi-atomic operation. In that case the \c ring_iterator is also atomic. | |||
| * \note | |||
| * SemiAtomic means it is safe to for one thread to push only from front and another can pop. | |||
| */ | |||
| template <typename Data_t, size_t N> | |||
| class queue : public deque<Data_t, N> { | |||
| template <typename Data_t, size_t N, bool SemiAtomic =false> | |||
| class queue : public deque<Data_t, N, SemiAtomic> { | |||
| public: | |||
| // meta-identity types | |||
| using queue_t = queue<Data_t, N>; | |||
| using base_type = deque<Data_t, N>; | |||
| using queue_t = queue<Data_t, N, SemiAtomic>; | |||
| using base_type = deque<Data_t, N, SemiAtomic>; | |||
| using range_t = typename base_type::range_t; | |||
| // STL | |||
| using value_type = typename base_type::value_type; | |||
| @@ -121,15 +125,16 @@ class queue : public deque<Data_t, N> { | |||
| * | |||
| * This definition enables the "data << queue" syntax for pop operation | |||
| * | |||
| * \tparam Data_t The char-like queued item type. Usually \c char | |||
| * \tparam N The size of queue | |||
| * \tparam Data_t The char-like queued item type. Usually \c char | |||
| * \tparam N The size of queue | |||
| * \tparam SemiAtomic True for semi-atomic operation. In that case the \c ring_iterator is also atomic. | |||
| * | |||
| * \param it The item to write to | |||
| * \param q The queue to read from | |||
| * \return Reference to the returned item | |||
| */ | |||
| template <typename Data_t, size_t N> | |||
| constexpr Data_t& operator<< (Data_t& it, queue<Data_t, N>& q) { | |||
| template <typename Data_t, size_t N, bool SemiAtomic =false> | |||
| constexpr Data_t& operator<< (Data_t& it, queue<Data_t, N, SemiAtomic>& q) { | |||
| it = q.pop(); | |||
| return it; | |||
| } | |||
+ 297
- 9
test/tests/edeque.cpp
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| @@ -1,7 +1,7 @@ | |||
| /*! | |||
| * \file deque.cpp | |||
| * \brief | |||
| * Unit tests for deque | |||
| * Unit tests for edeque | |||
| * | |||
| * \copyright Copyright (C) 2020 Christos Choutouridis <christos@choutouridis.net> | |||
| * | |||
| @@ -33,7 +33,7 @@ | |||
| #include <functional> | |||
| namespace Tdeque { | |||
| namespace Tedeque { | |||
| using namespace tbx; | |||
| int global_flag =0; | |||
| @@ -132,15 +132,15 @@ namespace Tdeque { | |||
| e1.check_trigger(); // manual trigger attempt | |||
| EXPECT_EQ (false, flag); // [SIZE triggers are auto clear] | |||
| Edeque e2(Edeque::data_match::MATCH, 42, [&](){ flag = true; }); | |||
| Edeque e2(Edeque::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(Edeque::data_match::MATCH, 42, [&](){ flag = true; }); | |||
| e2.set_trigger(Edeque::data_match::MATCH_PUSH, 42, [&](){ flag = true; }); | |||
| EXPECT_EQ (false, flag); // no spurious triggers | |||
| e2.pop_back(); // pop 42, trigger | |||
| e2.push_back(42); // push 42, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| @@ -236,8 +236,8 @@ namespace Tdeque { | |||
| using Edeque = edeque<int, 8>; | |||
| bool flag{}; | |||
| // data_match::MATCH (item == 42) | |||
| Edeque ee(Edeque::data_match::MATCH, 42, [&](){ flag = true; }); | |||
| // data_match::MATCH_PUSH (item == 42) | |||
| Edeque ee(Edeque::data_match::MATCH_PUSH, 42, [&](){ flag = true; }); | |||
| flag = false; | |||
| ee.push_back(7); // 7 | |||
| @@ -246,14 +246,282 @@ namespace Tdeque { | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.pop_back(); // pop:42, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(42); // push:42, re-trigger | |||
| EXPECT_EQ (true, flag); | |||
| // data_match::MATCH_POP (item == 42) | |||
| flag = false; | |||
| ee.clear_trigger(); | |||
| ee.set_trigger(Edeque::data_match::MATCH_POP, 42, [&](){ flag = true; }); | |||
| ee.push_back(7); // 7 | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(42); // push:42, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| ee.pop_back(); // pop:42, trigger | |||
| EXPECT_EQ (true, flag); | |||
| // data_match::MISMATCH_PUSH (item != 42) | |||
| flag = false; | |||
| ee.clear(); | |||
| ee.clear_trigger(); | |||
| ee.push_back(7); // 7 | |||
| ee.set_trigger(Edeque::data_match::MISMATCH_PUSH, 42, [&](){ flag = true; }); | |||
| EXPECT_EQ (false, flag); // no spurious triggers | |||
| ee.push_back(42); // 42, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(0); // 0, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.push_back(1); // 1, re-trigger | |||
| EXPECT_EQ (true, flag); | |||
| // data_match::MISMATCH_POP (item != 42) | |||
| flag = false; | |||
| ee.clear(); | |||
| ee.clear_trigger(); | |||
| ee.push_back(7); // ->7 | |||
| ee.pop_back(); // <-7 | |||
| ee.set_trigger(Edeque::data_match::MISMATCH_POP, 42, [&](){ flag = true; }); | |||
| EXPECT_EQ (false, flag); // no spurious triggers | |||
| ee.push_back(42); // ->42, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(0); // ->0, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| ee.pop_back(); // pop:0, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.push_back(0); | |||
| ee.pop_back(); // pop:0, re-trigger | |||
| EXPECT_EQ (true, flag); | |||
| } | |||
| // atomic | |||
| TEST (Tedeque, construct_atomic) { | |||
| using Edeque = edeque<int, 8, true>; | |||
| struct T { int a,b; }; | |||
| int local{}; | |||
| Edeque e1(Edeque::size_match::GE, 3, [](){ | |||
| ++global_flag; | |||
| }); | |||
| Edeque e2(Edeque::size_match::GE, 3, [&](){ | |||
| ++local; | |||
| }); | |||
| Edeque e3(Edeque::size_match::EQ, 7, vfun); | |||
| edeque<T, 8> e4(edeque<T, 8>::size_match::EQ, 2, vfoo{}); | |||
| edeque<int, 8, true> q1; | |||
| edeque<int, 8, true> q2(edeque<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()); | |||
| } | |||
| TEST (Tedeque, base_class_atomic) { | |||
| using Edeque = edeque<int, 8, true>; | |||
| Edeque e1(Edeque::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_back(7); | |||
| EXPECT_EQ (7, e1.front()); | |||
| EXPECT_EQ (7, e1.back()); | |||
| EXPECT_EQ (7, e1.pop_front()); | |||
| e1.push_front(42); | |||
| EXPECT_EQ (42, e1.front()); | |||
| EXPECT_EQ (42, e1.back()); | |||
| EXPECT_EQ (42, e1.pop_back()); | |||
| e1.push_back(1); | |||
| e1.push_back(2); | |||
| e1.push_back(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 | |||
| } | |||
| TEST (Tedeque, set_clear_check_trigger_atomic) { | |||
| using Edeque = edeque<int, 8, true>; | |||
| bool flag{}; | |||
| Edeque e1(Edeque::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(Edeque::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] | |||
| Edeque e2(Edeque::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(Edeque::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); | |||
| } | |||
| TEST (Tedeque, size_triggers_atomic) { | |||
| using Edeque = edeque<int, 8, true>; | |||
| bool flag{}; | |||
| // size_match::GE (size()>= 2) | |||
| Edeque ee(Edeque::size_match::GE, 2, [&](){ flag = true; }); | |||
| flag = false; | |||
| ee.clear(); | |||
| ee.push_back(1); // 1 | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(2); // 2, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.push_back(3); // 3, no-trigger cleared | |||
| EXPECT_EQ (false, flag); | |||
| // size_match::GT (size()> 1) | |||
| flag = false; | |||
| ee.clear(); | |||
| ee.set_trigger(Edeque::size_match::GT, 1, [&](){ flag = true; }); | |||
| ee.push_back(1); // 1 | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(2); // 2, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.push_back(3); // 3, no-trigger cleared | |||
| EXPECT_EQ (false, flag); | |||
| // size_match::LE (size()<= 1) | |||
| flag = false; | |||
| ee.clear(); | |||
| ee.push_back(1); // 1 | |||
| ee.push_back(2); // 2 | |||
| ee.push_back(3); // 3 | |||
| ee.set_trigger(Edeque::size_match::LE, 1, [&](){ flag = true; }); | |||
| ee.pop_front(); // 2 | |||
| EXPECT_EQ (false, flag); | |||
| ee.pop_front(); // 1, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.pop_front(); // 0, no-trigger cleared | |||
| EXPECT_EQ (false, flag); | |||
| // size_match::LT (size()< 2) | |||
| flag = false; | |||
| ee.clear(); | |||
| ee.push_back(1); // 1 | |||
| ee.push_back(2); // 2 | |||
| ee.push_back(3); // 3 | |||
| ee.set_trigger(Edeque::size_match::LT, 2, [&](){ flag = true; }); | |||
| ee.pop_front(); // 2 | |||
| EXPECT_EQ (false, flag); | |||
| ee.pop_front(); // 1, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.pop_front(); // 0, no-trigger cleared | |||
| EXPECT_EQ (false, flag); | |||
| // size_match::EQ (size()== 2) | |||
| flag = false; | |||
| ee.clear(); | |||
| ee.set_trigger(Edeque::size_match::EQ, 2, [&](){ flag = true; }); | |||
| ee.push_back(1); // 1 | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(2); // 2, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.push_back(3); // 3 | |||
| ee.pop_front(); // 2, no-trigger cleared | |||
| EXPECT_EQ (false, flag); | |||
| // size_match::NE (size()!= 0) | |||
| flag = false; | |||
| ee.clear(); | |||
| ee.set_trigger(Edeque::size_match::NE, 0, [&](){ flag = true; }); | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(1); // 1, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.push_back(2); // 2, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| } | |||
| TEST (Tedeque, data_triggers_atomic) { | |||
| using Edeque = edeque<int, 8, true>; | |||
| bool flag{}; | |||
| // data_match::MATCH_PUSH (item == 42) | |||
| Edeque ee(Edeque::data_match::MATCH_PUSH, 42, [&](){ flag = true; }); | |||
| flag = false; | |||
| ee.push_back(7); // 7 | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(42); // push:42, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.pop_back(); // pop:42, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(42); // push:42, re-trigger | |||
| EXPECT_EQ (true, flag); | |||
| // data_match::MATCH_POP (item == 42) | |||
| flag = false; | |||
| ee.clear_trigger(); | |||
| ee.set_trigger(Edeque::data_match::MATCH_POP, 42, [&](){ flag = true; }); | |||
| ee.push_back(7); // 7 | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(42); // push:42, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| ee.pop_back(); // pop:42, trigger | |||
| EXPECT_EQ (true, flag); | |||
| // data_match::MATCH (item != 42) | |||
| // data_match::MISMATCH_PUSH (item != 42) | |||
| flag = false; | |||
| ee.clear(); | |||
| ee.clear_trigger(); | |||
| ee.push_back(7); // 7 | |||
| ee.set_trigger(Edeque::data_match::MISMATCH, 42, [&](){ flag = true; }); | |||
| ee.set_trigger(Edeque::data_match::MISMATCH_PUSH, 42, [&](){ flag = true; }); | |||
| EXPECT_EQ (false, flag); // no spurious triggers | |||
| ee.push_back(42); // 42, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| @@ -263,5 +531,25 @@ namespace Tdeque { | |||
| flag = false; | |||
| ee.push_back(1); // 1, re-trigger | |||
| EXPECT_EQ (true, flag); | |||
| // data_match::MISMATCH_POP (item != 42) | |||
| flag = false; | |||
| ee.clear(); | |||
| ee.clear_trigger(); | |||
| ee.push_back(7); // ->7 | |||
| ee.pop_back(); // <-7 | |||
| ee.set_trigger(Edeque::data_match::MISMATCH_POP, 42, [&](){ flag = true; }); | |||
| EXPECT_EQ (false, flag); // no spurious triggers | |||
| ee.push_back(42); // ->42, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| ee.push_back(0); // ->0, no-trigger | |||
| EXPECT_EQ (false, flag); | |||
| ee.pop_back(); // pop:0, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| ee.push_back(0); | |||
| ee.pop_back(); // pop:0, re-trigger | |||
| EXPECT_EQ (true, flag); | |||
| } | |||
| } | |||
+ 139
- 3
test/tests/equeue.cpp
View File
| @@ -128,15 +128,15 @@ namespace Tequeue { | |||
| e1.check_trigger(); // manual trigger attempt | |||
| EXPECT_EQ (false, flag); // [SIZE triggers are auto clear] | |||
| Equeue e2(Equeue::data_match::MATCH, 42, [&](){ flag = true; }); | |||
| 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, 42, [&](){ flag = true; }); | |||
| e2.set_trigger(Equeue::data_match::MATCH_PUSH, 42, [&](){ flag = true; }); | |||
| EXPECT_EQ (false, flag); // no spurious triggers | |||
| e2.pop_back(); // pop 42, trigger | |||
| e2.push_back(42); // push 42, trigger | |||
| EXPECT_EQ (true, flag); | |||
| flag = false; | |||
| @@ -178,4 +178,140 @@ namespace Tequeue { | |||
| 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); | |||
| } | |||
| } | |||
+ 76
- 0
test/tests/queue.cpp
View File
| @@ -109,4 +109,80 @@ namespace Tqueue { | |||
| EXPECT_EQ (int{}, check_it); | |||
| } | |||
| // Test construction | |||
| TEST(Tqueue, contruct_atomic) { | |||
| queue<int, 8, true> q1; | |||
| queue<int, 8, true> q2{1, 2, 3, 4, 5, 6, 7, 8}; | |||
| queue<int, 8, true> q3{1, 2, 3, 4, 5}; | |||
| EXPECT_EQ (8UL, q1.capacity()); | |||
| EXPECT_EQ (0UL, q1.size()); | |||
| EXPECT_EQ (8UL, q2.capacity()); | |||
| EXPECT_EQ (8UL, q2.size()); | |||
| EXPECT_EQ (8UL, q3.capacity()); | |||
| EXPECT_EQ (5UL, q3.size()); | |||
| } | |||
| // base class functionality check | |||
| TEST(Tqueue, base_class_atomic) { | |||
| queue<int, 8, true> q1; | |||
| // Access of base class functionality | |||
| EXPECT_EQ (8UL, q1.capacity()); | |||
| EXPECT_EQ (0UL, q1.size()); | |||
| EXPECT_EQ (true, q1.empty()); | |||
| EXPECT_EQ (false, q1.full()); | |||
| q1.push(42); | |||
| EXPECT_EQ (42, q1.front()); | |||
| EXPECT_EQ (42, q1.back()); | |||
| EXPECT_EQ (42, q1.pop()); | |||
| q1.push(1); | |||
| q1.push(2); | |||
| q1.push(3); | |||
| int check_it=1; | |||
| for (auto it = q1.begin() ; it != q1.end() ; ++it) | |||
| EXPECT_EQ(*it, check_it++); | |||
| EXPECT_EQ(4, check_it); // run through all | |||
| } | |||
| // stream push-pop | |||
| TEST(Tqueue, stream_push_pop_atomic) { | |||
| queue<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); | |||
| } | |||
| } | |||