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Merge pull request #5885 from MerryMage/ring_buffer-granularity
ring_buffer: Remove granularity template argument
This commit is contained in:
commit
4a01812ebe
2 changed files with 15 additions and 16 deletions
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@ -19,15 +19,14 @@ namespace Common {
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/// SPSC ring buffer
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/// SPSC ring buffer
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/// @tparam T Element type
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/// @tparam T Element type
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/// @tparam capacity Number of slots in ring buffer
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/// @tparam capacity Number of slots in ring buffer
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/// @tparam granularity Slot size in terms of number of elements
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template <typename T, std::size_t capacity>
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template <typename T, std::size_t capacity, std::size_t granularity = 1>
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class RingBuffer {
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class RingBuffer {
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/// A "slot" is made of `granularity` elements of `T`.
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/// A "slot" is made of a single `T`.
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static constexpr std::size_t slot_size = granularity * sizeof(T);
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static constexpr std::size_t slot_size = sizeof(T);
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// T must be safely memcpy-able and have a trivial default constructor.
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// T must be safely memcpy-able and have a trivial default constructor.
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static_assert(std::is_trivial_v<T>);
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static_assert(std::is_trivial_v<T>);
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// Ensure capacity is sensible.
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// Ensure capacity is sensible.
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static_assert(capacity < std::numeric_limits<std::size_t>::max() / 2 / granularity);
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static_assert(capacity < std::numeric_limits<std::size_t>::max() / 2);
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static_assert((capacity & (capacity - 1)) == 0, "capacity must be a power of two");
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static_assert((capacity & (capacity - 1)) == 0, "capacity must be a power of two");
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// Ensure lock-free.
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// Ensure lock-free.
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static_assert(std::atomic_size_t::is_always_lock_free);
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static_assert(std::atomic_size_t::is_always_lock_free);
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@ -47,7 +46,7 @@ public:
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const std::size_t second_copy = push_count - first_copy;
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const std::size_t second_copy = push_count - first_copy;
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const char* in = static_cast<const char*>(new_slots);
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const char* in = static_cast<const char*>(new_slots);
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std::memcpy(m_data.data() + pos * granularity, in, first_copy * slot_size);
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std::memcpy(m_data.data() + pos, in, first_copy * slot_size);
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in += first_copy * slot_size;
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in += first_copy * slot_size;
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std::memcpy(m_data.data(), in, second_copy * slot_size);
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std::memcpy(m_data.data(), in, second_copy * slot_size);
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@ -74,7 +73,7 @@ public:
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const std::size_t second_copy = pop_count - first_copy;
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const std::size_t second_copy = pop_count - first_copy;
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char* out = static_cast<char*>(output);
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char* out = static_cast<char*>(output);
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std::memcpy(out, m_data.data() + pos * granularity, first_copy * slot_size);
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std::memcpy(out, m_data.data() + pos, first_copy * slot_size);
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out += first_copy * slot_size;
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out += first_copy * slot_size;
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std::memcpy(out, m_data.data(), second_copy * slot_size);
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std::memcpy(out, m_data.data(), second_copy * slot_size);
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@ -84,9 +83,9 @@ public:
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}
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}
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std::vector<T> Pop(std::size_t max_slots = ~std::size_t(0)) {
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std::vector<T> Pop(std::size_t max_slots = ~std::size_t(0)) {
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std::vector<T> out(std::min(max_slots, capacity) * granularity);
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std::vector<T> out(std::min(max_slots, capacity));
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const std::size_t count = Pop(out.data(), out.size() / granularity);
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const std::size_t count = Pop(out.data(), out.size());
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out.resize(count * granularity);
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out.resize(count);
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return out;
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return out;
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}
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}
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@ -113,7 +112,7 @@ private:
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alignas(128) std::atomic_size_t m_write_index{0};
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alignas(128) std::atomic_size_t m_write_index{0};
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#endif
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#endif
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std::array<T, granularity * capacity> m_data;
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std::array<T, capacity> m_data;
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};
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};
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} // namespace Common
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} // namespace Common
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@ -14,7 +14,7 @@
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namespace Common {
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namespace Common {
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TEST_CASE("RingBuffer: Basic Tests", "[common]") {
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TEST_CASE("RingBuffer: Basic Tests", "[common]") {
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RingBuffer<char, 4, 1> buf;
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RingBuffer<char, 4> buf;
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// Pushing values into a ring buffer with space should succeed.
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// Pushing values into a ring buffer with space should succeed.
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for (std::size_t i = 0; i < 4; i++) {
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for (std::size_t i = 0; i < 4; i++) {
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@ -77,7 +77,7 @@ TEST_CASE("RingBuffer: Basic Tests", "[common]") {
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}
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}
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TEST_CASE("RingBuffer: Threaded Test", "[common]") {
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TEST_CASE("RingBuffer: Threaded Test", "[common]") {
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RingBuffer<char, 4, 2> buf;
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RingBuffer<char, 8> buf;
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const char seed = 42;
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const char seed = 42;
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const std::size_t count = 1000000;
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const std::size_t count = 1000000;
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std::size_t full = 0;
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std::size_t full = 0;
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@ -92,8 +92,8 @@ TEST_CASE("RingBuffer: Threaded Test", "[common]") {
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std::array<char, 2> value = {seed, seed};
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std::array<char, 2> value = {seed, seed};
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std::size_t i = 0;
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std::size_t i = 0;
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while (i < count) {
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while (i < count) {
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if (const std::size_t c = buf.Push(&value[0], 1); c > 0) {
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if (const std::size_t c = buf.Push(&value[0], 2); c > 0) {
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REQUIRE(c == 1U);
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REQUIRE(c == 2U);
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i++;
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i++;
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next_value(value);
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next_value(value);
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} else {
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} else {
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@ -107,7 +107,7 @@ TEST_CASE("RingBuffer: Threaded Test", "[common]") {
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std::array<char, 2> value = {seed, seed};
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std::array<char, 2> value = {seed, seed};
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std::size_t i = 0;
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std::size_t i = 0;
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while (i < count) {
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while (i < count) {
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if (const std::vector<char> v = buf.Pop(1); v.size() > 0) {
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if (const std::vector<char> v = buf.Pop(2); v.size() > 0) {
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REQUIRE(v.size() == 2U);
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REQUIRE(v.size() == 2U);
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REQUIRE(v[0] == value[0]);
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REQUIRE(v[0] == value[0]);
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REQUIRE(v[1] == value[1]);
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REQUIRE(v[1] == value[1]);
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