#pragma once #include #include "types.h" #include "Atomic.h" // Shared mutex with small size (u32). class shared_mutex final { enum : u32 { c_one = 1u << 7, // Fixed-point 1.0 value (one writer, 1.0/(max_readers+1) is 1) c_sig = 1u << 30, c_err = 1u << 31, }; atomic_t m_value{}; void imp_lock_shared(u32 val); void imp_unlock_shared(u32 old); void imp_wait(); void imp_signal(); void imp_lock(u32 val); void imp_unlock(u32 old); void imp_lock_upgrade(); void imp_lock_unlock(); public: constexpr shared_mutex() = default; bool try_lock_shared() { const u32 value = m_value.load(); // Conditional increment return value < c_one - 1 && m_value.compare_and_swap_test(value, value + 1); } void lock_shared() { const u32 value = m_value.load(); if (UNLIKELY(value >= c_one - 1 || !m_value.compare_and_swap_test(value, value + 1))) { imp_lock_shared(value); } } void unlock_shared() { // Unconditional decrement (can result in broken state) const u32 value = m_value.fetch_sub(1); if (UNLIKELY(value >= c_one)) { imp_unlock_shared(value); } } bool try_lock() { return m_value.compare_and_swap_test(0, c_one); } void lock() { const u32 value = m_value.compare_and_swap(0, c_one); if (UNLIKELY(value)) { imp_lock(value); } } void unlock() { // Unconditional decrement (can result in broken state) const u32 value = m_value.fetch_sub(c_one); if (UNLIKELY(value != c_one)) { imp_unlock(value); } } bool try_lock_upgrade() { const u32 value = m_value.load(); // Conditional increment, try to convert a single reader into a writer, ignoring other writers return (value + c_one - 1) % c_one == 0 && m_value.compare_and_swap_test(value, value + c_one - 1); } void lock_upgrade() { if (UNLIKELY(!try_lock_upgrade())) { imp_lock_upgrade(); } } void lock_downgrade() { // Convert to reader lock (can result in broken state) m_value -= c_one - 1; } // Optimized wait for lockability without locking, relaxed void lock_unlock() { if (UNLIKELY(m_value != 0)) { imp_lock_unlock(); } } // Check whether can immediately obtain an exclusive (writer) lock bool is_free() const { return m_value.load() == 0; } // Check whether can immediately obtain a shared (reader) lock bool is_lockable() const { return m_value.load() < c_one - 1; } }; // Simplified shared (reader) lock implementation. class reader_lock final { shared_mutex& m_mutex; bool m_upgraded = false; public: reader_lock(const reader_lock&) = delete; reader_lock& operator=(const reader_lock&) = delete; explicit reader_lock(shared_mutex& mutex) : m_mutex(mutex) { m_mutex.lock_shared(); } // One-way lock upgrade; note that the observed state could have been changed void upgrade() { if (!m_upgraded) { m_mutex.lock_upgrade(); m_upgraded = true; } } // Try to upgrade; if it succeeds, the observed state has NOT been changed bool try_upgrade() { return m_upgraded || (m_upgraded = m_mutex.try_lock_upgrade()); } ~reader_lock() { m_upgraded ? m_mutex.unlock() : m_mutex.unlock_shared(); } };