lean2/src/util/thread.h
Leonardo de Moura e7ae749221 feat(boost): implement multi-threading support using Boost
To use Boost instead of the standard library, we must use the cmake option
    -D BOOST=ON

Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
2013-12-09 17:24:32 -08:00

133 lines
4.4 KiB
C++

/*
Copyright (c) 2013 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Author: Leonardo de Moura
*/
#pragma once
#if defined(LEAN_MULTI_THREAD)
#if !defined(LEAN_USE_BOOST)
// MULTI THREADING SUPPORT BASED ON THE STANDARD LIBRARY
#include <thread>
#include <mutex>
#include <atomic>
#include <condition_variable>
#include <chrono>
#define LEAN_THREAD_LOCAL thread_local
namespace lean {
inline void set_thread_stack_size(size_t ) {}
using std::thread;
using std::mutex;
using std::atomic;
using std::atomic_bool;
using std::atomic_ushort;
using std::condition_variable;
using std::lock_guard;
using std::unique_lock;
using std::atomic_load;
using std::atomic_fetch_add_explicit;
using std::atomic_fetch_sub_explicit;
using std::memory_order_relaxed;
namespace chrono = std::chrono;
namespace this_thread = std::this_thread;
}
#else
// MULTI THREADING SUPPORT BASED ON THE BOOST LIBRARY
#include <boost/thread.hpp>
#define LEAN_THREAD_LOCAL thread_local
namespace lean {
void set_thread_stack_size(size_t );
boost::thread::attributes const & get_thread_attributes();
using boost::thread;
using boost::mutex;
using boost::atomic;
using boost::memory_order_relaxed;
using boost::condition_variable;
using boost::unique_lock;
using boost::lock_guard;
namespace chrono = boost::chrono;
namespace this_thread = boost::this_thread;
typedef atomic<bool> atomic_bool;
typedef atomic<unsigned short> atomic_ushort;
template<typename T> T atomic_load(atomic<T> const * a) { return a->load(); }
template<typename T> T atomic_fetch_add_explicit(atomic<T> * a, T v, boost::memory_order mo) { return a->fetch_add(v, mo); }
template<typename T> T atomic_fetch_sub_explicit(atomic<T> * a, T v, boost::memory_order mo) { return a->fetch_sub(v, mo); }
}
#endif
#else
// NO MULTI THREADING SUPPORT
#include <utility>
#include <cstdlib>
#define LEAN_THREAD_LOCAL
namespace lean {
inline void set_thread_stack_size(size_t ) {}
namespace chrono {
typedef unsigned milliseconds;
}
constexpr int memory_order_relaxed = 0;
template<typename T>
class atomic {
T m_value;
public:
atomic(T const & v = T()):m_value(v) {}
atomic(T && v):m_value(std::forward<T>(v)) {}
atomic(atomic const & v):m_value(v.m_value) {}
atomic(atomic && v):m_value(std::forward<T>(v.m_value)) {}
atomic & operator=(T const & v) { m_value = v; return *this; }
atomic & operator=(T && v) { m_value = std::forward<T>(v); return *this; }
atomic & operator=(atomic const & v) { m_value = v.m_value; return *this; }
atomic & operator=(atomic && v) { m_value = std::forward<T>(v.m_value); return *this; }
operator T() const { return m_value; }
void store(T const & v) { m_value = v; }
T load() const { return m_value; }
atomic & operator|=(T const & v) { m_value |= v; return *this; }
atomic & operator+=(T const & v) { m_value += v; return *this; }
atomic & operator-=(T const & v) { m_value -= v; return *this; }
atomic & operator++() { ++m_value; return *this; }
atomic operator++(int ) { atomic tmp(*this); ++m_value; return tmp; }
atomic & operator--() { --m_value; return *this; }
atomic operator--(int ) { atomic tmp(*this); --m_value; return tmp; }
friend T atomic_load(atomic const * a) { return a->m_value; }
friend T atomic_fetch_add_explicit(atomic * a, T const & v, int ) { T r(a->m_value); a->m_value += v; return r; }
friend T atomic_fetch_sub_explicit(atomic * a, T const & v, int ) { T r(a->m_value); a->m_value -= v; return r; }
};
typedef atomic<unsigned short> atomic_ushort;
typedef atomic<bool> atomic_bool;
class thread {
public:
thread() {}
template<typename Function, typename... Args>
thread(Function && fun, Args &&... args) {
fun(std::forward<Args>(args)...);
}
typedef unsigned id;
bool joinable() const { return true; }
void join() {}
};
class this_thread {
public:
static void sleep_for(chrono::milliseconds const &) {}
static thread::id get_id() { return 0; }
static void yield() {}
};
class mutex {
public:
void lock() {}
void unlock() {}
};
class condition_variable {
public:
template<typename Lock> void wait(Lock const &) {}
void notify_all() {}
void notify_one() {}
};
template<typename T> class lock_guard {
public:
lock_guard(T const &) {}
};
template<typename T> class unique_lock {
public:
unique_lock(T const &) {}
};
}
#endif