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// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// (C) Copyright 2007 Anthony Williams
// (C) Copyright 2007 David Deakins
#define _WIN32_WINNT 0x400
#define WINVER 0x400
#include <boost/thread/thread.hpp>
#include <algorithm>
#include <windows.h>
#ifndef UNDER_CE
#include <process.h>
#endif
#include <stdio.h>
#include <boost/thread/once.hpp>
#include <boost/thread/tss.hpp>
#include <boost/assert.hpp>
#include <boost/thread/detail/tss_hooks.hpp>
#include <boost/date_time/posix_time/conversion.hpp>
namespace boost
{
namespace
{
boost::once_flag current_thread_tls_init_flag=BOOST_ONCE_INIT;
DWORD current_thread_tls_key=0;
void create_current_thread_tls_key()
{
tss_cleanup_implemented(); // if anyone uses TSS, we need the cleanup linked in
current_thread_tls_key=TlsAlloc();
BOOST_ASSERT(current_thread_tls_key!=TLS_OUT_OF_INDEXES);
}
void cleanup_tls_key()
{
if(current_thread_tls_key)
{
TlsFree(current_thread_tls_key);
current_thread_tls_key=0;
}
}
detail::thread_data_base* get_current_thread_data()
{
if(!current_thread_tls_key)
{
return 0;
}
return (detail::thread_data_base*)TlsGetValue(current_thread_tls_key);
}
void set_current_thread_data(detail::thread_data_base* new_data)
{
boost::call_once(current_thread_tls_init_flag,create_current_thread_tls_key);
BOOST_VERIFY(TlsSetValue(current_thread_tls_key,new_data));
}
#ifdef BOOST_NO_THREADEX
// Windows CE doesn't define _beginthreadex
struct ThreadProxyData
{
typedef unsigned (__stdcall* func)(void*);
func start_address_;
void* arglist_;
ThreadProxyData(func start_address,void* arglist) : start_address_(start_address), arglist_(arglist) {}
};
DWORD WINAPI ThreadProxy(LPVOID args)
{
ThreadProxyData* data=reinterpret_cast<ThreadProxyData*>(args);
DWORD ret=data->start_address_(data->arglist_);
delete data;
return ret;
}
typedef void* uintptr_t;
inline uintptr_t const _beginthreadex(void* security, unsigned stack_size, unsigned (__stdcall* start_address)(void*),
void* arglist, unsigned initflag, unsigned* thrdaddr)
{
DWORD threadID;
HANDLE hthread=CreateThread(static_cast<LPSECURITY_ATTRIBUTES>(security),stack_size,ThreadProxy,
new ThreadProxyData(start_address,arglist),initflag,&threadID);
if (hthread!=0)
*thrdaddr=threadID;
return reinterpret_cast<uintptr_t const>(hthread);
}
#endif
}
namespace detail
{
struct thread_exit_callback_node
{
boost::detail::thread_exit_function_base* func;
thread_exit_callback_node* next;
thread_exit_callback_node(boost::detail::thread_exit_function_base* func_,
thread_exit_callback_node* next_):
func(func_),next(next_)
{}
};
struct tss_data_node
{
void const* key;
boost::shared_ptr<boost::detail::tss_cleanup_function> func;
void* value;
tss_data_node* next;
tss_data_node(void const* key_,boost::shared_ptr<boost::detail::tss_cleanup_function> func_,void* value_,
tss_data_node* next_):
key(key_),func(func_),value(value_),next(next_)
{}
};
}
namespace
{
void run_thread_exit_callbacks()
{
detail::thread_data_ptr current_thread_data(get_current_thread_data(),false);
if(current_thread_data)
{
while(current_thread_data->tss_data || current_thread_data->thread_exit_callbacks)
{
while(current_thread_data->thread_exit_callbacks)
{
detail::thread_exit_callback_node* const current_node=current_thread_data->thread_exit_callbacks;
current_thread_data->thread_exit_callbacks=current_node->next;
if(current_node->func)
{
(*current_node->func)();
boost::detail::heap_delete(current_node->func);
}
boost::detail::heap_delete(current_node);
}
while(current_thread_data->tss_data)
{
detail::tss_data_node* const current_node=current_thread_data->tss_data;
current_thread_data->tss_data=current_node->next;
if(current_node->func)
{
(*current_node->func)(current_node->value);
}
boost::detail::heap_delete(current_node);
}
}
set_current_thread_data(0);
}
}
unsigned __stdcall thread_start_function(void* param)
{
detail::thread_data_base* const thread_info(reinterpret_cast<detail::thread_data_base*>(param));
set_current_thread_data(thread_info);
try
{
thread_info->run();
}
catch(thread_interrupted const&)
{
}
// Removed as it stops the debugger identifying the cause of the exception
// Unhandled exceptions still cause the application to terminate
// catch(...)
// {
// std::terminate();
// }
run_thread_exit_callbacks();
return 0;
}
}
thread::thread()
{}
void thread::start_thread()
{
uintptr_t const new_thread=_beginthreadex(0,0,&thread_start_function,thread_info.get(),CREATE_SUSPENDED,&thread_info->id);
if(!new_thread)
{
throw thread_resource_error();
}
intrusive_ptr_add_ref(thread_info.get());
thread_info->thread_handle=(detail::win32::handle)(new_thread);
ResumeThread(thread_info->thread_handle);
}
thread::thread(detail::thread_data_ptr data):
thread_info(data)
{}
namespace
{
struct externally_launched_thread:
detail::thread_data_base
{
externally_launched_thread()
{
++count;
interruption_enabled=false;
}
void run()
{}
private:
externally_launched_thread(externally_launched_thread&);
void operator=(externally_launched_thread&);
};
void make_external_thread_data()
{
externally_launched_thread* me=detail::heap_new<externally_launched_thread>();
set_current_thread_data(me);
}
detail::thread_data_base* get_or_make_current_thread_data()
{
detail::thread_data_base* current_thread_data(get_current_thread_data());
if(!current_thread_data)
{
make_external_thread_data();
current_thread_data=get_current_thread_data();
}
return current_thread_data;
}
}
thread::~thread()
{
detach();
}
thread::id thread::get_id() const
{
return thread::id(get_thread_info());
}
bool thread::joinable() const
{
return get_thread_info();
}
void thread::join()
{
detail::thread_data_ptr local_thread_info=get_thread_info();
if(local_thread_info)
{
this_thread::interruptible_wait(local_thread_info->thread_handle,detail::timeout::sentinel());
release_handle();
}
}
bool thread::timed_join(boost::system_time const& wait_until)
{
detail::thread_data_ptr local_thread_info=get_thread_info();
if(local_thread_info)
{
if(!this_thread::interruptible_wait(local_thread_info->thread_handle,get_milliseconds_until(wait_until)))
{
return false;
}
release_handle();
}
return true;
}
void thread::detach()
{
release_handle();
}
void thread::release_handle()
{
lock_guard<mutex> l1(thread_info_mutex);
thread_info=0;
}
void thread::interrupt()
{
detail::thread_data_ptr local_thread_info=get_thread_info();
if(local_thread_info)
{
local_thread_info->interrupt();
}
}
bool thread::interruption_requested() const
{
detail::thread_data_ptr local_thread_info=get_thread_info();
return local_thread_info.get() && (detail::win32::WaitForSingleObject(local_thread_info->interruption_handle,0)==0);
}
unsigned thread::hardware_concurrency()
{
SYSTEM_INFO info={0};
GetSystemInfo(&info);
return info.dwNumberOfProcessors;
}
thread::native_handle_type thread::native_handle()
{
detail::thread_data_ptr local_thread_info=get_thread_info();
return local_thread_info?(detail::win32::handle)local_thread_info->thread_handle:detail::win32::invalid_handle_value;
}
detail::thread_data_ptr thread::get_thread_info() const
{
boost::mutex::scoped_lock l(thread_info_mutex);
return thread_info;
}
namespace this_thread
{
namespace
{
LARGE_INTEGER get_due_time(detail::timeout const& target_time)
{
LARGE_INTEGER due_time={0};
if(target_time.relative)
{
unsigned long const elapsed_milliseconds=GetTickCount()-target_time.start;
LONGLONG const remaining_milliseconds=(target_time.milliseconds-elapsed_milliseconds);
LONGLONG const hundred_nanoseconds_in_one_millisecond=10000;
if(remaining_milliseconds>0)
{
due_time.QuadPart=-(remaining_milliseconds*hundred_nanoseconds_in_one_millisecond);
}
}
else
{
SYSTEMTIME target_system_time={0};
target_system_time.wYear=target_time.abs_time.date().year();
target_system_time.wMonth=target_time.abs_time.date().month();
target_system_time.wDay=target_time.abs_time.date().day();
target_system_time.wHour=(WORD)target_time.abs_time.time_of_day().hours();
target_system_time.wMinute=(WORD)target_time.abs_time.time_of_day().minutes();
target_system_time.wSecond=(WORD)target_time.abs_time.time_of_day().seconds();
if(!SystemTimeToFileTime(&target_system_time,((FILETIME*)&due_time)))
{
due_time.QuadPart=0;
}
else
{
long const hundred_nanoseconds_in_one_second=10000000;
due_time.QuadPart+=target_time.abs_time.time_of_day().fractional_seconds()*(hundred_nanoseconds_in_one_second/target_time.abs_time.time_of_day().ticks_per_second());
}
}
return due_time;
}
}
bool interruptible_wait(detail::win32::handle handle_to_wait_for,detail::timeout target_time)
{
detail::win32::handle handles[3]={0};
unsigned handle_count=0;
unsigned wait_handle_index=~0U;
unsigned interruption_index=~0U;
unsigned timeout_index=~0U;
if(handle_to_wait_for!=detail::win32::invalid_handle_value)
{
wait_handle_index=handle_count;
handles[handle_count++]=handle_to_wait_for;
}
if(get_current_thread_data() && get_current_thread_data()->interruption_enabled)
{
interruption_index=handle_count;
handles[handle_count++]=get_current_thread_data()->interruption_handle;
}
detail::win32::handle_manager timer_handle;
#ifndef UNDER_CE
unsigned const min_timer_wait_period=20;
if(!target_time.is_sentinel())
{
detail::timeout::remaining_time const time_left=target_time.remaining_milliseconds();
if(time_left.milliseconds > min_timer_wait_period)
{
// for a long-enough timeout, use a waitable timer (which tracks clock changes)
timer_handle=CreateWaitableTimer(NULL,false,NULL);
if(timer_handle!=0)
{
LARGE_INTEGER due_time=get_due_time(target_time);
bool const set_time_succeeded=SetWaitableTimer(timer_handle,&due_time,0,0,0,false)!=0;
if(set_time_succeeded)
{
timeout_index=handle_count;
handles[handle_count++]=timer_handle;
}
}
}
else if(!target_time.relative)
{
// convert short absolute-time timeouts into relative ones, so we don't race against clock changes
target_time=detail::timeout(time_left.milliseconds);
}
}
#endif
bool const using_timer=timeout_index!=~0u;
detail::timeout::remaining_time time_left(0);
do
{
if(!using_timer)
{
time_left=target_time.remaining_milliseconds();
}
if(handle_count)
{
unsigned long const notified_index=detail::win32::WaitForMultipleObjects(handle_count,handles,false,using_timer?INFINITE:time_left.milliseconds);
if(notified_index<handle_count)
{
if(notified_index==wait_handle_index)
{
return true;
}
else if(notified_index==interruption_index)
{
detail::win32::ResetEvent(get_current_thread_data()->interruption_handle);
throw thread_interrupted();
}
else if(notified_index==timeout_index)
{
return false;
}
}
}
else
{
detail::win32::Sleep(time_left.milliseconds);
}
if(target_time.relative)
{
target_time.milliseconds-=detail::timeout::max_non_infinite_wait;
}
}
while(time_left.more);
return false;
}
thread::id get_id()
{
return thread::id(get_or_make_current_thread_data());
}
void interruption_point()
{
if(interruption_enabled() && interruption_requested())
{
detail::win32::ResetEvent(get_current_thread_data()->interruption_handle);
throw thread_interrupted();
}
}
bool interruption_enabled()
{
return get_current_thread_data() && get_current_thread_data()->interruption_enabled;
}
bool interruption_requested()
{
return get_current_thread_data() && (detail::win32::WaitForSingleObject(get_current_thread_data()->interruption_handle,0)==0);
}
void yield()
{
detail::win32::Sleep(0);
}
disable_interruption::disable_interruption():
interruption_was_enabled(interruption_enabled())
{
if(interruption_was_enabled)
{
get_current_thread_data()->interruption_enabled=false;
}
}
disable_interruption::~disable_interruption()
{
if(get_current_thread_data())
{
get_current_thread_data()->interruption_enabled=interruption_was_enabled;
}
}
restore_interruption::restore_interruption(disable_interruption& d)
{
if(d.interruption_was_enabled)
{
get_current_thread_data()->interruption_enabled=true;
}
}
restore_interruption::~restore_interruption()
{
if(get_current_thread_data())
{
get_current_thread_data()->interruption_enabled=false;
}
}
}
namespace detail
{
void add_thread_exit_function(thread_exit_function_base* func)
{
detail::thread_data_base* const current_thread_data(get_or_make_current_thread_data());
thread_exit_callback_node* const new_node=
heap_new<thread_exit_callback_node>(func,
current_thread_data->thread_exit_callbacks);
current_thread_data->thread_exit_callbacks=new_node;
}
tss_data_node* find_tss_data(void const* key)
{
detail::thread_data_base* const current_thread_data(get_current_thread_data());
if(current_thread_data)
{
detail::tss_data_node* current_node=current_thread_data->tss_data;
while(current_node)
{
if(current_node->key==key)
{
return current_node;
}
current_node=current_node->next;
}
}
return NULL;
}
void* get_tss_data(void const* key)
{
if(tss_data_node* const current_node=find_tss_data(key))
{
return current_node->value;
}
return NULL;
}
void set_tss_data(void const* key,boost::shared_ptr<tss_cleanup_function> func,void* tss_data,bool cleanup_existing)
{
if(tss_data_node* const current_node=find_tss_data(key))
{
if(cleanup_existing && current_node->func.get())
{
(*current_node->func)(current_node->value);
}
current_node->func=func;
current_node->value=tss_data;
}
else
{
detail::thread_data_base* const current_thread_data(get_or_make_current_thread_data());
tss_data_node* const new_node=heap_new<tss_data_node>(key,func,tss_data,current_thread_data->tss_data);
current_thread_data->tss_data=new_node;
}
}
}
}
extern "C" BOOST_THREAD_DECL void on_process_enter()
{}
extern "C" BOOST_THREAD_DECL void on_thread_enter()
{}
extern "C" BOOST_THREAD_DECL void on_process_exit()
{
boost::cleanup_tls_key();
}
extern "C" BOOST_THREAD_DECL void on_thread_exit()
{
boost::run_thread_exit_callbacks();
}
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Swift