core.thread
Source: core/thread.d
- alias getpid = core.sys.posix.unistd.getpid;
- Returns the process ID of the calling process, which is guaranteed to be unique on the system. This call is always successful.
Example:
writefln("Current process id: %s", getpid());
- class ThreadException: object.Exception;
- Base class for thread exceptions.
- class ThreadError: object.Error;
- Base class for thread errors to be used for function inside GC when allocations are unavailable.
- class Thread;
- This class encapsulates all threading functionality for the D programming language. As thread manipulation is a required facility for garbage collection, all user threads should derive from this class, and instances of this class should never be explicitly deleted. A new thread may be created using either derivation or composition, as in the following example.Examples:
class DerivedThread : Thread { this() { super(&run); } private: void run() { // Derived thread running. } } void threadFunc() { // Composed thread running. } // create and start instances of each type auto derived = new DerivedThread().start(); auto composed = new Thread(&threadFunc).start(); new Thread({ // Codes to run in the newly created thread. }).start();
- this(void function() fn, size_t sz = 0);
- Initializes a thread object which is associated with a static D function.Parameters:
void function() fn The thread function. size_t sz The stack size for this thread. In: fn must not be null.
- this(void delegate() dg, size_t sz = 0);
- Initializes a thread object which is associated with a dynamic D function.Parameters:
void delegate() dg The thread function. size_t sz The stack size for this thread. In: dg must not be null.
- final nothrow Thread start();
- Starts the thread and invokes the function or delegate passed upon construction.
In: This routine may only be called once per thread instance.
Throws:ThreadException if the thread fails to start. - final Throwable join(bool rethrow = true);
- Waits for this thread to complete. If the thread terminated as the result of an unhandled exception, this exception will be rethrown.Parameters:
bool rethrow Rethrow any unhandled exception which may have caused this thread to terminate. Throws:ThreadException if the operation fails. Any exception not handled by the joined thread.Returns:Any exception not handled by this thread if rethrow = false, null otherwise. - final @property ThreadID id();
- Gets the OS identifier for this thread.Returns:If the thread hasn't been started yet, returns ThreadID.init. Otherwise, returns the result of GetCurrentThreadId on Windows, and pthread_self on POSIX. The value is unique for the current process.
- final @property string name();
- Gets the user-readable label for this thread.Returns:The name of this thread.
- final @property void name(string val);
- Sets the user-readable label for this thread.Parameters:
string val The new name of this thread. - final @property bool isDaemon();
- Gets the daemon status for this thread. While the runtime will wait for all normal threads to complete before tearing down the process, daemon threads are effectively ignored and thus will not prevent the process from terminating. In effect, daemon threads will be terminated automatically by the OS when the process exits.Returns:true if this is a daemon thread.
- final @property void isDaemon(bool val);
- Sets the daemon status for this thread. While the runtime will wait for all normal threads to complete before tearing down the process, daemon threads are effectively ignored and thus will not prevent the process from terminating. In effect, daemon threads will be terminated automatically by the OS when the process exits.Parameters:
bool val The new daemon status for this thread. - final nothrow @property bool isRunning();
- Tests whether this thread is running.Returns:true if the thread is running, false if not.
- const int PRIORITY_MIN;
- The minimum scheduling priority that may be set for a thread. On systems where multiple scheduling policies are defined, this value represents the minimum valid priority for the scheduling policy of the process.
- const int PRIORITY_MAX;
- The maximum scheduling priority that may be set for a thread. On systems where multiple scheduling policies are defined, this value represents the maximum valid priority for the scheduling policy of the process.
- const int PRIORITY_DEFAULT;
- The default scheduling priority that is set for a thread. On systems where multiple scheduling policies are defined, this value represents the default priority for the scheduling policy of the process.
- final @property int priority();
- Gets the scheduling priority for the associated thread.
Note: Getting the priority of a thread that already terminated might return the default priority.
Returns:The scheduling priority of this thread. - final @property void priority(int val);
- Sets the scheduling priority for the associated thread.
Note: Setting the priority of a thread that already terminated might have no effect.
Parameters:int val The new scheduling priority of this thread. - static nothrow @nogc void sleep(Duration val);
- Suspends the calling thread for at least the supplied period. This may result in multiple OS calls if period is greater than the maximum sleep duration supported by the operating system.Parameters:
Duration val The minimum duration the calling thread should be suspended. In: period must be non-negative.
Example:
Thread.sleep( dur!("msecs")( 50 ) ); // sleep for 50 milliseconds Thread.sleep( dur!("seconds")( 5 ) ); // sleep for 5 seconds
- static nothrow @nogc void yield();
- Forces a context switch to occur away from the calling thread.
- static nothrow Thread getThis();
- Provides a reference to the calling thread.Returns:The thread object representing the calling thread. The result of deleting this object is undefined. If the current thread is not attached to the runtime, a null reference is returned.
- static Thread[] getAll();
- Provides a list of all threads currently being tracked by the system. Note that threads in the returned array might no longer run (see Thread.isRunning).Returns:An array containing references to all threads currently being tracked by the system. The result of deleting any contained objects is undefined.
- static int opApply(scope int delegate(ref Thread) dg);
- Operates on all threads currently being tracked by the system. The result of deleting any Thread object is undefined. Note that threads passed to the callback might no longer run (see Thread.isRunning).Parameters:
int delegate(ref Thread) dg The supplied code as a delegate. Returns:Zero if all elemented are visited, nonzero if not.
- void thread_setGCSignals(int suspendSignalNo, int resumeSignalNo);
- Instruct the thread module, when initialized, to use a different set of signals besides SIGUSR1 and SIGUSR2 for suspension and resumption of threads. This function should be called at most once, prior to thread_init(). This function is Posix-only.
- void thread_init();
- Initializes the thread module. This function must be called by the garbage collector on startup and before any other thread routines are called.
- void thread_term();
- Terminates the thread module. No other thread routine may be called afterwards.
- bool thread_isMainThread();
- Thread thread_attachThis();
- Registers the calling thread for use with the D Runtime. If this routine is called for a thread which is already registered, no action is performed.
NOTE: This routine does not run thread-local static constructors when called. If full functionality as a D thread is desired, the following function must be called after thread_attachThis:
extern (C) void rt_moduleTlsCtor(); - nothrow void thread_detachThis();
- Deregisters the calling thread from use with the runtime. If this routine is called for a thread which is not registered, the result is undefined.
NOTE: This routine does not run thread-local static destructors when called. If full functionality as a D thread is desired, the following function must be called after thread_detachThis, particularly if the thread is being detached at some indeterminate time before program termination:
extern(C) void rt_moduleTlsDtor(); - void thread_detachByAddr(ThreadID addr);
void thread_detachInstance(Thread t); - Deregisters the given thread from use with the runtime. If this routine is called for a thread which is not registered, the result is undefined.
NOTE: This routine does not run thread-local static destructors when called. If full functionality as a D thread is desired, the following function must be called by the detached thread, particularly if the thread is being detached at some indeterminate time before program termination:
extern(C) void rt_moduleTlsDtor(); - static Thread thread_findByAddr(ThreadID addr);
- Search the list of all threads for a thread with the given thread identifier.Parameters:
ThreadID addr The thread identifier to search for. Returns:The thread object associated with the thread identifier, null if not found. - void thread_setThis(Thread t);
- Sets the current thread to a specific reference. Only to be used when dealing with externally-created threads (in e.g. C code). The primary use of this function is when Thread.getThis() must return a sensible value in, for example, TLS destructors. In other words, don't touch this unless you know what you're doing.Parameters:
Thread t A reference to the current thread. May be null. - void thread_joinAll();
- Joins all non-daemon threads that are currently running. This is done by performing successive scans through the thread list until a scan consists of only daemon threads.
- nothrow void thread_suspendAll();
- Suspend all threads but the calling thread for "stop the world" garbage collection runs. This function may be called multiple times, and must be followed by a matching number of calls to thread_resumeAll before processing is resumed.Throws:ThreadError if the suspend operation fails for a running thread.
- nothrow void thread_resumeAll();
- Resume all threads but the calling thread for "stop the world" garbage collection runs. This function must be called once for each preceding call to thread_suspendAll before the threads are actually resumed.
In: This routine must be preceded by a call to thread_suspendAll.
Throws:ThreadError if the resume operation fails for a running thread. - enum ScanType: int;
- Indicates the kind of scan being performed by thread_scanAllType.
- stack
- The stack and/or registers are being scanned.
- tls
- TLS data is being scanned.
- alias ScanAllThreadsFn = void delegate(void*, void*) nothrow;
alias ScanAllThreadsTypeFn = void delegate(ScanType, void*, void*) nothrow; - The scanning function.
- nothrow void thread_scanAllType(scope ScanAllThreadsTypeFn scan);
- The main entry point for garbage collection. The supplied delegate will be passed ranges representing both stack and register values.Parameters:
ScanAllThreadsTypeFn scan The scanner function. It should scan from p1 through p2 - 1. In: This routine must be preceded by a call to thread_suspendAll.
- nothrow void thread_scanAll(scope ScanAllThreadsFn scan);
- The main entry point for garbage collection. The supplied delegate will be passed ranges representing both stack and register values.Parameters:
ScanAllThreadsFn scan The scanner function. It should scan from p1 through p2 - 1. In: This routine must be preceded by a call to thread_suspendAll.
- void thread_enterCriticalRegion();
- Signals that the code following this call is a critical region. Any code in this region must finish running before the calling thread can be suspended by a call to thread_suspendAll.This function is, in particular, meant to help maintain garbage collector invariants when a lock is not used. A critical region is exited with thread_exitCriticalRegion. Warning: Using critical regions is extremely error-prone. For instance, using locks inside a critical region can easily result in a deadlock when another thread holding the lock already got suspended. The term and concept of a 'critical region' comes from .
In: The calling thread must be attached to the runtime.
- void thread_exitCriticalRegion();
- Signals that the calling thread is no longer in a critical region. Following a call to this function, the thread can once again be suspended.
In: The calling thread must be attached to the runtime.
- bool thread_inCriticalRegion();
- Returns true if the current thread is in a critical region; otherwise, false.
In: The calling thread must be attached to the runtime.
- enum IsMarked: int;
- Indicates whether an address has been marked by the GC.
- no
- Address is not marked.
- yes
- Address is marked.
- unknown
- Address is not managed by the GC.
- alias IsMarkedDg = int delegate(void* addr) nothrow;
- The isMarked callback function.
- nothrow void thread_processGCMarks(scope IsMarkedDg isMarked);
- This routine allows the runtime to process any special per-thread handling for the GC. This is needed for taking into account any memory that is referenced by non-scanned pointers but is about to be freed. That currently means the array append cache.Parameters:
IsMarkedDg isMarked The function used to check if addr is marked. In: This routine must be called just prior to resuming all threads.
- nothrow void* thread_stackTop();
- Returns the stack top of the currently active stack within the calling thread.
In: The calling thread must be attached to the runtime.
Returns:The address of the stack top. - nothrow void* thread_stackBottom();
- Returns the stack bottom of the currently active stack within the calling thread.
In: The calling thread must be attached to the runtime.
Returns:The address of the stack bottom. - class ThreadGroup;
- This class is intended to simplify certain common programming techniques.
- final Thread create(void function() fn);
- Creates and starts a new Thread object that executes fn and adds it to the list of tracked threads.Parameters:
void function() fn The thread function. Returns:A reference to the newly created thread. - final Thread create(void delegate() dg);
- Creates and starts a new Thread object that executes dg and adds it to the list of tracked threads.Parameters:
void delegate() dg The thread function. Returns:A reference to the newly created thread. - final void add(Thread t);
- Add t to the list of tracked threads if it is not already being tracked.Parameters:
Thread t The thread to add. In: t must not be null.
- final void remove(Thread t);
- Removes t from the list of tracked threads. No operation will be performed if t is not currently being tracked by this object.Parameters:
Thread t The thread to remove. In: t must not be null.
- final int opApply(scope int delegate(ref Thread) dg);
- Operates on all threads currently tracked by this object.
- final void joinAll(bool rethrow = true);
- Iteratively joins all tracked threads. This function will block add, remove, and opApply until it completes.Parameters:
bool rethrow Rethrow any unhandled exception which may have caused the current thread to terminate. Throws:Any exception not handled by the joined threads.
- class Fiber;
- This class provides a cooperative concurrency mechanism integrated with the threading and garbage collection functionality. Calling a fiber may be considered a blocking operation that returns when the fiber yields (via Fiber.yield()). Execution occurs within the context of the calling thread so synchronization is not necessary to guarantee memory visibility so long as the same thread calls the fiber each time. Please note that there is no requirement that a fiber be bound to one specific thread. Rather, fibers may be freely passed between threads so long as they are not currently executing. Like threads, a new fiber thread may be created using either derivation or composition, as in the following example.
Warning: Status registers are not saved by the current implementations. This means floating point exception status bits (overflow, divide by 0), rounding mode and similar stuff is set per-thread, not per Fiber!
Warning: On ARM FPU registers are not saved if druntime was compiled as ARM_SoftFloat. If such a build is used on a ARM_SoftFP system which actually has got a FPU and other libraries are using the FPU registers (other code is compiled as ARM_SoftFP) this can cause problems. Druntime must be compiled as ARM_SoftFP in this case.
Example:
class DerivedFiber : Fiber { this() { super( &run ); } private : void run() { printf( "Derived fiber running.\n" ); } } void fiberFunc() { printf( "Composed fiber running.\n" ); Fiber.yield(); printf( "Composed fiber running.\n" ); } // create instances of each type Fiber derived = new DerivedFiber(); Fiber composed = new Fiber( &fiberFunc ); // call both fibers once derived.call(); composed.call(); printf( "Execution returned to calling context.\n" ); composed.call(); // since each fiber has run to completion, each should have state TERM assert( derived.state == Fiber.State.TERM ); assert( composed.state == Fiber.State.TERM );
Authors:Based on a design by Mikola Lysenko.- nothrow this(void function() fn, size_t sz = PAGESIZE * 4);
- Initializes a fiber object which is associated with a static D function.Parameters:
void function() fn The fiber function. size_t sz The stack size for this fiber. In: fn must not be null.
- nothrow this(void delegate() dg, size_t sz = PAGESIZE * 4);
- Initializes a fiber object which is associated with a dynamic D function.Parameters:
void delegate() dg The fiber function. size_t sz The stack size for this fiber. In: dg must not be null.
- final Throwable call(Rethrow rethrow = Rethrow.yes);
final Throwable call(Rethrow rethrow)();
deprecated final Throwable call(bool rethrow); - Transfers execution to this fiber object. The calling context will be suspended until the fiber calls Fiber.yield() or until it terminates via an unhandled exception.Parameters:
Rethrow rethrow Rethrow any unhandled exception which may have caused this fiber to terminate. In: This fiber must be in state HOLD.
Throws:Any exception not handled by the joined thread.Returns:Any exception not handled by this fiber if rethrow = false, null otherwise. - enum Rethrow: bool;
- Flag to control rethrow behavior of call
- final nothrow void reset();
final nothrow void reset(void function() fn);
final nothrow void reset(void delegate() dg); - Resets this fiber so that it may be re-used, optionally with a new function/delegate. This routine should only be called for fibers that have terminated, as doing otherwise could result in scope-dependent functionality that is not executed. Stack-based classes, for example, may not be cleaned up properly if a fiber is reset before it has terminated.
In: This fiber must be in state TERM or HOLD.
- enum State: int;
- A fiber may occupy one of three states: HOLD, EXEC, and TERM. The HOLD state applies to any fiber that is suspended and ready to be called. The EXEC state will be set for any fiber that is currently executing. And the TERM state is set when a fiber terminates. Once a fiber terminates, it must be reset before it may be called again.
- HOLD
- EXEC
- TERM
- final const nothrow @property State state();
- Gets the current state of this fiber.Returns:The state of this fiber as an enumerated value.
- static nothrow void yield();
- Forces a context switch to occur away from the calling fiber.
- static nothrow void yieldAndThrow(Throwable t);
- Forces a context switch to occur away from the calling fiber and then throws obj in the calling fiber.Parameters:
Throwable t The object to throw. In: t must not be null.
- static nothrow Fiber getThis();
- Provides a reference to the calling fiber or null if no fiber is currently active.Returns:The fiber object representing the calling fiber or null if no fiber is currently active within this thread. The result of deleting this object is undefined.
- alias ThreadID = ulong;
- Represents the ID of a thread, as returned by Thread.id. The exact type varies from platform to platform.