runtime/vm/thread_registry.cc - sdk - Git at Google

 // Copyright (c) 2015, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/thread_registry.h"

 #include "vm/isolate.h"
 #include "vm/json_stream.h"
 #include "vm/lockers.h"

 namespace dart {

 ThreadRegistry::~ThreadRegistry() {
   // Go over the free thread list and delete the thread objects.
   {
     MonitorLocker ml(threads_lock());
     // At this point the active list should be empty.
     ASSERT(active_list_ == NULL);
     // We have cached the mutator thread, delete it.
     delete mutator_thread_;
     mutator_thread_ = NULL;
     // Now delete all the threads in the free list.
     while (free_list_ != NULL) {
       Thread* thread = free_list_;
       free_list_ = thread->next_;
       delete thread;
     }
   }

   // Delete monitor.
   delete threads_lock_;
 }

 // Gets a free Thread structure, we special case the mutator thread
 // by reusing the cached structure, see comment in 'thread_registry.h'.
 Thread* ThreadRegistry::GetFreeThreadLocked(Isolate* isolate, bool is_mutator) {
   ASSERT(threads_lock()->IsOwnedByCurrentThread());
   Thread* thread;
   if (is_mutator) {
     if (mutator_thread_ == NULL) {
       mutator_thread_ = GetFromFreelistLocked(isolate);
     }
     thread = mutator_thread_;
   } else {
     thread = GetFromFreelistLocked(isolate);
     ASSERT(thread->api_top_scope() == NULL);
   }
   // Now add this Thread to the active list for the isolate.
   AddToActiveListLocked(thread);
   return thread;
 }

 void ThreadRegistry::ReturnThreadLocked(bool is_mutator, Thread* thread) {
   ASSERT(threads_lock()->IsOwnedByCurrentThread());
   // Remove thread from the active list for the isolate.
   RemoveFromActiveListLocked(thread);
   if (!is_mutator) {
     ReturnToFreelistLocked(thread);
   }
 }

 void ThreadRegistry::VisitObjectPointers(ObjectPointerVisitor* visitor,
                                          ValidationPolicy validate_frames) {
   MonitorLocker ml(threads_lock());
   bool mutator_thread_visited = false;
   Thread* thread = active_list_;
   while (thread != NULL) {
     thread->VisitObjectPointers(visitor, validate_frames);
     if (mutator_thread_ == thread) {
       mutator_thread_visited = true;
     }
     thread = thread->next_;
   }
   // Visit mutator thread even if it is not in the active list because of
   // api handles.
   if (!mutator_thread_visited && (mutator_thread_ != NULL)) {
     mutator_thread_->VisitObjectPointers(visitor, validate_frames);
   }
 }

 void ThreadRegistry::PrepareForGC() {
   MonitorLocker ml(threads_lock());
   Thread* thread = active_list_;
   while (thread != NULL) {
     thread->PrepareForGC();
     thread = thread->next_;
   }
 }

 #ifndef PRODUCT
 void ThreadRegistry::PrintJSON(JSONStream* stream) const {
   MonitorLocker ml(threads_lock());
   JSONArray threads(stream);
   Thread* current = active_list_;
   while (current != NULL) {
     threads.AddValue(current);
     current = current->next_;
   }
 }
 #endif

 intptr_t ThreadRegistry::CountZoneHandles() const {
   MonitorLocker ml(threads_lock());
   intptr_t count = 0;
   Thread* current = active_list_;
   while (current != NULL) {
     count += current->CountZoneHandles();
     current = current->next_;
   }
   return count;
 }

 intptr_t ThreadRegistry::CountScopedHandles() const {
   MonitorLocker ml(threads_lock());
   intptr_t count = 0;
   Thread* current = active_list_;
   while (current != NULL) {
     count += current->CountScopedHandles();
     current = current->next_;
   }
   return count;
 }

 void ThreadRegistry::AddToActiveListLocked(Thread* thread) {
   ASSERT(thread != NULL);
   ASSERT(threads_lock()->IsOwnedByCurrentThread());
   thread->next_ = active_list_;
   active_list_ = thread;
 }

 void ThreadRegistry::RemoveFromActiveListLocked(Thread* thread) {
   ASSERT(thread != NULL);
   ASSERT(threads_lock()->IsOwnedByCurrentThread());
   Thread* prev = NULL;
   Thread* current = active_list_;
   while (current != NULL) {
     if (current == thread) {
       if (prev == NULL) {
         active_list_ = current->next_;
       } else {
         prev->next_ = current->next_;
       }
       break;
     }
     prev = current;
     current = current->next_;
   }
 }

 Thread* ThreadRegistry::GetFromFreelistLocked(Isolate* isolate) {
   ASSERT(threads_lock()->IsOwnedByCurrentThread());
   Thread* thread = NULL;
   // Get thread structure from free list or create a new one.
   if (free_list_ == NULL) {
     thread = new Thread(isolate);
   } else {
     thread = free_list_;
     free_list_ = thread->next_;
   }
   return thread;
 }

 void ThreadRegistry::ReturnToFreelistLocked(Thread* thread) {
   ASSERT(thread != NULL);
   ASSERT(thread->os_thread_ == NULL);
   ASSERT(thread->isolate_ == NULL);
   ASSERT(thread->heap_ == NULL);
   ASSERT(threads_lock()->IsOwnedByCurrentThread());
   // Add thread to the free list.
   thread->next_ = free_list_;
   free_list_ = thread;
 }

 }  // namespace dart
	// Copyright (c) 2015, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/thread_registry.h"

	#include "vm/isolate.h"
	#include "vm/json_stream.h"
	#include "vm/lockers.h"

	namespace dart {

	ThreadRegistry::~ThreadRegistry() {
	// Go over the free thread list and delete the thread objects.
	{
	MonitorLocker ml(threads_lock());
	// At this point the active list should be empty.
	ASSERT(active_list_ == NULL);
	// We have cached the mutator thread, delete it.
	delete mutator_thread_;
	mutator_thread_ = NULL;
	// Now delete all the threads in the free list.
	while (free_list_ != NULL) {
	Thread* thread = free_list_;
	free_list_ = thread->next_;
	delete thread;
	}
	}

	// Delete monitor.
	delete threads_lock_;
	}

	// Gets a free Thread structure, we special case the mutator thread
	// by reusing the cached structure, see comment in 'thread_registry.h'.
	Thread* ThreadRegistry::GetFreeThreadLocked(Isolate* isolate, bool is_mutator) {
	ASSERT(threads_lock()->IsOwnedByCurrentThread());
	Thread* thread;
	if (is_mutator) {
	if (mutator_thread_ == NULL) {
	mutator_thread_ = GetFromFreelistLocked(isolate);
	}
	thread = mutator_thread_;
	} else {
	thread = GetFromFreelistLocked(isolate);
	ASSERT(thread->api_top_scope() == NULL);
	}
	// Now add this Thread to the active list for the isolate.
	AddToActiveListLocked(thread);
	return thread;
	}

	void ThreadRegistry::ReturnThreadLocked(bool is_mutator, Thread* thread) {
	ASSERT(threads_lock()->IsOwnedByCurrentThread());
	// Remove thread from the active list for the isolate.
	RemoveFromActiveListLocked(thread);
	if (!is_mutator) {
	ReturnToFreelistLocked(thread);
	}
	}

	void ThreadRegistry::VisitObjectPointers(ObjectPointerVisitor* visitor,
	ValidationPolicy validate_frames) {
	MonitorLocker ml(threads_lock());
	bool mutator_thread_visited = false;
	Thread* thread = active_list_;
	while (thread != NULL) {
	thread->VisitObjectPointers(visitor, validate_frames);
	if (mutator_thread_ == thread) {
	mutator_thread_visited = true;
	}
	thread = thread->next_;
	}
	// Visit mutator thread even if it is not in the active list because of
	// api handles.
	if (!mutator_thread_visited && (mutator_thread_ != NULL)) {
	mutator_thread_->VisitObjectPointers(visitor, validate_frames);
	}
	}

	void ThreadRegistry::PrepareForGC() {
	MonitorLocker ml(threads_lock());
	Thread* thread = active_list_;
	while (thread != NULL) {
	thread->PrepareForGC();
	thread = thread->next_;
	}
	}

	#ifndef PRODUCT
	void ThreadRegistry::PrintJSON(JSONStream* stream) const {
	MonitorLocker ml(threads_lock());
	JSONArray threads(stream);
	Thread* current = active_list_;
	while (current != NULL) {
	threads.AddValue(current);
	current = current->next_;
	}
	}
	#endif

	intptr_t ThreadRegistry::CountZoneHandles() const {
	MonitorLocker ml(threads_lock());
	intptr_t count = 0;
	Thread* current = active_list_;
	while (current != NULL) {
	count += current->CountZoneHandles();
	current = current->next_;
	}
	return count;
	}

	intptr_t ThreadRegistry::CountScopedHandles() const {
	MonitorLocker ml(threads_lock());
	intptr_t count = 0;
	Thread* current = active_list_;
	while (current != NULL) {
	count += current->CountScopedHandles();
	current = current->next_;
	}
	return count;
	}

	void ThreadRegistry::AddToActiveListLocked(Thread* thread) {
	ASSERT(thread != NULL);
	ASSERT(threads_lock()->IsOwnedByCurrentThread());
	thread->next_ = active_list_;
	active_list_ = thread;
	}

	void ThreadRegistry::RemoveFromActiveListLocked(Thread* thread) {
	ASSERT(thread != NULL);
	ASSERT(threads_lock()->IsOwnedByCurrentThread());
	Thread* prev = NULL;
	Thread* current = active_list_;
	while (current != NULL) {
	if (current == thread) {
	if (prev == NULL) {
	active_list_ = current->next_;
	} else {
	prev->next_ = current->next_;
	}
	break;
	}
	prev = current;
	current = current->next_;
	}
	}

	Thread* ThreadRegistry::GetFromFreelistLocked(Isolate* isolate) {
	ASSERT(threads_lock()->IsOwnedByCurrentThread());
	Thread* thread = NULL;
	// Get thread structure from free list or create a new one.
	if (free_list_ == NULL) {
	thread = new Thread(isolate);
	} else {
	thread = free_list_;
	free_list_ = thread->next_;
	}
	return thread;
	}

	void ThreadRegistry::ReturnToFreelistLocked(Thread* thread) {
	ASSERT(thread != NULL);
	ASSERT(thread->os_thread_ == NULL);
	ASSERT(thread->isolate_ == NULL);
	ASSERT(thread->heap_ == NULL);
	ASSERT(threads_lock()->IsOwnedByCurrentThread());
	// Add thread to the free list.
	thread->next_ = free_list_;
	free_list_ = thread;
	}

	} // namespace dart