runtime/vm/closure_functions_cache.cc - sdk.git - Git at Google

 // Copyright (c) 2020, 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/closure_functions_cache.h"

 #include "vm/compiler/jit/compiler.h"
 #include "vm/object.h"
 #include "vm/object_store.h"

 namespace dart {

 FunctionPtr ClosureFunctionsCache::LookupClosureFunction(
     const Class& owner,
     TokenPosition token_pos) {
   auto thread = Thread::Current();
   SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());
   return LookupClosureFunctionLocked(owner, token_pos);
 }

 FunctionPtr ClosureFunctionsCache::LookupClosureFunctionLocked(
     const Class& owner,
     TokenPosition token_pos) {
   auto thread = Thread::Current();
   auto zone = thread->zone();
   auto object_store = thread->isolate_group()->object_store();

   DEBUG_ASSERT(
       thread->isolate_group()->program_lock()->IsCurrentThreadReader());

   const auto& closures =
       GrowableObjectArray::Handle(zone, object_store->closure_functions());
   auto& closure = Function::Handle(zone);
   intptr_t num_closures = closures.Length();
   for (intptr_t i = 0; i < num_closures; i++) {
     closure ^= closures.At(i);
     if (closure.token_pos() == token_pos && closure.Owner() == owner.raw()) {
       return closure.raw();
     }
   }
   return Function::null();
 }

 FunctionPtr ClosureFunctionsCache::LookupClosureFunction(
     const Function& parent,
     TokenPosition token_pos) {
   auto thread = Thread::Current();
   SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());
   return LookupClosureFunctionLocked(parent, token_pos);
 }

 FunctionPtr ClosureFunctionsCache::LookupClosureFunctionLocked(
     const Function& parent,
     TokenPosition token_pos) {
   auto thread = Thread::Current();
   auto zone = thread->zone();
   auto object_store = thread->isolate_group()->object_store();

   DEBUG_ASSERT(
       thread->isolate_group()->program_lock()->IsCurrentThreadReader());

   const auto& closures =
       GrowableObjectArray::Handle(zone, object_store->closure_functions());
   auto& closure = Function::Handle(zone);
   intptr_t num_closures = closures.Length();
   for (intptr_t i = 0; i < num_closures; i++) {
     closure ^= closures.At(i);
     if (closure.token_pos() == token_pos &&
         closure.parent_function() == parent.raw()) {
       return closure.raw();
     }
   }
   return Function::null();
 }

 void ClosureFunctionsCache::AddClosureFunctionLocked(const Function& function) {
   ASSERT(!Compiler::IsBackgroundCompilation());

   auto thread = Thread::Current();
   auto zone = thread->zone();
   auto object_store = thread->isolate_group()->object_store();

   DEBUG_ASSERT(
       thread->isolate_group()->program_lock()->IsCurrentThreadWriter());

   const auto& closures =
       GrowableObjectArray::Handle(zone, object_store->closure_functions());
   ASSERT(!closures.IsNull());
   ASSERT(function.IsNonImplicitClosureFunction());
   closures.Add(function, Heap::kOld);
 }

 intptr_t ClosureFunctionsCache::FindClosureIndex(const Function& needle) {
   auto thread = Thread::Current();
   auto zone = thread->zone();
   auto object_store = thread->isolate_group()->object_store();

   SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());

   const auto& closures_array =
       GrowableObjectArray::Handle(zone, object_store->closure_functions());
   intptr_t num_closures = closures_array.Length();
   for (intptr_t i = 0; i < num_closures; i++) {
     if (closures_array.At(i) == needle.raw()) {
       return i;
     }
   }
   return -1;
 }

 FunctionPtr ClosureFunctionsCache::ClosureFunctionFromIndex(intptr_t idx) {
   auto thread = Thread::Current();
   auto zone = thread->zone();
   auto object_store = thread->isolate_group()->object_store();

   SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());

   const auto& closures_array =
       GrowableObjectArray::Handle(zone, object_store->closure_functions());
   if (idx < 0 || idx >= closures_array.Length()) {
     return Function::null();
   }
   return Function::RawCast(closures_array.At(idx));
 }

 FunctionPtr ClosureFunctionsCache::GetUniqueInnerClosure(
     const Function& outer) {
   auto thread = Thread::Current();
   auto zone = thread->zone();
   auto object_store = thread->isolate_group()->object_store();

   SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());

   const auto& closures =
       GrowableObjectArray::Handle(zone, object_store->closure_functions());
   auto& entry = Function::Handle(zone);
   for (intptr_t i = (closures.Length() - 1); i >= 0; i--) {
     entry ^= closures.At(i);
     if (entry.parent_function() == outer.raw()) {
 #if defined(DEBUG)
       auto& other = Function::Handle(zone);
       for (intptr_t j = i - 1; j >= 0; j--) {
         other ^= closures.At(j);
         ASSERT(other.parent_function() != outer.raw());
       }
 #endif
       return entry.raw();
     }
   }
   return Function::null();
 }

 void ClosureFunctionsCache::ForAllClosureFunctions(
     std::function<bool(const Function&)> callback) {
   auto thread = Thread::Current();
   auto zone = thread->zone();
   auto object_store = thread->isolate_group()->object_store();

   auto& current_data = Array::Handle(zone);
   auto& entry = Function::Handle(zone);

   // NOTE: Inner functions may get added to the closures array while iterating -
   // we guarantee that any closure functions added on this thread by a
   // [callback] call will be visited as well.
   //
   // We avoid holding a lock while accessing the closures array, since often
   // times [callback] will do very heavy things (e.g. compiling the function).
   //
   // This means we can possibly miss a concurrently added closure function -
   // which the caller should be ok with (or it guarantees that this cannot
   // happen).
   const auto& closures =
       GrowableObjectArray::Handle(zone, object_store->closure_functions());

   {
     // The empty read locker scope will implicitly issue an acquire memory
     // fence, which means any closure functions added so far will be visible and
     // iterated further down.
     SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());
   }

   // We have an outer loop to ensure any new closure functions added by
   // [callback] will be iterated as well.
   intptr_t i = 0;
   while (true) {
     intptr_t current_length = closures.Length();
     if (i == current_length) break;

     current_data = closures.data();
     if (current_data.Length() < current_length) {
       current_length = current_data.Length();
     }

     for (; i < current_length; ++i) {
       entry ^= current_data.At(i);
       if (!callback(entry)) {
         return;  // Stop iteration.
       }
     }
   }
 }

 }  // namespace dart
	// Copyright (c) 2020, 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/closure_functions_cache.h"

	#include "vm/compiler/jit/compiler.h"
	#include "vm/object.h"
	#include "vm/object_store.h"

	namespace dart {

	FunctionPtr ClosureFunctionsCache::LookupClosureFunction(
	const Class& owner,
	TokenPosition token_pos) {
	auto thread = Thread::Current();
	SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());
	return LookupClosureFunctionLocked(owner, token_pos);
	}

	FunctionPtr ClosureFunctionsCache::LookupClosureFunctionLocked(
	const Class& owner,
	TokenPosition token_pos) {
	auto thread = Thread::Current();
	auto zone = thread->zone();
	auto object_store = thread->isolate_group()->object_store();

	DEBUG_ASSERT(
	thread->isolate_group()->program_lock()->IsCurrentThreadReader());

	const auto& closures =
	GrowableObjectArray::Handle(zone, object_store->closure_functions());
	auto& closure = Function::Handle(zone);
	intptr_t num_closures = closures.Length();
	for (intptr_t i = 0; i < num_closures; i++) {
	closure ^= closures.At(i);
	if (closure.token_pos() == token_pos && closure.Owner() == owner.raw()) {
	return closure.raw();
	}
	}
	return Function::null();
	}

	FunctionPtr ClosureFunctionsCache::LookupClosureFunction(
	const Function& parent,
	TokenPosition token_pos) {
	auto thread = Thread::Current();
	SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());
	return LookupClosureFunctionLocked(parent, token_pos);
	}

	FunctionPtr ClosureFunctionsCache::LookupClosureFunctionLocked(
	const Function& parent,
	TokenPosition token_pos) {
	auto thread = Thread::Current();
	auto zone = thread->zone();
	auto object_store = thread->isolate_group()->object_store();

	DEBUG_ASSERT(
	thread->isolate_group()->program_lock()->IsCurrentThreadReader());

	const auto& closures =
	GrowableObjectArray::Handle(zone, object_store->closure_functions());
	auto& closure = Function::Handle(zone);
	intptr_t num_closures = closures.Length();
	for (intptr_t i = 0; i < num_closures; i++) {
	closure ^= closures.At(i);
	if (closure.token_pos() == token_pos &&
	closure.parent_function() == parent.raw()) {
	return closure.raw();
	}
	}
	return Function::null();
	}

	void ClosureFunctionsCache::AddClosureFunctionLocked(const Function& function) {
	ASSERT(!Compiler::IsBackgroundCompilation());

	auto thread = Thread::Current();
	auto zone = thread->zone();
	auto object_store = thread->isolate_group()->object_store();

	DEBUG_ASSERT(
	thread->isolate_group()->program_lock()->IsCurrentThreadWriter());

	const auto& closures =
	GrowableObjectArray::Handle(zone, object_store->closure_functions());
	ASSERT(!closures.IsNull());
	ASSERT(function.IsNonImplicitClosureFunction());
	closures.Add(function, Heap::kOld);
	}

	intptr_t ClosureFunctionsCache::FindClosureIndex(const Function& needle) {
	auto thread = Thread::Current();
	auto zone = thread->zone();
	auto object_store = thread->isolate_group()->object_store();

	SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());

	const auto& closures_array =
	GrowableObjectArray::Handle(zone, object_store->closure_functions());
	intptr_t num_closures = closures_array.Length();
	for (intptr_t i = 0; i < num_closures; i++) {
	if (closures_array.At(i) == needle.raw()) {
	return i;
	}
	}
	return -1;
	}

	FunctionPtr ClosureFunctionsCache::ClosureFunctionFromIndex(intptr_t idx) {
	auto thread = Thread::Current();
	auto zone = thread->zone();
	auto object_store = thread->isolate_group()->object_store();

	SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());

	const auto& closures_array =
	GrowableObjectArray::Handle(zone, object_store->closure_functions());
	if (idx < 0 \|\| idx >= closures_array.Length()) {
	return Function::null();
	}
	return Function::RawCast(closures_array.At(idx));
	}

	FunctionPtr ClosureFunctionsCache::GetUniqueInnerClosure(
	const Function& outer) {
	auto thread = Thread::Current();
	auto zone = thread->zone();
	auto object_store = thread->isolate_group()->object_store();

	SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());

	const auto& closures =
	GrowableObjectArray::Handle(zone, object_store->closure_functions());
	auto& entry = Function::Handle(zone);
	for (intptr_t i = (closures.Length() - 1); i >= 0; i--) {
	entry ^= closures.At(i);
	if (entry.parent_function() == outer.raw()) {
	#if defined(DEBUG)
	auto& other = Function::Handle(zone);
	for (intptr_t j = i - 1; j >= 0; j--) {
	other ^= closures.At(j);
	ASSERT(other.parent_function() != outer.raw());
	}
	#endif
	return entry.raw();
	}
	}
	return Function::null();
	}

	void ClosureFunctionsCache::ForAllClosureFunctions(
	std::function<bool(const Function&)> callback) {
	auto thread = Thread::Current();
	auto zone = thread->zone();
	auto object_store = thread->isolate_group()->object_store();

	auto& current_data = Array::Handle(zone);
	auto& entry = Function::Handle(zone);

	// NOTE: Inner functions may get added to the closures array while iterating -
	// we guarantee that any closure functions added on this thread by a
	// [callback] call will be visited as well.
	//
	// We avoid holding a lock while accessing the closures array, since often
	// times [callback] will do very heavy things (e.g. compiling the function).
	//
	// This means we can possibly miss a concurrently added closure function -
	// which the caller should be ok with (or it guarantees that this cannot
	// happen).
	const auto& closures =
	GrowableObjectArray::Handle(zone, object_store->closure_functions());

	{
	// The empty read locker scope will implicitly issue an acquire memory
	// fence, which means any closure functions added so far will be visible and
	// iterated further down.
	SafepointReadRwLocker ml(thread, thread->isolate_group()->program_lock());
	}

	// We have an outer loop to ensure any new closure functions added by
	// [callback] will be iterated as well.
	intptr_t i = 0;
	while (true) {
	intptr_t current_length = closures.Length();
	if (i == current_length) break;

	current_data = closures.data();
	if (current_data.Length() < current_length) {
	current_length = current_data.Length();
	}

	for (; i < current_length; ++i) {
	entry ^= current_data.At(i);
	if (!callback(entry)) {
	return; // Stop iteration.
	}
	}
	}
	}

	} // namespace dart