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Current Path : /opt/cpanel/ea-nodejs22/include/node/cppgc/ |
Current File : //opt/cpanel/ea-nodejs22/include/node/cppgc/heap.h |
// Copyright 2020 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef INCLUDE_CPPGC_HEAP_H_ #define INCLUDE_CPPGC_HEAP_H_ #include <cstddef> #include <cstdint> #include <memory> #include <vector> #include "cppgc/common.h" #include "cppgc/custom-space.h" #include "cppgc/platform.h" #include "v8config.h" // NOLINT(build/include_directory) /** * cppgc - A C++ garbage collection library. */ namespace cppgc { class AllocationHandle; class HeapHandle; /** * Implementation details of cppgc. Those details are considered internal and * may change at any point in time without notice. Users should never rely on * the contents of this namespace. */ namespace internal { class Heap; } // namespace internal class V8_EXPORT Heap { public: /** * Specifies the stack state the embedder is in. */ using StackState = EmbedderStackState; /** * Specifies whether conservative stack scanning is supported. */ enum class StackSupport : uint8_t { /** * Conservative stack scan is supported. */ kSupportsConservativeStackScan, /** * Conservative stack scan is not supported. Embedders may use this option * when using custom infrastructure that is unsupported by the library. */ kNoConservativeStackScan, }; /** * Specifies supported marking types. */ enum class MarkingType : uint8_t { /** * Atomic stop-the-world marking. This option does not require any write * barriers but is the most intrusive in terms of jank. */ kAtomic, /** * Incremental marking interleaves marking with the rest of the application * workload on the same thread. */ kIncremental, /** * Incremental and concurrent marking. */ kIncrementalAndConcurrent }; /** * Specifies supported sweeping types. */ enum class SweepingType : uint8_t { /** * Atomic stop-the-world sweeping. All of sweeping is performed at once. */ kAtomic, /** * Incremental sweeping interleaves sweeping with the rest of the * application workload on the same thread. */ kIncremental, /** * Incremental and concurrent sweeping. Sweeping is split and interleaved * with the rest of the application. */ kIncrementalAndConcurrent }; /** * Constraints for a Heap setup. */ struct ResourceConstraints { /** * Allows the heap to grow to some initial size in bytes before triggering * garbage collections. This is useful when it is known that applications * need a certain minimum heap to run to avoid repeatedly invoking the * garbage collector when growing the heap. */ size_t initial_heap_size_bytes = 0; }; /** * Options specifying Heap properties (e.g. custom spaces) when initializing a * heap through `Heap::Create()`. */ struct HeapOptions { /** * Creates reasonable defaults for instantiating a Heap. * * \returns the HeapOptions that can be passed to `Heap::Create()`. */ static HeapOptions Default() { return {}; } /** * Custom spaces added to heap are required to have indices forming a * numbered sequence starting at 0, i.e., their `kSpaceIndex` must * correspond to the index they reside in the vector. */ std::vector<std::unique_ptr<CustomSpaceBase>> custom_spaces; /** * Specifies whether conservative stack scan is supported. When conservative * stack scan is not supported, the collector may try to invoke * garbage collections using non-nestable task, which are guaranteed to have * no interesting stack, through the provided Platform. If such tasks are * not supported by the Platform, the embedder must take care of invoking * the GC through `ForceGarbageCollectionSlow()`. */ StackSupport stack_support = StackSupport::kSupportsConservativeStackScan; /** * Specifies which types of marking are supported by the heap. */ MarkingType marking_support = MarkingType::kIncrementalAndConcurrent; /** * Specifies which types of sweeping are supported by the heap. */ SweepingType sweeping_support = SweepingType::kIncrementalAndConcurrent; /** * Resource constraints specifying various properties that the internal * GC scheduler follows. */ ResourceConstraints resource_constraints; }; /** * Creates a new heap that can be used for object allocation. * * \param platform implemented and provided by the embedder. * \param options HeapOptions specifying various properties for the Heap. * \returns a new Heap instance. */ static std::unique_ptr<Heap> Create( std::shared_ptr<Platform> platform, HeapOptions options = HeapOptions::Default()); virtual ~Heap() = default; /** * Forces garbage collection. * * \param source String specifying the source (or caller) triggering a * forced garbage collection. * \param reason String specifying the reason for the forced garbage * collection. * \param stack_state The embedder stack state, see StackState. */ void ForceGarbageCollectionSlow( const char* source, const char* reason, StackState stack_state = StackState::kMayContainHeapPointers); /** * \returns the opaque handle for allocating objects using * `MakeGarbageCollected()`. */ AllocationHandle& GetAllocationHandle(); /** * \returns the opaque heap handle which may be used to refer to this heap in * other APIs. Valid as long as the underlying `Heap` is alive. */ HeapHandle& GetHeapHandle(); private: Heap() = default; friend class internal::Heap; }; } // namespace cppgc #endif // INCLUDE_CPPGC_HEAP_H_