JsonNullCompact

JsonNullCompact represents the null value in the Hakka JSON library. It is implemented as a NaN-boxed singleton within JsonFloatCompact using the NULL_NAN bit pattern.

Important: JsonNullCompact is not a standalone class. It is a type marker used in the UniformCompactPointerView variant system. The actual implementation resides in JsonFloatCompact.

Header: include/hakka_json_float.hpp

Architecture

JsonNullCompact is implemented using NaN-boxing:

• Storage: Single 64-bit double with NULL_NAN bit pattern
• Singleton: One immortal instance shared by all null handles
• Lifetime: Never deallocated (created during static initialization)
• Type Discrimination: The type() method returns HAKKA_JSON_NULL when it detects the NULL_NAN bit pattern

Note

See Primitive Types Overview for detailed information about NaN-boxing.

Warning

You do not need to manually create these NaN-boxed singleton instances. They are immortal instances created during static initialization in src/handles/scalar_manager.cpp. The create() method simply returns a handle to these pre-existing singletons. Directly modifying reference counts for these singleton objects results in undefined behavior.

Factory Methods

create

[[nodiscard]] static JsonHandleCompact create(std::nullptr_t value);

Creates a null value by returning a handle to the singleton NULL_NAN instance.

• Parameters:

  • value: nullptr literal.

• Returns:

  • A JsonHandleCompact referencing the singleton NULL_NAN instance.

• Error Handling:

  • None (singleton is pre-allocated).
  • Exception safety: No-throw guarantee.

• Complexity:

  • \(\Theta(1)\) time complexity (returns pre-existing singleton).

• Thread Safety:

  • This function is thread-safe.

• Example:

  auto null_handle = JsonFloatCompact::create(nullptr);
  assert(null_handle.get_type() == HAKKA_JSON_NULL);
  

---

Serialization Methods

dump

tl::expected<std::string, HakkaJsonResultEnum> dump(uint32_t max_depth = 0) const;

Serializes the null value to the string "null".

• Parameters:

  • max_depth: Unused for JsonNullCompact; included for interface consistency.

• Returns:

  • On success: A std::string containing "null".
  • On failure: HAKKA_JSON_INTERNAL_ERROR (rare, occurs on exception).

• Error Handling:

  • Returns HAKKA_JSON_INTERNAL_ERROR if string allocation throws an exception.
  • Exception safety: Strong guarantee (no state changes on failure).

• Complexity:

  • \(\Theta(1)\) time complexity (returns constant string).

• Thread Safety:

  • This function is thread-safe.

• Example:

  auto handle = JsonFloatCompact::create(nullptr);
  auto view = handle.get_view();
  if (auto* null_ptr = std::get_if<const JsonFloatCompact*>(&view)) {
      auto result = (*null_ptr)->dump();
      if (result) {
          std::cout << result.value() << std::endl; // Output: null
      }
  }
  

---

to_bytes

HakkaJsonResultEnum to_bytes(char *buffer, uint32_t *buffer_size) const;

Serializes the null value into a null-terminated byte buffer.

• Parameters:

  • buffer: Pointer to the destination byte buffer.
  • buffer_size: Pointer to the buffer size. On input, specifies the buffer capacity. On output, contains the number of bytes written (excluding null terminator) or the required size if buffer is too small.

• Returns:

  • HAKKA_JSON_SUCCESS if serialization succeeds.
  • HAKKA_JSON_NOT_ENOUGH_MEMORY if the buffer is too small. The required size is written to *buffer_size.
  • HAKKA_JSON_INTERNAL_ERROR if an exception occurs.

• Error Handling:

  • Returns HAKKA_JSON_NOT_ENOUGH_MEMORY when *buffer_size < 5 (4 bytes for "null" + 1 for null terminator).
  • Returns HAKKA_JSON_INTERNAL_ERROR on exception.
  • Exception safety: Strong guarantee.

• Complexity:

  • \(\Theta(1)\) time complexity (copies constant-size string).

• Thread Safety:

  • This function is thread-safe.

• Example:

  auto handle = JsonFloatCompact::create(nullptr);
  auto view = handle.get_view();
  if (auto* null_ptr = std::get_if<const JsonFloatCompact*>(&view)) {
      char buffer[10];
      uint32_t size = sizeof(buffer);
      auto result = (*null_ptr)->to_bytes(buffer, &size);
      if (result == HAKKA_JSON_SUCCESS) {
          std::cout << buffer << std::endl; // Output: null
          std::cout << "Written: " << size << " bytes" << std::endl; // Output: 4
      }
  }
  

---

dump_size

uint64_t dump_size() const;

Returns the size of the serialized string representation.

• Parameters:

  • None.

• Returns:

  • Always returns 4 (size of "null").

• Error Handling:

  • None.
  • Exception safety: Strong guarantee.

• Complexity:

  • \(\Theta(1)\) time complexity (returns constant value).

• Thread Safety:

  • This function is thread-safe.

• Example:

  auto handle = JsonFloatCompact::create(nullptr);
  auto view = handle.get_view();
  if (auto* null_ptr = std::get_if<const JsonFloatCompact*>(&view)) {
      uint64_t size = (*null_ptr)->dump_size();
      std::cout << "Size: " << size << std::endl; // Output: Size: 4
  }
  

---

Type Information Methods

type

HakkaJsonType type() const;

Returns the JSON type of this instance.

• Parameters:

  • None.

• Returns:

  • HAKKA_JSON_NULL

• Error Handling:

  • None.
  • Exception safety: No-throw guarantee.

• Complexity:

  • \(\Theta(1)\) time complexity (bit pattern check).

• Thread Safety:

  • This function is thread-safe.

• Example:

  auto handle = JsonFloatCompact::create(nullptr);
  HakkaJsonType t = handle.get_type();
  assert(t == HAKKA_JSON_NULL);
  

---

Comparison Methods

compare

tl::expected<int, HakkaJsonResultEnum> compare(const JsonHandleCompact &other) const;

Compares this null value with another JSON value. Supports comparison with JsonIntCompact, JsonFloatCompact, JsonBoolCompact, and JsonNullCompact types.

• Parameters:

  • other: The JsonHandleCompact to compare against.

• Returns:

  • On success: An integer comparison result:
    • < 0 if this value is less than other
    • 0 if this value equals other (both are null)
    • > 0 if this value is greater than other
  • On failure: HAKKA_JSON_TYPE_ERROR if other is not INT, FLOAT, BOOL, or NULL.

• Error Handling:

  • Returns HAKKA_JSON_TYPE_ERROR if type is incompatible.
  • Exception safety: Strong guarantee.

• Complexity:

  • \(\Theta(1)\) time complexity.

• Thread Safety:

  • This function is thread-safe.

• Example:

  auto null1 = JsonFloatCompact::create(nullptr);
  auto null2 = JsonFloatCompact::create(nullptr);
  
  auto view1 = null1.get_view();
  if (auto* null_ptr = std::get_if<const JsonFloatCompact*>(&view1)) {
      auto result = (*null_ptr)->compare(null2);
      if (result) {
          assert(result.value() == 0); // null == null
      }
  }
  

---

hash

uint64_t hash() const;

Computes the hash value of the null value by hashing the NULL_NAN bit representation.

• Parameters:

  • None.

• Returns:

  • A 64-bit hash value.

• Error Handling:

  • None.
  • Exception safety: No-throw guarantee.

• Complexity:

  • \(\Theta(1)\) time complexity.

• Thread Safety:

  • This function is thread-safe.

• Example:

  auto handle = JsonFloatCompact::create(nullptr);
  auto view = handle.get_view();
  if (auto* null_ptr = std::get_if<const JsonFloatCompact*>(&view)) {
      uint64_t h = (*null_ptr)->hash();
      std::cout << "Hash: " << h << std::endl;
  }
  

---

Value Access Methods

get

tl::expected<PrimitiveType, HakkaJsonResultEnum> get() const;

Retrieves the null value as std::nullptr_t wrapped in a PrimitiveType.

• Parameters:

  • None.

• Returns:

  • On success: A PrimitiveType containing std::nullptr_t.
  • On failure: Error (rare, should not occur for valid instances).

• Error Handling:

  • No errors expected for valid instances.
  • Exception safety: No-throw guarantee.

• Complexity:

  • \(\Theta(1)\) time complexity.

• Thread Safety:

  • This function is thread-safe.

• Example:

  auto handle = JsonFloatCompact::create(nullptr);
  auto view = handle.get_view();
  if (auto* null_ptr = std::get_if<const JsonFloatCompact*>(&view)) {
      auto value = (*null_ptr)->get();
      if (value) {
          auto null_val = std::get<std::nullptr_t>(value.value());
          assert(null_val == nullptr);
      }
  }
  

---

Reference Counting Methods

inc_ref

uint64_t inc_ref() const;

Increments the reference count atomically.

• Parameters:

  • None.

• Returns:

  • The new reference count after incrementing.

• Error Handling:

  • None.
  • Exception safety: No-throw guarantee.

• Complexity:

  • \(\Theta(1)\) time complexity.

• Thread Safety:

  • This function is thread-safe (uses atomic operations with memory_order_relaxed).

• Example:

  auto handle = JsonFloatCompact::create(nullptr);
  auto view = handle.get_view();
  if (auto* null_ptr = std::get_if<const JsonFloatCompact*>(&view)) {
      uint64_t count = (*null_ptr)->inc_ref();
      std::cout << "New ref count: " << count << std::endl;
  }
  

---

dec_ref

uint64_t dec_ref() const;

Decrements the reference count atomically.

• Parameters:

  • None.

• Returns:

  • The new reference count after decrementing.

• Error Handling:

  • None.
  • Exception safety: No-throw guarantee.

• Complexity:

  • \(\Theta(1)\) time complexity.

• Thread Safety:

  • This function is thread-safe (uses atomic operations with memory_order_relaxed).

• Example:

  auto handle = JsonFloatCompact::create(nullptr);
  auto view = handle.get_view();
  if (auto* null_ptr = std::get_if<const JsonFloatCompact*>(&view)) {
      uint64_t count = (*null_ptr)->dec_ref();
      std::cout << "New ref count: " << count << std::endl;
      // Note: Manually calling dec_ref() is not recommended; use Handle system
  }
  

Warning

Manual reference counting is intended for Python FFI integration. Normal usage should rely on the JsonHandleCompact system for automatic reference management.

---

Singleton Behavior

All null handles reference the same underlying singleton:

auto null1 = JsonFloatCompact::create(nullptr);
auto null2 = JsonFloatCompact::create(nullptr);
// Both reference the same NULL_NAN singleton instance

// The singleton is never deallocated
// Reference counting does not apply to the singleton

Memory Management

The null singleton is created during static initialization and persists for the program's lifetime. It is never deallocated, regardless of how many handles reference it.

Reference Counting: While the singleton has reference counting methods, they do not affect its lifetime. The singleton is immortal.

See Also

• JsonFloatCompact - Complete API documentation (null is implemented within JsonFloatCompact)
• Primitive Types Overview - NaN-boxing architecture
• JsonBoolCompact - Boolean type (also NaN-boxed)
• JsonInvalidCompact - Invalid type (also NaN-boxed)
• Handle System - Handle-based memory management