src/third_party/devtools/node_modules/@types/node/v8.d.ts - cobalt - Git at Google

 declare module "v8" {
     import { Readable } from "stream";

     interface HeapSpaceInfo {
         space_name: string;
         space_size: number;
         space_used_size: number;
         space_available_size: number;
         physical_space_size: number;
     }

     // ** Signifies if the --zap_code_space option is enabled or not.  1 == enabled, 0 == disabled. */
     type DoesZapCodeSpaceFlag = 0 | 1;

     interface HeapInfo {
         total_heap_size: number;
         total_heap_size_executable: number;
         total_physical_size: number;
         total_available_size: number;
         used_heap_size: number;
         heap_size_limit: number;
         malloced_memory: number;
         peak_malloced_memory: number;
         does_zap_garbage: DoesZapCodeSpaceFlag;
         number_of_native_contexts: number;
         number_of_detached_contexts: number;
     }

     interface HeapCodeStatistics {
         code_and_metadata_size: number;
         bytecode_and_metadata_size: number;
         external_script_source_size: number;
     }

     /**
      * Returns an integer representing a "version tag" derived from the V8 version, command line flags and detected CPU features.
      * This is useful for determining whether a vm.Script cachedData buffer is compatible with this instance of V8.
      */
     function cachedDataVersionTag(): number;

     function getHeapStatistics(): HeapInfo;
     function getHeapSpaceStatistics(): HeapSpaceInfo[];
     function setFlagsFromString(flags: string): void;
     /**
      * Generates a snapshot of the current V8 heap and returns a Readable
      * Stream that may be used to read the JSON serialized representation.
      * This conversation was marked as resolved by joyeecheung
      * This JSON stream format is intended to be used with tools such as
      * Chrome DevTools. The JSON schema is undocumented and specific to the
      * V8 engine, and may change from one version of V8 to the next.
      */
     function getHeapSnapshot(): Readable;

     /**
      *
      * @param fileName The file path where the V8 heap snapshot is to be
      * saved. If not specified, a file name with the pattern
      * `'Heap-${yyyymmdd}-${hhmmss}-${pid}-${thread_id}.heapsnapshot'` will be
      * generated, where `{pid}` will be the PID of the Node.js process,
      * `{thread_id}` will be `0` when `writeHeapSnapshot()` is called from
      * the main Node.js thread or the id of a worker thread.
      */
     function writeHeapSnapshot(fileName?: string): string;

     function getHeapCodeStatistics(): HeapCodeStatistics;

     /**
      * @experimental
      */
     class Serializer {
         /**
          * Writes out a header, which includes the serialization format version.
          */
         writeHeader(): void;

         /**
          * Serializes a JavaScript value and adds the serialized representation to the internal buffer.
          * This throws an error if value cannot be serialized.
          */
         writeValue(val: any): boolean;

         /**
          * Returns the stored internal buffer.
          * This serializer should not be used once the buffer is released.
          * Calling this method results in undefined behavior if a previous write has failed.
          */
         releaseBuffer(): Buffer;

         /**
          * Marks an ArrayBuffer as having its contents transferred out of band.\
          * Pass the corresponding ArrayBuffer in the deserializing context to deserializer.transferArrayBuffer().
          */
         transferArrayBuffer(id: number, arrayBuffer: ArrayBuffer): void;

         /**
          * Write a raw 32-bit unsigned integer.
          */
         writeUint32(value: number): void;

         /**
          * Write a raw 64-bit unsigned integer, split into high and low 32-bit parts.
          */
         writeUint64(hi: number, lo: number): void;

         /**
          * Write a JS number value.
          */
         writeDouble(value: number): void;

         /**
          * Write raw bytes into the serializer’s internal buffer.
          * The deserializer will require a way to compute the length of the buffer.
          */
         writeRawBytes(buffer: NodeJS.TypedArray): void;
     }

     /**
      * A subclass of `Serializer` that serializes `TypedArray` (in particular `Buffer`) and `DataView` objects as host objects,
      * and only stores the part of their underlying `ArrayBuffers` that they are referring to.
      * @experimental
      */
     class DefaultSerializer extends Serializer {
     }

     /**
      * @experimental
      */
     class Deserializer {
         constructor(data: NodeJS.TypedArray);
         /**
          * Reads and validates a header (including the format version).
          * May, for example, reject an invalid or unsupported wire format.
          * In that case, an Error is thrown.
          */
         readHeader(): boolean;

         /**
          * Deserializes a JavaScript value from the buffer and returns it.
          */
         readValue(): any;

         /**
          * Marks an ArrayBuffer as having its contents transferred out of band.
          * Pass the corresponding `ArrayBuffer` in the serializing context to serializer.transferArrayBuffer()
          * (or return the id from serializer._getSharedArrayBufferId() in the case of SharedArrayBuffers).
          */
         transferArrayBuffer(id: number, arrayBuffer: ArrayBuffer): void;

         /**
          * Reads the underlying wire format version.
          * Likely mostly to be useful to legacy code reading old wire format versions.
          * May not be called before .readHeader().
          */
         getWireFormatVersion(): number;

         /**
          * Read a raw 32-bit unsigned integer and return it.
          */
         readUint32(): number;

         /**
          * Read a raw 64-bit unsigned integer and return it as an array [hi, lo] with two 32-bit unsigned integer entries.
          */
         readUint64(): [number, number];

         /**
          * Read a JS number value.
          */
         readDouble(): number;

         /**
          * Read raw bytes from the deserializer’s internal buffer.
          * The length parameter must correspond to the length of the buffer that was passed to serializer.writeRawBytes().
          */
         readRawBytes(length: number): Buffer;
     }

     /**
      * A subclass of `Serializer` that serializes `TypedArray` (in particular `Buffer`) and `DataView` objects as host objects,
      * and only stores the part of their underlying `ArrayBuffers` that they are referring to.
      * @experimental
      */
     class DefaultDeserializer extends Deserializer {
     }

     /**
      * Uses a `DefaultSerializer` to serialize value into a buffer.
      * @experimental
      */
     function serialize(value: any): Buffer;

     /**
      * Uses a `DefaultDeserializer` with default options to read a JS value from a buffer.
      * @experimental
      */
     function deserialize(data: NodeJS.TypedArray): any;
 }
	declare module "v8" {
	import { Readable } from "stream";

	interface HeapSpaceInfo {
	space_name: string;
	space_size: number;
	space_used_size: number;
	space_available_size: number;
	physical_space_size: number;
	}

	// ** Signifies if the --zap_code_space option is enabled or not. 1 == enabled, 0 == disabled. */
	type DoesZapCodeSpaceFlag = 0 \| 1;

	interface HeapInfo {
	total_heap_size: number;
	total_heap_size_executable: number;
	total_physical_size: number;
	total_available_size: number;
	used_heap_size: number;
	heap_size_limit: number;
	malloced_memory: number;
	peak_malloced_memory: number;
	does_zap_garbage: DoesZapCodeSpaceFlag;
	number_of_native_contexts: number;
	number_of_detached_contexts: number;
	}

	interface HeapCodeStatistics {
	code_and_metadata_size: number;
	bytecode_and_metadata_size: number;
	external_script_source_size: number;
	}

	/**
	* Returns an integer representing a "version tag" derived from the V8 version, command line flags and detected CPU features.
	* This is useful for determining whether a vm.Script cachedData buffer is compatible with this instance of V8.
	*/
	function cachedDataVersionTag(): number;

	function getHeapStatistics(): HeapInfo;
	function getHeapSpaceStatistics(): HeapSpaceInfo[];
	function setFlagsFromString(flags: string): void;
	/**
	* Generates a snapshot of the current V8 heap and returns a Readable
	* Stream that may be used to read the JSON serialized representation.
	* This conversation was marked as resolved by joyeecheung
	* This JSON stream format is intended to be used with tools such as
	* Chrome DevTools. The JSON schema is undocumented and specific to the
	* V8 engine, and may change from one version of V8 to the next.
	*/
	function getHeapSnapshot(): Readable;

	/**
	*
	* @param fileName The file path where the V8 heap snapshot is to be
	* saved. If not specified, a file name with the pattern
	* `'Heap-${yyyymmdd}-${hhmmss}-${pid}-${thread_id}.heapsnapshot'` will be
	* generated, where `{pid}` will be the PID of the Node.js process,
	* `{thread_id}` will be `0` when `writeHeapSnapshot()` is called from
	* the main Node.js thread or the id of a worker thread.
	*/
	function writeHeapSnapshot(fileName?: string): string;

	function getHeapCodeStatistics(): HeapCodeStatistics;

	/**
	* @experimental
	*/
	class Serializer {
	/**
	* Writes out a header, which includes the serialization format version.
	*/
	writeHeader(): void;

	/**
	* Serializes a JavaScript value and adds the serialized representation to the internal buffer.
	* This throws an error if value cannot be serialized.
	*/
	writeValue(val: any): boolean;

	/**
	* Returns the stored internal buffer.
	* This serializer should not be used once the buffer is released.
	* Calling this method results in undefined behavior if a previous write has failed.
	*/
	releaseBuffer(): Buffer;

	/**
	* Marks an ArrayBuffer as having its contents transferred out of band.\
	* Pass the corresponding ArrayBuffer in the deserializing context to deserializer.transferArrayBuffer().
	*/
	transferArrayBuffer(id: number, arrayBuffer: ArrayBuffer): void;

	/**
	* Write a raw 32-bit unsigned integer.
	*/
	writeUint32(value: number): void;

	/**
	* Write a raw 64-bit unsigned integer, split into high and low 32-bit parts.
	*/
	writeUint64(hi: number, lo: number): void;

	/**
	* Write a JS number value.
	*/
	writeDouble(value: number): void;

	/**
	* Write raw bytes into the serializer’s internal buffer.
	* The deserializer will require a way to compute the length of the buffer.
	*/
	writeRawBytes(buffer: NodeJS.TypedArray): void;
	}

	/**
	* A subclass of `Serializer` that serializes `TypedArray` (in particular `Buffer`) and `DataView` objects as host objects,
	* and only stores the part of their underlying `ArrayBuffers` that they are referring to.
	* @experimental
	*/
	class DefaultSerializer extends Serializer {
	}

	/**
	* @experimental
	*/
	class Deserializer {
	constructor(data: NodeJS.TypedArray);
	/**
	* Reads and validates a header (including the format version).
	* May, for example, reject an invalid or unsupported wire format.
	* In that case, an Error is thrown.
	*/
	readHeader(): boolean;

	/**
	* Deserializes a JavaScript value from the buffer and returns it.
	*/
	readValue(): any;

	/**
	* Marks an ArrayBuffer as having its contents transferred out of band.
	* Pass the corresponding `ArrayBuffer` in the serializing context to serializer.transferArrayBuffer()
	* (or return the id from serializer._getSharedArrayBufferId() in the case of SharedArrayBuffers).
	*/
	transferArrayBuffer(id: number, arrayBuffer: ArrayBuffer): void;

	/**
	* Reads the underlying wire format version.
	* Likely mostly to be useful to legacy code reading old wire format versions.
	* May not be called before .readHeader().
	*/
	getWireFormatVersion(): number;

	/**
	* Read a raw 32-bit unsigned integer and return it.
	*/
	readUint32(): number;

	/**
	* Read a raw 64-bit unsigned integer and return it as an array [hi, lo] with two 32-bit unsigned integer entries.
	*/
	readUint64(): [number, number];

	/**
	* Read a JS number value.
	*/
	readDouble(): number;

	/**
	* Read raw bytes from the deserializer’s internal buffer.
	* The length parameter must correspond to the length of the buffer that was passed to serializer.writeRawBytes().
	*/
	readRawBytes(length: number): Buffer;
	}

	/**
	* A subclass of `Serializer` that serializes `TypedArray` (in particular `Buffer`) and `DataView` objects as host objects,
	* and only stores the part of their underlying `ArrayBuffers` that they are referring to.
	* @experimental
	*/
	class DefaultDeserializer extends Deserializer {
	}

	/**
	* Uses a `DefaultSerializer` to serialize value into a buffer.
	* @experimental
	*/
	function serialize(value: any): Buffer;

	/**
	* Uses a `DefaultDeserializer` with default options to read a JS value from a buffer.
	* @experimental
	*/
	function deserialize(data: NodeJS.TypedArray): any;
	}