@tsonic/dotnet

// Generated by tsbindgen - Architecture // Namespace: System.IO.Compression // Assembly: System.IO.Compression, System.IO.Compression.Brotli, System.IO.Compression.ZipFile // Branded primitive types are sourced from @tsonic/types import type { sbyte, byte, short, ushort, int, uint, long, ulong, int128, uint128, half, float, double, decimal, nint, nuint, char } from '@tsonic/types'; // Import support types from @tsonic/types import type { ptr, ref } from "@tsonic/types"; // Import types from other namespaces import type { OperationStatus } from "../../System.Buffers/internal/index.js"; import type { ReadOnlyCollection_1 } from "../../System.Collections.ObjectModel/internal/index.js"; import type { IDictionary } from "../../System.Collections/internal/index.js"; import * as System_IO_Internal from "../../System.IO/internal/index.js"; import type { IOException, SeekOrigin, Stream } from "../../System.IO/internal/index.js"; import type { MethodBase } from "../../System.Reflection/internal/index.js"; import * as System_Runtime_Serialization_Internal from "../../System.Runtime.Serialization/internal/index.js"; import type { ISerializable, SerializationInfo, StreamingContext } from "../../System.Runtime.Serialization/internal/index.js"; import type { Encoding } from "../../System.Text/internal/index.js"; import type { Task, Task_1, ValueTask, ValueTask_1 } from "../../System.Threading.Tasks/internal/index.js"; import type { CancellationToken } from "../../System.Threading/internal/index.js"; import * as System_Internal from "../../System/internal/index.js"; import type { AsyncCallback, Boolean as ClrBoolean, Byte, DateTimeOffset, Enum, Exception, IAsyncDisposable, IAsyncResult, IComparable, IConvertible, IDisposable, IFormatProvider, IFormattable, Int32, Int64, ISpanFormattable, Memory_1, Object as ClrObject, ReadOnlyMemory_1, ReadOnlySpan_1, Span_1, String as ClrString, Type, TypeCode, UInt32, ValueType, Void } from "../../System/internal/index.js"; // CLROf<T> - Maps ergonomic primitives to their CLR types for generic constraints // This utility is used ONLY in generic type arguments to satisfy CLR interface constraints // Value positions (parameters, return types) use lowercase primitives for ergonomics export type CLROf<T> = T extends sbyte ? System_Internal.SByte : T extends short ? System_Internal.Int16 : T extends int ? System_Internal.Int32 : T extends long ? System_Internal.Int64 : T extends int128 ? System_Internal.Int128 : T extends nint ? System_Internal.IntPtr : T extends byte ? System_Internal.Byte : T extends ushort ? System_Internal.UInt16 : T extends uint ? System_Internal.UInt32 : T extends ulong ? System_Internal.UInt64 : T extends uint128 ? System_Internal.UInt128 : T extends nuint ? System_Internal.UIntPtr : T extends half ? System_Internal.Half : T extends float ? System_Internal.Single : T extends double ? System_Internal.Double : T extends decimal ? System_Internal.Decimal : T extends char ? System_Internal.Char : T extends boolean ? System_Internal.Boolean : T extends string ? System_Internal.String : T; // Identity fallback for non-primitive types export enum CompressionLevel { optimal = 0, fastest = 1, noCompression = 2, smallestSize = 3 } export enum CompressionMode { decompress = 0, compress = 1 } export enum ZipArchiveMode { read = 0, create = 1, update = 2 } export enum ZLibCompressionStrategy { default_ = 0, filtered = 1, huffmanOnly = 2, runLengthEncoding = 3, fixed = 4 } export interface BrotliDecoder$instance { decompress(source: ReadOnlySpan_1<CLROf<byte>>, destination: Span_1<CLROf<byte>>, bytesConsumed: { value: ref<int> }, bytesWritten: { value: ref<int> }): OperationStatus; dispose(): void; } export const BrotliDecoder: { new(): BrotliDecoder$instance; tryDecompress(source: ReadOnlySpan_1<CLROf<byte>>, destination: Span_1<CLROf<byte>>, bytesWritten: { value: ref<int> }): boolean; }; export interface __BrotliDecoder$views { As_IDisposable(): System_Internal.IDisposable$instance; } export interface BrotliDecoder$instance extends System_Internal.IDisposable$instance {} export type BrotliDecoder = BrotliDecoder$instance & __BrotliDecoder$views; export interface BrotliEncoder$instance { compress(source: ReadOnlySpan_1<CLROf<byte>>, destination: Span_1<CLROf<byte>>, bytesConsumed: { value: ref<int> }, bytesWritten: { value: ref<int> }, isFinalBlock: boolean): OperationStatus; dispose(): void; flush(destination: Span_1<CLROf<byte>>, bytesWritten: { value: ref<int> }): OperationStatus; } export const BrotliEncoder: { new(quality: int, window: int): BrotliEncoder$instance; getMaxCompressedLength(inputSize: int): int; tryCompress(source: ReadOnlySpan_1<CLROf<byte>>, destination: Span_1<CLROf<byte>>, bytesWritten: { value: ref<int> }, quality: int, window: int): boolean; tryCompress(source: ReadOnlySpan_1<CLROf<byte>>, destination: Span_1<CLROf<byte>>, bytesWritten: { value: ref<int> }): boolean; }; export interface __BrotliEncoder$views { As_IDisposable(): System_Internal.IDisposable$instance; } export interface BrotliEncoder$instance extends System_Internal.IDisposable$instance {} export type BrotliEncoder = BrotliEncoder$instance & __BrotliEncoder$views; export interface BrotliCompressionOptions$instance { quality: int; } export const BrotliCompressionOptions: { new(): BrotliCompressionOptions$instance; }; export type BrotliCompressionOptions = BrotliCompressionOptions$instance; export interface BrotliStream$instance extends Stream { readonly baseStream: Stream; readonly canRead: boolean; readonly canSeek: boolean; readonly canWrite: boolean; readonly length: long; position: long; beginRead(buffer: byte[], offset: int, count: int, asyncCallback: AsyncCallback, asyncState: unknown): IAsyncResult; beginWrite(buffer: byte[], offset: int, count: int, asyncCallback: AsyncCallback, asyncState: unknown): IAsyncResult; dispose(): void; disposeAsync(): ValueTask; endRead(asyncResult: IAsyncResult): int; endWrite(asyncResult: IAsyncResult): void; flush(): void; flushAsync(cancellationToken: CancellationToken): Task; flushAsync(): Task; read(buffer: byte[], offset: int, count: int): int; read(buffer: Span_1<CLROf<byte>>): int; read(buffer: Span_1<CLROf<byte>>): int; readAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task_1<CLROf<int>>; readAsync(buffer: Memory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask_1<CLROf<int>>; readAsync(buffer: byte[], offset: int, count: int): Task_1<CLROf<int>>; readAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task_1<CLROf<int>>; readAsync(buffer: Memory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask_1<CLROf<int>>; readByte(): int; seek(offset: long, origin: SeekOrigin): long; setLength(value: long): void; write(buffer: byte[], offset: int, count: int): void; write(buffer: ReadOnlySpan_1<CLROf<byte>>): void; write(buffer: ReadOnlySpan_1<CLROf<byte>>): void; writeAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task; writeAsync(buffer: ReadOnlyMemory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask; writeAsync(buffer: byte[], offset: int, count: int): Task; writeAsync(buffer: ReadOnlyMemory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask; writeByte(value: byte): void; } export const BrotliStream: { new(stream: Stream, compressionLevel: CompressionLevel): BrotliStream$instance; new(stream: Stream, compressionLevel: CompressionLevel, leaveOpen: boolean): BrotliStream$instance; new(stream: Stream, compressionOptions: BrotliCompressionOptions, leaveOpen: boolean): BrotliStream$instance; new(stream: Stream, mode: CompressionMode): BrotliStream$instance; new(stream: Stream, mode: CompressionMode, leaveOpen: boolean): BrotliStream$instance; }; export interface __BrotliStream$views { As_IAsyncDisposable(): System_Internal.IAsyncDisposable$instance; As_IDisposable(): System_Internal.IDisposable$instance; } export type BrotliStream = BrotliStream$instance & __BrotliStream$views; export interface DeflateStream$instance extends Stream { readonly baseStream: Stream; readonly canRead: boolean; readonly canSeek: boolean; readonly canWrite: boolean; readonly length: long; position: long; beginRead(buffer: byte[], offset: int, count: int, asyncCallback: AsyncCallback, asyncState: unknown): IAsyncResult; beginWrite(buffer: byte[], offset: int, count: int, asyncCallback: AsyncCallback, asyncState: unknown): IAsyncResult; copyTo(destination: Stream, bufferSize: int): void; copyTo(destination: Stream): void; copyToAsync(destination: Stream, bufferSize: int, cancellationToken: CancellationToken): Task; copyToAsync(destination: Stream): Task; copyToAsync(destination: Stream, bufferSize: int): Task; copyToAsync(destination: Stream, cancellationToken: CancellationToken): Task; dispose(): void; disposeAsync(): ValueTask; endRead(asyncResult: IAsyncResult): int; endWrite(asyncResult: IAsyncResult): void; flush(): void; flushAsync(cancellationToken: CancellationToken): Task; flushAsync(): Task; read(buffer: byte[], offset: int, count: int): int; read(buffer: Span_1<CLROf<byte>>): int; read(buffer: Span_1<CLROf<byte>>): int; readAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task_1<CLROf<int>>; readAsync(buffer: Memory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask_1<CLROf<int>>; readAsync(buffer: byte[], offset: int, count: int): Task_1<CLROf<int>>; readAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task_1<CLROf<int>>; readAsync(buffer: Memory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask_1<CLROf<int>>; readByte(): int; seek(offset: long, origin: SeekOrigin): long; setLength(value: long): void; write(buffer: byte[], offset: int, count: int): void; write(buffer: ReadOnlySpan_1<CLROf<byte>>): void; write(buffer: ReadOnlySpan_1<CLROf<byte>>): void; writeAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task; writeAsync(buffer: ReadOnlyMemory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask; writeAsync(buffer: byte[], offset: int, count: int): Task; writeAsync(buffer: ReadOnlyMemory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask; writeByte(value: byte): void; } export const DeflateStream: { new(stream: Stream, mode: CompressionMode): DeflateStream$instance; new(stream: Stream, mode: CompressionMode, leaveOpen: boolean): DeflateStream$instance; new(stream: Stream, compressionLevel: CompressionLevel): DeflateStream$instance; new(stream: Stream, compressionLevel: CompressionLevel, leaveOpen: boolean): DeflateStream$instance; new(stream: Stream, compressionOptions: ZLibCompressionOptions, leaveOpen: boolean): DeflateStream$instance; }; export interface __DeflateStream$views { As_IAsyncDisposable(): System_Internal.IAsyncDisposable$instance; As_IDisposable(): System_Internal.IDisposable$instance; } export type DeflateStream = DeflateStream$instance & __DeflateStream$views; export interface GZipStream$instance extends Stream { readonly baseStream: Stream; readonly canRead: boolean; readonly canSeek: boolean; readonly canWrite: boolean; readonly length: long; position: long; beginRead(buffer: byte[], offset: int, count: int, asyncCallback: AsyncCallback, asyncState: unknown): IAsyncResult; beginWrite(buffer: byte[], offset: int, count: int, asyncCallback: AsyncCallback, asyncState: unknown): IAsyncResult; copyTo(destination: Stream, bufferSize: int): void; copyTo(destination: Stream): void; copyToAsync(destination: Stream, bufferSize: int, cancellationToken: CancellationToken): Task; copyToAsync(destination: Stream): Task; copyToAsync(destination: Stream, bufferSize: int): Task; copyToAsync(destination: Stream, cancellationToken: CancellationToken): Task; dispose(): void; disposeAsync(): ValueTask; endRead(asyncResult: IAsyncResult): int; endWrite(asyncResult: IAsyncResult): void; flush(): void; flushAsync(cancellationToken: CancellationToken): Task; flushAsync(): Task; read(buffer: byte[], offset: int, count: int): int; read(buffer: Span_1<CLROf<byte>>): int; read(buffer: Span_1<CLROf<byte>>): int; readAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task_1<CLROf<int>>; readAsync(buffer: Memory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask_1<CLROf<int>>; readAsync(buffer: byte[], offset: int, count: int): Task_1<CLROf<int>>; readAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task_1<CLROf<int>>; readAsync(buffer: Memory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask_1<CLROf<int>>; readByte(): int; seek(offset: long, origin: SeekOrigin): long; setLength(value: long): void; write(buffer: byte[], offset: int, count: int): void; write(buffer: ReadOnlySpan_1<CLROf<byte>>): void; write(buffer: ReadOnlySpan_1<CLROf<byte>>): void; writeAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task; writeAsync(buffer: ReadOnlyMemory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask; writeAsync(buffer: byte[], offset: int, count: int): Task; writeAsync(buffer: ReadOnlyMemory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask; writeByte(value: byte): void; } export const GZipStream: { new(stream: Stream, mode: CompressionMode): GZipStream$instance; new(stream: Stream, mode: CompressionMode, leaveOpen: boolean): GZipStream$instance; new(stream: Stream, compressionLevel: CompressionLevel): GZipStream$instance; new(stream: Stream, compressionLevel: CompressionLevel, leaveOpen: boolean): GZipStream$instance; new(stream: Stream, compressionOptions: ZLibCompressionOptions, leaveOpen: boolean): GZipStream$instance; }; export interface __GZipStream$views { As_IAsyncDisposable(): System_Internal.IAsyncDisposable$instance; As_IDisposable(): System_Internal.IDisposable$instance; } export type GZipStream = GZipStream$instance & __GZipStream$views; export interface ZipArchive$instance { comment: string; readonly entries: ReadOnlyCollection_1<ZipArchiveEntry>; readonly mode: ZipArchiveMode; createEntry(entryName: string): ZipArchiveEntry; createEntry(entryName: string, compressionLevel: CompressionLevel): ZipArchiveEntry; dispose(): void; disposeAsync(): ValueTask; getEntry(entryName: string): ZipArchiveEntry; } export const ZipArchive: { new(stream: Stream): ZipArchive$instance; new(stream: Stream, mode: ZipArchiveMode): ZipArchive$instance; new(stream: Stream, mode: ZipArchiveMode, leaveOpen: boolean): ZipArchive$instance; new(stream: Stream, mode: ZipArchiveMode, leaveOpen: boolean, entryNameEncoding: Encoding): ZipArchive$instance; createAsync(stream: Stream, mode: ZipArchiveMode, leaveOpen: boolean, entryNameEncoding: Encoding, cancellationToken?: CancellationToken): Task_1<ZipArchive>; }; export interface __ZipArchive$views { As_IAsyncDisposable(): System_Internal.IAsyncDisposable$instance; As_IDisposable(): System_Internal.IDisposable$instance; } export interface ZipArchive$instance extends System_Internal.IAsyncDisposable$instance, System_Internal.IDisposable$instance {} export type ZipArchive = ZipArchive$instance & __ZipArchive$views; export interface ZipArchiveEntry$instance { readonly archive: ZipArchive; comment: string; readonly compressedLength: long; readonly crc32: uint; externalAttributes: int; readonly fullName: string; readonly isEncrypted: boolean; lastWriteTime: DateTimeOffset; readonly length: long; readonly name: string; delete_(): void; open(): Stream; openAsync(cancellationToken?: CancellationToken): Task_1<Stream>; toString(): string; } export const ZipArchiveEntry: { new(): ZipArchiveEntry$instance; }; export type ZipArchiveEntry = ZipArchiveEntry$instance; export interface ZLibCompressionOptions$instance { compressionLevel: int; compressionStrategy: ZLibCompressionStrategy; } export const ZLibCompressionOptions: { new(): ZLibCompressionOptions$instance; }; export type ZLibCompressionOptions = ZLibCompressionOptions$instance; export interface ZLibException$instance extends IOException { getObjectData(info: SerializationInfo, context: StreamingContext): void; } export const ZLibException: { new(message: string, zlibErrorContext: string, zlibErrorCode: int, zlibErrorMessage: string): ZLibException$instance; new(): ZLibException$instance; new(message: string, innerException: Exception): ZLibException$instance; }; export interface __ZLibException$views { As_ISerializable(): System_Runtime_Serialization_Internal.ISerializable$instance; } export type ZLibException = ZLibException$instance & __ZLibException$views; export interface ZLibStream$instance extends Stream { readonly baseStream: Stream; readonly canRead: boolean; readonly canSeek: boolean; readonly canWrite: boolean; readonly length: long; position: long; beginRead(buffer: byte[], offset: int, count: int, asyncCallback: AsyncCallback, asyncState: unknown): IAsyncResult; beginWrite(buffer: byte[], offset: int, count: int, asyncCallback: AsyncCallback, asyncState: unknown): IAsyncResult; copyTo(destination: Stream, bufferSize: int): void; copyTo(destination: Stream): void; copyToAsync(destination: Stream, bufferSize: int, cancellationToken: CancellationToken): Task; copyToAsync(destination: Stream): Task; copyToAsync(destination: Stream, bufferSize: int): Task; copyToAsync(destination: Stream, cancellationToken: CancellationToken): Task; dispose(): void; disposeAsync(): ValueTask; endRead(asyncResult: IAsyncResult): int; endWrite(asyncResult: IAsyncResult): void; flush(): void; flushAsync(cancellationToken: CancellationToken): Task; flushAsync(): Task; read(buffer: byte[], offset: int, count: int): int; read(buffer: Span_1<CLROf<byte>>): int; read(buffer: Span_1<CLROf<byte>>): int; readAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task_1<CLROf<int>>; readAsync(buffer: Memory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask_1<CLROf<int>>; readAsync(buffer: byte[], offset: int, count: int): Task_1<CLROf<int>>; readAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task_1<CLROf<int>>; readAsync(buffer: Memory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask_1<CLROf<int>>; readByte(): int; seek(offset: long, origin: SeekOrigin): long; setLength(value: long): void; write(buffer: byte[], offset: int, count: int): void; write(buffer: ReadOnlySpan_1<CLROf<byte>>): void; write(buffer: ReadOnlySpan_1<CLROf<byte>>): void; writeAsync(buffer: byte[], offset: int, count: int, cancellationToken: CancellationToken): Task; writeAsync(buffer: ReadOnlyMemory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask; writeAsync(buffer: byte[], offset: int, count: int): Task; writeAsync(buffer: ReadOnlyMemory_1<CLROf<byte>>, cancellationToken?: CancellationToken): ValueTask; writeByte(value: byte): void; } export const ZLibStream: { new(stream: Stream, mode: CompressionMode): ZLibStream$instance; new(stream: Stream, mode: CompressionMode, leaveOpen: boolean): ZLibStream$instance; new(stream: Stream, compressionLevel: CompressionLevel): ZLibStream$instance; new(stream: Stream, compressionLevel: CompressionLevel, leaveOpen: boolean): ZLibStream$instance; new(stream: Stream, compressionOptions: ZLibCompressionOptions, leaveOpen: boolean): ZLibStream$instance; }; export interface __ZLibStream$views { As_IAsyncDisposable(): System_Internal.IAsyncDisposable$instance; As_IDisposable(): System_Internal.IDisposable$instance; } export type ZLibStream = ZLibStream$instance & __ZLibStream$views; export abstract class ZipFile$instance { static createFromDirectory(sourceDirectoryName: string, destination: Stream, compressionLevel: CompressionLevel, includeBaseDirectory: boolean, entryNameEncoding: Encoding): void; static createFromDirectory(sourceDirectoryName: string, destination: Stream, compressionLevel: CompressionLevel, includeBaseDirectory: boolean): void; static createFromDirectory(sourceDirectoryName: string, destination: Stream): void; static createFromDirectory(sourceDirectoryName: string, destinationArchiveFileName: string, compressionLevel: CompressionLevel, includeBaseDirectory: boolean, entryNameEncoding: Encoding): void; static createFromDirectory(sourceDirectoryName: string, destinationArchiveFileName: string, compressionLevel: CompressionLevel, includeBaseDirectory: boolean): void; static createFromDirectory(sourceDirectoryName: string, destinationArchiveFileName: string): void; static createFromDirectoryAsync(sourceDirectoryName: string, destination: Stream, compressionLevel: CompressionLevel, includeBaseDirectory: boolean, entryNameEncoding: Encoding, cancellationToken?: CancellationToken): Task; static createFromDirectoryAsync(sourceDirectoryName: string, destination: Stream, compressionLevel: CompressionLevel, includeBaseDirectory: boolean, cancellationToken?: CancellationToken): Task; static createFromDirectoryAsync(sourceDirectoryName: string, destination: Stream, cancellationToken?: CancellationToken): Task; static createFromDirectoryAsync(sourceDirectoryName: string, destinationArchiveFileName: string, compressionLevel: CompressionLevel, includeBaseDirectory: boolean, entryNameEncoding: Encoding, cancellationToken?: CancellationToken): Task; static createFromDirectoryAsync(sourceDirectoryName: string, destinationArchiveFileName: string, compressionLevel: CompressionLevel, includeBaseDirectory: boolean, cancellationToken?: CancellationToken): Task; static createFromDirectoryAsync(sourceDirectoryName: string, destinationArchiveFileName: string, cancellationToken?: CancellationToken): Task; static extractToDirectory(source: Stream, destinationDirectoryName: string, overwriteFiles: boolean): void; static extractToDirectory(source: Stream, destinationDirectoryName: string, entryNameEncoding: Encoding, overwriteFiles: boolean): void; static extractToDirectory(source: Stream, destinationDirectoryName: string, entryNameEncoding: Encoding): void; static extractToDirectory(source: Stream, destinationDirectoryName: string): void; static extractToDirectory(sourceArchiveFileName: string, destinationDirectoryName: string, overwriteFiles: boolean): void; static extractToDirectory(sourceArchiveFileName: string, destinationDirectoryName: string, entryNameEncoding: Encoding, overwriteFiles: boolean): void; static extractToDirectory(sourceArchiveFileName: string, destinationDirectoryName: string, entryNameEncoding: Encoding): void; static extractToDirectory(sourceArchiveFileName: string, destinationDirectoryName: string): void; static extractToDirectoryAsync(source: Stream, destinationDirectoryName: string, overwriteFiles: boolean, cancellationToken?: CancellationToken): Task; static extractToDirectoryAsync(source: Stream, destinationDirectoryName: string, entryNameEncoding: Encoding, overwriteFiles: boolean, cancellationToken?: CancellationToken): Task; static extractToDirectoryAsync(source: Stream, destinationDirectoryName: string, entryNameEncoding: Encoding, cancellationToken?: CancellationToken): Task; static extractToDirectoryAsync(source: Stream, destinationDirectoryName: string, cancellationToken?: CancellationToken): Task; static extractToDirectoryAsync(sourceArchiveFileName: string, destinationDirectoryName: string, overwriteFiles: boolean, cancellationToken?: CancellationToken): Task; static extractToDirectoryAsync(sourceArchiveFileName: string, destinationDirectoryName: string, entryNameEncoding: Encoding, overwriteFiles: boolean, cancellationToken?: CancellationToken): Task; static extractToDirectoryAsync(sourceArchiveFileName: string, destinationDirectoryName: string, entryNameEncoding: Encoding, cancellationToken?: CancellationToken): Task; static extractToDirectoryAsync(sourceArchiveFileName: string, destinationDirectoryName: string, cancellationToken?: CancellationToken): Task; static open(archiveFileName: string, mode: ZipArchiveMode, entryNameEncoding: Encoding): ZipArchive; static open(archiveFileName: string, mode: ZipArchiveMode): ZipArchive; static openAsync(archiveFileName: string, mode: ZipArchiveMode, entryNameEncoding: Encoding, cancellationToken?: CancellationToken): Task_1<ZipArchive>; static openAsync(archiveFileName: string, mode: ZipArchiveMode, cancellationToken?: CancellationToken): Task_1<ZipArchive>; static openRead(archiveFileName: string): ZipArchive; static openReadAsync(archiveFileName: string, cancellationToken?: CancellationToken): Task_1<ZipArchive>; } export type ZipFile = ZipFile$instance; export abstract class ZipFileExtensions$instance { static createEntryFromFile(destination: ZipArchive, sourceFileName: string, entryName: string, compressionLevel: CompressionLevel): ZipArchiveEntry; static createEntryFromFile(destination: ZipArchive, sourceFileName: string, entryName: string): ZipArchiveEntry; static createEntryFromFileAsync(destination: ZipArchive, sourceFileName: string, entryName: string, compressionLevel: CompressionLevel, cancellationToken?: CancellationToken): Task_1<ZipArchiveEntry>; static createEntryFromFileAsync(destination: ZipArchive, sourceFileName: string, entryName: string, cancellationToken?: CancellationToken): Task_1<ZipArchiveEntry>; static extractToDirectory(source: ZipArchive, destinationDirectoryName: string, overwriteFiles: boolean): void; static extractToDirectory(source: ZipArchive, destinationDirectoryName: string): void; static extractToDirectoryAsync(source: ZipArchive, destinationDirectoryName: string, overwriteFiles: boolean, cancellationToken?: CancellationToken): Task; static extractToDirectoryAsync(source: ZipArchive, destinationDirectoryName: string, cancellationToken?: CancellationToken): Task; static extractToFile(source: ZipArchiveEntry, destinationFileName: string, overwrite: boolean): void; static extractToFile(source: ZipArchiveEntry, destinationFileName: string): void; static extractToFileAsync(source: ZipArchiveEntry, destinationFileName: string, overwrite: boolean, cancellationToken?: CancellationToken): Task; static extractToFileAsync(source: ZipArchiveEntry, destinationFileName: string, cancellationToken?: CancellationToken): Task; } export type ZipFileExtensions = ZipFileExtensions$instance;