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denoland-deno/std/encoding/binary.ts

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
type RawBaseType = "int8" | "int16" | "int32" | "uint8" | "uint16" | "uint32";
type RawNumberType = RawBaseType | "float32" | "float64";
type RawBigType = RawBaseType | "int64" | "uint64";
export type DataType = RawNumberType | RawBigType;
/** How encoded binary data is ordered. */
export type Endianness = "little" | "big";
/** Options for working with the `number` type. */
export interface VarnumOptions {
/** The binary format used. */
dataType?: RawNumberType;
/** The binary encoding order used. */
endian?: Endianness;
}
/** Options for working with the `bigint` type. */
export interface VarbigOptions {
/** The binary format used. */
dataType?: RawBigType;
/** The binary encoding order used. */
endian?: Endianness;
}
const rawTypeSizes: Record<DataType, number> = {
int8: 1,
uint8: 1,
int16: 2,
uint16: 2,
int32: 4,
uint32: 4,
int64: 8,
uint64: 8,
float32: 4,
float64: 8,
} as const;
/** Number of bytes required to store `dataType`. */
export function sizeof(dataType: DataType): number {
return rawTypeSizes[dataType];
}
/** Reads `n` bytes from `r`.
*
* Resolves it in a `Uint8Array`, or throws `Deno.errors.UnexpectedEof` if `n` bytes cannot be read. */
export async function getNBytes(
r: Deno.Reader,
n: number,
): Promise<Uint8Array> {
const scratch = new Uint8Array(n);
const nRead = await r.read(scratch);
if (nRead === null || nRead < n) throw new Deno.errors.UnexpectedEof();
return scratch;
}
/** Decodes a number from `b`. If `o.bytes` is shorter than `sizeof(o.dataType)`, returns `null`.
*
* `o.dataType` defaults to `"int32"`. */
export function varnum(b: Uint8Array, o: VarnumOptions = {}): number | null {
o.dataType = o.dataType ?? "int32";
const littleEndian = (o.endian ?? "big") === "little" ? true : false;
if (b.length < sizeof(o.dataType)) return null;
const view = new DataView(b.buffer);
switch (o.dataType) {
case "int8":
return view.getInt8(0);
case "uint8":
return view.getUint8(0);
case "int16":
return view.getInt16(0, littleEndian);
case "uint16":
return view.getUint16(0, littleEndian);
case "int32":
return view.getInt32(0, littleEndian);
case "uint32":
return view.getUint32(0, littleEndian);
case "float32":
return view.getFloat32(0, littleEndian);
case "float64":
return view.getFloat64(0, littleEndian);
}
}
/** Decodes a bigint from `b`. If `o.bytes` is shorter than `sizeof(o.dataType)`, returns `null`.
*
* `o.dataType` defaults to `"int64"`. */
export function varbig(b: Uint8Array, o: VarbigOptions = {}): bigint | null {
o.dataType = o.dataType ?? "int64";
const littleEndian = (o.endian ?? "big") === "little" ? true : false;
if (b.length < sizeof(o.dataType)) return null;
const view = new DataView(b.buffer);
switch (o.dataType) {
case "int8":
return BigInt(view.getInt8(0));
case "uint8":
return BigInt(view.getUint8(0));
case "int16":
return BigInt(view.getInt16(0, littleEndian));
case "uint16":
return BigInt(view.getUint16(0, littleEndian));
case "int32":
return BigInt(view.getInt32(0, littleEndian));
case "uint32":
return BigInt(view.getUint32(0, littleEndian));
case "int64":
return view.getBigInt64(0, littleEndian);
case "uint64":
return view.getBigUint64(0, littleEndian);
}
}
/** Encodes number `x` into `b`. Returns the number of bytes used, or `0` if `b` is shorter than `sizeof(o.dataType)`.
*
* `o.dataType` defaults to `"int32"`. */
export function putVarnum(
b: Uint8Array,
x: number,
o: VarnumOptions = {},
): number {
o.dataType = o.dataType ?? "int32";
const littleEndian = (o.endian ?? "big") === "little" ? true : false;
if (b.length < sizeof(o.dataType)) return 0;
const view = new DataView(b.buffer);
switch (o.dataType) {
case "int8":
view.setInt8(0, x);
break;
case "uint8":
view.setUint8(0, x);
break;
case "int16":
view.setInt16(0, x, littleEndian);
break;
case "uint16":
view.setUint16(0, x, littleEndian);
break;
case "int32":
view.setInt32(0, x, littleEndian);
break;
case "uint32":
view.setUint32(0, x, littleEndian);
break;
case "float32":
view.setFloat32(0, x, littleEndian);
break;
case "float64":
view.setFloat64(0, x, littleEndian);
break;
}
return sizeof(o.dataType);
}
/** Encodes bigint `x` into `b`. Returns the number of bytes used, or `0` if `b` is shorter than `sizeof(o.dataType)`.
*
* `o.dataType` defaults to `"int64"`. */
export function putVarbig(
b: Uint8Array,
x: bigint,
o: VarbigOptions = {},
): number {
o.dataType = o.dataType ?? "int64";
const littleEndian = (o.endian ?? "big") === "little" ? true : false;
if (b.length < sizeof(o.dataType)) return 0;
const view = new DataView(b.buffer);
switch (o.dataType) {
case "int8":
view.setInt8(0, Number(x));
break;
case "uint8":
view.setUint8(0, Number(x));
break;
case "int16":
view.setInt16(0, Number(x), littleEndian);
break;
case "uint16":
view.setUint16(0, Number(x), littleEndian);
break;
case "int32":
view.setInt32(0, Number(x), littleEndian);
break;
case "uint32":
view.setUint32(0, Number(x), littleEndian);
break;
case "int64":
view.setBigInt64(0, x, littleEndian);
break;
case "uint64":
view.setBigUint64(0, x, littleEndian);
break;
}
return sizeof(o.dataType);
}
/** Decodes a number from `r`, consuming `sizeof(o.dataType)` bytes. If less than `sizeof(o.dataType)` bytes were read, throws `Deno.errors.unexpectedEof`.
*
* `o.dataType` defaults to `"int32"`. */
export async function readVarnum(
r: Deno.Reader,
o: VarnumOptions = {},
): Promise<number> {
o.dataType = o.dataType ?? "int32";
const scratch = await getNBytes(r, sizeof(o.dataType));
return varnum(scratch, o) as number;
}
/** Decodes a bigint from `r`, consuming `sizeof(o.dataType)` bytes. If less than `sizeof(o.dataType)` bytes were read, throws `Deno.errors.unexpectedEof`.
*
* `o.dataType` defaults to `"int64"`. */
export async function readVarbig(
r: Deno.Reader,
o: VarbigOptions = {},
): Promise<bigint> {
o.dataType = o.dataType ?? "int64";
const scratch = await getNBytes(r, sizeof(o.dataType));
return varbig(scratch, o) as bigint;
}
/** Encodes and writes `x` to `w`. Resolves to the number of bytes written.
*
* `o.dataType` defaults to `"int32"`. */
export function writeVarnum(
w: Deno.Writer,
x: number,
o: VarnumOptions = {},
): Promise<number> {
o.dataType = o.dataType ?? "int32";
const scratch = new Uint8Array(sizeof(o.dataType));
putVarnum(scratch, x, o);
return w.write(scratch);
}
/** Encodes and writes `x` to `w`. Resolves to the number of bytes written.
*
* `o.dataType` defaults to `"int64"`. */
export function writeVarbig(
w: Deno.Writer,
x: bigint,
o: VarbigOptions = {},
): Promise<number> {
o.dataType = o.dataType ?? "int64";
const scratch = new Uint8Array(sizeof(o.dataType));
putVarbig(scratch, x, o);
return w.write(scratch);
}
/** Encodes `x` into a new `Uint8Array`.
*
* `o.dataType` defaults to `"int32"` */
export function varnumBytes(x: number, o: VarnumOptions = {}): Uint8Array {
o.dataType = o.dataType ?? "int32";
const b = new Uint8Array(sizeof(o.dataType));
putVarnum(b, x, o);
return b;
}
/** Encodes `x` into a new `Uint8Array`.
*
* `o.dataType` defaults to `"int64"` */
export function varbigBytes(x: bigint, o: VarbigOptions = {}): Uint8Array {
o.dataType = o.dataType ?? "int64";
const b = new Uint8Array(sizeof(o.dataType));
putVarbig(b, x, o);
return b;
}