MyCrypto/common/typescript/bn.d.ts

541 lines
9.1 KiB
TypeScript

declare module 'bn.js' {
import { Buffer } from 'buffer';
type Endianness = 'le' | 'be';
type IPrimeName = 'k256' | 'p224' | 'p192' | 'p25519';
class RedBN {
redAdd(b: RedBN): RedBN;
redIAdd(b: RedBN): RedBN;
redSub(b: RedBN): RedBN;
redISub(b: RedBN): RedBN;
redShl(num: number): RedBN;
redMul(b: RedBN): RedBN;
redIMul(b: RedBN): RedBN;
redSqr(): RedBN;
redISqr(): RedBN;
/**
* @description square root modulo reduction context's prime
*/
redSqrt(): RedBN;
/**
* @description modular inverse of the number
*/
redInvm(): RedBN;
redNeg(): RedBN;
/**
* @description modular exponentiation
*/
redPow(b: RedBN): RedBN;
fromRed(): BN;
}
// FIXME: not sure how to specify the reduction context here
interface IReductionContext {
m: number;
prime: object;
[key: string]: any;
}
export default class BN {
constructor(
number: number | string | number[] | Buffer | BN,
base?: number,
endian?: Endianness
);
/**
* @description create a reduction context
*/
static red(reductionContext: BN | IPrimeName): IReductionContext;
/**
* @description create a reduction context with the Montgomery trick.
*/
static mont(num: BN): IReductionContext;
/**
* @description Convert number to red
*/
/**
* @description returns true if the supplied object is a BN.js instance
*/
static isBN(b: object): boolean;
toRed(reductionContext: IReductionContext): RedBN;
/**
* @description clone number
*/
clone(): BN;
/**
* @description convert to base-string and pad with zeroes
*/
toString(base?: number, length?: number): string;
/**
* @description convert to Javascript Number (limited to 53 bits)
*/
toNumber(): number;
/**
* @description convert to JSON compatible hex string (alias of toString(16))
*/
toJSON(): string;
/**
* @description convert to byte Array, and optionally zero pad to length, throwing if already exceeding
*/
toArray(endian?: Endianness, length?: number): number[];
/**
* @description convert to an instance of `type`, which must behave like an Array
*/
toArrayLike(
ArrayType: Buffer | Array<any>,
endian?: Endianness,
length?: number
): Buffer | Array<any>;
/**
* @description convert to Node.js Buffer (if available). For compatibility with browserify and similar tools, use this instead: a.toArrayLike(Buffer, endian, length)
*/
toBuffer(endian?: Endianness, length?: number): Buffer;
/**
* @description get number of bits occupied
*/
bitLength(): number;
/**
* @description return number of less-significant consequent zero bits (example: 1010000 has 4 zero bits)
*/
zeroBits(): number;
/**
* @description return number of bytes occupied
*/
byteLength(): number;
/**
* @description true if the number is negative
*/
isNeg(): boolean;
/**
* @description no comments
*/
isEven(): boolean;
/**
* @description no comments
*/
isOdd(): boolean;
/**
* @description no comments
*/
isZero(): boolean;
/**
* @description compare numbers and return `-1 (a < b)`, `0 (a == b)`, or `1 (a > b)` depending on the comparison result
*/
cmp(b: BN): -1 | 0 | 1;
/**
* @description compare numbers and return `-1 (a < b)`, `0 (a == b)`, or `1 (a > b)` depending on the comparison result
*/
ucmp(b: BN): -1 | 0 | 1;
/**
* @description compare numbers and return `-1 (a < b)`, `0 (a == b)`, or `1 (a > b)` depending on the comparison result
*/
cmpn(b: number): -1 | 0 | 1;
/**
* @description a less than b
*/
lt(b: BN): boolean;
/**
* @description a less than b
*/
ltn(b: number): boolean;
/**
* @description a less than or equals b
*/
lte(b: BN): boolean;
/**
* @description a less than or equals b
*/
lten(b: number): boolean;
/**
* @description a greater than b
*/
gt(b: BN): boolean;
/**
* @description a greater than b
*/
gtn(b: number): boolean;
/**
* @description a greater than or equals b
*/
gte(b: BN): boolean;
/**
* @description a greater than or equals b
*/
gten(b: number): boolean;
/**
* @description a equals b
*/
eq(b: BN): boolean;
/**
* @description a equals b
*/
eqn(b: number): boolean;
/**
* @description convert to two's complement representation, where width is bit width
*/
toTwos(width: number): BN;
/**
* @description convert from two's complement representation, where width is the bit width
*/
fromTwos(width: number): BN;
/**
* @description negate sign
*/
neg(): BN;
/**
* @description negate sign
*/
ineg(): BN;
/**
* @description absolute value
*/
abs(): BN;
/**
* @description absolute value
*/
iabs(): BN;
/**
* @description addition
*/
add(b: BN): BN;
/**
* @description addition
*/
iadd(b: BN): BN;
addition;
/**
* @description addition
*/
addn(b: number): BN;
/**
* @description addition
*/
iaddn(b: number): BN;
/**
* @description subtraction
*/
sub(b: BN): BN;
/**
* @description subtraction
*/
isub(b: BN): BN;
/**
* @description subtraction
*/
subn(b: number): BN;
/**
* @description subtraction
*/
isubn(b: number): BN;
/**
* @description multiply
*/
mul(b: BN): BN;
/**
* @description multiply
*/
imul(b: BN): BN;
/**
* @description multiply
*/
muln(b: number): BN;
/**
* @description multiply
*/
imuln(b: number): BN;
/**
* @description square
*/
sqr(): BN;
/**
* @description square
*/
isqr(): BN;
/**
* @description raise `a` to the power of `b`
*/
pow(b: BN): BN;
/**
* @description divide
*/
div(b: BN): BN;
/**
* @description divide
*/
divn(b: number): BN;
/**
* @description divide
*/
idivn(b: number): BN;
/**
* @description reduct
*/
mod(b: BN): BN;
/**
* @description reduct
*/
umod(b: BN): BN;
/**
* @description reduct
*/
modn(b: number): number; //API consistency https://github.com/indutny/bn.js/pull/130
/**
* @description rounded division
*/
divRound(b: BN): BN;
/**
* @description or
*/
or(b: BN): BN;
/**
* @description or
*/
ior(b: BN): BN;
/**
* @description or
*/
uor(b: BN): BN;
/**
* @description or
*/
iuor(b: BN): BN;
/**
* @description and
*/
and(b: BN): BN;
/**
* @description and
*/
iand(b: BN): BN;
/**
* @description and
*/
uand(b: BN): BN;
/**
* @description and
*/
iuand(b: BN): BN;
/**
* @description and (NOTE: `andln` is going to be replaced with `andn` in future)
*/
andln(b: number): BN;
/**
* @description xor
*/
xor(b: BN): BN;
/**
* @description xor
*/
ixor(b: BN): BN;
/**
* @description xor
*/
uxor(b: BN): BN;
/**
* @description xor
*/
iuxor(b: BN): BN;
/**
* @description set specified bit to 1
*/
setn(b: number): BN;
/**
* @description shift left
*/
shln(b: number): BN;
/**
* @description shift left
*/
ishln(b: number): BN;
/**
* @description shift left
*/
ushln(b: number): BN;
/**
* @description shift left
*/
iushln(b: number): BN;
/**
* @description shift right
*/
shrn(b: number): BN;
/**
* @description shift right
*/
ishrn(b: number): BN;
/**
* @description shift right
*/
ushrn(b: number): BN;
/**
* @description shift right
*/
iushrn(b: number): BN;
/**
* @description test if specified bit is set
*/
testn(b: number): boolean;
/**
* @description clear bits with indexes higher or equal to `b`
*/
maskn(b: number): BN;
/**
* @description clear bits with indexes higher or equal to `b`
*/
imaskn(b: number): BN;
/**
* @description add `1 << b` to the number
*/
bincn(b: number): BN;
/**
* @description not (for the width specified by `w`)
*/
notn(w: number): BN;
/**
* @description not (for the width specified by `w`)
*/
inotn(w: number): BN;
/**
* @description GCD
*/
gcd(b: BN): BN;
/**
* @description Extended GCD results `({ a: ..., b: ..., gcd: ... })`
*/
egcd(b: BN): { a: BN; b: BN; gcd: BN };
/**
* @description inverse `a` modulo `b`
*/
invm(b: BN): BN;
}
}