comments added to declaration file
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75b3dcf61b
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@ -21,6 +21,7 @@ const tsConfig = parseJsonSourceFileConfigFileContent(configFile, sys, dirname(t
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export const compile = (outDir) => {
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export const compile = (outDir) => {
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const compilerOptions = {
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const compilerOptions = {
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...tsConfig.options,
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...tsConfig.options,
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removeComments: false,
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declaration: true,
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declaration: true,
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declarationMap: true,
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declarationMap: true,
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emitDeclarationOnly: true,
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emitDeclarationOnly: true,
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@ -1,7 +1,32 @@
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/**
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* Absolute value. abs(a)==a if a>=0. abs(a)==-a if a<0
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*
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* @param a
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*
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* @returns The absolute value of a
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*/
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declare function abs(a: number | bigint): number | bigint;
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declare function abs(a: number | bigint): number | bigint;
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/**
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* Returns the (minimum) length of a number expressed in bits.
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*
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* @param a
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* @returns The bit length
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*/
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declare function bitLength(a: number | bigint): number;
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declare function bitLength(a: number | bigint): number;
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/**
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* Chinese remainder theorem states that if one knows the remainders of the Euclidean division of an integer n by several integers, then one can determine uniquely the remainder of the division of n by the product of these integers, under the condition that the divisors are pairwise coprime (no two divisors share a common factor other than 1). Provided that n_i are pairwise coprime, and a_i any integers, this function returns a solution for the following system of equations:
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x ≡ a_1 mod n_1
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x ≡ a_2 mod n_2
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⋮
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x ≡ a_k mod n_k
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*
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* @param remainders the array of remainders a_i. For example [17n, 243n, 344n]
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* @param modulos the array of modulos n_i. For example [769n, 2017n, 47701n]
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* @param modulo the product of all modulos. Provided here just to save some operations if it is already known
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* @returns x
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*/
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declare function crt(remainders: bigint[], modulos: bigint[], modulo?: bigint): bigint;
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declare function crt(remainders: bigint[], modulos: bigint[], modulo?: bigint): bigint;
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interface Egcd {
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interface Egcd {
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@ -9,29 +34,124 @@ interface Egcd {
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x: bigint;
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x: bigint;
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y: bigint;
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y: bigint;
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}
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}
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/**
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* An iterative implementation of the extended euclidean algorithm or extended greatest common divisor algorithm.
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* Take positive integers a, b as input, and return a triple (g, x, y), such that ax + by = g = gcd(a, b).
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*
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* @param a
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* @param b
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*
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* @throws {@link RangeError} if a or b are <= 0
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*
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* @returns A triple (g, x, y), such that ax + by = g = gcd(a, b).
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*/
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declare function eGcd(a: number | bigint, b: number | bigint): Egcd;
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declare function eGcd(a: number | bigint, b: number | bigint): Egcd;
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/**
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* Greatest common divisor of two integers based on the iterative binary algorithm.
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*
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* @param a
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* @param b
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*
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* @returns The greatest common divisor of a and b
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*/
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declare function gcd(a: number | bigint, b: number | bigint): bigint;
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declare function gcd(a: number | bigint, b: number | bigint): bigint;
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/**
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* The least common multiple computed as abs(a*b)/gcd(a,b)
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* @param a
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* @param b
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*
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* @returns The least common multiple of a and b
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*/
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declare function lcm(a: number | bigint, b: number | bigint): bigint;
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declare function lcm(a: number | bigint, b: number | bigint): bigint;
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/**
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* Maximum. max(a,b)==a if a>=b. max(a,b)==b if a<b
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*
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* @param a
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* @param b
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*
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* @returns Maximum of numbers a and b
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*/
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declare function max(a: number | bigint, b: number | bigint): number | bigint;
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declare function max(a: number | bigint, b: number | bigint): number | bigint;
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/**
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* Minimum. min(a,b)==b if a>=b. min(a,b)==a if a<b
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*
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* @param a
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* @param b
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*
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* @returns Minimum of numbers a and b
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*/
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declare function min(a: number | bigint, b: number | bigint): number | bigint;
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declare function min(a: number | bigint, b: number | bigint): number | bigint;
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/**
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* Modular addition of (a_1 + ... + a_r) mod n
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* @param addends an array of the numbers a_i to add. For example [3, 12353251235n, 1243, -12341232545990n]
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* @param n the modulo
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* @returns The smallest positive integer that is congruent with (a_1 + ... + a_r) mod n
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*/
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declare function modAdd(addends: Array<number | bigint>, n: number | bigint): bigint;
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declare function modAdd(addends: Array<number | bigint>, n: number | bigint): bigint;
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/**
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* Modular inverse.
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*
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* @param a The number to find an inverse for
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* @param n The modulo
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*
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* @throws {@link RangeError} if a does not have inverse modulo n
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*
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* @returns The inverse modulo n
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*/
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declare function modInv(a: number | bigint, n: number | bigint): bigint;
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declare function modInv(a: number | bigint, n: number | bigint): bigint;
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/**
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* Modular addition of (a_1 * ... * a_r) mod n
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* @param factors an array of the numbers a_i to multiply. For example [3, 12353251235n, 1243, -12341232545990n]
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* @param n the modulo
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* @returns The smallest positive integer that is congruent with (a_1 * ... * a_r) mod n
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*/
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declare function modMultiply(factors: Array<number | bigint>, n: number | bigint): bigint;
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declare function modMultiply(factors: Array<number | bigint>, n: number | bigint): bigint;
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type PrimePower = [number | bigint, number | bigint];
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type PrimePower = [number | bigint, number | bigint];
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type PrimeFactor = number | bigint | PrimePower;
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type PrimeFactor = number | bigint | PrimePower;
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/**
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* Modular exponentiation b**e mod n. Currently using the right-to-left binary method if the prime factorization is not provided, or the chinese remainder theorem otherwise.
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*
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* @param b base
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* @param e exponent
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* @param n modulo
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* @param primeFactorization an array of the prime factors, for example [5n, 5n, 13n, 27n], or prime powers as [p, k], for instance [[5, 2], [13, 1], [27, 1]]. If the prime factorization is provided the chinese remainder theorem is used to greatly speed up the exponentiation.
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*
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* @throws {@link RangeError} if n <= 0
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*
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* @returns b**e mod n
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*/
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declare function modPow(b: number | bigint, e: number | bigint, n: number | bigint, primeFactorization?: PrimeFactor[]): bigint;
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declare function modPow(b: number | bigint, e: number | bigint, n: number | bigint, primeFactorization?: PrimeFactor[]): bigint;
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type PrimeFactorization = Array<[bigint, bigint]>;
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type PrimeFactorization = Array<[bigint, bigint]>;
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/**
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* A function that computes the Euler's totien function of a number n, whose prime power factorization is known
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*
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* @param primeFactorization an array of arrays containing the prime power factorization of a number n. For example, for n = (p1**k1)*(p2**k2)*...*(pr**kr), one should provide [[p1, k1], [p2, k2], ... , [pr, kr]]
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* @returns phi((p1**k1)*(p2**k2)*...*(pr**kr))
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*/
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declare function phi(primeFactorization: PrimeFactorization): bigint;
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declare function phi(primeFactorization: PrimeFactorization): bigint;
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/**
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* Finds the smallest positive element that is congruent to a in modulo n
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*
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* @remarks
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* a and b must be the same type, either number or bigint
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*
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* @param a - An integer
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* @param n - The modulo
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*
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* @throws {@link RangeError} if n <= 0
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*
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* @returns A bigint with the smallest positive representation of a modulo n
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*/
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declare function toZn(a: number | bigint, n: number | bigint): bigint;
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declare function toZn(a: number | bigint, n: number | bigint): bigint;
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export { Egcd, PrimeFactor, PrimeFactorization, PrimePower, abs, bitLength, crt, eGcd, gcd, lcm, max, min, modAdd, modInv, modMultiply, modPow, phi, toZn };
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export { Egcd, PrimeFactor, PrimeFactorization, PrimePower, abs, bitLength, crt, eGcd, gcd, lcm, max, min, modAdd, modInv, modMultiply, modPow, phi, toZn };
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34
docs/API.md
34
docs/API.md
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@ -39,7 +39,7 @@ Some common functions for modular arithmetic using native JS implementation of B
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#### Defined in
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#### Defined in
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[modPow.ts:8](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/modPow.ts#L8)
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[modPow.ts:8](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/modPow.ts#L8)
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___
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___
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@ -49,7 +49,7 @@ ___
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#### Defined in
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#### Defined in
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[phi.ts:1](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/phi.ts#L1)
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[phi.ts:1](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/phi.ts#L1)
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___
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___
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#### Defined in
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#### Defined in
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[modPow.ts:7](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/modPow.ts#L7)
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[modPow.ts:7](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/modPow.ts#L7)
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## Functions
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## Functions
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#### Defined in
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#### Defined in
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[abs.ts:8](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/abs.ts#L8)
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[abs.ts:8](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/abs.ts#L8)
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___
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___
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@ -107,7 +107,7 @@ The bit length
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#### Defined in
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#### Defined in
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[bitLength.ts:7](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/bitLength.ts#L7)
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[bitLength.ts:7](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/bitLength.ts#L7)
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___
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___
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@ -137,7 +137,7 @@ x
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#### Defined in
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#### Defined in
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[crt.ts:16](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/crt.ts#L16)
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[crt.ts:16](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/crt.ts#L16)
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___
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___
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#### Defined in
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#### Defined in
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[egcd.ts:17](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/egcd.ts#L17)
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[egcd.ts:17](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/egcd.ts#L17)
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___
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___
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#### Defined in
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#### Defined in
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[gcd.ts:11](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/gcd.ts#L11)
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[gcd.ts:11](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/gcd.ts#L11)
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___
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___
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#### Defined in
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#### Defined in
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[lcm.ts:11](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/lcm.ts#L11)
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[lcm.ts:11](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/lcm.ts#L11)
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___
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___
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@ -242,7 +242,7 @@ Maximum of numbers a and b
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#### Defined in
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#### Defined in
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[max.ts:9](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/max.ts#L9)
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[max.ts:9](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/max.ts#L9)
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___
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___
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#### Defined in
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#### Defined in
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[min.ts:9](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/min.ts#L9)
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[min.ts:9](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/min.ts#L9)
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___
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#### Defined in
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#### Defined in
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[modAdd.ts:9](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/modAdd.ts#L9)
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[modAdd.ts:9](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/modAdd.ts#L9)
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___
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@ -321,7 +321,7 @@ The inverse modulo n
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#### Defined in
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#### Defined in
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[modInv.ts:14](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/modInv.ts#L14)
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[modInv.ts:14](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/modInv.ts#L14)
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___
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#### Defined in
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#### Defined in
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[modMultiply.ts:9](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/modMultiply.ts#L9)
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[modMultiply.ts:9](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/modMultiply.ts#L9)
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___
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___
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@ -378,7 +378,7 @@ b**e mod n
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#### Defined in
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#### Defined in
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[modPow.ts:22](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/modPow.ts#L22)
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[modPow.ts:22](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/modPow.ts#L22)
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___
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___
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#### Defined in
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#### Defined in
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[phi.ts:9](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/phi.ts#L9)
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[phi.ts:9](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/phi.ts#L9)
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#### Defined in
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#### Defined in
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[toZn.ts:14](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/toZn.ts#L14)
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[toZn.ts:14](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/toZn.ts#L14)
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@ -16,7 +16,7 @@
|
||||||
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||||||
#### Defined in
|
#### Defined in
|
||||||
|
|
||||||
[egcd.ts:2](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/egcd.ts#L2)
|
[egcd.ts:2](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/egcd.ts#L2)
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||||||
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||||||
___
|
___
|
||||||
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|
||||||
|
@ -26,7 +26,7 @@ ___
|
||||||
|
|
||||||
#### Defined in
|
#### Defined in
|
||||||
|
|
||||||
[egcd.ts:3](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/egcd.ts#L3)
|
[egcd.ts:3](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/egcd.ts#L3)
|
||||||
|
|
||||||
___
|
___
|
||||||
|
|
||||||
|
@ -36,4 +36,4 @@ ___
|
||||||
|
|
||||||
#### Defined in
|
#### Defined in
|
||||||
|
|
||||||
[egcd.ts:4](https://github.com/juanelas/bigint-mod-arith/blob/06b32a3/src/ts/egcd.ts#L4)
|
[egcd.ts:4](https://github.com/juanelas/bigint-mod-arith/blob/75b3dcf/src/ts/egcd.ts#L4)
|
||||||
|
|
Loading…
Reference in New Issue