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ModularSquareRoots

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Overview

This module provides support for finding modular square-roots. In particular, for a given integer $n$ and modulus $m$, this module provides support for solving the congruence $x^2 \equiv n \pmod m$.

To do this, you can use the function sqrtmod(n, m).

julia> using ModularSquareRoots

julia> sqrtmod(4, 5)
2-element Vector{Int64}:
 3
 2

julia> all(powermod(x, 2, 5) == 4 for x in sqrtmod(4, 5))
true

julia> sqrtmod(1240, 289032)
8-element Vector{Int64}:
 107056
 251572
  10712
 155228
 278320
 133804
 181976
  37460

julia> all(powermod(x, 2, 289032) == 1240 for x in sqrtmod(1240, 289032))
true

julia> sqrtmod(23, 200)
Int64[]

julia> !any(powermod(x, 2, 200) == 23 for x in 0:199)
true

Prime Moduli

If you know that p = m is prime, then you can additionally use the function sqrtmodprime(n, p). Note that there are no checks in sqrtmodprime to ensure that p is prime, and the output of sqrtmodprime(n, p) is undefined when p is not prime. The onus is on the user to use sqrtmodprime correctly.

julia> sqrtmodprime(16, 101)
2-element Vector{Int64}:
 97
  4

julia> sqrtmodprime(15, 101)
Int64[]

julia> sqrtmodprime(0, 101)
1-element Vector{Int64}:
 0