package utils import ( "sync" ) type ReedSolomonEncoder struct { gf *GaloisField polynomes []*GFPoly m *sync.Mutex } func NewReedSolomonEncoder(gf *GaloisField) *ReedSolomonEncoder { return &ReedSolomonEncoder{ gf, []*GFPoly{NewGFPoly(gf, []int{1})}, new(sync.Mutex), } } func (rs *ReedSolomonEncoder) getPolynomial(degree int) *GFPoly { rs.m.Lock() defer rs.m.Unlock() if degree >= len(rs.polynomes) { last := rs.polynomes[len(rs.polynomes)-1] for d := len(rs.polynomes); d <= degree; d++ { next := last.Multiply(NewGFPoly(rs.gf, []int{1, rs.gf.ALogTbl[d-1+rs.gf.Base]})) rs.polynomes = append(rs.polynomes, next) last = next } } return rs.polynomes[degree] } func (rs *ReedSolomonEncoder) Encode(data []int, eccCount int) []int { generator := rs.getPolynomial(eccCount) info := NewGFPoly(rs.gf, data) info = info.MultByMonominal(eccCount, 1) _, remainder := info.Divide(generator) result := make([]int, eccCount) numZero := int(eccCount) - len(remainder.Coefficients) copy(result[numZero:], remainder.Coefficients) return result }