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- package utils
- // GaloisField encapsulates galois field arithmetics
- type GaloisField struct {
- Size int
- Base int
- ALogTbl []int
- LogTbl []int
- }
- // NewGaloisField creates a new galois field
- func NewGaloisField(pp, fieldSize, b int) *GaloisField {
- result := new(GaloisField)
- result.Size = fieldSize
- result.Base = b
- result.ALogTbl = make([]int, fieldSize)
- result.LogTbl = make([]int, fieldSize)
- x := 1
- for i := 0; i < fieldSize; i++ {
- result.ALogTbl[i] = x
- x = x * 2
- if x >= fieldSize {
- x = (x ^ pp) & (fieldSize - 1)
- }
- }
- for i := 0; i < fieldSize; i++ {
- result.LogTbl[result.ALogTbl[i]] = int(i)
- }
- return result
- }
- func (gf *GaloisField) Zero() *GFPoly {
- return NewGFPoly(gf, []int{0})
- }
- // AddOrSub add or substract two numbers
- func (gf *GaloisField) AddOrSub(a, b int) int {
- return a ^ b
- }
- // Multiply multiplys two numbers
- func (gf *GaloisField) Multiply(a, b int) int {
- if a == 0 || b == 0 {
- return 0
- }
- return gf.ALogTbl[(gf.LogTbl[a]+gf.LogTbl[b])%(gf.Size-1)]
- }
- // Divide divides two numbers
- func (gf *GaloisField) Divide(a, b int) int {
- if b == 0 {
- panic("divide by zero")
- } else if a == 0 {
- return 0
- }
- return gf.ALogTbl[(gf.LogTbl[a]-gf.LogTbl[b])%(gf.Size-1)]
- }
- func (gf *GaloisField) Invers(num int) int {
- return gf.ALogTbl[(gf.Size-1)-gf.LogTbl[num]]
- }
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