func BigInt2BytesLe(z []byte, x *big.Int)
BigInt2BytesLe stores a positive big.Int number x into a little-endian slice z. The slice is modified if the bitlength of x <= 8*len(z) (padding with zeros). If x does not fit in the slice or is negative, z is not modified.
func BigInt2Uint64Le(z []uint64, x *big.Int)
BigInt2Uint64Le stores a positive big.Int number x into a little-endian slice z. The slice is modified if the bitlength of x <= 8*len(z) (padding with zeros). If x does not fit in the slice or is negative, z is not modified.
func BytesBe2Uint64Le(x []byte) []uint64
BytesBe2Uint64Le converts a big-endian slice x to a little-endian slice of uint64.
func BytesLe2BigInt(x []byte) *big.Int
BytesLe2BigInt converts a little-endian slice x into a big-endian math/big.Int.
func BytesLe2Hex(x []byte) string
BytesLe2Hex returns an hexadecimal string of a number stored in a little-endian order slice x.
func Uint64Le2BigInt(x []uint64) *big.Int
Uint64Le2BigInt converts a little-endian slice x into a big number.
func Uint64Le2BytesBe(x []uint64) []byte
Uint64Le2BytesBe converts a little-endian slice x to a big-endian slice of bytes.
func Uint64Le2BytesLe(x []uint64) []byte
Uint64Le2BytesLe converts a little-endian slice x to a little-endian slice of bytes.
func Uint64Le2Hex(x []uint64) string
Uint64Le2Hex returns an hexadecimal string of a number stored in a little-endian order slice x.