private AbstractF2mPoint MultiplyWTnaf(AbstractF2mPoint p, ZTauElement lambda, PreCompInfo preCompInfo, sbyte a, sbyte mu) { ZTauElement[] alpha = ((a == 0) ? Tnaf.Alpha0 : Tnaf.Alpha1); BigInteger tw = Tnaf.GetTw(mu, 4); sbyte[] u = Tnaf.TauAdicWNaf(mu, lambda, 4, BigInteger.ValueOf(16L), tw, alpha); return(MultiplyFromWTnaf(p, u, preCompInfo)); }
/** * Multiplies a {@link org.bouncycastle.math.ec.AbstractF2mPoint AbstractF2mPoint} * by an element <code>λ</code> of <code><b>Z</b>[τ]</code> using * the <code>τ</code>-adic NAF (TNAF) method. * @param p The AbstractF2mPoint to multiply. * @param lambda The element <code>λ</code> of * <code><b>Z</b>[τ]</code> of which to compute the * <code>[τ]</code>-adic NAF. * @return <code>p</code> multiplied by <code>λ</code>. */ private AbstractF2mPoint MultiplyWTnaf(AbstractF2mPoint p, ZTauElement lambda, sbyte a, sbyte mu) { ZTauElement[] alpha = (a == 0) ? Tnaf.Alpha0 : Tnaf.Alpha1; BigInteger tw = Tnaf.GetTw(mu, Tnaf.Width); sbyte[] u = Tnaf.TauAdicWNaf(mu, lambda, Tnaf.Width, BigInteger.ValueOf(Tnaf.Pow2Width), tw, alpha); return(MultiplyFromWTnaf(p, u)); }
/** * Multiplies a {@link NBitcoin.BouncyCastle.math.ec.AbstractF2mPoint AbstractF2mPoint} * by an element * <code>λ</code> * of * <code><b>Z</b>[τ]</code> * using * the * <code>τ</code> * -adic NAF (TNAF) method. * @param p The AbstractF2mPoint to multiply. * @param lambda The element * <code>λ</code> * of * <code><b>Z</b>[τ]</code> * of which to compute the * <code>[τ]</code> * -adic NAF. * @return * <code>p</code> * multiplied by * <code>λ</code> * . */ AbstractF2mPoint MultiplyWTnaf(AbstractF2mPoint p, ZTauElement lambda, PreCompInfo preCompInfo, sbyte a, sbyte mu) { var alpha = a == 0 ? Tnaf.Alpha0 : Tnaf.Alpha1; var tw = Tnaf.GetTw(mu, Tnaf.Width); var u = Tnaf.TauAdicWNaf(mu, lambda, Tnaf.Width, BigInteger.ValueOf(Tnaf.Pow2Width), tw, alpha); return(MultiplyFromWTnaf(p, u, preCompInfo)); }
/** * Multiplies a {@link Al.Security.math.ec.F2mPoint F2mPoint} * by an element <code>λ</code> of <code><b>Z</b>[τ]</code> using * the <code>τ</code>-adic NAF (TNAF) method. * @param p The F2mPoint to multiply. * @param lambda The element <code>λ</code> of * <code><b>Z</b>[τ]</code> of which to compute the * <code>[τ]</code>-adic NAF. * @return <code>p</code> multiplied by <code>λ</code>. */ private F2mPoint MultiplyWTnaf(F2mPoint p, ZTauElement lambda, PreCompInfo preCompInfo, sbyte a, sbyte mu) { ZTauElement[] alpha; if (a == 0) { alpha = Tnaf.Alpha0; } else { // a == 1 alpha = Tnaf.Alpha1; } BigInteger tw = Tnaf.GetTw(mu, Tnaf.Width); sbyte[] u = Tnaf.TauAdicWNaf(mu, lambda, Tnaf.Width, BigInteger.ValueOf(Tnaf.Pow2Width), tw, alpha); return(MultiplyFromWTnaf(p, u, preCompInfo)); }