/** {@inheritDoc} */ public double value(double x) { return FastMath.asinh(x); }
/** {@inheritDoc} * @since 3.2 */ public Decimal64 asinh() { return new Decimal64(FastMath.asinh(value)); }
/** {@inheritDoc} */ public SparseGradient asinh() { return new SparseGradient(FastMath.asinh(value), 1.0 / FastMath.sqrt(value * value + 1.0), derivatives); }
function[0] = FastMath.asinh(x); if (order > 0) {
public static double asinh(double a) { return FastMath.asinh(a); }
/** {@inheritDoc} */ public double value(double x) { return FastMath.asinh(x); }
@Override public double op(double origin, double other) { return FastMath.asinh(origin); }
@Override public double op(double origin) { return FastMath.asinh(origin); }
@Override public float op(float origin, float other) { return (float) FastMath.asinh(origin); }
@Override public float op(float origin) { return (float) FastMath.asinh(origin); }
/** {@inheritDoc} */ public double value(double x) { return FastMath.asinh(x); }
/** {@inheritDoc} */ public SparseGradient asinh() { return new SparseGradient(FastMath.asinh(value), 1.0 / Math.sqrt(value * value + 1.0), derivatives); }
/** {@inheritDoc} * @since 3.2 */ public Decimal64 asinh() { return new Decimal64(FastMath.asinh(value)); }
/** {@inheritDoc} * @since 3.2 */ public Decimal64 asinh() { return new Decimal64(FastMath.asinh(value)); }
public static Float asinh_1(Number x) { return Float.of(FastMath.asinh(x.toBigDecimal().doubleValue())); }
/** {@inheritDoc} */ public SparseGradient asinh() { return new SparseGradient(FastMath.asinh(value), 1.0 / FastMath.sqrt(value * value + 1.0), derivatives); }
function[0] = FastMath.asinh(x); if (order > 0) {
function[0] = FastMath.asinh(x); if (order > 0) {