/** * Setter for variance * @param variance * Second central moment (square of standard deviation) of the distribution */ public void setVariance( final double variance ) { ArgumentChecker.assertIsPositive("variance", variance); this.variance = variance; }
/** * Sets the power used for the distance. * * @param power * The power used for the distance. Must be positive. */ public void setPower( final double power) { ArgumentChecker.assertIsPositive("power", power); this.power = power; }
/** * Setter for degreesOfFreedom * @param degreesOfFreedom * Number of subjects in each treatment minus one. */ public void setDegreesOfFreedom( final double degreesOfFreedom) { ArgumentChecker.assertIsPositive("degreesOfFreedom", degreesOfFreedom); this.degreesOfFreedom = degreesOfFreedom; }
/** * Sets the power used for the distance. * * @param power * The power used for the distance. Must be positive. */ public void setPower( final double power) { ArgumentChecker.assertIsPositive("power", power); this.power = power; }
/** * Setter for variance * @param variance * Second central moment (square of standard deviation) of the distribution */ public void setVariance( final double variance ) { ArgumentChecker.assertIsPositive("variance", variance); this.variance = variance; }
/** * Setter for degreesOfFreedom * @param degreesOfFreedom * Number of subjects in each treatment minus one. */ public void setDegreesOfFreedom( final double degreesOfFreedom) { ArgumentChecker.assertIsPositive("degreesOfFreedom", degreesOfFreedom); this.degreesOfFreedom = degreesOfFreedom; }
/** * Sets the radius parameter. * * @param radius * The radius parameter. Must be positive. */ public void setRadius( final double radius) { ArgumentChecker.assertIsPositive("radius", radius); this.radius = radius; }
/** * Sets the power used for the distance. * * @param power * The power used for the distance. Must be positive. */ public void setPower( final double power) { ArgumentChecker.assertIsPositive("power", power); this.power = power; }
/** * Setter for rate. * @param rate * Rate, or inverse scale, of the distribution, must be greater than zero. */ public void setRate( final double rate) { ArgumentChecker.assertIsPositive("rate", rate); this.rate = rate; }
/** * Sets the size of the subspace that will be created. * * @param size * The size of the subspace that will be created. Must be positive. */ public void setSize( final int size) { ArgumentChecker.assertIsPositive("size", size); this.size = size; }
/** * Setter for degreesOfFreedom * @param degreesOfFreedom * Number of subjects in each treatment minus one. */ public void setDegreesOfFreedom( final double degreesOfFreedom) { ArgumentChecker.assertIsPositive("degreesOfFreedom", degreesOfFreedom); this.degreesOfFreedom = degreesOfFreedom; }
/** * Sets the radius parameter. * * @param radius * The radius parameter. Must be positive. */ public void setRadius( final double radius) { ArgumentChecker.assertIsPositive("radius", radius); this.radius = radius; }
/** * Setter for scale * @param scale * Scale of the distribution, proportionate to the standard deviation, * must be greater than zero. */ public void setScale( final double scale) { ArgumentChecker.assertIsPositive("scale", scale); this.scale = scale; }
/** * Setter for variance * @param variance * Second central moment (square of standard deviation) of the distribution */ public void setVariance( final double variance ) { ArgumentChecker.assertIsPositive("variance", variance); this.variance = variance; }
/** * Sets the regularization parameter. * * @param r * The regularization parameter. Must be positive. */ public void setR( final double r) { ArgumentChecker.assertIsPositive("r", r); this.r = r; }
/** * Setter for scale * @param scale * Scale parameters of the Gamma distribution, often written as "theta", * must be greater than zero. * Note that this is the INVERSE of what octave uses!! */ public void setScale( final double scale ) { ArgumentChecker.assertIsPositive("scale", scale); this.scale = scale; }
/** * Sets the size of the subspace that will be created. * * @param size * The size of the subspace that will be created. Must be positive. */ public void setSize( final int size) { ArgumentChecker.assertIsPositive("size", size); this.size = size; }
@Override public void setMinMargin( final double minMargin) { ArgumentChecker.assertIsPositive("minMargin", minMargin); super.setMinMargin(minMargin); }
@Override public void setMinMargin( final double minMargin) { ArgumentChecker.assertIsPositive("minMargin", minMargin); super.setMinMargin(minMargin); }
@Override public void setMinMargin( final double minMargin) { ArgumentChecker.assertIsPositive("minMargin", minMargin); super.setMinMargin(minMargin); }