Java Code Examples for org.apache.commons.math.complex.Complex#abs()
The following examples show how to use
org.apache.commons.math.complex.Complex#abs() .
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Example 1
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 2
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 3
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 4
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 5
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 6
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 7
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 8
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Check whether the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min Lower bound for the interval. * @param max Upper bound for the interval. * @param z Complex root. * @return {@code true} if z is a real zero. */ public boolean isRoot(double min, double max, Complex z) { if (isSequence(min, z.getReal(), max)) { double tolerance = FastMath.max(getRelativeAccuracy() * z.abs(), getAbsoluteAccuracy()); return (FastMath.abs(z.getImaginary()) <= tolerance) || (z.abs() <= getFunctionValueAccuracy()); } return false; }
Example 9
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 10
Source File: LaguerreSolver.java From cacheonix-core with GNU Lesser General Public License v2.1 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 11
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 12
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 13
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 14
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 15
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Check whether the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min Lower bound for the interval. * @param max Upper bound for the interval. * @param z Complex root. * @return {@code true} if z is a real zero. */ public boolean isRoot(double min, double max, Complex z) { if (isSequence(min, z.getReal(), max)) { double tolerance = FastMath.max(getRelativeAccuracy() * z.abs(), getAbsoluteAccuracy()); return (FastMath.abs(z.getImaginary()) <= tolerance) || (z.abs() <= getFunctionValueAccuracy()); } return false; }
Example 16
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = FastMath.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (FastMath.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }
Example 17
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Check whether the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min Lower bound for the interval. * @param max Upper bound for the interval. * @param z Complex root. * @return {@code true} if z is a real zero. */ public boolean isRoot(double min, double max, Complex z) { double tolerance = FastMath.max(getRelativeAccuracy() * z.abs(), getAbsoluteAccuracy()); return (isSequence(min, z.getReal(), max)) && (FastMath.abs(z.getImaginary()) <= tolerance || z.abs() <= getFunctionValueAccuracy()); }
Example 18
Source File: LaguerreSolver.java From astor with GNU General Public License v2.0 | 3 votes |
/** * Returns true iff the given complex root is actually a real zero * in the given interval, within the solver tolerance level. * * @param min the lower bound for the interval * @param max the upper bound for the interval * @param z the complex root * @return true iff z is the sought-after real zero */ protected boolean isRootOK(double min, double max, Complex z) { double tolerance = Math.max(relativeAccuracy * z.abs(), absoluteAccuracy); return (isSequence(min, z.getReal(), max)) && (Math.abs(z.getImaginary()) <= tolerance || z.abs() <= functionValueAccuracy); }