Java Code Examples for org.apache.commons.math3.exception.util.LocalizedFormats#FIRST_ELEMENT_NOT_ZERO
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Example 1
Source File: FastSineTransformer.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Perform the FST algorithm (including inverse). The first element of the * data set is required to be {@code 0}. * * @param f the real data array to be transformed * @return the real transformed array * @throws MathIllegalArgumentException if the length of the data array is * not a power of two, or the first element of the data array is not zero */ protected double[] fst(double[] f) throws MathIllegalArgumentException { final double[] transformed = new double[f.length]; if (!ArithmeticUtils.isPowerOfTwo(f.length)) { throw new MathIllegalArgumentException( LocalizedFormats.NOT_POWER_OF_TWO_CONSIDER_PADDING, Integer.valueOf(f.length)); } if (f[0] != 0.0) { throw new MathIllegalArgumentException( LocalizedFormats.FIRST_ELEMENT_NOT_ZERO, Double.valueOf(f[0])); } final int n = f.length; if (n == 1) { // trivial case transformed[0] = 0.0; return transformed; } // construct a new array and perform FFT on it final double[] x = new double[n]; x[0] = 0.0; x[n >> 1] = 2.0 * f[n >> 1]; for (int i = 1; i < (n >> 1); i++) { final double a = FastMath.sin(i * FastMath.PI / n) * (f[i] + f[n - i]); final double b = 0.5 * (f[i] - f[n - i]); x[i] = a + b; x[n - i] = a - b; } FastFourierTransformer transformer; transformer = new FastFourierTransformer(DftNormalization.STANDARD); Complex[] y = transformer.transform(x, TransformType.FORWARD); // reconstruct the FST result for the original array transformed[0] = 0.0; transformed[1] = 0.5 * y[0].getReal(); for (int i = 1; i < (n >> 1); i++) { transformed[2 * i] = -y[i].getImaginary(); transformed[2 * i + 1] = y[i].getReal() + transformed[2 * i - 1]; } return transformed; }
Example 2
Source File: FastSineTransformer.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Perform the FST algorithm (including inverse). The first element of the * data set is required to be {@code 0}. * * @param f the real data array to be transformed * @return the real transformed array * @throws MathIllegalArgumentException if the length of the data array is * not a power of two, or the first element of the data array is not zero */ protected double[] fst(double[] f) throws MathIllegalArgumentException { final double[] transformed = new double[f.length]; if (!ArithmeticUtils.isPowerOfTwo(f.length)) { throw new MathIllegalArgumentException( LocalizedFormats.NOT_POWER_OF_TWO_CONSIDER_PADDING, Integer.valueOf(f.length)); } if (f[0] != 0.0) { throw new MathIllegalArgumentException( LocalizedFormats.FIRST_ELEMENT_NOT_ZERO, Double.valueOf(f[0])); } final int n = f.length; if (n == 1) { // trivial case transformed[0] = 0.0; return transformed; } // construct a new array and perform FFT on it final double[] x = new double[n]; x[0] = 0.0; x[n >> 1] = 2.0 * f[n >> 1]; for (int i = 1; i < (n >> 1); i++) { final double a = FastMath.sin(i * FastMath.PI / n) * (f[i] + f[n - i]); final double b = 0.5 * (f[i] - f[n - i]); x[i] = a + b; x[n - i] = a - b; } FastFourierTransformer transformer; transformer = new FastFourierTransformer(DftNormalization.STANDARD); Complex[] y = transformer.transform(x, TransformType.FORWARD); // reconstruct the FST result for the original array transformed[0] = 0.0; transformed[1] = 0.5 * y[0].getReal(); for (int i = 1; i < (n >> 1); i++) { transformed[2 * i] = -y[i].getImaginary(); transformed[2 * i + 1] = y[i].getReal() + transformed[2 * i - 1]; } return transformed; }
Example 3
Source File: FastSineTransformer.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Perform the FST algorithm (including inverse). The first element of the * data set is required to be {@code 0}. * * @param f the real data array to be transformed * @return the real transformed array * @throws MathIllegalArgumentException if the length of the data array is * not a power of two, or the first element of the data array is not zero */ protected double[] fst(double[] f) throws MathIllegalArgumentException { final double[] transformed = new double[f.length]; if (!ArithmeticUtils.isPowerOfTwo(f.length)) { throw new MathIllegalArgumentException( LocalizedFormats.NOT_POWER_OF_TWO_CONSIDER_PADDING, Integer.valueOf(f.length)); } if (f[0] != 0.0) { throw new MathIllegalArgumentException( LocalizedFormats.FIRST_ELEMENT_NOT_ZERO, Double.valueOf(f[0])); } final int n = f.length; if (n == 1) { // trivial case transformed[0] = 0.0; return transformed; } // construct a new array and perform FFT on it final double[] x = new double[n]; x[0] = 0.0; x[n >> 1] = 2.0 * f[n >> 1]; for (int i = 1; i < (n >> 1); i++) { final double a = FastMath.sin(i * FastMath.PI / n) * (f[i] + f[n - i]); final double b = 0.5 * (f[i] - f[n - i]); x[i] = a + b; x[n - i] = a - b; } FastFourierTransformer transformer; transformer = new FastFourierTransformer(DftNormalization.STANDARD); Complex[] y = transformer.transform(x, TransformType.FORWARD); // reconstruct the FST result for the original array transformed[0] = 0.0; transformed[1] = 0.5 * y[0].getReal(); for (int i = 1; i < (n >> 1); i++) { transformed[2 * i] = -y[i].getImaginary(); transformed[2 * i + 1] = y[i].getReal() + transformed[2 * i - 1]; } return transformed; }
Example 4
Source File: FastSineTransformer.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Perform the FST algorithm (including inverse). The first element of the * data set is required to be {@code 0}. * * @param f the real data array to be transformed * @return the real transformed array * @throws MathIllegalArgumentException if the length of the data array is * not a power of two, or the first element of the data array is not zero */ protected double[] fst(double[] f) throws MathIllegalArgumentException { final double[] transformed = new double[f.length]; if (!ArithmeticUtils.isPowerOfTwo(f.length)) { throw new MathIllegalArgumentException( LocalizedFormats.NOT_POWER_OF_TWO_CONSIDER_PADDING, Integer.valueOf(f.length)); } if (f[0] != 0.0) { throw new MathIllegalArgumentException( LocalizedFormats.FIRST_ELEMENT_NOT_ZERO, Double.valueOf(f[0])); } final int n = f.length; if (n == 1) { // trivial case transformed[0] = 0.0; return transformed; } // construct a new array and perform FFT on it final double[] x = new double[n]; x[0] = 0.0; x[n >> 1] = 2.0 * f[n >> 1]; for (int i = 1; i < (n >> 1); i++) { final double a = FastMath.sin(i * FastMath.PI / n) * (f[i] + f[n - i]); final double b = 0.5 * (f[i] - f[n - i]); x[i] = a + b; x[n - i] = a - b; } FastFourierTransformer transformer; transformer = new FastFourierTransformer(DftNormalization.STANDARD); Complex[] y = transformer.transform(x, TransformType.FORWARD); // reconstruct the FST result for the original array transformed[0] = 0.0; transformed[1] = 0.5 * y[0].getReal(); for (int i = 1; i < (n >> 1); i++) { transformed[2 * i] = -y[i].getImaginary(); transformed[2 * i + 1] = y[i].getReal() + transformed[2 * i - 1]; } return transformed; }
Example 5
Source File: FastSineTransformer.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Perform the FST algorithm (including inverse). The first element of the * data set is required to be {@code 0}. * * @param f the real data array to be transformed * @return the real transformed array * @throws MathIllegalArgumentException if the length of the data array is * not a power of two, or the first element of the data array is not zero */ protected double[] fst(double[] f) throws MathIllegalArgumentException { final double[] transformed = new double[f.length]; if (!ArithmeticUtils.isPowerOfTwo(f.length)) { throw new MathIllegalArgumentException( LocalizedFormats.NOT_POWER_OF_TWO_CONSIDER_PADDING, Integer.valueOf(f.length)); } if (f[0] != 0.0) { throw new MathIllegalArgumentException( LocalizedFormats.FIRST_ELEMENT_NOT_ZERO, Double.valueOf(f[0])); } final int n = f.length; if (n == 1) { // trivial case transformed[0] = 0.0; return transformed; } // construct a new array and perform FFT on it final double[] x = new double[n]; x[0] = 0.0; x[n >> 1] = 2.0 * f[n >> 1]; for (int i = 1; i < (n >> 1); i++) { final double a = FastMath.sin(i * FastMath.PI / n) * (f[i] + f[n - i]); final double b = 0.5 * (f[i] - f[n - i]); x[i] = a + b; x[n - i] = a - b; } FastFourierTransformer transformer; transformer = new FastFourierTransformer(DftNormalization.STANDARD); Complex[] y = transformer.transform(x, TransformType.FORWARD); // reconstruct the FST result for the original array transformed[0] = 0.0; transformed[1] = 0.5 * y[0].getReal(); for (int i = 1; i < (n >> 1); i++) { transformed[2 * i] = -y[i].getImaginary(); transformed[2 * i + 1] = y[i].getReal() + transformed[2 * i - 1]; } return transformed; }
Example 6
Source File: FastSineTransformer.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Perform the FST algorithm (including inverse). The first element of the * data set is required to be {@code 0}. * * @param f the real data array to be transformed * @return the real transformed array * @throws MathIllegalArgumentException if the length of the data array is * not a power of two, or the first element of the data array is not zero */ protected double[] fst(double[] f) throws MathIllegalArgumentException { final double[] transformed = new double[f.length]; if (!ArithmeticUtils.isPowerOfTwo(f.length)) { throw new MathIllegalArgumentException( LocalizedFormats.NOT_POWER_OF_TWO_CONSIDER_PADDING, Integer.valueOf(f.length)); } if (f[0] != 0.0) { throw new MathIllegalArgumentException( LocalizedFormats.FIRST_ELEMENT_NOT_ZERO, Double.valueOf(f[0])); } final int n = f.length; if (n == 1) { // trivial case transformed[0] = 0.0; return transformed; } // construct a new array and perform FFT on it final double[] x = new double[n]; x[0] = 0.0; x[n >> 1] = 2.0 * f[n >> 1]; for (int i = 1; i < (n >> 1); i++) { final double a = FastMath.sin(i * FastMath.PI / n) * (f[i] + f[n - i]); final double b = 0.5 * (f[i] - f[n - i]); x[i] = a + b; x[n - i] = a - b; } FastFourierTransformer transformer; transformer = new FastFourierTransformer(DftNormalization.STANDARD); Complex[] y = transformer.transform(x, TransformType.FORWARD); // reconstruct the FST result for the original array transformed[0] = 0.0; transformed[1] = 0.5 * y[0].getReal(); for (int i = 1; i < (n >> 1); i++) { transformed[2 * i] = -y[i].getImaginary(); transformed[2 * i + 1] = y[i].getReal() + transformed[2 * i - 1]; } return transformed; }
Example 7
Source File: FastSineTransformer.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Perform the FST algorithm (including inverse). The first element of the * data set is required to be {@code 0}. * * @param f the real data array to be transformed * @return the real transformed array * @throws MathIllegalArgumentException if the length of the data array is * not a power of two, or the first element of the data array is not zero */ protected double[] fst(double[] f) throws MathIllegalArgumentException { final double[] transformed = new double[f.length]; if (!ArithmeticUtils.isPowerOfTwo(f.length)) { throw new MathIllegalArgumentException( LocalizedFormats.NOT_POWER_OF_TWO_CONSIDER_PADDING, Integer.valueOf(f.length)); } if (f[0] != 0.0) { throw new MathIllegalArgumentException( LocalizedFormats.FIRST_ELEMENT_NOT_ZERO, Double.valueOf(f[0])); } final int n = f.length; if (n == 1) { // trivial case transformed[0] = 0.0; return transformed; } // construct a new array and perform FFT on it final double[] x = new double[n]; x[0] = 0.0; x[n >> 1] = 2.0 * f[n >> 1]; for (int i = 1; i < (n >> 1); i++) { final double a = FastMath.sin(i * FastMath.PI / n) * (f[i] + f[n - i]); final double b = 0.5 * (f[i] - f[n - i]); x[i] = a + b; x[n - i] = a - b; } FastFourierTransformer transformer; transformer = new FastFourierTransformer(DftNormalization.STANDARD); Complex[] y = transformer.transform(x, TransformType.FORWARD); // reconstruct the FST result for the original array transformed[0] = 0.0; transformed[1] = 0.5 * y[0].getReal(); for (int i = 1; i < (n >> 1); i++) { transformed[2 * i] = -y[i].getImaginary(); transformed[2 * i + 1] = y[i].getReal() + transformed[2 * i - 1]; } return transformed; }
Example 8
Source File: FastSineTransformer.java From astor with GNU General Public License v2.0 | 4 votes |
/** * Perform the FST algorithm (including inverse). The first element of the * data set is required to be {@code 0}. * * @param f the real data array to be transformed * @return the real transformed array * @throws MathIllegalArgumentException if the length of the data array is * not a power of two, or the first element of the data array is not zero */ protected double[] fst(double[] f) throws MathIllegalArgumentException { final double[] transformed = new double[f.length]; if (!ArithmeticUtils.isPowerOfTwo(f.length)) { throw new MathIllegalArgumentException( LocalizedFormats.NOT_POWER_OF_TWO_CONSIDER_PADDING, Integer.valueOf(f.length)); } if (f[0] != 0.0) { throw new MathIllegalArgumentException( LocalizedFormats.FIRST_ELEMENT_NOT_ZERO, Double.valueOf(f[0])); } final int n = f.length; if (n == 1) { // trivial case transformed[0] = 0.0; return transformed; } // construct a new array and perform FFT on it final double[] x = new double[n]; x[0] = 0.0; x[n >> 1] = 2.0 * f[n >> 1]; for (int i = 1; i < (n >> 1); i++) { final double a = FastMath.sin(i * FastMath.PI / n) * (f[i] + f[n - i]); final double b = 0.5 * (f[i] - f[n - i]); x[i] = a + b; x[n - i] = a - b; } FastFourierTransformer transformer; transformer = new FastFourierTransformer(DftNormalization.STANDARD); Complex[] y = transformer.transform(x, TransformType.FORWARD); // reconstruct the FST result for the original array transformed[0] = 0.0; transformed[1] = 0.5 * y[0].getReal(); for (int i = 1; i < (n >> 1); i++) { transformed[2 * i] = -y[i].getImaginary(); transformed[2 * i + 1] = y[i].getReal() + transformed[2 * i - 1]; } return transformed; }