Java LocalizedFormats.INPUT_ARRAY属性代码示例

/**
 * Constructs instance with the specified observed points.
 *
 * @param observations Observed points from which to guess the
 * parameters of the Gaussian.
 * @throws NullArgumentException if {@code observations} is
 * {@code null}.
 * @throws NumberIsTooSmallException if there are less than 3
 * observations.
 */
public ParameterGuesser(Collection<WeightedObservedPoint> observations) {
    if (observations == null) {
        throw new NullArgumentException(LocalizedFormats.INPUT_ARRAY);
    }
    if (observations.size() < 3) {
        throw new NumberIsTooSmallException(observations.size(), 3, true);
    }

    final List<WeightedObservedPoint> sorted = sortObservations(observations);
    final double[] params = basicGuess(sorted.toArray(new WeightedObservedPoint[0]));

    norm = params[0];
    mean = params[1];
    sigma = params[2];
}
 

/**
 * Constructs instance with the specified observed points.
 *
 * @param observations Observed points from which to guess the
 * parameters of the Gaussian.
 * @throws NullArgumentException if {@code observations} is
 * {@code null}.
 * @throws NumberIsTooSmallException if there are less than 3
 * observations.
 */
public ParameterGuesser(WeightedObservedPoint[] observations) {
    if (observations == null) {
        throw new NullArgumentException(LocalizedFormats.INPUT_ARRAY);
    }
    if (observations.length < 3) {
        throw new NumberIsTooSmallException(observations.length, 3, true);
    }

    final WeightedObservedPoint[] sorted = sortObservations(observations);
    final double[] params = basicGuess(sorted);

    norm = params[0];
    mean = params[1];
    sigma = params[2];
}
 

/**
 * Generate a random sample from the distribution.
 * <p>
 * If the requested samples fit in the specified array, it is returned
 * therein. Otherwise, a new array is allocated with the runtime type of
 * the specified array and the size of this collection.
 *
 * @param sampleSize the number of random values to generate.
 * @param array the array to populate.
 * @return an array representing the random sample.
 * @throws NotStrictlyPositiveException if {@code sampleSize} is not positive.
 * @throws NullArgumentException if {@code array} is null
 */
public T[] sample(int sampleSize, final T[] array) throws NotStrictlyPositiveException {
    if (sampleSize <= 0) {
        throw new NotStrictlyPositiveException(LocalizedFormats.NUMBER_OF_SAMPLES, sampleSize);
    }

    if (array == null) {
        throw new NullArgumentException(LocalizedFormats.INPUT_ARRAY);
    }

    T[] out;
    if (array.length < sampleSize) {
        @SuppressWarnings("unchecked") // safe as both are of type T
        final T[] unchecked = (T[]) Array.newInstance(array.getClass().getComponentType(), sampleSize);
        out = unchecked;
    } else {
        out = array;
    }

    for (int i = 0; i < sampleSize; i++) {
        out[i] = sample();
    }

    return out;

}
 

/**
 * Set the data array.  The input array is copied, not referenced.
 *
 * @param values data array to store
 * @param begin the index of the first element to include
 * @param length the number of elements to include
 * @throws MathIllegalArgumentException if values is null or the indices
 * are not valid
 * @see #evaluate()
 */
public void setData(final double[] values, final int begin, final int length)
throws MathIllegalArgumentException {
    if (values == null) {
        throw new NullArgumentException(LocalizedFormats.INPUT_ARRAY);
    }

    if (begin < 0) {
        throw new NotPositiveException(LocalizedFormats.START_POSITION, begin);
    }

    if (length < 0) {
        throw new NotPositiveException(LocalizedFormats.LENGTH, length);
    }

    if (begin + length > values.length) {
        throw new NumberIsTooLargeException(LocalizedFormats.SUBARRAY_ENDS_AFTER_ARRAY_END,
                                            begin + length, values.length, true);
    }
    storedData = new double[length];
    System.arraycopy(values, begin, storedData, 0, length);
}
 

/**
 * This method is used
 * to verify that the input parameters designate a subarray of positive length.
 * <p>
 * <ul>
 * <li>returns <code>true</code> iff the parameters designate a subarray of
 * non-negative length</li>
 * <li>throws <code>IllegalArgumentException</code> if the array is null or
 * or the indices are invalid</li>
 * <li>returns <code>false</li> if the array is non-null, but
 * <code>length</code> is 0 unless <code>allowEmpty</code> is <code>true</code>
 * </ul></p>
 *
 * @param values the input array
 * @param begin index of the first array element to include
 * @param length the number of elements to include
 * @param allowEmpty if <code>true</code> then zero length arrays are allowed
 * @return true if the parameters are valid
 * @throws MathIllegalArgumentException if the indices are invalid or the array is null
 * @since 3.3
 */
public static boolean verifyValues(final double[] values, final int begin,
        final int length, final boolean allowEmpty) throws MathIllegalArgumentException {

    if (values == null) {
        throw new NullArgumentException(LocalizedFormats.INPUT_ARRAY);
    }

    if (begin < 0) {
        throw new NotPositiveException(LocalizedFormats.START_POSITION, Integer.valueOf(begin));
    }

    if (length < 0) {
        throw new NotPositiveException(LocalizedFormats.LENGTH, Integer.valueOf(length));
    }

    if (begin + length > values.length) {
        throw new NumberIsTooLargeException(LocalizedFormats.SUBARRAY_ENDS_AFTER_ARRAY_END,
                Integer.valueOf(begin + length), Integer.valueOf(values.length), true);
    }

    if (length == 0 && !allowEmpty) {
        return false;
    }

    return true;

}
 

/**
 * Returns the sample mode(s).  The mode is the most frequently occurring
 * value in the sample. If there is a unique value with maximum frequency,
 * this value is returned as the only element of the output array. Otherwise,
 * the returned array contains the maximum frequency elements in increasing
 * order.  For example, if {@code sample} is {0, 12, 5, 6, 0, 13, 5, 17},
 * the returned array will have length two, with 0 in the first element and
 * 5 in the second.
 *
 * <p>NaN values are ignored when computing the mode - i.e., NaNs will never
 * appear in the output array.  If the sample includes only NaNs or has
 * length 0, an empty array is returned.</p>
 *
 * @param sample input data
 * @param begin index (0-based) of the first array element to include
 * @param length the number of elements to include
 *
 * @return array of array of the most frequently occurring element(s) sorted in ascending order.
 * @throws MathIllegalArgumentException if the indices are invalid or the array is null
 * @since 3.3
 */
public static double[] mode(double[] sample, final int begin, final int length) {
    if (sample == null) {
        throw new NullArgumentException(LocalizedFormats.INPUT_ARRAY);
    }

    if (begin < 0) {
        throw new NotPositiveException(LocalizedFormats.START_POSITION, Integer.valueOf(begin));
    }

    if (length < 0) {
        throw new NotPositiveException(LocalizedFormats.LENGTH, Integer.valueOf(length));
    }

    return getMode(sample, begin, length);
}
 

/**
 * Returns the variance of the entries in the input array, or
 * <code>Double.NaN</code> if the array is empty.
 * <p>
 * See {@link Variance} for details on the computing algorithm.</p>
 * <p>
 * Returns 0 for a single-value (i.e. length = 1) sample.</p>
 * <p>
 * Throws <code>MathIllegalArgumentException</code> if the array is null.</p>
 * <p>
 * Does not change the internal state of the statistic.</p>
 *
 * @param values the input array
 * @return the variance of the values or Double.NaN if length = 0
 * @throws MathIllegalArgumentException if the array is null
 */
@Override
public double evaluate(final double[] values) throws MathIllegalArgumentException {
    if (values == null) {
        throw new NullArgumentException(LocalizedFormats.INPUT_ARRAY);
    }
    return evaluate(values, 0, values.length);
}
 

/**
 * This default implementation calls {@link #clear}, then invokes
 * {@link #increment} in a loop over the the input array, and then uses
 * {@link #getResult} to compute the return value.
 * <p>
 * Note that this implementation changes the internal state of the
 * statistic.  Its side effects are the same as invoking {@link #clear} and
 * then {@link #incrementAll(double[])}.</p>
 * <p>
 * Implementations may override this method with a more efficient and
 * possibly more accurate implementation that works directly with the
 * input array.</p>
 * <p>
 * If the array is null, a MathIllegalArgumentException is thrown.</p>
 * @param values input array
 * @return the value of the statistic applied to the input array
 * @throws MathIllegalArgumentException if values is null
 * @see org.apache.commons.math3.stat.descriptive.UnivariateStatistic#evaluate(double[])
 */
@Override
public double evaluate(final double[] values) throws MathIllegalArgumentException {
    if (values == null) {
        throw new NullArgumentException(LocalizedFormats.INPUT_ARRAY);
    }
    return evaluate(values, 0, values.length);
}
 

/**
 * This default implementation just calls {@link #increment} in a loop over
 * the input array.
 * <p>
 * Throws IllegalArgumentException if the input values array is null.</p>
 *
 * @param values values to add
 * @throws MathIllegalArgumentException if values is null
 * @see org.apache.commons.math3.stat.descriptive.StorelessUnivariateStatistic#incrementAll(double[])
 */
public void incrementAll(double[] values) throws MathIllegalArgumentException {
    if (values == null) {
        throw new NullArgumentException(LocalizedFormats.INPUT_ARRAY);
    }
    incrementAll(values, 0, values.length);
}