public class ChiSquareTest extends Object
This implementation handles both known and unknown distributions.
Two samples tests can be used when the distribution is unknown a priori but provided by one sample, or when the hypothesis under test is that the two samples come from the same underlying distribution.
Constructor and Description |
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ChiSquareTest() |
Modifier and Type | Method and Description |
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double |
chiSquare(double[] expected,
long[] observed)
|
double |
chiSquare(long[][] counts)
Computes the Chi-Square statistic associated with a
chi-square test of independence based on the input
counts
array, viewed as a two-way table. |
double |
chiSquareDataSetsComparison(long[] observed1,
long[] observed2)
Computes a
Chi-Square two sample test statistic comparing bin frequency counts
in
observed1 and observed2 . |
double |
chiSquareTest(double[] expected,
long[] observed)
Returns the observed significance level, or
p-value, associated with a
Chi-square goodness of fit test comparing the
observed
frequency counts to those in the expected array. |
boolean |
chiSquareTest(double[] expected,
long[] observed,
double alpha)
Performs a
Chi-square goodness of fit test evaluating the null hypothesis that the
observed counts conform to the frequency distribution described by the expected
counts, with significance level
alpha . |
double |
chiSquareTest(long[][] counts)
Returns the observed significance level, or
p-value, associated with a
chi-square test of independence based on the input
counts
array, viewed as a two-way table. |
boolean |
chiSquareTest(long[][] counts,
double alpha)
Performs a
chi-square test of independence evaluating the null hypothesis that the
classifications represented by the counts in the columns of the input 2-way table
are independent of the rows, with significance level
alpha . |
double |
chiSquareTestDataSetsComparison(long[] observed1,
long[] observed2)
Returns the observed significance level, or
p-value, associated with a Chi-Square two sample test comparing
bin frequency counts in
observed1 and
observed2 . |
boolean |
chiSquareTestDataSetsComparison(long[] observed1,
long[] observed2,
double alpha)
Performs a Chi-Square two sample test comparing two binned data
sets.
|
public double chiSquare(double[] expected, long[] observed) throws MathIllegalArgumentException
observed
and expected
frequency counts.
This statistic can be used to perform a Chi-Square test evaluating the null hypothesis that the observed counts follow the expected distribution.
Preconditions:
If any of the preconditions are not met, an
IllegalArgumentException
is thrown.
Note: This implementation rescales the
expected
array if necessary to ensure that the sum of the
expected and observed counts are equal.
observed
- array of observed frequency countsexpected
- array of expected frequency countsMathIllegalArgumentException
- if observed
has negative entriesMathIllegalArgumentException
- if expected
has entries that are
not strictly positiveMathIllegalArgumentException
- if the arrays length is less than 2public double chiSquareTest(double[] expected, long[] observed) throws MathIllegalArgumentException, MathIllegalStateException
observed
frequency counts to those in the expected
array.
The number returned is the smallest significance level at which one can reject the null hypothesis that the observed counts conform to the frequency distribution described by the expected counts.
Preconditions:
If any of the preconditions are not met, an
IllegalArgumentException
is thrown.
Note: This implementation rescales the
expected
array if necessary to ensure that the sum of the
expected and observed counts are equal.
observed
- array of observed frequency countsexpected
- array of expected frequency countsMathIllegalArgumentException
- if observed
has negative entriesMathIllegalArgumentException
- if expected
has entries that are
not strictly positiveMathIllegalArgumentException
- if the arrays length is less than 2MathIllegalStateException
- if an error occurs computing the p-valuepublic boolean chiSquareTest(double[] expected, long[] observed, double alpha) throws MathIllegalArgumentException, MathIllegalStateException
alpha
. Returns true iff the null
hypothesis can be rejected with 100 * (1 - alpha) percent confidence.
Example:
To test the hypothesis that observed
follows
expected
at the 99% level, use
chiSquareTest(expected, observed, 0.01)
Preconditions:
0 < alpha < 0.5
If any of the preconditions are not met, an
IllegalArgumentException
is thrown.
Note: This implementation rescales the
expected
array if necessary to ensure that the sum of the
expected and observed counts are equal.
observed
- array of observed frequency countsexpected
- array of expected frequency countsalpha
- significance level of the testMathIllegalArgumentException
- if observed
has negative entriesMathIllegalArgumentException
- if expected
has entries that are
not strictly positiveMathIllegalArgumentException
- if the arrays length is less than 2MathIllegalArgumentException
- if alpha
is not in the range (0, 0.5]MathIllegalStateException
- if an error occurs computing the p-valuepublic double chiSquare(long[][] counts) throws MathIllegalArgumentException, NullArgumentException
counts
array, viewed as a two-way table.
The rows of the 2-way table are
count[0], ... , count[count.length - 1]
Preconditions:
counts
must have at
least 2 columns and at least 2 rows.
If any of the preconditions are not met, an
IllegalArgumentException
is thrown.
counts
- array representation of 2-way tableNullArgumentException
- if the array is nullMathIllegalArgumentException
- if the array is not rectangularMathIllegalArgumentException
- if counts
has negative entriespublic double chiSquareTest(long[][] counts) throws MathIllegalArgumentException, NullArgumentException, MathIllegalStateException
counts
array, viewed as a two-way table.
The rows of the 2-way table are
count[0], ... , count[count.length - 1]
Preconditions:
counts
must have at least 2
columns and at least 2 rows.
If any of the preconditions are not met, an
IllegalArgumentException
is thrown.
counts
- array representation of 2-way tableNullArgumentException
- if the array is nullMathIllegalArgumentException
- if the array is not rectangularMathIllegalArgumentException
- if counts
has negative entriesMathIllegalStateException
- if an error occurs computing the p-valuepublic boolean chiSquareTest(long[][] counts, double alpha) throws MathIllegalArgumentException, NullArgumentException, MathIllegalStateException
alpha
.
Returns true iff the null hypothesis can be rejected with 100 * (1 - alpha) percent
confidence.
The rows of the 2-way table are
count[0], ... , count[count.length - 1]
Example:
To test the null hypothesis that the counts in
count[0], ... , count[count.length - 1]
all correspond to the same underlying probability distribution at the 99% level,
use chiSquareTest(counts, 0.01)
.
Preconditions:
counts
must have at least 2 columns and
at least 2 rows.
If any of the preconditions are not met, an
IllegalArgumentException
is thrown.
counts
- array representation of 2-way tablealpha
- significance level of the testNullArgumentException
- if the array is nullMathIllegalArgumentException
- if the array is not rectangularMathIllegalArgumentException
- if counts
has any negative entriesMathIllegalArgumentException
- if alpha
is not in the range (0, 0.5]MathIllegalStateException
- if an error occurs computing the p-valuepublic double chiSquareDataSetsComparison(long[] observed1, long[] observed2) throws MathIllegalArgumentException
observed1
and observed2
.
The sums of frequency counts in the two samples are not required to be the same. The formula used to compute the test statistic is
∑[(K * observed1[i] - observed2[i]/K)2 / (observed1[i] + observed2[i])]
where
K = &sqrt;[∑(observed2 / ∑(observed1)]
This statistic can be used to perform a Chi-Square test evaluating the null hypothesis that both observed counts follow the same distribution.
Preconditions:
observed1
and observed2
must have
the same length and their common length must be at least 2.
If any of the preconditions are not met, an
IllegalArgumentException
is thrown.
observed1
- array of observed frequency counts of the first data setobserved2
- array of observed frequency counts of the second data setMathIllegalArgumentException
- the the length of the arrays does not matchMathIllegalArgumentException
- if any entries in observed1
or
observed2
are negativeMathIllegalArgumentException
- if either all counts of observed1
or
observed2
are zero, or if the count at some index is zero
for both arrayspublic double chiSquareTestDataSetsComparison(long[] observed1, long[] observed2) throws MathIllegalArgumentException, MathIllegalStateException
observed1
and
observed2
.
The number returned is the smallest significance level at which one can reject the null hypothesis that the observed counts conform to the same distribution.
See chiSquareDataSetsComparison(long[], long[])
for details
on the formula used to compute the test statistic. The degrees of
of freedom used to perform the test is one less than the common length
of the input observed count arrays.
Preconditions:
observed1
and observed2
must
have the same length and their common length must be at least 2.
If any of the preconditions are not met, an
IllegalArgumentException
is thrown.
observed1
- array of observed frequency counts of the first data setobserved2
- array of observed frequency counts of the second data setMathIllegalArgumentException
- the the length of the arrays does not matchMathIllegalArgumentException
- if any entries in observed1
or
observed2
are negativeMathIllegalArgumentException
- if either all counts of observed1
or
observed2
are zero, or if the count at the same index is zero
for both arraysMathIllegalStateException
- if an error occurs computing the p-valuepublic boolean chiSquareTestDataSetsComparison(long[] observed1, long[] observed2, double alpha) throws MathIllegalArgumentException, MathIllegalStateException
alpha
. Returns true iff the null
hypothesis can be rejected with 100 * (1 - alpha) percent confidence.
See chiSquareDataSetsComparison(long[], long[])
for
details on the formula used to compute the Chisquare statistic used
in the test. The degrees of of freedom used to perform the test is
one less than the common length of the input observed count arrays.
Preconditions:
observed1
and observed2
must
have the same length and their common length must be at least 2. 0 < alpha < 0.5
If any of the preconditions are not met, an
IllegalArgumentException
is thrown.
observed1
- array of observed frequency counts of the first data setobserved2
- array of observed frequency counts of the second data setalpha
- significance level of the testMathIllegalArgumentException
- the the length of the arrays does not matchMathIllegalArgumentException
- if any entries in observed1
or
observed2
are negativeMathIllegalArgumentException
- if either all counts of observed1
or
observed2
are zero, or if the count at the same index is zero
for both arraysMathIllegalArgumentException
- if alpha
is not in the range (0, 0.5]MathIllegalStateException
- if an error occurs performing the testCopyright © 2016-2022 CS GROUP. All rights reserved.