Trait ndarray_stats::CorrelationExt [−][src]
Extension trait for ArrayBase
providing functions
to compute different correlation measures.
Required methods
fn cov(&self, ddof: A) -> Result<Array2<A>, EmptyInput> where
A: Float + FromPrimitive,
[src]
A: Float + FromPrimitive,
Return the covariance matrix C
for a 2-dimensional
array of observations M
.
Let (r, o)
be the shape of M
:
r
is the number of random variables;o
is the number of observations we have collected for each random variable.
Every column in M
is an experiment: a single observation for each
random variable.
Each row in M
contains all the observations for a certain random variable.
The parameter ddof
specifies the “delta degrees of freedom”. For
example, to calculate the population covariance, use ddof = 0
, or to
calculate the sample covariance (unbiased estimate), use ddof = 1
.
The covariance of two random variables is defined as:
1 n
cov(X, Y) = ―――――――― ∑ (xᵢ - x̅)(yᵢ - y̅)
n - ddof i=1
where
1 n
x̅ = ― ∑ xᵢ
n i=1
and similarly for ̅y.
If M
is empty (either zero observations or zero random variables), it returns Err(EmptyInput)
.
Panics if ddof
is negative or greater than or equal to the number of
observations, or if the type cast of n_observations
from usize
to A
fails.
Example
use ndarray::{aview2, arr2}; use ndarray_stats::CorrelationExt; let a = arr2(&[[1., 3., 5.], [2., 4., 6.]]); let covariance = a.cov(1.).unwrap(); assert_eq!( covariance, aview2(&[[4., 4.], [4., 4.]]) );
fn pearson_correlation(&self) -> Result<Array2<A>, EmptyInput> where
A: Float + FromPrimitive,
[src]
A: Float + FromPrimitive,
Return the Pearson correlation coefficients
for a 2-dimensional array of observations M
.
Let (r, o)
be the shape of M
:
r
is the number of random variables;o
is the number of observations we have collected for each random variable.
Every column in M
is an experiment: a single observation for each
random variable.
Each row in M
contains all the observations for a certain random variable.
The Pearson correlation coefficient of two random variables is defined as:
cov(X, Y)
rho(X, Y) = ――――――――――――
std(X)std(Y)
Let R
be the matrix returned by this function. Then
R_ij = rho(X_i, X_j)
If M
is empty (either zero observations or zero random variables), it returns Err(EmptyInput)
.
Panics if the type cast of n_observations
from usize
to A
fails or
if the standard deviation of one of the random variables is zero and
division by zero panics for type A.
Example
use approx; use ndarray::arr2; use ndarray_stats::CorrelationExt; use approx::AbsDiffEq; let a = arr2(&[[1., 3., 5.], [2., 4., 6.]]); let corr = a.pearson_correlation().unwrap(); let epsilon = 1e-7; assert!( corr.abs_diff_eq( &arr2(&[ [1., 1.], [1., 1.], ]), epsilon ) );
fn __private__(&self, _: PrivateMarker)
[src]
This method makes this trait impossible to implement outside of
ndarray-stats
so that we can freely add new methods, etc., to
this trait without breaking changes.
We don’t anticipate any other crates needing to implement this trait, but if you do have such a use-case, please let us know.
Warning This method is not considered part of the public API, and client code should not rely on it being present. It may be removed in a non-breaking release.
Implementations on Foreign Types
impl<A: 'static, S> CorrelationExt<A, S> for ArrayBase<S, Ix2> where
S: Data<Elem = A>,
[src]
S: Data<Elem = A>,
fn cov(&self, ddof: A) -> Result<Array2<A>, EmptyInput> where
A: Float + FromPrimitive,
[src]
A: Float + FromPrimitive,
fn pearson_correlation(&self) -> Result<Array2<A>, EmptyInput> where
A: Float + FromPrimitive,
[src]
A: Float + FromPrimitive,