[−][src]Trait basic_dsp::PreciseStatisticsSplitOps

pub trait PreciseStatisticsSplitOps<T> {
    type Result;
    pub fn statistics_split_prec(
        &self, 
        len: usize
    ) -> Result<Self::Result, ErrorReason>;
}

Offers the same functionality as the StatisticsOps trait but the statistics are calculated in a more precise (and slower) way.

Associated Types

`type Result`[src]

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Required methods

`pub fn statistics_split_prec( &self, len: usize ) -> Result<Self::Result, ErrorReason>`[src]

Calculates the statistics of the data contained in the vector as if the vector would have been split into len pieces using a more precise but slower algorithm. self.len should be dividable by len without a remainder, but this isn't enforced by the implementation. For implementation reasons len <= 16 must be true.

Example

use basic_dsp_vector::*;
let vector: Vec<Complex<f32>> = vec!(Complex::new(1.0, 2.0), Complex::new(3.0, 4.0), Complex::new(5.0, 6.0));
let vector = vector.to_complex_time_vec();
let result = vector.statistics_split_prec(2).expect("Ignoring error handling in examples");
assert_eq!(result[0].sum, Complex64::new(6.0, 8.0));
assert_eq!(result[1].sum, Complex64::new(3.0, 4.0));
}

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Implementors

`impl<S, N, D> PreciseStatisticsSplitOps<f64> for DspVec<S, f32, N, D> where N: RealNumberSpace, S: ToSlice<f32>, D: Domain,` [src]

`type Result = ArrayVec<[Statistics<f64>; 16]>`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<ArrayVec<[Statistics<f64>; 16]>, ErrorReason>`[src]

`impl<S, N, D> PreciseStatisticsSplitOps<f64> for DspVec<S, f64, N, D> where N: RealNumberSpace, S: ToSlice<f64>, D: Domain,` [src]

`type Result = ArrayVec<[Statistics<f64>; 16]>`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<ArrayVec<[Statistics<f64>; 16]>, ErrorReason>`[src]

`impl<S, N, D> PreciseStatisticsSplitOps<Complex<f64>> for DspVec<S, f32, N, D> where N: ComplexNumberSpace, S: ToSlice<f32>, D: Domain,` [src]

`type Result = ArrayVec<[Statistics<Complex<f64>>; 16]>`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<ArrayVec<[Statistics<Complex<f64>>; 16]>, ErrorReason>`[src]

`impl<S, N, D> PreciseStatisticsSplitOps<Complex<f64>> for DspVec<S, f64, N, D> where N: ComplexNumberSpace, S: ToSlice<f64>, D: Domain,` [src]

`type Result = ArrayVec<[Statistics<Complex<f64>>; 16]>`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<ArrayVec<[Statistics<Complex<f64>>; 16]>, ErrorReason>`[src]

`impl<S, V, T> PreciseStatisticsSplitOps<T> for Matrix2xN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>,` [src]

`type Result = [ArrayVec<[Statistics<T>; 16]>; 2]`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<<Matrix2xN<V, S, T> as PreciseStatisticsSplitOps<T>>::Result, ErrorReason>`[src]

`impl<S, V, T> PreciseStatisticsSplitOps<T> for Matrix3xN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>,` [src]

`type Result = [ArrayVec<[Statistics<T>; 16]>; 3]`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<<Matrix3xN<V, S, T> as PreciseStatisticsSplitOps<T>>::Result, ErrorReason>`[src]

`impl<S, V, T> PreciseStatisticsSplitOps<T> for Matrix4xN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>,` [src]

`type Result = [ArrayVec<[Statistics<T>; 16]>; 4]`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<<Matrix4xN<V, S, T> as PreciseStatisticsSplitOps<T>>::Result, ErrorReason>`[src]

`impl<S, V, T> PreciseStatisticsSplitOps<T> for MatrixMxN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>,` [src]

`type Result = Vec<ArrayVec<[Statistics<T>; 16]>, Global>`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<Vec<ArrayVec<[Statistics<T>; 16]>, Global>, ErrorReason>`[src]

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[−][src]Trait basic_dsp::PreciseStatisticsSplitOps

Associated Types

type Result[src]

Required methods

pub fn statistics_split_prec( &self, len: usize) -> Result<Self::Result, ErrorReason>[src]

Example

Implementors

impl<S, N, D> PreciseStatisticsSplitOps<f64> for DspVec<S, f32, N, D> where N: RealNumberSpace, S: ToSlice<f32>, D: Domain, [src]

type Result = ArrayVec<[Statistics<f64>; 16]>

pub fn statistics_split_prec( &self, len: usize) -> Result<ArrayVec<[Statistics<f64>; 16]>, ErrorReason>[src]

impl<S, N, D> PreciseStatisticsSplitOps<f64> for DspVec<S, f64, N, D> where N: RealNumberSpace, S: ToSlice<f64>, D: Domain, [src]

type Result = ArrayVec<[Statistics<f64>; 16]>

pub fn statistics_split_prec( &self, len: usize) -> Result<ArrayVec<[Statistics<f64>; 16]>, ErrorReason>[src]

impl<S, N, D> PreciseStatisticsSplitOps<Complex<f64>> for DspVec<S, f32, N, D> where N: ComplexNumberSpace, S: ToSlice<f32>, D: Domain, [src]

type Result = ArrayVec<[Statistics<Complex<f64>>; 16]>

pub fn statistics_split_prec( &self, len: usize) -> Result<ArrayVec<[Statistics<Complex<f64>>; 16]>, ErrorReason>[src]

impl<S, N, D> PreciseStatisticsSplitOps<Complex<f64>> for DspVec<S, f64, N, D> where N: ComplexNumberSpace, S: ToSlice<f64>, D: Domain, [src]

type Result = ArrayVec<[Statistics<Complex<f64>>; 16]>

pub fn statistics_split_prec( &self, len: usize) -> Result<ArrayVec<[Statistics<Complex<f64>>; 16]>, ErrorReason>[src]

impl<S, V, T> PreciseStatisticsSplitOps<T> for Matrix2xN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>, [src]

type Result = [ArrayVec<[Statistics<T>; 16]>; 2]

pub fn statistics_split_prec( &self, len: usize) -> Result<<Matrix2xN<V, S, T> as PreciseStatisticsSplitOps<T>>::Result, ErrorReason>[src]

impl<S, V, T> PreciseStatisticsSplitOps<T> for Matrix3xN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>, [src]

type Result = [ArrayVec<[Statistics<T>; 16]>; 3]

pub fn statistics_split_prec( &self, len: usize) -> Result<<Matrix3xN<V, S, T> as PreciseStatisticsSplitOps<T>>::Result, ErrorReason>[src]

impl<S, V, T> PreciseStatisticsSplitOps<T> for Matrix4xN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>, [src]

type Result = [ArrayVec<[Statistics<T>; 16]>; 4]

pub fn statistics_split_prec( &self, len: usize) -> Result<<Matrix4xN<V, S, T> as PreciseStatisticsSplitOps<T>>::Result, ErrorReason>[src]

impl<S, V, T> PreciseStatisticsSplitOps<T> for MatrixMxN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>, [src]

type Result = Vec<ArrayVec<[Statistics<T>; 16]>, Global>

pub fn statistics_split_prec( &self, len: usize) -> Result<Vec<ArrayVec<[Statistics<T>; 16]>, Global>, ErrorReason>[src]

`type Result`[src]

`pub fn statistics_split_prec( &self, len: usize ) -> Result<Self::Result, ErrorReason>`[src]

`impl<S, N, D> PreciseStatisticsSplitOps<f64> for DspVec<S, f32, N, D> where N: RealNumberSpace, S: ToSlice<f32>, D: Domain,` [src]

`type Result = ArrayVec<[Statistics<f64>; 16]>`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<ArrayVec<[Statistics<f64>; 16]>, ErrorReason>`[src]

`impl<S, N, D> PreciseStatisticsSplitOps<f64> for DspVec<S, f64, N, D> where N: RealNumberSpace, S: ToSlice<f64>, D: Domain,` [src]

`type Result = ArrayVec<[Statistics<f64>; 16]>`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<ArrayVec<[Statistics<f64>; 16]>, ErrorReason>`[src]

`impl<S, N, D> PreciseStatisticsSplitOps<Complex<f64>> for DspVec<S, f32, N, D> where N: ComplexNumberSpace, S: ToSlice<f32>, D: Domain,` [src]

`type Result = ArrayVec<[Statistics<Complex<f64>>; 16]>`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<ArrayVec<[Statistics<Complex<f64>>; 16]>, ErrorReason>`[src]

`impl<S, N, D> PreciseStatisticsSplitOps<Complex<f64>> for DspVec<S, f64, N, D> where N: ComplexNumberSpace, S: ToSlice<f64>, D: Domain,` [src]

`type Result = ArrayVec<[Statistics<Complex<f64>>; 16]>`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<ArrayVec<[Statistics<Complex<f64>>; 16]>, ErrorReason>`[src]

`impl<S, V, T> PreciseStatisticsSplitOps<T> for Matrix2xN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>,` [src]

`type Result = [ArrayVec<[Statistics<T>; 16]>; 2]`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<<Matrix2xN<V, S, T> as PreciseStatisticsSplitOps<T>>::Result, ErrorReason>`[src]

`impl<S, V, T> PreciseStatisticsSplitOps<T> for Matrix3xN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>,` [src]

`type Result = [ArrayVec<[Statistics<T>; 16]>; 3]`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<<Matrix3xN<V, S, T> as PreciseStatisticsSplitOps<T>>::Result, ErrorReason>`[src]

`impl<S, V, T> PreciseStatisticsSplitOps<T> for Matrix4xN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>,` [src]

`type Result = [ArrayVec<[Statistics<T>; 16]>; 4]`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<<Matrix4xN<V, S, T> as PreciseStatisticsSplitOps<T>>::Result, ErrorReason>`[src]

`impl<S, V, T> PreciseStatisticsSplitOps<T> for MatrixMxN<V, S, T> where T: RealNumber, S: ToSlice<T>, V: Vector<T> + PreciseStatisticsSplitOps<Statistics<T>, Result = ArrayVec<[Statistics<T>; 16]>>,` [src]

`type Result = Vec<ArrayVec<[Statistics<T>; 16]>, Global>`

`pub fn statistics_split_prec( &self, len: usize ) -> Result<Vec<ArrayVec<[Statistics<T>; 16]>, Global>, ErrorReason>`[src]