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ShuffleSplit.ts
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ShuffleSplit.ts
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/* eslint-disable */
/* NOTE: This file is auto-generated. Do not edit it directly. */
import crypto from 'node:crypto'
import { PythonBridge, NDArray, ArrayLike, SparseMatrix } from '@/sklearn/types'
/**
Random permutation cross-validator
Yields indices to split data into training and test sets.
Note: contrary to other cross-validation strategies, random splits do not guarantee that all folds will be different, although this is still very likely for sizeable datasets.
Read more in the [User Guide](../cross_validation.html#shufflesplit).
For visualisation of cross-validation behaviour and comparison between common scikit-learn split methods refer to [Visualizing cross-validation behavior in scikit-learn](../../auto_examples/model_selection/plot_cv_indices.html#sphx-glr-auto-examples-model-selection-plot-cv-indices-py)
[Python Reference](https://scikit-learn.org/stable/modules/generated/sklearn.model_selection.ShuffleSplit.html)
*/
export class ShuffleSplit {
id: string
opts: any
_py: PythonBridge
_isInitialized: boolean = false
_isDisposed: boolean = false
constructor(opts?: {
/**
Number of re-shuffling & splitting iterations.
@defaultValue `10`
*/
n_splits?: number
/**
If float, should be between 0.0 and 1.0 and represent the proportion of the dataset to include in the test split. If int, represents the absolute number of test samples. If `undefined`, the value is set to the complement of the train size. If `train\_size` is also `undefined`, it will be set to 0.1.
*/
test_size?: number
/**
If float, should be between 0.0 and 1.0 and represent the proportion of the dataset to include in the train split. If int, represents the absolute number of train samples. If `undefined`, the value is automatically set to the complement of the test size.
*/
train_size?: number
/**
Controls the randomness of the training and testing indices produced. Pass an int for reproducible output across multiple function calls. See [Glossary](../../glossary.html#term-random_state).
*/
random_state?: number
}) {
this.id = `ShuffleSplit${crypto.randomUUID().split('-')[0]}`
this.opts = opts || {}
}
get py(): PythonBridge {
return this._py
}
set py(pythonBridge: PythonBridge) {
this._py = pythonBridge
}
/**
Initializes the underlying Python resources.
This instance is not usable until the `Promise` returned by `init()` resolves.
*/
async init(py: PythonBridge): Promise<void> {
if (this._isDisposed) {
throw new Error('This ShuffleSplit instance has already been disposed')
}
if (this._isInitialized) {
return
}
if (!py) {
throw new Error('ShuffleSplit.init requires a PythonBridge instance')
}
this._py = py
await this._py.ex`
import numpy as np
from sklearn.model_selection import ShuffleSplit
try: bridgeShuffleSplit
except NameError: bridgeShuffleSplit = {}
`
// set up constructor params
await this._py.ex`ctor_ShuffleSplit = {'n_splits': ${
this.opts['n_splits'] ?? undefined
}, 'test_size': ${this.opts['test_size'] ?? undefined}, 'train_size': ${
this.opts['train_size'] ?? undefined
}, 'random_state': ${this.opts['random_state'] ?? undefined}}
ctor_ShuffleSplit = {k: v for k, v in ctor_ShuffleSplit.items() if v is not None}`
await this._py
.ex`bridgeShuffleSplit[${this.id}] = ShuffleSplit(**ctor_ShuffleSplit)`
this._isInitialized = true
}
/**
Disposes of the underlying Python resources.
Once `dispose()` is called, the instance is no longer usable.
*/
async dispose() {
if (this._isDisposed) {
return
}
if (!this._isInitialized) {
return
}
await this._py.ex`del bridgeShuffleSplit[${this.id}]`
this._isDisposed = true
}
/**
Get metadata routing of this object.
Please check [User Guide](../../metadata_routing.html#metadata-routing) on how the routing mechanism works.
*/
async get_metadata_routing(opts: {
/**
A [`MetadataRequest`](sklearn.utils.metadata_routing.MetadataRequest.html#sklearn.utils.metadata_routing.MetadataRequest "sklearn.utils.metadata_routing.MetadataRequest") encapsulating routing information.
*/
routing?: any
}): Promise<any> {
if (this._isDisposed) {
throw new Error('This ShuffleSplit instance has already been disposed')
}
if (!this._isInitialized) {
throw new Error(
'ShuffleSplit must call init() before get_metadata_routing()'
)
}
// set up method params
await this._py.ex`pms_ShuffleSplit_get_metadata_routing = {'routing': ${
opts['routing'] ?? undefined
}}
pms_ShuffleSplit_get_metadata_routing = {k: v for k, v in pms_ShuffleSplit_get_metadata_routing.items() if v is not None}`
// invoke method
await this._py
.ex`res_ShuffleSplit_get_metadata_routing = bridgeShuffleSplit[${this.id}].get_metadata_routing(**pms_ShuffleSplit_get_metadata_routing)`
// convert the result from python to node.js
return this
._py`res_ShuffleSplit_get_metadata_routing.tolist() if hasattr(res_ShuffleSplit_get_metadata_routing, 'tolist') else res_ShuffleSplit_get_metadata_routing`
}
/**
Returns the number of splitting iterations in the cross-validator
*/
async get_n_splits(opts: {
/**
Always ignored, exists for compatibility.
*/
X?: any
/**
Always ignored, exists for compatibility.
*/
y?: any
/**
Always ignored, exists for compatibility.
*/
groups?: any
}): Promise<number> {
if (this._isDisposed) {
throw new Error('This ShuffleSplit instance has already been disposed')
}
if (!this._isInitialized) {
throw new Error('ShuffleSplit must call init() before get_n_splits()')
}
// set up method params
await this._py.ex`pms_ShuffleSplit_get_n_splits = {'X': ${
opts['X'] ?? undefined
}, 'y': ${opts['y'] ?? undefined}, 'groups': ${opts['groups'] ?? undefined}}
pms_ShuffleSplit_get_n_splits = {k: v for k, v in pms_ShuffleSplit_get_n_splits.items() if v is not None}`
// invoke method
await this._py
.ex`res_ShuffleSplit_get_n_splits = bridgeShuffleSplit[${this.id}].get_n_splits(**pms_ShuffleSplit_get_n_splits)`
// convert the result from python to node.js
return this
._py`res_ShuffleSplit_get_n_splits.tolist() if hasattr(res_ShuffleSplit_get_n_splits, 'tolist') else res_ShuffleSplit_get_n_splits`
}
/**
Generate indices to split data into training and test set.
*/
async split(opts: {
/**
Training data, where `n\_samples` is the number of samples and `n\_features` is the number of features.
*/
X?: ArrayLike[]
/**
The target variable for supervised learning problems.
*/
y?: ArrayLike
/**
Group labels for the samples used while splitting the dataset into train/test set.
*/
groups?: ArrayLike
}): Promise<NDArray> {
if (this._isDisposed) {
throw new Error('This ShuffleSplit instance has already been disposed')
}
if (!this._isInitialized) {
throw new Error('ShuffleSplit must call init() before split()')
}
// set up method params
await this._py.ex`pms_ShuffleSplit_split = {'X': np.array(${
opts['X'] ?? undefined
}) if ${opts['X'] !== undefined} else None, 'y': np.array(${
opts['y'] ?? undefined
}) if ${opts['y'] !== undefined} else None, 'groups': np.array(${
opts['groups'] ?? undefined
}) if ${opts['groups'] !== undefined} else None}
pms_ShuffleSplit_split = {k: v for k, v in pms_ShuffleSplit_split.items() if v is not None}`
// invoke method
await this._py
.ex`res_ShuffleSplit_split = bridgeShuffleSplit[${this.id}].split(**pms_ShuffleSplit_split)`
// convert the result from python to node.js
return this
._py`res_ShuffleSplit_split.tolist() if hasattr(res_ShuffleSplit_split, 'tolist') else res_ShuffleSplit_split`
}
}