sklearn.datasets.load_iris

sklearn.datasets.load_iris(*, return_X_y=False, as_frame=False)[source]

Load and return the iris dataset (classification).

The iris dataset is a classic and very easy multi-class classification dataset.

Classes

3

Samples per class

50

Samples total

150

Dimensionality

4

Features

real, positive

Read more in the User Guide.

Parameters:
return_X_ybool, default=False

If True, returns (data, target) instead of a Bunch object. See below for more information about the data and target object.

New in version 0.18.

as_framebool, default=False

If True, the data is a pandas DataFrame including columns with appropriate dtypes (numeric). The target is a pandas DataFrame or Series depending on the number of target columns. If return_X_y is True, then (data, target) will be pandas DataFrames or Series as described below.

New in version 0.23.

Returns:
dataBunch

Dictionary-like object, with the following attributes.

data{ndarray, dataframe} of shape (150, 4)

The data matrix. If as_frame=True, data will be a pandas DataFrame.

target: {ndarray, Series} of shape (150,)

The classification target. If as_frame=True, target will be a pandas Series.

feature_names: list

The names of the dataset columns.

target_names: list

The names of target classes.

frame: DataFrame of shape (150, 5)

Only present when as_frame=True. DataFrame with data and target.

New in version 0.23.

DESCR: str

The full description of the dataset.

filename: str

The path to the location of the data.

New in version 0.20.

(data, target)tuple if return_X_y is True

A tuple of two ndarray. The first containing a 2D array of shape (n_samples, n_features) with each row representing one sample and each column representing the features. The second ndarray of shape (n_samples,) containing the target samples.

New in version 0.18.

Notes

Changed in version 0.20: Fixed two wrong data points according to Fisher’s paper. The new version is the same as in R, but not as in the UCI Machine Learning Repository.

Examples

Let’s say you are interested in the samples 10, 25, and 50, and want to know their class name.

>>> from sklearn.datasets import load_iris
>>> data = load_iris()
>>> data.target[[10, 25, 50]]
array([0, 0, 1])
>>> list(data.target_names)
['setosa', 'versicolor', 'virginica']

See The Iris Dataset for a more detailed example of how to work with the iris dataset.

Examples using sklearn.datasets.load_iris

Release Highlights for scikit-learn 1.2

Release Highlights for scikit-learn 1.2

Release Highlights for scikit-learn 0.24

Release Highlights for scikit-learn 0.24

Release Highlights for scikit-learn 0.22

Release Highlights for scikit-learn 0.22

Plot classification probability

Plot classification probability

K-means Clustering

K-means Clustering

Plot Hierarchical Clustering Dendrogram

Plot Hierarchical Clustering Dendrogram

The Iris Dataset

The Iris Dataset

Plot the decision surface of decision trees trained on the iris dataset

Plot the decision surface of decision trees trained on the iris dataset

Understanding the decision tree structure

Understanding the decision tree structure

Comparison of LDA and PCA 2D projection of Iris dataset

Comparison of LDA and PCA 2D projection of Iris dataset

Factor Analysis (with rotation) to visualize patterns

Factor Analysis (with rotation) to visualize patterns

Incremental PCA

Incremental PCA

PCA example with Iris Data-set

PCA example with Iris Data-set

Early stopping of Gradient Boosting

Early stopping of Gradient Boosting

Plot the decision boundaries of a VotingClassifier

Plot the decision boundaries of a VotingClassifier

Plot the decision surfaces of ensembles of trees on the iris dataset

Plot the decision surfaces of ensembles of trees on the iris dataset

Univariate Feature Selection

Univariate Feature Selection

GMM covariances

GMM covariances

Gaussian process classification (GPC) on iris dataset

Gaussian process classification (GPC) on iris dataset

Logistic Regression 3-class Classifier

Logistic Regression 3-class Classifier

Plot multi-class SGD on the iris dataset

Plot multi-class SGD on the iris dataset

Regularization path of L1- Logistic Regression

Regularization path of L1- Logistic Regression

Introducing the set_output API

Introducing the set_output API

Confusion matrix

Confusion matrix

Multiclass Receiver Operating Characteristic (ROC)

Multiclass Receiver Operating Characteristic (ROC)

Nested versus non-nested cross-validation

Nested versus non-nested cross-validation

Precision-Recall

Precision-Recall

Receiver Operating Characteristic (ROC) with cross validation

Receiver Operating Characteristic (ROC) with cross validation

Test with permutations the significance of a classification score

Test with permutations the significance of a classification score

Comparing Nearest Neighbors with and without Neighborhood Components Analysis

Comparing Nearest Neighbors with and without Neighborhood Components Analysis

Nearest Centroid Classification

Nearest Centroid Classification

Nearest Neighbors Classification

Nearest Neighbors Classification

Compare Stochastic learning strategies for MLPClassifier

Compare Stochastic learning strategies for MLPClassifier

Concatenating multiple feature extraction methods

Concatenating multiple feature extraction methods

Decision boundary of semi-supervised classifiers versus SVM on the Iris dataset

Decision boundary of semi-supervised classifiers versus SVM on the Iris dataset

Plot different SVM classifiers in the iris dataset

Plot different SVM classifiers in the iris dataset

RBF SVM parameters

RBF SVM parameters

SVM with custom kernel

SVM with custom kernel

SVM-Anova: SVM with univariate feature selection

SVM-Anova: SVM with univariate feature selection

SVM Exercise

SVM Exercise