plt.scatter(data_tr.loc[:, 'cli'], data_tr.loc[:, 'tested_positive.2']) #肉眼分析cli特征与目标之间相关性
时间: 2024-01-15 15:03:05 浏览: 21
根据你提供的代码 `plt.scatter(data_tr.loc[:, 'cli'], data_tr.loc[:, 'tested_positive.2'])`,这段代码将绘制以 `'cli'` 特征为 x 轴,`'tested_positive.2'` 目标变量为 y 轴的散点图。这将帮助你通过肉眼观察来分析 `'cli'` 特征与目标变量之间的相关性。
请确保在运行此代码之前,导入了必要的绘图库(例如 `matplotlib.pyplot`)并设置了合适的图形输出方式(例如在 Jupyter Notebook 中使用 `%matplotlib inline`)。
相关问题
KNN=KNearestNeighbor() KNN.train(X_train, y_train) y_pred = KNN.predict(X_test, k=6) accuracy = np.mean(y_pred == y_test) print('测试集预测准确率:%f' % accuracy) plt.scatter(X_setosa_train[:, 0], X_setosa_train[:, 2], color='red', marker='o', label='setosa_train') plt.scatter(X_versicolor_train[:, 0], X_versicolor_train[:, 2], color='blue', marker='^', label='versicolor_train') plt.scatter(X_virginica_train[:, 0], X_virginica_train[:, 2], color='green', marker='s', label='virginica_train') plt.scatter(X_setosa_test[:, 0], X_setosa_test[:, 2], color='y', marker='o', label='setosa_test') plt.scatter(X_versicolor_test[:, 0], X_versicolor_test[:, 2], color='y', marker='^', label='versicolor_test') plt.scatter(X_virginica_test[:, 0], X_virginica_test[:, 2], color='y', marker='s', label='virginica_test') plt.xlabel('sepal length') plt.ylabel('petal length') plt.legend(loc = 4) plt.show()注释每一行代码
以下是对每一行代码的注释:
```python
# 初始化 KNN 模型
KNN = KNearestNeighbor()
# 使用训练集数据进行模型训练
KNN.train(X_train, y_train)
# 使用测试集数据进行预测,并指定 k=6
y_pred = KNN.predict(X_test, k=6)
# 计算模型的准确率
accuracy = np.mean(y_pred == y_test)
# 绘制散点图,展示不同种类的花的数据分布
plt.scatter(X_setosa_train[:, 0], X_setosa_train[:, 2], color='red', marker='o', label='setosa_train')
plt.scatter(X_versicolor_train[:, 0], X_versicolor_train[:, 2], color='blue', marker='^', label='versicolor_train')
plt.scatter(X_virginica_train[:, 0], X_virginica_train[:, 2], color='green', marker='s', label='virginica_train')
plt.scatter(X_setosa_test[:, 0], X_setosa_test[:, 2], color='y', marker='o', label='setosa_test')
plt.scatter(X_versicolor_test[:, 0], X_versicolor_test[:, 2], color='y', marker='^', label='versicolor_test')
plt.scatter(X_virginica_test[:, 0], X_virginica_test[:, 2], color='y', marker='s', label='virginica_test')
# 设置 x 轴和 y 轴的标签
plt.xlabel('sepal length')
plt.ylabel('petal length')
# 显示图例,并设置其位置
plt.legend(loc = 4)
# 显示图形
plt.show()
```
plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="winter", label=label9) plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="gnuplot2", label=label5) plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="hot", label=label6) plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="autumn", label=label7) plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="terrain", label=label8) plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="Oranges", label=label1) plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="tab20b", label=label2) plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="cool", label=label4) plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="rainbow", label=label3)
您想要绘制多个散点图,每个散点图使用不同的颜色映射。您可以按照以下代码进行绘制:
```python
plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="winter", label=label9)
plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="gnuplot2", label=label5)
plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="hot", label=label6)
plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="autumn", label=label7)
plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="terrain", label=label8)
plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="Oranges", label=label1)
plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="tab20b", label=label2)
plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="cool", label=label4)
plt.scatter(X_pca[:, 0], X_pca[:, 1], marker='o', s=100, c=kpredictions, alpha=1, cmap="rainbow", label=label3)
plt.legend()
plt.show()
```
这段代码会按照您指定的不同颜色映射绘制多个散点图,并在图例中显示相应的标签。