如何在Python中绘制ROC曲线
use*_*447 60 python statistics plot matplotlib roc
我试图绘制一条ROC曲线来评估我使用逻辑回归包在Python中开发的预测模型的准确性.我计算了真阳性率和假阳性率; 但是,我无法弄清楚如何正确地使用这些matplotlib并计算AUC值.我怎么能这样做?
uni*_*ino 70
假设您model是一个sklearn预测器,您可以尝试以下两种方法:
import sklearn.metrics as metrics
# calculate the fpr and tpr for all thresholds of the classification
probs = model.predict_proba(X_test)
preds = probs[:,1]
fpr, tpr, threshold = metrics.roc_curve(y_test, preds)
roc_auc = metrics.auc(fpr, tpr)
# method I: plt
import matplotlib.pyplot as plt
plt.title('Receiver Operating Characteristic')
plt.plot(fpr, tpr, 'b', label = 'AUC = %0.2f' % roc_auc)
plt.legend(loc = 'lower right')
plt.plot([0, 1], [0, 1],'r--')
plt.xlim([0, 1])
plt.ylim([0, 1])
plt.ylabel('True Positive Rate')
plt.xlabel('False Positive Rate')
plt.show()
# method II: ggplot
from ggplot import *
df = pd.DataFrame(dict(fpr = fpr, tpr = tpr))
ggplot(df, aes(x = 'fpr', y = 'tpr')) + geom_line() + geom_abline(linetype = 'dashed')
或尝试
ggplot(df, aes(x = 'fpr', ymin = 0, ymax = 'tpr')) + geom_line(aes(y = 'tpr')) + geom_area(alpha = 0.2) + ggtitle("ROC Curve w/ AUC = %s" % str(roc_auc))
Rei*_*ano 61
在给定一组地面实况标签和预测概率的情况下,这是绘制ROC曲线的最简单方法.最好的部分是,它绘制了所有类的ROC曲线,因此您也可以获得多个整齐的曲线
import scikitplot as skplt
import matplotlib.pyplot as plt
y_true = # ground truth labels
y_probas = # predicted probabilities generated by sklearn classifier
skplt.metrics.plot_roc_curve(y_true, y_probas)
plt.show()
这是plot_roc_curve生成的样本曲线.我使用了来自scikit-learn的样本数据集,因此有10个类.请注意,为每个类绘制了一条ROC曲线.
免责声明:请注意,这使用我构建的scikit-plot库.
- 我在尝试使用包时遇到问题.每当我试图提供曲线roc曲线时,它告诉我我有"太多指数".我正在喂我的y_test,并且正在为它做准备.我能够做出我的预测.但由于这个错误,不能得到阴谋.是由于我正在运行的python版本? (10认同)
- 如何计算`y_true ,y_probas `? (3认同)
- Reii Nakano - 你是天使伪装的天才.你结识了我的一天.这个包很简单但是非常有效.你对我充满敬意.关于您上面的代码段,请注意一下; 最后一行不读它:`skplt.metrics.plot_roc_curve(y_true,y_probas)`?十分感谢你. (3认同)
- 我不得不将我的y_pred数据重新整形为大小为Nx1而不仅仅是一个列表:y_pred.reshape(len(y_pred),1).现在我得到错误'IndexError:索引1超出了轴1的大小为1',但绘制了一个数字,我猜是因为代码需要一个二进制分类器来提供每个类概率的Nx2向量 (3认同)
eba*_*arr 33
这里的问题根本不清楚,但是如果你有一个数组true_positive_rate和一个数组false_positive_rate,那么绘制ROC曲线并得到AUC就像这样简单:
import matplotlib.pyplot as plt
import numpy as np
x = # false_positive_rate
y = # true_positive_rate
# This is the ROC curve
plt.plot(x,y)
plt.show()
# This is the AUC
auc = np.trapz(y,x)
- 如果代码中有FPR,TPR oneliners,那么这个答案会好得多. (3认同)
- fpr,tpr,阈值= metrics.roc_curve(y_test,preds) (3认同)
aja*_*esh 27
AUC曲线使用matplotlib进行二进制分类
from sklearn import svm, datasets
from sklearn import metrics
from sklearn.linear_model import LogisticRegression
from sklearn.model_selection import train_test_split
from sklearn.datasets import load_breast_cancer
import matplotlib.pyplot as plt
加载乳腺癌数据集
breast_cancer = load_breast_cancer()
X = breast_cancer.data
y = breast_cancer.target
拆分数据集
X_train, X_test, y_train, y_test = train_test_split(X,y,test_size=0.33, random_state=44)
模型
clf = LogisticRegression(penalty='l2', C=0.1)
clf.fit(X_train, y_train)
y_pred = clf.predict(X_test)
准确性
print("Accuracy", metrics.accuracy_score(y_test, y_pred))
AUC曲线
y_pred_proba = clf.predict_proba(X_test)[::,1]
fpr, tpr, _ = metrics.roc_curve(y_test, y_pred_proba)
auc = metrics.roc_auc_score(y_test, y_pred_proba)
plt.plot(fpr,tpr,label="data 1, auc="+str(auc))
plt.legend(loc=4)
plt.show()
小智 12
这是一个python代码:
import matplotlib.pyplot as plt
import numpy as np
score = np.array([0.9, 0.8, 0.7, 0.6, 0.55, 0.54, 0.53, 0.52, 0.51, 0.505, 0.4, 0.39, 0.38, 0.37, 0.36, 0.35, 0.34, 0.33, 0.30, 0.1])
y = np.array([1,1,0, 1, 1, 1, 0, 0, 1, 0, 1,0, 1, 0, 0, 0, 1 , 0, 1, 0])
# false positive rate
fpr = []
# true positive rate
tpr = []
# Iterate thresholds from 0.0, 0.01, ... 1.0
thresholds = np.arange(0.0, 1.01, .01)
# get number of positive and negative examples in the dataset
P = sum(y)
N = len(y) - P
# iterate through all thresholds and determine fraction of true positives
# and false positives found at this threshold
for thresh in thresholds:
FP=0
TP=0
for i in range(len(score)):
if (score[i] > thresh):
if y[i] == 1:
TP = TP + 1
if y[i] == 0:
FP = FP + 1
fpr.append(FP/float(N))
tpr.append(TP/float(P))
plt.scatter(fpr, tpr)
plt.show()
更多参考
小智 8
有一个名为metriculous 的库可以为你做到这一点:
$ pip install metriculous
让我们首先模拟一些数据,这通常来自测试数据集和模型:
import numpy as np
def normalize(array2d: np.ndarray) -> np.ndarray:
return array2d / array2d.sum(axis=1, keepdims=True)
class_names = ["Cat", "Dog", "Pig"]
num_classes = len(class_names)
num_samples = 500
# Mock ground truth
ground_truth = np.random.choice(range(num_classes), size=num_samples, p=[0.5, 0.4, 0.1])
# Mock model predictions
perfect_model = np.eye(num_classes)[ground_truth]
noisy_model = normalize(
perfect_model + 2 * np.random.random((num_samples, num_classes))
)
random_model = normalize(np.random.random((num_samples, num_classes)))
现在我们可以使用metriculous生成一个包含各种指标和图表的表格,包括 ROC 曲线:
import metriculous
metriculous.compare_classifiers(
ground_truth=ground_truth,
model_predictions=[perfect_model, noisy_model, random_model],
model_names=["Perfect Model", "Noisy Model", "Random Model"],
class_names=class_names,
one_vs_all_figures=True, # This line is important to include ROC curves in the output
).save_html("model_comparison.html").display()
输出中的 ROC 曲线:
这些图是可缩放和可拖动的,当您将鼠标悬停在图上时,您可以获得更多详细信息:
基于来自 stackoverflow、scikit-learn 文档和其他一些文档的多条评论,我制作了一个 python 包,以一种非常简单的方式绘制 ROC 曲线(和其他指标)。
安装包:(pip install plot-metric更多信息在帖子末尾)
绘制 ROC 曲线(示例来自文档):
二元分类
让我们加载一个简单的数据集并制作一个训练和测试集:
from sklearn.datasets import make_classification
from sklearn.model_selection import train_test_split
X, y = make_classification(n_samples=1000, n_classes=2, weights=[1,1], random_state=1)
X_train, X_test, y_train, y_test = train_test_split(X, y, test_size=0.5, random_state=2)
训练分类器并预测测试集:
from sklearn.ensemble import RandomForestClassifier
clf = RandomForestClassifier(n_estimators=50, random_state=23)
model = clf.fit(X_train, y_train)
# Use predict_proba to predict probability of the class
y_pred = clf.predict_proba(X_test)[:,1]
您现在可以使用 plot_metric 来绘制 ROC 曲线:
from plot_metric.functions import BinaryClassification
# Visualisation with plot_metric
bc = BinaryClassification(y_test, y_pred, labels=["Class 1", "Class 2"])
# Figures
plt.figure(figsize=(5,5))
bc.plot_roc_curve()
plt.show()
结果 :
您可以在 github 和软件包文档中找到更多示例:
- Github:https : //github.com/yohann84L/plot_metric
- 文档:https : //plot-metric.readthedocs.io/en/latest/
之前的答案假设您确实自己计算了TP/Sens.手动执行此操作是一个坏主意,通过计算很容易出错,而是使用库函数来完成所有这些操作.
scikit_lean中的plot_roc函数正是您所需要的:http://scikit-learn.org/stable/auto_examples/model_selection/plot_roc.html
代码的基本部分是:
for i in range(n_classes):
fpr[i], tpr[i], _ = roc_curve(y_test[:, i], y_score[:, i])
roc_auc[i] = auc(fpr[i], tpr[i])
from sklearn import metrics
import numpy as np
import matplotlib.pyplot as plt
y_true = # true labels
y_probas = # predicted results
fpr, tpr, thresholds = metrics.roc_curve(y_true, y_probas, pos_label=0)
# Print ROC curve
plt.plot(fpr,tpr)
plt.show()
# Print AUC
auc = np.trapz(tpr,fpr)
print('AUC:', auc)
- 如何计算`y_true = #trical labels,y_probas = #prepected results`? (2认同)
- 如果您有基本事实,则y_true是您的基本事实(标签),y_probas是模型的预测结果 (2认同)
小智 5
我已经制作了一个简单的函数,包含在 ROC 曲线的包中。我刚刚开始练习机器学习,所以如果这段代码有任何问题,请告诉我!
查看 github readme 文件了解更多详细信息!:)
https://github.com/bc123456/ROC
from sklearn.metrics import confusion_matrix, accuracy_score, roc_auc_score, roc_curve
import matplotlib.pyplot as plt
import seaborn as sns
import numpy as np
def plot_ROC(y_train_true, y_train_prob, y_test_true, y_test_prob):
'''
a funciton to plot the ROC curve for train labels and test labels.
Use the best threshold found in train set to classify items in test set.
'''
fpr_train, tpr_train, thresholds_train = roc_curve(y_train_true, y_train_prob, pos_label =True)
sum_sensitivity_specificity_train = tpr_train + (1-fpr_train)
best_threshold_id_train = np.argmax(sum_sensitivity_specificity_train)
best_threshold = thresholds_train[best_threshold_id_train]
best_fpr_train = fpr_train[best_threshold_id_train]
best_tpr_train = tpr_train[best_threshold_id_train]
y_train = y_train_prob > best_threshold
cm_train = confusion_matrix(y_train_true, y_train)
acc_train = accuracy_score(y_train_true, y_train)
auc_train = roc_auc_score(y_train_true, y_train)
print 'Train Accuracy: %s ' %acc_train
print 'Train AUC: %s ' %auc_train
print 'Train Confusion Matrix:'
print cm_train
fig = plt.figure(figsize=(10,5))
ax = fig.add_subplot(121)
curve1 = ax.plot(fpr_train, tpr_train)
curve2 = ax.plot([0, 1], [0, 1], color='navy', linestyle='--')
dot = ax.plot(best_fpr_train, best_tpr_train, marker='o', color='black')
ax.text(best_fpr_train, best_tpr_train, s = '(%.3f,%.3f)' %(best_fpr_train, best_tpr_train))
plt.xlim([0.0, 1.0])
plt.ylim([0.0, 1.0])
plt.xlabel('False Positive Rate')
plt.ylabel('True Positive Rate')
plt.title('ROC curve (Train), AUC = %.4f'%auc_train)
fpr_test, tpr_test, thresholds_test = roc_curve(y_test_true, y_test_prob, pos_label =True)
y_test = y_test_prob > best_threshold
cm_test = confusion_matrix(y_test_true, y_test)
acc_test = accuracy_score(y_test_true, y_test)
auc_test = roc_auc_score(y_test_true, y_test)
print 'Test Accuracy: %s ' %acc_test
print 'Test AUC: %s ' %auc_test
print 'Test Confusion Matrix:'
print cm_test
tpr_score = float(cm_test[1][1])/(cm_test[1][1] + cm_test[1][0])
fpr_score = float(cm_test[0][1])/(cm_test[0][0]+ cm_test[0][1])
ax2 = fig.add_subplot(122)
curve1 = ax2.plot(fpr_test, tpr_test)
curve2 = ax2.plot([0, 1], [0, 1], color='navy', linestyle='--')
dot = ax2.plot(fpr_score, tpr_score, marker='o', color='black')
ax2.text(fpr_score, tpr_score, s = '(%.3f,%.3f)' %(fpr_score, tpr_score))
plt.xlim([0.0, 1.0])
plt.ylim([0.0, 1.0])
plt.xlabel('False Positive Rate')
plt.ylabel('True Positive Rate')
plt.title('ROC curve (Test), AUC = %.4f'%auc_test)
plt.savefig('ROC', dpi = 500)
plt.show()
return best_threshold
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