使用带sklearn DecisionTreeClassifi的听写矢量器

import pandas as pd from sklearn import tree for col in set(train.columns): if train[col].dtype == np.dtype('object'): s = np.unique(train[col].values) mapping = pd.Series([x[0] for x in enumerate(s)], index = s) train_fea = train_fea.join(train[col].map(mapping)) else: train_fea = train_fea.join(train[col]) dt = tree.DecisionTreeClassifier(min_samples_split=3, compute_importances=True,max_depth=5) dt.fit(train_fea, labels)

from sklearn.feature_extraction import DictVectorizer vec = DictVectorizer(sparse=False) train_fea = vec.fit_transform([dict(enumerate(sample)) for sample in train]) dt = tree.DecisionTreeClassifier(min_samples_split=3, compute_importances=True,max_depth=5) dt.fit(train_fea, labels)

import pandas as pd import numpy as np from sklearn import tree ################################## # working example train = pd.DataFrame({'a' : ['a', 'b', 'a'], 'd' : ['e', 'e', 'f'], 'b' : [0, 1, 1], 'c' : ['b', 'c', 'b']}) columns = set(train.columns) columns.remove('b') train_fea = train[['b']] for col in columns: if train[col].dtype == np.dtype('object'): s = np.unique(train[col].values) mapping = pd.Series([x[0] for x in enumerate(s)], index = s) train_fea = train_fea.join(train[col].map(mapping)) else: train_fea = train_fea.join(train[col]) dt = tree.DecisionTreeClassifier(min_samples_split=3, compute_importances=True,max_depth=5) dt.fit(train_fea, train['c']) ########################################## # example with DictVectorizer and error from sklearn.feature_extraction import DictVectorizer vec = DictVectorizer(sparse=False) train_fea = vec.fit_transform([dict(enumerate(sample)) for sample in train]) dt = tree.DecisionTreeClassifier(min_samples_split=3, compute_importances=True,max_depth=5) dt.fit(train_fea, train['c'])

import pandas as pd from sklearn import tree from sklearn.feature_extraction import DictVectorizer from sklearn import preprocessing train = pd.DataFrame({'a' : ['a', 'b', 'a'], 'd' : ['e', 'x', 'f'], 'b' : [0, 1, 1], 'c' : ['b', 'c', 'b']}) # encode labels labels = train[['c']] le = preprocessing.LabelEncoder() labels_fea = le.fit_transform(labels) # vectorize training data del train['c'] train_as_dicts = [dict(r.iteritems()) for _, r in train.iterrows()] train_fea = DictVectorizer(sparse=False).fit_transform(train_as_dicts) # use decision tree dt = tree.DecisionTreeClassifier() dt.fit(train_fea, labels_fea) # transform result predictions = le.inverse_transform(dt.predict(train_fea).astype('I')) predictions_as_dataframe = train.join(pd.DataFrame({"Prediction": predictions})) print predictions_as_dataframe

2条回答

网友

1楼 · 编辑于 2024-10-06 12:23:27

vec.fit_transform返回稀疏数组。而IIRC DecisionTreeClassifier不能很好地处理这个问题。

在将其传递给DecisionTreeClassifier之前，请尝试train_fea = train_fea.toarray()。

网友

2楼 · 编辑于 2024-10-06 12:23:27

你列举样本的方式没有意义。把它们打印出来就可以了：

>>> import pandas as pd
>>> train = pd.DataFrame({'a' : ['a', 'b', 'a'], 'd' : ['e', 'e', 'f'],
...                       'b' : [0, 1, 1], 'c' : ['b', 'c', 'b']})
>>> samples = [dict(enumerate(sample)) for sample in train]
>>> samples
[{0: 'a'}, {0: 'b'}, {0: 'c'}, {0: 'd'}]

现在这是一个语法上的单词列表，但与你所期望的完全不同。请尝试执行以下操作：

>>> train_as_dicts = [dict(r.iteritems()) for _, r in train.iterrows()]
>>> train_as_dicts
[{'a': 'a', 'c': 'b', 'b': 0, 'd': 'e'},
 {'a': 'b', 'c': 'c', 'b': 1, 'd': 'e'},
 {'a': 'a', 'c': 'b', 'b': 1, 'd': 'f'}]

这看起来好多了，现在让我们试着把这些指令矢量化：

>>> from sklearn.feature_extraction import DictVectorizer

>>> vectorizer = DictVectorizer()
>>> vectorized_sparse = vectorizer.fit_transform(train_as_dicts)
>>> vectorized_sparse
<3x7 sparse matrix of type '<type 'numpy.float64'>'
    with 12 stored elements in Compressed Sparse Row format>

>>> vectorized_array = vectorized_sparse.toarray()
>>> vectorized_array
array([[ 1.,  0.,  0.,  1.,  0.,  1.,  0.],
       [ 0.,  1.,  1.,  0.,  1.,  1.,  0.],
       [ 1.,  0.,  1.,  1.,  0.,  0.,  1.]])

要了解每一列的含义，请询问矢量器：

>>> vectorizer.get_feature_names()
['a=a', 'a=b', 'b', 'c=b', 'c=c', 'd=e', 'd=f']

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