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serengil
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Description

A Lightweight Decision Tree Framework supporting regular algorithms: ID3, C4,5, CART, CHAID and Regression Trees; some advanced techniques: Gradient Boosting (GBDT, GBRT, GBM), Random Forest and Adaboost w/categorical features support for Python

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chefboost

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Chefboost is a lightweight gradient boosting, random forest and adaboost enabled decision tree framework including regular ID3, C4.5, CART, CHAID and regression tree algorithms with categorical features support. You just need to write a few lines of code to build decision trees with Chefboost.

Installation -

Demo

The easiest way to install Chefboost framework is to download it from from PyPI.

pip install chefboost

Usage -

Demo

Basically, you just need to pass the dataset as pandas data frame and tree configurations optionally after importing Chefboost as illustrated below. You just need to put the target label to the right. Besides, chefboost handles both numeric and nominal features and target values in contrast to its alternatives.

from chefboost import Chefboost as chef
import pandas as pd

df = pd.read_csv("dataset/golf.txt") config = {'algorithm': 'C4.5'} model = chef.fit(df, config = config)

Outcomes

Built decision trees are stored as python if statements in the

tests/outputs/rules
directory. A sample of decision rules is demonstrated below.
def findDecision(Outlook, Temperature, Humidity, Wind, Decision):
   if Outlook == 'Rain':
      if Wind == 'Weak':
         return 'Yes'
      elif Wind == 'Strong':
         return 'No'
      else:
         return 'No'
   elif Outlook == 'Sunny':
      if Humidity == 'High':
         return 'No'
      elif Humidity == 'Normal':
         return 'Yes'
      else:
         return 'Yes'
   elif Outlook == 'Overcast':
      return 'Yes'
   else:
      return 'Yes'

Testing for custom instances

Decision rules will be stored in

outputs/rules/
folder when you build decision trees. You can run the built decision tree for new instances as illustrated below.
prediction = chef.predict(model, param = ['Sunny', 'Hot', 'High', 'Weak'])

You can consume built decision trees directly as well. In this way, you can restore already built decision trees and skip learning steps, or apply transfer learning. Loaded trees offer you findDecision method to test for new instances.

moduleName = "outputs/rules/rules" #this will load outputs/rules/rules.py
tree = chef.restoreTree(moduleName)
prediction = tree.findDecision(['Sunny', 'Hot', 'High', 'Weak'])

tests/global-unit-test.py will guide you how to build a different decision trees and make predictions.

Model save and restoration

You can save your trained models. This makes your model ready for transfer learning.

chef.save_model(model, "model.pkl")

In this way, you can use the same model later to just make predictions. This skips the training steps. Restoration requires to store .py and .pkl files under

outputs/rules
.
model = chef.load_model("model.pkl")
prediction = chef.predict(model, ['Sunny',85,85,'Weak'])

Sample configurations

Chefboost supports several decision tree, bagging and boosting algorithms. You just need to pass the configuration to use different algorithms.

Regular Decision Trees

Regular decision tree algorithms find the best feature and the best split point maximizing the information gain. It builds decision trees recursively in child nodes.

config = {'algorithm': 'C4.5'} #Set algorithm to ID3, C4.5, CART, CHAID or Regression
model = chef.fit(df, config)

The following regular decision tree algorithms are wrapped in the library.

| Algorithm | Metric | Tutorial | Demo | | --- | --- | --- | --- | | ID3 | Entropy, Information Gain |

Tutorial
|
Demo
| | C4.5 | Entropy, Gain Ratio |
Tutorial
|
Demo
| | CART | GINI |
Tutorial
|
Demo
| | CHAID | Chi Square |
Tutorial
|
Demo
| | Regression | Standard Deviation |
Tutorial
|
Demo
|

Gradient Boosting

Tutorial
,
Demo

Gradient boosting is basically based on building a tree, and then building another based on the previous one's error. In this way, it boosts results. Predictions will be the sum of each tree'e prediction result.

config = {'enableGBM': True, 'epochs': 7, 'learning_rate': 1, 'max_depth': 5}

Random Forest

Tutorial
,
Demo

Random forest basically splits the data set into several sub data sets and builds different data set for those sub data sets. Predictions will be the average of each tree's prediction result.

config = {'enableRandomForest': True, 'num_of_trees': 5}

Adaboost

Tutorial
,
Demo

Adaboost applies a decision stump instead of a decision tree. This is a weak classifier and aims to get min 50% score. It then increases the unclassified ones and decreases the classified ones. In this way, it aims to have a high score with weak classifiers.

config = {'enableAdaboost': True, 'num_of_weak_classifier': 4}

Feature Importance -

Demo

Decision trees are naturally interpretable and explainable algorithms. A decision is clear made by a single tree. Still we need some extra layers to understand the built models. Besides, random forest and GBM are hard to explain. Herein, feature importance is one of the most common way to see the big picture and understand built models.

df = chef.feature_importance("outputs/rules/rules.py")

| feature | final_importance | | --- | --- | | Humidity | 0.3688 | | Wind | 0.3688 | | Outlook | 0.2624 | | Temperature | 0.0000 |

Paralellism

Chefboost offers parallelism to speed model building up. Branches of a decision tree will be created in parallel in this way. You should set enableParallelism argument to True in the configuration. Its default value is False. It allocates half of the total number of cores in your environment if parallelism is enabled.

if __name__ == '__main__':
   config = {'algorithm': 'C4.5', 'enableParallelism': True, 'num_cores': 2}
   model = chef.fit(df, config)

Notice that you have to locate training step in an if block and it should check you are in main.

E-Learning

This playlist guides you how to use Chefboost step by step for different algorithms. You can also find the tutorials about these core algorithms here.

Besides, you can enroll this online course - Decision Trees for Machine Learning From Scratch and follow the curriculum if you wonder the theory of decision trees and how this framework is developed.

Contributing

Pull requests are welcome. You should run the unit tests locally by running

test/global-unit-test.py
. Please share the unit test result logs in the PR.

Support

There are many ways to support a project - starring⭐️ the GitHub repos is just one.

You can also support this project on Patreon 🙏

Citation

Please cite chefboost in your publications if it helps your research. Here is an example BibTeX entry:

@misc{serengil2019chefboost,
  abstract = {Lightweight Decision Trees Framework supporting Gradient Boosting (GBDT, GBRT, GBM), Random Forest and Adaboost w/categorical features support for Python},
  author={Serengil, Sefik Ilkin},
  title={chefboost},
  url={https://github.com/serengil/chefboost}
  year={2019}
}

Licence

Chefboost is licensed under the MIT License - see

LICENSE
for more details.

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