Metadata-Version: 2.1
Name: predictit
Version: 1.25
Summary: Library/framework for making predictions.
Home-page: https://github.com/Malachov/predictit
Author: Daniel Malachov
Author-email: malachovd@seznam.cz
License: mit
Description: # predictit
        Library/framework for making predictions. Choose best of 20 models (ARIMA, regressions, LSTM...) from libraries like statsmodels, sci-kit, tensorflow and some own models. Library also automatically preprocess data and chose optimal parameters of predictions.
        
        ## Output
        Most common output is plotly interactive graph, numpy array of results or deploying to database.
        
        <p align="center">
        <img src="https://raw.githubusercontent.com/Malachov/predictit/master/output_example.png" width="620" alt="Table of results"/>
        </p>
        
        It will also print the table of models errors.
        
        <p align="center">
        <img src="https://raw.githubusercontent.com/Malachov/predictit/master/table_of_results.png" width="700" alt="Table of results"/>
        </p>
        
        ## Oficial repo and documentation links
        
        [Repo on github](https://github.com/Malachov/predictit)
        
        [Official readthedocs documentation](https://predictit.readthedocs.io)
        
        ## Installation
            pip install predictit
        
        Sometime you can have issues with installing some libraries from requirements (e.g. numpy because not BLAS / LAPACK). There are also two libraries - Tensorflow and pyodbc not in requirements, because not necessary, but troublesome. If library not installed with pip, check which library don't work, install manually with stackoverflow and repeat...
        
        ## How to
        Software can be used in three ways. As a python library or with command line arguments or as normal python scripts.
        Main function is predict in main.py script.
        There is also predict_multiple_columns if you want to predict more at once (columns or time frequentions) and also compare_models function that evaluate test data and can tell you which models are best. Then you can use only such a models. It's recommended also to use arguments optimization just once, change initial parameters in config and turn optimization off for performance reasons.
        
        Command line arguments as well as functions arguments overwrite default config.py values. Not all the config options are in function arguments or command line arguments.
        
        ### Simple example of predict function with Pypi and function arguments
        ```Python
        import predictit
        import numpy as np
        
        predictions = predictit.main.predict(np.random.randn(1, 100), predicts=3, plot=1)
        ```
        
        ### Simple example of using main.py script
        Open config.py (only script you need to edit (very simple)), do the setup. Mainly used_function and data or data_source and path. Then just run main.py.
        
        ### Simple example of using command line arguments
        Run code below in terminal in predictit folder and change csv path (test data are not included in library because of size!). Use main.py --help for more parameters info.
        
        ```
        python main.py --function predict --data_source 'csv' --csv_path 'test_data/daily-minimum-temperatures.csv' --predicted_column 1
        ```
        
        ### Example of using as a library as a pro with editting config.py
        ```Python
        
        import predictit
        
        config = predictit.config.config
        
        config.update({
            'data_source': 'csv',  # Data source. ('csv' or 'sql' or 'test')
            'csv_full_path': r'C:\Users\truton\ownCloud\Github\predictit_library\predictit\test_data\5000 Sales Records.csv',  # Full CSV path with suffix
            'predicted_column': 'Temp',  # Column name that we want to predict
        
            'predicts': 7,  # Number of predicted values - 7 by default
            'datalength': 1000,  # The length of the data used for prediction
            'compareit': 6,  # Visualize 6 best models
            'repeatit': 50,  # Repeat calculation times on shifted data to evaluate error criterion
            'other_columns': 0,  # Whether use other columns or not
            'debug': 1,  # Whether print details and warnings
        
            # Chose models that will be computed
            'used_models': {
                "AR (Autoregression)": predictit.models.statsmodels_autoregressive,
        
                "ARIMA (Autoregression integrated moving average)": predictit.models.statsmodels_autoregressive,
        
                "Autoregressive Linear neural unit": predictit.models.autoreg_LNU,
                "Conjugate gradient": predictit.models.conjugate_gradient,
        
                "Sklearn regression": predictit.models.sklearn_regression,
            },
        
            # Define parameters of models
        
            'models_parameters': {
        
                'AR (Autoregression)': {'model': 'ar', 'method': 'cmle', 'ic': 'aic', 'trend': 'nc', 'solver': 'lbfgs'},
                'ARIMA (Autoregression integrated moving average)': {'model': 'arima', 'p': 3, 'd': 0, 'q': 0, 'method': 'css', 'ic': 'aic', 'trend': 'nc', 'solver': 'nm'},
        
                'Autoregressive Linear neural unit': {'mi_multiple': 1, 'mi_linspace': (1e-7, 1e-2, 200), 'epochs': 100, 'w_predict': 0, 'minormit': 0},
                'Conjugate gradient': {'epochs': 200},
        
                'Bayes ridge regression': {'regressor': 'bayesianridge', 'n_iter': 300, 'alpha_1': 1.e-6, 'alpha_2': 1.e-6, 'lambda_1': 1.e-6, 'lambda_2': 1.e-6},
                'Sklearn regression': {'regressor': 'linear', 'alpha': 0.0001, 'n_iter': 100, 'epsilon': 1.35, 'alphas': [0.1, 0.5, 1], 'gcv_mode': 'auto', 'solver': 'auto', 'alpha_1': 1.e-6, 'alpha_2': 1.e-6, 'lambda_1': 1.e-6, 'lambda_2': 1.e-6, 'n_hidden': 20, 'rbf_width': 0, 'activation_func': 'selu'},
            }
        
        })
        
        predictions = predictit.main.predict()
        ```
        
        Or if you downloaded it from github and not via pypi, just edit config as you need and run main.py
        
Platform: any
Classifier: Programming Language :: Python
Classifier: Development Status :: 3 - Alpha
Classifier: Natural Language :: English
Classifier: Environment :: Other Environment
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Classifier: Topic :: Scientific/Engineering :: Artificial Intelligence
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Classifier: Topic :: Software Development :: Libraries :: Application Frameworks
Classifier: Intended Audience :: Science/Research
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: Education
Description-Content-Type: text/markdown
