# HighUtilityPatternMining Class for Mining High Utility Patterns
#
# **Importing and Using the HighUtilityPatternMining Class in a Python Program**
#
# from geoanalytics.patternMining import HighUtilityPatternMining
#
# miner = HighUtilityPatternMining("data/input.txt")
#
# miner.run(minUtil=50)
#
__copyright__ = """
Copyright (C) 2022 Rage Uday Kiran
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
"""
import pandas as pd
from PAMI.extras.dbStats.UtilityDatabase import UtilityDatabase
from PAMI.highUtilityPattern.basic import EFIM
from .abstract import PatternMiner
[docs]
class HighUtilityPatternMining(PatternMiner):
"""
**About this algorithm**
:**Description**:
This module implements the **EFIM algorithm** for mining **high utility patterns**
from utility transactional databases. Unlike traditional frequent pattern mining, this method
focuses solely on the utility aspect, discovering itemsets with utility above the specified threshold.
:**Parameters**:
- `inputFile` (*str*): Path to the input utility transactional database file.
:**Attributes**:
- **inputFile** (*str*): The utility transactional input file provided during object initialization.
- **miner** (*EFIM*): Instance of the EFIM algorithm from the PAMI library.
**Execution methods**
**Calling from a Python program**
.. code-block:: python
from geoanalytics.patternMining import HighUtilityPatternMining
miner = HighUtilityPatternMining("data/input.txt")
miner.run(minUtil=50)
**Credits**
Written by M. Charan Teja, under the guidance of Professor Rage Uday Kiran.
"""
def _create_database(self):
"""
Internal method to initialize the utility transactional database.
Returns:
UtilityDatabase: Utility transactional database object from the PAMI library.
"""
return UtilityDatabase(self.inputFile)
[docs]
def run(self, minUtil: int):
"""
Executes the EFIM algorithm to mine high utility patterns.
Args:
minUtil (int): Minimum utility threshold to identify high utility patterns.
Output:
Prints the discovered high utility patterns to the console.
"""
self.miner = EFIM.EFIM(iFile=self.inputFile, minUtil=minUtil)
self.miner.mine()
self.miner.printResults()