Metadata-Version: 2.1
Name: Topsis-Navjot-102217046
Version: 1.0.3
Summary: Implementation of Topsis
Author: Navjot
Author-email: nsingh5_be22@thapar.edu
Project-URL: Project Link, https://github.com/NavjotSingh2003/Topsis_Navjot
Keywords: Topsis,Topsis-Navjot-102217046,Navjot,Topsis-Navjot,102217046
Classifier: Development Status :: 3 - Alpha
Classifier: Operating System :: OS Independent
Classifier: Intended Audience :: Developers
Classifier: Programming Language :: Python :: 3
Description-Content-Type: text/markdown
Requires-Dist: pandas
Requires-Dist: numpy

# TOPSIS Implementation

This repository contains a Python implementation of the Technique for Order Preference by Similarity to Ideal Solution (TOPSIS). TOPSIS is a powerful multi-criteria decision-making method that assists in ranking a set of alternatives based on their proximity to the ideal solution.

## Table of Contents

1. [Introduction](#introduction)
2. [Usage](#usage)
3. [Command-line Arguments](#command-line-arguments)
6. [Requirements](#requirements)

## Introduction

The Technique for Order Preference by Similarity to Ideal Solution (TOPSIS) is a well-established method for decision-making. This Python implementation allows you to easily apply TOPSIS to your decision matrix and obtain a ranked list of alternatives.

### Key Concepts:

- Decision Matrix: Represents alternatives and criteria.
- Weights: Assign importance to criteria.
- Impacts: Indicate whether higher or lower values are favorable.
- Normalization: Ensures all criteria are on a similar scale.
- Ideal and Worst Solutions: Represent best and worst possible outcomes.
- Similarity and Dissimilarity Measures: Calculate proximity to ideal and dissimilarity to worst.
- TOPSIS Score: Combines similarity and dissimilarity measures.
- Ranking: Alternatives are ranked based on TOPSIS scores.

## Usage

1. Ensure you have Python installed on your system.

2. Clone this repository to your local machine:

   ```bash
   git clone https://github.com/dhruvRajoria/Topsis_Dhruv

3. Navigate to the project directory:

      ```bash
   git clone https://github.com/dhruvRajoria/Topsis_Dhruv

   
4. Run the TOPSIS script with the required command-line arguments:

   
      python 102217050.py 102217050-data.csv "1,1,1,2" "+,+,-,+" result.csv



5. The TOPSIS analysis will be performed, and the result will be saved to the specified CSV file.

## Command-line Arguments

- `<InputDataFile>`: Path to the input CSV file containing the decision matrix.

- `<Weights>`: Comma-separated weights for each criterion.

- `<Impacts>`: Comma-separated impact signs for each criterion (use '+' for beneficial criteria and '-' for non-beneficial criteria).

- `<ResultFileName>`: Desired name for the output CSV result file.



## Requirements

- Python 3.x
- pandas
- numpy











   
