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Indian Institute of Technology, Kharagpur – 721302
University program
Department of Chemical Engineering | Minor in Computer Science and Engineering
Expected graduation
April, 2025
Short biography
Education
Department of Chemical Engineering | Minor in Computer Science and Engineering
Indian Institute of Technology, Kharagpur – 721302
Technical Competencies
Programming Languages: Proficient in C, C++, Python, HTML, CSS, JavaScript, TypeScript, MySQL, and PostgreSQL.
Cloud Platforms: Experienced with Google Cloud Platform (GCP) and Azure.
Tools: Skilled in using Autocad, MatLab, Arduino IDE, Google Colab, VSCode, Jupyter Notebook, Git, Github, Backlog, Adobe Illustrator, Adobe Photoshop, and Figma.
Libraries & Frameworks: Familiar with C++ STL, React, Angular, Node.js, Next.js, Express.js, Flask, Bootstrap, Swagger, Firebase, NumPy, Pandas, Matplotlib, Ggplot2, Scikit-learn, Seaborn, OpenCV, TensorFlow, PyTorch, Keras, and TorchIO.
UX Design: Proficient in wireframing, prototyping, user research, user testing, interaction design, and information architecture.
JavaScript: Skilled in DOM manipulation, React.js, Angular, Node.js, Express.js, and TypeScript.
AI Recommender Systems: Experienced in machine learning algorithms, content-based filtering, recommendation engines, collaborative filtering, data analysis, and Python libraries such as NumPy, Pandas, Scikit-learn, TensorFlow, and PyTorch.
Experiences
Open Source Contributions: Contributed to projects such as Stdlib and SunbirdEd-mobile-app, focusing on documentation enhancement and feature development.
Datsol Solutions Internship: Worked on JavaScript development and AI recommender systems, using React.js and Node.js for frontend and backend tasks.
Contribution Highlights:
SunbirdEd-mobile-app PR #3492:
Introduced feature for discovering tutors/mentors on Sunbird App.
Implemented backend API endpoints for mentor search.
Developed frontend functionality to fetch and display tutors based on criteria.
Enhanced tutor profiles with detailed information and availability slots.
Successfully integrated backend API with frontend interface.
High-Performance Numerical Computing: Leveraging Python, TensorFlow, NumPy, C/C++, and other libraries to create efficient numerical algorithms and simulations.
Machine Learning: Building recommendation systems, delving into the depths of machine learning algorithms, and conducting insightful data analysis.
Frontend Development: Designing user-friendly interfaces, maximizing online performance, and producing compelling user experiences using React, Angular, and JavaScript.
Visual Studio Code (VSCode) - My Preferred Code Editor
I use Visual Studio Code (VSCode) due to its seamless integration with a plethora of tools and extensions, which significantly enhance productivity and streamline my workflow.
Reasons for Using VSCode:
Extensive Integration: VSCode effortlessly connects with numerous tools and extensions, allowing me to tailor my development environment to suit my specific needs.
Complete Programming Environment: It provides a comprehensive programming environment that fulfills all my requirements, ranging from its intuitive user interface to its robust debugging capabilities and extensive language support.
User-Friendly Interface: The user-friendly interface of VSCode makes it easy to navigate and customize according to my preferences, enhancing my overall coding experience.
Strong Debugging Features: VSCode offers powerful debugging features that facilitate the identification and resolution of code errors and issues, enabling smoother development cycles.
Broad Language Support: It supports a wide range of programming languages, enabling me to work on diverse projects without switching between different editors.
Vibrant Community: The vibrant community surrounding VSCode ensures continuous updates, improvements, and support, making it an invaluable tool for all my coding endeavors.
Overall, Visual Studio Code (VSCode) stands out as an indispensable ally in my coding journey, thanks to its versatility, functionality, and strong community support.
Designed to optimize the administration of auditorium bookings and improve the user experience, AudiBooking is an auditorium management software built using Python Flask. It offers users safe booking capabilities and extensive show database administration.
Features
Comprehensive Show Database Management: Users may simply plan and coordinate events in the auditorium thanks to the software, which makes it possible to maintain a full database of performances.
Secure Booking Functionality: Only authorised users are able to make reservations thanks to AudiBooking's use of secure booking features. In order to improve security and safeguard data, the programme adds an extra layer of user authentication with OTP-based login.
Dynamic Website: AudiBooking has a dynamic and user-friendly website interface, thanks to its development utilising Python Flask for the backend and Bootstrap for the frontend. By ensuring smooth communication between the frontend and backend, this combination offers consumers a responsive and easy-to-use interface.
Implementation
User Authentication: The software supports three categories of users: Managers, Salespeople, and Accounts Clerks. Users can log in using OTP-based authentication, with a default email address provided for the manager. Managers can create other employees with their own email IDs.
Database Setup: To change the default manager's email address, users can run a Python script in the terminal window, which creates a new manager entry in the database with the desired email address and credentials.
Impact
AudiBooking has significantly optimized operational efficiency by streamlining the process of auditorium booking management.
By limiting system access to just authorised users, OTP-based login has improved software security and data protection.
Conclusion
In conclusion, AudiBooking is proof of my abilities to create safe and user-friendly software solutions with Python Flask. It not only meets the operational demands of auditorium management but also prioritizes user experience and data security.
JavaScript experience
JavaScript Experience
I've gained significant experience working with JavaScript, particularly in the realm of web development projects. One aspect of JavaScript that I find exceptionally appealing is its flexibility and versatility. Its capability to be utilized for both server-side and client-side development makes it a powerful tool for building modern online applications. Moreover, JavaScript supports asynchronous programming paradigms through features like async/await and promises.
Favorite Feature
My favorite aspect of JavaScript is its dynamic nature. It enables dynamic object creation and dynamic typing, offering developers the flexibility to write expressive and concise code. This dynamism accelerates the prototyping and iteration process, contributing to faster development cycles.
Least Favorite Feature
If I had to pinpoint a least favorite feature, it would be the type coercion performed by JavaScript's "==" equality operator. While convenient, it can lead to unexpected behavior and defects if not used carefully. Understanding JavaScript's coercion rules is crucial, and applying rigorous equality checks (===) when necessary helps prevent such issues.
Node.js experience
Using Node.js Experience
My experience with Node.js has been an exciting journey, encompassing a diverse range of projects from complex enterprise-level solutions to smaller-scale applications.
Overview
Throughout my extensive experience with Node.js, I have found it to be an incredibly adaptable and efficient runtime environment for executing server-side JavaScript code. Leveraging its event-driven, non-blocking I/O architecture, I have developed real-time applications and microservices with exceptional concurrency and performance.
Favorite Features
One of my favorite aspects of Node.js is its vast library of npm packages and its dynamic ecosystem. These resources have significantly accelerated my development process, providing readily accessible modules for various tasks. Whether it's managing HTTP requests with Express.js, interacting with databases using Sequelize or Mongoose, or implementing authentication with Passport.js, the abundance of npm packages has greatly enriched my development experience.
Conclusion
Overall, working with Node.js has profoundly shaped my understanding of backend programming. I am continually impressed by its capabilities and excited to explore further possibilities within its expanding ecosystem. Additionally, I look forward to contributing to and supporting the vibrant Node.js community.
C/Fortran experience
C Experience:
I have worked on effective solutions in a variety of sectors where my expertise in C programming is needed, such as embedded systems development, systems programming, and high-performance computing.
I've used C in systems development to create reliable and effective software components, such network protocols, operating system modules, and device drivers. By utilising its low-level features, like as inline assembly and manual memory management, I've improved programmes' efficiency and resource use.
In addition, I have used C's adaptability to design embedded systems firmware for microcontrollers and IoT devices, assuring dependability, efficiency, and real-time responsiveness in resource-constrained contexts.
Furthermore, I've used C in high-performance computing to create complex solutions for anything from parallel computing applications to scientific simulations and data processing pipelines. My speciality is using C's powerful features to optimise programmes for computational power. I've unlocked unmatched performance benefits with techniques like multithreading, GPU acceleration, and SIMD vectorization.
Fortran Experience:
My expertise with Fortran focuses around its use in scientific and numerical computing, where its array-oriented syntax and fast mathematical operations are critical.
In computational physics, engineering, and finance, I used Fortran to develop complicated mathematical models, numerical algorithms, and simulation software. My expertise includes efficiently handling large-scale numerical computations using Fortran's built-in mathematical functions and array operations.
In addition, I have extensive experience optimising Fortran programmes for performance and scalability, including compiler optimisations, parallel programming paradigms, and external libraries such as LAPACK and FFTW to maximise computational efficiency.
I've also used Fortran to create numerical libraries and scientific software, as part of efforts to further research and innovation in a variety of sectors.
Interest in stdlib
Interest in stdlib
Introduction
The bold plan of stdlib to democratize numerical computing by bringing it online is what most intrigues me about it. This project is especially interesting since it goes against the common belief that environments with specialized functionality, such as Python, MATLAB, or R, are the only places where numerical computation can be done. For developers and academics working in a variety of fields, stdlib opens up a world of possibilities by using the power of JavaScript (and C) and making it available in browsers and Node.js.
Fully Decomposable Architecture
The fully decomposable architecture of stdlib is one of its best qualities. Users may mix and match features and APIs based on their own needs and preferences thanks to this architectural design. Whether addressing the diverse demands of different users working on data analysis, scientific simulations, or mathematical modeling, this degree of flexibility and customization is essential.
Extensive Feature Set
Moreover, stdlib boasts an extensive feature set that caters to a wide range of numerical computing tasks. From a rich collection of special math functions and probability distributions to seedable pseudorandom number generators and general utilities for data transformation, stdlib provides the building blocks necessary for tackling complex computational problems. The inclusion of assertion utilities ensures data validation and feature detection, further enhancing the reliability and robustness of applications built using stdlib.
Commitment to Quality
Furthermore, stdlib's commitment to high-quality code is evident in its rigorous testing, documentation, and performance optimization efforts. Every function is thoroughly studied, documented, and tested to ensure its correctness and efficiency. This meticulous approach instills confidence in users, assuring them that they are working with code that has been vetted and validated to meet the highest standards.
Conclusion
In conclusion, stdlib is a big step towards increasing the flexibility, efficiency, and accessibility of numerical computing in JavaScript and Node.js contexts. It is a useful tool for academics, developers, and educators alike because of its extensive feature set, adaptable design, and dedication to quality. I am enthusiastic about stdlib's potential to completely transform the online numerical computing space, and I am looking forward to learning more about it and helping to make it better and stronger.
Version control
Yes
Contributions to stdlib
Open Source Contribution to Stdlib
Repository Description
This repository (stdlib-js/stdlib) is a JavaScript standard library that provides a collection of robust, high-performance libraries for scientific computing, data analysis, and mathematical operations.
Purpose of the Pull Request
The purpose of this pull request is to enhance the documentation of the stats/base/dists/laplace namespace by adding examples of the functions it contains along with their usage. By providing clear and illustrative examples, users can better understand how to utilize these functions for statistical computations involving the Laplace distribution.
Related Issues
This pull request is related to the following issue:
Resolves: [RFC] Improve README examples of stats/base/dists/laplace namespace #1633
Fixes: [RFC] Improve README examples of stats/base/dists/laplace namespace #1633
Project Abstract: Enhancing the stdlib REPL for Interactive JavaScript Computing
Introduction:
As someone deeply involved in the JavaScript ecosystem, I recognize the importance of a robust and feature-rich REPL for Node.js. While the existing Node.js REPL serves its purpose, it lacks many of the features found in other REPL environments, particularly those catering to numerical computing and data analysis tasks. This project is my endeavor to enhance the stdlib REPL for Node.js, transforming it into a powerful tool for interactive JavaScript computing.
Let's address some concerns, outlining specific functions and strategies for each aspect:
Syntax Highlighting and Theming:
Approach:
Utilize a library like chalk or ansi-colors for terminal styling.
Implement theme-based syntax highlighting to adapt to users' terminal themes.
Functions:
applySyntaxHighlighting(code, theme): Apply syntax highlighting to code using the specified theme.
setSyntaxHighlightingTheme(theme): Allow users to set their preferred theme for syntax highlighting.
getDefaultTheme(): Provide default themes suitable for various terminal backgrounds.
Custom Syntax Highlighting Themes:
Approach:
Define a JSON schema for theme configuration.
Allow users to specify theme colors for different syntax elements.
Functions:
loadTheme(themeConfig): Load a custom theme configuration provided by the user.
validateTheme(themeConfig): Validate the theme configuration against the predefined schema.
saveTheme(themeConfig): Save user-defined themes for future use.
Less/More Documentation Pager:
Approach:
Implement pagination controls for navigating through documentation.
Provide search functionality within documentation pages.
Functions:
displayDocumentationPage(pageContent): Display documentation content with pagination controls.
navigateDocumentationPage(direction): Allow users to navigate forward or backward through pages.
searchDocumentation(query): Enable users to search for specific topics within documentation.
Bracketed-Paste Support:
Approach:
Detect bracketed-paste mode in the terminal.
Parse and concatenate pasted lines into a single input before execution.
Functions:
handleBracketedPaste(pastedText): Concatenate pasted lines into a single input string.
detectBracketedPasteMode(): Determine if the terminal supports bracketed-paste mode.
Implementation and Testing:
Approach:
Use unit tests to ensure the correctness of individual functions.
Conduct integration tests to validate the behavior of the REPL with all features enabled.
Functions:
runUnitTests(): Execute unit tests for individual functions.
performIntegrationTests(): Test the interaction between different features in the REPL environment.
By incorporating these specific functions and approaches, we can address the concerns regarding syntax highlighting theming, custom themes, documentation paging, and bracketed-paste support in a professional and thorough manner. Additionally, employing rigorous testing methodologies will ensure the reliability and effectiveness of these enhancements to the REPL environment.
Detailed Description:
Auto-completion Previews:
I will implement auto-completion previews for file paths, function names, and variables, leveraging metadata and type information to provide accurate suggestions.
Integrating this feature seamlessly into the REPL environment will enhance user productivity and streamline code exploration.
Fuzzy Auto-completion Extension:
Extending auto-completion functionality with fuzzy matching algorithms will be my task, ensuring that even partially entered identifiers yield relevant suggestions.
I will integrate fuzzy auto-completion seamlessly into the REPL environment to improve the user experience.
Documentation Pager:
Developing a less/more documentation pager within the REPL will involve implementing functionalities for navigating through documentation pages and searching for specific topics.
Integrating the pager with auto-completion to provide contextual documentation based on user input will be my focus.
Pretty Printing of Tabular Output:
Enhancing the display of tabular data within the REPL for better readability is crucial. I will implement formatting options and integrate pretty printing functionality with existing data processing libraries.
This feature will ensure that users can easily interpret and manipulate tabular data within the REPL environment.
Terminal Syntax Highlighting and Bracket Matching:
Implementing syntax highlighting for JavaScript code entered into the REPL will require developing algorithms for highlighting different language constructs.
Additionally, I will incorporate bracket matching to assist users in identifying matching pairs of parentheses, brackets, and braces.
Bracketed-paste Support:
Adding support for bracketed-paste mode to handle pasted code snippets more gracefully will be my responsibility.
Ensuring compatibility with various terminal emulators and environments will ensure a seamless user experience.
Custom Key Binding Support:
Enabling users to customize key bindings within the REPL environment is vital for enhancing usability. I will implement a configuration mechanism for defining custom key mappings.
Providing default key bindings for common actions and commands will improve user accessibility.
Numerical Computing Workshops/Tutorials:
Developing interactive tutorials and workshops for numerical computing and data analysis within the REPL will be a significant part of the project.
Covering topics such as linear algebra, statistical analysis, and machine learning algorithms will provide users with hands-on learning experiences.
Multi-line Editing:
Implementing multi-line editing support for entering and editing multi-line code snippets is essential for code readability and editing convenience.
Ensuring compatibility with existing REPL functionalities will be my priority.
Expected Outcomes:
With these improvements, the stdlib REPL will develop into an environment for JavaScript computing that is both flexible and strong, appropriate for a variety of applications from basic code exploration to intricate numerical calculations and data analysis. Features like syntax highlighting, documentation integration, auto-completion, and customization will be helpful to users, making the REPL an attractive tool for productivity and learning.
Conclusion:
As someone deeply invested in the JavaScript community, I am committed to making the stdlib REPL for Node.js a more robust and feature-rich environment. This project represents my dedication to empowering JavaScript developers and learners with a versatile tool for interactive computing and exploration.
Why this project?
Professional Growth:
Deepening Expertise: Enhancing the stdlib REPL for Node.js offers an opportunity to delve deeper into JavaScript internals, REPL implementation, and user interface design.
Skill Development: Working on features like auto-completion, syntax highlighting, and multi-line editing will sharpen my coding and problem-solving abilities.
Addressing Ecosystem Gap:
Node.js Comparative Analysis: By comparing the stdlib REPL with other advanced environments like IPython, I'll identify gaps and areas for improvement.
Improving Node.js Appeal: Enhancements will contribute to making Node.js a more attractive platform for a broader range of computing tasks beyond web development.
Impact on Developer Productivity:
Streamlining Workflow: Features such as auto-completion previews and pretty printing of tabular output will streamline common tasks, boosting individual and team productivity.
Friction Reduction: Reduced friction in tasks like API exploration and debugging enhances code quality and collaboration.
Facilitating Learning and Education:
Enhancement of Accessibility: Reducing the barrier of entry for novice developers through improved use of the REPL creates a more welcoming learning environment.
Integration of Resources: Integrated tutorials and workshops offer useful tools for independent learning, enabling users to discover the possibilities of JavaScript.
Community Engagement and Collaboration:
Collaboration among Contributors: Engaging in open-source projects promotes cooperation among mentors, contributors, and users, cultivating a feeling of collective responsibility and satisfaction in the project's accomplishments.
Knowledge Sharing: Everyone engaged benefits when they share their experiences and ideas with other developers, which adds to the JavaScript community's collective knowledge.
Qualifications
Experience:
JavaScript and Node.js Expertise: Extensive experience in developing online apps, libraries, and APIs with proficiency in functional programming, asynchronous patterns, and ES6+ features.
REPL Understanding: Solid grasp of REPL environments, having worked with them in Python, R, and JavaScript, understanding their key functionalities.
UI Design and Development: Developed web-based apps with features like auto-completion and syntax highlighting, proficient in frontend frameworks like React, HTML, and CSS.
Contributions:
Active in Open Source: Contributed to various JavaScript projects, showcasing collaborative skills and a range of contributions from bug fixes to feature implementations.
Project Management: Organized development sprints, managed requirements, and communicated effectively with stakeholders, proficient in project management tools.
Continuous Learning:
Dedication to Learning: Committed to staying updated with the latest in the JavaScript ecosystem, demonstrating adaptability and a short learning curve.
In summary, I bring extensive experience in JavaScript and Node.js development, a strong understanding of REPL environments, proficiency in UI design and development, active involvement in open-source projects, effective project management skills, and a commitment to continuous learning.
Prior art
REPL Environments in Other Languages
IPython/Jupyter Notebooks:
Prominent examples of advanced REPL environments with features like auto-completion, syntax highlighting, and multi-line editing.
Influence expectations for interactive computing environments across various languages.
Python REPL Enhancements:
Tools like bpython and ptipython offer enhanced REPL experiences with features including multi-line editing support and auto-completion.
Aim to increase developer productivity and engagement.
R REPL Enhancements:
Projects like RStudio and R Notebooks provide advanced REPL environments tailored to statistical computing and data analysis.
Popular among data scientists and statisticians for interactive exploration and analysis.
Clojure REPLs:
CIDER for Emacs and Proto REPL for editors like Atom and IntelliJ IDEA offer enhanced REPL experiences for Clojure developers.
Facilitate interactive Clojure development and exploration.
Summary:
While parallels to the proposed Node.js project are limited, previous efforts in enhancing REPL environments across languages demonstrate the value of features like auto-completion and syntax highlighting. These projects have improved developer productivity and fostered interactive programming experiences, providing valuable insights for the proposed project.
Commitment
I am available full-time this summer and will not be participating in any intern programs.
With no other commitments, I can dedicate 100% of my time to this project, committing 25-30 hours per week.
Planned Work Hours: 25-30 hours per week
Timezone: Indian Standard Time (IST)
Considering a standard workweek of Monday to Friday:
Monday to Friday:
Start work: 9:00 AM IST
End work: 2:00 PM IST (including a 1-hour lunch break)
Saturday (if needed):
Start work: 9:00 AM IST
End work: 1:00 PM IST
This timetable includes time for meetings and conversations with mentors as well as flexibility within the allotted 25–30 hours per week. Changes can be made in accordance with individual preferences, mentor availability, and project requirements.
Schedule
Community Bonding Period
Set up Development Environment:
Install necessary tools and dependencies.
Configure IDE or text editor for Node.js development.
Study Project Codebase:
Review existing code in the stdlib REPL repository.
Identify relevant modules and functionalities for enhancement.
Engage with Mentors:
Initiate discussions with project mentors to clarify objectives and expectations.
Participate in community discussions and forums to understand project context and community dynamics.
Week 1: Enhancing Auto-completion
Implement Basic Auto-completion:
Develop functionality to provide auto-completion suggestions for variables and functions.
Testing and Debugging:
Write test cases to ensure auto-completion works as expected.
Debug any issues and refine implementation based on feedback.
Week 2: Syntax Highlighting and Bracket Matching
Implement Syntax Highlighting:
Integrate syntax highlighting for JavaScript code entered into the REPL.
Develop algorithms for highlighting different language constructs such as keywords, strings, and comments.
Add Bracket Matching:
Implement logic to assist users in identifying matching pairs of parentheses, brackets, and braces.
Week 3: Multi-line Editing and Documentation Pager
Add Multi-line Editing Support:
Develop functionality for entering and editing multi-line code snippets.
Ensure compatibility with existing REPL functionalities.
Implement Documentation Pager:
Design and implement a pager for displaying documentation within the REPL.
Incorporate functionalities for navigating through documentation pages and searching for specific topics.
Week 4: Fuzzy Auto-completion and Testing
Implement Fuzzy Auto-completion:
Extend auto-completion functionality with fuzzy matching algorithms for improved user experience.
Ensure relevant suggestions even for partially entered identifiers.
Testing Phase Begins:
Conduct comprehensive testing of implemented features to identify and fix any bugs or issues.
Write test cases for each feature to ensure reliability and robustness.
Week 5: Terminal Syntax Highlighting and Pretty Printing
Add Terminal Syntax Highlighting:
Implement syntax highlighting for the REPL environment.
Ensure compatibility with various terminal emulators and environments.
Implement Pretty Printing of Tabular Output:
Enhance the display of tabular data within the REPL for better readability.
Implement formatting options for aligning columns and handling large datasets.
Week 6: Midterm Evaluation and Refinement
Midterm Evaluation:
Present progress to mentors and receive feedback during the evaluation.
Discuss any necessary adjustments to project scope or timeline.
Refinement Phase Begins:
Address any feedback received during the evaluation.
Refactor codebase for improved readability and maintainability.
Week 7: Custom Key Binding Support and Documentation
Implement Custom Key Binding Support:
Enable users to customize key bindings within the REPL environment.
Develop a configuration mechanism for defining custom key mappings.
Write Documentation:
Document implemented features comprehensively to guide users on their usage.
Provide examples and usage scenarios to facilitate understanding.
Week 8: Numerical Computing Workshops and Tutorials
Develop Numerical Computing Workshops/Tutorials:
Design interactive tutorials covering machine learning and statistical computing concepts.
Integrate tutorials with REPL features for an integrated learning experience.
Week 9: Testing and Final Refinement
Testing and Debugging:
Conduct final rounds of testing to ensure all features work seamlessly.
Address any remaining bugs or issues identified during testing.
Final Refinement:
Refine user interface elements for consistency and usability.
Optimize performance and resource utilization where necessary.
Week 10: Code Review and Preparation
Code Review:
Request feedback from mentors and project community on implemented features.
Address any suggested improvements or changes.
Prepare for Final Submission:
Finalize project documentation including installation instructions, usage guides, and contribution guidelines.
Ensure all code is well-documented and adheres to project coding standards.
Week 11: Final Testing and Evaluation
Final Testing Phase:
Perform comprehensive testing of all features to ensure readiness for submission.
Validate project deliverables against initial project goals and requirements.
Final Evaluation:
Conduct a self-assessment of project outcomes and achievements.
Prepare for the final project evaluation by mentors and project administrators.
Week 12: Finalization and Submission
Finalization:
Wrap up any remaining tasks or loose ends.
Prepare a summary of project accomplishments and lessons learned.
Submission:
Submit final project deliverables, including code, documentation, and any other required artifacts.
Celebrate the completion of the project and reflect on the overall experience.
I have read and understood the application materials found in this repository.
I understand that plagiarism will not be tolerated, and I have authored this application in my own words.
I have read and understood the patch requirement which is necessary for my application to be considered for acceptance.
The issue name begins with [RFC]: and succinctly describes your proposal.
I understand that, in order to apply to be a GSoC contributor, I must submit my final application to https://summerofcode.withgoogle.com/before the submission deadline.
The text was updated successfully, but these errors were encountered:
Full name
Pratyush Kumar Chouhan
University status
Yes
University name
Indian Institute of Technology, Kharagpur – 721302
University program
Department of Chemical Engineering | Minor in Computer Science and Engineering
Expected graduation
April, 2025
Short biography
Education
Technical Competencies
Experiences
Contribution Highlights:
General Interests
Timezone
India Standard Time
Contact details
email: pratyushkumar0308@gmail.com, github: https://github.com/bruno-noir, gitter: @bruno-noir:gitter.im
Platform
Linux
Editor
Visual Studio Code (VSCode) - My Preferred Code Editor
I use Visual Studio Code (VSCode) due to its seamless integration with a plethora of tools and extensions, which significantly enhance productivity and streamline my workflow.
Reasons for Using VSCode:
Overall, Visual Studio Code (VSCode) stands out as an indispensable ally in my coding journey, thanks to its versatility, functionality, and strong community support.
Programming experience
AudiBooking: An Auditorium Management Software
GitHub Repository
Overview
Designed to optimize the administration of auditorium bookings and improve the user experience, AudiBooking is an auditorium management software built using Python Flask. It offers users safe booking capabilities and extensive show database administration.
Features
Implementation
Impact
Conclusion
In conclusion, AudiBooking is proof of my abilities to create safe and user-friendly software solutions with Python Flask. It not only meets the operational demands of auditorium management but also prioritizes user experience and data security.
JavaScript experience
JavaScript Experience
I've gained significant experience working with JavaScript, particularly in the realm of web development projects. One aspect of JavaScript that I find exceptionally appealing is its flexibility and versatility. Its capability to be utilized for both server-side and client-side development makes it a powerful tool for building modern online applications. Moreover, JavaScript supports asynchronous programming paradigms through features like async/await and promises.
Favorite Feature
My favorite aspect of JavaScript is its dynamic nature. It enables dynamic object creation and dynamic typing, offering developers the flexibility to write expressive and concise code. This dynamism accelerates the prototyping and iteration process, contributing to faster development cycles.
Least Favorite Feature
If I had to pinpoint a least favorite feature, it would be the type coercion performed by JavaScript's "==" equality operator. While convenient, it can lead to unexpected behavior and defects if not used carefully. Understanding JavaScript's coercion rules is crucial, and applying rigorous equality checks (===) when necessary helps prevent such issues.
Node.js experience
Using Node.js Experience
My experience with Node.js has been an exciting journey, encompassing a diverse range of projects from complex enterprise-level solutions to smaller-scale applications.
Overview
Throughout my extensive experience with Node.js, I have found it to be an incredibly adaptable and efficient runtime environment for executing server-side JavaScript code. Leveraging its event-driven, non-blocking I/O architecture, I have developed real-time applications and microservices with exceptional concurrency and performance.
Favorite Features
One of my favorite aspects of Node.js is its vast library of npm packages and its dynamic ecosystem. These resources have significantly accelerated my development process, providing readily accessible modules for various tasks. Whether it's managing HTTP requests with Express.js, interacting with databases using Sequelize or Mongoose, or implementing authentication with Passport.js, the abundance of npm packages has greatly enriched my development experience.
Conclusion
Overall, working with Node.js has profoundly shaped my understanding of backend programming. I am continually impressed by its capabilities and excited to explore further possibilities within its expanding ecosystem. Additionally, I look forward to contributing to and supporting the vibrant Node.js community.
C/Fortran experience
C Experience:
Fortran Experience:
Interest in stdlib
Interest in stdlib
Introduction
The bold plan of stdlib to democratize numerical computing by bringing it online is what most intrigues me about it. This project is especially interesting since it goes against the common belief that environments with specialized functionality, such as Python, MATLAB, or R, are the only places where numerical computation can be done. For developers and academics working in a variety of fields, stdlib opens up a world of possibilities by using the power of JavaScript (and C) and making it available in browsers and Node.js.
Fully Decomposable Architecture
The fully decomposable architecture of stdlib is one of its best qualities. Users may mix and match features and APIs based on their own needs and preferences thanks to this architectural design. Whether addressing the diverse demands of different users working on data analysis, scientific simulations, or mathematical modeling, this degree of flexibility and customization is essential.
Extensive Feature Set
Moreover, stdlib boasts an extensive feature set that caters to a wide range of numerical computing tasks. From a rich collection of special math functions and probability distributions to seedable pseudorandom number generators and general utilities for data transformation, stdlib provides the building blocks necessary for tackling complex computational problems. The inclusion of assertion utilities ensures data validation and feature detection, further enhancing the reliability and robustness of applications built using stdlib.
Commitment to Quality
Furthermore, stdlib's commitment to high-quality code is evident in its rigorous testing, documentation, and performance optimization efforts. Every function is thoroughly studied, documented, and tested to ensure its correctness and efficiency. This meticulous approach instills confidence in users, assuring them that they are working with code that has been vetted and validated to meet the highest standards.
Conclusion
In conclusion, stdlib is a big step towards increasing the flexibility, efficiency, and accessibility of numerical computing in JavaScript and Node.js contexts. It is a useful tool for academics, developers, and educators alike because of its extensive feature set, adaptable design, and dedication to quality. I am enthusiastic about stdlib's potential to completely transform the online numerical computing space, and I am looking forward to learning more about it and helping to make it better and stronger.
Version control
Yes
Contributions to stdlib
Open Source Contribution to Stdlib
Repository Description
This repository (stdlib-js/stdlib) is a JavaScript standard library that provides a collection of robust, high-performance libraries for scientific computing, data analysis, and mathematical operations.
Purpose of the Pull Request
The purpose of this pull request is to enhance the documentation of the
stats/base/dists/laplace
namespace by adding examples of the functions it contains along with their usage. By providing clear and illustrative examples, users can better understand how to utilize these functions for statistical computations involving the Laplace distribution.Related Issues
This pull request is related to the following issue:
Link to the Pull Request
stdlib-js/stdlib PR #1875
Status
Open
Goals
Project Abstract: Enhancing the stdlib REPL for Interactive JavaScript Computing
Introduction:
As someone deeply involved in the JavaScript ecosystem, I recognize the importance of a robust and feature-rich REPL for Node.js. While the existing Node.js REPL serves its purpose, it lacks many of the features found in other REPL environments, particularly those catering to numerical computing and data analysis tasks. This project is my endeavor to enhance the stdlib REPL for Node.js, transforming it into a powerful tool for interactive JavaScript computing.
Let's address some concerns, outlining specific functions and strategies for each aspect:
Syntax Highlighting and Theming:
Approach:
chalk
oransi-colors
for terminal styling.Functions:
applySyntaxHighlighting(code, theme)
: Apply syntax highlighting to code using the specified theme.setSyntaxHighlightingTheme(theme)
: Allow users to set their preferred theme for syntax highlighting.getDefaultTheme()
: Provide default themes suitable for various terminal backgrounds.Custom Syntax Highlighting Themes:
Approach:
Functions:
loadTheme(themeConfig)
: Load a custom theme configuration provided by the user.validateTheme(themeConfig)
: Validate the theme configuration against the predefined schema.saveTheme(themeConfig)
: Save user-defined themes for future use.Less/More Documentation Pager:
Approach:
Functions:
displayDocumentationPage(pageContent)
: Display documentation content with pagination controls.navigateDocumentationPage(direction)
: Allow users to navigate forward or backward through pages.searchDocumentation(query)
: Enable users to search for specific topics within documentation.Bracketed-Paste Support:
Approach:
Functions:
handleBracketedPaste(pastedText)
: Concatenate pasted lines into a single input string.detectBracketedPasteMode()
: Determine if the terminal supports bracketed-paste mode.Implementation and Testing:
Approach:
Functions:
runUnitTests()
: Execute unit tests for individual functions.performIntegrationTests()
: Test the interaction between different features in the REPL environment.By incorporating these specific functions and approaches, we can address the concerns regarding syntax highlighting theming, custom themes, documentation paging, and bracketed-paste support in a professional and thorough manner. Additionally, employing rigorous testing methodologies will ensure the reliability and effectiveness of these enhancements to the REPL environment.
Detailed Description:
Auto-completion Previews:
Fuzzy Auto-completion Extension:
Documentation Pager:
Pretty Printing of Tabular Output:
Terminal Syntax Highlighting and Bracket Matching:
Bracketed-paste Support:
Custom Key Binding Support:
Numerical Computing Workshops/Tutorials:
Multi-line Editing:
Expected Outcomes:
With these improvements, the stdlib REPL will develop into an environment for JavaScript computing that is both flexible and strong, appropriate for a variety of applications from basic code exploration to intricate numerical calculations and data analysis. Features like syntax highlighting, documentation integration, auto-completion, and customization will be helpful to users, making the REPL an attractive tool for productivity and learning.
Conclusion:
As someone deeply invested in the JavaScript community, I am committed to making the stdlib REPL for Node.js a more robust and feature-rich environment. This project represents my dedication to empowering JavaScript developers and learners with a versatile tool for interactive computing and exploration.
Why this project?
Professional Growth:
Addressing Ecosystem Gap:
Impact on Developer Productivity:
Facilitating Learning and Education:
Community Engagement and Collaboration:
Qualifications
Experience:
Contributions:
Continuous Learning:
In summary, I bring extensive experience in JavaScript and Node.js development, a strong understanding of REPL environments, proficiency in UI design and development, active involvement in open-source projects, effective project management skills, and a commitment to continuous learning.
Prior art
REPL Environments in Other Languages
IPython/Jupyter Notebooks:
Python REPL Enhancements:
R REPL Enhancements:
Clojure REPLs:
Summary:
While parallels to the proposed Node.js project are limited, previous efforts in enhancing REPL environments across languages demonstrate the value of features like auto-completion and syntax highlighting. These projects have improved developer productivity and fostered interactive programming experiences, providing valuable insights for the proposed project.
Commitment
Planned Work Hours: 25-30 hours per week
Timezone: Indian Standard Time (IST)
Considering a standard workweek of Monday to Friday:
Monday to Friday:
Saturday (if needed):
This timetable includes time for meetings and conversations with mentors as well as flexibility within the allotted 25–30 hours per week. Changes can be made in accordance with individual preferences, mentor availability, and project requirements.
Schedule
Community Bonding Period
Week 1: Enhancing Auto-completion
Week 2: Syntax Highlighting and Bracket Matching
Week 3: Multi-line Editing and Documentation Pager
Week 4: Fuzzy Auto-completion and Testing
Week 5: Terminal Syntax Highlighting and Pretty Printing
Week 6: Midterm Evaluation and Refinement
Week 7: Custom Key Binding Support and Documentation
Week 8: Numerical Computing Workshops and Tutorials
Week 9: Testing and Final Refinement
Week 10: Code Review and Preparation
Week 11: Final Testing and Evaluation
Week 12: Finalization and Submission
Related issues
Issue #1
Checklist
[RFC]:
and succinctly describes your proposal.The text was updated successfully, but these errors were encountered: