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=Topics in Open Source Development=
 
=Topics in Open Source Development=
  
==[http://cs.senecac.on.ca/index.php?outline=DPS909 Subject Description]==
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==[http://www.senecacollege.ca/cgi-bin/subject?s1=DPS909 Subject Description]==
  
This course introduces students to the technological, social, and pragmatic aspects of developing open source software through direct involvement in the Mozilla project.  Students will learn to use the tools, techniques, and strategies of open source developers. This is a project-based programming course. The Mozilla project has been chosen as an example of an open source project because of its maturity, breadth and depth of technology, and strong community.
+
This course introduces students to the technological, social, and pragmatic aspects of developing open source software through direct involvement in large open source projects.  Students will learn to use the tools, techniques, and strategies of open source developers. This is a project-based programming course.
  
 
==Course Outcomes==
 
==Course Outcomes==
Line 11: Line 11:
 
* Describe the history and philosophy of an open source project
 
* Describe the history and philosophy of an open source project
 
* Choose between the various open source licenses understanding the implications for users, developers, and the software community in general
 
* Choose between the various open source licenses understanding the implications for users, developers, and the software community in general
* Use the communication modes particular to the open source world through participation in such things as mailing lists, IRC, wikis, etc.
+
* Use the communication modes particular to the open source world through participation in such things as GitHub, Slack, wikis, etc.
 
* Use the tools of open source development, for example: distributed revision control; documentation tools; automated build and test systems; debuggers; source code utilities; tracking systems; on-line resources, etc.
 
* Use the tools of open source development, for example: distributed revision control; documentation tools; automated build and test systems; debuggers; source code utilities; tracking systems; on-line resources, etc.
 
* Work with a pre-existing large source code base
 
* Work with a pre-existing large source code base
* Write software that integrates and interacts with the Mozilla project’s code. For example: add-ons; bug fixes; new features; etc.
+
* Write software that integrates and interacts with existing open source systems. For example: add-ons; bug fixes; new features; etc.
* Work collaboratively with fellow students and members of the Mozilla community.
+
* Work collaboratively with fellow students and members of the open source community.
+
 
 
==Major Project==
 
==Major Project==
  
This is a project course, and the majority of each student’s mark will come from work done on a real Mozilla development project. The primary goal of this project is to get students involved in the Mozilla development community and codebase. Through this experience students will learn about the processes, tools, and practices involved in developing software as part of a large open source community.
+
This is a project course, and the majority of each student’s mark will come from work done on a real development project. The primary goal of this project is to get students involved in the open source development community and its codebases. Through this experience students will learn about the processes, tools, and practices involved in developing software as part of a large open source community.  Students will also have the opportunity to contribute their own code to real-world software projects, thereby gaining important experience.
  
 
===Philosophy===
 
===Philosophy===
Line 25: Line 25:
 
Many of the practices inherent in open source development will seem to go against the structures often set in place for similar course work. For example, students are typically forbidden to collaborate with peers, to copy from the web, etc. However, these rules must be re-evaluated in the context of proper and pragmatic open source development practices.  
 
Many of the practices inherent in open source development will seem to go against the structures often set in place for similar course work. For example, students are typically forbidden to collaborate with peers, to copy from the web, etc. However, these rules must be re-evaluated in the context of proper and pragmatic open source development practices.  
  
First, consider the typical rules around cheating and plagiarism. In this assignment, students are encouraged to work within the set of best practices natural to open source development. Open source developers do not write from scratch what already exists and is freely available for use. Students should be thinking in terms or code reuse. It is acceptable for students to use code from other open source projects, so long as the license is amenable to the use.  
+
First, consider the typical rules around cheating and plagiarism. In this course, students are encouraged to work within the set of best practices natural to open source development. Open source developers do not write from scratch what already exists and is freely available for use. Students should be thinking in terms of code reuse. It is acceptable for students to use code from other open source projects, so long as the license is amenable to the use.  
  
 
Second, consider the typical restrictions on peer-collaboration. In this project students are encouraged to work together, to help one another, to look at each other's code, etc. Open source collaboration is about leveraging the collective knowledge of a community to help solve the problems of the individual.  
 
Second, consider the typical restrictions on peer-collaboration. In this project students are encouraged to work together, to help one another, to look at each other's code, etc. Open source collaboration is about leveraging the collective knowledge of a community to help solve the problems of the individual.  
  
Third, consider the sharp dividing line between student projects in most programming courses. For the most part, students are evaluated on their ability to do a particular project or to solve a particular problem on their own. The outcome is measured against peer outcomes. However, in this course students are not in competition with their peers; rather, they are all working on one large project (i.e., Mozilla) with many sub-projects within it. As a result, there is no clean line to divide one student’s work from another, or even student work from that of the Mozilla community. This means that collaboration between students and even other members of the Mozilla community is acceptable practice.  
+
Third, consider the sharp dividing line between student projects in most programming courses. For the most part, students are evaluated on their ability to do a particular project or to solve a particular problem on their own. The outcome is measured against peer outcomes. However, in this course students are not in competition with their peers; rather, they are all working on one large project (e.g., Mozilla) with many sub-projects within it. As a result, there is no clean line to divide one student’s work from another, or even student work from that of the open source community. This means that collaboration between students and even other members of the open source community is acceptable practice.  
  
 
To summarize, students should:  
 
To summarize, students should:  
 
* Help each other, contribute to one another’s projects  
 
* Help each other, contribute to one another’s projects  
* Work with and within the Mozilla community  
+
* Work with and within the open source community  
 
* Give others encouragement and credit when they offer help  
 
* Give others encouragement and credit when they offer help  
 
* Use existing open source code whenever possible  
 
* Use existing open source code whenever possible  
* Be open to helping others and to being helped  
+
* Be open to helping others and to being helped
 
 
===Details===
 
 
 
* Each student must pick a project from the list of proposed projects, or have another project idea approved by the instructor.
 
* Create a project page based on the [[Sample Project|template in the wiki]].  If someone has already created a page for a project you want to work on, speak to that person to see if you can join him/her. If s/he says yes, add your name to the Project Leader(s) section; otherwise pick another project and become a Contributor instead (see below).
 
* Become a Contributor to one or more other projects. This is something that will just happen as you interact on IRC or in class. As people need help, you can choose to get involved with things. For example: helping to debug something, doing research into a problem, writing some tricky code. Over time your list of contributions to other peoples’ projects should grow. Keep track of this in your personal page.
 
* Keep your project page on the wiki updated. Add technical information to the Project Details section as you get a better understanding of the problem, and keep track of your project status in the Project News section. You should be updating this page at least once per week.
 
* Update your blog twice a week. Remember that the more you write, the easier it will be to get help from other people: it is easier for people to understand your question with supporting documentation on the web.
 
* Update your personal page on the wiki with permanent information, such as a list of your contributions to various projects.
 
  
 
==Intellectual Property==
 
==Intellectual Property==
  
Given that this course is focused on open source development, and given that we students working on real pieces of the Mozilla codebase, all student work will become open source. The particular license used will be determined based on the other parts of Mozilla with which you are interacting.
+
Given that this course is focused on open source development, and given that students work on real open source codebases, all student work will become open source. The particular license used will be determined based on the particular project and open source project.
  
 
==Grading==
 
==Grading==
  
Detailed grading information will be discussed later in the term.
+
Detailed grading information will be discussed later in the term. Below is a breakdown of how students will be graded, and [http://blog.humphd.org/vocamus-680/?p=680 this blog post] gives more details about the rationale:
* '''60%''' - [[Fall 2007 Major Project|Final Project]] Deliverables (e.g., code, documents), marked in terms of quality, quantity, etc.  Your project will be marked at three milestone releases, the number and values being:
 
** 15% - 0.1 Release
 
** 15% - 0.2 Release
 
** 30% - 0.3 Release
 
* '''15%''' - Project Wiki Page and Blog.  You will be marked on your project and personal page's quality, depth of explanation, frequency of update, etc.
 
* '''20%''' - Contributions to other projects.  You will be marked on the quantity and quality of your contributions to other groups.
 
* '''5%''' - [[DPS909 FSOSS 2007|FSOSS Paper]].  You will be marked on a paper to be written in response to [http://fsoss.senecac.on.ca FSOSS].  '''NOTE:''' You must attend FSOSS in order to complete this assignment, which means [http://fsoss.senecac.on.ca/2007/register.php registering].  Students receive a discount, and volunteering Seneca students can get in for free.
 
  
==Resources==
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* '''60%''' - Project Deliverables (e.g., code, Pull Requests, documentation), marked in terms of quality, quantity, process, etc.
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** '''10%''' - [[OSD & DPS909 Fall 2020 - Release 0.1|Release 0.1]] due Fri, Sept 25
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** '''20%''' - [[OSD & DPS909 Fall 2020 - Release 0.2|Release 0.2]] due Sat, Oct 31
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** '''15%''' - [[OSD & DPS909 Fall 2020 - Release 0.3|Release 0.3]] due Fri, Nov 20
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** '''15%''' - [[OSD & DPS909 Fall 2020 - Release 0.4|Release 0.4]] due Fri, Dec 11
 +
* '''40%''' - Labs: There will be approximately 10 labs, each worth 4%.
  
* [[Fall 2007 Weekly Schedule]]
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Students must satisfactorily complete all project deliverables and labs to pass the course.
* [[Students in DPS909]]
 
* [[Project List]]
 
* [[Potential Projects]]
 
* [http://zenit.senecac.on.ca/~chris.tyler/planet/ Open Source@Seneca Planet]
 
  
==Examples==
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==Resources==
 
 
Here are a list of good student artifacts from the course, which should provide examples for future students to follow:
 
  
* '''Blog''' - [http://armenzg.blogspot.com/ Armen], [http://crashopensource.wordpress.com/ Lukas]
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* [[DPS909 & OSD600 Fall 2020]] - Weekly Course Notes and Links
* '''Personal Wiki''' - [[User:Armenzg|Armen]], [[User:Backinblakk|Lukas]]
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* [https://seneca-open-source.slack.com Seneca Open Source Slack] - Our main communication platform is Slack.  You can sign-up with your @myseneca.ca email address.
* '''Project Wiki''' - [[Automated localization build tool]], [[Extending the Buildbot]], [[Buildbot and EC2]]
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* [https://telescope.cdot.systems/ Telescope Open Source Blog] - All student open source blogs are aggregated here in our custom blogging software
  
 
== Archives ==
 
== Archives ==
  
 
* [[DPS909-Fall2006|Fall 2006]]
 
* [[DPS909-Fall2006|Fall 2006]]
* [[Fall 2007 Weekly Schedule|Fall 2007]]
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* [[DPS909 Fall 2007|Fall 2007]]
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* [[DPS909 Fall 2008|Fall 2008]]
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* [[DPS909 Winter 2009|Winter 2009]]
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* [[DPS909 Fall 2009|Fall 2009]]
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* [[DPS909 Fall 2011|Fall 2011]]
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* [[DPS909 Fall 2012|Fall 2012]]
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* [[DPS909 Fall 2013|Fall 2013]]
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* [[DPS909 Fall 2015|Fall 2015]]
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* [[DPS909 Winter 2017|Winter 2017]]
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* [[DPS909 Fall 2017|Fall 2017]]
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* [[DPS909 Winter 2018|Winter 2018]]
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* [[DPS909 Fall 2018|Fall 2018]]
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* [[DPS909 Winter 2019|Winter 2019]]
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* [[DPS909 Fall 2019|Fall 2019]]
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 +
[[Category:DPS909]]

Latest revision as of 12:46, 9 September 2020

Topics in Open Source Development

Subject Description

This course introduces students to the technological, social, and pragmatic aspects of developing open source software through direct involvement in large open source projects. Students will learn to use the tools, techniques, and strategies of open source developers. This is a project-based programming course.

Course Outcomes

Upon successful completion of this course students should be able to:

  • Discuss the issues and currents in open source and open source development
  • Describe the history and philosophy of an open source project
  • Choose between the various open source licenses understanding the implications for users, developers, and the software community in general
  • Use the communication modes particular to the open source world through participation in such things as GitHub, Slack, wikis, etc.
  • Use the tools of open source development, for example: distributed revision control; documentation tools; automated build and test systems; debuggers; source code utilities; tracking systems; on-line resources, etc.
  • Work with a pre-existing large source code base
  • Write software that integrates and interacts with existing open source systems. For example: add-ons; bug fixes; new features; etc.
  • Work collaboratively with fellow students and members of the open source community.

Major Project

This is a project course, and the majority of each student’s mark will come from work done on a real development project. The primary goal of this project is to get students involved in the open source development community and its codebases. Through this experience students will learn about the processes, tools, and practices involved in developing software as part of a large open source community. Students will also have the opportunity to contribute their own code to real-world software projects, thereby gaining important experience.

Philosophy

Many of the practices inherent in open source development will seem to go against the structures often set in place for similar course work. For example, students are typically forbidden to collaborate with peers, to copy from the web, etc. However, these rules must be re-evaluated in the context of proper and pragmatic open source development practices.

First, consider the typical rules around cheating and plagiarism. In this course, students are encouraged to work within the set of best practices natural to open source development. Open source developers do not write from scratch what already exists and is freely available for use. Students should be thinking in terms of code reuse. It is acceptable for students to use code from other open source projects, so long as the license is amenable to the use.

Second, consider the typical restrictions on peer-collaboration. In this project students are encouraged to work together, to help one another, to look at each other's code, etc. Open source collaboration is about leveraging the collective knowledge of a community to help solve the problems of the individual.

Third, consider the sharp dividing line between student projects in most programming courses. For the most part, students are evaluated on their ability to do a particular project or to solve a particular problem on their own. The outcome is measured against peer outcomes. However, in this course students are not in competition with their peers; rather, they are all working on one large project (e.g., Mozilla) with many sub-projects within it. As a result, there is no clean line to divide one student’s work from another, or even student work from that of the open source community. This means that collaboration between students and even other members of the open source community is acceptable practice.

To summarize, students should:

  • Help each other, contribute to one another’s projects
  • Work with and within the open source community
  • Give others encouragement and credit when they offer help
  • Use existing open source code whenever possible
  • Be open to helping others and to being helped

Intellectual Property

Given that this course is focused on open source development, and given that students work on real open source codebases, all student work will become open source. The particular license used will be determined based on the particular project and open source project.

Grading

Detailed grading information will be discussed later in the term. Below is a breakdown of how students will be graded, and this blog post gives more details about the rationale:

  • 60% - Project Deliverables (e.g., code, Pull Requests, documentation), marked in terms of quality, quantity, process, etc.
  • 40% - Labs: There will be approximately 10 labs, each worth 4%.

Students must satisfactorily complete all project deliverables and labs to pass the course.

Resources

Archives