Once I settled on using Subtext as the blogging solution for the Technology Toolbox site, I turned my attention to working on the other areas of the site (as well as developing the custom blog skin to make the pages rendered by Subtext appear seamless with the other pages on the site).
However, I first needed to come up with a project name.
The only thing worse than a software project without a name is a boat without a name. There’s really no excuse for either one.
During my career, I have been involved in countless software projects. For some of them I came up with the name (e.g. the “Insight” application for Gambro Healthcare and the “Sagacity” project at Time-Warner Telecom) while others already had established project names before I got involved (e.g. the “Frontier” project at Agilent Technologies).
While you certainly don’t want to spend a lot of time coming up with a project name, I think it is definitely worth investing a little bit of effort in finding an inspirational and meaningful name.
You are probably familiar with Microsoft code names based on places or locations (e.g. “Cairo”, “Chicago”, “Everett”, “Whidbey”, “Hatteras”, and “Currituck”) or celestial bodies and related items (e.g. “Jupiter” and “Voyager”).
One source of code names that I’ve used in the past are the names of constellations.
Thus when it came time to name the project for creating the new TechnologyToolbox.com site, I took a look at the list of constellations on Wikipedia. It didn’t take long before I came across “Caelum” which means “the chisel” in Latin.
Given the “Toolbox” portion of my company name, this sounded perfect! “Caelum” would be the tool with which a new site is “sculpted” from nothingness into something glorious. [Imagine trumpets blaring at this point…it’s funnier.]
With that matter out of the way, I proceeded with the rest of the project setup.
Create the project in Team Foundation Server
Once I had a project name (“Caelum”), the next step was to create a corresponding TFS project. I chose to use the MSF for Agile Software Development v5.0 process template. Note that I use my “admin” account (TECHTOOLBOX\jjameson-admin) to create TFS projects and complete other configuration changes.
Next I bulk-loaded my initial list of work items using Microsoft Excel. I’ve listed these initial tasks in a previous post, in case you are interested in what they are.
The first task is to configure the permissions for the TFS project and the second task is to configure permissions on the team project portal. Thus I went through and quickly granted access to my “regular” account (TECHTOOLBOX\jjameson) via a domain group (TECHTOOLBOX\All Developers).
Create initial source tree and Visual Studio solution
At this point, I switched from my admin account to my regular account, created a Visual Studio solution and a couple of projects (i.e. CoreServices and CoreServices.DeveloperTests), and subsequently checked these in to TFS, as illustrated in the following screenshot.
I recommend creating folders like Documents (or “docs” if you prefer that instead), References (or “lib”), Source (or “src”), and Tools under the Main folder.
Shortly after checking in this changeset, I realized that I forgot to add a Source folder under Main and put the solution in there – instead of in the Main folder. Consequently I moved the items to the correct location and checked in the corresponding changeset.
Add custom dictionary to Visual Studio solution
Next, I added a custom dictionary to the Visual Studio solution, as described in one of my earlier blog posts:
Generate strong name key and configure assembly signing
For as long as I’ve been developing on the .NET Framework, I’ve always recommended using a single “snk” file for all projects in a Visual Studio solution. On the last consulting project I worked on before I left Microsoft, the development team used a different key file for each project. Sure, that may be the way Visual Studio 2010 behaves “out-of-the-box” with SharePoint projects, but that doesn’t mean it’s a best practice. In my opinion, have a unique key file per project is a pain in the neck.
For the Caelum solution, I created a single key file, added it to the solution (as well as to the individual projects in the solution), and updated the settings for each project to strong name the assembly using the specified key.
For more details about how to do this, refer to the following post:
Create custom rule set and enable code analysis
People often say “it’s the little things in life…”
One of the subtle changes in Visual Studio 2010 is the way code analysis rules are stored. This was somewhat of a nightmare in Visual Studio 2008 when you tried to compare two versions of a project file to see what changed in the code analysis settings (due to the fact that the enabled rules were specified on a single line in the project file).
Fortunately, in Visual Studio 2010, the list of code analysis rules that are enabled for a particular project is stored outside of the project file (in a .ruleset file).
Even better, you can easily create your own custom rule set that specifies all code analysis rules should be enabled and any violations should be treated as errors:
<?xml version="1.0" encoding="utf-8"?> <RuleSet Name="TechnologyToolbox.Caelum.ruleset" Description="Custom rule set for the TechnologyToolbox.Caelum solution." ToolsVersion="10.0"> <IncludeAll Action="Error" /> </RuleSet>
This is how I prefer to start out. I then disable specific rules if I find them to be inapplicable and I can’t otherwise easily disable them in GlobalSuppressions.cs.
Add “SharedAssemblyInfo” and “AssemblyVersionInfo” files to Visual Studio solution
Next I created SharedAssemblyInfo.cs and AssemblyVersionInfo.cs files and added these to the Visual Studio solution and projects. You can read more about these files in the following post:
Create custom Team Foundation Build workflow to increment the assembly version with each build
As described in one of my Top 10 most popular blog posts, I strongly recommend that you increment the assembly version automatically as part of every build performed on the Build Server (i.e. through TFS Build):
If you are not sure how to do this, and you are using TFS 2010, refer to the following post for step-by-step details on how to accomplish this:
Configure TFS check-in policies
With the basic setup of the project completed, I switched back to my admin account and configured a number of TFS check-in policies on the project, as described in the following post:
If you are wondering why I didn’t configure these check-in policies earlier, the answer is that I do it this way in order to avoid issues when enabling code analysis on the Visual Studio projects. For example if, like me, you configure code analysis to treat all violations as errors (instead of warnings) then your solution won’t build if you haven’t yet generated a strong name key and configured assembly signing. And if your solution doesn’t build (and you’ve added a “Builds” check-in policy), then you can’t check-in a changeset (unless you override the warning, but I rarely choose to do that).
Create Web site project
With a solid foundation in place, the final step was to create a new ASP.NET Web project and add it to the solution. Note that like the CoreServices and CoreServices.DeveloperTests projects, the Website project includes the following linked files:
Similarly, it is configured to treat all warnings as errors (under the Build section in the project properties) and it uses the same code analysis rule set described earlier.
Consequently, I had to make a number of changes to the default code generated by Visual Studio in order to get the project to compile successfully.
Enabling code analysis (and choosing to treat all violations as errors instead of warnings) definitely comes with a little “pain” in the beginning. However, as you may have heard me say in the past, this is trivial compared to the pain of enabling code analysis later on (after you have a substantial code base already written).