How do you organize your version control repository?

First, I know about this: How would you organize a Subversion repository for in house software projects? Next, the actual question: My team is restructuring our repository and I'm looking for hints on how to organize it. (SVN in this case). Here's what we came up with. We have one repository, multiple projects and multiple svn:externals cross-references

commonTools /*tools used in all projects. Referenced in each project with svn:externals*/
   NUnit.v2.4.8
   NCover.v.1.5.8
   <other similar tools>
commonFiles /*settings strong name keys etc.*/
   ReSharper.settings
   VisualStudio.settings
trash /*each member of the team has trash for samples, experiments etc*/
   user1
   user2
projects
   Solution1 /*Single actual project (Visual Studio Solution)*/
      trunk
         src
             Project1 /*Each sub-project resulting in single .dll or .exe*/
             Project2
         lib
         tools
         tests
         Solution1.sln
      tags
      branches
   Solution2
      trunk
         src
             Project3 /*Each sub-project resulting in single .dll or .exe*/
             Project1 /*Project1 from Solution1 references with svn:externals*/
         lib
         tools
         tests
         Solution2.sln
      tags
      branches

To clear the vocabulary: Solution means single product, Project is a Visual Studio Project (that results in a single .dll or single .exe)

That's how we plan to lay out the repository. The main issue is, that we have multiple Solutions, but we want to share Projects among Solutions. We thought that there is no point really in moving those shared Projects to their own Solutions, and instead we decided to use svn:externals to share Projects among Solutions. We also want to keep common set of tools and 3rd party libraries in one place in the repository, and them reference them in each Solution with svn:externals.

What do you think about this layout? Especially about the use of svn:externals. It's not an ideal solution, but considering all pros and cons, it's the best we could think of. How would YOU do it?


If you follow my recommendations below (I have for years), you will be able to:

-- put each project anywhere in source control, as long as you preserve the structure from the project root directory on down

-- build each project anywhere on any machine, with minimum risk and minimum preparation

-- build each project completely stand-alone, as long as you have access to its binary dependencies (local "library" and "output" directories)

-- build and work with any combination of projects, since they are independent

-- build and work with multiple copies/versions of a single project, since they are independent

-- avoid cluttering your source control repository with generated files or libraries

I recommend (here's the beef):

  • Define each project to produce a single primary deliverable, such as an .DLL, .EXE, or .JAR (default with Visual Studio).

  • Structure each project as a directory tree with a single root.

  • Create an automated build script for each project in its root directory that will build it from scratch, with NO dependencies on an IDE (but don't prevent it from being built in the IDE, if feasible).

  • Consider nAnt for .NET projects on Windows, or something similar based on your OS, target platform, etc.

  • Make every project build script reference its external (3rd-party) dependencies from a single local shared "library" directory, with every such binary FULLY identified by version: %DirLibraryRoot%ComponentA-1.2.3.4.dll , %DirLibraryRoot%ComponentB-5.6.7.8.dll .

  • Make every project build script publish the primary deliverable to a single local shared "output" directory: %DirOutputRoot%ProjectA-9.10.11.12.dll , %DirOutputRoot%ProjectB-13.14.15.16.exe .

  • Make every project build script reference its dependencies via configurable and fully-versioned absolute paths (see above) in the "library" and "output" directories, AND NO WHERE ELSE.

  • NEVER let a project directly reference another project or any of its contents--only allow references to the primary deliverables in the "output" directory (see above).

  • Make every project build script reference its required build tools by a configurable and fully-versioned absolute path: %DirToolRoot%ToolA1.2.3.4 , %DirToolRoot%ToolB5.6.7.8 .

  • Make every project build script reference source content by an absolute path relative to the project root directory: ${project.base.dir}/src , ${project.base.dir}/tst (syntax varies by build tool).

  • ALWAYS require a project build script to reference EVERY file or directory via an absolute, configurable path (rooted at a directory specified by a configurable variable): ${project.base.dir}/some/dirs or ${env.Variable}/other/dir .

  • NEVER allow a project build script to reference ANYTHING with a relative path like .somedirshere or ..somemoredirs , ALWAYS use absolute paths.

  • NEVER allow a project build script to reference ANYTHING using an absolute path that does not have a configurable root directory, like C:somedirshere or serversharemorestuffthere .

  • For each configurable root directory referenced by a project build script, define an environment variable that will be used for those references.

  • Attempt to minimize the number of environment variables you must create to configure each machine.

  • On each machine, create a shell script that defines the necessary environment variables, which is specific to THAT machine (and possibly specific to that user, if relevant).

  • Do NOT put the machine-specific configuration shell script into source control; instead, for each project, commit a copy of the script in the project root directory as a template.

  • REQUIRE each project build script to check each of its environment variables, and abort with a meaningful message if they are not defined.

  • REQUIRE each project build script to check each of its dependent build tool executables, external library files, and dependent project deliverable files, and abort with a meaningful message if those files do not exist.

  • RESIST the temptation to commit ANY generated files into source control--no project deliverables, no generated source, no generated docs, etc.

  • If you use an IDE, generate whatever project control files you can, and don't commit them to source control (this includes Visual Studio project files).

  • Establish a server with an official copy of all external libraries and tools, to be copied/installed on developer workstations and build machines. Back it up, along with your source control repository.

  • Establish a continuous integration server (build machine) with NO development tools whatsoever.

  • Consider a tool for managing your external libraries and deliverables, such as Ivy (used with Ant).

  • Do NOT use Maven--it will initially make you happy, and eventually make you cry.

  • Note that none of this is specific to Subversion, and most of it is generic to projects targeted to any OS, hardware, platform, language, etc. I did use a bit of OS- and tool-specific syntax, but only for illustration--I trust that you will translate to your OS or tool of choice.

    Additional note regarding Visual Studio solutions: don't put them in source control! With this approach, you don't need them at all or you can generate them (just like the Visual Studio project files). However, I find it best to leave the solution files to individual developers to create/use as they see fit (but not checked in to source control). I keep a Rob.sln file on my workstation from which I reference my current project(s). Since my projects all stand-alone, I can add/remove projects at will (that means no project-based dependency references).

    Please don't use Subversion externals (or similar in other tools), they are an anti-pattern and, therefore, unnecessary.

    When you implement continuous integration, or even when you just want to automate the release process, create a script for it. Make a single shell script that: takes parameters of the project name (as listed in the repository) and tag name, creates a temporary directory within a configurable root directory, checks out the source for the given project name and tag name (by constructing the appropriate URL in the case of Subversion) to that temporary directory, performs a clean build that runs tests and packages the deliverable. This shell script should work on any project and should be checked into source control as part of your "build tools" project. Your continuous integration server can use this script as its foundation for building projects, or it might even provide it (but you still might want your own).

    @VonC: You do NOT want to work at all times with "ant.jar" rather than "ant-abcdjar" after you get burned when your build script breaks because you unknowingly ran it with an incompatible version of Ant. This is particularly common between Ant 1.6.5 and 1.7.0. Generalizing, you ALWAYS want to know what specific version of EVERY component is being used, including your platform (Java ABCD) and your build tool (Ant EFGH). Otherwise, you will eventually encounter a bug and your first BIG problem will be tracking down what versions of your various components are involved. It is simply better to solve that problem up front.


    我相信,使用Subversion的实用版本控制拥有组织仓库所需的一切。


    We've set ours up to almost exactly match what you've posted. We use the general form:

    Project1
       Development (for active dev - what you've called "Trunk", containing everything about a project)
       Branches (For older, still-evolving supported branches of the code)
           Version1
           Version1.1
           Version2
       Documentation (For any accompanying documents that aren't version-specific
    

    While I suppose not as complete as your example, it's worked well for us and lets us keep things separate. I like the idea of each user having a "Thrash" folder as well - currently, those types of projects don't end up in Source control, and I've always felt that they should.

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