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my dotnet code base is pretty big (so I don't feel like undertaking refactor into assemblies project) but doesn't change all that much. The build is real slow, although disk speed is fine - apparently it just takes awhile to compile the thing. So IMHO it would have made good sense for the compiler to cache compiled versions of files that haven't changed since last build in the optimistic expectation that no change in another file broke the module. Then if the optimistic assumption proved invalid, the full build could be undertaken. Well, I am pretty sure that things like that are often done while using Java and C++ compilers.

Could something like that be done here in dotnet? If not, why not :-) ?

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what makes you so sure this behavior exists for Java and C++. any prior experience to back this up?. As a side note, have you ever built a huge C++ solution ?. You would think .NET compiles at warp speed compared to that – AZ. Feb 18 '11 at 17:01
so I don't feel like undertaking refactor into assemblies project - which of course is exactly what you need to do. – Hans Passant Feb 18 '11 at 17:04
@AZ: C/C++ does compile each file individually and thus "caches" the compile (as opposed to the linker, that always needs all compiled files to put together the exe/dll/lib. Edit: No wait, we even have incremental linkers. – TToni Feb 18 '11 at 17:08
@TToni is correct. Also, @AZ, .NET languages compile faster because C++ can (and for sufficently large projects propably will) do heavy compile-time programming (templates - just think Boost), not to mention that optimizations and native code generation are done during compilation (in .NET, they're left to the JIT and the target format - bytecode - is much more high-level). The grammar propably makes parsing easier as well. – delnan Feb 18 '11 at 17:13
According to the documentation, the C# command line compiler used to have an /incremental switch, but it was obsoleted in Visual Studio 2005. So it apparently was done at some point, but the functionality was removed. Why? Who knows. – Jim Mischel Feb 18 '11 at 17:15
up vote 4 down vote accepted

Visual Studio doesn't rebuild an assembly unless it has to. It "has to" when any of the following change:

  • Assembly properties such as Target CPU/Framework
  • Dependencies in referenced assemblies (if object A1 in assembly A requires B1 in B, and B1 changes, assemblies A and B must be rebuilt)
  • Source code that will compile into the assembly (obviously)

Also, build speed is less dependent on pure code count, or even class count, but the number of projects being built. Given a constant number of lines of code that must be fully rebuilt, a solution that builds into one assembly will build faster than a solution that builds into 10 assemblies, because there is a lot of overhead inherent in building an assembly that is repeated on each assembly.

Here are some basic tips to increase build speed:

  • Try to keep changes at as "high" a level in the assembly reference hierarchy as possible. When A is dependent on B and B is dependent on C, if A changes, only A has to be rebuilt, but if B or C change, anything higher must also be rebuilt. This isn't always possible, but reducing the number of assemblies will reduce this hierarchy so even when you have to rebuild a lower one, there are fewer other assemblies reliant on it.
  • Loosely couple your code by using interfaces for any cross-assembly dependency, and segregate interfaces into their own assembly. Class A dependent on a class B will have to be rebuilt if B changes. However, if A is instead dependent on an interface I which B implements, A won't have to be rebuilt if B changes; only if I does (which is far less common). However, VS builds assemblies; if I is in the assembly with B, the assembly containing A will have to be rebuilt if B changes even though I didn't.
  • Create build configurations that only build what is absolutely necessary for that configuration. A Debug build should not rebuild the installer. By the same token, a Release build should not rebuild testing assemblies. However, by default, new projects are set to be included in every build configuration, so you have to maintain these configurations regularly.
  • On the installer front, see if you can separate building that into a configuration all its own. Installers are easily the slowest single build of any solution rebuild; first they double-check that all assemblies are built, then they collect everything that they need to include and archive it into a CAB, that is THEN encapsulated with the install logic in the MSI. Avoid building this unless you are actually producing a release candidate.
  • Only do a "Rebuild Solution" when you have to. Rebuild Solution performs a "Clean" plus a "Build", resulting in EVERYTHING having to be recreated.
  • Minimize post-build actions. Similarly to creating configs that cut out unneeded assemblies, creating configs that allow you to skip post-build actions when not needed, or simply rearranging your solution so the build ends up in the right place to begin with, will speed you up considerably.
  • Tools like ReSharper or SVN clients, and indexing helpers go crazy when you rebuild, reanalyzing the new assemblies, determining changes, etc. Make sure the Windows Indexing service does not index your source code directories or any build output locations, turn off ReSharper Solution Analysis, and don't include the build output in SVN versioning.
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I assume you use Visual Studio and have all your projects in one solution? In that case the compiler usually builds only the projects where something has changed and the ones dependent from them.

If you compile all your code into one Assembly (you have only one project in the solution) then the compiler caches nothing. Each Dll is always build fully from all its source. There are no object files like in C/C++.

The proper way to go in that case is to break the code into multiple assemblies (one assembly per class is the rule of thumb/best practice).

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Simple. Split the code into multiple smaller projects/assemblies. They will not get recompiled if no change detected. At source file level this is pretty impossible as a source file is hardly an independent unit of code

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Not quite. If A is dependent on B, and B changes, both assemblies get rebuilt even if no code in a had to be changed. – KeithS Feb 18 '11 at 17:20

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