Building C/C++: what really happens and why does it take so long
A relatively large portion of software development time is not spent on writing, running, debugging or even designing code, but waiting for it to finish compiling.
In order to make things fast, we first have to understand what is happening when C/C++ software is compiled. The steps are roughly as follows:
- Build tool startup
- Dependency checking
We will now look at each step in more detail focusing on how they can be made faster.
This is the first step when starting to build. Usually means running a configure script or CMake, Gyp, SCons or some other tool. This can take anything from one second to several minutes for very large Autotools-based configure scripts.
This step happens relatively rarely. It only needs to be run when changing configurations or changing the build configuration. Short of changing build systems, there is not much to be done to make this step faster.
Build tool startup
This is what happens when you run make or click on the build icon on an IDE (which is usually an alias for make). The build tool binary starts and reads its configuration files as well as the build configuration, which are usually the same thing.
Depending on build complexity and size, this can take anywhere from a fraction of a second to several seconds. By itself this would not be so bad. Unfortunately most make-based build systems cause make to be invocated tens to hundreds of times for every single build. Usually this is caused by recursive use of make (which is bad).
It should be noted that the reason Make is so slow is not an implementation bug. The syntax of Makefiles has some quirks that make a really fast implementation all but impossible. This problem is even more noticeable when combined with the next step.
Once the build tool has read its configuration, it has to determine what files have changed and which ones need to be recompiled. The configuration files contain a directed acyclic graph describing the build dependencies. This graph is usually built during the configure step.
Build tool startup time and the dependency scanner are run on every single build. Their combined runtime determines the lower bound on the edit-compile-debug cycle. For small projects this time is usually a few seconds or so. This is tolerable.
There are alternatives to Make. The fastest of them is Ninja, which was built by Google engineers for Chromium.
If you are using CMake or Gyp to build, just switch to their Ninja backends. You don’t have to change anything in the build files themselves, just enjoy the speed boost. Ninja is not packaged on most distributions, though, so you might have to install it yourself.
At this point we finally invoke the compiler. Cutting some corners, here are the approximate steps taken.
- Merging includes
- Parsing the code
- Code generation/optimization
Contrary to popular belief, compiling C++ is not actually all that slow. The STL is slow and most build tools used to compile C++ are slow. However there are faster tools and ways to mitigate the slow parts of the language.
Using them takes a bit of elbow grease, but the benefits are undeniable. Faster build times lead to happier developers, more agility and, eventually, better code.