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There are a lot of compilers for C++. Aside from cost, why would I use one compiler over another?

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Is cost not enough? Are you doing this as a hobby or professionally? What platforms are you targeting? What type of applications are you planning on building? What performance characteristics do you need? –  Loki Astari Nov 17 '10 at 6:25

5 Answers 5

up vote 21 down vote accepted

There may be several reasons.


You may have no choice but to use a free compiler. Thankfully, there are several: GCC, Clang/LLVM, Visual Studio Express, among others.


For whatever reason, your company or group may have already standardized on one specific compiler. This is the compiler you will use, and it will be very difficult to change to a different one.

Or if you're developing iOS apps for the iPhone and friends, the only compiler Apple has granted their Blessing is the one bundled with XCode. They keep changing their developer policies, so I'm not entirely sure if they allow anything else to taint their platform.

Historical or Technical

If you're maintaining an old application, it's likely that it compiles only in one specific compiler, or, worse, one specific version of a specific compiler. Some projects require the use of the ancient Visual C++ 6 compiler, simply because the project contains so much old, badly-written code that wouldn't compile on anything else.

Or the code might link with old binaries that use a particular ABI that the chosen compiler happens to support.

Ethical or Philosophical

You may have particular philosophical leanings which dictate a certain ethos in your life and dealings. For example, you may believe strongly in the Free Software Movement. In that case, you are likely to choose a compiler like GCC, Clang, OpenWatcom, or possibly Open64, which are Free in the sense that the source code is available for continued improvements.


You may just find yourself under pressure from others to use a compiler because it's the one they like. Not a particularly good reason to choose a compiler, but we're not here to judge. Much.


Certain compilers and IDEs are only available on certain platforms and there's a strong preference among programmers on that platform to use the native compiler, whether or not it's justified.

  • On Windows, most people use Visual Studio, so most Windows programmers use and prefer it. Most Windows-specific code samples also often use VC++-specific features or make assumptions to that effect. There are several other compilers, but are not often used generally.
  • On Mac OS X, most people use XCode, which uses an old version of GCC (or, as I understand it, they're recently switching to Clang), so that is the preferred compiler. It's also among the few with any reasonable Objective-C support, so there are few options otherwise.
  • On Linux, everyone uses GCC, because that's the only compiler the Linux Kernel sources support as a host compiler. So, everything is built with GCC, and GCC is provided in every distribution. A few renegade mavericks use Intel's compiler. One enterprising lad successfully compiled Linux with Clang. There are lots of compilers, but few as well-supported as GCC.
  • The BSD variants like FreeBSD have historically used GCC as their compiler, but some are evidently beginning to support Clang.
  • On Sun/Oracle Solaris, the Sun compiler is strongly preferred, and only GCC and possibly Clang are otherwise available, I think.
  • And so on.


Few compilers support compiling for other platforms as well as GCC. If, for example, you need to build your program for a PowerPC-based platform and all you have access to is an x86 system, GCC can be built as a cross compiler with an x86 host and PPC target and it will build your binaries as if you were running on the PowerPC system. Clang also has ARM support, and other compilers may have varying target support. But to my knowledge only GCC has more than 25 targets. :)


GCC 4.5 and Visual Studio are at the forefront with C++0x support. Not very many other compilers claim as much support for the new standard, as far as I know. If you want C++0x features, these are the ones you use.

Standards compliance

Comeau seems to be the "platinum standard" in terms of being compliant to the C++ standard, and other compilers have varying levels of support for standard C++ language semantics and features. VC++ is evidently missing some useful features, and GCC, I know, has incomplete support for others. If portability is at all a concern, you will likely choose a compiler by its standards-compliance.


A few compilers have some really impressive optimization features, notably Intel's. Parallelization is a difficult optimization to tackle, and Intel's engineers did a good job of it. Or you might use Clang/LLVM or Visual C++ or another for link-time optimization (also known as "whole-program optimization.")

Features vary a great deal.

Personal preference

You might simply just like one compiler over all others. You don't need a reason.

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Thesis as a posting :-) I think this is the most complete and comprhensive answer I have seen on Stackoverflow. The only thing missing is library support. i.e. If you need to access the winapi or COM objects its a lot easier you use the whole MS stack inclding visual c++. –  James Anderson Nov 17 '10 at 6:31
@Greyfade: Excellent answer, if you would just add a point about strict compliance with the standard... :) –  Armen Tsirunyan Nov 17 '10 at 8:10
@greyfade: regarding Linux, Clang builds FreeBSD lists.freebsd.org/pipermail/freebsd-current/2009-February/… –  Matthieu M. Nov 17 '10 at 8:37
@greyfade: there's no mention of the Comeau compiler, which is often regarding as having one of the most compliant implementation of all, and there is no mention of compliance either for that matter. People interested in portable code would probably value the compliance of the compiler to the standard. –  Matthieu M. Nov 17 '10 at 9:06
cross compiling also adds an extra level of complexity for the practical section, you may not be developing on your target platform –  jk. Nov 17 '10 at 9:52

Different compilers have varying levels of standards compliance. Also the different compilers have different types of optimizations that they may perform.

Current versions of both gcc and msvc++ score well in both of these categories.

Fortunately, both are available for free (gcc and msvc++ express):

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  • compilers may take different amounts of time to compile the sources (may also be a function of the compilation flags, mix of templates, recursion etc.)
  • compilers can have different optimisation abilities (for execution speed, executable size, run-time memory usage, and may vary across the platforms you build for)
  • compilers vary in their support for various language and platform Standards, including some that aren't finalised (e.g. C++0x)
  • compilers offer different non-standard extensions - this can be both a reason to adopt them, and a problem when wanting to move off them
  • some compilers may integrate better into other tool chains (e.g. a particular editor may have existing parsing rules for their warning/error messages)
  • some compilers check the program more thoroughly for potentially accidental mistakes, issuing warnings
  • some have better warning and error messages than others (for some definition of better, e.g. some people prefer terse and others like exhaustive, some like Standard-ese and others some attempt to explain for a beginner, or intermediate programmer)
  • some let you save intermediate results like preprocessed output before or after macro expansion, assembly output etc.
  • some are Open Source, meaning you can potentially read, fix, enhance etc. them, and you can (given time) verify they're not doing anything malign (like the Intel compiler that turned off optimisations for AMDs)
  • some compilers produce debug symbol information that works better with particular debuggers
  • objects created by different debuggers may mangle their symbols differently, pushing people linking to existing objects to adopt the same compiler
  • portability - which systems does the compiler run on? what systems can it produce binaries for?
  • guaranteed future availability / many Open Source licenses guarantee you can keep using the software indefinitely, whereas with some licenses you may be in trouble if the vendor starts pricing the product unreasonably or goes bankrupt
  • certification: some people require that you use a specific compiler when building for their environment
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You mention the Intel compiler on AMD scandal. How's this for irony: Even with the apparently malignant changes for AMD, Intel's compiler still produced better binaries for AMD processors than anyone else, while Microsoft's compiler did a better job on Intel's CPUs than Intel's own compiler at the same time! I don't recall where I saw it, but I lol'd when I saw the numbers. –  greyfade Nov 17 '10 at 15:51

Because your company tells you to.

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While this is true, it's hardly useful. You could give this answer to any question of the form "why would I do...?" –  James McNellis Nov 17 '10 at 6:17

C++ mandates that linker symbols be mangled (basically encrypted, though not securely) in an implementation defined, vendor specific way, so that code compiled with incompatible ABI's cannot be accidentally linked together.

Thus, if you must use a C++ library, but do not have access to its source code, then you must also use the same compiler as was used to compile that library. This issue is specific to C++ and does not apply to C or most other languages, for that matter.

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Symbols aren't encrypted. Quite the contrary. Name mangling schemes are devised specifically to allow the compiler to assign a guaranteed-unique name to overloaded functions, member functions, and functions within disparate namespaces. –  greyfade Nov 17 '10 at 6:12
@greyfade: the point is that from a human-readability point of view, many compilers' mangling approaches encryption ;-). –  Tony D Nov 17 '10 at 6:16
@Tony: Not if you've got a debugger or symbol explorer to parse it. Or if you've spent enough time with your compiler to be able to recognize mangled symbols. I know I've gotten pretty good at mentally parsing GCC's symbols. –  greyfade Nov 17 '10 at 6:18
@greyfade: Ummm... 'most any encoding can be made readable with the right tool, so? Familiarity... well, I used to be pretty handy disassembling Z80 machine code from hex in my head, but that doesn't mean it's not faster and more accurate to read disassembler output. And rough decoding's massively easier than accurate encoding: with a demangler (e.g. compiler-bundled c++filt), you can then grep and cut-&-paste etc. easily. –  Tony D Nov 17 '10 at 7:30
The key point I was trying to make is that the mangling used is vendor specific, and that's in accordance with the standard. It could have been the other way. The standard could have specified the encoding, and it could have also specified the ABI, but instead it left the ABI to be implementation defined and uses the name mangling as a guard around that. –  IfLoop Nov 17 '10 at 7:53

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