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Just to be sure: Is LLVM bitcode cross-platform? By which I mean, can the generated IR (".bc") file be distrubuted and interpreted/JITed over various platforms?

If so, how does Clang convert C++ into platform independend code? While in the C++ language itself, preprocessors for determining it's target platform are used before it actually compiles.

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If the object is entirely self-contained, it could be interpreted on a different platform. But since the ABI will be different, it will have a hard time using the rest of the system. –  Marc Glisse Jan 10 '13 at 12:57
    
I assume that llvm.org/docs/LangRef.html would be completly platform independend. What do you mean exactly by 'hart time using the rest of the system'? –  Tim Jan 10 '13 at 13:07
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@Tim - Will the code use any OS calls? How portable are they? –  Bo Persson Jan 10 '13 at 13:26
    
@BoPersson Well the C++ standard library uses OS calls I assume. –  Tim Jan 10 '13 at 13:29
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This sounds like Google's PNaCl project, which uses LLVM bitcode as architecture-independent Native Client executables, the idea being to distribute (untrusted) bitcode, JIT it, and run it inside a web browser regardless of processor type. The PNaCl paper explains many of the issues involved. You might also be interested in the specifics of their bitcode ABI. –  willglynn Jan 10 '13 at 14:14

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up vote 13 down vote accepted

LLVM IR can be cross-platform, with the obvious exceptions others have listed. However, that does not mean Clang generates cross-platform code. As you note, the preprocessor is almost universally used to only pass parts of the code to the C/C++ compiler, depending on the platform. Even when this is not done in user code, many system headers include a bit or two that's platform-specific, such as typedefs. For example, if you compile C code using size_t to LLVM IR on a platform where size_t is 32 bit, the LLVM IR now uses i32 for that, and there's no way in hell you can reverse engineer that to fix it.

Google's Portable Native Client project (thanks @willglynn for the link), if I understand it correctly, achieves portability by fixing the ABI for all target platforms. So in that sense, it doesn't solve the aforementioned issues: The LLVM IR is not portable to platform with a different ABI. The only reason this is more portable is that the clients provide a layer which matches the PNaCl ABI to the actual ABI. In other words, PNaCl code isn't portable to many platforms, the "PNaCl VM" is.

So, bottom line: If you're very careful, you can use LLVM IR across multiple platforms, but not without doing significant additional work (which Clang doesn't do) to abstract over the ABI differences.

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Given an IR file, can I be sure it could compile to my target?

You can not assume an arbitrary IR file will always be cross-platform, as there are things in a given file that might not be platform-independent. The most notable example is that the IR can contain actual assembler sequences (via module-level or inline assembly segments), but there are other examples - e.g. usage of target specific intrinsics or calling conventions that are only supported on some targets.

Can I generate an IR file that is guaranteed to compile on all targets?

I don't know, but I believe you can, especially if you avoid specifying things like inline assembly, calling conventions, required / preferred ABI for types, etc. It can affect the optimizations the compiler will perform, though.

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