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When using struct parameters in a function, clang will change the function signature. Instead of using a struct type, the signature will be a coerced int of equal size. In my compiler project, I use the llvm struct type for the method signature (which seems more logical).

This wouldn't be a problem, except for the fact that resulting assembly produced by LLVM when using the struct or coerced types are different and not call compatible. This results in my compiler not being ABI compatible with C functions with structs.

Why does clang do this? Is this something specified in the C ABI?

Here's a simple example C source file:

struct TwoInt { int a, b; };

struct EightChar { char a, b, c, d, e, f, g, h; };

void doTwoInt(struct TwoInt a) {}

void doEightChar(struct EightChar a) {}

int main()
{
        struct TwoInt ti;
        struct EightChar fc;

        doTwoInt(ti);
        doEightChar(fc);

        return 0;
}

Resulting LLVM-IR from Clang

%struct.TwoInt = type { i32, i32 }
%struct.EightChar = type { i8, i8, i8, i8, i8, i8, i8, i8 }

define void @doTwoInt(i64 %a.coerce) nounwind uwtable {
  %a = alloca %struct.TwoInt, align 8
  %1 = bitcast %struct.TwoInt* %a to i64*
  store i64 %a.coerce, i64* %1, align 1
  ret void
}

define void @doEightChar(i64 %a.coerce) nounwind uwtable {
  %a = alloca %struct.EightChar, align 8
  %1 = bitcast %struct.EightChar* %a to i64*
  store i64 %a.coerce, i64* %1, align 1
  ret void
}

define i32 @main() nounwind uwtable {
  %1 = alloca i32, align 4
  %ti = alloca %struct.TwoInt, align 4
  %fc = alloca %struct.EightChar, align 1
  store i32 0, i32* %1
  %2 = bitcast %struct.TwoInt* %ti to i64*
  %3 = load i64* %2, align 1
  call void @doTwoInt(i64 %3)
  %4 = bitcast %struct.EightChar* %fc to i64*
  %5 = load i64* %4, align 1
  call void @doEightChar(i64 %5)
  ret i32 0
}

What I would've expected (and what my compiler outputs):

%TwoInt = type { i32, i32 }
%EightChar = type { i8, i8, i8, i8, i8, i8, i8, i8 }

define void @doTwoInt(%TwoInt %a) {
  %1 = alloca i32
  %2 = alloca %TwoInt
  store %TwoInt %a, %TwoInt* %2
  ret void
}

define void @doEightChar(%EightChar %a) {
  %1 = alloca i32
  %2 = alloca %EightChar
  store %EightChar %a, %EightChar* %2
  ret void
}

define i32 @main() {
  %1 = alloca i32
  %ti = alloca %TwoInt
  %fc = alloca %EightChar
  %2 = load %TwoInt* %ti
  call void @doTwoInt(%TwoInt %2)
  %3 = load %EightChar* %fc
  call void @doEightChar(%EightChar %3)
  ret i32 0
}
  • How clang was started? What is your OS and ABI? The ABI is defined not in C/C++ standard, but by OS and its libs, and there is possibility, that your compiler works not according to ABI. – osgx Apr 1 '14 at 10:57
  • Good overview with links to more detailed pages: What is an application binary interface (ABI)? – Andreas Haferburg Feb 8 '18 at 8:27
8

Two month ago there was a thread in llvmdev: [LLVMdev] "Struct parameters being converted to other types" by Jaymie Strecker, Jan 14 19:50:04 CST 2013. She encountered similar problem: "When a function with a struct parameter or return type is compiled with clang -O0 -emit-llvm, the resulting bitcode varies greatly depending on the type of struct.", and clang turned struct into pointer, vector, passed it as several doubles, or merged into single i64 type. Anton Korobeynikov replied at Jan 15 00:41:43 CST 2013:

The struct is lowered to something which corresponds to C/C++ ABI on your platform for passing the struct in proper way.

So, clang does struct passing according to the way used by your OS, libs and native compiler. This is done to allow you build modules, which will work with local libraries. I think that your compiler project uses wrong ABI.

You can fix your compiler project to use platform ABI (convert structs like it was done by clang), OR you can define your own ABI and tune clang to use it.

  • 2
    I guess the real question is why is the "type lowering" done at the llvm-ir level and not the assembly? Is there a reason that front-end compiler writers have to manage the ABI and not LLVM's native code generators? – Justin Apr 2 '14 at 5:49
  • 1
    @Justin: LLVM IR has no way to represent the ABI rules required to properly lower calls. So the task is left to the front-end to produce precise ABI-specific IR sequences. – Eli Bendersky Apr 2 '14 at 13:46
  • @EliBendersky so the Calling Conventions IR attributes are not enough to specify how parameters are passed? The docs aren't entirely clear on this point. – Justin Apr 2 '14 at 17:38
  • @Justin: nope. The front-end performs full ABI lowering like the Itanium ABI – Eli Bendersky Apr 2 '14 at 19:55
  • 2
    @EliBendersky doesn't that break the "intermediate" concept of llvm-ir? I would expect it to have no knowledge of ABI, and generated code to be platform-independant. – Regis Portalez Oct 3 '17 at 8:21

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