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What is the LLVM way to extract values from an array of unions? Unions are not directly supported and this seems to complicate things.

Background: I am calling a function returned by the JIT execution machine and pass it 1 argument, namely the base address of an array of unions which contains the arguments.

The data structure is set up from C like:

std::array<union{int,float*}> arguments(5);

The sequence of occurences of int and float* is encoded in a vector<llvm::Type*>:


Right now I am trying this (this is the jitted function):

define void @main([8 x i8]* %arg_ptr) {
   %0 = getelementptr [8 x i8]* %arg_ptr, i32 0
   %1 = getelementptr [8 x i8]* %arg_ptr, i32 1
   %2 = getelementptr [8 x i8]* %arg_ptr, i32 2
   %3 = getelementptr [8 x i8]* %arg_ptr, i32 3
   %4 = getelementptr [8 x i8]* %arg_ptr, i32 4

First of all, is the functions' signature correct (assuming pointer size is 8 bytes)?

How do I get the first i32 out of the [8 x i8] stored in %0?

Do I need to cast the array [8 x i8] first to a pointer i32*, then create another GEP to its first element?

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1 Answer 1

up vote 2 down vote accepted

Note that LLVM IR does not really have unions. What happens in practice is that Clang (which is aware of the target triple, so the details are platform/ABI specific) will create a single-element struct big enough to contain you union and act on that. Here's some C code:

typedef union {
  double dnum;
  int inum;
  float* fptr;
} my_union;

int bar(my_union* mu) {
  return mu[4].inum;

Converting this to LLVM IR with clang (using the default target on a x86-64 machine, we get this (optimized code, to reduce clutter):

%union.my_union = type { double }

define i32 @bar(%union.my_union* nocapture readonly %mu) #0 {
  %arrayidx = getelementptr inbounds %union.my_union* %mu, i64 4
  %inum = bitcast %union.my_union* %arrayidx to i32*
  %0 = load i32* %inum, align 4
  ret i32 %0

A few things to note here, with answers to some of the sub-questions embedded in your question:

  • The union is replaced by the C type struct {double} because that's large enough to contain all union members, and it also provides the correct alignment constraints. LLVM knows absolutely nothing about unions. From this point on, it acts on a struct aggregate.
  • Access to array members in LLVM is done with a GEP which gets two numeric indices. For an in-depth explanation of why it works this way, see
  • Once you have the member, you just load the value from it. Clang knows how members are laid out within an enum, so it loads a i32* directly from the member.
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Nice idea to take a look what clang does. So it does the same up to %arrayidx and then does a bitcast. That's what I thought. The only thing not understood is align 4. We are in an 8 byte structure, this is naturally alligned to 8 bytes, right? Why would it add the alignment of 4 to the load instruction? – wpunkt Oct 23 '13 at 19:34
@wpunkt: note that the load acts on i32* so an alignment of 8 is not required, strictly speaking. – Eli Bendersky Oct 23 '13 at 20:29

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