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I am interested in language creation and compiler construction, and have been working through the example here: The author was using LLVM 2.6, and after making a couple changes for LLVM 2.7, I got all the code generation code to compile. When feeding the complier the test code,

int do_math( int a ) {
  int x = a * 5 + 3

do_math( 10 )

the program works correctly until it tries to run the code, at which point it segfaults. I am in the process of building LLDB on my system, but it the meantime, anyone see an obvious seg fault in this LLVM asm?

; ModuleID = 'main'

define internal void @main() {
  %0 = call i64 @do_math(i64 10)                  ; <i64> [#uses=0]
  ret void

define internal i64 @do_math(i64) {
  %a = alloca i64                                 ; <i64*> [#uses=1]
  %x = alloca i64                                 ; <i64*> [#uses=1]
  %1 = add i64 5, 3                               ; <i64> [#uses=1]
  %2 = load i64* %a                               ; <i64> [#uses=1]
  %3 = mul i64 %2, %1                             ; <i64> [#uses=1]
  store i64 %3, i64* %x
  ret void

The output is just:

Segmentation fault

My arch is OS X x86_64.


share|improve this question
up vote 10 down vote accepted

I got same problem. I stripped down Loren's compiler and everything was working fine except execution.

Segmentation fault was caused by the fact that:

ExecutionEngine *ee = EngineBuilder(module).create();

returns NULL. To see the actual error, you need to get error string:

std::string error; ExecutionEngine *ee = EngineBuilder(module).setErrorStr(&error).create();

In your case you should probably see:

"Unable to find target for this triple (no targets are registered)

To fix that you need to call


But if you get:

JIT has not been linked in.

You should include:


which will link JIT engine.

share|improve this answer

The LLVM ASM you posted isn't a correct translation of the C code you presented. You're allocating %a as a stack variable, and then loading uninitialized data from it and using it. What you want to be doing is naming your argument %a and using that value. Try using this code instead:

define internal i64 @do_math(i64 %a) {
  %x = alloca i64                                 ; <i64*> [#uses=1]
  %1 = add i64 5, 3                               ; <i64> [#uses=1]
  %2 = mul i64 %a, %1                             ; <i64> [#uses=1]
  store i64 %2, i64* %x
  ret void

Also, your main() prototype might not match what your C runtime library expects. And, beyond that, you do realize that you're not returning the result from do_math(), right?

share|improve this answer
The code isn't exactly 'C Code', it's a C-like language, that is built in the tutorial I linked to. I understand that the 'do_math' function doesn't return the int like it says it should. The ASM is generated from an AST and some code generation code, so I will see if I can find out why it's trying to use uninitialized data. – Paul Woolcock Aug 10 '10 at 11:43

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