The man page for opt says: "It takes LLVM source files as input, runs the specified optimizations or analyses on it, and then outputs the optimized file or the analysis results".

My Goal: To use the inbuilt optimisation pass -dce available in opt. This pass does Dead Code Elimination

My Source file foo.c:

int foo(void)
   int a = 24;
   int b = 25; /* Assignment to dead variable -- dead code */
   int c;
   c = a * 4;
   return c;

Here is what I did:
1. clang-7.0 -S -emit-llvm foo.c -o foo.ll
2. opt -dce -S foo.ll -o fooOpt.ll

What I expect : A .ll file in which the dead code (in source code with the comment) part is eliminated.

What I get: fooOpt.ll is the same as non optimised code foo.ll

I have already seen this SO answer, but I didn't get optimised code.
Am I missing something here? Can someone please guide me on the right path.
Thank you.

1 Answer 1


If you look at the .ll file generated by clang, it will contain a line like this:

attributes #0 = { noinline nounwind optnone sspstrong uwtable ...}

You should remove the optnone attribute here. Whenever a function has the optnone attribute, opt won't touch that function at all.

Now if you try again, you'll notice ... nothing. It still does not work.

This time the problem is that the code is working on memory, not registers. What we need to do is to convert the allocas to registers using -mem2reg. In fact doing this will already optimize away b, so you don't even need the -dce flag.

  • Ok, so for any other optimisation option I want to check, say -constprop, should I use -mem2reg as a default option? Mar 4, 2018 at 8:21
  • 3
    @RahulBharadwaj Yes, many optimizations will only work after local variables have been converted to registers.
    – sepp2k
    Mar 4, 2018 at 8:25
  • Thank you for the answer sir. Mar 4, 2018 at 8:29

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