As this question shows, with g++, I can do
g++ -S -masm=intel test.cpp.
Also, with clang, I can do
clang++ -S test.cpp, but
-masm=intel is not supported by clang (
warning argument unused during compilation: -masm=intel). How do I get intel syntax with clang?
As noted below by @thakis, newer versions of Clang (3.5+) accept the
For older versions, this should get clang to emit assembly code with Intel syntax:
clang++ -S -mllvm --x86-asm-syntax=intel test.cpp
You can use
-mllvm <arg> to pass in llvm options from the clang command line. Sadly this option doesn't appear to be well documented, and thus I only found it by browsing through the llvm mailing lists.
3llvm.org/bugs/show_bug.cgi?id=17465 requests support for -masm=intel and beyond.– Trass3rOct 22, 2013 at 15:30
@dcoles Not working for clang 3.7. I executed
$clang -S -mllvm --x86-asm-syntax=intel file.c. Am I doint something wrong here? It's not giving any error and silently exiting.– S SAug 6, 2015 at 16:28
1@saumya-suhagiya I've just confirmed that this still works with clang 3.8.0-svn244195-1~exp1. The command shown above will generate a file called
test.s. You change this output location to a custom location using the
-o <path>option.– dcolesAug 6, 2015 at 16:58
1@dcoles Hi, perhaps a not so smart question. Is it possible to compile and link the assembly code with
nasm? Jan 29, 2016 at 21:55
1@AlexanderCska I'm not sure this is possible without some manual fixup. While the syntax for NASM is similar to Intel's, there is some incompatibilities between them.– dcolesFeb 2, 2016 at 23:20
As of clang r208683 (clang 3.5+), it understands
-masm=intel. So if your clang is new enough, you can just use that.
It seems to me that the code generated by
-masm=intelcannot be compiled by
clangagain? I am running clang 3.8.– Yai0PhahJun 12, 2019 at 11:56
Presuming you can have Clang emit normal LLVM byte codes, you can then use llc to compile to assembly language, and use its
--x86-asm-syntax=intel option to get the result in Intel syntax.
Thanks again. I also found out
llcby default turns optimizations on (-02) while gcc and clang use no optimizations (-O0) by default (it took me forever to figure out why the assembly output was different). Jun 12, 2012 at 4:18
.bcfile with clang and then sucessfully output the Intel assembly with
llc. Mind making that an answer?