How does one do this?
If I want to analyze how something is getting compiled, how would I get the emitted assembly code?
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How does one do this?
If I want to analyze how something is getting compiled, how would I get the emitted assembly code?
Use the -S
option to gcc (or g++).
gcc -S helloworld.c
This will run the preprocessor (cpp) over helloworld.c, perform the initial compilation and then stop before the assembler is run.
By default this will output a file helloworld.s
. The output file can be still be set by using the -o
option.
gcc -S -o my_asm_output.s helloworld.c
Of course this only works if you have the original source.
An alternative if you only have the resultant object file is to use objdump
, by setting the --disassemble
option (or -d
for the abbreviated form).
objdump -S --disassemble helloworld > helloworld.dump
This option works best if debugging option is enabled for the object file (-g
at compilation time) and the file hasn't been stripped.
Running file helloworld
will give you some indication as to the level of detail that you will get by using objdump.
.intel_syntax
is not compatible with NASM. It's more like MASM (e.g. mov eax, symbol
is a load, unlike in NASM where it's a mov r32, imm32
of the address), but not totally compatible with MASM either. I do highly recommend it as a nice format to read, especially if you like to write in NASM syntax though. objdump -drwC -Mintel | less
or gcc foo.c -O1 -fverbose-asm -masm=intel -S -o- | less
are useful. (See also How to remove “noise” from GCC/clang assembly output?). -masm=intel
works with clang, too.
– Peter Cordes
Sep 2 '17 at 19:27
This will generate assembly code with the C code + line numbers interweaved, to more easily see which lines generate what code:
# create assembler code:
g++ -S -fverbose-asm -g -O2 test.cc -o test.s
# create asm interlaced with source lines:
as -alhnd test.s > test.lst
Found in Algorithms for programmers, page 3 (which is the overall 15th page of the PDF).
as
on OS X doesn't know these flags. If it did, though, you could probably one-line this using -Wa
to pass options to as
.
– Grumdrig
Apr 5 '13 at 4:57
g++ -g -O0 -c -fverbose-asm -Wa,-adhln test.cpp > test.lst
would be the short hand version of this.
– legends2k
May 6 '13 at 13:49
gcc -c -g -Wa,-ahl=test.s test.c
or gcc -c -g -Wa,-a,-ad test.c > test.txt
– phuclv
Jun 7 '14 at 14:28
-O0
? That's full of loads/stores that make it hard to track a value, and doesn't tell you anything about how efficient the optimized code will be.
– Peter Cordes
Jul 25 '16 at 0:23
The following command line is from Christian Garbin's blog
g++ -g -O -Wa,-aslh horton_ex2_05.cpp >list.txt
I ran G++ from a DOS window on Win-XP, against a routine that contains an implicit cast
c:\gpp_code>g++ -g -O -Wa,-aslh horton_ex2_05.cpp >list.txt
horton_ex2_05.cpp: In function `int main()':
horton_ex2_05.cpp:92: warning: assignment to `int' from `double'
The output is asssembled generated code iterspersed with the original C++ code (the C++ code is shown as comments in the generated asm stream)
16:horton_ex2_05.cpp **** using std::setw;
17:horton_ex2_05.cpp ****
18:horton_ex2_05.cpp **** void disp_Time_Line (void);
19:horton_ex2_05.cpp ****
20:horton_ex2_05.cpp **** int main(void)
21:horton_ex2_05.cpp **** {
164 %ebp
165 subl $128,%esp
?GAS LISTING C:\DOCUME~1\CRAIGM~1\LOCALS~1\Temp\ccx52rCc.s
166 0128 55 call ___main
167 0129 89E5 .stabn 68,0,21,LM2-_main
168 012b 81EC8000 LM2:
168 0000
169 0131 E8000000 LBB2:
169 00
170 .stabn 68,0,25,LM3-_main
171 LM3:
172 movl $0,-16(%ebp)
-O2
, or whatever optimization options you actually use when building your project, if you want to see how gcc optimizes your code. (Or if you use LTO, like you should, then you have to disassemble the linker output to see what you really get.)
– Peter Cordes
Oct 7 '17 at 22:16
If what you want to see depends on the linking of the output, then objdump on the output object file/executable may also be useful in addition to the aforementioned gcc -S. Here's a very useful script by Loren Merritt that converts the default objdump syntax into the more readable nasm syntax:
#!/usr/bin/perl -w
$ptr='(BYTE|WORD|DWORD|QWORD|XMMWORD) PTR ';
$reg='(?:[er]?(?:[abcd]x|[sd]i|[sb]p)|[abcd][hl]|r1?[0-589][dwb]?|mm[0-7]|xmm1?[0-9])';
open FH, '-|', '/usr/bin/objdump', '-w', '-M', 'intel', @ARGV or die;
$prev = "";
while(<FH>){
if(/$ptr/o) {
s/$ptr(\[[^\[\]]+\],$reg)/$2/o or
s/($reg,)$ptr(\[[^\[\]]+\])/$1$3/o or
s/$ptr/lc $1/oe;
}
if($prev =~ /\t(repz )?ret / and
$_ =~ /\tnop |\txchg *ax,ax$/) {
# drop this line
} else {
print $prev;
$prev = $_;
}
}
print $prev;
close FH;
I suspect this can also be used on the output of gcc -S.
mov eax,ds:0x804b794
is not very NASMish. Also, sometimes it just strips useful information: movzx eax,[edx+0x1]
leaves the reader to guess whether the memory operand was byte
or word
.
– Ruslan
Oct 7 '17 at 22:00
objconv
. You can get it to disassemble to stdout with output file = /dev/stdout
, so you can pipe into less
for viewing. There's also ndisasm
, but it only disassembles flat binaries, and doesn't know about object files (ELF / PE).
– Peter Cordes
Oct 7 '17 at 22:12
-save-temps
This was mentioned at https://stackoverflow.com/a/17083009/895245 but let me further exemplify it.
The big advantage of this option over -S
is that it is very easy to add it to any build script, without interfering much in the build itself.
When you do:
gcc -save-temps -c -o main.o main.c
main.c
#define INC 1
int myfunc(int i) {
return i + INC;
}
and now, besides the normal output main.o
, the current working directory also contains the following files:
main.i
is a bonus and contains the preprossessed file:
# 1 "main.c"
# 1 "<built-in>"
# 1 "<command-line>"
# 31 "<command-line>"
# 1 "/usr/include/stdc-predef.h" 1 3 4
# 32 "<command-line>" 2
# 1 "main.c"
int myfunc(int i) {
return i + 1;
}
main.s
contains the desired generated assembly:
.file "main.c"
.text
.globl myfunc
.type myfunc, @function
myfunc:
.LFB0:
.cfi_startproc
pushq %rbp
.cfi_def_cfa_offset 16
.cfi_offset 6, -16
movq %rsp, %rbp
.cfi_def_cfa_register 6
movl %edi, -4(%rbp)
movl -4(%rbp), %eax
addl $1, %eax
popq %rbp
.cfi_def_cfa 7, 8
ret
.cfi_endproc
.LFE0:
.size myfunc, .-myfunc
.ident "GCC: (Ubuntu 8.3.0-6ubuntu1) 8.3.0"
.section .note.GNU-stack,"",@progbits
If you want to do it for a large number of files, consider using instead:
-save-temps=obj
which saves the intermediate files to the same directory as the -o
object output instead of the current working directory, thus avoiding potential basename conflicts.
Another cool thing about this option is if you add -v
:
gcc -save-temps -c -o main.o -v main.c
it actually shows the explicit files being used instead of ugly temporaries under /tmp
, so it is easy to know exactly what is going on, which includes the preprocessing / compilation / assembly steps:
/usr/lib/gcc/x86_64-linux-gnu/8/cc1 -E -quiet -v -imultiarch x86_64-linux-gnu main.c -mtune=generic -march=x86-64 -fpch-preprocess -fstack-protector-strong -Wformat -Wformat-security -o main.i
/usr/lib/gcc/x86_64-linux-gnu/8/cc1 -fpreprocessed main.i -quiet -dumpbase main.c -mtune=generic -march=x86-64 -auxbase-strip main.o -version -fstack-protector-strong -Wformat -Wformat-security -o main.s
as -v --64 -o main.o main.s
Tested in Ubuntu 19.04 amd64, GCC 8.3.0.
CMake predefined targets
CMake automatically provides a targets for the preprocessed file:
make help
shows us that we can do:
make main.s
and that target runs:
Compiling C source to assembly CMakeFiles/main.dir/main.c.s
/usr/bin/cc -S /home/ciro/hello/main.c -o CMakeFiles/main.dir/main.c.s
so the file can be seen at CMakeFiles/main.dir/main.c.s
Tested on cmake 3.16.1.
As everyone has pointed out, use the -S
option to GCC. I would also like to add that the results may vary (wildly!) depending on whether or not you add optimization options (-O0
for none, -O2
for agressive optimization).
On RISC architectures in particular, the compiler will often transform the code almost beyond recognition in doing optimization. It's impressive and fascinating to look at the results!
Well, as everyone said, use -S option. If you use -save-temps option, you can also get preprocessed file(.i), assembly file(.s) and object file(*.o). (get each of them by using -E, -S, and -c.)
As mentioned before, look at the -S flag.
It's also worth looking at the '-fdump-tree' family of flags, in particular '-fdump-tree-all', which lets you see some of gcc's intermediate forms. These can often be more readable than assembler (at least to me), and let you see how optimisation passes perform.
I don't see this possibility among answers, probably because the question is from 2008, but in 2018 you can use Matt Goldbolt's online website https://godbolt.org
You can also locally git clone and run his project https://github.com/mattgodbolt/compiler-explorer
From: http://www.delorie.com/djgpp/v2faq/faq8_20.html
gcc -c -g -Wa,-a,-ad [other GCC options] foo.c > foo.lst
in alternative to PhirePhly's answer Or just use -S as everyone said.
Here are the steps to see/print the assembly code of any C program on your Windows
console /terminal/ command prompt :
Write a C program in a C code editor like codeblocks and save it with an extention .c
Compile and run it.
Once run successfully, go to the folder where you have installed your gcc compiler and give the
following command to get a ' .s ' file of the ' .c' file
C:\ gcc> gcc -S complete path of the C file ENTER
An example command ( as in my case)
C:\gcc> gcc -S D:\Aa_C_Certified\alternate_letters.c
This outputs a ' .s' file of the original ' .c' file
4 . After this , type the following command
C;\gcc> cpp filename.s ENTER
Example command ( as in my case)
C;\gcc> cpp alternate_letters.s
This will print/output the entire Assembly language code of your C program.
Use "-S" as an option. It displays the assembly output in the terminal.
gcc foo.c -masm=intel -fverbose-asm -O3 -S -o- |less
. -S
on its own creates foo.s
.
– Peter Cordes
Jan 24 '18 at 17:56
recently i wanted to know the assembly of each functions in a program
this is how i did it.
$ gcc main.c // main.c source file
$ gdb a.exe // gdb a.out in linux
(gdb) disass main // note here main is a function
// similary it can be done for other functions
Here is a solution for C using gcc :
gcc -S program.c && gcc program.c -o output
Here the first part stores the assembly output of the program in the same file name as Program but with a changed .s extension, you can open it as any normal text file.
The second part here compiles your program for actual usage and generates an executable for your Program with a specified file name.
The program.c used above is the name of your program and output is the name of the executable you want to generate.
BTW It's my First post on StackOverFlow :-}