llvm-mc - LLVM Machine Code Playground¶
SYNOPSIS¶
llvm-mc [options] [filename]
DESCRIPTION¶
The llvm-mc command take input as the assembly code for a specified architecture and generate object file or executable as a output for a specified architecture.
llvm-mc provide powerful set of the tool for working with the machine code such as encoding of their instruction and their internal representation, disassemble string to bytes etc.
The choice of architecture for the output assembly code is automatically
determined from the input file, unless the --arch
option is used to
override the default.
OPTIONS¶
If the -o
option is omitted, then llvm-mc will send its output
to standard output if the input is from standard input. If the -o
option specifies “-
”, then the output will also be sent to standard output.
If no -o
option is specified and an input file other than “-
” is
specified, then llvm-mc creates the output filename by taking the input
filename, removing any existing .s
extension, and adding a .o
suffix.
Other llvm-mc options are described below.
End-user Options¶
- --help¶
Display available options (–help-hidden for more).
- -o <filename>¶
Use
<filename>
as the output filename. See the summary above for more details.
- --arch=<string>¶
Target arch to assemble for, see -version for available targets.
- --as-lex¶
Apply the assemblers “lexer” to break the input into tokens and print each of them out. This is intended to help develop and test an assembler implementation.
- --assemble¶
Assemble assembly file (default), and print the result to assembly. This is useful to design and test instruction parsers, and can be a useful tool when combined with other llvm-mc flags. For example, this option may be useful to transcode assembly from different dialects, e.g. on Intel where you can use -output-asm-variant=1 to translate from AT&T to Intel assembly syntax. It can also be combined with –show-encoding to understand how instructions are encoded.
- --disassemble¶
Parse a series of hex bytes, and print the result out as assembly syntax.
- --mdis¶
Marked up disassembly of string of hex bytes.
- --filetype=[asm,null,obj]¶
Sets the output filetype. Setting this flag to asm will make the tool output text assembly. Setting this flag to obj will make the tool output an object file. Setting it to null causes no output to be created and can be used for timing purposes. The default value is asm.
- -g¶
Generate DWARF debugging info for assembly source files.
- --large-code-model¶
Create CFI directives that assume the code might be more than 2 GB.
- --main-file-name=<string>¶
Specify the name we should consider the input file.
- --masm-hexfloats¶
Enable MASM-style hex float initializers (3F800000r).
- --mcpu=<cpu-name>¶
Target a specific cpu type (-mcpu=help for details).
- --triple=<string>¶
Target triple to assemble for, see -version for available targets.
- --split-dwarf-file=<filename>¶
DWO output filename.
- --show-inst-operands¶
Show instructions operands as parsed.
- --show-inst¶
Show internal instruction representation.
- --show-encoding¶
Show instruction encodings.
- --save-temp-labels¶
Don’t discard temporary labels.
- --relax-relocations¶
Emit R_X86_64_GOTPCRELX instead of R_X86_64_GOTPCREL.
- --print-imm-hex¶
Prefer hex format for immediate values.
- --preserve-comments¶
Preserve Comments in outputted assembly.
- --output-asm-variant=<uint>¶
Syntax variant to use for output printing. For example, on x86 targets –output-asm-variant=0 prints in AT&T syntax, and –output-asm-variant=1 prints in Intel/MASM syntax.
- --compress-debug-sections=[none|zlib|zstd]¶
Choose DWARF debug sections compression.
EXIT STATUS¶
If llvm-mc succeeds, it will exit with 0. Otherwise, if an error occurs, it will exit with a non-zero value.