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llvm-ir: LLVM IR in natural Rust data structures
llvm-ir
seeks to provide a more Rust-y representation of LLVM IR than
crates like llvm-sys
or inkwell
which rely on continuous FFI to the
LLVM API.
It's based on the idea that an LLVM Instruction
shouldn't be an opaque
datatype, but rather an enum
with variants like Add
, Call
, and
Store
.
Likewise, types like BasicBlock
, Function
, and Module
should be
Rust structs containing as much information as possible.
llvm-ir
is intended for consumption of LLVM IR, and not necessarily
production of LLVM IR (yet).
That is, it is aimed at program analysis and related applications which want
to read and analyze LLVM IR.
In the future, perhaps llvm-ir
could be able to output its Module
s back
into LLVM files, or even send them directly to the LLVM library for compiling.
If this interests you, contributions are welcome!
(Or in the meantime, check out inkwell
for a different safe interface for
producing LLVM IR.)
But if you're looking for a nice read-oriented representation of LLVM IR for
working in pure Rust, that's exactly what llvm-ir
can provide today.
Currently, llvm-ir
does rely on FFI to the LLVM API via llvm-sys
, but
only for its initial parsing step.
Once llvm-ir
creates a Module
data structure by parsing an LLVM
file, it drops the LLVM FFI objects and makes no further FFI calls.
This allows you to work with the resulting LLVM IR in pure safe Rust.
Getting started
The easiest way to get started is to parse some existing LLVM IR into this
crate's data structures.
To do this, you need LLVM bitcode (*.bc
) files.
If you currently have C/C++ sources (say, source.c
), you can generate
*.bc
files with clang
's -c
and -emit-llvm
flags:
Then, in Rust, you can use llvm-ir
's Module::from_bc_path
function:
use Module;
use Path;
let path = new;
let module = from_bc_path?;
Documentation
Documentation for llvm-ir
can be found here,
or of course you can generate local documentation with cargo doc --open
.
The documentation includes links to relevant parts of the LLVM documentation
when appropriate.
Compatibility
Currently, llvm-ir
only supports LLVM 8. Unfortunately, I'm only one
person. Again, contributions are welcome.
llvm-ir
works on stable Rust, and requires Rust 1.36+.
Development/Debugging
For development or debugging, you may want LLVM text-format (*.ll
) files in
addition to *.bc
files.
You can generate these by passing -S -emit-llvm
to clang
, instead of
-c -emit-llvm
.
E.g.,
Limitations
A few features of LLVM IR are not yet represented in llvm-ir
's data
structures, most notably debug information (metadata), which llvm-ir
currently makes no attempt to recover.
LLVM files containing metadata can still be parsed in with no problems, but
the resulting Module
structures will not contain any of the metadata.
Work-in-progress on fixing this can be found on the metadata
branch of this
repo, but be warned that the metadata
branch doesn't even build at the time
of this writing, let alone provide any meaningful functionality for crate
users.
A few other features are missing from llvm-ir
's data structures because
getters for them are apparently (to my knowledge) missing from the LLVM C API
and the Rust llvm-sys
crate, only being present in the LLVM C++ API.
These include but are not limited to:
- the
nsw
andnuw
flags onAdd
,Sub
,Mul
, andShl
, and likewise theexact
flag onUDiv
,SDiv
,LShr
, andAShr
. The C API has functionality to set these flags and/or create new instructions specifying values of these flags, but not (apparently, to my knowledge) to query the values of these flags on existing instructions. - the "fast-math flags" on various floating-point operations
- the specific opcode for the
AtomicRMW
instruction, i.e.,Xchg
,Add
,Max
,Min
, and the like. Again, the C API allows creatingAtomicRMW
instructions with any of these opcodes, but it's unclear how to get the opcode for an existingAtomicRMW
instruction. - contents of inline assembly functions
- information about the clauses in the variadic
LandingPad
instruction - information about the operands of a
BlockAddress
constant expression - the "prefix data" associated with a function
These issues with the LLVM C API have also been reported as LLVM bug #42692. Anyone who has additional insight about these problems, please chime in either with an issue on this repo or on the LLVM bug thread itself!
Acknowledgments
llvm-ir
is heavily inspired by the llvm-hs-pure
Haskell package.
Most of the data structures in llvm-ir
are essentially translations from
Haskell to Rust of the data structures in llvm-hs-pure
(with some tweaks).
To a lesser extent, llvm-ir
borrows from the larger llvm-hs
Haskell
package as well.