Crates.io | cargo-remark |
lib.rs | cargo-remark |
version | 0.1.2 |
source | src |
created_at | 2023-08-12 13:33:51.194087 |
updated_at | 2023-09-28 08:11:26.962168 |
description | Cargo subcommand for displaying LLVM optimization remarks from compiling Rust programs. |
homepage | |
repository | https://github.com/kobzol/cargo-remark |
max_upload_size | |
id | 942741 |
size | 485,778 |
cargo-remark
Cargo subcommand that makes it possible to view LLVM optimization remarks generated during the compilation of your crate.
These remarks can tell you where and why has LLVM failed to apply certain optimizations. In certain cases1, you can use
this knowledge to change your code so that it optimizes better. In the future, I hope that rustc
will be able to emit
its own, Rust-specific (MIR?) optimization remarks, but this is just an idea at this point.
cargo remark
compiles your crate, generates LLVM remarks, and then parses them and visualizes them in a simple website.
It is parallelized, which is important for large programs, because there can be a lot of remarks and since they are in
YAML, their parsing is not very fast.
Contributions are welcome!
$ cargo install cargo-remark
Note that rustc
has gained the ability to output LLVM optimization
remarks in the YAML format on 2. 7. 2023, and it is currently unstable. Therefore, you will need a recent nightly
version2 of the compiler to generate LLVM remarks.
$ rustup update nightly
rustc
can generate LLVM remarks using the (currently unstable) -Zremark-dir
flag, which is used internally by this
crate. To generate remarks from your crate, use the following command:
$ cargo remark build
After the build finishes, the remarks will be located in target/remarks/yaml
, and the rendered website will be located
in target/remarks/web
. You can open the website by pointing your web browser to target/remarks/web/index.html
file,
or by using the --open
flag.
This command will automatically build your crate with optimizations, so you don't have to pass the --release
flag.
Currently, only missed optimization remarks will be visualized. Analysis
and Passed
remarks are ignored.
Flag | Default | Description |
---|---|---|
--open |
(unset) | Open the generated website with the default browser. |
--external |
(unset) | Visualize remarks from external crates (dependencies) and stdlib. |
--filter |
FastISelFailure,NeverInline,SpillReloadCopies |
Comma separated list of remark passes that should be ignored. |
There is currently a single feature mimalloc
, which is enabled by default, and which enables the use of the
mimalloc allocator. To disable the feature, compile (or install) the crate
with --no-default-features
.
If you have a directory with YAML remarks on disk, and you just want to visualize them without invoking Cargo, you can
use the analyze-remarks
binary, which comes with this crate.
$ analyze-remarks <yaml-dir> --source-dir <crate root>
When you use this tool, you need to manually pass the root source directory from where the remarks were generated
(with cargo remark
, it is automatically inferred).
You could even use this binary to render remarks generated from C/C++ programs. One advantage of that is that analyze-remarks
will probably be much faster than existing C/C++ remark tools, which are written
in Python.
If you compile your crate with Profile-guided optimization (PGO), the generated remarks will contain "hotness", a measure of how important is each missed optimization remark. This can help with prioritizing which remarks should be resolved first.
You can combine cargo remark
with the cargo-pgo
command to generate remarks
from a PGO optimized build:
# Compile with PGO instrumentation
$ cargo pgo build
# Gather PGO profiles
$ ./target/release/<target>/<binary> <workload>
# Compile with PGO optimizations and generate remarks
$ cargo remark wrap -- pgo optimize
This crate, and especially the generated website was heavily inspired by optview2, a tool for visualizing LLVM optimization remarks generated from C and C++ programs.