Moore is a compiler for hardware description languages that outputs llhd assembly, with a focus on usability, clear error reporting, and completeness. Its goal is to act as a frontend for hardware design tools such as synthesizers, linters, or logical equivalence checkers.
You need a working Rust installation to build Moore. The project also depends on the CIRCT project and transitively on MLIR and LLVM. To get a working binary, you generally want to ensure you have the circt
and circt/llvm
submodules checked out:
git submodule update --init --recursive
And then follow these steps:
mkdir -p circt/llvm/build
pushd circt/llvm/build
cmake ../llvm \
-DCMAKE_BUILD_TYPE=Release \
-DLLVM_BUILD_EXAMPLES=OFF \
-DLLVM_ENABLE_ASSERTIONS=ON \
-DLLVM_ENABLE_BINDINGS=OFF \
-DLLVM_ENABLE_OCAMLDOC=OFF \
-DLLVM_ENABLE_PROJECTS=mlir \
-DLLVM_INSTALL_UTILS=ON \
-DLLVM_OPTIMIZED_TABLEGEN=ON \
-DLLVM_TARGETS_TO_BUILD="host"
cmake --build .
popd
mkdir -p circt/build
pushd circt/build
cmake .. \
-DCMAKE_BUILD_TYPE=Release \
-DMLIR_DIR=$PWD/../llvm/build/lib/cmake/mlir \
-DLLVM_DIR=$PWD/../llvm/build/lib/cmake/llvm \
-DLLVM_ENABLE_ASSERTIONS=ON
cmake --build .
popd
Set the following environment variables to indicate where your LLVM and CIRCT build is:
export CIRCT_SYS_CIRCT_DIR=$PWD/circt
export CIRCT_SYS_CIRCT_BUILD_DIR=$PWD/circt/build
export CIRCT_SYS_LLVM_DIR=$PWD/circt/llvm
export CIRCT_SYS_LLVM_BUILD_DIR=$PWD/circt/llvm/build
Use cargo to install Moore:
cargo install moore
Note that on Linux systems you are very likely to need libstdc++ version 7 or newer for this to work.
For active development, you'll want to use the usual check
, build
, run
, and test
subcommands.
You may also find it useful to point the *_BUILD_DIR
environment variables at the actual build directories (usually circt/llvm/build
and circt/build
), such that you don't need to re-install on every change to CIRCT or LLVM.
Assume the following input file:
// foo.sv
module hello_world;
endmodule
To compile foo.sv
and emit the corresponding LLHD assembly to standard output call moore with the file name and the module to elaborate (-e
option):
moore foo.sv -e hello_world
You can use llhd-sim to simulate the compiled module:
moore foo.sv -e hello_world > foo.llhd
llhd-sim foo.llhd
Moore is developed in this repository, but is separated into the following crates:
moore
: Top-level umbrella crate tying everything togethermoore-common
: Common infrastructure used by SystemVerilog and VHDLmoore-derive
: Procedural macrosmoore-svlog
: SystemVerilog implementationmoore-svlog-syntax
: SystemVerilog parser and AST implementationmoore-vhdl
: VHDL implementationmoore-vhdl-syntax
: VHDL parser and AST implementationmoore-circt
: Rust wrappers around the CIRCT APImoore-circt-sys
: Low-level language bindings to CIRCT
Some useful commands when working on moore:
git submodule init
git submodule update
cargo check
cargo test --all
cargo run -- foo.sv -e foo
scripts/test.py --debug -v
scripts/test.py --debug -v <path-to-test-case>
lit test -v
To create a new release, the individual sub-crates of the project have to be released in the reverse order outlined above. Follow this checklist:
- Use
scripts/release_status.sh
to see an overview of moore/llhd crate versions used throughout the project - Update the version in all
Cargo.toml
files - Use
scripts/release_check.sh
to ensure that all crates have the same version as the root - Ensure cargo is happy:
cargo check
- Update the
CHANGELOG.md
file - Commit:
git commit -am "Bump version to X.Y.Z
- Tag:
git tag vX.Y.Z
- Publish all crates using
cargo publish
in reverse order