OpenCog Hyperon is a substantially revised, novel version of OpenCog - which is currently at an active pre-alpha stage of development and experimentation. One of the focuses in the Hyperon design is a successor to the OpenCog Classic Atomese language with clear semantics supporting meta-language features, different types of inference, etc. What we have landed on is an "Atomese 2" language called MeTTa (Meta Type Talk).
In order to get familiar with MeTTa one can visit MeTTa website and watch video with different MeTTa examples explained. The examples of MeTTa programs can be found in ./python/tests/scripts directory. Please look at the Python unit tests to understand how one can use MeTTa from Python. More complex usage scenarios are located at MeTTa examples repo. A lot of different materials can be found on OpenCog wiki server. Also see MeTTa specification.
If you want to contribute the project please see the contributing guide first. If you find troubles with the installation, see the Troubleshooting section below. For development related instructions see the development guide.
It is the most simple way of getting MeTTa interpreter especially if you are a Python developer. The following command installs the latest release version from PyPi package repository:
python3 -m pip install hyperon
Another way is using released Docker image:
docker run -ti trueagi/hyperon:latest
After installing package or starting Docker container run MeTTa Python based interpreter:
metta-py
Using Docker you can also run Rust REPL:
metta-repl
A docker image can be used as a ready to run stable and predictable development environment. Docker 26.0.0 or greater version is required to build image manually.
Build Docker image from a local copy of the repo running:
docker build -t trueagi/hyperon .
Or build it without local copy of the repo running:
docker build \
--build-arg BUILDKIT_CONTEXT_KEEP_GIT_DIR=1 \
-t trueagi/hyperon \
http://github.com/trueagi-io/hyperon-experimental.git#main
Use --target build
option to create an image which keeps the full build
environment and can be used for developing interpreter:
docker build --target build -t trueagi/hyperon .
If the docker image doesn't work, please raise an issue.
-
Install the latest stable Rust, see Rust installation page. Make sure your
PATH
variable includes$HOME/.cargo/bin
directory after installing Rust (see the Notes at the installation page).Requirements for building C and Python API
- Python3 and Python3-dev (3.7 or later)
- Pip (23.1.2 or later)
- GCC (7.5 or later)
- CMake (3.24 or later)
To support Git based modules (enabled by default):
- OpenSSL library
- Zlib library
-
Install cbindgen:
cargo install --force cbindgen
- Install Conan and make default Conan profile:
python3 -m pip install conan==2.5.0
conan profile detect --force
- Upgrade Pip to the required version:
python3 -m pip install pip==23.1.2
Build and test the Rust binaries:
cargo test
The experimental features can be enabled by editing
Cargo.toml file before compilation or by using --features
command line option.
See comments in the [features]
section of the file for the features
descriptions.
Run examples:
cargo run --example sorted_list
Run Rust REPL:
cargo run --bin metta-repl
You can also find executable at ./target/debug/metta-repl
.
To enable logging during running tests or examples export RUST_LOG
environment variable:
RUST_LOG=hyperon=debug cargo test
Running benchmarks requires nightly toolchain so they can be run using:
cargo +nightly bench
Generate docs:
cargo doc --no-deps
Docs can be found at ./target/doc/hyperon/index.html
.
Setup build:
mkdir -p build
cd build
cmake ..
To run release build use -DCMAKE_BUILD_TYPE=Release
cmake flag.
Build and run tests:
make
make check
In order to run examples you need to install the Python module. Please ensure you built C and Python API first. Then execute the following command in the top directory of repository:
python3 -m pip install -e ./python[dev]
After this one can run unit tests within python
directory using pytest
:
pytest ./tests
One can run MeTTa script from command line:
metta-py ./tests/scripts/<name>.metta
Run REPL:
cargo run --features python --bin metta-repl
You can also find executable at ./target/debug/metta-repl
.
Running the REPL with Python support in a Python virtual environment like PyEnv or Conda requires additional configuration. See troubleshooting
You can enable logging by prefixing the MeTTa command line by
RUST_LOG=hyperon[::COMPONENT]*=LEVEL
where
[::COMPONENT]*
is a, possibly empty, sequence of modules and submodules of hyperon, such as::metta
,::metta::runner
,::common
,::common::multitrie
, etc.LEVEL
is the log level. Possible log levels are:error
,warn
,info
,debug
andtrace
.
For example, to log all hyperon messages at the debug
level and
below, while running script.metta
, you may type:
RUST_LOG=hyperon=debug metta script.metta
Or, to log all hyperon messages at the trace
level and below,
restricted to module metta
and submodule types
, you may type:
RUST_LOG=hyperon::metta::types=trace metta script.metta
By default all log messages are directed to stderr.
If you see the following cmake
output:
ERROR: Not able to automatically detect '/usr/bin/cc' version
ERROR: Unable to find a working compiler
Try to create the default Conan profile manually:
conan profile detect --force
If it doesn't help, then try to manually add compiler
, compiler.version
and
compiler.libcxx
values in the default Conan profile
(~/.conan2/profiles/default
).
For example:
compiler=gcc
compiler.version=7
compiler.libcxx=libstdc++
Please ensure you are using the latest stable version:
rustup update stable
If importing the hyperon module in Python
import hyperon
returns the error:
ModuleNotFoundError: No module named 'hyperonpy'
Please ensure you have installed the Python module, see Running Python and MeTTa examples.
The REPL needs a path to the libpython library in the current environment. This can be done one of two ways:
ldd target/debug/metta-repl | grep libpython ; to find <libpython-name>
patchelf --replace-needed <libpython-name> <path-to-libpython-in-virtual-env> target/debug/metta-repl
This must be redone each time the repl is rebuilt, e.g. with cargo build
.
export LD_LIBRARY_PATH=<path-to-libpython-directory-in-virtual-env>
otool -L target/debug/metta-repl | grep libpython ; to find <libpython-name>
install_name_tool -change <libpython-name> <path-to-libpython-in-virtual-env> target/debug/metta-repl
This must be redone each time the repl is rebuilt, e.g. with cargo build
.
export DYLD_FALLBACK_LIBRARY_PATH=<path-to-libpython-directory-in-virtual-env>
This can be done in your ~/.bashrc
file if you don't want to do it each time you launch the REPL.
For more information about linking libpython
, see #432.
Main library libhyperon.rlib
is written in Rust language, it contains core
API which can be used from other Rust projects. Source code of the library is
located under ./lib directory. It is a plain Rust project which can be
built and tested using Cargo tool.
In order to provide API for platforms and languages other than Rust there is a
C API export library libhyperonc
. Source code of the library is located under
./c directory. The library contains Rust C API bindings and depends on
libhyperon.rlib
library. Native library is compiled using Cargo, C headers
are generated using cbindgen tool.
Source code of the Python integration library is located under
./python directory. It contains two main parts. First part is a
native Python library libhyperonpy
which is written using
pybind11, it converts Python API calls
into C API calls and vice versa. Second part is a Python library hyperon
which uses libhyperonpy
as a proxy for a C API calls.
All components which depend on libhyperonc
are built using
CMake build tool in order to manage dependencies
automatically.
The diagram below demonstrates main components and dependencies between them: Source code of the diagram
Different IDEs may require different tweaks to support the languages used in the codebase. The language servers which we use for development are:
- rust-analyzer;
- clangd, generate compile
commands for the
clangd
usingcmake
variable:cmake -DCMAKE_EXPORT_COMPILE_COMMANDS=Y ..
- Python LSP server.