# arkcompiler_runtime_core **Repository Path**: openharmony-sig/arkcompiler_runtime_core ## Basic Information - **Project Name**: arkcompiler_runtime_core - **Description**: No description available - **Primary Language**: Unknown - **License**: Apache-2.0 - **Default Branch**: master - **Homepage**: None - **GVP Project**: No ## Statistics - **Stars**: 30 - **Forks**: 158 - **Created**: 2022-07-01 - **Last Updated**: 2025-05-07 ## Categories & Tags **Categories**: Uncategorized **Tags**: None ## README # Bootstrapping Currently an officially supported host OS for development, building and testing is Ubuntu 18.04 and Ubuntu 20.04. The full list of packages required for building and testing the project is specified in `scripts/deps-lists` files. These packages can be installed either manually or by running a bootstrap script: ``` $ sudo ./scripts/install-deps-ubuntu ``` For more bootstrapping options, run: ``` $ sudo ./scripts/install-deps-ubuntu --help ``` E.g. for development purposes you should run: ``` $ sudo ./scripts/install-deps-ubuntu -i=dev ``` If you want additionally to install python dependencies for running tests add a parameter `-i=test`: ``` $ sudo ./scripts/install-deps-ubuntu -i=dev -i=test ``` It creates a virtual environment .venv-panda in your home directory with all required dependencies. Later, tests python scripts can activate this environment. If you already have run with the parameter `-i=test` the second time it might be skipped. # Third party Panda uses third party libraries. To install the libraries and apply patches, run: ``` $ ./scripts/install-third-party --force-clone ``` # Building Assuming your system is bootstrapped, please run the following commands in the root of the project: ``` $ mkdir panda-build $ cd panda-build $ cmake /path/to/panda/repository -GNinja $ ninja ``` This will build Panda in debug mode with your default C++ compiler. All supported compilers can be found in `cmake/toolchain`. E.g., to build with Clang 14, pass a path to the corresponding toolchain file during configuration: ``` $ cmake -DCMAKE_TOOLCHAIN_FILE=/path/to/panda/repository/cmake/toolchain/host_clang_14.cmake /path/to/panda/repository ``` ## Explicitly setting build types Recommended way to build Panda is to set `CMAKE_BUILD_TYPE` variable explicitly during configurations. Supported values are: | Mode | Assertions | Optimizations | Debug info | | ---- | ---------- | ------------- | ---------- | | `Debug ` | Yes | None (CMake default) | `-g` (CMake default) | | `Release` | No | `-O3` (CMake default) | None (CMake default) | | `FastVerify` | Yes | `-O2` | `-ggdb3` | Notes: * Other common modes (`RelWithDebInfo`, `MinSizeRel`, `DebugDetailed`) should work but they are not tested in CI. * Unlike `RelWithDebInfo`, `FastVerify` preserves assertions (and provides more verbose debug information). Use this build type for running heavy test suites when you want both fast-running code and debuggability. * `DebugDetailed` gives more debug information than `Debug`, it can be usefull for debugging unit tests for example. Example: ``` $ cmake -DCMAKE_BUILD_TYPE=Release ... ``` ## Running tests with QEMU for cross-compiled aarch64/arm builds Recommended QEMU version for running testst is 6.2.0 (but 5.1+ should be ok, too). By default, it is downloaded and installed during environment bootstrap. Any system-installed package is left intact. If recommened QEMU version is not accessible via $PATH it can be specified during configuration time: ``` # If QEMU is available as /opt/qemu-6.2.0/bin/qemu-aarch64 $ cmake -DQEMU_PREFIX=/opt/qemu-6.2.0 ... ``` ## Building with GN 1. Getting GN binary ``` $ git clone https://gn.googlesource.com/gn $ cd gn $ python build/gen.py $ ninja -C out ``` 2. Build panda using gn (`ark_asm`, `ark_disasm`, `ark_aot`, `ark_aotdump`, `c2abc`, `ark_bin`, `es2panda`, `verifier_bin` and `ark` targets are supported) ``` $ cd /path/to/panda/repository $ /path/to/gn/repository/out/gn gen out $ ninja -C out ark ``` When standard system, use ``` $ cd /path/to/panda/repository $ /path/to/gn/repository/out/gn --args=-is_standard_system=true gen out $ ninja -C out ``` ## Further reading * For more details, please see [build system readme](cmake/README.md). # Testing For testing, the following umbrella targets that guarantee building prior to running may be used: * `tests`, for running all testing suites. * `tests_full`, for running all testing suites and various code linters. # Clang tools `clang-format` and `clang-tidy` checks are integrated into build system and can be called by target of build system: ``` $ ninja code-style-check # clang-format $ ninja clang-tidy-check # clang-tidy ``` # Test coverage In order to measure bytecode optimizer coverage, configure your build with -DENABLE_BYTECODE_OPTIMIZER_COVERAGE=true. Then run: ``` $ ninja bytecode_optimizer_coverage ``` # Benchmarking To build and run benchmarks, please use the umbrella target `benchmarks` or any of its dependencies. Please see the root `CMakeLists.txt` for more details. NB! Make sure that you configure your build with `-DCMAKE_BUILD_TYPE=Release`, otherwise your run will most likely be dead slow. # Running ## Running assembler Assuming that you are in `panda-build` directory, please run: ``` $ ./bin/ark_asm /path/to/panda-assembly.pa /path/to/binary/output.abc ``` ## Running interpreter Assuming that your main function is defined as `.function main(...)` in the assembly listing, and `/path/to/binary/output.abc` is the result of the assembler, please run: ``` $ ./bin/ark /path/to/binary/output.abc _GLOBAL::main ```