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CONTRIBUTING.md

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Contributing to ADBC

Reporting Issues

Please file issues on the GitHub issue tracker: https://github.com/apache/arrow-adbc/issues

Building

Environment Setup

Some dependencies are required to build and test the various ADBC packages.

For C/C++, you will most likely want a Conda installation, with Mambaforge being the most convenient distribution. If you have Mambaforge installed, you can set up a development environment as follows:

$ mamba create -n adbc --file ci/conda_env_cpp.txt
$ mamba activate adbc

(For other Conda distributions, you will likely need create ... -c conda-forge --file ...).

There are additional environment definitions for development on Python and GLib/Ruby packages.

Conda is not required; you may also use a package manager like Nix or Homebrew, the system package manager, etc. so long as you configure CMake or other build tool appropriately. However, we primarily develop and support Conda users.

Running Integration Tests

Many of the test suites need to run against external services. For example, the PostgreSQL driver needs to test against a running database! This can be done by setting environment variables to tell tests where the services they need can be located.

To standardize the configuration of these services, we use a Docker Compose file and a dotenv file. Services can be started with Docker Compose:

$ docker compose up --detach --wait postgres-test

Then, source the .env file at the root of the repo to set the environment variables before running tests:

$ source .env

C/C++

All libraries here contained within one CMake project. To build any library, pass the -DADBC_COMPONENT=ON flag to your cmake invocation, replacing _COMPONENT with the name of the library/libraries.

Note: unlike the Arrow C++ build system, the CMake projects will not automatically download and build dependencies—you should configure CMake appropriately to find dependencies in system or package manager locations, if you are not using something like Conda.

You can use CMake presets to build and test:

$ mkdir build
$ cd build
$ cmake ../c --preset debug
# ctest reads presets from PWD
$ cd ../c
$ ctest --preset debug --test-dir ../build

You can also manually configure CMake. For example, the driver manager and postgres driver may be built together as follows:

$ mkdir build
$ cd build
$ export CMAKE_EXPORT_COMPILE_COMMANDS=ON
$ cmake ../c -DADBC_DRIVER_POSTGRESQL=ON -DADBC_DRIVER_MANAGER=ON
$ make -j

export CMAKE_EXPORT_COMPILE_COMMANDS=ON is not required, but is useful if you are using Visual Studio Code, Emacs, or another editor that integrates with a C/C++ language server.

For information on what each library can do and their dependencies, see their individual READMEs.

To specify where dependencies are to the build, use standard CMake options such as CMAKE_PREFIX_PATH.

Some build options are supported:

  • ADBC_BUILD_SHARED, ADBC_BUILD_STATIC: toggle building the shared/static libraries.
  • ADBC_BUILD_TESTS: build the unit tests (requires googletest/gmock).
  • ADBC_INSTALL_NAME_RPATH: set install_name to @rpath on MacOS. Usually it is more convenient to explicitly set this to OFF for development.

All libraries use the same build options to enable tests. For example, to build and run tests for the SQLite3 driver:

$ mkdir build
$ cd build
# You may need to set -DCMAKE_PREFIX_PATH such that googletest can be found
$ cmake ../c -DADBC_BUILD_TESTS=ON -DADBC_DRIVER_SQLITE=ON
$ make -j
$ ctest

Tests use Googletest. Some libraries may have additional test-time dependencies. For instance, the PostgreSQL and Flight SQL drivers require servers to test against. See their individual READMEs for details.

C#/.NET

Make sure .NET Core is installed.

$ cd csharp
$ dotnet build

Documentation

The documentation uses the Sphinx documentation generator.

A list of dependencies for Conda (conda-forge) is included, and can be used as follows:

$ conda create -n adbc -c conda-forge --file ci/conda_env_docs.txt
$ conda activate adbc
# Mermaid must be installed separately
# While "global", it will end up in your Conda environment
$ npm install -g @mermaid-js/mermaid-cli

To build the HTML documentation:

$ pushd c/apidoc
$ doxygen
$ popd

# Optionally: to also build the Python documentation
$ pushd python/adbc_driver_manager
$ pip install -e .[test]
$ popd

$ cd docs
$ make html

The output can be found in build/.

Some documentations are maintained as Mermaid diagrams, which must be rendered and checked in. This can be done as follows:

cd docs
make -f mermaid.makefile -j all
# Check in the updated files

GLib

The GLib bindings use the Meson build system.

A build of the driver manager is required. For example, if the libraries are installed to $HOME/local:

$ meson setup \
    --pkg-config-path=$HOME/local/lib/pkgconfig \
    --prefix=$HOME/local \
    build/glib \
    glib
$ meson install -C build/glib

A list of dependencies for Conda (conda-forge) is included, and can be used as follows:

$ conda create -n adbc -c conda-forge --file ci/conda_env_glib.txt
$ conda activate adbc

Go

Go libraries are a standard Go project.

$ cd go/adbc
$ go build -v ./...
$ go test -v ./...

Java

The Java components are a standard Maven project.

$ cd java/
# Build and run tests
$ mvn clean install

CI also builds the project with Checker Framework and [ErrorProne][error-prone] enabled. These projects require additional configuration. First, create a file java/.mvn/jvm.config containing this:

--add-exports jdk.compiler/com.sun.tools.javac.api=ALL-UNNAMED
--add-exports jdk.compiler/com.sun.tools.javac.file=ALL-UNNAMED
--add-exports jdk.compiler/com.sun.tools.javac.main=ALL-UNNAMED
--add-exports jdk.compiler/com.sun.tools.javac.model=ALL-UNNAMED
--add-exports jdk.compiler/com.sun.tools.javac.parser=ALL-UNNAMED
--add-exports jdk.compiler/com.sun.tools.javac.processing=ALL-UNNAMED
--add-exports jdk.compiler/com.sun.tools.javac.tree=ALL-UNNAMED
--add-exports jdk.compiler/com.sun.tools.javac.util=ALL-UNNAMED
--add-opens jdk.compiler/com.sun.tools.javac.code=ALL-UNNAMED
--add-opens jdk.compiler/com.sun.tools.javac.comp=ALL-UNNAMED

This is required so that the above static analysis tools can continue to access necessary Java compiler internals to do their job.

Then, build with the errorprone Maven profile enabled:

mvn install -Perrorprone

Python

Python libraries are managed with setuptools. See individual READMEs for additional dependencies. In general, that means all projects can be built as follows:

$ cd python/adbc_driver_manager
$ pip install -e .

Tests use pytest. Some libraries may have additional test-time dependencies. See their individual READMEs for details.

# Install dependencies
$ pip install -e .[test]

# Run tests
$ pytest -vvx

Type checking is done with pyright. There is a script to run the type checker:

# Build native libraries first
$ env ADBC_USE_ASAN=0 ADBC_USE_UBSAN=0 ./ci/scripts/cpp_build.sh $(pwd) $(pwd)/build
# Install Python packages
$ ./ci/scripts/python_build.sh $(pwd) $(pwd)/build
# Run type checker
$ ./ci/scripts/python_typecheck.sh $(pwd)

Ruby

The Ruby libraries are bindings around the GLib libraries.

Rust

The Rust components are a standard Rust project.

$ cd rust
# Build and run tests
$ cargo test

Opening a Pull Request

Before opening a pull request:

  1. Please check if there is a corresponding issue (and if not, please make one).
  2. Assign the issue to yourself by commenting "take" in the issue. (Here's an example.)
  3. At the bottom of the PR description, add Closes #NNNN where NNNN is the issue number, so that the issue gets linked to your PR properly. ("Fixes" and other keywords that GitHub recognizes are also OK, of course.)

Before opening a pull request, please run the static checks, which are enforced via pre-commit. This will run linters, formatters, and other analysis. For example:

# Install pre-commit
$ pip install pre-commit
# or alternatively
$ conda install -c conda-forge --file ci/conda_env_dev.txt
# Set up hooks
$ pre-commit install
# Run manually
$ pre-commit run
Check Xml............................................(no files to check)Skipped
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Fix End of Files.....................................(no files to check)Skipped
Trim Trailing Whitespace.............................(no files to check)Skipped
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flake8...............................................(no files to check)Skipped
isort................................................(no files to check)Skipped
# Hooks automatically run on commit
$ git commit

When committing, please follow Conventional Commits. This helps maintain semantic versioning of components.

Please use the following commit types: build, chore, ci, docs, feat, fix, perf, refactor, revert, style, test.

Please use the following scopes:

  • c/driver/postgresql, java/driver-manager, …: for a component and all its bindings. For example, c/driver-manager covers the C/C++ driver manager and its GLib and Python bindings, while java/driver/flight-sql covers only the Flight SQL driver for Java. (The scope names are derived from the filesystem paths.)
  • c/format, go/format, java/format: for the core API definitions (adbc.h for C/C++, adbc.go for Go, adbc-core for Java).

For example:

feat(c/driver/postgresql): implement prepared statements

ci(go/adbc/drivermgr): pass through DYLD_LIBRARY_PATH in tests

fix(java/driver/jdbc): adjust SQL type mapping for JDBC driver

Re-generating 3rd Party Licenses

In order to collect the licenses for our Go-dependencies we leverage the tool github.com/google/go-licenses. We have a template containing the non-go licenses, and then you can install go-licenses with:

$ go install github.com/google/go-licenses@latest

You can generate the LICENSE.txt with the following command:

$ cd go/adbc && go-licenses report ./... \
  --ignore github.com/apache/arrow-adbc/go/adbc \
  --ignore github.com/apache/arrow/go/v11 \
  --ignore github.com/apache/arrow/go/v12 \
  --ignore github.com/apache/arrow/go/v13 \
  --ignore github.com/apache/arrow/go/v14 \
  --ignore github.com/apache/arrow/go/v15 \
  --ignore github.com/apache/arrow/go/v16 \
  --template ../../license.tpl > ../../LICENSE.txt 2> /dev/null

You will have to manually fix up the license, since some packages do not fill out their metadata correctly and things like READMEs may end up in the license.