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Note The instructions in this README are specific to Linux development environments. Instructions for Windows are coming soon!

Open in GitHub Codespaces

CCCL Dev Containers

CCCL uses Development Containers to provide consistent and convenient development environments for both local development and for CI. This guide covers setup in Visual Studio Code and Docker.

Quickstart: VSCode (Recommended)

Prerequisites

Steps

  1. Clone the Repository

    git clone https://github.com/nvidia/cccl.git
  2. Open the cloned directory in VSCode

  3. Launch a Dev Container by clicking the prompt suggesting to "Reopen in Container"

    Shows "Reopen in Container" prompt when opening the cccl directory in VScode.

    • Alternatively, use the Command Palette to start a Dev Container. Press Ctrl+Shift+P to open the Command Palette. Type "Remote-Containers: Reopen in Container" and select it.

      Shows "Reopen in Container" in command pallete.

  4. Select an environment with the desired CTK and host compiler from the list:

    Shows list of available container environments.

  5. VSCode will initialize the selected Dev Container. This can take a few minutes the first time.

  6. Once initialized, the local cccl/ directory is mirrored into the container to ensure any changes are persistent.

  7. Done! See the contributing guide for instructions on how to build and run tests.

(Optional) Authenticate with GitHub for sccache

After starting the container, there will be a prompt to authenticate with GitHub. This grants access to a sccache server shared with CI and greatly accelerates local build times. This is currently limited to NVIDIA employees belonging to the NVIDIA or rapidsai GitHub organizations.

Without authentication to the remote server, sccache will still accelerate local builds by using a filesystem cache.

Follow the instructions in the prompt as below and enter the one-time code at https://github.com/login/device

Shows authentication with GitHub to access sccache bucket.

To manually trigger this authentication, execute the devcontainer-utils-vault-s3-init script within the container.

For more information about the sccache configuration and authentication, see the documentation at rapidsai/devcontainers.

Quickstart: Docker (Manual Approach)

Prerequisites

Steps

  1. Clone the repository and use the launch.sh script to launch the default container environment

    git clone https://github.com/nvidia/cccl.git
    cd cccl
    ./.devcontainer/launch.sh --docker

    This script starts an interactive shell as the coder user inside the container with the local cccl/ directory mirrored into /home/coder/cccl.

    For specific environments, use the --cuda and --host options:

    ./.devcontainer/launch.sh --docker --cuda 12.2 --host gcc10
    

    See ./.devcontainer/launch.sh --help for more information.

  2. Done. See the contributing guide for instructions on how to build and run tests.

Available Environments

CCCL provides environments for both the oldest and newest supported CUDA versions with all compatible host compilers.

Look in the .devcontainer/ directory to see the available configurations. The top-level devcontainer.json serves as the default environment. All devcontainer.json files in the cuda<CTK_VERSION>-<HOST-COMPILER> sub-directories are variations on this top-level file, with different base images for the different CUDA and host compiler versions.

VSCode Customization

By default, CCCL's Dev Containers come with certain VSCode settings and extensions configured by default, as can be seen in the devcontainer.json file. This can be further customized by users without needing to modify the devcontainer.json file directly.

For extensions, the dev.containers.defaultExtensions setting allows listing extensions that will always be installed.

For more general customizations, VSCode allows using a dotfile repository. See the VSCode documentation for more information.

GitHub Codespaces

Open in GitHub Codespaces

One of the benefits of Dev Containers is that they integrate natively with GitHub Codespaces. Codespaces provide a VSCode development environment right in your browser running on a machine in the cloud. This provides a truly one-click, turnkey development environment where you can develop, build, and test with no other setup required.

Click the badge above or click here to get started with CCCL's Dev Containers on Codespaces. This will start the default Dev Container environment. Click here to start a Codespace with a particular environment and hardware configuration as shown:

Shows configuring a Codespace with a custom environment

For Maintainers: The make_devcontainers.sh Script

Overview

make_devcontainers.sh generates devcontainer configurations for the unique combinations of CUDA Toolkit (CTK) versions and host compilers in ci/matrix.yaml.

How It Works:

  1. Parses the matrix from ci/matrix.yaml.
  2. Use the top-level .devcontainer/devcontainer.json as a template. For each unique combination of CTK version and host compiler, generate a corresponding devcontainer.json configuration, adjusting only the base Docker image to match the desired environment.
  3. Place the generated configurations in the .devcontainer directory, organizing them into subdirectories following the naming convention cuda<CTK_VERSION>-<COMPILER_VERSION>.

For more information, see the .devcontainer/make_devcontainers.sh --help message.

Note: When adding or updating supported environments, modify matrix.yaml and then rerun this script to synchronize the devcontainer configurations.