These are the docs for 12.0, an old version of SpatialOS. The docs for this version are frozen: we do not correct, update or republish them. 14.5 is the newest →

Lesson 1 - Add a C++ worker to your project

The starting point of this tutorial is the completed Lesson 2 of the Pirates tutorial. If you already have a project at this point or want to follow the steps yourself in the other tutorial, you’re free to do so.

It’s best to clone the starting point from the C++ worker tutorial repository, build it by running spatial worker build UnityClient UnityWorker, and check it works.

Quick start

Here are some basic shell commands to set up everything described in the sections below. This is just provided for your convenience so that you don’t have to move files around and change names. Before you run them, read through the rest of this page and make sure you know what you use the commands for. Based on your environment, you might need to make some tweaks to the commands.

This assumes you are in root directory of the tutorial project, have Git, and building this on Windows. To build for a different platform just change the spatial worker build command at the end:


# Go to the parent directory of Pirates
cd ..

# Clone C++ blank project
git clone

cd CppBlankProject
chmod +x
./ Managed PirateShipMovement $DEST_PROJECT

# Build the new worker
spatial worker build PirateShipMovement --target=windows

# Go back to project root
cd ../..

1. Add a worker project

  1. Clone the C++ blank project.
  2. Copy the workers/Managed directory to the workers/PirateShipMovement directory of Pirates.
  3. Rename the worker configuration file spatialos.Managed.worker.json to spatialos.PirateShipMovement.worker.json.
  4. Find and replace all occurrences of “Managed” (case-sensitive) with “PirateShipMovement” in the directory you copied:
    • In spatialos.PirateShipMovement.worker.json - multiple occurrences.
    • In CMakeLists.txt
    • In build.json
    • In src/

2. Configure build of generated C++ components

  1. Copy the CppBlankProject/schema/CMakeLists.txt to PiratesTutorial/schema/CMakeLists.txt.
  2. Remove the blank.schema and generated sources for the blank component.

The file should look like:

# This script is included by worker and library builds
# It is not meant to be built as a standalone library

set(GENERATED_CODE_DIR "${APPLICATION_ROOT}/generated_code/cpp")

# Schema generated code in library


source_group(schema "${CMAKE_CURRENT_SOURCE_DIR}/[^/]*")
source_group(generated_code\\schema "${GENERATED_CODE_DIR}/[^/]*")
source_group(generated_code\\improbable "${GENERATED_CODE_DIR}/improbable/[^/]*")

target_include_directories(Schema SYSTEM PUBLIC "${GENERATED_CODE_DIR}")

target_link_libraries(Schema PRIVATE WorkerSdk)

In the next part of the tutorial you will add the sources for the ShipControls component.

3. Configure the C++ SDK

The worker project you copied earlier already contains a spatialos_worker_packages.json with the required packages for the C++ SDK. You need to make the SDK available to the worker executable when compiling.

  1. Create a new directory PiratesTutorial/dependencies.
  2. Copy the CppBlankProject/dependencies/CMakeLists.txt to PiratesTutorial/dependencies/CMakeLists.txt.

4. Ignore generated files from source control

If your project is under source control, add the following directories to your ignored files:

# Worker SDK

# Generated code from schema

# Cache from generated code and other metadata

5. Build the worker

To make sure everything was added correctly, build the worker you added. The target value will be one of windows, linux, or macos based on your platform:

# On Windows
spatial worker build PirateShipMovement --target=windows

# On Linux
spatial worker build PirateShipMovement --target=linux

# On MacOS
spatial worker build PirateShipMovement --target=macos

The first time you build there will be many warnings about missing pdb files from some of the libraries used in the C++ SDK - you shouldn’t worry about this. If the command succeeds, you are ready to continue with the next lesson.

Note that you won’t be able to simply use spatial worker build to build all your workers anymore. Because the targets of the C++ worker build depend on the platform, you normally won’t be able to build for all platforms at the same time.

If you really want to, you can achieve this by setting up cross-compiling in CMake. As an aside, it is highly unlikely you will often need to build all workers of different types. Usually, you will only have changes that require rebuilding a certain type of worker. For this tutorial use:

spatial worker build UnityWorker UnityClient


spatial worker build PirateShipMovement -t=<platform>

to build your workers. See spatial worker build for more details.

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