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readme.md
Ona
Table of Contents
Overview
Ona is a straightforward game engine with the aim of staying reasonably lightweight through its
Ona is also the Catalan word for "wave".
Goals
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Fully-featured two-dimensional raster and vector-derived rendering capabilities.
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Support major computer gaming ecosystems; Namely Microsoft Windows, SteamOS, and GNU Linux systems running on X11 or Wayland.
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Avoid shipping external dependencies beyond the executible itself.
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Be lightweight in base engine memory usage and disk size.
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Provide a simple scene graph system that translates its graph nodes into a cache-friendly representation at runtime.
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Provide an execution-speed optimized scripting interface through a Lua-inspired language named "Kym", with features like first-class support for common mathematic types used in rendering.
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One data serialization and configuration system to rule them all backed by the Kym scripting language.
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Opt-in overhead via a native C plug-in interface that allows for systems-level programmers to easily extend engine-level functionality and scripting language library tools.
Technical Details
Requirements
Ona currently depends the following third-party tools to build it:
- Clang / LLVM toolchain with full C++20 support or above.
- Python interpreter version 3.10 or above.
Additionally, Ona depends on the following third-party system-wide dependencies:
- SDL2 version 2.0.20 or above.
As the project evolves, dependencies on libraries external to the project codebase will be minimized or removed outright to meet the goals of the project as closely as possible.
Building
Once all third-party tools and system-wide dependencies are satisfied, navigate to the root project folder and run the ./build.py
Python build script.
By default, the build script will build the engine runtime, required for running games built with Ona, in release-debug mode.
Project Structure
As Ona uses C++20, it is able to make use of the new modules language feature. While this brings with it a number of drawbacks, like a lack of widescale vendor adoption, it also provides some key benefits.
No Headers
All first-party code in the project is free of headers. Code is grouped in a module and package dichotomy, where each .cpp
file in the root source directory represents the common package of a module grouping.
Subdirectories then build further abstractions atop these common module files. For example, the core.cpp
source file contains many common memory manipulation and floating point mathematics utilities, which are made use of in core/image.cpp
for modifying CPU-bound pixel data.
All Code is Equal
Following on from no headers necessary, declarations, template metaprogramming, and definitions all go into the same place now. A typical Ona source file mixes all of these, traditionally separate, pieces of logic together in shared .cpp
files.
Alongside the surface-level benefit of writing having fewer lines of code, this also means there is less work necessary to maintain the codebase at large and a smaller space to create duplication errors in.