mirror of
https://github.com/Detanup01/gbe_fork.git
synced 2024-12-27 19:04:19 +08:00
370 lines
13 KiB
Markdown
370 lines
13 KiB
Markdown
## :large_orange_diamond: **This is a fork**
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Fork of https://gitlab.com/Mr_Goldberg/goldberg_emulator
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### Feel free to make a PR.
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---
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:red_circle:
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**This fork is not a takeover, not a resurrection of the original project, and not a replacement.**
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**This is just a fork, don't take it seriously.**
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**You are highly encouraged to fork/clone it and do whatever you want with it.**
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:red_circle:
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---
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## **Compatibility**
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This fork is incompatible with the original repo, lots of things has changed and might be even broken.
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If something doesn't work, feel free to create a pull request with the appropriate fix, otherwise ignore this fork and use the original emu.
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---
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## **Credits**
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Thanks to everyone contributing to this project in any way possible, we try to keep the [CHANGELOG.md](./CHANGELOG.md) updated with all the changes and their authors.
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This project depends on many third-party libraries and tools, credits to them for their amazing work, you can find their listing here in [CREDITS.md](./CREDITS.md).
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---
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# How to use the emu
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* **Always generate the interfaces file using the `generate_interfaces` tool.**
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* **Generate the proper app configuration using the `generate_emu_config` tool.**
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* **If things don't work, try the `ColdClientLoader` setup.**
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You can find helper guides, scripts, and tools here:
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**(These guides, scripts, and tools are maintained by their authors.)**
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* **[GBE-Autoconfigurator](https://github.com/daci12345/GBE-Autoconfigurator)**
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* **[Semuexec](https://gitlab.com/detiam/Semuexec)**
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* **[Steam Emu Utility](https://github.com/turusudiro/SteamEmuUtility)**
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* **[How to use Goldberg Emulator](https://rentry.co/goldberg_emulator)**
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* **[GSE-Generator](https://github.com/brunolee-GIT/GSE-Generator)**
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You can also find instructions here in [README.release.md](./post_build/README.release.md)
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---
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---
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<br/>
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# **Compiling**
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## One time setup
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### **Cloning the repo**
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Disable automatic CRLF handling:
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*Locally*
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```shell
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git config --local core.autocrlf false
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```
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*Or globally/system wide*
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```shell
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git config --system core.autocrlf false
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git config --global core.autocrlf false
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```
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Clone the repo and its submodules **recursively**
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```shell
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git clone --recurse-submodules -j8 https://github.com/Detanup01/gbe_fork.git
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```
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The switch `-j8` is optional, it allows Git to fetch up to 8 submodules
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It is adviseable to always checkout submodules every now and then, to make sure they're up to date
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```shell
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git submodule update --init --recursive --remote
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```
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### For Windows:
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* You need Windows 10 or 8.1 + WDK
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* Using Visual Studio, install `Visual Studio 2022 Community`: https://visualstudio.microsoft.com/vs/community/
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* Select the Workload `Desktop development with C++`
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* In the `Individual componenets` scroll to the buttom and select the **latest** version of `Windows XX SDK (XX.X...)`
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For example `Windows 11 SDK (10.0.22621.0)`
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* Using `MSYS2` **this is currently experimental and will not work due to ABI differences**: https://www.msys2.org/
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<details>
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<summary>steps</summary>
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* To build 64-bit binaries use either the [environment](https://www.msys2.org/docs/environments/) `UCRT64` or `MINGW64` then install the GCC toolchain
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`UCRT64`
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```shell
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pacman -S mingw-w64-ucrt-x86_64-gcc
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```
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`MINGW64`
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```shell
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pacman -S mingw-w64-i686-gcc
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```
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* To build 32-bit binaries use the environment `MINGW32` then install the GCC toolchain
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```shell
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pacman -S mingw-w64-i686-gcc
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```
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</details>
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* Python 3.10 or above: https://www.python.org/downloads/windows/
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After installation, make sure it works
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```batch
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python --version
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```
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* *(Optional)* Install a GUI for Git like [GitHub Desktop](https://desktop.github.com/), or [Sourcetree](https://www.sourcetreeapp.com/)
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### For Linux:
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* Ubuntu 20.04 LTS: https://ubuntu.com/download/desktop
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* Ubuntu required packages:
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```shell
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sudo apt update -y
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sudo apt install -y coreutils # echo, printf, etc...
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sudo apt install -y build-essential
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sudo apt install -y gcc-multilib # needed for 32-bit builds
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sudo apt install -y g++-multilib
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sudo apt install -y libglx-dev # needed for overlay build (header files such as GL/glx.h)
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sudo apt install -y libgl-dev # needed for overlay build (header files such as GL/gl.h)
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```
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*(Optional)* Additional packages
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```shell
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sudo apt install -y clang # clang compiler
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sudo apt install -y binutils # contains the tool 'readelf' mainly, and other usefull binary stuff
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```
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* Python 3.10 or above
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```shell
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sudo apt update -y
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sudo apt install -y software-properties-common
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sudo add-apt-repository ppa:deadsnakes/ppa -y
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sudo apt update -y
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sudo apt install -y "python3.12"
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sudo apt install -y "python3.12-dev"
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sudo apt install -y "python3.12-venv"
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sudo apt install -y python3-dev
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# make sure it works
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python3.12 --version
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```
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### **Building dependencies**
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These are third party libraries needed to build the emu later, they are linked with the emu during its build process.
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You don't need to build these dependencies every time, they rarely get updated.
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The only times you'll need to rebuild them is either when their separete build folder was accedentally deleted, or when the dependencies were updated.
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<br/>
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#### On Windows:
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Open CMD in the repo folder, then run the following
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* To build using `Visual Studio`
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```batch
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set "CMAKE_GENERATOR=Visual Studio 17 2022"
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third-party\common\win\premake\premake5.exe --file=premake5-deps.lua --64-build --32-build --all-ext --all-build --verbose --os=windows vs2022
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```
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* To build using `MSYS2` **this is currently experimental and will not work due to ABI differences**
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<details>
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<summary>steps</summary>
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*(Optional)* In both cases below, you can use `Clang` compiler instead of `GCC` by running these 2 commands in the same terminal instance
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```shell
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export CC="clang"
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export CXX="clang++"
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```
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* To build 64-bit binaries (`UCRT64` or `MINGW64`)
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```shell
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export CMAKE_GENERATOR="MSYS Makefiles"
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./third-party/common/win/premake/premake5.exe --file=premake5-deps.lua --64-build --all-ext --all-build --verbose --os=windows gmake2
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```
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* To build 32-bit binaries (`MINGW32`)
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```shell
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export CMAKE_GENERATOR="MSYS Makefiles"
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./third-party/common/win/premake/premake5.exe --file=premake5-deps.lua --32-build --all-ext --all-build --verbose --os=windows gmake2
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```
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</details>
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This will:
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* Extract all third party dependencies from the folder `third-party` into the folder `build\deps\win`
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* Build all dependencies
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#### On Linux:
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Open a terminal in the repo folder
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*(Optional)* You can use `Clang` compiler instead of `GCC` by running these 2 commands in the current terminal instance
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```shell
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export CC="clang"
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export CXX="clang++"
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```
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Then run the following
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```shell
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export CMAKE_GENERATOR="Unix Makefiles"
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./third-party/common/linux/premake/premake5 --file=premake5-deps.lua --64-build --32-build --all-ext --all-build --verbose --os=linux gmake2
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```
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This will:
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* Extract all third party dependencies from the folder `third-party` into the folder `build/deps/linux`
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* Build all dependencies (32-bit and 64-bit)
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---
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## **Building the emu**
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### On Windows:
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Open CMD in the repo folder, then run the following
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* For `Visual Studio 2022`
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```batch
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third-party\common\win\premake\premake5.exe --file=premake5.lua --genproto --os=windows vs2022
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```
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You can then go to the folder `build\project\vs2022\win` and open the produced `.sln` file in Visual Studio.
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Or, if you prefer to do it from command line, open the `Developer Command Prompt for VS 2022` inside the above folder, then:
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```batch
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msbuild /nologo /v:n /p:Configuration=release,Platform=Win32 gbe.sln
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msbuild /nologo /v:n /p:Configuration=release,Platform=x64 gbe.sln
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```
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* For `MSYS2` **this is currently experimental and will not work due to ABI differences**
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<details>
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<summary>steps</summary>
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```shell
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./third-party/common/win/premake/premake5.exe --file=premake5.lua --genproto --os=windows gmake2
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cd ./build/project/gmake2/win
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```
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*(Optional)* You can use `Clang` compiler instead of `GCC` by running these 2 commands in the current terminal instance
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```shell
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export CC="clang"
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export CXX="clang++"
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```
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* 64-bit build (`UCRT64` or `MINGW64`)
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```shell
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make config=release_x64 -j 8 all
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```
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* 32-bit build (`MINGW32`)
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```shell
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make config=release_x32 -j 8 all
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```
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To see all possible build targets
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```shell
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make help
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```
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</details>
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This will build a release version of the emu in the folder `build\win\<toolchain>\release`
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An example script `build_win_premake.bat` is available, check it out
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<br/>
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### On Linux:
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Open a terminal in the repo folder, then run the following
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```shell
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./third-party/common/linux/premake/premake5 --file=premake5.lua --genproto --os=linux gmake2
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cd ./build/project/gmake2/linux
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```
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*(Optional)* You can use `Clang` compiler instead of `GCC` by running these 2 commands in the current terminal instance
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```shell
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export CC="clang"
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export CXX="clang++"
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```
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Then run the following
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```shell
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make config=release_x32 -j 8 all
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make config=release_x64 -j 8 all
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```
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To see all possible build targets
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```shell
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make help
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```
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This will build a release version of the emu in the folder `build/linux/<toolchain>/release`
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An example script `build_linux_premake.sh` is available, check it out
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---
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## **Building the tool `generate_emu_config`**
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Navigate to the folder `tools/generate_emu_config/` then
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### On Windows:
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Open CMD then:
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1. Create python virtual environemnt and install the required packages/dependencies
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```batch
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recreate_venv_win.bat
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```
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2. Build the tool using `pyinstaller`
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```batch
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rebuild_win.bat
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```
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This will build the tool inside `bin\win`
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### On Linux:
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Open bash terminal then:
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1. Create python virtual environemnt and install the required packages/dependencies
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```shell
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sudo ./recreate_venv_linux.sh
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```
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You might need to edit this script to use a different python version.
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Find this line and change it:
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```shell
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python_package="python3.12"
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```
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2. Build the tool using `pyinstaller`
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```shell
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./rebuild_linux.sh
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```
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This will build the tool inside `bin/linux`
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---
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## **Using Github CI as a builder**
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This is really slow and mainly intended for the CI Workflow scripts, but you can use it as another outlet if you can't build locally.
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**You have to fork the repo first**.
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### Initial setup
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In your fork, open the `Settings` tab from the top, then:
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* From the left side panel select `Actions` -> `General`
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* In the section `Actions permissions` select `Allow all actions and reusable workflows`
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* Scroll down, and in the section `Workflow permissions` select `Read and write permissions`
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* *(Optional)* In the section `Artifact and log retention`, you can specify the amount of days to keep the build artifacts/archives.
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It is recommended to set a reasonable number like 3-4 days, otherwise you may consume your packages storage if you use Github as a builder frequently, more details here: https://docs.github.com/en/get-started/learning-about-github/githubs-plans
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### Manual trigger
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1. Go to the `Actions` tab in your fork
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2. Select the emu dependencies Workflow (ex: `Emu third-party dependencies (Windows) `) and run it on the **main** branch (ex: `dev`).
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Dependencies not created on the main branch won't be recognized by other branches or subsequent runs
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3. Select one of the Workflow scripts from the left side panel, for example `Build all emu variants (Windows)`
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3. On the top-right, select `Run workflow` -> select the desired branch (for example `dev`) -> press the button `Run workflow`
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4. When it's done, many packages (called build artifacts) will be created for that workflow.
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Make sure to select the workflow again to view its history, then select the last run at the very top to view its artifacts
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<br/>
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Important note:
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---
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When you build the dependencies workflows, they will be cached to decrease the build times of the next triggers and avoid unnecessary/wasteful build process.
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This will cause a problem if at any time the third-party dependencies were updated, in that case you need to manually delete the cache, in your fork:
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1. Go to the `Actions` tab at the top
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2. Select `Caches` from the left side panel
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3. Delete the corresponding cache
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<br/>
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---
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## ***(Optional)* Packaging**
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This step is intended for Github CI/Workflow, but you can create a package locally.
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### On Windows:
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Open CMD in the repos's directory, then run this script
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```batch
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package_win.bat <build_folder>
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```
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`build_folder` is any folder inside `build\win`, for example: `vs2022\release`
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The above example will create a `.7z` archive inside `build\package\win\`
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### On Linux:
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Open bash terminal in the repos's directory, then run this script
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```shell
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package_linux.sh <build_folder>
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```
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`build_folder` is any folder inside `build/linux`, for example: `gmake2/release`
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The above example will create a compressed `.tar` archive inside `build/package/linux/`
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