Follow the OS-specific instructions below. # Linux Install [**devkitARM**](http://devkitpro.org/wiki/Getting_Started/devkitARM). Make sure that there is an environment variable called DEVKITARM with the path of the directory before the "bin" directory containing "arm-none-eabi-as", "arm-none-eabi-cpp", "arm-none-eabi-ld" and "arm-none-eabi-objcopy". Then get the compiler from https://github.com/pret/agbcc and run the following commands. ``` ./build.sh ./install.sh PATH_OF_POKEEMERALD_DIRECTORY ``` Then in the pokeemerald directory, build the tools. ``` ./build_tools.sh ``` Finally, build the rom. ``` make ``` # Windows Install [**devkitARM**](http://devkitpro.org/wiki/Getting_Started/devkitARM). Then get the compiled tools from https://github.com/pret/pokeruby-tools. Copy the `tools/` folder over the `tools/` folder in your pokeemerald directory. You can then build pokeemerald using `make` in the MSYS environment provided with devkitARM. # Mac Installing pokeemerald on a Mac requires macOS >= 10.12 (Sierra or higher). Download a [devkitPRO pacman](https://github.com/devkitPro/pacman/releases/tag/v1.0.0) Run the following commands in Terminal: ``` xcode-select --install sudo dkp-pacman -S devkitARM export DEVKITPRO=/opt/devkitpro echo "export DEVKITPRO=$DEVKITPRO" >> ~/.bashrc export DEVKITARM=$DEVKITPRO/devkitARM echo "export DEVKITARM=$DEVKITARM" >> ~/.bashrc echo "if [ -f ~/.bashrc ]; then . ~/.bashrc; fi" >> ~/.bash_profile git clone https://github.com/pret/pokeemerald git clone https://github.com/pret/agbcc cd agbcc/ ./build.sh ./install.sh ../pokeemerald cd ../pokeemerald ./build_tools.sh ``` And build the ROM with `make`. If the step `./build.sh` in the above list of commands fails with the error `Makefile:1: /opt/devkitpro/devkitARM/base_tools: No such file or directory`, then try installing the pacman package `devkitarm-rules` by executing the command ``` sudo dkp-pacman -S devkitarm-rules ``` Executing `./build.sh` again should now succeed. # Faster builds After the first build, subsequent builds are faster. You can further speed up the build: ## Parallel build This significantly speeds up the build on modern machines. By default `make` only runs a single thread. You can tell `make` to run on multiple threads with `make -j`. See the manfile for usage (`man make`). The optimal value for `-j` is the number of logical cores on your machine. You can run `nproc` to see the exact number. ``` $ nproc 8 ``` If you have 8 cores, run: `make -j8` `-j` on its own will spawn a new thread for each job. A clean build will have thousands of jobs, which will be slower than not using -j at all. ## Disable the dependency scanning If you've only changed `.c` or `.s` files, you can turn off the dependency scanning temporarily. Changes to any other files will be ignored, and the build will either fail or not reflect those changes. `make NODEP=1`