# How To This document describes the common commands for building and testing the project. ## Features * **Real-time Audio Synthesis**: The demo features a multi-voice synthesizer that generates audio in real-time from spectrograms. * **Dynamic Sound Updates**: Spectrograms can be updated dynamically and safely during runtime for evolving soundscapes. ## Building ### Debug Build To run the demo in fullscreen mode, use the `--fullscreen` command-line option: ```bash cmake -S . -B build cmake --build build ./build/demo64k --fullscreen ``` Keyboard Controls: * `Esc`: Exit the demo. * `F`: Toggle fullscreen mode. ### Size-Optimized Build ```bash cmake -S . -B build -DDEMO_SIZE_OPT=ON cmake --build build ``` ### Final / Strip Build To produce the smallest possible binary (stripping all unnecessary code like command-line parsing and debug info), use the `DEMO_STRIP_ALL` option: ```bash cmake -S . -B build -DDEMO_STRIP_ALL=ON cmake --build build ``` In this mode, the demo will always start in fullscreen. ### Developer Build (All Options) To enable all features at once (tests, tools, size optimizations, and stripping) for a comprehensive check: ```bash cmake -S . -B build -DDEMO_ALL_OPTIONS=ON cmake --build build ``` ## git cloning if you have the public ssh key authorized on the VPS, you can use `git clone ssh://git@51.38.51.127/~/demo.git` to clone the repo and work on it. ## Debugging ### Seeking / Fast-Forward In non-stripped builds, you can jump to any timestamp in the demo. This will simulate all audio logic and GPU physics (compute shaders) frame-by-frame from the start until the target time, then begin real-time playback. ```bash ./build/demo64k --seek 15.5 ``` ## Demo Choreography ### Sequence Compiler The demo timeline is managed via a textual description in `assets/demo.seq`. This file is transpiled into C++ code during the build process. **Format:** ```text # Starts a new sequence layer (global_start, priority) SEQUENCE 0.0 0 # Adds an effect to the sequence (ClassName, local_start, local_end, priority, [constructor_args...]) EFFECT HeptagonEffect 0.0 60.0 0 ``` To update the demo's timing or layering, simply edit `assets/demo.seq` and rebuild. ## Tools If you are on macOS and want to test the Windows build: 1. Build it: `./scripts/build_win.sh` 2. Run it: `./scripts/run_win.sh` Note: WebGPU support in Wine requires a Vulkan-capable backend (like MoltenVK on macOS). Note2: make sure you run the script `./scripts/fetch_win_deps.sh` before, to install Win64 dependencies. ### Testing **Commit Policy**: Always run tests before committing. Refer to `CONTRIBUTING.md` for details. To build and run the tests, you need to enable the `DEMO_BUILD_TESTS` option in CMake. Refer to the "Developer Build (All Options)" section for the easiest way to enable this. Available test suites: * `HammingWindowTest`: Verifies the properties of the Hamming window function. * `MathUtilsTest`: Verifies basic math utilities. * `SynthEngineTest`: Verifies the core functionality of the audio synthesizer. * `SpectoolEndToEndTest`: Performs an end-to-end test of the `spectool` by generating a WAV file, analyzing it, and verifying the output. * `SequenceSystemTest`: Tests the logic of the sequence and effect system (activation, timing, priority), but **not** actual GPU rendering output, as this requires extensive mocking. ```bash cmake -S . -B build -DDEMO_BUILD_TESTS=ON cmake --build build cd build ctest cd .. ``` ## Tools ### Spectrogram Tool (`spectool`) A command-line tool for analyzing WAV and MP3 files into spectrograms and playing them back. #### Building the Tool To build `spectool`, you need to enable the `DEMO_BUILD_TOOLS` option in CMake. ```bash cmake -S . -B build -DDEMO_BUILD_TOOLS=ON cmake --build build ``` The executable will be located at `build/spectool`. #### Usage **Analyze an audio file:** ```bash ./build/spectool analyze path/to/input.wav path/to/output.spec # or ./build/spectool analyze path/to/input.mp3 path/to/output.spec ``` **Play a spectrogram file:** ```bash ./build/spectool play path/to/input.spec ``` ### Spectrogram Viewer (`specview`) A command-line tool for visualizing spectrogram files in ASCII art. #### Building the Tool `specview` is built along with `spectool` when enabling `DEMO_BUILD_TOOLS`. ```bash cmake -S . -B build -DDEMO_BUILD_TOOLS=ON cmake --build build ``` The executable will be located at `build/specview`. #### Usage **View a spectrogram file:** ```bash ./build/specview path/to/input.spec ``` ### Asset Management System This system allows embedding binary assets directly into the demo executable. #### Defining Assets Assets are defined in `assets/final/demo_assets.txt` (for the demo) and `assets/final/test_assets_list.txt` (for tests). Each line specifies: * `ASSET_NAME`: The identifier for the asset in C++ (e.g., `KICK_1`). * `filename.ext`: The path to the asset file (relative to `assets/final/`). * `NONE`: Compression type (currently only `NONE` is supported). * `"Description"`: An optional description. Example `assets/final/demo_assets.txt` entry: ``` KICK_1, kick1.spec, NONE, "A drum kick sample" ``` #### Re-generating Assets To re-analyze source audio files (WAV/MP3) into spectrograms and update the embedded assets in the source tree, use the provided script: ```bash ./scripts/gen_assets.sh ``` This script: 1. Ensures `spectool` and `asset_packer` are built. 2. Converts source audio files in `assets/wav/` to `.spec` files in `assets/final/`. 3. Runs `asset_packer` to update `src/assets.h` and `src/assets_data.cc`. #### Building with Assets The build system automatically runs `asset_packer` whenever the asset lists are modified. The generated files are located in the build directory (`build/src/`). To build the demo with the latest assets: ```bash cmake -S . -B build cmake --build build ``` #### Accessing Assets in Code Include `assets.h` and use the `GetAsset` function: ```cpp #include "assets.h" // ... size_t asset_size; const uint8_t* my_asset = GetAsset(AssetId::ASSET_SAMPLE_142, &asset_size); // ... // For lazy decompression (scaffolding only): // DropAsset(AssetId::ASSET_SAMPLE_142, my_asset); ```