# archimedes_mobile_lib A new Flutter FFI plugin project. ## Getting Started This project is a starting point for a Flutter [FFI plugin](https://docs.flutter.dev/development/platform-integration/c-interop), a specialized package that includes native code directly invoked with Dart FFI. ## Project structure This template uses the following structure: * `src`: Contains the native source code, and a CmakeFile.txt file for building that source code into a dynamic library. * `lib`: Contains the Dart code that defines the API of the plugin, and which calls into the native code using `dart:ffi`. * platform folders (`android`, `ios`, `windows`, etc.): Contains the build files for building and bundling the native code library with the platform application. ## Building and bundling native code The `pubspec.yaml` specifies FFI plugins as follows: ```yaml plugin: platforms: some_platform: ffiPlugin: true ``` This configuration invokes the native build for the various target platforms and bundles the binaries in Flutter applications using these FFI plugins. This can be combined with dartPluginClass, such as when FFI is used for the implementation of one platform in a federated plugin: ```yaml plugin: implements: some_other_plugin platforms: some_platform: dartPluginClass: SomeClass ffiPlugin: true ``` A plugin can have both FFI and method channels: ```yaml plugin: platforms: some_platform: pluginClass: SomeName ffiPlugin: true ``` The native build systems that are invoked by FFI (and method channel) plugins are: * For Android: Gradle, which invokes the Android NDK for native builds. * See the documentation in android/build.gradle. * For iOS and MacOS: Xcode, via CocoaPods. * See the documentation in ios/archimedes_mobile_lib.podspec. * See the documentation in macos/archimedes_mobile_lib.podspec. * For Linux and Windows: CMake. * See the documentation in linux/CMakeLists.txt. * See the documentation in windows/CMakeLists.txt. ## Binding to native code To use the native code, bindings in Dart are needed. To avoid writing these by hand, they are generated from the header file (`src/archimedes_mobile_lib.h`) by `package:ffigen`. Regenerate the bindings by running `flutter pub run ffigen --config ffigen.yaml`. ## Invoking native code Very short-running native functions can be directly invoked from any isolate. For example, see `sum` in `lib/archimedes_mobile_lib.dart`. Longer-running functions should be invoked on a helper isolate to avoid dropping frames in Flutter applications. For example, see `sumAsync` in `lib/archimedes_mobile_lib.dart`. ## Flutter help For help getting started with Flutter, view our [online documentation](https://flutter.dev/docs), which offers tutorials, samples, guidance on mobile development, and a full API reference. # Developer Notes You'll get an error with Eiger, so watch out. ``` $ make finition.hpp:17:10: fatal error: Eigen/Dense: No such file or directory 17 | #include | ^~~~~~~~~~~~~ compilation terminated. ``` ```shell $ sudo at install -y libeigen3-dev $ sudo ln -sf /usr/include/eigen3/Eigen /usr/include/Eigen ``` git clone --single-branch --branch n6.1 https://git.ffmpeg.org/ffmpeg.git Can I expose `FILE` in dart? Yea...no! https://github.com/dart-lang/sdk/issues/4160 Instead, I'll have to load the data in directly. buliding open mvg needs to be done with the PIC flag ```shell $ cmake ../src -DCMAKE_INSTALL_PREFIX="../../openMVG/build/_install" -DCMAKE_POSITION_INDEPENDENT_CODE=ON ```