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path: root/platform/android/src/map_renderer.cpp
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#include "map_renderer.hpp"

#include <mbgl/renderer/renderer.hpp>
#include <mbgl/util/shared_thread_pool.hpp>
#include <mbgl/util/run_loop.hpp>

#include <string>

#include "attach_env.hpp"
#include "android_renderer_backend.hpp"
#include "map_renderer_runnable.hpp"
#include "file_source.hpp"

namespace mbgl {
namespace android {

MapRenderer::MapRenderer(jni::JNIEnv& _env,
                         const jni::Object<MapRenderer>& obj,
                         const jni::Object<FileSource>& _fileSource,
                         jni::jfloat pixelRatio_,
                         const jni::String& programCacheDir_,
                         const jni::String& localIdeographFontFamily_)
        : javaPeer(_env, obj)
        , pixelRatio(pixelRatio_)
        , fileSource(FileSource::getDefaultFileSource(_env, _fileSource))
        , programCacheDir(jni::Make<std::string>(_env, programCacheDir_))
        , localIdeographFontFamily(localIdeographFontFamily_ ? jni::Make<std::string>(_env, localIdeographFontFamily_) : optional<std::string>{})
        , threadPool(sharedThreadPool())
        , mailbox(std::make_shared<Mailbox>(*this)) {
}

MapRenderer::~MapRenderer() = default;

void MapRenderer::reset() {
    destroyed = true;
    // Make sure to destroy the renderer on the GL Thread
    auto self = ActorRef<MapRenderer>(*this, mailbox);
    self.ask(&MapRenderer::resetRenderer).wait();

    // Lock to make sure there is no concurrent initialisation on the gl thread
    std::lock_guard<std::mutex> lock(initialisationMutex);
    rendererObserver.reset();
}

ActorRef<Renderer> MapRenderer::actor() const {
    return *rendererRef;
}

void MapRenderer::schedule(std::weak_ptr<Mailbox> scheduled) {
    // Create a runnable
    android::UniqueEnv _env = android::AttachEnv();
    auto runnable = std::make_unique<MapRendererRunnable>(*_env, std::move(scheduled));

    // Obtain ownership of the peer (gets transferred to the MapRenderer on the JVM for later GC)
    auto peer = runnable->peer();

    // Queue the event on the Java Peer
    static auto& javaClass = jni::Class<MapRenderer>::Singleton(*_env);
    static auto queueEvent = javaClass.GetMethod<void(
            jni::Object<MapRendererRunnable>)>(*_env, "queueEvent");
    auto weakReference = javaPeer.get(*_env);
    if (weakReference) {
        weakReference.Call(*_env, queueEvent, peer);
    }

    // Release the c++ peer as it will be destroyed on GC of the Java Peer
    runnable.release();
}

void MapRenderer::requestRender() {
    android::UniqueEnv _env = android::AttachEnv();
    static auto& javaClass = jni::Class<MapRenderer>::Singleton(*_env);
    static auto onInvalidate = javaClass.GetMethod<void()>(*_env, "requestRender");
    auto weakReference = javaPeer.get(*_env);
    if (weakReference) {
        weakReference.Call(*_env, onInvalidate);
    }
}

void MapRenderer::update(std::shared_ptr<UpdateParameters> params) {
    // Lock on the parameters
    std::lock_guard<std::mutex> lock(updateMutex);
    updateParameters = std::move(params);
}

void MapRenderer::setObserver(std::shared_ptr<RendererObserver> _rendererObserver) {
    // Lock as the initialization can come from the main thread or the GL thread first
    std::lock_guard<std::mutex> lock(initialisationMutex);

    rendererObserver = std::move(_rendererObserver);

    // Set the new observer on the Renderer implementation
    if (renderer) {
        renderer->setObserver(rendererObserver.get());
    }
}

void MapRenderer::requestSnapshot(SnapshotCallback callback) {
    auto self = ActorRef<MapRenderer>(*this, mailbox);
    self.invoke(
            &MapRenderer::scheduleSnapshot,
            std::make_unique<SnapshotCallback>([&, callback=std::move(callback), runloop=util::RunLoop::Get()](PremultipliedImage image) {
                runloop->invoke([callback=std::move(callback), image=std::move(image), renderer=std::move(this)]() mutable {
                    if (renderer && !renderer->destroyed) {
                        callback(std::move(image));
                    }
                });
                snapshotCallback.reset();
            })
    );
}

// Called on OpenGL thread //

void MapRenderer::resetRenderer() {
    assert (renderer);
    renderer.reset();
}

void MapRenderer::scheduleSnapshot(std::unique_ptr<SnapshotCallback> callback) {
    snapshotCallback = std::move(callback);
    requestRender();
}

void MapRenderer::render(JNIEnv&) {
    assert (renderer);

    std::shared_ptr<UpdateParameters> params;
    {
        // Lock on the parameters
        std::unique_lock<std::mutex> lock(updateMutex);
        if (!updateParameters) return;

        // Hold on to the update parameters during render
        params = updateParameters;
    }

    // Activate the backend
    BackendScope backendGuard { *backend };

    // Ensure that the "current" scheduler on the render thread is
    // this scheduler.
    Scheduler::SetCurrent(this);

    if (framebufferSizeChanged) {
        backend->updateViewPort();
        framebufferSizeChanged = false;
    }

    renderer->render(*params);

    // Deliver the snapshot if requested
    if (snapshotCallback) {
        snapshotCallback->operator()(backend->readFramebuffer());
        snapshotCallback.reset();
    }
}

void MapRenderer::onSurfaceCreated(JNIEnv&) {
    // Lock as the initialization can come from the main thread or the GL thread first
    std::lock_guard<std::mutex> lock(initialisationMutex);

    // The android system will have already destroyed the underlying
    // GL resources if this is not the first initialization and an
    // attempt to clean them up will fail
    if (backend) backend->markContextLost();
    if (renderer) renderer->markContextLost();

    // Reset in opposite order
    renderer.reset();
    backend.reset();

    // Create the new backend and renderer
    backend = std::make_unique<AndroidRendererBackend>();
    renderer = std::make_unique<Renderer>(*backend, pixelRatio, fileSource, *threadPool,
                                          GLContextMode::Unique, programCacheDir, localIdeographFontFamily);
    rendererRef = std::make_unique<ActorRef<Renderer>>(*renderer, mailbox);

    // Set the observer on the new Renderer implementation
    if (rendererObserver) {
        renderer->setObserver(rendererObserver.get());
    }
}

void MapRenderer::onSurfaceChanged(JNIEnv&, jint width, jint height) {
    backend->resizeFramebuffer(width, height);
    framebufferSizeChanged = true;
    requestRender();
}

// Static methods //

void MapRenderer::registerNative(jni::JNIEnv& env) {
    // Lookup the class
    static auto& javaClass = jni::Class<MapRenderer>::Singleton(env);

#define METHOD(MethodPtr, name) jni::MakeNativePeerMethod<decltype(MethodPtr), (MethodPtr)>(name)

    // Register the peer
    jni::RegisterNativePeer<MapRenderer>(env, javaClass, "nativePtr",
                                         jni::MakePeer<MapRenderer, const jni::Object<MapRenderer>&, const jni::Object<FileSource>&, jni::jfloat, const jni::String&, const jni::String&>,
                                         "nativeInitialize", "finalize",
                                         METHOD(&MapRenderer::render, "nativeRender"),
                                         METHOD(&MapRenderer::onSurfaceCreated,
                                                "nativeOnSurfaceCreated"),
                                         METHOD(&MapRenderer::onSurfaceChanged,
                                                "nativeOnSurfaceChanged"));
}

MapRenderer& MapRenderer::getNativePeer(JNIEnv& env, const jni::Object<MapRenderer>& jObject) {
    static auto& javaClass = jni::Class<MapRenderer>::Singleton(env);
    static auto field = javaClass.GetField<jlong>(env, "nativePtr");
    MapRenderer* mapRenderer = reinterpret_cast<MapRenderer*>(jObject.Get(env, field));
    assert(mapRenderer != nullptr);
    return *mapRenderer;
}

} // namespace android
} // namespace mbgl