///
/// JHybridCameraDeviceFactorySpec.cpp
/// This file was generated by nitrogen. DO NOT MODIFY THIS FILE.
/// https://github.com/mrousavy/nitro
/// Copyright © Marc Rousavy @ Margelo
///

#include "JHybridCameraDeviceFactorySpec.hpp"

// Forward declaration of `HybridCameraDeviceSpec` to properly resolve imports.
namespace margelo::nitro::camera { class HybridCameraDeviceSpec; }
// Forward declaration of `ListenerSubscription` to properly resolve imports.
namespace margelo::nitro::camera { struct ListenerSubscription; }
// Forward declaration of `HybridCameraExtensionSpec` to properly resolve imports.
namespace margelo::nitro::camera { class HybridCameraExtensionSpec; }
// Forward declaration of `CameraPosition` to properly resolve imports.
namespace margelo::nitro::camera { enum class CameraPosition; }

#include <memory>
#include "HybridCameraDeviceSpec.hpp"
#include <vector>
#include "JHybridCameraDeviceSpec.hpp"
#include <optional>
#include "ListenerSubscription.hpp"
#include "JListenerSubscription.hpp"
#include <functional>
#include "JFunc_void.hpp"
#include <NitroModules/JNICallable.hpp>
#include "HybridCameraExtensionSpec.hpp"
#include <NitroModules/Promise.hpp>
#include <NitroModules/JPromise.hpp>
#include "JHybridCameraExtensionSpec.hpp"
#include "JFunc_void_std__vector_std__shared_ptr_HybridCameraDeviceSpec__.hpp"
#include <string>
#include "CameraPosition.hpp"
#include "JCameraPosition.hpp"

namespace margelo::nitro::camera {

  std::shared_ptr<JHybridCameraDeviceFactorySpec> JHybridCameraDeviceFactorySpec::JavaPart::getJHybridCameraDeviceFactorySpec() {
    auto hybridObject = JHybridObject::JavaPart::getJHybridObject();
    auto castHybridObject = std::dynamic_pointer_cast<JHybridCameraDeviceFactorySpec>(hybridObject);
    if (castHybridObject == nullptr) [[unlikely]] {
      throw std::runtime_error("Failed to downcast JHybridObject to JHybridCameraDeviceFactorySpec!");
    }
    return castHybridObject;
  }

  jni::local_ref<JHybridCameraDeviceFactorySpec::CxxPart::jhybriddata> JHybridCameraDeviceFactorySpec::CxxPart::initHybrid(jni::alias_ref<jhybridobject> jThis) {
    return makeCxxInstance(jThis);
  }

  std::shared_ptr<JHybridObject> JHybridCameraDeviceFactorySpec::CxxPart::createHybridObject(const jni::local_ref<JHybridObject::JavaPart>& javaPart) {
    auto castJavaPart = jni::dynamic_ref_cast<JHybridCameraDeviceFactorySpec::JavaPart>(javaPart);
    if (castJavaPart == nullptr) [[unlikely]] {
      throw std::runtime_error("Failed to cast JHybridObject::JavaPart to JHybridCameraDeviceFactorySpec::JavaPart!");
    }
    return std::make_shared<JHybridCameraDeviceFactorySpec>(castJavaPart);
  }

  void JHybridCameraDeviceFactorySpec::CxxPart::registerNatives() {
    registerHybrid({
      makeNativeMethod("initHybrid", JHybridCameraDeviceFactorySpec::CxxPart::initHybrid),
    });
  }

  // Properties
  std::vector<std::shared_ptr<HybridCameraDeviceSpec>> JHybridCameraDeviceFactorySpec::getCameraDevices() {
    static const auto method = _javaPart->javaClassStatic()->getMethod<jni::local_ref<jni::JArrayClass<JHybridCameraDeviceSpec::JavaPart>>()>("getCameraDevices");
    auto __result = method(_javaPart);
    return [&](auto&& __input) {
      size_t __size = __input->size();
      std::vector<std::shared_ptr<HybridCameraDeviceSpec>> __vector;
      __vector.reserve(__size);
      for (size_t __i = 0; __i < __size; __i++) {
        auto __element = __input->getElement(__i);
        __vector.push_back(__element->getJHybridCameraDeviceSpec());
      }
      return __vector;
    }(__result);
  }
  std::optional<std::shared_ptr<HybridCameraDeviceSpec>> JHybridCameraDeviceFactorySpec::getUserPreferredCamera() {
    static const auto method = _javaPart->javaClassStatic()->getMethod<jni::local_ref<JHybridCameraDeviceSpec::JavaPart>()>("getUserPreferredCamera");
    auto __result = method(_javaPart);
    return __result != nullptr ? std::make_optional(__result->getJHybridCameraDeviceSpec()) : std::nullopt;
  }
  void JHybridCameraDeviceFactorySpec::setUserPreferredCamera(const std::optional<std::shared_ptr<HybridCameraDeviceSpec>>& userPreferredCamera) {
    static const auto method = _javaPart->javaClassStatic()->getMethod<void(jni::alias_ref<JHybridCameraDeviceSpec::JavaPart> /* userPreferredCamera */)>("setUserPreferredCamera");
    method(_javaPart, userPreferredCamera.has_value() ? std::dynamic_pointer_cast<JHybridCameraDeviceSpec>(userPreferredCamera.value())->getJavaPart() : nullptr);
  }
  std::vector<std::vector<std::shared_ptr<HybridCameraDeviceSpec>>> JHybridCameraDeviceFactorySpec::getSupportedMultiCamDeviceCombinations() {
    static const auto method = _javaPart->javaClassStatic()->getMethod<jni::local_ref<jni::JArrayClass<jni::JArrayClass<JHybridCameraDeviceSpec::JavaPart>>>()>("getSupportedMultiCamDeviceCombinations");
    auto __result = method(_javaPart);
    return [&](auto&& __input) {
      size_t __size = __input->size();
      std::vector<std::vector<std::shared_ptr<HybridCameraDeviceSpec>>> __vector;
      __vector.reserve(__size);
      for (size_t __i = 0; __i < __size; __i++) {
        auto __element = __input->getElement(__i);
        __vector.push_back([&](auto&& __input) {
          size_t __size = __input->size();
          std::vector<std::shared_ptr<HybridCameraDeviceSpec>> __vector;
          __vector.reserve(__size);
          for (size_t __i = 0; __i < __size; __i++) {
            auto __element = __input->getElement(__i);
            __vector.push_back(__element->getJHybridCameraDeviceSpec());
          }
          return __vector;
        }(__element));
      }
      return __vector;
    }(__result);
  }

  // Methods
  ListenerSubscription JHybridCameraDeviceFactorySpec::addOnCameraDevicesChangedListener(const std::function<void(const std::vector<std::shared_ptr<HybridCameraDeviceSpec>>& /* newDevices */)>& listener) {
    static const auto method = _javaPart->javaClassStatic()->getMethod<jni::local_ref<JListenerSubscription>(jni::alias_ref<JFunc_void_std__vector_std__shared_ptr_HybridCameraDeviceSpec__::javaobject> /* listener */)>("addOnCameraDevicesChangedListener_cxx");
    auto __result = method(_javaPart, JFunc_void_std__vector_std__shared_ptr_HybridCameraDeviceSpec___cxx::fromCpp(listener));
    return __result->toCpp();
  }
  std::optional<std::shared_ptr<HybridCameraDeviceSpec>> JHybridCameraDeviceFactorySpec::getCameraForId(const std::string& id) {
    static const auto method = _javaPart->javaClassStatic()->getMethod<jni::local_ref<JHybridCameraDeviceSpec::JavaPart>(jni::alias_ref<jni::JString> /* id */)>("getCameraForId");
    auto __result = method(_javaPart, jni::make_jstring(id));
    return __result != nullptr ? std::make_optional(__result->getJHybridCameraDeviceSpec()) : std::nullopt;
  }
  std::shared_ptr<Promise<std::vector<std::shared_ptr<HybridCameraExtensionSpec>>>> JHybridCameraDeviceFactorySpec::getSupportedExtensions(const std::shared_ptr<HybridCameraDeviceSpec>& camera) {
    static const auto method = _javaPart->javaClassStatic()->getMethod<jni::local_ref<JPromise::javaobject>(jni::alias_ref<JHybridCameraDeviceSpec::JavaPart> /* camera */)>("getSupportedExtensions");
    auto __result = method(_javaPart, std::dynamic_pointer_cast<JHybridCameraDeviceSpec>(camera)->getJavaPart());
    return [&]() {
      auto __promise = Promise<std::vector<std::shared_ptr<HybridCameraExtensionSpec>>>::create();
      __result->cthis()->addOnResolvedListener([=](const jni::alias_ref<jni::JObject>& __boxedResult) {
        auto __result = jni::static_ref_cast<jni::JArrayClass<JHybridCameraExtensionSpec::JavaPart>>(__boxedResult);
        __promise->resolve([&](auto&& __input) {
          size_t __size = __input->size();
          std::vector<std::shared_ptr<HybridCameraExtensionSpec>> __vector;
          __vector.reserve(__size);
          for (size_t __i = 0; __i < __size; __i++) {
            auto __element = __input->getElement(__i);
            __vector.push_back(__element->getJHybridCameraExtensionSpec());
          }
          return __vector;
        }(__result));
      });
      __result->cthis()->addOnRejectedListener([=](const jni::alias_ref<jni::JThrowable>& __throwable) {
        jni::JniException __jniError(__throwable);
        __promise->reject(std::make_exception_ptr(__jniError));
      });
      return __promise;
    }();
  }
  std::optional<std::shared_ptr<HybridCameraDeviceSpec>> JHybridCameraDeviceFactorySpec::getDefaultCamera(CameraPosition position) {
    static const auto method = _javaPart->javaClassStatic()->getMethod<jni::local_ref<JHybridCameraDeviceSpec::JavaPart>(jni::alias_ref<JCameraPosition> /* position */)>("getDefaultCamera");
    auto __result = method(_javaPart, JCameraPosition::fromCpp(position));
    return __result != nullptr ? std::make_optional(__result->getJHybridCameraDeviceSpec()) : std::nullopt;
  }

} // namespace margelo::nitro::camera