arm64/include/out/soong/.intermediates/hardware/interfaces/gnss/measurement_corrections/1.1/android.hardware.gnss.measurement_corrections@1.1_genc++_headers/gen/android/hardware/gnss/measurement_corrections/1.1/BsMeasurementCorrections.h - platform/prebuilts/vndk/v30 - Git at Google

 #ifndef HIDL_GENERATED_ANDROID_HARDWARE_GNSS_MEASUREMENT_CORRECTIONS_V1_1_BSMEASUREMENTCORRECTIONS_H
 #define HIDL_GENERATED_ANDROID_HARDWARE_GNSS_MEASUREMENT_CORRECTIONS_V1_1_BSMEASUREMENTCORRECTIONS_H

 #include <android-base/macros.h>
 #include <cutils/trace.h>
 #include <future>
 #include <android/hardware/gnss/measurement_corrections/1.1/IMeasurementCorrections.h>

 #include <hidl/HidlPassthroughSupport.h>
 #include <hidl/TaskRunner.h>
 namespace android {
 namespace hardware {
 namespace gnss {
 namespace measurement_corrections {
 namespace V1_1 {

 struct BsMeasurementCorrections : IMeasurementCorrections, ::android::hardware::details::HidlInstrumentor {
     explicit BsMeasurementCorrections(const ::android::sp<IMeasurementCorrections> impl);

     /**
      * The pure class is what this class wraps.
      */
     typedef IMeasurementCorrections Pure;

     typedef ::android::hardware::details::bs_tag _hidl_tag;

     // Methods from ::android::hardware::gnss::measurement_corrections::V1_0::IMeasurementCorrections follow.
     ::android::hardware::Return<bool> setCorrections(const ::android::hardware::gnss::measurement_corrections::V1_0::MeasurementCorrections& corrections) override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::setCorrections::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&corrections);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hardware.gnss.measurement_corrections", "1.0", "IMeasurementCorrections", "setCorrections", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->setCorrections(corrections);

         bool _hidl_out_success = _hidl_return;
         (void) _hidl_out_success;
         atrace_end(ATRACE_TAG_HAL);
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&_hidl_out_success);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hardware.gnss.measurement_corrections", "1.0", "IMeasurementCorrections", "setCorrections", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }
     ::android::hardware::Return<bool> setCallback(const ::android::sp<::android::hardware::gnss::measurement_corrections::V1_0::IMeasurementCorrectionsCallback>& callback) override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::setCallback::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&callback);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hardware.gnss.measurement_corrections", "1.0", "IMeasurementCorrections", "setCallback", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::sp<::android::hardware::gnss::measurement_corrections::V1_0::IMeasurementCorrectionsCallback> _hidl_wrapped_callback;
         if (callback != nullptr && !callback->isRemote()) {
             _hidl_wrapped_callback = ::android::hardware::details::wrapPassthrough(callback);
             if (_hidl_wrapped_callback == nullptr) {
                 return ::android::hardware::Status::fromExceptionCode(
                         ::android::hardware::Status::EX_TRANSACTION_FAILED,
                         "Cannot wrap passthrough interface.");
             }
         } else {
             _hidl_wrapped_callback = callback;
         }

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->setCallback(_hidl_wrapped_callback);

         bool _hidl_out_success = _hidl_return;
         (void) _hidl_out_success;
         atrace_end(ATRACE_TAG_HAL);
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&_hidl_out_success);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hardware.gnss.measurement_corrections", "1.0", "IMeasurementCorrections", "setCallback", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }

     // Methods from ::android::hardware::gnss::measurement_corrections::V1_1::IMeasurementCorrections follow.
     ::android::hardware::Return<bool> setCorrections_1_1(const ::android::hardware::gnss::measurement_corrections::V1_1::MeasurementCorrections& corrections) override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::setCorrections_1_1::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&corrections);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hardware.gnss.measurement_corrections", "1.1", "IMeasurementCorrections", "setCorrections_1_1", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->setCorrections_1_1(corrections);

         bool _hidl_out_success = _hidl_return;
         (void) _hidl_out_success;
         atrace_end(ATRACE_TAG_HAL);
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&_hidl_out_success);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hardware.gnss.measurement_corrections", "1.1", "IMeasurementCorrections", "setCorrections_1_1", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }

     // Methods from ::android::hidl::base::V1_0::IBase follow.
     ::android::hardware::Return<void> interfaceChain(interfaceChain_cb _hidl_cb) override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::interfaceChain::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "interfaceChain", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->interfaceChain([&](const auto &_hidl_out_descriptors) {
             atrace_end(ATRACE_TAG_HAL);
             #ifdef __ANDROID_DEBUGGABLE__
             if (UNLIKELY(mEnableInstrumentation)) {
                 std::vector<void *> _hidl_args;
                 _hidl_args.push_back((void *)&_hidl_out_descriptors);
                 for (const auto &callback: mInstrumentationCallbacks) {
                     callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "interfaceChain", &_hidl_args);
                 }
             }
             #endif // __ANDROID_DEBUGGABLE__

             _hidl_cb(_hidl_out_descriptors);
         });

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }
     ::android::hardware::Return<void> debug(const ::android::hardware::hidl_handle& fd, const ::android::hardware::hidl_vec<::android::hardware::hidl_string>& options) override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::debug::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&fd);
             _hidl_args.push_back((void *)&options);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "debug", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->debug(fd, options);

         atrace_end(ATRACE_TAG_HAL);
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "debug", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }
     ::android::hardware::Return<void> interfaceDescriptor(interfaceDescriptor_cb _hidl_cb) override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::interfaceDescriptor::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "interfaceDescriptor", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->interfaceDescriptor([&](const auto &_hidl_out_descriptor) {
             atrace_end(ATRACE_TAG_HAL);
             #ifdef __ANDROID_DEBUGGABLE__
             if (UNLIKELY(mEnableInstrumentation)) {
                 std::vector<void *> _hidl_args;
                 _hidl_args.push_back((void *)&_hidl_out_descriptor);
                 for (const auto &callback: mInstrumentationCallbacks) {
                     callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "interfaceDescriptor", &_hidl_args);
                 }
             }
             #endif // __ANDROID_DEBUGGABLE__

             _hidl_cb(_hidl_out_descriptor);
         });

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }
     ::android::hardware::Return<void> getHashChain(getHashChain_cb _hidl_cb) override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::getHashChain::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "getHashChain", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->getHashChain([&](const auto &_hidl_out_hashchain) {
             atrace_end(ATRACE_TAG_HAL);
             #ifdef __ANDROID_DEBUGGABLE__
             if (UNLIKELY(mEnableInstrumentation)) {
                 std::vector<void *> _hidl_args;
                 _hidl_args.push_back((void *)&_hidl_out_hashchain);
                 for (const auto &callback: mInstrumentationCallbacks) {
                     callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "getHashChain", &_hidl_args);
                 }
             }
             #endif // __ANDROID_DEBUGGABLE__

             _hidl_cb(_hidl_out_hashchain);
         });

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }
     ::android::hardware::Return<void> setHALInstrumentation() override {
         configureInstrumentation();
         return ::android::hardware::Void();
     }

     ::android::hardware::Return<bool> linkToDeath(const ::android::sp<::android::hardware::hidl_death_recipient>& recipient, uint64_t cookie) override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::linkToDeath::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&recipient);
             _hidl_args.push_back((void *)&cookie);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "linkToDeath", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->linkToDeath(recipient, cookie);

         bool _hidl_out_success = _hidl_return;
         (void) _hidl_out_success;
         atrace_end(ATRACE_TAG_HAL);
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&_hidl_out_success);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "linkToDeath", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }
     ::android::hardware::Return<void> ping() override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::ping::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "ping", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->ping();

         atrace_end(ATRACE_TAG_HAL);
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "ping", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }
     ::android::hardware::Return<void> getDebugInfo(getDebugInfo_cb _hidl_cb) override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::getDebugInfo::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "getDebugInfo", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->getDebugInfo([&](const auto &_hidl_out_info) {
             atrace_end(ATRACE_TAG_HAL);
             #ifdef __ANDROID_DEBUGGABLE__
             if (UNLIKELY(mEnableInstrumentation)) {
                 std::vector<void *> _hidl_args;
                 _hidl_args.push_back((void *)&_hidl_out_info);
                 for (const auto &callback: mInstrumentationCallbacks) {
                     callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "getDebugInfo", &_hidl_args);
                 }
             }
             #endif // __ANDROID_DEBUGGABLE__

             _hidl_cb(_hidl_out_info);
         });

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }
     ::android::hardware::Return<void> notifySyspropsChanged() override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::notifySyspropsChanged::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "notifySyspropsChanged", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = addOnewayTask([mImpl = this->mImpl
         #ifdef __ANDROID_DEBUGGABLE__
         , mEnableInstrumentation = this->mEnableInstrumentation, mInstrumentationCallbacks = this->mInstrumentationCallbacks
         #endif // __ANDROID_DEBUGGABLE__
         ] {
             mImpl->notifySyspropsChanged();

             atrace_end(ATRACE_TAG_HAL);
             #ifdef __ANDROID_DEBUGGABLE__
             if (UNLIKELY(mEnableInstrumentation)) {
                 std::vector<void *> _hidl_args;
                 for (const auto &callback: mInstrumentationCallbacks) {
                     callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "notifySyspropsChanged", &_hidl_args);
                 }
             }
             #endif // __ANDROID_DEBUGGABLE__

         });
         return _hidl_return;
     }
     ::android::hardware::Return<bool> unlinkToDeath(const ::android::sp<::android::hardware::hidl_death_recipient>& recipient) override {
         atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::unlinkToDeath::passthrough");
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&recipient);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "unlinkToDeath", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         ::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
         auto _hidl_return = mImpl->unlinkToDeath(recipient);

         bool _hidl_out_success = _hidl_return;
         (void) _hidl_out_success;
         atrace_end(ATRACE_TAG_HAL);
         #ifdef __ANDROID_DEBUGGABLE__
         if (UNLIKELY(mEnableInstrumentation)) {
             std::vector<void *> _hidl_args;
             _hidl_args.push_back((void *)&_hidl_out_success);
             for (const auto &callback: mInstrumentationCallbacks) {
                 callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "unlinkToDeath", &_hidl_args);
             }
         }
         #endif // __ANDROID_DEBUGGABLE__

         if (!_hidl_error.isOk()) return _hidl_error;
         return _hidl_return;
     }

 private:
     const ::android::sp<IMeasurementCorrections> mImpl;
     ::android::hardware::details::TaskRunner mOnewayQueue;

     ::android::hardware::Return<void> addOnewayTask(std::function<void(void)>);

 };

 }  // namespace V1_1
 }  // namespace measurement_corrections
 }  // namespace gnss
 }  // namespace hardware
 }  // namespace android

 #endif  // HIDL_GENERATED_ANDROID_HARDWARE_GNSS_MEASUREMENT_CORRECTIONS_V1_1_BSMEASUREMENTCORRECTIONS_H
	#ifndef HIDL_GENERATED_ANDROID_HARDWARE_GNSS_MEASUREMENT_CORRECTIONS_V1_1_BSMEASUREMENTCORRECTIONS_H
	#define HIDL_GENERATED_ANDROID_HARDWARE_GNSS_MEASUREMENT_CORRECTIONS_V1_1_BSMEASUREMENTCORRECTIONS_H

	#include <android-base/macros.h>
	#include <cutils/trace.h>
	#include <future>
	#include <android/hardware/gnss/measurement_corrections/1.1/IMeasurementCorrections.h>

	#include <hidl/HidlPassthroughSupport.h>
	#include <hidl/TaskRunner.h>
	namespace android {
	namespace hardware {
	namespace gnss {
	namespace measurement_corrections {
	namespace V1_1 {

	struct BsMeasurementCorrections : IMeasurementCorrections, ::android::hardware::details::HidlInstrumentor {
	explicit BsMeasurementCorrections(const ::android::sp<IMeasurementCorrections> impl);

	/**
	* The pure class is what this class wraps.
	*/
	typedef IMeasurementCorrections Pure;

	typedef ::android::hardware::details::bs_tag _hidl_tag;

	// Methods from ::android::hardware::gnss::measurement_corrections::V1_0::IMeasurementCorrections follow.
	::android::hardware::Return<bool> setCorrections(const ::android::hardware::gnss::measurement_corrections::V1_0::MeasurementCorrections& corrections) override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::setCorrections::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&corrections);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hardware.gnss.measurement_corrections", "1.0", "IMeasurementCorrections", "setCorrections", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->setCorrections(corrections);

	bool _hidl_out_success = _hidl_return;
	(void) _hidl_out_success;
	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&_hidl_out_success);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hardware.gnss.measurement_corrections", "1.0", "IMeasurementCorrections", "setCorrections", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}
	::android::hardware::Return<bool> setCallback(const ::android::sp<::android::hardware::gnss::measurement_corrections::V1_0::IMeasurementCorrectionsCallback>& callback) override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::setCallback::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&callback);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hardware.gnss.measurement_corrections", "1.0", "IMeasurementCorrections", "setCallback", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::sp<::android::hardware::gnss::measurement_corrections::V1_0::IMeasurementCorrectionsCallback> _hidl_wrapped_callback;
	if (callback != nullptr && !callback->isRemote()) {
	_hidl_wrapped_callback = ::android::hardware::details::wrapPassthrough(callback);
	if (_hidl_wrapped_callback == nullptr) {
	return ::android::hardware::Status::fromExceptionCode(
	::android::hardware::Status::EX_TRANSACTION_FAILED,
	"Cannot wrap passthrough interface.");
	}
	} else {
	_hidl_wrapped_callback = callback;
	}

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->setCallback(_hidl_wrapped_callback);

	bool _hidl_out_success = _hidl_return;
	(void) _hidl_out_success;
	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&_hidl_out_success);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hardware.gnss.measurement_corrections", "1.0", "IMeasurementCorrections", "setCallback", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}

	// Methods from ::android::hardware::gnss::measurement_corrections::V1_1::IMeasurementCorrections follow.
	::android::hardware::Return<bool> setCorrections_1_1(const ::android::hardware::gnss::measurement_corrections::V1_1::MeasurementCorrections& corrections) override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::setCorrections_1_1::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&corrections);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hardware.gnss.measurement_corrections", "1.1", "IMeasurementCorrections", "setCorrections_1_1", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->setCorrections_1_1(corrections);

	bool _hidl_out_success = _hidl_return;
	(void) _hidl_out_success;
	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&_hidl_out_success);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hardware.gnss.measurement_corrections", "1.1", "IMeasurementCorrections", "setCorrections_1_1", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}

	// Methods from ::android::hidl::base::V1_0::IBase follow.
	::android::hardware::Return<void> interfaceChain(interfaceChain_cb _hidl_cb) override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::interfaceChain::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "interfaceChain", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->interfaceChain([&](const auto &_hidl_out_descriptors) {
	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&_hidl_out_descriptors);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "interfaceChain", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	_hidl_cb(_hidl_out_descriptors);
	});

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}
	::android::hardware::Return<void> debug(const ::android::hardware::hidl_handle& fd, const ::android::hardware::hidl_vec<::android::hardware::hidl_string>& options) override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::debug::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&fd);
	_hidl_args.push_back((void *)&options);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "debug", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->debug(fd, options);

	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "debug", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}
	::android::hardware::Return<void> interfaceDescriptor(interfaceDescriptor_cb _hidl_cb) override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::interfaceDescriptor::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "interfaceDescriptor", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->interfaceDescriptor([&](const auto &_hidl_out_descriptor) {
	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&_hidl_out_descriptor);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "interfaceDescriptor", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	_hidl_cb(_hidl_out_descriptor);
	});

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}
	::android::hardware::Return<void> getHashChain(getHashChain_cb _hidl_cb) override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::getHashChain::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "getHashChain", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->getHashChain([&](const auto &_hidl_out_hashchain) {
	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&_hidl_out_hashchain);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "getHashChain", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	_hidl_cb(_hidl_out_hashchain);
	});

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}
	::android::hardware::Return<void> setHALInstrumentation() override {
	configureInstrumentation();
	return ::android::hardware::Void();
	}

	::android::hardware::Return<bool> linkToDeath(const ::android::sp<::android::hardware::hidl_death_recipient>& recipient, uint64_t cookie) override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::linkToDeath::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&recipient);
	_hidl_args.push_back((void *)&cookie);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "linkToDeath", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->linkToDeath(recipient, cookie);

	bool _hidl_out_success = _hidl_return;
	(void) _hidl_out_success;
	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&_hidl_out_success);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "linkToDeath", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}
	::android::hardware::Return<void> ping() override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::ping::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "ping", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->ping();

	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "ping", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}
	::android::hardware::Return<void> getDebugInfo(getDebugInfo_cb _hidl_cb) override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::getDebugInfo::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "getDebugInfo", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->getDebugInfo([&](const auto &_hidl_out_info) {
	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&_hidl_out_info);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "getDebugInfo", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	_hidl_cb(_hidl_out_info);
	});

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}
	::android::hardware::Return<void> notifySyspropsChanged() override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::notifySyspropsChanged::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "notifySyspropsChanged", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = addOnewayTask([mImpl = this->mImpl
	#ifdef __ANDROID_DEBUGGABLE__
	, mEnableInstrumentation = this->mEnableInstrumentation, mInstrumentationCallbacks = this->mInstrumentationCallbacks
	#endif // __ANDROID_DEBUGGABLE__
	] {
	mImpl->notifySyspropsChanged();

	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "notifySyspropsChanged", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	});
	return _hidl_return;
	}
	::android::hardware::Return<bool> unlinkToDeath(const ::android::sp<::android::hardware::hidl_death_recipient>& recipient) override {
	atrace_begin(ATRACE_TAG_HAL, "HIDL::IMeasurementCorrections::unlinkToDeath::passthrough");
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&recipient);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_ENTRY, "android.hidl.base", "1.0", "IBase", "unlinkToDeath", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	::android::hardware::Status _hidl_error = ::android::hardware::Status::ok();
	auto _hidl_return = mImpl->unlinkToDeath(recipient);

	bool _hidl_out_success = _hidl_return;
	(void) _hidl_out_success;
	atrace_end(ATRACE_TAG_HAL);
	#ifdef __ANDROID_DEBUGGABLE__
	if (UNLIKELY(mEnableInstrumentation)) {
	std::vector<void *> _hidl_args;
	_hidl_args.push_back((void *)&_hidl_out_success);
	for (const auto &callback: mInstrumentationCallbacks) {
	callback(InstrumentationEvent::PASSTHROUGH_EXIT, "android.hidl.base", "1.0", "IBase", "unlinkToDeath", &_hidl_args);
	}
	}
	#endif // __ANDROID_DEBUGGABLE__

	if (!_hidl_error.isOk()) return _hidl_error;
	return _hidl_return;
	}

	private:
	const ::android::sp<IMeasurementCorrections> mImpl;
	::android::hardware::details::TaskRunner mOnewayQueue;

	::android::hardware::Return<void> addOnewayTask(std::function<void(void)>);

	};

	} // namespace V1_1
	} // namespace measurement_corrections
	} // namespace gnss
	} // namespace hardware
	} // namespace android

	#endif // HIDL_GENERATED_ANDROID_HARDWARE_GNSS_MEASUREMENT_CORRECTIONS_V1_1_BSMEASUREMENTCORRECTIONS_H