nnapi/includes/android/hardware/neuralnetworks/1.0/IDevice.h - mirrors/cros/chromiumos/platform2 - Git at Google

 #ifndef HIDL_GENERATED_ANDROID_HARDWARE_NEURALNETWORKS_V1_0_IDEVICE_H
 #define HIDL_GENERATED_ANDROID_HARDWARE_NEURALNETWORKS_V1_0_IDEVICE_H

 #include <android/hardware/neuralnetworks/1.0/IPreparedModelCallback.h>
 #include <android/hardware/neuralnetworks/1.0/types.h>
 #include <android/hidl/base/1.0/IBase.h>

 #include <android/hidl/manager/1.0/IServiceNotification.h>

 #include <hidl/HidlSupport.h>
 #include <hidl/MQDescriptor.h>
 #include <hidl/Status.h>
 #include <utils/NativeHandle.h>
 #include <utils/misc.h>

 namespace android {
 namespace hardware {
 namespace neuralnetworks {
 namespace V1_0 {

 /**
  * This interface represents a device driver.
  */
 struct IDevice : public ::android::hidl::base::V1_0::IBase {
     /**
      * Type tag for use in template logic that indicates this is a 'pure' class.
      */
     typedef ::android::hardware::details::i_tag _hidl_tag;

     /**
      * Fully qualified interface name: "android.hardware.neuralnetworks@1.0::IDevice"
      */
     static const char* descriptor;

     /**
      * Returns whether this object's implementation is outside of the current process.
      */
     virtual bool isRemote() const override { return false; }

     /**
      * Return callback for getCapabilities
      */
     using getCapabilities_cb = std::function<void(::android::hardware::neuralnetworks::V1_0::ErrorStatus status, const ::android::hardware::neuralnetworks::V1_0::Capabilities& capabilities)>;
     /**
      * Gets the capabilities of a driver.
      *
      * @return status Error status of the call, must be:
      *                - NONE if successful
      *                - DEVICE_UNAVAILABLE if driver is offline or busy
      *                - GENERAL_FAILURE if there is an unspecified error
      * @return capabilities Capabilities of the driver.
      */
     virtual ::android::hardware::Return<void> getCapabilities(getCapabilities_cb _hidl_cb) = 0;

     /**
      * Return callback for getSupportedOperations
      */
     using getSupportedOperations_cb = std::function<void(::android::hardware::neuralnetworks::V1_0::ErrorStatus status, const ::android::hardware::hidl_vec<bool>& supportedOperations)>;
     /**
      * Gets the supported operations in a model.
      *
      * getSupportedOperations indicates which operations of a model are fully
      * supported by the vendor driver. If an operation may not be supported for
      * any reason, getSupportedOperations must return false for that operation.
      *
      * @param model A model whose operations--and their corresponding
      *              operands--are to be verified by the driver.
      * @return status Error status of the call, must be:
      *                - NONE if successful
      *                - DEVICE_UNAVAILABLE if driver is offline or busy
      *                - GENERAL_FAILURE if there is an unspecified error
      *                - INVALID_ARGUMENT if provided model is invalid
      * @return supportedOperations A list of supported operations, where true
      *                             indicates the operation is supported and
      *                             false indicates the operation is not
      *                             supported. The index of "supported"
      *                             corresponds with the index of the operation
      *                             it is describing.
      */
     virtual ::android::hardware::Return<void> getSupportedOperations(const ::android::hardware::neuralnetworks::V1_0::Model& model, getSupportedOperations_cb _hidl_cb) = 0;

     /**
      * Creates a prepared model for execution.
      *
      * prepareModel is used to make any necessary transformations or alternative
      * representations to a model for execution, possiblly including
      * transformations on the constant data, optimization on the model's graph,
      * or compilation into the device's native binary format. The model itself
      * is not changed.
      *
      * The model is prepared asynchronously with respect to the caller. The
      * prepareModel function must verify the inputs to the prepareModel function
      * are correct. If there is an error, prepareModel must immediately invoke
      * the callback with the appropriate ErrorStatus value and nullptr for the
      * IPreparedModel, then return with the same ErrorStatus. If the inputs to
      * the prepareModel function are valid and there is no error, prepareModel
      * must launch an asynchronous task to prepare the model in the background,
      * and immediately return from prepareModel with ErrorStatus::NONE. If the
      * asynchronous task fails to launch, prepareModel must immediately invoke
      * the callback with ErrorStatus::GENERAL_FAILURE and nullptr for the
      * IPreparedModel, then return with ErrorStatus::GENERAL_FAILURE.
      *
      * When the asynchronous task has finished preparing the model, it must
      * immediately invoke the callback function provided as an input to
      * prepareModel. If the model was prepared successfully, the callback object
      * must be invoked with an error status of ErrorStatus::NONE and the
      * produced IPreparedModel object. If an error occurred preparing the model,
      * the callback object must be invoked with the appropriate ErrorStatus
      * value and nullptr for the IPreparedModel.
      *
      * The only information that may be unknown to the model at this stage is
      * the shape of the tensors, which may only be known at execution time. As
      * such, some driver services may return partially prepared models, where
      * the prepared model can only be finished when it is paired with a set of
      * inputs to the model. Note that the same prepared model object can be
      * used with different shapes of inputs on different (possibly concurrent)
      * executions.
      *
      * Multiple threads can call prepareModel on the same model concurrently.
      *
      * @param model The model to be prepared for execution.
      * @param callback A callback object used to return the error status of
      *                 preparing the model for execution and the prepared model
      *                 if successful, nullptr otherwise. The callback object's
      *                 notify function must be called exactly once, even if the
      *                 model could not be prepared.
      * @return status Error status of launching a task which prepares the model
      *                in the background; must be:
      *                - NONE if preparation task is successfully launched
      *                - DEVICE_UNAVAILABLE if driver is offline or busy
      *                - GENERAL_FAILURE if there is an unspecified error
      *                - INVALID_ARGUMENT if one of the input arguments is
      *                  invalid
      */
     virtual ::android::hardware::Return<::android::hardware::neuralnetworks::V1_0::ErrorStatus> prepareModel(const ::android::hardware::neuralnetworks::V1_0::Model& model, const ::android::sp<::android::hardware::neuralnetworks::V1_0::IPreparedModelCallback>& callback) = 0;

     /**
      * Returns the current status of a driver.
      *
      * @return status Status of the driver, one of:
      *                - DeviceStatus::AVAILABLE
      *                - DeviceStatus::BUSY
      *                - DeviceStatus::OFFLINE
      *                - DeviceStatus::UNKNOWN
      */
     virtual ::android::hardware::Return<::android::hardware::neuralnetworks::V1_0::DeviceStatus> getStatus() = 0;

     /**
      * Return callback for interfaceChain
      */
     using interfaceChain_cb = std::function<void(const ::android::hardware::hidl_vec<::android::hardware::hidl_string>& descriptors)>;
     /*
      * Provides run-time type information for this object.
      * For example, for the following interface definition:
      *     package android.hardware.foo@1.0;
      *     interface IParent {};
      *     interface IChild extends IParent {};
      * Calling interfaceChain on an IChild object must yield the following:
      *     ["android.hardware.foo@1.0::IChild",
      *      "android.hardware.foo@1.0::IParent"
      *      "android.hidl.base@1.0::IBase"]
      *
      * @return descriptors a vector of descriptors of the run-time type of the
      *         object.
      */
     virtual ::android::hardware::Return<void> interfaceChain(interfaceChain_cb _hidl_cb) override;

     /*
      * Emit diagnostic information to the given file.
      *
      * Optionally overriden.
      *
      * @param fd      File descriptor to dump data to.
      *                Must only be used for the duration of this call.
      * @param options Arguments for debugging.
      *                Must support empty for default debug information.
      */
     virtual ::android::hardware::Return<void> debug(const ::android::hardware::hidl_handle& fd, const ::android::hardware::hidl_vec<::android::hardware::hidl_string>& options) override;

     /**
      * Return callback for interfaceDescriptor
      */
     using interfaceDescriptor_cb = std::function<void(const ::android::hardware::hidl_string& descriptor)>;
     /*
      * Provides run-time type information for this object.
      * For example, for the following interface definition:
      *     package android.hardware.foo@1.0;
      *     interface IParent {};
      *     interface IChild extends IParent {};
      * Calling interfaceDescriptor on an IChild object must yield
      *     "android.hardware.foo@1.0::IChild"
      *
      * @return descriptor a descriptor of the run-time type of the
      *         object (the first element of the vector returned by
      *         interfaceChain())
      */
     virtual ::android::hardware::Return<void> interfaceDescriptor(interfaceDescriptor_cb _hidl_cb) override;

     /**
      * Return callback for getHashChain
      */
     using getHashChain_cb = std::function<void(const ::android::hardware::hidl_vec<::android::hardware::hidl_array<uint8_t, 32>>& hashchain)>;
     /*
      * Returns hashes of the source HAL files that define the interfaces of the
      * runtime type information on the object.
      * For example, for the following interface definition:
      *     package android.hardware.foo@1.0;
      *     interface IParent {};
      *     interface IChild extends IParent {};
      * Calling interfaceChain on an IChild object must yield the following:
      *     [(hash of IChild.hal),
      *      (hash of IParent.hal)
      *      (hash of IBase.hal)].
      *
      * SHA-256 is used as the hashing algorithm. Each hash has 32 bytes
      * according to SHA-256 standard.
      *
      * @return hashchain a vector of SHA-1 digests
      */
     virtual ::android::hardware::Return<void> getHashChain(getHashChain_cb _hidl_cb) override;

     /*
      * This method trigger the interface to enable/disable instrumentation based
      * on system property hal.instrumentation.enable.
      */
     virtual ::android::hardware::Return<void> setHALInstrumentation() override;

     /*
      * Registers a death recipient, to be called when the process hosting this
      * interface dies.
      *
      * @param recipient a hidl_death_recipient callback object
      * @param cookie a cookie that must be returned with the callback
      * @return success whether the death recipient was registered successfully.
      */
     virtual ::android::hardware::Return<bool> linkToDeath(const ::android::sp<::android::hardware::hidl_death_recipient>& recipient, uint64_t cookie) override;

     /*
      * Provides way to determine if interface is running without requesting
      * any functionality.
      */
     virtual ::android::hardware::Return<void> ping() override;

     /**
      * Return callback for getDebugInfo
      */
     using getDebugInfo_cb = std::function<void(const ::android::hidl::base::V1_0::DebugInfo& info)>;
     /*
      * Get debug information on references on this interface.
      * @return info debugging information. See comments of DebugInfo.
      */
     virtual ::android::hardware::Return<void> getDebugInfo(getDebugInfo_cb _hidl_cb) override;

     /*
      * This method notifies the interface that one or more system properties
      * have changed. The default implementation calls
      * (C++)  report_sysprop_change() in libcutils or
      * (Java) android.os.SystemProperties.reportSyspropChanged,
      * which in turn calls a set of registered callbacks (eg to update trace
      * tags).
      */
     virtual ::android::hardware::Return<void> notifySyspropsChanged() override;

     /*
      * Unregisters the registered death recipient. If this service was registered
      * multiple times with the same exact death recipient, this unlinks the most
      * recently registered one.
      *
      * @param recipient a previously registered hidl_death_recipient callback
      * @return success whether the death recipient was unregistered successfully.
      */
     virtual ::android::hardware::Return<bool> unlinkToDeath(const ::android::sp<::android::hardware::hidl_death_recipient>& recipient) override;

     // cast static functions
     /**
      * This performs a checked cast based on what the underlying implementation actually is.
      */
     static ::android::hardware::Return<::android::sp<::android::hardware::neuralnetworks::V1_0::IDevice>> castFrom(const ::android::sp<::android::hardware::neuralnetworks::V1_0::IDevice>& parent, bool emitError = false);
     /**
      * This performs a checked cast based on what the underlying implementation actually is.
      */
     static ::android::hardware::Return<::android::sp<::android::hardware::neuralnetworks::V1_0::IDevice>> castFrom(const ::android::sp<::android::hidl::base::V1_0::IBase>& parent, bool emitError = false);

     // helper methods for interactions with the hwservicemanager
     /**
      * This gets the service of this type with the specified instance name. If the
      * service is currently not available or not in the VINTF manifest on a Trebilized
      * device, this will return nullptr. This is useful when you don't want to block
      * during device boot. If getStub is true, this will try to return an unwrapped
      * passthrough implementation in the same process. This is useful when getting an
      * implementation from the same partition/compilation group.
      *
      * In general, prefer getService(std::string,bool)
      */
     static ::android::sp<IDevice> tryGetService(const std::string &serviceName="default", bool getStub=false);
     /**
      * Deprecated. See tryGetService(std::string, bool)
      */
     static ::android::sp<IDevice> tryGetService(const char serviceName[], bool getStub=false)  { std::string str(serviceName ? serviceName : "");      return tryGetService(str, getStub); }
     /**
      * Deprecated. See tryGetService(std::string, bool)
      */
     static ::android::sp<IDevice> tryGetService(const ::android::hardware::hidl_string& serviceName, bool getStub=false)  { std::string str(serviceName.c_str());      return tryGetService(str, getStub); }
     /**
      * Calls tryGetService("default", bool). This is the recommended instance name for singleton services.
      */
     static ::android::sp<IDevice> tryGetService(bool getStub) { return tryGetService("default", getStub); }
     /**
      * This gets the service of this type with the specified instance name. If the
      * service is not in the VINTF manifest on a Trebilized device, this will return
      * nullptr. If the service is not available, this will wait for the service to
      * become available. If the service is a lazy service, this will start the service
      * and return when it becomes available. If getStub is true, this will try to
      * return an unwrapped passthrough implementation in the same process. This is
      * useful when getting an implementation from the same partition/compilation group.
      */
     static ::android::sp<IDevice> getService(const std::string &serviceName="default", bool getStub=false);
     /**
      * Deprecated. See getService(std::string, bool)
      */
     static ::android::sp<IDevice> getService(const char serviceName[], bool getStub=false)  { std::string str(serviceName ? serviceName : "");      return getService(str, getStub); }
     /**
      * Deprecated. See getService(std::string, bool)
      */
     static ::android::sp<IDevice> getService(const ::android::hardware::hidl_string& serviceName, bool getStub=false)  { std::string str(serviceName.c_str());      return getService(str, getStub); }
     /**
      * Calls getService("default", bool). This is the recommended instance name for singleton services.
      */
     static ::android::sp<IDevice> getService(bool getStub) { return getService("default", getStub); }
     /**
      * Registers a service with the service manager. For Trebilized devices, the service
      * must also be in the VINTF manifest.
      */
     __attribute__ ((warn_unused_result))::android::status_t registerAsService(const std::string &serviceName="default");
     /**
      * Registers for notifications for when a service is registered.
      */
     static bool registerForNotifications(
             const std::string &serviceName,
             const ::android::sp<::android::hidl::manager::V1_0::IServiceNotification> &notification);
 };

 //
 // type declarations for package
 //

 static inline std::string toString(const ::android::sp<::android::hardware::neuralnetworks::V1_0::IDevice>& o);

 //
 // type header definitions for package
 //

 static inline std::string toString(const ::android::sp<::android::hardware::neuralnetworks::V1_0::IDevice>& o) {
     std::string os = "[class or subclass of ";
     os += ::android::hardware::neuralnetworks::V1_0::IDevice::descriptor;
     os += "]";
     os += o->isRemote() ? "@remote" : "@local";
     return os;
 }


 }  // namespace V1_0
 }  // namespace neuralnetworks
 }  // namespace hardware
 }  // namespace android

 //
 // global type declarations for package
 //


 #endif  // HIDL_GENERATED_ANDROID_HARDWARE_NEURALNETWORKS_V1_0_IDEVICE_H
	#ifndef HIDL_GENERATED_ANDROID_HARDWARE_NEURALNETWORKS_V1_0_IDEVICE_H
	#define HIDL_GENERATED_ANDROID_HARDWARE_NEURALNETWORKS_V1_0_IDEVICE_H

	#include <android/hardware/neuralnetworks/1.0/IPreparedModelCallback.h>
	#include <android/hardware/neuralnetworks/1.0/types.h>
	#include <android/hidl/base/1.0/IBase.h>

	#include <android/hidl/manager/1.0/IServiceNotification.h>

	#include <hidl/HidlSupport.h>
	#include <hidl/MQDescriptor.h>
	#include <hidl/Status.h>
	#include <utils/NativeHandle.h>
	#include <utils/misc.h>

	namespace android {
	namespace hardware {
	namespace neuralnetworks {
	namespace V1_0 {

	/**
	* This interface represents a device driver.
	*/
	struct IDevice : public ::android::hidl::base::V1_0::IBase {
	/**
	* Type tag for use in template logic that indicates this is a 'pure' class.
	*/
	typedef ::android::hardware::details::i_tag _hidl_tag;

	/**
	* Fully qualified interface name: "android.hardware.neuralnetworks@1.0::IDevice"
	*/
	static const char* descriptor;

	/**
	* Returns whether this object's implementation is outside of the current process.
	*/
	virtual bool isRemote() const override { return false; }

	/**
	* Return callback for getCapabilities
	*/
	using getCapabilities_cb = std::function<void(::android::hardware::neuralnetworks::V1_0::ErrorStatus status, const ::android::hardware::neuralnetworks::V1_0::Capabilities& capabilities)>;
	/**
	* Gets the capabilities of a driver.
	*
	* @return status Error status of the call, must be:
	* - NONE if successful
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if there is an unspecified error
	* @return capabilities Capabilities of the driver.
	*/
	virtual ::android::hardware::Return<void> getCapabilities(getCapabilities_cb _hidl_cb) = 0;

	/**
	* Return callback for getSupportedOperations
	*/
	using getSupportedOperations_cb = std::function<void(::android::hardware::neuralnetworks::V1_0::ErrorStatus status, const ::android::hardware::hidl_vec<bool>& supportedOperations)>;
	/**
	* Gets the supported operations in a model.
	*
	* getSupportedOperations indicates which operations of a model are fully
	* supported by the vendor driver. If an operation may not be supported for
	* any reason, getSupportedOperations must return false for that operation.
	*
	* @param model A model whose operations--and their corresponding
	* operands--are to be verified by the driver.
	* @return status Error status of the call, must be:
	* - NONE if successful
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if there is an unspecified error
	* - INVALID_ARGUMENT if provided model is invalid
	* @return supportedOperations A list of supported operations, where true
	* indicates the operation is supported and
	* false indicates the operation is not
	* supported. The index of "supported"
	* corresponds with the index of the operation
	* it is describing.
	*/
	virtual ::android::hardware::Return<void> getSupportedOperations(const ::android::hardware::neuralnetworks::V1_0::Model& model, getSupportedOperations_cb _hidl_cb) = 0;

	/**
	* Creates a prepared model for execution.
	*
	* prepareModel is used to make any necessary transformations or alternative
	* representations to a model for execution, possiblly including
	* transformations on the constant data, optimization on the model's graph,
	* or compilation into the device's native binary format. The model itself
	* is not changed.
	*
	* The model is prepared asynchronously with respect to the caller. The
	* prepareModel function must verify the inputs to the prepareModel function
	* are correct. If there is an error, prepareModel must immediately invoke
	* the callback with the appropriate ErrorStatus value and nullptr for the
	* IPreparedModel, then return with the same ErrorStatus. If the inputs to
	* the prepareModel function are valid and there is no error, prepareModel
	* must launch an asynchronous task to prepare the model in the background,
	* and immediately return from prepareModel with ErrorStatus::NONE. If the
	* asynchronous task fails to launch, prepareModel must immediately invoke
	* the callback with ErrorStatus::GENERAL_FAILURE and nullptr for the
	* IPreparedModel, then return with ErrorStatus::GENERAL_FAILURE.
	*
	* When the asynchronous task has finished preparing the model, it must
	* immediately invoke the callback function provided as an input to
	* prepareModel. If the model was prepared successfully, the callback object
	* must be invoked with an error status of ErrorStatus::NONE and the
	* produced IPreparedModel object. If an error occurred preparing the model,
	* the callback object must be invoked with the appropriate ErrorStatus
	* value and nullptr for the IPreparedModel.
	*
	* The only information that may be unknown to the model at this stage is
	* the shape of the tensors, which may only be known at execution time. As
	* such, some driver services may return partially prepared models, where
	* the prepared model can only be finished when it is paired with a set of
	* inputs to the model. Note that the same prepared model object can be
	* used with different shapes of inputs on different (possibly concurrent)
	* executions.
	*
	* Multiple threads can call prepareModel on the same model concurrently.
	*
	* @param model The model to be prepared for execution.
	* @param callback A callback object used to return the error status of
	* preparing the model for execution and the prepared model
	* if successful, nullptr otherwise. The callback object's
	* notify function must be called exactly once, even if the
	* model could not be prepared.
	* @return status Error status of launching a task which prepares the model
	* in the background; must be:
	* - NONE if preparation task is successfully launched
	* - DEVICE_UNAVAILABLE if driver is offline or busy
	* - GENERAL_FAILURE if there is an unspecified error
	* - INVALID_ARGUMENT if one of the input arguments is
	* invalid
	*/
	virtual ::android::hardware::Return<::android::hardware::neuralnetworks::V1_0::ErrorStatus> prepareModel(const ::android::hardware::neuralnetworks::V1_0::Model& model, const ::android::sp<::android::hardware::neuralnetworks::V1_0::IPreparedModelCallback>& callback) = 0;

	/**
	* Returns the current status of a driver.
	*
	* @return status Status of the driver, one of:
	* - DeviceStatus::AVAILABLE
	* - DeviceStatus::BUSY
	* - DeviceStatus::OFFLINE
	* - DeviceStatus::UNKNOWN
	*/
	virtual ::android::hardware::Return<::android::hardware::neuralnetworks::V1_0::DeviceStatus> getStatus() = 0;

	/**
	* Return callback for interfaceChain
	*/
	using interfaceChain_cb = std::function<void(const ::android::hardware::hidl_vec<::android::hardware::hidl_string>& descriptors)>;
	/*
	* Provides run-time type information for this object.
	* For example, for the following interface definition:
	* package android.hardware.foo@1.0;
	* interface IParent {};
	* interface IChild extends IParent {};
	* Calling interfaceChain on an IChild object must yield the following:
	* ["android.hardware.foo@1.0::IChild",
	* "android.hardware.foo@1.0::IParent"
	* "android.hidl.base@1.0::IBase"]
	*
	* @return descriptors a vector of descriptors of the run-time type of the
	* object.
	*/
	virtual ::android::hardware::Return<void> interfaceChain(interfaceChain_cb _hidl_cb) override;

	/*
	* Emit diagnostic information to the given file.
	*
	* Optionally overriden.
	*
	* @param fd File descriptor to dump data to.
	* Must only be used for the duration of this call.
	* @param options Arguments for debugging.
	* Must support empty for default debug information.
	*/
	virtual ::android::hardware::Return<void> debug(const ::android::hardware::hidl_handle& fd, const ::android::hardware::hidl_vec<::android::hardware::hidl_string>& options) override;

	/**
	* Return callback for interfaceDescriptor
	*/
	using interfaceDescriptor_cb = std::function<void(const ::android::hardware::hidl_string& descriptor)>;
	/*
	* Provides run-time type information for this object.
	* For example, for the following interface definition:
	* package android.hardware.foo@1.0;
	* interface IParent {};
	* interface IChild extends IParent {};
	* Calling interfaceDescriptor on an IChild object must yield
	* "android.hardware.foo@1.0::IChild"
	*
	* @return descriptor a descriptor of the run-time type of the
	* object (the first element of the vector returned by
	* interfaceChain())
	*/
	virtual ::android::hardware::Return<void> interfaceDescriptor(interfaceDescriptor_cb _hidl_cb) override;

	/**
	* Return callback for getHashChain
	*/
	using getHashChain_cb = std::function<void(const ::android::hardware::hidl_vec<::android::hardware::hidl_array<uint8_t, 32>>& hashchain)>;
	/*
	* Returns hashes of the source HAL files that define the interfaces of the
	* runtime type information on the object.
	* For example, for the following interface definition:
	* package android.hardware.foo@1.0;
	* interface IParent {};
	* interface IChild extends IParent {};
	* Calling interfaceChain on an IChild object must yield the following:
	* [(hash of IChild.hal),
	* (hash of IParent.hal)
	* (hash of IBase.hal)].
	*
	* SHA-256 is used as the hashing algorithm. Each hash has 32 bytes
	* according to SHA-256 standard.
	*
	* @return hashchain a vector of SHA-1 digests
	*/
	virtual ::android::hardware::Return<void> getHashChain(getHashChain_cb _hidl_cb) override;

	/*
	* This method trigger the interface to enable/disable instrumentation based
	* on system property hal.instrumentation.enable.
	*/
	virtual ::android::hardware::Return<void> setHALInstrumentation() override;

	/*
	* Registers a death recipient, to be called when the process hosting this
	* interface dies.
	*
	* @param recipient a hidl_death_recipient callback object
	* @param cookie a cookie that must be returned with the callback
	* @return success whether the death recipient was registered successfully.
	*/
	virtual ::android::hardware::Return<bool> linkToDeath(const ::android::sp<::android::hardware::hidl_death_recipient>& recipient, uint64_t cookie) override;

	/*
	* Provides way to determine if interface is running without requesting
	* any functionality.
	*/
	virtual ::android::hardware::Return<void> ping() override;

	/**
	* Return callback for getDebugInfo
	*/
	using getDebugInfo_cb = std::function<void(const ::android::hidl::base::V1_0::DebugInfo& info)>;
	/*
	* Get debug information on references on this interface.
	* @return info debugging information. See comments of DebugInfo.
	*/
	virtual ::android::hardware::Return<void> getDebugInfo(getDebugInfo_cb _hidl_cb) override;

	/*
	* This method notifies the interface that one or more system properties
	* have changed. The default implementation calls
	* (C++) report_sysprop_change() in libcutils or
	* (Java) android.os.SystemProperties.reportSyspropChanged,
	* which in turn calls a set of registered callbacks (eg to update trace
	* tags).
	*/
	virtual ::android::hardware::Return<void> notifySyspropsChanged() override;

	/*
	* Unregisters the registered death recipient. If this service was registered
	* multiple times with the same exact death recipient, this unlinks the most
	* recently registered one.
	*
	* @param recipient a previously registered hidl_death_recipient callback
	* @return success whether the death recipient was unregistered successfully.
	*/
	virtual ::android::hardware::Return<bool> unlinkToDeath(const ::android::sp<::android::hardware::hidl_death_recipient>& recipient) override;

	// cast static functions
	/**
	* This performs a checked cast based on what the underlying implementation actually is.
	*/
	static ::android::hardware::Return<::android::sp<::android::hardware::neuralnetworks::V1_0::IDevice>> castFrom(const ::android::sp<::android::hardware::neuralnetworks::V1_0::IDevice>& parent, bool emitError = false);
	/**
	* This performs a checked cast based on what the underlying implementation actually is.
	*/
	static ::android::hardware::Return<::android::sp<::android::hardware::neuralnetworks::V1_0::IDevice>> castFrom(const ::android::sp<::android::hidl::base::V1_0::IBase>& parent, bool emitError = false);

	// helper methods for interactions with the hwservicemanager
	/**
	* This gets the service of this type with the specified instance name. If the
	* service is currently not available or not in the VINTF manifest on a Trebilized
	* device, this will return nullptr. This is useful when you don't want to block
	* during device boot. If getStub is true, this will try to return an unwrapped
	* passthrough implementation in the same process. This is useful when getting an
	* implementation from the same partition/compilation group.
	*
	* In general, prefer getService(std::string,bool)
	*/
	static ::android::sp<IDevice> tryGetService(const std::string &serviceName="default", bool getStub=false);
	/**
	* Deprecated. See tryGetService(std::string, bool)
	*/
	static ::android::sp<IDevice> tryGetService(const char serviceName[], bool getStub=false) { std::string str(serviceName ? serviceName : ""); return tryGetService(str, getStub); }
	/**
	* Deprecated. See tryGetService(std::string, bool)
	*/
	static ::android::sp<IDevice> tryGetService(const ::android::hardware::hidl_string& serviceName, bool getStub=false) { std::string str(serviceName.c_str()); return tryGetService(str, getStub); }
	/**
	* Calls tryGetService("default", bool). This is the recommended instance name for singleton services.
	*/
	static ::android::sp<IDevice> tryGetService(bool getStub) { return tryGetService("default", getStub); }
	/**
	* This gets the service of this type with the specified instance name. If the
	* service is not in the VINTF manifest on a Trebilized device, this will return
	* nullptr. If the service is not available, this will wait for the service to
	* become available. If the service is a lazy service, this will start the service
	* and return when it becomes available. If getStub is true, this will try to
	* return an unwrapped passthrough implementation in the same process. This is
	* useful when getting an implementation from the same partition/compilation group.
	*/
	static ::android::sp<IDevice> getService(const std::string &serviceName="default", bool getStub=false);
	/**
	* Deprecated. See getService(std::string, bool)
	*/
	static ::android::sp<IDevice> getService(const char serviceName[], bool getStub=false) { std::string str(serviceName ? serviceName : ""); return getService(str, getStub); }
	/**
	* Deprecated. See getService(std::string, bool)
	*/
	static ::android::sp<IDevice> getService(const ::android::hardware::hidl_string& serviceName, bool getStub=false) { std::string str(serviceName.c_str()); return getService(str, getStub); }
	/**
	* Calls getService("default", bool). This is the recommended instance name for singleton services.
	*/
	static ::android::sp<IDevice> getService(bool getStub) { return getService("default", getStub); }
	/**
	* Registers a service with the service manager. For Trebilized devices, the service
	* must also be in the VINTF manifest.
	*/
	__attribute__ ((warn_unused_result))::android::status_t registerAsService(const std::string &serviceName="default");
	/**
	* Registers for notifications for when a service is registered.
	*/
	static bool registerForNotifications(
	const std::string &serviceName,
	const ::android::sp<::android::hidl::manager::V1_0::IServiceNotification> &notification);
	};

	//
	// type declarations for package
	//

	static inline std::string toString(const ::android::sp<::android::hardware::neuralnetworks::V1_0::IDevice>& o);

	//
	// type header definitions for package
	//

	static inline std::string toString(const ::android::sp<::android::hardware::neuralnetworks::V1_0::IDevice>& o) {
	std::string os = "[class or subclass of ";
	os += ::android::hardware::neuralnetworks::V1_0::IDevice::descriptor;
	os += "]";
	os += o->isRemote() ? "@remote" : "@local";
	return os;
	}


	} // namespace V1_0
	} // namespace neuralnetworks
	} // namespace hardware
	} // namespace android

	//
	// global type declarations for package
	//


	#endif // HIDL_GENERATED_ANDROID_HARDWARE_NEURALNETWORKS_V1_0_IDEVICE_H