%% template file for generating NeuralNetworks.h. %% see README.md. /* * Copyright (C) 2017 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @addtogroup NeuralNetworks * @{ */ /** * @file NeuralNetworks.h */ #ifndef ANDROID_FRAMEWORKS_ML_NN_RUNTIME_NEURAL_NETWORKS_H #define ANDROID_FRAMEWORKS_ML_NN_RUNTIME_NEURAL_NETWORKS_H /****************************************************************** * * IMPORTANT NOTICE: * * This file is part of Android's set of stable system headers * exposed by the Android NDK (Native Development Kit). * * Third-party source AND binary code relies on the definitions * here to be FROZEN ON ALL UPCOMING PLATFORM RELEASES. * * - DO NOT MODIFY ENUMS (EXCEPT IF YOU ADD NEW 32-BIT VALUES) * - DO NOT MODIFY CONSTANTS OR FUNCTIONAL MACROS * - DO NOT CHANGE THE SIGNATURE OF FUNCTIONS IN ANY WAY * - DO NOT CHANGE THE LAYOUT OR SIZE OF STRUCTURES */ #include #include #include #include #include __BEGIN_DECLS %insert Operand_1.0_Comment typedef enum { %insert Operand_1.0 %insert Operand_1.2 %insert Operand_1.3 } OperandCode; %insert Operation_1.0_Comment typedef enum { // Operations below are available since API level 27. %insert Operation_1.0 // Operations below are available since API level 28. %insert Operation_1.1 // Operations below are available since API level 29. %insert Operation_1.2 // Operations below are available since API level 30. %insert Operation_1.3 } OperationCode; /** * Fused activation function types. * * * Available since API level 27. */ typedef enum { /** NO fused activation function. */ ANEURALNETWORKS_FUSED_NONE = 0, /** Fused ReLU activation function. */ ANEURALNETWORKS_FUSED_RELU = 1, /** Fused ReLU1 activation function. */ ANEURALNETWORKS_FUSED_RELU1 = 2, /** Fused ReLU6 activation function. */ ANEURALNETWORKS_FUSED_RELU6 = 3, } FuseCode; /** * Implicit padding algorithms. * * * Available since API level 27. */ typedef enum { /** * SAME padding. * Padding on both ends are the "same": * padding_to_beginning = total_padding / 2 * padding_to_end = (total_padding + 1)/2. * i.e., for even number of padding, padding to both ends are exactly * the same; for odd number of padding, padding to the ending is bigger * than the padding to the beginning by 1. * * total_padding is a function of input, stride, dilation and filter size. * It could be computed as follows: * out_size = (input + stride - 1) / stride * effective_filter_size = (filter_size - 1) * dilation + 1 * needed_input = (out_size - 1) * stride + effective_filter_size * total_padding = max(0, needed_input - input_size) * The computation is the same for the horizontal and vertical directions. */ ANEURALNETWORKS_PADDING_SAME = 1, /** * VALID padding. * No padding. When the input size is not evenly divisible by * the filter size, the input at the end that could not fill * the whole filter tile will simply be ignored. */ ANEURALNETWORKS_PADDING_VALID = 2, } PaddingCode; /** * Execution preferences. * * Available since API level 27. */ typedef enum { /** * Prefer executing in a way that minimizes battery drain. * This is desirable for compilations that will be executed often. */ ANEURALNETWORKS_PREFER_LOW_POWER = 0, /** * Prefer returning a single answer as fast as possible, even if this causes * more power consumption. */ ANEURALNETWORKS_PREFER_FAST_SINGLE_ANSWER = 1, /** * Prefer maximizing the throughput of successive frames, for example when * processing successive frames coming from the camera. */ ANEURALNETWORKS_PREFER_SUSTAINED_SPEED = 2, } PreferenceCode; /** * Device types. * * The type of NNAPI device. */ typedef enum { /** The device type cannot be provided. */ ANEURALNETWORKS_DEVICE_UNKNOWN = 0, /** The device does not fall into any category below. */ ANEURALNETWORKS_DEVICE_OTHER = 1, /** The device runs NNAPI models on single or multi-core CPU. */ ANEURALNETWORKS_DEVICE_CPU = 2, /** The device can run NNAPI models and also accelerate graphics APIs such * as OpenGL ES and Vulkan. */ ANEURALNETWORKS_DEVICE_GPU = 3, /** Dedicated accelerator for Machine Learning workloads. */ ANEURALNETWORKS_DEVICE_ACCELERATOR = 4, } DeviceTypeCode; /** * Result codes. * *

Any NNAPI function can return any result code, including result codes not * currently documented. Any value other than {@link ANEURALNETWORKS_NO_ERROR} * indicates a failure of some kind.

* *

Additional information about the nature of a failure can be obtained from * the device log after enabling NNAPI debugging by setting the debug.nn.vlog * property to 1, e.g., by calling "adb shell setprop debug.nn.vlog 1".

* * Available since API level 27. */ typedef enum { /** * Operation was succesful. */ ANEURALNETWORKS_NO_ERROR = 0, /** * Failure caused by not enough available memory. */ ANEURALNETWORKS_OUT_OF_MEMORY = 1, ANEURALNETWORKS_INCOMPLETE = 2, /** * Failure caused by unexpected null argument. */ ANEURALNETWORKS_UNEXPECTED_NULL = 3, /** * Failure caused by invalid function arguments, invalid model definition, * invalid execution definition or invalid data at execution time. */ ANEURALNETWORKS_BAD_DATA = 4, /** * Failure caused by failed model execution. */ ANEURALNETWORKS_OP_FAILED = 5, /** * Failure caused by object being in the wrong state. */ ANEURALNETWORKS_BAD_STATE = 6, /** * Failure caused by not being able to map a file into memory. * This may be caused by a file descriptor not being mappable, or an AHardwareBuffer * not supported by the device. * Mitigate by reading its content into memory. */ ANEURALNETWORKS_UNMAPPABLE = 7, /** * Failure caused by insufficient buffer size provided to a model output. */ ANEURALNETWORKS_OUTPUT_INSUFFICIENT_SIZE = 8, /** * Failure caused by a device not being available. */ ANEURALNETWORKS_UNAVAILABLE_DEVICE = 9, /** * Failure because a deadline could not be met for a task, but future * deadlines may still be met for the same task after a short delay. * * Available since API level 30. */ ANEURALNETWORKS_MISSED_DEADLINE_TRANSIENT = 10, /** * Failure because a deadline could not be met for a task, and future * deadlines will likely also not be met for the same task even after a * short delay. * * Available since API level 30. */ ANEURALNETWORKS_MISSED_DEADLINE_PERSISTENT = 11, /** * Failure because of a resource limitation within the driver, but future * calls for the same task may still succeed after a short delay. * * Available since API level 30. */ ANEURALNETWORKS_RESOURCE_EXHAUSTED_TRANSIENT = 12, /** * Failure because of a resource limitation within the driver, and future * calls for the same task will likely also fail even after a short * delay. * * Available since API level 30. */ ANEURALNETWORKS_RESOURCE_EXHAUSTED_PERSISTENT = 13, /** * Failure indicating an object is in a dead state. * * Available since API level 30. */ ANEURALNETWORKS_DEAD_OBJECT = 14, } ResultCode; /** * For {@link ANeuralNetworksModel_setOperandValue}, values with a * length smaller or equal to this will be immediately copied into * the model. The size is in bytes. * * Available since API level 27. */ enum { ANEURALNETWORKS_MAX_SIZE_OF_IMMEDIATELY_COPIED_VALUES = 128 }; /** * For {@link ANeuralNetworksCompilation_setCaching}, specify the size * of the cache token required from the application. The size is in bytes. * * Available since API level 29. */ enum { ANEURALNETWORKS_BYTE_SIZE_OF_CACHE_TOKEN = 32 }; /** * Different duration measurements. * * Durations are measured in nanoseconds. * * Available since API level 29. */ typedef enum { // Execution time on hardware (not driver, which runs on host processor). ANEURALNETWORKS_DURATION_ON_HARDWARE = 0, // Execution time in driver (including time on hardware). Excludes overhead // such as that of the runtime itself and the IPC needed for the runtime to // communicate with the driver. ANEURALNETWORKS_DURATION_IN_DRIVER = 1, // Execution time on hardware, after all dependencies have been signaled. // If no dependencies specified (for example, if the execution was scheduled other // than with {@link ANeuralNetworksExecution_startComputeWithDependencies}), the // reported time will be the same as ANEURALNETWORKS_DURATION_ON_HARDWARE. // Available since API level 30. ANEURALNETWORKS_FENCED_DURATION_ON_HARDWARE = 2, // Execution time in driver, after all dependencies have been signaled. Excludes // overhead such as that of the runtime itself and the IPC needed for the runtime // to communicate with the driver. // If no dependencies specified (for example, if the execution was scheduled other // than with {@link ANeuralNetworksExecution_startComputeWithDependencies}), the // reported time will be the same as ANEURALNETWORKS_DURATION_IN_DRIVER. // Available since API level 30. ANEURALNETWORKS_FENCED_DURATION_IN_DRIVER = 3, } DurationCode; /** * Relative execution priority. * * Available since API level 30. */ typedef enum { ANEURALNETWORKS_PRIORITY_LOW = 90, ANEURALNETWORKS_PRIORITY_MEDIUM = 100, ANEURALNETWORKS_PRIORITY_HIGH = 110, ANEURALNETWORKS_PRIORITY_DEFAULT = ANEURALNETWORKS_PRIORITY_MEDIUM, } PriorityCode; /** * ANeuralNetworksMemory is an opaque type that represents memory. * * This type is used to represent shared memory, memory mapped files, * and similar memories. * * By using shared memory, a program can efficiently communicate to the * runtime and drivers the tensors that define a model. See * {@link ANeuralNetworksModel_setOperandValueFromMemory}. An application * should typically create one shared memory object that contains every constant tensor * needed to define a model. {@link ANeuralNetworksMemory_createFromFd} can be used to * create shared memory from a file handle. * {@link ANeuralNetworksMemory_createFromAHardwareBuffer} can be used to * create shared memory from an AHardwareBuffer handle. * * Memory objects can also be used to specify the input and output arguments of * an execution. See {@link ANeuralNetworksExecution_setInputFromMemory} * and {@link ANeuralNetworksExecution_setOutputFromMemory}. * * When calling {@link ANeuralNetworksModel_setOperandValueFromMemory}, * {@link ANeuralNetworksExecution_setInputFromMemory} and * {@link ANeuralNetworksExecution_setOutputFromMemory}, each operand in the shared * memory object must be aligned on a boundary of a byte size that is a multiple * of the element type byte size, e.g., a tensor with * {@link ANEURALNETWORKS_TENSOR_FLOAT32} type must be aligned on 4-byte boundary. * * It is the application's responsibility to ensure that there are no uses of * the memory after calling {@link ANeuralNetworksMemory_free}. This includes * any model which references this memory because of a call to * {@link ANeuralNetworksModel_setOperandValueFromMemory}, any compilation * created using such a model, any execution object or burst object created * using such a compilation, or any execution which references this memory * because of a call to {@link ANeuralNetworksExecution_setInputFromMemory} or * {@link ANeuralNetworksExecution_setOutputFromMemory}. * * Available since API level 27. * * Starting at API level 30, the application may request creation of device native memory from * {@link ANeuralNetworksMemoryDesc} to avoid potential memory copying and transformation * overhead between executions. See also {@link ANeuralNetworksMemoryDesc} and * {@link ANeuralNetworksMemory_createFromDesc}. */ typedef struct ANeuralNetworksMemory ANeuralNetworksMemory; /** * ANeuralNetworksModel is an opaque type that contains a description of the * mathematical operations that constitute the model. * *

Build the model by calling

    *
  • {@link ANeuralNetworksModel_create}
    • *
  • {@link ANeuralNetworksModel_addOperation}
    • *
  • {@link ANeuralNetworksModel_addOperand}
    • *
* * This forms a graph in which each operation and operand is a node, a * directed edge from an operand to an operation indicates that the * operand is an input to the operation, and a directed edge from an * operation to an operand indicates that the operand is an output * from the operation. This graph must be acyclic. * * A model is completed by calling {@link ANeuralNetworksModel_finish}. * A model is destroyed by calling {@link ANeuralNetworksModel_free}. * *

A model cannot be modified once {@link ANeuralNetworksModel_finish} * has been called on it.

* *

It is the application's responsibility to make sure that only one thread * modifies a model at a given time. It is however safe for more than one * thread to use the model once {@link ANeuralNetworksModel_finish} has returned.

* *

It is also the application's responsibility to ensure that there are no * other uses of the model after calling {@link ANeuralNetworksModel_free}. * This includes any compilation, execution object or burst object created using * the model.

* * Available since API level 27. */ typedef struct ANeuralNetworksModel ANeuralNetworksModel; /** * ANeuralNetworksCompilation is an opaque type that can be used to compile * a machine learning model. * *

To use:

    *
  • Create a new compilation instance by calling the * {@link ANeuralNetworksCompilation_create} function or * {@link ANeuralNetworksCompilation_createForDevices}.
    • *
  • Set any desired properties on the compilation (for example, * {@link ANeuralNetworksCompilation_setPreference}).
    • *
  • Optionally, set the caching signature and the cache directory on the * compilation by calling {@link ANeuralNetworksCompilation_setCaching}.
    • *
  • Complete the compilation with {@link ANeuralNetworksCompilation_finish}.
    • *
  • Use the compilation as many times as needed * with {@link ANeuralNetworksExecution_create} and * {@link ANeuralNetworksBurst_create}.
    • *
  • Destroy the compilation with {@link ANeuralNetworksCompilation_free} * once all executions using the compilation have completed.

* * A compilation is completed by calling {@link ANeuralNetworksCompilation_finish}. * A compilation is destroyed by calling {@link ANeuralNetworksCompilation_free}. * *

A compilation cannot be modified once {@link ANeuralNetworksCompilation_finish} * has been called on it.

* *

It is the application's responsibility to make sure that only * one thread modifies a compilation at a given time. It is however * safe for more than one thread to use the compilation once * {@link ANeuralNetworksCompilation_finish} has returned.

* *

It is also the application's responsibility to ensure that there are no other * uses of the compilation after calling {@link ANeuralNetworksCompilation_free}. * This includes any execution object or burst object created using the compilation, * or any memory descriptor with the compilation as part of one of the roles specified by * {@link ANeuralNetworksMemoryDesc_addInputRole} or * {@link ANeuralNetworksMemoryDesc_addOutputRole}.

* * Available since API level 27. */ typedef struct ANeuralNetworksCompilation ANeuralNetworksCompilation; /** * ANeuralNetworksExecution is an opaque type that can be used to apply a machine * learning model to a set of inputs. * *

To use:

    *
  • Create a new execution instance by calling the * {@link ANeuralNetworksExecution_create} function.
    • *
  • Associate input buffers or memory regions to the model inputs with * {@link ANeuralNetworksExecution_setInput} or * {@link ANeuralNetworksExecution_setInputFromMemory}.
    • *
  • Associate output buffers or memory regions to the model outputs with * {@link ANeuralNetworksExecution_setOutput} or * {@link ANeuralNetworksExecution_setOutputFromMemory}.
    • *
  • Apply the model with one of the following:
      • *
    • Asynchronously with {@link ANeuralNetworksExecution_startCompute} * or with {@link ANeuralNetworksExecution_startComputeWithDependencies}, * waiting for the execution to complete with * {@link ANeuralNetworksEvent_wait}.
      • *
    • Synchronously with {@link ANeuralNetworksExecution_compute}.
      • *
    • Synchronously as part of an execution burst with * {@link ANeuralNetworksExecution_burstCompute}.
    *
  • Destroy the execution with * {@link ANeuralNetworksExecution_free}.

* *

An output buffer or memory region must not overlap with any * other output buffer or memory region, with an input buffer or * memory region, or with an operand value in a memory object * ({@link ANeuralNetworksModel_setOperandValueFromMemory}).

* *

An execution cannot be modified once * {@link ANeuralNetworksExecution_burstCompute}, * {@link ANeuralNetworksExecution_compute}, * {@link ANeuralNetworksExecution_startCompute} or * {@link ANeuralNetworksExecution_startComputeWithDependencies} has been called on it.

* *

An execution can be applied to a model with * {@link ANeuralNetworksExecution_burstCompute}, * {@link ANeuralNetworksExecution_compute}, * {@link ANeuralNetworksExecution_startCompute} or * {@link ANeuralNetworksExecution_startComputeWithDependencies} only once. Create new * executions to do new evaluations of the model.

* *

It is the application's responsibility to make sure that only one thread * modifies an execution at a given time. It is however safe for more than one * thread to use {@link ANeuralNetworksEvent_wait} at the same time.

* *

It is also the application's responsibility to ensure that the execution * either has never been scheduled or has completed (i.e., that * {@link ANeuralNetworksExecution_burstCompute}, * {@link ANeuralNetworksExecution_compute}, or * {@link ANeuralNetworksEvent_wait} has returned) before calling * {@link ANeuralNetworksExecution_free}.

. * *

It is also the application's responsibility to ensure that there are no other * uses of the execution after calling {@link ANeuralNetworksExecution_free}.

* *

Multiple executions can be scheduled and evaluated concurrently, either by * means of {@link ANeuralNetworksExecution_compute} or * {@link ANeuralNetworksExecution_burstCompute} (which are synchronous) in * different threads, or by means of * {@link ANeuralNetworksExecution_startCompute} or * {@link ANeuralNetworksExecution_startComputeWithDependencies} (which are asynchronous). * (Concurrent uses of {@link ANeuralNetworksExecution_burstCompute} must be on * different burst objects.) The runtime makes no guarantee on the ordering of * completion of executions. If it's important to the application, the * application should enforce the ordering by ensuring that one execution * completes before the next is scheduled (for example, by scheduling all * executions synchronously within a single thread, or by scheduling all * executions asynchronously and using {@link ANeuralNetworksEvent_wait} between * calls to {@link ANeuralNetworksExecution_startCompute}); or by using * {@link ANeuralNetworksExecution_startComputeWithDependencies} to make the execution wait for a * list of events to be signaled before starting the actual evaluation.

* * Available since API level 27. */ typedef struct ANeuralNetworksExecution ANeuralNetworksExecution; #if __ANDROID_API__ >= 29 /** * Parameters for ANEURALNETWORKS_TENSOR_QUANT8_SYMM_PER_CHANNEL operand. */ typedef struct ANeuralNetworksSymmPerChannelQuantParams { /* The index of the channel dimension. */ uint32_t channelDim; /** The size of the scale array. Should be equal to dimension[channelDim] of the Operand. */ uint32_t scaleCount; /** The array of scaling values for each channel. Each value must be greater than zero. */ const float* scales; } ANeuralNetworksSymmPerChannelQuantParams; /** * ANeuralNetworksBurst is an opaque type that can be used to reduce the latency * of a rapid sequence of executions. It will likely cause overhead if only used * for a single execution. * * ANeuralNetworksBurst serves as a context object for any number of inferences * using {@link ANeuralNetworksExecution} objects. An ANeuralNetworksBurst * object and the {@link ANeuralNetworksExecution} objects used with it must all * have been created from the same {@link ANeuralNetworksCompilation} object. * * This object is also used as a hint to drivers, providing insight to the * lifetime of a rapid sequence of executions. For example, a driver may choose * to increase the clock frequency of its accelerator for the lifetime of a * burst object. * *

To use:

    *
  • Create a new burst object by calling the * {@link ANeuralNetworksBurst_create} function.
    • *
  • For each execution:
      • *
    • Create {@link ANeuralNetworksExecution} and configure its * properties (see {@link ANeuralNetworksExecution} for details).
      • *
    • Apply the model synchronously with * {@link ANeuralNetworksExecution_burstCompute}, reusing the same * {@link ANeuralNetworksBurst} with the new * {@link ANeuralNetworksExecution}.
      • *
    • Use and free the {@link ANeuralNetworksExecution}.
    *
  • Destroy the burst with * {@link ANeuralNetworksBurst_free}.

* * Available since API level 29. */ typedef struct ANeuralNetworksBurst ANeuralNetworksBurst; #endif // __ANDROID_API__ >= 29 /** * ANeuralNetworksOperandType describes the type of an operand. * * This structure is used to describe both scalars and tensors. * * A tensor operand type with all dimensions specified is "fully * specified". Whenever possible (i.e., whenever the dimensions are * known at model construction time), a tensor operand type should be * (but is not required to be) fully specified, in order to enable the * best possible performance. * * If a tensor operand's type is not fully specified, the dimensions * of the operand are deduced from the operand types and values of the * operation for which that operand is an output or from the corresponding * {@link ANEURALNETWORKS_IF} or {@link ANEURALNETWORKS_WHILE} operation input * operand type in the case of referenced model input operands. * *

In the following situations, a tensor operand type must be fully * specified:

    *
  • The operand has a constant value, set by * {@link ANeuralNetworksModel_setOperandValue} (with a * non-nullptr buffer) or * {@link ANeuralNetworksModel_setOperandValueFromMemory}.
    • *
  • The operand is a model input (see * {@link ANeuralNetworksModel_identifyInputsAndOutputs}) of the main * model within a compilation. A fully specified tensor operand type * must either be provided to {@link ANeuralNetworksModel_addOperand}; * or it must be provided to the corresponding * {@link ANeuralNetworksExecution_setInput}, or * {@link ANeuralNetworksExecution_setInputFromMemory}. * EXCEPTION: If the input is optional and omitted * (by passing nullptr for buffer to * {@link ANeuralNetworksExecution_setInput}) then it need * not have a fully specified tensor operand type.
    • *
  • The operand is a model output (see * {@link ANeuralNetworksModel_identifyInputsAndOutputs}) of the main * model within a compilation and is to be used with {@link * ANeuralNetworksExecution_startComputeWithDependencies}. * A fully specified tensor operand type must either be provided * to {@link ANeuralNetworksModel_addOperand}; or it must be * provided to the corresponding * {@link ANeuralNetworksExecution_setOutput}, or * {@link ANeuralNetworksExecution_setOutputFromMemory}.
* * A tensor operand type of specified rank but some number of * unspecified dimensions is represented by setting dimensionCount to * the rank and each unspecified dimension to 0. * * Available since API level 27. * * Starting at API level 29, a tensor operand type of unspecified rank is * represented by setting dimensionCount to 0 and dimensions to NULL (just as if * it were a scalar operand type). */ typedef struct ANeuralNetworksOperandType { /** * The data type, e.g ANEURALNETWORKS_FLOAT32. */ int32_t type; /** * The number of dimensions (rank). * * Must be 0 for scalars. */ uint32_t dimensionCount; /** * The dimensions of the tensor. * * Must be nullptr for scalars. */ const uint32_t* dimensions; /** * The quantization scale. * * Must be 0 when not applicable to an operand type. * * See {@link OperandCode}. */ float scale; /** * The quantization zero point. * * Must be 0 when not applicable to an operand type. * * See {@link OperandCode}. */ int32_t zeroPoint; } ANeuralNetworksOperandType; typedef int32_t ANeuralNetworksOperationType; /** * ANeuralNetworksEvent is an opaque type that represents an event * that will be signaled once an execution completes. * * Available since API level 27. */ typedef struct ANeuralNetworksEvent ANeuralNetworksEvent; #if __ANDROID_API__ >= 29 /** * ANeuralNetworksDevice is an opaque type that represents a device. * * This type is used to query basic properties and supported operations of the corresponding * device, and control which device(s) a model is to be run on. * * Available since API level 29. */ typedef struct ANeuralNetworksDevice ANeuralNetworksDevice; #endif // __ANDROID_API__ >= 29 #if __ANDROID_API__ >= 30 /** * ANeuralNetworksMemoryDesc is an opaque type that represents a memory descriptor. * * A memory descriptor describes the properties of a memory object, and is used by * {@link ANeuralNetworksMemory_createFromDesc}. * * To use: * - Create a new memory descriptor by calling {@link ANeuralNetworksMemoryDesc_create}. * - Specify all of the intended input and output roles by calling * {@link ANeuralNetworksMemoryDesc_addInputRole} and * {@link ANeuralNetworksMemoryDesc_addOutputRole}. * - Optionally, specify the memory dimensions by calling * {@link ANeuralNetworksMemoryDesc_setDimensions}. * - Complete the memory descriptor with {@link ANeuralNetworksMemoryDesc_finish}. * - Use the memory descriptor as many times as needed with * {@link ANeuralNetworksMemory_createFromDesc}. * - Destroy the memory descriptor with {@link ANeuralNetworksMemoryDesc_free}. * * A memory descriptor is completed by calling {@link ANeuralNetworksMemoryDesc_finish}. * A memory descriptor is destroyed by calling {@link ANeuralNetworksMemoryDesc_free}. * * A memory descriptor must not be modified once {@link ANeuralNetworksMemoryDesc_finish} * has been called on it. * * It is the application's responsibility to make sure that only * one thread modifies a memory descriptor at a given time. It is however * safe for more than one thread to use the memory descriptor once * {@link ANeuralNetworksMemoryDesc_finish} has returned. * * It is also the application's responsibility to ensure that there are no other * uses of the memory descriptor after calling {@link ANeuralNetworksMemoryDesc_free}. * It is however safe to continue using a {@link ANeuralNetworksMemory} object created * from the memory descriptor. * * Available since API level 30. */ typedef struct ANeuralNetworksMemoryDesc ANeuralNetworksMemoryDesc; /** * Create a {@link ANeuralNetworksMemoryDesc} with no properties. * * This only creates the memory descriptor. Its properties should be set with calls to * {@link ANeuralNetworksMemoryDesc_addInputRole}, * {@link ANeuralNetworksMemoryDesc_addOutputRole}, and * {@link ANeuralNetworksMemoryDesc_setDimensions}. * * {@link ANeuralNetworksMemoryDesc_finish} must be called once all properties have been set. * * {@link ANeuralNetworksMemoryDesc_free} must be called once the memory descriptor * is no longer needed. * * Available since API level 30. * * @param desc The {@link ANeuralNetworksMemoryDesc} to be created. * Set to NULL if unsuccessful. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksMemoryDesc_create(ANeuralNetworksMemoryDesc** desc) __INTRODUCED_IN(30); /** * Destroy a memory descriptor. * * The memory descriptor need not have been finished by a call to * {@link ANeuralNetworksMemoryDesc_finish}. * * See {@link ANeuralNetworksMemoryDesc} for information on multithreaded usage. * * Available since API level 30. * * @param desc The memory descriptor to be destroyed. Passing NULL is acceptable and * results in no operation. */ void ANeuralNetworksMemoryDesc_free(ANeuralNetworksMemoryDesc* desc) __INTRODUCED_IN(30); /** * Specify that a memory object will be playing the role of an input to an execution created from a * particular compilation. * * The compilation and the input index fully specify an input operand. This function * may be invoked multiple times on the same memory descriptor with different input operands, * and the same input operand may be specified on multiple memory descriptors. However, * specifying the same input operand on the same memory descriptor more than once will * return an error. * * The dimensions of the corresponding model operands of all the roles specified by * {@link ANeuralNetworksMemoryDesc_addInputRole} and * {@link ANeuralNetworksMemoryDesc_addOutputRole} must be compatible with each other. Two * dimensions are incompatible if both ranks are fully specified but have different values, or if * there is at least one axis that is fully specified in both but has different values. * * At least one of {@link ANeuralNetworksMemoryDesc_addInputRole} and * {@link ANeuralNetworksMemoryDesc_addOutputRole} must be called on a memory descriptor * before invoking {@link ANeuralNetworksMemoryDesc_finish}. * * Attempting to modify a memory descriptor once {@link ANeuralNetworksMemoryDesc_finish} has been * called will return an error. * * See {@link ANeuralNetworksMemoryDesc} for information on multithreaded usage. * * Available since API level 30. * * @param desc The memory descriptor to be modified. * @param compilation The compilation object. It must already have been finished by calling * {@link ANeuralNetworksCompilation_finish}, and must outlive the memory * descriptor. * @param index The index of the input argument we are referencing from the compilation. It is * an index into the inputs list passed to * {@link ANeuralNetworksModel_identifyInputsAndOutputs}. It is not * the index associated with {@link ANeuralNetworksModel_addOperand}. * @param frequency A floating-point value within the range (0.0, 1.0]. Describes how likely the * memory is to be used in the specified role. This is provided as a hint to * optimize the case when different roles prefer different memory locations or data * layouts. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksMemoryDesc_addInputRole(ANeuralNetworksMemoryDesc* desc, const ANeuralNetworksCompilation* compilation, uint32_t index, float frequency) __INTRODUCED_IN(30); /** * Specify that a memory object will be playing the role of an output to an execution created from a * particular compilation. * * The compilation and the output index fully specify an output operand. This function * may be invoked multiple times on the same memory descriptor with different output operands, * and the same output operand may be specified on multiple memory descriptors. However, * specifying the same output operand on the same memory descriptor object more than once will * return an error. * * The dimensions of the corresponding model operands of all the roles specified by * {@link ANeuralNetworksMemoryDesc_addInputRole} and * {@link ANeuralNetworksMemoryDesc_addOutputRole} must be compatible with each other. Two * dimensions are incompatible if both ranks are fully specified but have different values, or if * there is at least one axis that is fully specified in both but has different values. * * At least one of {@link ANeuralNetworksMemoryDesc_addInputRole} and * {@link ANeuralNetworksMemoryDesc_addOutputRole} must be called on the memory descriptor * before invoking {@link ANeuralNetworksMemoryDesc_finish}. * * Attempting to modify a memory descriptor once {@link ANeuralNetworksMemoryDesc_finish} has been * called will return an error. * * See {@link ANeuralNetworksMemoryDesc} for information on multithreaded usage. * * Available since API level 30. * * @param desc The memory descriptor to be modified. * @param compilation The compilation object. It must already have been finished by calling * {@link ANeuralNetworksCompilation_finish}, and must outlive the memory * descriptor. * @param index The index of the output argument we are referencing from the compilation. It is * an index into the outputs list passed to * {@link ANeuralNetworksModel_identifyInputsAndOutputs}. It is not * the index associated with {@link ANeuralNetworksModel_addOperand}. * @param frequency A floating-point value within the range (0.0, 1.0]. Describes how likely the * memory is to be used in the specified role. This is provided as a hint to * optimize the case when multiple roles prefer different memory locations or data * layouts. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksMemoryDesc_addOutputRole(ANeuralNetworksMemoryDesc* desc, const ANeuralNetworksCompilation* compilation, uint32_t index, float frequency) __INTRODUCED_IN(30); /** * Set the dimensional information of the memory descriptor. * * The specified dimensions must be compatible with the dimensions of the corresponding model * operands of all the roles specified by {@link ANeuralNetworksMemoryDesc_addInputRole} and * {@link ANeuralNetworksMemoryDesc_addOutputRole}. Two dimensions are incompatible if both ranks * are fully specified but have different values, or if there is at least one axis that is fully * specified in both but has different values. * * Attempting to modify a memory descriptor once {@link ANeuralNetworksMemoryDesc_finish} has been * called will return an error. * * See {@link ANeuralNetworksMemoryDesc} for information on multithreaded usage. * * Available since API level 30. * * @param desc The memory descriptor to be modified. * @param rank The number of dimensions. Must be 0 for scalars. * @param dimensions An array of dimensions. An entry with the value 0 indicates that the * corresponding axis has an unknown size. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksMemoryDesc_setDimensions(ANeuralNetworksMemoryDesc* desc, uint32_t rank, const uint32_t* dimensions) __INTRODUCED_IN(30); /** * Indicate that we have finished modifying a memory descriptor. Required before calling * {@link ANeuralNetworksMemory_createFromDesc}. * * This function must only be called once for a given memory descriptor. * * See {@link ANeuralNetworksMemoryDesc} for information on multithreaded usage. * * Available since API level 30. * * @param desc The memory descriptor to be finished. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksMemoryDesc_finish(ANeuralNetworksMemoryDesc* desc) __INTRODUCED_IN(30); /** * Creates a memory object from a memory descriptor. * * The memory object is created with an uninitialized buffer. A memory object with an uninitialized * buffer may only be used according to the roles specified by {@link * ANeuralNetworksMemoryDesc_addOutputRole}, or as the destination memory in {@link * ANeuralNetworksMemory_copy}. The buffer of a memory object is initialized after the memory object * is used as an output in a successful execution, or used as the destination memory in a successful * {@link ANeuralNetworksMemory_copy}. A memory object with an initialized buffer may be used * according to all roles specified in {@link ANeuralNetworksMemoryDesc}, or as the source or * destination memory in {@link ANeuralNetworksMemory_copy}. The buffer of a memory object will * return to the uninitialized state if the memory object is used as an output in a failed * execution, or used as the destination memory in a failed {@link ANeuralNetworksMemory_copy}. * * The dimensions of the memory descriptor are deduced from the dimensions of the corresponding * model operands of all the roles specified by {@link ANeuralNetworksMemoryDesc_addInputRole} and * {@link ANeuralNetworksMemoryDesc_addOutputRole}, as well as the dimensions set by the call to * {@link ANeuralNetworksMemoryDesc_setDimensions}, if any. The memory descriptor may have * unspecified dimensions or rank. In such a case, the same memory object may be used with different * shapes of outputs in different executions. When the memory is used as an input, the input shape * must be the same as the output shape from the last execution using this memory object as an * output, or the last {@link ANeuralNetworkMemory_copy} using this memory object as the destination * memory. Creating a memory object with unspecified dimensions or rank may fail for certain sets of * roles. * * Using the memory in roles or shapes that are not compatible with the rules specified above will * return an error. * * When calling {@link ANeuralNetworksExecution_setInputFromMemory} or * {@link ANeuralNetworksExecution_setOutputFromMemory} with the memory object, * both offset and length must be set to zero and the entire memory region will be * associated with the specified input or output operand. * * Calling {@link ANeuralNetworksModel_setOperandValueFromMemory} with the memory created from this * function will return an error. * * {@link ANeuralNetworksMemory_free} must be called once the memory is no longer needed. * * Attempting to create memory from an unfinished memory descriptor will return an error. * * The provided {@link ANeuralNetworksMemoryDesc} need not outlive the {@link ANeuralNetworksMemory} * object. * * Available since API level 30. * * @param desc The memory descriptor. * @param memory The memory object to be created. * Set to NULL if unsuccessful. * * @return ANEURALNETWORKS_NO_ERROR if successful; ANEURALNETWORKS_OP_FAILED if the memory is * created with unspecified dimensions or rank and it is not supported for this set of * roles. */ int ANeuralNetworksMemory_createFromDesc(const ANeuralNetworksMemoryDesc* desc, ANeuralNetworksMemory** memory) __INTRODUCED_IN(30); /** * Copies data from one memory object to another. * * If at most one of the src and dst is created from {@link ANeuralNetworksMemory_createFromDesc}, * the src and dst must have the same logical size: * - If the memory is created from {@link ANeuralNetworksMemory_createFromFd}, or if it is created * from {@link ANeuralNetworksMemory_createFromAHardwareBuffer} with format of * AHARDWAREBUFFER_FORMAT_BLOB, the logical size equals the size of the memory. * - If the memory is created from {@link ANeuralNetworksMemory_createFromAHardwareBuffer} with a * format other than AHARDWAREBUFFER_FORMAT_BLOB, the logical size equals the size when there is * no padding and the data is tightly packed. This function may fail if the AHardwareBuffer * cannot be accessed. * - If the memory is created from {@link ANeuralNetworksMemory_createFromDesc}, the logical size * equals the size indicated by the {@link OperandCode} multiplied by the number of elements. This * function will fail if the number of elements is unknown. * * If both src and dst are created from {@link ANeuralNetworksMemory_createFromDesc}, they must have * compatible dimensions. Two dimensions are incompatible if both ranks are fully specified but * have different values, or if there is at least one axis that is fully specified in both but has * different values. The dst may have unspecified dimensions or rank. In such a case, the dimensions * of dst will get updated according to the dimensions of the src. * * In both cases, if the src is created from {@link ANeuralNetworksMemory_createFromDesc}, it must * have been used as an output in a successful execution, or used as the destination memory in a * successful {@link ANeuralNetworksMemory_copy}. * * The src and dst may have different data layout, in which case the data copying is performed * logically with data layout transformation. * * Available since API level 30. * * @param src The source memory object. * @param dst The destination memory object. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksMemory_copy(const ANeuralNetworksMemory* src, const ANeuralNetworksMemory* dst) __INTRODUCED_IN(30); #endif // __ANDROID_API__ >= 30 #if __ANDROID_API__ >= 29 /** * Get the number of available devices. * * @param numDevices Used to return the number of devices. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 29. */ int ANeuralNetworks_getDeviceCount(uint32_t* numDevices) __INTRODUCED_IN(29); /** * Get the representation of the specified device. * * @param devIndex The index of the specified device. Must be less than the number of available devices. * @param device The representation of the specified device. * The same representation will always be returned for the specified * device. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 29. */ int ANeuralNetworks_getDevice(uint32_t devIndex, ANeuralNetworksDevice** device) __INTRODUCED_IN(29); /** * Get the name of the specified device. * * @param device The representation of the specified device. * @param name The returned name of the specified device. The name will be in UTF-8 * and will be null-terminated. It will be recognizable as a known device name * rather than a cryptic string. For devices with feature level reported by * {@link ANeuralNetworksDevice_getFeatureLevel} that is 29 and above, the * format of the name is {VENDOR}-{DEVICE}. For devices with feature level 28 * or lower, the format of the name is undefined. * The name will remain valid for the duration of the application. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 29. */ int ANeuralNetworksDevice_getName(const ANeuralNetworksDevice* device, const char** name) __INTRODUCED_IN(29); /** * Get the type of a given device. * * The device type can be used to help application developers to distribute Machine Learning * workloads and other workloads such as graphical rendering. * E.g., for an app which renders AR scenes based on real time object detection results, * the developer could choose an ACCELERATOR type device for ML workloads, and reserve GPU * for graphical rendering. * * @param device The representation of the specified device. * @param type The returned {@link DeviceTypeCode} of the specified device. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 29. */ int ANeuralNetworksDevice_getType(const ANeuralNetworksDevice* device, int32_t* type) __INTRODUCED_IN(29); /** * Get the version of the driver implementation of the specified device. * * It’s the responsibility of the driver implementor to insure that this version string * uniquely distinguishes this implementation from all previous implementations. * * This version string must not be confused with the feature level which is solely defined * by {@link ANeuralNetworksDevice_getFeatureLevel}. There is no implicit ordering of the versions. * For example, it is not possible to filter all drivers older than a certain version. * * Application developers may use this version string to avoid or prefer specific driver * implementations. For example, an application may want to do so because: * - A specific version of the driver does not provide the required performance, * perhaps because of a performance regression. * - A specific version of the driver has a bug or returns results that don’t match * the minimum precision requirement for the application. * * @param device The representation of the specified device. * @param version The returned version string of the driver for the specified device. The * string will be in UTF-8 and will be null-terminated. For devices with feature * level 28 or lower, "UNKNOWN" will be returned. The version string will remain * valid for the duration of the application. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 29. */ int ANeuralNetworksDevice_getVersion(const ANeuralNetworksDevice* device, const char** version) __INTRODUCED_IN(29); /** * Get the supported NNAPI version of the specified device. * * Each device has a supported feature level, which is the most advanced feature this driver * implements. For example, if the driver implements the features introduced in Android P, * but does not implement the features introduced after Android P, the value would be 28. * Developers could decide whether or not the specified device should be used for a Model that * has certain feature requirements. * * @param device The representation of the specified device. * @param featureLevel The API level of the most advanced feature this driver implements. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 29. */ int ANeuralNetworksDevice_getFeatureLevel(const ANeuralNetworksDevice* device, int64_t* featureLevel) __INTRODUCED_IN(29); #if __ANDROID_API__ >= 30 /** * Wait until the device is in a live state. * * A device may encounter internal errors and temporarily enter a dead state. A * call that uses a device in such a state will return with the error * {@link ANEURALNETWORKS_DEAD_OBJECT}. ANeuralNetworksDevice_wait will block until * the device is in a live state. * * @param device The representation of the specified device. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 30. */ int ANeuralNetworksDevice_wait(const ANeuralNetworksDevice* device) __INTRODUCED_IN(30); #endif // __ANDROID_API__ >= 30 /** * Get the supported operations for a specified set of devices. If multiple devices * are selected, the supported operation list is a union of supported operations of all * selected devices. * * @param model The model to be queried. * @param devices The set of devices. Must not contain duplicates. * @param numDevices The number of devices in the set. * @param supportedOps The boolean array to be filled. True means supported. The size of the * boolean array must be at least as large as the number of operations * in the model. The order of elements in the supportedOps array matches * the order in which the corresponding operations were added to the model. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 29. */ int ANeuralNetworksModel_getSupportedOperationsForDevices( const ANeuralNetworksModel* model, const ANeuralNetworksDevice* const* devices, uint32_t numDevices, bool* supportedOps) __INTRODUCED_IN(29); /** * Create a {@link ANeuralNetworksCompilation} to compile the given model for a specified set * of devices. If more than one device is specified, the compilation will * distribute the workload automatically across the devices. The model must be fully * supported by the specified set of devices. This means that * ANeuralNetworksModel_getSupportedOperationsForDevices() must have returned true for every * operation for that model/devices pair. * * The user must handle all compilation and execution failures from the * specified set of devices. This is in contrast to a use of {@link * ANeuralNetworksCompilation_create}, where the runtime will attempt to recover * from such failures. * * The model passed to this function is termed the "main model" of the * compilation, to distinguish it from other models referred to by an Operand * of type {@link ANEURALNETWORKS_MODEL} within this compilation. * * @param model The {@link ANeuralNetworksModel} to be compiled. * @param devices The set of devices. Must not contain duplicates. * @param numDevices The number of devices in the set. * @param compilation The newly created object or NULL if unsuccessful. * * @return ANEURALNETWORKS_NO_ERROR if successful, ANEURALNETWORKS_BAD_DATA * if the model is invalid. * * Available since API level 29. */ int ANeuralNetworksCompilation_createForDevices(ANeuralNetworksModel* model, const ANeuralNetworksDevice* const* devices, uint32_t numDevices, ANeuralNetworksCompilation** compilation) __INTRODUCED_IN(29); /** * Sets the compilation caching signature and the cache directory. * * Provides optional caching information to the runtime for faster repeated * compilation. * * See {@link ANeuralNetworksCompilation} for information on multithreaded usage. * * @param compilation The compilation to be modified. * @param cacheDir The cache directory for the runtime to store and retrieve caching * data. It is recommended to use the code cache directory provided * by the Android runtime. If not using the code cache directory, the * user should choose a directory local to the application, and is * responsible for managing the cache entries. * @param token The token provided by the user to specify a model must be of length * ANEURALNETWORKS_BYTE_SIZE_OF_CACHE_TOKEN. The user should ensure that * the token is unique to a model within the application. The NNAPI * runtime cannot detect token collisions; a collision will result in a * failed execution or in a successful execution that produces incorrect * output values. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 29. */ int ANeuralNetworksCompilation_setCaching(ANeuralNetworksCompilation* compilation, const char* cacheDir, const uint8_t* token) __INTRODUCED_IN(29); /** * Schedule synchronous evaluation of the execution. * *

Schedules synchronous evaluation of the execution. Returns once the * execution has completed and the outputs are ready to be consumed. *

* * If {@link ANeuralNetworksExecution_setTimeout} was called on this execution, * and the execution is not able to complete before the timeout duration is * exceeded, then execution may be aborted, in which case * {@link ANEURALNETWORKS_MISSED_DEADLINE_*} will be returned. If the device has * a feature level reported by {@link ANeuralNetworksDevice_getFeatureLevel} * that is lower than 30, then the timeout duration hint will be ignored. * * If this execution contains a {@link ANEURALNETWORKS_WHILE} operation, and * the condition model does not output false within the loop timeout duration, * then execution will be aborted and {@link ANEURALNETWORKS_MISSED_DEADLINE_*} * will be returned. * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * See {@link ANeuralNetworksExecution_burstCompute} for burst synchronous execution. * See {@link ANeuralNetworksExecution_startCompute} for regular asynchronous execution. * See {@link ANeuralNetworksExecution_startComputeWithDependencies} for * asynchronous execution with dependencies. * * Available since API level 29. * * @param execution The execution to be scheduled and executed. * * @return ANEURALNETWORKS_NO_ERROR if the execution completed normally. * ANEURALNETWORKS_UNMAPPABLE if the execution input or output memory cannot * be properly mapped. */ int ANeuralNetworksExecution_compute(ANeuralNetworksExecution* execution) __INTRODUCED_IN(29); /** * Get the dimensional information of the specified output operand of the model of the * {@link ANeuralNetworksExecution}. * * The execution must have completed. On asynchronous execution initiated by * {@link ANeuralNetworksExecution_startCompute} or * {@link ANeuralNetworksExecution_startComputeWithDependencies}, * {@link ANeuralNetworksEvent_wait} must be called prior to this function. * * @param execution The execution to be queried. * @param index The index of the output argument we are querying. It is * an index into the lists passed to * {@link ANeuralNetworksModel_identifyInputsAndOutputs}. It is not * the index associated with {@link ANeuralNetworksModel_addOperand}. * @param rank The rank of the output operand. * * @return ANEURALNETWORKS_NO_ERROR if successful, ANEURALNETWORKS_OUTPUT_INSUFFICIENT_SIZE * if the target output is provided an insufficient buffer at execution time, * ANEURALNETWORKS_BAD_DATA if the index is invalid. * * Available since API level 29. */ int ANeuralNetworksExecution_getOutputOperandRank(ANeuralNetworksExecution* execution, int32_t index, uint32_t* rank) __INTRODUCED_IN(29); /** * Get the dimensional information of the specified output operand of the model of the * {@link ANeuralNetworksExecution}. The target output operand cannot be a scalar. * * The execution must have completed. On asynchronous execution initiated by * {@link ANeuralNetworksExecution_startCompute} or * {@link ANeuralNetworksExecution_startComputeWithDependencies}, * {@link ANeuralNetworksEvent_wait} must be called prior to this function. * * @param execution The execution to be queried. * @param index The index of the output argument we are querying. It is an index into the lists * passed to {@link ANeuralNetworksModel_identifyInputsAndOutputs}. It is not * the index associated with {@link ANeuralNetworksModel_addOperand}. * @param dimensions The dimension array to be filled. The size of the array must be exactly as * large as the rank of the output operand to be queried in the model. * * @return ANEURALNETWORKS_NO_ERROR if successful, ANEURALNETWORKS_OUTPUT_INSUFFICIENT_SIZE * if the target output is provided an insufficient buffer at execution time, * ANEURALNETWORKS_BAD_DATA if the index is invalid or if the target is a scalar. * * Available since API level 29. */ int ANeuralNetworksExecution_getOutputOperandDimensions(ANeuralNetworksExecution* execution, int32_t index, uint32_t* dimensions) __INTRODUCED_IN(29); /** * Create a {@link ANeuralNetworksBurst} to apply the given compilation. * This only creates the burst object. Computation is only performed once * {@link ANeuralNetworksExecution_burstCompute} is invoked with a valid * {@link ANeuralNetworksExecution} and {@link ANeuralNetworksBurst}. * *

The provided compilation must outlive the burst object.

* * Available since API level 29. * * @param compilation The {@link ANeuralNetworksCompilation} to be evaluated. * @param burst The newly created object or NULL if unsuccessful. * * @return ANEURALNETWORKS_NO_ERROR if successful, ANEURALNETWORKS_BAD_DATA * if the compilation is invalid. */ int ANeuralNetworksBurst_create(ANeuralNetworksCompilation* compilation, ANeuralNetworksBurst** burst) __INTRODUCED_IN(29); /** * Destroys the burst object. * * Available since API level 29. * * @param burst The burst object to be destroyed. Passing NULL is acceptable and * results in no operation. */ void ANeuralNetworksBurst_free(ANeuralNetworksBurst* burst) __INTRODUCED_IN(29); /** * Schedule synchronous evaluation of the execution on a burst object. * *

Schedules synchronous evaluation of the execution. Returns once the * execution has completed and the outputs are ready to be consumed.

* * If {@link ANeuralNetworksExecution_setTimeout} was called on the execution, * and the execution is not able to complete before the timeout duration is * exceeded, then execution may be aborted, in which case * {@link ANEURALNETWORKS_MISSED_DEADLINE_*} will be returned. * * If the execution contains a {@link ANEURALNETWORKS_WHILE} operation, and * the condition model does not output false within the loop timeout duration, * then execution will be aborted and {@link ANEURALNETWORKS_MISSED_DEADLINE_*} * will be returned. If the device has a feature level reported by * {@link ANeuralNetworksDevice_getFeatureLevel} that is lower than 30, then the * timeout duration hint will be ignored. * *

There must be at most one {@link ANeuralNetworksExecution} processing at * any given time for any given burst object. Any * {@link ANeuralNetworksExecution} launched before the previous has finished * will result in ANEURALNETWORKS_BAD_STATE.

* * See {@link ANeuralNetworksExecution_compute} for synchronous execution. * See {@link ANeuralNetworksExecution_startCompute} for regular asynchronous execution. * See {@link ANeuralNetworksExecution_startComputeWithDependencies} for * asynchronous execution with dependencies. * * Available since API level 29. * * @param burst The burst object to execute on. * @param execution The execution to be scheduled and executed. The execution * must be created from the same {@link * ANeuralNetworksCompilation} as the burst object. * * @return ANEURALNETWORKS_NO_ERROR if the execution completed normally. */ int ANeuralNetworksExecution_burstCompute(ANeuralNetworksExecution* execution, ANeuralNetworksBurst* burst) __INTRODUCED_IN(29); /** * Creates a shared memory object from an AHardwareBuffer handle. * * If the shared memory is backed by an AHardwareBuffer of AHARDWAREBUFFER_FORMAT_BLOB * format, it can be used the same way as shared memory created from a file handle. See * {@link ANeuralNetworksMemory} for a description on how to use this shared memory. * * If the shared memory is backed by an AHardwareBuffer of a format other than * AHARDWAREBUFFER_FORMAT_BLOB, it can only be used for Model inputs and outputs. * When calling {@link ANeuralNetworksExecution_setInputFromMemory} or * {@link ANeuralNetworksExecution_setOutputFromMemory} with the shared memory, both * offset and length must be set to zero and the entire memory region will be * associated with the specified input or output operand. There is no guarantee * that an arbitrary AHardwareBuffer_Format and AHardwareBuffer_UsageFlags combination * can be used by arbitrary devices. The execution will fail if the selected set of * devices cannot consume the buffer. * * Calling {@link ANeuralNetworksModel_setOperandValueFromMemory} with shared memory * backed by an AHardwareBuffer of a format other than AHARDWAREBUFFER_FORMAT_BLOB is * disallowed. * * The provided AHardwareBuffer must outlive the ANeuralNetworksMemory object. * * Available since API level 29. * * @param ahwb The AHardwareBuffer handle. * @param memory The memory object to be created. * Set to NULL if unsuccessful. * * @return ANEURALNETWORKS_NO_ERROR if the request completed normally. * * @see AHardwareBuffer */ int ANeuralNetworksMemory_createFromAHardwareBuffer(const AHardwareBuffer* ahwb, ANeuralNetworksMemory** memory) __INTRODUCED_IN(29); /** * Specifies whether duration of the {@link ANeuralNetworksExecution} is to be * measured. Evaluation of the execution must not have been scheduled. * * By default, duration is not measured. * * The {@link ANeuralNetworksExecution} must have been created from an * {@link ANeuralNetworksCompilation} which in turn was created from * {@link ANeuralNetworksCompilation_createForDevices} with numDevices = 1. * If the device has a feature level reported by * {@link ANeuralNetworksDevice_getFeatureLevel} that is lower than 29, then the * duration will not be measured. * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * Available since API level 29. * * @param execution The execution to be modified. * @param measure 'true' if duration is to be measured, 'false' if not. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksExecution_setMeasureTiming(ANeuralNetworksExecution* execution, bool measure) __INTRODUCED_IN(29); /** * Get the time spent in the specified {@link ANeuralNetworksExecution}, in nanoseconds. * * The execution must have completed. On asynchronous execution initiated by * {@link ANeuralNetworksExecution_startCompute} or * {@link ANeuralNetworksExecution_startComputeWithDependencies}, * {@link ANeuralNetworksEvent_wait} must be called prior to this function. * * @param execution The execution to be queried. * @param durationCode The measurement to be queried, specified by {@link DurationCode}. * @param duration The returned duration. If no measurement was requested by * {@link ANeuralNetworksExecution_setMeasureTiming}, if the * device is has a feature level reported by * {@link ANeuralNetworksDevice_getFeatureLevel} that is lower * than 29, or for some other reason the duration is not * available, UINT64_MAX will be returned. A particular device * need not support any given measurement. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 29. */ int ANeuralNetworksExecution_getDuration(const ANeuralNetworksExecution* execution, int32_t durationCode, uint64_t* duration) __INTRODUCED_IN(29); #endif // __ANDROID_API__ >= 29 #if __ANDROID_API__ >= 27 /** * Creates a shared memory object from a file descriptor. * * The shared memory is backed by a file descriptor via mmap. * See {@link ANeuralNetworksMemory} for a description on how to use * this shared memory. * * Available since API level 27. * * @param size The requested size in bytes. * Must not be larger than the file size. * @param prot The desired memory protection for the mapping. * It is either PROT_NONE or the bitwise OR of one or * more of the following flags: PROT_READ, PROT_WRITE. * @param fd The requested file descriptor. * The file descriptor has to be mmap-able. The file * descriptor will be duplicated. * @param offset The offset to the beginning of the file of the area to map. * The offset has to be aligned to a page size. * @param memory The memory object to be created. * Set to NULL if unsuccessful. * * @return ANEURALNETWORKS_NO_ERROR if the request completed normally. */ int ANeuralNetworksMemory_createFromFd(size_t size, int protect, int fd, size_t offset, ANeuralNetworksMemory** memory) __INTRODUCED_IN(27); /** * Delete a memory object. * * Destroys the object used by the run time to keep track of the memory. * This will free the underlying actual memory if no other code has open * handles to this memory. * * Available since API level 27. * * @param memory The memory object to be freed. Passing NULL is acceptable and * results in no operation. */ void ANeuralNetworksMemory_free(ANeuralNetworksMemory* memory) __INTRODUCED_IN(27); /** * Create an empty {@link ANeuralNetworksModel}. * *

This only creates the object. Computation is performed once * {@link ANeuralNetworksExecution_burstCompute}, * {@link ANeuralNetworksExecution_compute}, * {@link ANeuralNetworksExecution_startCompute} or * {@link ANeuralNetworksExecution_startComputeWithDependencies} is invoked. * * The model should be constructed with calls to * {@link ANeuralNetworksModel_addOperation} and * {@link ANeuralNetworksModel_addOperand} * *

{@link ANeuralNetworksModel_finish} should be called once the model * has been fully constructed.

* *

{@link ANeuralNetworksModel_free} should be called once the model * is no longer needed.

* * Available since API level 27. * * @param model The {@link ANeuralNetworksModel} to be created. * Set to NULL if unsuccessful. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksModel_create(ANeuralNetworksModel** model) __INTRODUCED_IN(27); /** * Destroy a model. * * The model need not have been finished by a call to * {@link ANeuralNetworksModel_finish}. * * See {@link ANeuralNetworksModel} for information on multithreaded usage. * * Available since API level 27. * * @param model The model to be destroyed. Passing NULL is acceptable and * results in no operation. */ void ANeuralNetworksModel_free(ANeuralNetworksModel* model) __INTRODUCED_IN(27); /** * Indicate that we have finished modifying a model. Required before * calling {@link ANeuralNetworksCompilation_create} and * {@link ANeuralNetworksCompilation_createForDevices}. * * An application must ensure that no other thread uses the model at the same * time. * * This function must only be called once for a given model. * * See {@link ANeuralNetworksModel} for information on multithreaded usage. * * Available since API level 27. * * @param model The model to be finished. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksModel_finish(ANeuralNetworksModel* model) __INTRODUCED_IN(27); /** * Add an operand to a model. * * The order in which the operands are added is important. The first one added * to a model will have the index value 0, the second 1, etc. These indexes are * used as operand identifiers in * {@link ANeuralNetworksModel_addOperation}, * {@link ANeuralNetworksModel_identifyInputsAndOutputs}, * {@link ANeuralNetworksModel_setOperandValue}, * {@link ANeuralNetworksModel_setOperandValueFromMemory}, * {@link ANeuralNetworksExecution_setInput}, * {@link ANeuralNetworksExecution_setInputFromMemory}, * {@link ANeuralNetworksExecution_setOutput}, * {@link ANeuralNetworksExecution_setOutputFromMemory} and * {@link ANeuralNetworksExecution_setOperandValue}. * *

Every operand must be referenced in exactly one of the following * ways:

    *
  • It is identified as a model input with * {@link ANeuralNetworksModel_identifyInputsAndOutputs}.
    • *
  • It is identified as a constant with * {@link ANeuralNetworksModel_setOperandValue} or * {@link ANeuralNetworksModel_setOperandValueFromMemory}.
    • *
  • It is identified as an output of exactly one operation with * {@link ANeuralNetworksModel_addOperation}.

    • *

    An operand that is identified as a model input or as a constant * must not also be identified as a model output with * {@link ANeuralNetworksModel_identifyInputsAndOutputs}.

    * * To build a model that can accommodate inputs of various sizes, as * you may want to do for a CNN, leave unspecified the dimensions that * will vary at run time. If you do so, fully specify dimensions * when calling {@link ANeuralNetworksExecution_setInput} or * {@link ANeuralNetworksExecution_setInputFromMemory}. * * Attempting to modify a model once {@link ANeuralNetworksModel_finish} has been * called will return an error. * * See {@link ANeuralNetworksModel} for information on multithreaded usage. * * Available since API level 27. * * @param model The model to be modified. * @param type The {@link ANeuralNetworksOperandType} that describes the shape * of the operand. Neither the {@link ANeuralNetworksOperandType} * nor the dimensions it points to need to outlive the call to * {@link ANeuralNetworksModel_addOperand}. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksModel_addOperand(ANeuralNetworksModel* model, const ANeuralNetworksOperandType* type) __INTRODUCED_IN(27); /** * Sets an operand to a constant value. * * Values of length smaller or equal to * {@link ANEURALNETWORKS_MAX_SIZE_OF_IMMEDIATELY_COPIED_VALUES} * are immediately copied into the model. * * For values of length greater than * {@link ANEURALNETWORKS_MAX_SIZE_OF_IMMEDIATELY_COPIED_VALUES}, a pointer to * the buffer is stored within the model. The application must not change the * content of this region until all executions using this model have * completed. As the data may be copied during processing, modifying the data * after this call yields undefined results. The provided buffer must outlive * this model. * * For large tensors, using {@link ANeuralNetworksModel_setOperandValueFromMemory} * is likely to be more efficient. * * To indicate that an optional operand should be considered missing, * pass nullptr for buffer and 0 for length. * * Attempting to modify a model once {@link ANeuralNetworksModel_finish} has been * called will return an error. * * See {@link ANeuralNetworksModel} for information on multithreaded usage. * * Available since API level 27. * * @param model The model to be modified. * @param index The index of the model operand we're setting. * @param buffer A pointer to the data to use. * @param length The size in bytes of the data value. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksModel_setOperandValue(ANeuralNetworksModel* model, int32_t index, const void* buffer, size_t length) __INTRODUCED_IN(27); #if __ANDROID_API__ >= 29 /** * Sets an operand's per channel quantization parameters. * * Sets parameters required by a tensor of type * {@link ANEURALNETWORKS_TENSOR_QUANT8_SYMM_PER_CHANNEL}. * This function must be called for every tensor of type * {@link ANEURALNETWORKS_TENSOR_QUANT8_SYMM_PER_CHANNEL} before * calling {@link ANeuralNetworksModel_finish}. * * Available since API level 29. * * @param model The model to be modified. * @param index The index of the model operand we're setting. * @param channelQuant The per channel quantization parameters for the operand. * No memory in this struct needs to outlive the call to * this function. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksModel_setOperandSymmPerChannelQuantParams( ANeuralNetworksModel* model, int32_t index, const ANeuralNetworksSymmPerChannelQuantParams* channelQuant) __INTRODUCED_IN(29); #endif // __ANDROID_API__ >= 29 /** * Sets an operand to a value stored in a memory object. * * The content of the memory is not copied. A reference to that memory is stored * inside the model. The application must not change the content of the memory * region until all executions using this model have completed. As the data may * be copied during processing, modifying the data after this call yields * undefined results. * *

    The provided memory must outlive this model.

    * * To indicate that an optional operand should be considered missing, * use {@link ANeuralNetworksModel_setOperandValue} instead, passing nullptr for buffer. * * It is disallowed to set an operand value with shared memory backed by an AHardwareBuffer * of a format other than AHARDWAREBUFFER_FORMAT_BLOB. * * It is disallowed to set an operand value with memory created from * {@link ANeuralNetworksMemory_createFromDesc}. * * Attempting to modify a model once {@link ANeuralNetworksModel_finish} has been * called will return an error. * * See {@link ANeuralNetworksModel} for information on multithreaded usage. * See {@link ANeuralNetworksMemory_createFromAHardwareBuffer} for information on * AHardwareBuffer usage. * * Available since API level 27. * * @param model The model to be modified. * @param index The index of the model operand we're setting. * @param buffer A pointer to the data to use. * @param memory The memory containing the data. * @param offset This specifies the location of the data within the memory. * The offset is in bytes from the start of memory. * @param length The size in bytes of the data value. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksModel_setOperandValueFromMemory(ANeuralNetworksModel* model, int32_t index, const ANeuralNetworksMemory* memory, size_t offset, size_t length) __INTRODUCED_IN(27); #if __ANDROID_API__ >= 30 /** * Sets an operand to a value that is a reference to another NNAPI model. * * The referenced model must already have been finished by a call to * {@link ANeuralNetworksModel_finish}. * * The {@link ANeuralNetworksModel_relaxComputationFloat32toFloat16} setting of * referenced models is overridden by that setting of the main model of a * compilation. * * The referenced model must outlive the model referring to it. * * Attempting to modify a model once {@link ANeuralNetworksModel_finish} has * been called will return an error. * * See {@link ANeuralNetworksModel} for information on multithreaded usage. * * Available since API level 30. * * @param model The model to be modified. * @param index The index of the model operand we're setting. * @param value The model to be referenced. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksModel_setOperandValueFromModel(ANeuralNetworksModel* model, int32_t index, const ANeuralNetworksModel* value) __INTRODUCED_IN(30); #endif // __ANDROID_API__ >= 30 /** * Add an operation to a model. * * @param model The model to be modified. * @param type The {@link ANeuralNetworksOperationType} of the operation. * @param inputCount The number of entries in the inputs array. * @param inputs An array of indexes identifying each operand. * @param outputCount The number of entries in the outputs array. * @param outputs An array of indexes identifying each operand. * * The operands specified by inputs and outputs must have been * previously added by calls to {@link ANeuralNetworksModel_addOperand}. * * Attempting to modify a model once {@link ANeuralNetworksModel_finish} has been * called will return an error. * * See {@link ANeuralNetworksModel} for information on multithreaded usage. * * Available since API level 27. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksModel_addOperation(ANeuralNetworksModel* model, ANeuralNetworksOperationType type, uint32_t inputCount, const uint32_t* inputs, uint32_t outputCount, const uint32_t* outputs) __INTRODUCED_IN(27); /** * Specifies which operands will be the model's inputs and * outputs. Every model must have at least one input and one output. * * An operand cannot be used for both input and output. Doing so will * return an error. * * @param model The model to be modified. * @param inputCount The number of entries in the inputs array. * @param inputs An array of indexes identifying the input operands. * @param outputCount The number of entries in the outputs array. * @param outputs An array of indexes identifying the output operands. * * The operands specified by inputs and outputs must have been * previously added by calls to {@link ANeuralNetworksModel_addOperand}. * * Attempting to modify a model once {@link ANeuralNetworksModel_finish} has been * called will return an error. * * See {@link ANeuralNetworksModel} for information on multithreaded usage. * * Available since API level 27. * */ int ANeuralNetworksModel_identifyInputsAndOutputs(ANeuralNetworksModel* model, uint32_t inputCount, const uint32_t* inputs, uint32_t outputCount, const uint32_t* outputs) __INTRODUCED_IN(27); #if __ANDROID_API__ >= 28 /** * Specifies whether {@link ANEURALNETWORKS_TENSOR_FLOAT32} is allowed to be * calculated with range and/or precision as low as that of the IEEE 754 16-bit * floating-point format. By default, {@link ANEURALNETWORKS_TENSOR_FLOAT32} * must be calculated using at least the range and precision of the IEEE 754 * 32-bit floating-point format. * * The relaxComputationFloat32toFloat16 setting of the main model of * a compilation overrides the values of the referenced models. * * @param model The model to be modified. * @param allow 'true' indicates {@link ANEURALNETWORKS_TENSOR_FLOAT32} may be * calculated with range and/or precision as low as that of the * IEEE 754 16-bit floating point format. 'false' indicates * {@link ANEURALNETWORKS_TENSOR_FLOAT32} must be calculated using * at least the range and precision of the IEEE 754 32-bit floating * point format. * * Attempting to modify a model once {@link ANeuralNetworksModel_finish} has been * called will return an error. * * Available since API level 28. * * See {@link ANeuralNetworksModel} for information on multithreaded usage. */ int ANeuralNetworksModel_relaxComputationFloat32toFloat16(ANeuralNetworksModel* model, bool allow) __INTRODUCED_IN(28); #endif // __ANDROID_API__ >= 28 /** * Create a {@link ANeuralNetworksCompilation} to compile the given model. * * The model passed to this function is termed the "main model" of the * compilation, to distinguish it from other models referred to by an Operand * of type {@link ANEURALNETWORKS_MODEL} within this compilation. * *

    This function only creates the object. Compilation is only performed once * {@link ANeuralNetworksCompilation_finish} is invoked.

    * *

    {@link ANeuralNetworksCompilation_finish} should be called once * all desired properties have been set on the compilation.

    * *

    {@link ANeuralNetworksModel_free} should be called once the compilation * is no longer needed.

    * *

    The provided model must outlive the compilation.

    * * The model must already have been finished by a call to * {@link ANeuralNetworksModel_finish}. * * See {@link ANeuralNetworksCompilation} for information on multithreaded usage. * * Available since API level 27. * * @param model The {@link ANeuralNetworksModel} to be compiled. * @param compilation The newly created object or NULL if unsuccessful. * * @return ANEURALNETWORKS_NO_ERROR if successful, ANEURALNETWORKS_BAD_DATA * if the model is invalid. */ int ANeuralNetworksCompilation_create(ANeuralNetworksModel* model, ANeuralNetworksCompilation** compilation) __INTRODUCED_IN(27); /** * Destroy a compilation. * * The compilation need not have been finished by a call to * {@link ANeuralNetworksCompilation_finish}. * * See {@link ANeuralNetworksCompilation} for information on multithreaded usage. * * Available since API level 27. * * @param compilation The compilation to be destroyed. Passing NULL is acceptable and * results in no operation. */ void ANeuralNetworksCompilation_free(ANeuralNetworksCompilation* compilation) __INTRODUCED_IN(27); /** * Sets the execution preference. * *

    Provides guidance to the runtime when trade-offs are possible. By default the runtime * uses PREFER_SINGLE_FAST_ANSWER

    * * See {@link ANeuralNetworksCompilation} for information on multithreaded usage. * * Available since API level 27. * * @param compilation The compilation to be modified. * @param preference Either {@link PREFER_LOW_POWER}, * {@link PREFER_SINGLE_FAST_ANSWER}, or * {@link PREFER_SUSTAINED_SPEED}. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksCompilation_setPreference(ANeuralNetworksCompilation* compilation, int32_t preference) __INTRODUCED_IN(27); /** * Indicate that we have finished modifying a compilation. Required before * calling {@link ANeuralNetworksBurst_create} or * {@link ANeuralNetworksExecution_create}. * * An application must ensure that no other thread uses the compilation at the * same time. * * This function must only be called once for a given compilation. * * If {@link ANeuralNetworksCompilation_setTimeout} was called on this * compilation, and the compilation is not able to be finished before the * timeout duration is exceeded, then compilation may be aborted, in which case * {@link ANEURALNETWORKS_MISSED_DEADLINE_*} will be returned. * * See {@link ANeuralNetworksCompilation} for information on multithreaded usage. * * Available since API level 27. * * @param compilation The compilation to be finished. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksCompilation_finish(ANeuralNetworksCompilation* compilation) __INTRODUCED_IN(27); #if __ANDROID_API__ >= 30 /** * Set the execution priority. * * Execution priorities are relative to other executions created by the same * application (specifically same uid) for the same device. Specifically, * priorities of executions from one application will not affect executions from * another application. Similarly, priorities of executions on one device will * not affect executions on another device. * * Higher priority executions may use more compute resources than lower priority * executions, and may preempt or starve lower priority executions. * * See {@link ANeuralNetworksCompilation} for information on multithreaded usage. * * Available since API level 30. * * @param compilation The compilation to be modified. * @param priority The relative priority of the execution compared to other * executions created by the application. Must be one of * ANEURALNETWORKS_PRIORITY_*. * * @return ANEURALNETWORKS_NO_ERROR if successful. */ int ANeuralNetworksCompilation_setPriority(ANeuralNetworksCompilation* compilation, int priority) __INTRODUCED_IN(30); /** * Set the maximum expected duration for compiling the model. * * If the device is not able to complete the compilation within the specified * duration, the compilation may be aborted. The timeout duration begins at the * call to {@link ANeuralNetworksCompilation_finish}. * * This timeout duration acts as a hint to drivers, and can be used to both free * up compute resources within the driver and return control back to the * application quicker than is possible without the hint. It enables drivers * that are able to estimate how long a compilation will take to abort the * compilation before it has even started if the driver believes the compilation * cannot be completed within the timeout duration. Similarly, it enables * drivers to abort an ongoing compilation if it is taking too long. However, * this call does not guarantee that the compilation will complete or abort * within the timeout duration. * * By default (i.e., unless ANeuralNetworksCompilation_setTimeout is called), * the timeout duration for compiling the model is considered infinite. * * The {@link ANeuralNetworksCompilation} must have been created with * {@link ANeuralNetworksCompilation_createForDevices} with numDevices = 1, * otherwise this function will fail with ANEURALNETWORKS_BAD_DATA. If the * device has a feature level reported by * {@link ANeuralNetworksDevice_getFeatureLevel} that is lower than 30, then the * timeout duration hint will be ignored. * * See {@link ANeuralNetworksCompilation} for information on multithreaded usage. * * @param compilation The compilation to be modified. * @param duration The maximum amount of time in nanoseconds that is expected to * be spent finishing a compilation. If this duration is exceeded, the * compilation may be aborted. If set to 0, the timeout duration is * considered infinite. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 30. */ int ANeuralNetworksCompilation_setTimeout(ANeuralNetworksCompilation* compilation, uint64_t duration) __INTRODUCED_IN(30); #endif // __ANDROID_API__ >= 30 /** * Create a {@link ANeuralNetworksExecution} to apply the given compilation. * This only creates the object. Computation is only performed once * {@link ANeuralNetworksExecution_burstCompute}, * {@link ANeuralNetworksExecution_compute}, * {@link ANeuralNetworksExecution_startCompute} or * {@link ANeuralNetworksExecution_startComputeWithDependencies} is invoked. * *

    The provided compilation must outlive the execution.

    * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * Available since API level 27. * * @param compilation The {@link ANeuralNetworksCompilation} to be evaluated. * @param execution The newly created object or NULL if unsuccessful. * * @return ANEURALNETWORKS_NO_ERROR if successful, ANEURALNETWORKS_BAD_DATA * if the compilation is invalid. */ int ANeuralNetworksExecution_create(ANeuralNetworksCompilation* compilation, ANeuralNetworksExecution** execution) __INTRODUCED_IN(27); /** * Destroy an execution. * *

    The execution need not have been scheduled by a call to * {@link ANeuralNetworksExecution_burstCompute}, * {@link ANeuralNetworksExecution_compute}, * {@link ANeuralNetworksExecution_startCompute} or * {@link ANeuralNetworksExecution_startComputeWithDependencies}; but if it has been scheduled, * then the application must not call {@link ANeuralNetworksExecution_free} * until the execution has completed (i.e., * {@link ANeuralNetworksExecution_burstCompute}, * {@link ANeuralNetworksExecution_compute}, or * {@link ANeuralNetworksEvent_wait} has returned). * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * Available since API level 27. * * @param execution The execution to be destroyed. Passing NULL is acceptable and * results in no operation. */ void ANeuralNetworksExecution_free(ANeuralNetworksExecution* execution) __INTRODUCED_IN(27); /** * Associate a user buffer with an input of the model of the * {@link ANeuralNetworksExecution}. Evaluation of the execution must not have * been scheduled. Once evaluation of the execution has been scheduled, the * application must not change the content of the buffer until the execution has * completed. Evaluation of the execution will not change the content of the * buffer. * *

    The provided buffer must outlive the execution.

    * * If the input is optional, you can indicate that it is omitted by * passing nullptr for buffer and 0 for length. * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * Available since API level 27. * * @param execution The execution to be modified. * @param index The index of the input argument we are setting. It is * an index into the lists passed to * {@link ANeuralNetworksModel_identifyInputsAndOutputs}. It is not * the index associated with * {@link ANeuralNetworksModel_addOperand}. * @param type The {@link ANeuralNetworksOperandType} of the * operand. Unless the input is omitted, this should be * used to specify the dimensions that were left * unspecified when the operand was added to the * model. All other properties of the type must be the * same as specified in the model. If the type is the same * as specified when the model was built, NULL can be * passed. Neither the {@link ANeuralNetworksOperandType} * nor the dimensions it points to need to outlive the call * to {@link ANeuralNetworksExecution_setInput}. * @param buffer The buffer containing the data. * @param length The length in bytes of the buffer. * * @return ANEURALNETWORKS_NO_ERROR if successful, ANEURALNETWORKS_BAD_DATA if the * name is not recognized or the buffer is too small for the input. */ int ANeuralNetworksExecution_setInput(ANeuralNetworksExecution* execution, int32_t index, const ANeuralNetworksOperandType* type, const void* buffer, size_t length) __INTRODUCED_IN(27); /** * Associate a region of a memory object with an input of the model of the * {@link ANeuralNetworksExecution}. Evaluation of the execution must not have * been scheduled. Once evaluation of the execution has been scheduled, the * application must not change the content of the region until the execution has * completed. Evaluation of the execution will not change the content of the * region. * *

    The provided memory must outlive the execution.

    * * If the input is optional, you can indicate that it is omitted by * using {@link ANeuralNetworksExecution_setInput} instead, passing nullptr for * buffer and 0 for length. * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * See {@link ANeuralNetworksMemory_createFromAHardwareBuffer} for information on * AHardwareBuffer usage. * See {@link ANeuralNetworksMemory_createFromDesc} for information on usage of memory objects * created from memory descriptors. * * Available since API level 27. * * @param execution The execution to be modified. * @param index The index of the input argument we are setting. It is * an index into the lists passed to * {@link ANeuralNetworksModel_identifyInputsAndOutputs}. It is not * the index associated with {@link ANeuralNetworksModel_addOperand}. * @param type The {@link ANeuralNetworksOperandType} of the * operand. This should be used to specify the dimensions * that were left unspecified when the operand was added * to the model. All other properties of the type must be * the same as specified in the model. If the type is the * same as specified when the model was built, NULL can be * passed. Neither the {@link ANeuralNetworksOperandType} * nor the dimensions it points to need to outlive the call * to {@link ANeuralNetworksExecution_setInputFromMemory}. * @param memory The memory containing the data. * @param offset This specifies the location of the data within the memory. * The offset is in bytes from the start of memory. * @param length The size in bytes of the data value. * * @return ANEURALNETWORKS_NO_ERROR if successful, ANEURALNETWORKS_BAD_DATA if the * name is not recognized or the buffer is too small for the input. */ int ANeuralNetworksExecution_setInputFromMemory(ANeuralNetworksExecution* execution, int32_t index, const ANeuralNetworksOperandType* type, const ANeuralNetworksMemory* memory, size_t offset, size_t length) __INTRODUCED_IN(27); /** * Associate a user buffer with an output of the model of the * {@link ANeuralNetworksExecution}. Evaluation of the execution must not have * been scheduled. Once evaluation of the execution has been scheduled, the * application must not change the content of the buffer until the execution has * completed. * * If the output is optional, you can indicate that it is omitted by * passing nullptr for buffer and 0 for length. * *

    The provided buffer must outlive the execution.

    * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * Available since API level 27. * * @param execution The execution to be modified. * @param index The index of the output argument we are setting. It is * an index into the lists passed to * {@link ANeuralNetworksModel_identifyInputsAndOutputs}. It is not * the index associated with {@link ANeuralNetworksModel_addOperand}. * @param type The {@link ANeuralNetworksOperandType} of the * operand. Unless the output is omitted, this should be * used to specify the dimensions that were left * unspecified when the operand was added to the * model. All other properties of the type must be the * same as specified in the model. If the type is the same * as specified when the model was built, NULL can be * passed. Neither the {@link ANeuralNetworksOperandType} * nor the dimensions it points to need to outlive the call * to {@link ANeuralNetworksExecution_setOutput}. * Since API level 29, the output operand can have unspecified * dimensions or rank to be deduced dynamically during the execution. * However, the user must provide a large enough buffer. The user * can retrieve the output dimensional information after the execution * by {@link ANeuralNetworksExecution_getOutputOperandRank} and * {@link ANeuralNetworksExecution_getOutputOperandDimensions}. * @param buffer The buffer where the data is to be written. * @param length The length in bytes of the buffer. * * @return ANEURALNETWORKS_NO_ERROR if successful, ANEURALNETWORKS_BAD_DATA if the * name is not recognized or the buffer is too small for the output. */ int ANeuralNetworksExecution_setOutput(ANeuralNetworksExecution* execution, int32_t index, const ANeuralNetworksOperandType* type, void* buffer, size_t length) __INTRODUCED_IN(27); /** * Associate a region of a memory object with an output of the model of the * {@link ANeuralNetworksExecution}. Evaluation of the execution must not have * been scheduled. Once evaluation of the execution has been scheduled, the * application must not change the content of the region until the execution has * completed. * * If the output is optional, you can indicate that it is omitted by * using {@link ANeuralNetworksExecution_setOutput} instead, passing nullptr for * buffer and 0 for length. * *

    The provided memory must outlive the execution.

    * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * See {@link ANeuralNetworksMemory_createFromAHardwareBuffer} for information on * AHardwareBuffer usage. * See {@link ANeuralNetworksMemory_createFromDesc} for information on usage of memory objects * created from memory descriptors. * * Available since API level 27. * * @param execution The execution to be modified. * @param index The index of the output argument we are setting. It is * an index into the lists passed to * {@link ANeuralNetworksModel_identifyInputsAndOutputs}. It is not * the index associated with {@link ANeuralNetworksModel_addOperand}. * @param type The {@link ANeuralNetworksOperandType} of the operand. This should be * used to specify the dimensions that were left * unspecified when the operand was added to the * model. All other properties of the type must be the * same as specified in the model. If the type is the same * as specified when the model was built, NULL can be * passed. Neither the {@link ANeuralNetworksOperandType} * nor the dimensions it points to need to outlive the call * to {@link ANeuralNetworksExecution_setOutputFromMemory}. * Since API level 29, the output operand can have unspecified * dimensions or rank to be deduced dynamically during the execution. * However, the user must provide a large enough memory. The user * can retrieve the output dimensional information after the execution * by {@link ANeuralNetworksExecution_getOutputOperandRank} and * {@link ANeuralNetworksExecution_getOutputOperandDimensions}. * @param memory The memory where the data is to be stored. * @param offset This specifies the location of the data within the memory. * The offset is in bytes from the start of memory. * @param length The length in bytes of the data value. * * @return ANEURALNETWORKS_NO_ERROR if successful, ANEURALNETWORKS_BAD_DATA if the * name is not recognized or the buffer is too small for the output. */ int ANeuralNetworksExecution_setOutputFromMemory(ANeuralNetworksExecution* execution, int32_t index, const ANeuralNetworksOperandType* type, const ANeuralNetworksMemory* memory, size_t offset, size_t length) __INTRODUCED_IN(27); /** * Schedule asynchronous evaluation of the execution. * *

    Schedules asynchronous evaluation of the execution. Once the execution * has completed and the outputs are ready to be consumed, the returned event * will be signaled. Use {@link ANeuralNetworksEvent_wait} to wait for that * event. *

    * * ANeuralNetworksEvent_wait must be called to recuperate the resources used * by the execution. * * If {@link ANeuralNetworksExecution_setTimeout} was called on this execution, * and the execution is not able to complete before the timeout duration is * exceeded, then execution may be aborted, in which case * {@link ANEURALNETWORKS_MISSED_DEADLINE_*} will be returned through * {@link ANeuralNetworksExecution_startCompute} or * {@link ANeuralNetworksEvent_wait} on the event object. If the device has a * feature level reported by {@link ANeuralNetworksDevice_getFeatureLevel} that * is lower than 30, then the timeout duration hint will be ignored. * * If this execution contains a {@link ANEURALNETWORKS_WHILE} operation, and * the condition model does not output false within the loop timeout duration, * then execution will be aborted and {@link ANEURALNETWORKS_MISSED_DEADLINE_*} * will be returned through {@link ANeuralNetworksEvent_wait} on the event * object. * * If the device can detect before the execution has started that the execution * will not complete within the timeout duration, the device may choose to skip * the execution and instead return {@link ANEURALNETWORKS_MISSED_DEADLINE_*}. * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * See {@link ANeuralNetworksExecution_compute} for synchronous execution. * See {@link ANeuralNetworksExecution_burstCompute} for burst synchronous execution. * See {@link ANeuralNetworksExecution_startComputeWithDependencies} for * asynchronous execution with dependencies. * * Available since API level 27. * * @param execution The execution to be scheduled and executed. * @param event The event that will be signaled on completion. event is set to * NULL if there's an error. * * @return ANEURALNETWORKS_NO_ERROR if the evaluation is successfully scheduled. */ int ANeuralNetworksExecution_startCompute(ANeuralNetworksExecution* execution, ANeuralNetworksEvent** event) __INTRODUCED_IN(27); #if __ANDROID_API__ >= 30 /** * Set the maximum expected duration of the specified execution. * * If the device is not able to complete the execution within the specified * duration, the execution may be aborted. The timeout duration begins at a * call to one of: * - {@link ANeuralNetworksExecution_burstCompute} * - {@link ANeuralNetworksExecution_compute} * - {@link ANeuralNetworksExecution_startCompute} * - {@link ANeuralNetworksExecution_startComputeWithDependencies} * * This timeout duration acts as a hint to drivers, and can be used to both free * up compute resources within the driver and return control back to the * application quicker than is possible without the hint. It enables drivers * that are able to estimate how long an execution will take to abort the * execution before it has even started if the driver believes the execution * cannot be completed within the timeout duration. Similarly, it enables * drivers to abort an ongoing execution if it is taking too long. However, this * call does not guarantee that the execution will complete or abort within the * timeout duration. * * By default (i.e., unless ANeuralNetworksExecution_setTimeout is called), * the timeout duration for execution is considered infinite. * * The {@link ANeuralNetworksExecution} must have been created from an * {@link ANeuralNetworksCompilation} which in turn was created from * {@link ANeuralNetworksCompilation_createForDevices} with numDevices = 1, * otherwise this function will fail with ANEURALNETWORKS_BAD_DATA. If the * device has a feature level reported by * {@link ANeuralNetworksDevice_getFeatureLevel} that is lower than 30, then the * timeout duration hint will be ignored. * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * @param execution The execution to be modified. * @param duration The maximum amount of time in nanoseconds that is expected to * be spent executing a model. If this duration is exceeded, the execution * may be aborted. If set to 0, the timeout duration is considered infinite. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 30. */ int ANeuralNetworksExecution_setTimeout(ANeuralNetworksExecution* execution, uint64_t duration) __INTRODUCED_IN(30); /** * Set the maximum duration of WHILE loops in the specified execution. * * This is a fuzzy per-loop timeout intended to prevent infinite loops. * * If a WHILE loop condition model does not output false within the specified * duration, the execution will be aborted. * * See {@link ANeuralNetworks_getDefaultLoopTimeout} and * {@link ANeuralNetworks_getMaximumLoopTimeout} for the default * and maximum timeout values. * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * @param execution The execution to be modified. * @param duration The maximum amount of time in nanoseconds that can be spent * executing a WHILE loop. If the specified duration value exceeds the value * produced by {@link ANeuralNetworks_getMaximumLoopTimeout}, it will be * overridden by that value. * * @return ANEURALNETWORKS_NO_ERROR if successful. * ANEURALNETWORKS_BAD_STATE if execution has started. * ANEURALNETWORKS_UNEXPECTED_NULL if execution is NULL. * * Available since API level 30. */ int ANeuralNetworksExecution_setLoopTimeout(ANeuralNetworksExecution* execution, uint64_t duration) __INTRODUCED_IN(30); /** * Get the default timeout value for WHILE loops. * * @return The default timeout value in nanoseconds. * * Available since API level 30. */ uint64_t ANeuralNetworks_getDefaultLoopTimeout() __INTRODUCED_IN(30); /** * Get the maximum timeout value for WHILE loops. * * @return The maximum timeout value in nanoseconds. * * Available since API level 30. */ uint64_t ANeuralNetworks_getMaximumLoopTimeout() __INTRODUCED_IN(30); #endif // __ANDROID_API__ >= 30 /** * Waits until the execution completes. * * More than one thread can wait on an event. When the execution completes, * all threads will be released. * * If {@link ANeuralNetworksExecution_setTimeout} was called on the execution * corresponding to this event, and the execution is not able to complete * before the duration is exceeded, the execution may be aborted, in which case * {@link ANEURALNETWORKS_MISSED_DEADLINE_*} will be returned here. * * If the execution contains a {@link ANEURALNETWORKS_WHILE} operation, and * the condition model does not output false within the loop timeout duration, * the execution will be aborted, and {@link ANEURALNETWORKS_MISSED_DEADLINE_*} * will be returned here. * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * Available since API level 27. * * @param event The event that will be signaled on completion. * @return ANEURALNETWORKS_NO_ERROR if the execution completed normally. * ANEURALNETWORKS_UNMAPPABLE if the execution input or output memory cannot * be properly mapped. */ int ANeuralNetworksEvent_wait(ANeuralNetworksEvent* event) __INTRODUCED_IN(27); /** * Destroys the event. * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * Available since API level 27. * * @param event The event object to be destroyed. Passing NULL is acceptable and * results in no operation. */ void ANeuralNetworksEvent_free(ANeuralNetworksEvent* event) __INTRODUCED_IN(27); #endif // __ANDROID_API__ >= 27 #if __ANDROID_API__ >= 30 /** * Create a {@link ANeuralNetworksEvent} from a sync_fence file descriptor. * * The newly created ANeuralNetworksEvent does not take ownership of the provided sync_fence_fd, * it will instead dup the provided sync_fence_fd and own the duplicate. * * @param sync_fence_fd The sync_fence file descriptor. * @param event The newly created object or NULL if unsuccessful. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 30. */ int ANeuralNetworksEvent_createFromSyncFenceFd(int sync_fence_fd, ANeuralNetworksEvent** event) __INTRODUCED_IN(30); /** * Get sync_fence file descriptor from the event. * * If the ANeuralNetworksEvent is not backed by a sync fence, the sync_fence_fd * will be set to -1, and ANEURALNETWORKS_BAD_DATA will be returned. * * See {@link ANeuralNetworksEvent_createFromSyncFenceFd} and * {@link ANeuralNetworksExecution_startComputeWithDependencies} to see how to create * an event backed by a sync fence. * * The user takes ownership of the returned fd, and must close the returned file descriptor when * it is no longer needed. * * @param event An event that is backed by a sync fence. * @param sync_fence_fd The sync_fence file descriptor. The file descriptor will * be set to -1 if there is an error. * * @return ANEURALNETWORKS_NO_ERROR if successful. * * Available since API level 30. */ int ANeuralNetworksEvent_getSyncFenceFd(const ANeuralNetworksEvent* event, int* sync_fence_fd) __INTRODUCED_IN(30); /** * Schedule asynchronous evaluation of the execution with dependencies. * * The execution will wait for all the depending events to be signaled before * starting the evaluation. Once the execution has completed and the outputs * are ready to be consumed, the returned event will be signaled. Depending on which * devices are handling the execution, the event could be backed by a sync fence. * Use {@link ANeuralNetworksEvent_wait} to wait for that event. * * ANeuralNetworksEvent_wait must be called to recurperate the resources used * by the execution. * * If parts of the execution are scheduled on devices that do not support fenced execution, * the function call may wait for such parts to finish before returning. * * The function will return an error if any of the events in dependencies is already in a bad * state. After the execution is scheduled, if any of the events in dependencies does not complete * normally, the execution will fail, and {@link ANeuralNetworksEvent_wait} on the returned * event will return an error. * * The function will return an error if any of the execution outputs has a tensor operand type * that is not fully specified. * * The function can be passed a timeout duration in nanoseconds. This timeout * duration acts as a hint to drivers in the same way that the timeout durations * in {@link ANeuralNetworksCompilation_setTimeout} and {@link * ANeuralNetworksExecution_setTimeout} act as hints to drivers. The duration * begins when all waitFor sync fences have been signaled, and can be used * together with {@link ANeuralNetworksExecution_setTimeout} which specifies the * maximum timeout duration beginning at the call to * {@link ANeuralNetworksExecution_startComputeWithDependencies}. * If the duration is non-zero, the {@link ANeuralNetworksExecution} must have been created * from an {@link ANeuralNetworksCompilation} which in turn was created from * {@link ANeuralNetworksCompilation_createForDevices} with numDevices = 1, * otherwise this function will fail with ANEURALNETWORKS_BAD_DATA. If either * the timeout duration from {@link ANeuralNetworksExecution_setTimeout} or the * timeout duration passed to this call is exceeded, the execution may be * aborted, in which case {@link ANEURALNETWORKS_MISSED_DEADLINE_*} will be * returned through {@link ANeuralNetworksExecution_startComputeWithDependencies} * or {@link ANeuralNetworksEvent_wait} on the event object. If the device has a * feature level reported by {@link ANeuralNetworksDevice_getFeatureLevel} that * is lower than 30, then the timeout duration hints will be ignored. * * If this execution contains a {@link ANEURALNETWORKS_WHILE} operation, and * the condition model does not output false within the loop timeout duration, * then execution will be aborted and {@link ANEURALNETWORKS_MISSED_DEADLINE_*} * will be returned through {@link ANeuralNetworksEvent_wait} on the event * object. * * See {@link ANeuralNetworksExecution} for information on multithreaded usage. * * See {@link ANeuralNetworksExecution_compute} for synchronous execution. * See {@link ANeuralNetworksExecution_burstCompute} for burst synchronous execution. * See {@link ANeuralNetworksExecution_startCompute} for regular asynchronous execution. * * @param execution The execution to be scheduled and executed. * @param dependencies A set of depending events. The actual evaluation will not start * until all the events are signaled. * @param num_dependencies The number of events in the dependencies set. * @param duration The maximum amount of time in nanoseconds that is expected to * be spent executing the model after all dependencies are * signaled. If set to 0, the timeout duration is considered * infinite. * @param event The event that will be signaled on completion. event is set to * NULL if there's an error. * * @return ANEURALNETWORKS_NO_ERROR if the evaluation is successfully scheduled. * * Available since API level 30. */ int ANeuralNetworksExecution_startComputeWithDependencies( ANeuralNetworksExecution* execution, const ANeuralNetworksEvent* const* dependencies, uint32_t num_dependencies, uint64_t duration, ANeuralNetworksEvent** event) __INTRODUCED_IN(30); #endif // __ANDROID_API__ >= 30 __END_DECLS #endif // ANDROID_FRAMEWORKS_ML_NN_RUNTIME_NEURAL_NETWORKS_H /** @} */