|
- /**
- * Copyright 2019 Huawei Technologies Co., Ltd
- *
- * 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.
- */
-
- /*!
- * \file data_flow_ops.h
- * \brief
- */
- #ifndef OPS_BUILT_IN_OP_PROTO_INC_DATA_FLOW_OPS_H_
- #define OPS_BUILT_IN_OP_PROTO_INC_DATA_FLOW_OPS_H_
-
- #include <algorithm>
- #include "graph/operator_reg.h"
- #include "graph/operator.h"
-
- namespace ge {
-
- /**
- *@brief This operation returns true if the queue is closed and false if
- the queue is open. \n
-
- *@par Inputs:
- *The input handle must have the resource type. Inputs include:
- *handle:A Tensor of type resource. The handle to a queue. \n
-
- *@par Outputs:
- *is_closed:A Tensor of type bool. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow QueueIsClosed operator.
- */
-
- REG_OP(QueueIsClosed)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .OUTPUT(is_closed, TensorType({DT_BOOL}))
- .OP_END_FACTORY_REG(QueueIsClosed)
-
- /**
- *@brief Computes the number of elements in the given queue. \n
-
- *@par Inputs:
- *The input handle must have the resource type. Inputs include:
- *handle:A Tensor of type mutable resource. The handle to a queue. \n
-
- *@par Outputs:
- *size:A Tensor of type int32. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow QueueSize operator.
- */
-
- REG_OP(QueueSize)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .OUTPUT(size, TensorType({DT_INT32}))
- .OP_END_FACTORY_REG(QueueSize)
-
- /**
- *@brief A queue that produces elements in first-in first-out order. \n
-
- *@par Attributes:
- *@li component_types: A list of DType objects. The length of component_types
- must equal the number of tensors in each queue element.
- *@li shapes:(Optional.) A list of fully-defined TensorShape objects with the
- same length as dtypes, or None.
- *@li capacity:An integer. The upper bound on the number of elements that may
- be stored in this queue.
- *@li container: An optional string. Defaults to "". If non-empty, this queue
- is placed in the given container. Otherwise, a default container is used.
- *@li shared_name:(Optional.) If non-empty, this queue will be shared under
- the given name across multiple sessions. \n
-
- *@par Outputs:
- *handle:A Tensor of type mutable resource. The handle to a queue. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow FIFOQueue operator.
- */
-
- REG_OP(FIFOQueue)
- .OUTPUT(handle, TensorType({DT_RESOURCE}))
- .REQUIRED_ATTR(component_types, ListType)
- .ATTR(shapes, ListListInt, {})
- .ATTR(capacity, Int, -1)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(FIFOQueue)
-
- /**
- *@brief Enqueues a tuple of one or more tensors in the given queue. \n
-
- *@par Inputs:
- *The input handle must have the resource type. Inputs include:
- *@li handle:A Tensor of type mutable resource. The handle to a queue.
- *@li components: A list of Tensor objects. One or more tensors from which
- the enqueued tensors should be taken. It's a dynamic input. \n
-
- *@par Attributes:
- *timeout_ms: An optional int. Defaults to -1. If the queue is full, this
- operation will block for up to timeout_ms milliseconds. Note: This option
- is not supported yet. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow QueueEnqueue operator.
- */
-
- REG_OP(QueueEnqueue)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .DYNAMIC_INPUT(components, TensorType({DT_FLOAT, DT_FLOAT16, \
- DT_INT8, DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, \
- DT_UINT32, DT_UINT64, DT_BOOL, DT_DOUBLE, DT_RESOURCE, \
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128, DT_QINT16, DT_QUINT16, \
- DT_QINT8, DT_QUINT8, DT_QINT32}))
- .ATTR(timeout_ms, Int, -1)
- .OP_END_FACTORY_REG(QueueEnqueue)
-
- /**
- *@brief Enqueues zero or more tuples of one or more tensors in the given queue. \n
-
- *@par Inputs:
- *The input handle must have the resource type. Inputs include:
- *@li handle:A Tensor of type mutable resource. The handle to a queue.
- *@li components: A list of Tensor objects. One or more tensors from which
- the enqueued tensors should be taken. It's a dynamic input. \n
-
- *@par Attributes:
- *timeout_ms: An optional int. Defaults to -1. If the queue is full, this
- operation will block for up to timeout_ms milliseconds. Note: This option
- is not supported yet. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow QueueEnqueueMany operator.
- */
-
- REG_OP(QueueEnqueueMany)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .DYNAMIC_INPUT(components, TensorType({DT_FLOAT, DT_FLOAT16, \
- DT_INT8, DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, \
- DT_UINT32, DT_UINT64, DT_BOOL, DT_DOUBLE, DT_RESOURCE, \
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128, DT_QINT16, DT_QUINT16, \
- DT_QINT8, DT_QUINT8, DT_QINT32}))
- .ATTR(timeout_ms, Int, -1)
- .OP_END_FACTORY_REG(QueueEnqueueMany)
-
- /**
- *@brief Dequeues n tuples of one or more tensors from the given queue. \n
-
- *@par Inputs:
- *The input handle must have the resource type. Inputs include:
- *handle:A Tensor of type mutable resource. The handle to a queue. \n
-
- *@par Attributes:
- *@li timeout_ms: An optional int. Defaults to -1. If the queue is empty, this
- operation will block for up to timeout_ms milliseconds. Note: This option is
- not supported yet.
- *@li component_types: A list of DTypes that has length >= 1. The type of each
- component in a tuple. \n
-
- *@par Outputs:
- *components:A list of Tensor objects of type component_types. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow QueueDequeue operator.
- */
-
- REG_OP(QueueDequeue)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .DYNAMIC_OUTPUT(components, TensorType({DT_FLOAT, DT_FLOAT16, \
- DT_INT8, DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, \
- DT_UINT32, DT_UINT64, DT_BOOL, DT_DOUBLE, DT_RESOURCE, \
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128, DT_QINT16, DT_QUINT16, \
- DT_QINT8, DT_QUINT8, DT_QINT32}))
- .ATTR(timeout_ms, Int, -1)
- .REQUIRED_ATTR(component_types, ListType)
- .OP_END_FACTORY_REG(QueueDequeue)
-
- /**
- *@brief Dequeues n tuples of one or more tensors from the given queue. \n
-
- *@par Inputs:
- *The input handle must have the resource type. Inputs include:
- *@li handle:A Tensor of type mutable resource. The handle to a queue.
- *@li n: A Tensor of type int32. The number of tuples to dequeue. \n
-
- *@par Attributes:
- *@li timeout_ms: An optional int. Defaults to -1. If the queue has fewer than
- n elements, this operation will block for up to timeout_ms milliseconds.
- Note: This option is not supported yet.
- *@li component_types: A list of DTypes that has length >= 1. The type of each
- component in a tuple. \n
-
- *@par Outputs:
- *components:A list of Tensor objects of type component_types. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow QueueDequeueMany operator.
- */
-
- REG_OP(QueueDequeueMany)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .INPUT(n, TensorType({DT_INT32}))
- .DYNAMIC_OUTPUT(components, TensorType({DT_FLOAT, DT_FLOAT16, \
- DT_INT8, DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, \
- DT_UINT32, DT_UINT64, DT_BOOL, DT_DOUBLE, DT_RESOURCE, \
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128, DT_QINT16, DT_QUINT16, \
- DT_QINT8, DT_QUINT8, DT_QINT32}))
- .ATTR(timeout_ms, Int, -1)
- .REQUIRED_ATTR(component_types, ListType)
- .OP_END_FACTORY_REG(QueueDequeueMany)
-
- /**
- *@brief Dequeues n tuples of one or more tensors from the given queue. \n
-
- *@par Inputs:
- *The input handle must have the resource type. Inputs include:
- *@li handle:A Tensor of type mutable resource. The handle to a queue.
- *@li n: A Tensor of type int32. The number of tuples to dequeue. \n
-
- *@par Attributes:
- *@li timeout_ms: An optional int. Defaults to -1. If the queue has fewer than
- n elements, this operation will block for up to timeout_ms milliseconds.
- Note: This option is not supported yet.
- *@li component_types: A list of DTypes that has length >= 1. The type of each
- component in a tuple. \n
-
- *@par Outputs:
- *components:A list of Tensor objects of type component_types. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow QueueDequeueUpTo operator.
- */
-
- REG_OP(QueueDequeueUpTo)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .INPUT(n, TensorType({DT_INT32}))
- .DYNAMIC_OUTPUT(components, TensorType({DT_FLOAT, DT_FLOAT16, \
- DT_INT8, DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, \
- DT_UINT32, DT_UINT64, DT_BOOL, DT_DOUBLE, DT_RESOURCE, \
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128, DT_QINT16, DT_QUINT16, \
- DT_QINT8, DT_QUINT8, DT_QINT32}))
- .ATTR(timeout_ms, Int, -1)
- .REQUIRED_ATTR(component_types, ListType)
- .OP_END_FACTORY_REG(QueueDequeueUpTo)
-
- /**
- *@brief Stage values similar to a lightweight Enqueue. \n
-
- *@par Inputs:
- *The input values must be a list of Tensor objects. Inputs include:
- *values: A list of Tensor objects. A list of data types that inserted values
- should adhere to. It's a dynamic input. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to 0. Maximum number of
- elements in the Staging Area. If > 0, inserts on the container will block
- when the capacity is reached.
- *@li memory_limit: An optional int that is >= 0. Defaults to 0. The maximum
- number of bytes allowed for Tensors in the Staging Area. If > 0, inserts will
- block until sufficient space is available.
- *@li container: An optional string. Defaults to "". If non-empty, this queue
- is placed in the given container. Otherwise, a default container is used.
- *@li shared_name: An optional string. Defaults to "". It is necessary to
- match this name to the matching Unstage Op. \n
-
- *@see Unstage
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow Stage operator.
- */
-
- REG_OP(Stage)
- .DYNAMIC_INPUT(values, TensorType({DT_FLOAT16, DT_FLOAT, DT_INT8, \
- DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, \
- DT_DOUBLE, DT_UINT32, DT_UINT64}))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(Stage)
-
- /**
- *@brief Op removes all elements in the underlying container. \n
-
- *@par Attributes:
- *@li capacity: A list of DTypes
- *@li memory_limit: An optional int that is >= 0. Defaults to 0.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "".
- *@li dtypes: A list of DTypes. \n
-
- *@see Stage
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow StageClear operator.
- */
-
- REG_OP(StageClear)
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .ATTR(dtypes, ListType, {})
- .OP_END_FACTORY_REG(StageClear)
-
- /**
- *@brief Op peeks at the values at the specified index. If the underlying
- container does not contain sufficient elements this op will block until it does. \n
-
- *@par Inputs:
- *The input values must be type int32. Inputs include:
- *values: A Tensor of type int32. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to 0.
- *@li memory_limit: An optional int that is >= 0. Defaults to 0.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "".
- *@li dtypes: A list of DTypes that has length >= 1. \n
-
- *@par Outputs:
- *y:A list of Tensor objects of type dtypes. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow StagePeek operator.
- */
-
- REG_OP(StagePeek)
- .INPUT(index, TensorType({DT_INT32}))
- .DYNAMIC_OUTPUT(y, TensorType({DT_FLOAT16, DT_FLOAT, DT_INT8, DT_INT16, \
- DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, \
- DT_DOUBLE, DT_UINT32, DT_UINT64}))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .ATTR(dtypes, ListType, {})
- .OP_END_FACTORY_REG(StagePeek)
-
- /**
- *@brief Op returns the number of elements in the underlying container. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to 0.
- *@li memory_limit: An optional int that is >= 0. Defaults to 0.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "".
- *@li dtypes: A list of DTypes that has length >= 1. \n
-
- *@par Outputs:
- *size:A Tensor of type int32. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow StageSize operator.
- */
-
- REG_OP(StageSize)
- .OUTPUT(size, TensorType({DT_INT32}))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .ATTR(dtypes, ListType, {})
- .OP_END_FACTORY_REG(StageSize)
-
- /**
- *@brief Pop the element at the top of the stack. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *handle: A Tensor of type resource. The handle to a stack. \n
-
- *@par Attributes:
- *elem_type: A DType. The type of the elem that is popped. \n
-
- *@par Outputs:
- *element:A Tensor of type elem_type. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow StackPop operator.
- */
-
- REG_OP(StackPop)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .OUTPUT(element, TensorType({DT_FLOAT16, DT_FLOAT, DT_INT8, DT_INT16, \
- DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, \
- DT_DOUBLE, DT_UINT32, DT_UINT64}))
- .REQUIRED_ATTR(elem_type, Type)
- .OP_END_FACTORY_REG(StackPop)
-
- /**
- *@brief Push an element onto the stack. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *@li handle: A Tensor of type resource. The handle to a stack.
- *@li elem: A Tensor. The tensor to be pushed onto the stack. \n
-
- *@par Attributes:
- *swap_memory: An optional bool. Defaults to False. Swap elem to CPU. Default
- to false. \n
-
- *@par Outputs:
- *y:A Tensor. Has the same type as elem. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow StackPush operator.
- */
-
- REG_OP(StackPush)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .INPUT(element, TensorType({DT_FLOAT16, DT_FLOAT, DT_INT8, DT_INT16, \
- DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, \
- DT_DOUBLE, DT_UINT32, DT_UINT64}))
- .OUTPUT(y, TensorType({DT_FLOAT16, DT_FLOAT, DT_INT8, DT_INT16, \
- DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, \
- DT_DOUBLE, DT_UINT32, DT_UINT64}))
- .ATTR(swap_memory, Bool, false)
- .OP_END_FACTORY_REG(StackPush)
-
- /**
- *@brief Close the stack. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *handle: A Tensor of type resource. The handle to a stack. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow StackClose operator.
- */
-
- REG_OP(StackClose)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .OP_END_FACTORY_REG(StackClose)
-
- /**
- *@brief Create a stack. \n
-
- *@par Inputs:
- *The input max_size must be type int32. Inputs include:
- *max_size: A Tensor of type int32. The number of elements of a stack. \n
-
- *@par Attributes:
- *@li stack_name: An optional string. Defaults to "".
- *@li elem_type: The elements type of the created Stack. \n
-
- *@par Outputs:
- *handle: A Tensor of type resource. The handle to a stack. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow Stack operator.
- */
-
- REG_OP(Stack)
- .INPUT(max_size, TensorType({DT_INT32}))
- .OUTPUT(handle, TensorType({DT_RESOURCE}))
- .ATTR(stack_name, String, "")
- .REQUIRED_ATTR(elem_type, Type)
- .OP_END_FACTORY_REG(Stack)
-
- /**
- *@brief Partitions "x" into "num_partitions" tensors using indices from "partitions". \n
-
- *@par Inputs:
- *Including:
- * @li x: The Tensor to be sliced. Must be one of the following types:
- DT_INT8, DT_UINT8, DT_INT16, DT_UINT16,
- DT_INT32, DT_INT64, DT_BOOL, DT_FLOAT16, DT_FLOAT, DT_DOUBLE, \
- DT_COMPLEX64, DT_COMPLEX128, DT_RESOURCE, DT_STRING.
- * @li partitions: A Tensor of type DT_INT32, with any shape. The indices. \n
-
- *@par Attributes:
- *num_partitions: The number of partitions to output. \n
-
- *@par Outputs:
- *y: A list of tensors of type DT_INT32. \n
-
- *@attention Constraints:
- *DynamicPartition runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator DynamicPartition. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(DynamicPartition)
- .INPUT(x, TensorType({DT_INT8, DT_UINT8, DT_INT16, DT_UINT16, \
- DT_INT32, DT_INT64, DT_BOOL, DT_FLOAT16, DT_FLOAT, DT_DOUBLE, \
- DT_COMPLEX64, DT_COMPLEX128, DT_RESOURCE, DT_STRING}))
- .INPUT(partitions, TensorType({DT_INT32}))
- .DYNAMIC_OUTPUT(y, TensorType({DT_INT8, DT_UINT8, DT_INT16, DT_UINT16, \
- DT_INT32, DT_INT64, DT_BOOL, DT_FLOAT16, DT_FLOAT, DT_DOUBLE, \
- DT_COMPLEX64, DT_COMPLEX128, DT_RESOURCE, DT_STRING}))
- .ATTR(num_partitions, Int, 1)
- .OP_END_FACTORY_REG(DynamicPartition)
-
- /**
- *@brief Interleaves the values from the "x" tensors into a single tensor. \n
-
- *@par Inputs:
- *Including:
- * @li indices: A list of at least 1 Tensor objects with type DT_INT32. It's a dynamic input.
- * @li x: A list with the same length as "indices" of Tensor objects.
- Must be one of the following types: DT_INT8, DT_UINT8, DT_INT16, DT_UINT16,
- DT_INT32, DT_INT64, DT_BOOL, DT_FLOAT16, DT_FLOAT, DT_DOUBLE, DT_QINT32,
- DT_QUINT8, DT_QINT8, DT_STRING, DT_COMPLEX64, DT_COMPLEX128. It's a dynamic input. \n
-
- *@par Attributes:
- *N: An int that is >= 1. Defaults to "1". \n
-
- *@par Outputs:
- *y: A Tensor. Has the same type as "x". \n
-
- *@attention Constraints:
- *DynamicStitch runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator DynamicStitch. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(DynamicStitch)
- .DYNAMIC_INPUT(indices, TensorType({DT_INT32}))
- .DYNAMIC_INPUT(x, TensorType({DT_INT8, DT_UINT8, DT_INT16, DT_UINT16, \
- DT_INT32, DT_INT64, DT_BOOL, DT_FLOAT16, DT_FLOAT, DT_DOUBLE, \
- DT_QINT32, DT_QUINT8, DT_QINT8, DT_STRING, DT_COMPLEX64, \
- DT_COMPLEX128}))
- .OUTPUT(y, TensorType({DT_INT8, DT_UINT8, DT_INT16, DT_UINT16, DT_INT32, \
- DT_INT64, DT_BOOL, DT_FLOAT16, DT_FLOAT, DT_DOUBLE, \
- DT_QINT32, DT_QUINT8, DT_QINT8, DT_STRING, DT_COMPLEX64, \
- DT_COMPLEX128}))
- .ATTR(N, Int, 1)
- .OP_END_FACTORY_REG(DynamicStitch)
-
- /**
- *@brief Interleaves the values from the "x" tensors into a single tensor. \n
-
- *@par Inputs:
- *Including:
- * @li indices: A list of at least 1 Tensor objects with type DT_INT32. It's a dynamic input.
- * @li x: A list with the same length as "indices" of Tensor objects. It's a dynamic input.
- Must be one of the following types: DT_INT8, DT_UINT8, DT_INT16, DT_UINT16,
- DT_INT32, DT_INT64, DT_BOOL, DT_FLOAT16, DT_FLOAT, DT_DOUBLE, DT_STRING,
- DT_COMPLEX64, DT_COMPLEX128, DT_QINT8, DT_QUINT8, DT_QINT32. \n
-
- *@par Attributes:
- *N: An int that is >= 1. Defaults to "1". \n
-
- *@par Outputs:
- *y: A Tensor. Has the same type as "x". \n
-
- *@attention Constraints:
- *ParallelDynamicStitch runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator ParallelDynamicStitch.
- */
-
- REG_OP(ParallelDynamicStitch)
- .DYNAMIC_INPUT(indices, TensorType({DT_INT32}))
- .DYNAMIC_INPUT(x,
- TensorType({ DT_INT8, DT_UINT8, DT_INT16, DT_UINT16, DT_INT32, DT_INT64, \
- DT_BOOL, DT_FLOAT16, DT_FLOAT, DT_DOUBLE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128, \
- DT_QINT8, DT_QUINT8, DT_QINT32 }))
- .OUTPUT(y,
- TensorType({ DT_INT8, DT_UINT8, DT_INT16, DT_UINT16, DT_INT32, DT_INT64, \
- DT_BOOL, DT_FLOAT16, DT_FLOAT, DT_DOUBLE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128, \
- DT_QINT8, DT_QUINT8, DT_QINT32 }))
- .ATTR(N, Int, 1)
- .OP_END_FACTORY_REG(ParallelDynamicStitch)
-
- /**
- *@brief Removes all elements in the underlying container. \n
-
- *@par Attributes:An optional int that is >= 0. Defaults to "0".
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of tf.DTypes.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@attention Constraints:
- *MapClear runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator MapClear.
- */
-
- REG_OP(MapClear)
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(MapClear)
-
- /**
- *@brief Returns the number of incomplete elements in the underlying container. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of tf.DTypes.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *size: A Tensor of type DT_INT32. \n
-
- *@attention Constraints:
- *MapIncompleteSize runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator MapIncompleteSize.
- */
-
- REG_OP(MapIncompleteSize)
- .OUTPUT(size, TensorType({DT_INT32}))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(MapIncompleteSize)
-
- /**
- *@brief Unstage Op is similar to a lightweight Dequeue. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to 0.
- *@li memory_limit: An optional int that is >= 0. Defaults to 0.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "".
- *@li dtypes: A list of DTypes that has length >= 1. \n
-
- *@par Outputs:
- *y: A list of Tensor objects of type dtypes. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow Unstage operator.
- */
-
- REG_OP(Unstage)
- .DYNAMIC_OUTPUT(y, TensorType({DT_FLOAT16, DT_FLOAT, DT_INT8, DT_INT16, \
- DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, \
- DT_DOUBLE, DT_UINT32, DT_UINT64}))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .REQUIRED_ATTR(dtypes, ListType)
- .OP_END_FACTORY_REG(Unstage)
-
- /**
- *@brief Stage (key, values) in the underlying container which behaves like a hashtable. \n
-
- *@par Inputs:
- *Including:
- * @li key: A Tensor of type DT_INT64.
- * @li indices: A Tensor of type DT_INT32.
- * @li values: A list of Tensor objects for tensor dtypes.
- A list of data types that inserted values should adhere to of.
- Must be one of the following types: DT_FLOAT, DT_FLOAT16,
- DT_INT8, DT_INT16, DT_UINT16, DT_UINT8, DT_INT32,
- DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, DT_UINT64,
- DT_RESOURCE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128,
- DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32.
- It's a dynamic input. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- Maximum number of elements in the Staging Area. If > 0,
- inserts on the container will block when the capacity is reached.
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of tf.DTypes.
- *@li container: An optional string. Defaults to "".
- If non-empty, this queue is placed in the given container.
- Otherwise, a default container is used.
- *@li shared_name: An optional string. Defaults to "".
- It is necessary to match this name to the matching Unstage Op. \n
-
- *@attention Constraints:
- *MapStage runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator MapStage.
- */
-
- REG_OP(MapStage)
- .INPUT(key, TensorType({DT_INT64}))
- .INPUT(indices, TensorType({DT_INT32}))
- .DYNAMIC_INPUT(values,
- TensorType({ DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, \
- DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, \
- DT_UINT64, DT_RESOURCE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128, \
- DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32 }))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(MapStage)
-
- /**
- *@brief Removes and returns the values associated with the key. \n
-
- *@par Inputs:
- *Including:
- * @li key: A Tensor of type DT_INT64.
- * @li indices: A Tensor of type DT_INT32. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of DTypes that has length >= 1.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *values: A list of Tensor objects. Must be one of the following types:
- DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, DT_UINT8, DT_INT32,
- DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, DT_UINT64, DT_RESOURCE,
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128, DT_QINT8, DT_QUINT8,
- DT_QINT16, DT_QUINT16, DT_QINT32. \n
-
- *@attention Constraints:
- *MapUnstage runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator MapUnstage.
- */
-
- REG_OP(MapUnstage)
- .INPUT(key, TensorType({DT_INT64}))
- .INPUT(indices, TensorType({DT_INT32}))
- .DYNAMIC_OUTPUT(values,
- TensorType({ DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, \
- DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, \
- DT_UINT64, DT_RESOURCE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128, \
- DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32 }))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(MapUnstage)
-
- /**
- *@brief Removes and returns a random (key, value). \n
-
- *@par Inputs:
- *Including:
- *indices: A Tensor of type DT_INT32. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of DTypes that has length >= 1.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *@li key: A Tensor of type DT_INT64.
- *@li values: A list of Tensor objects.
- Must be one of the following types: DT_FLOAT, DT_FLOAT16, DT_INT8,
- DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE,
- DT_UINT32, DT_UINT64, DT_RESOURCE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128,
- DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32. \n
-
- *@attention Constraints:
- *MapUnstageNoKey runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator MapUnstageNoKey.
- */
-
- REG_OP(MapUnstageNoKey)
- .INPUT(indices, TensorType({DT_INT32}))
- .OUTPUT(key, TensorType({DT_INT64}))
- .DYNAMIC_OUTPUT(values,
- TensorType({ DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, \
- DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, \
- DT_UINT64, DT_RESOURCE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128, \
- DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32 }))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(MapUnstageNoKey)
-
- /**
- *@brief Peeks at the values at the specified key. \n
-
- *@par Inputs:
- *Including:
- * @li key: A Tensor of type DT_INT64.
- * @li indices: A Tensor of type DT_INT32. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of tf.DTypes that has length >= 1.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *values: A list of Tensor objects of type "dtypes".
- Must be one of the following types: DT_FLOAT, DT_FLOAT16, DT_INT8,
- DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL,
- DT_DOUBLE, DT_UINT32, DT_UINT64, DT_RESOURCE, DT_STRING, DT_COMPLEX64,
- DT_COMPLEX128, DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32. \n
-
- *@attention Constraints:
- *MapPeek runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator MapPeek.
- */
-
- REG_OP(MapPeek)
- .INPUT(key, TensorType({DT_INT64}))
- .INPUT(indices, TensorType({DT_INT32}))
- .DYNAMIC_OUTPUT(values,
- TensorType({ DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, \
- DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, \
- DT_UINT64, DT_RESOURCE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128, \
- DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32 }))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(MapPeek)
-
- /**
- *@brief Returns the number of elements in the underlying container. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of tf.DTypes.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *size: A Tensor of type DT_INT32. \n
-
- *@attention Constraints:
- *MatMul runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator MapSize.
- */
-
- REG_OP(MapSize)
- .OUTPUT(size, TensorType({DT_INT32}))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(MapSize)
-
- /**
- *@brief Class wrapping dynamic-sized, per-time-step, write-once Tensor arrays. \n
-
- *@par Inputs:
- *The input size must be type int32. Inputs include:
- *@li size: int32 scalar Tensor: the size of the TensorArray. Required if
- handle is not provided. \n
-
- *@par Attributes:
- *@li dtype: The data type of this TensorArray.
- *@li element_shape: The TensorShape of elements in this TensorArray.
- *@li dynamic_size: A boolean that determines whether writes to the
- TensorArray are allowed to grow the size.
- *@li clear_after_read: Boolean (optional, default: True). If True, clear
- TensorArray values
- after reading them. This disables read-many semantics, but allows early
- release of memory.
- *@li identical_element_shapes: If true (default is false), then all elements
- in the TensorArray will be expected to have have identical shapes.
- *@li tensor_array_name: String: the name of the TensorArray. \n
-
- *@par Outputs:
- *@li handle: The handle to the TensorArray.
- *@li flow: A scalar used to control gradient flow. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArray operator.
- */
-
- REG_OP(TensorArray)
- .INPUT(size, TensorType({DT_INT32}))
- .OUTPUT(handle, TensorType({DT_RESOURCE}))
- .OUTPUT(flow, TensorType({DT_FLOAT}))
- .REQUIRED_ATTR(dtype, Type)
- .ATTR(element_shape, ListInt, ge::UNKNOWN_SHAPE)
- .ATTR(dynamic_size, Bool, false)
- .ATTR(clear_after_read, Bool, true)
- .ATTR(identical_element_shapes, Bool, false)
- .ATTR(tensor_array_name, String, "")
- .OP_END_FACTORY_REG(TensorArray)
-
- /**
- *@brief Delete the TensorArray from its resource container. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *handle: A Tensor of type resource. The handle to a TensorArray
- (output of TensorArray or TensorArrayGrad). \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArrayClose operator.
- */
-
- REG_OP(TensorArrayClose)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .OP_END_FACTORY_REG(TensorArrayClose)
-
- /**
- *@brief Concat the elements from the TensorArray into value value. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *@li handle: The handle to a TensorArray.
- *@li flow_in: A float scalar that enforces proper chaining of operations. \n
-
- *@par Attributes:
- *@li dtype: The type of the elem that is returned.
- *@li element_shape_except0: The expected shape of an element, if known,
- excluding the first dimension. \n
-
- *@par Outputs:
- *@li value: All of the elements in the TensorArray, concatenated along
- the first axis.
- *@li lengths: A vector of the row sizes of the original T elements in the
- value output. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArrayConcat operator.
- */
-
- REG_OP(TensorArrayConcat)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .INPUT(flow_in, TensorType({DT_FLOAT}))
- .OUTPUT(value, TensorType({DT_FLOAT, DT_FLOAT16, DT_DOUBLE, DT_INT8,
- DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL,
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128, DT_QINT8,
- DT_QUINT8, DT_QINT32}))
- .OUTPUT(lengths, TensorType({DT_INT64}))
- .REQUIRED_ATTR(dtype, Type)
- .ATTR(element_shape_except0, ListInt, ge::UNKNOWN_SHAPE)
- .OP_END_FACTORY_REG(TensorArrayConcat)
-
- /**
- *@brief All elements selected by indices must have the same shape. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *@li handle: The handle to a TensorArray.
- *@li indices: The locations in the TensorArray from which to read tensor
- elements.
- *@li flow_in: A float scalar that enforces proper chaining of operations. \n
-
- *@par Attributes:
- *@li dtype: The type of the elem that is returned.
- *@li element_shape: The expected shape of an element, if known. Used to
- validate the shapes of TensorArray elements. If this shape is not fully
- specified, gathering zero-size TensorArrays is an error. \n
-
- *@par Outputs:
- *value: All of the elements in the TensorArray, concatenated along a new
- axis (the new dimension 0). \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArrayGather operator.
- */
-
- REG_OP(TensorArrayGather)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .INPUT(indices, TensorType({DT_INT32}))
- .INPUT(flow_in, TensorType({DT_FLOAT}))
- .OUTPUT(value, TensorType({DT_FLOAT, DT_FLOAT16, DT_DOUBLE, DT_INT8,
- DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL,
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128, DT_QINT8,
- DT_QUINT8, DT_QINT32}))
- .REQUIRED_ATTR(dtype, Type)
- .ATTR(element_shape, ListInt, ge::UNKNOWN_SHAPE)
- .OP_END_FACTORY_REG(TensorArrayGather)
-
- /**
- *@brief Creates a TensorArray for storing the gradients of values in the
- given handle. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *@li handle: The handle to a TensorArray.
- *@li flow_in: A float scalar that enforces proper chaining of operations. \n
-
- *@par Attributes:
- *source: The gradient source string, used to decide which gradient
- TensorArray to return. \n
-
- *@par Outputs:
- *@li grad_handle: A Tensor of type resource.
- *@li flow_out: A Tensor of type float. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArrayGrad operator.
- */
-
- REG_OP(TensorArrayGrad)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .INPUT(flow_in, TensorType({DT_FLOAT}))
- .OUTPUT(grad_handle, TensorType({DT_RESOURCE}))
- .OUTPUT(flow_out, TensorType({DT_FLOAT}))
- .REQUIRED_ATTR(source, String)
- .OP_END_FACTORY_REG(TensorArrayGrad)
-
- /**
- *@brief Push an element onto the tensor_array. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *@li handle: The handle to a TensorArray.
- *@li index: The position to write to inside the TensorArray.
- *@li value: The tensor to write to the TensorArray.
- *@li flow_in: A float scalar that enforces proper chaining of operations. \n
-
- *@par Outputs:
- *flow_out: A float scalar that enforces proper chaining of operations. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArrayWrite operator.
- */
-
- REG_OP(TensorArrayWrite)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .INPUT(index, TensorType({DT_INT32}))
- .INPUT(value, TensorType({DT_FLOAT, DT_FLOAT16, DT_DOUBLE, DT_INT8,
- DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL,
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128}))
- .INPUT(flow_in, TensorType({DT_FLOAT}))
- .OUTPUT(flow_out, TensorType({DT_FLOAT}))
- .OP_END_FACTORY_REG(TensorArrayWrite)
-
- /**
- *@brief Creates a TensorArray for storing multiple gradients of values in
- the given handle. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *@li handle: A Tensor of type resource. The handle to the forward TensorArray.
- *@li flow_in: A Tensor of type float. A float scalar that enforces proper
- chaining of operations.
- *@li shape_to_prepend: A Tensor of type int32. An int32 vector representing
- a shape. \n
-
- *@par Attributes:
- *source: A string. The gradient source string, used to decide which gradient
- TensorArray to return. \n
-
- *@par Outputs:
- *@li grad_handle: A Tensor of type resource.
- *@li flow_out: A Tensor of type float. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArrayGradWithShape operator.
- */
-
- REG_OP(TensorArrayGradWithShape)
- .INPUT(handle, TensorType({ DT_RESOURCE }))
- .INPUT(flow_in, TensorType({ DT_FLOAT }))
- .INPUT(shape_to_prepend, TensorType({ DT_INT32 }))
- .OUTPUT(grad_handle, TensorType({ DT_RESOURCE }))
- .OUTPUT(flow_out, TensorType({ DT_FLOAT }))
- .ATTR(source, String, "")
- .OP_END_FACTORY_REG(TensorArrayGradWithShape)
-
- /**
- *@brief Read an element from the TensorArray into output value. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *@li handle: A Tensor of type resource. The handle to a TensorArray.
- *@li index: A Tensor of type int32.
- *@li flow_in: A Tensor of type float. \n
-
- *@par Attributes:
- *dtype: A DType. \n
-
- *@par Outputs:
- *y: A Tensor of type dtype. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArrayRead operator.
- */
-
- REG_OP(TensorArrayRead)
- .INPUT(handle, TensorType({ DT_RESOURCE }))
- .INPUT(index, TensorType({ DT_INT32 }))
- .INPUT(flow_in, TensorType({ DT_FLOAT }))
- .OUTPUT(y, TensorType({ DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16,
- DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE,
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128}))
- .REQUIRED_ATTR(dtype, Type)
- .OP_END_FACTORY_REG(TensorArrayRead)
-
- /**
- *@brief Scatter the data from the input value into specific TensorArray
- elements. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *@li handle: The handle to a TensorArray.
- *@li indices: The locations at which to write the tensor elements.
- *@li value: The concatenated tensor to write to the TensorArray.
- *@li flow_in: A float scalar that enforces proper chaining of operations. \n
-
- *@par Outputs:
- *flow_out: A float scalar that enforces proper chaining of operations. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArrayScatter operator.
- */
-
- REG_OP(TensorArrayScatter)
- .INPUT(handle, TensorType({ DT_RESOURCE }))
- .INPUT(indices, TensorType({ DT_INT32 }))
- .INPUT(value, TensorType({ DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16,
- DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE,
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128 }))
- .INPUT(flow_in, TensorType({ DT_FLOAT }))
- .OUTPUT(flow_out, TensorType({ DT_FLOAT }))
- .OP_END_FACTORY_REG(TensorArrayScatter)
-
- /**
- *@brief Split the data from the input value into TensorArray elements. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *@li handle: The handle to a TensorArray.
- *@li value: The concatenated tensor to write to the TensorArray.
- *@li lengths: The vector of lengths, how to split the rows of value into
- the TensorArray.
- *@li flow_in: A float scalar that enforces proper chaining of operations. \n
-
- *@par Outputs:
- *flow_out: A float scalar that enforces proper chaining of operations. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArraySplit operator.
- */
-
- REG_OP(TensorArraySplit)
- .INPUT(handle, TensorType({ DT_RESOURCE }))
- .INPUT(value, TensorType({ DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16,
- DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE,
- DT_STRING, DT_COMPLEX64, DT_COMPLEX128 }))
- .INPUT(lengths, TensorType({ DT_INT64 }))
- .INPUT(flow_in, TensorType({ DT_FLOAT }))
- .OUTPUT(flow_out, TensorType({ DT_FLOAT }))
- .OP_END_FACTORY_REG(TensorArraySplit)
-
- /**
- *@brief Return the number of elements in a TensorArray. \n
-
- *@par Inputs:
- *The input handle must be type resource. Inputs include:
- *@li handle: The handle to a TensorArray.
- *@li flow_in: A float scalar that enforces proper chaining of operations. \n
-
- *@par Outputs:
- *size: The number of elements in a TensorArray.. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow TensorArraySize operator.
- */
-
- REG_OP(TensorArraySize)
- .INPUT(handle, TensorType({ DT_RESOURCE }))
- .INPUT(flow_in, TensorType({ DT_FLOAT }))
- .OUTPUT(size, TensorType({ DT_INT32 }))
- .OP_END_FACTORY_REG(TensorArraySize)
-
- /**
- *@brief A queue implementation that dequeues elements in a random order. \n
-
- *@par Attributes:
- *@li shapes: (Optional.) A list of fully-defined TensorShape objects with
- the same length as dtypes, or None.
- *@li capacity: An integer. The upper bound on the number of elements that may
- be stored in this queue.
- *@li min_after_dequeue: An integer (described above).
- *@li seed: An integer. Used to create a random seed.
- *@li seed2: An integer. Used to create a random seed.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *handle: A Tensor of type resource. The handle to a stack. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow RandomShuffleQueue operator.
- */
-
- REG_OP(RandomShuffleQueue)
- .OUTPUT(handle, TensorType({DT_RESOURCE}))
- .REQUIRED_ATTR(component_types, ListType)
- .ATTR(shapes, ListListInt, {})
- .ATTR(capacity, Int, -1)
- .ATTR(min_after_dequeue, Int, 0)
- .ATTR(seed, Int, 0)
- .ATTR(seed2, Int, 0)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(RandomShuffleQueue)
-
- /**
- *@brief A queue that produces elements in first-in first-out order. \n
-
- *@par Attributes:
- *@li shapes: An optional list of shapes for each component of
- a queue element. Defaults to {}. The length of this attr must be
- either 0 or the same as the length of "component_types". Shapes of fixed
- rank but variable size are allowed by setting any shape dimension to "-1".
- In this case, the inputs' shape may vary along the given dimension,
- and DequeueMany will pad the given dimension with zeros up to the maximum
- shape of all elements in the given batch. If the length of this attr is "0",
- different queue elements may have different ranks and shapes, but only one
- element may be dequeued at a time.
- *@li capacity: An optional int. Defaults to "-1". The upper bound on the number
- of elements in this queue. Negative numbers mean no limit.
- *@li container: An optional string. Defaults to "". If non-empty, this queue
- is placed in the given container. Otherwise, a default container is used.
- *@li shared_name: An optional string. Defaults to "". If non-empty, this queue
- will be shared under the given name across multiple sessions. \n
-
- *@par Outputs:
- *handle: A Tensor of type DT_RESOURCE. \n
-
- *@attention Constraints:
- *PaddingFIFOQueue runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator PaddingFIFOQueue.
- */
-
- REG_OP(PaddingFIFOQueue)
- .OUTPUT(handle, TensorType({DT_RESOURCE}))
- .REQUIRED_ATTR(component_types, ListType)
- .ATTR(shapes, ListListInt, {})
- .ATTR(capacity, Int, -1)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(PaddingFIFOQueue)
-
- /**
- *@brief A queue that produces elements sorted by the first component value. \n
-
- *@par Attributes:
- *@li component_types: An optional list of tf.DTypes. Defaults to {}.
- The type of each component in a value.
- *@li shapes: A list of shapes for each component of a queue element.
- The length of this attr must be either 0 or the same as the length of
- "component_types". If the length of this attr is 0, the shapes of queue
- elements are not constrained, and only one element may be dequeued at a time.
- *@li container: An optional string. Defaults to "". If non-empty, this queue
- is placed in the given container. Otherwise, a default container is used.
- *@li shared_name: An optional string. Defaults to "". If non-empty, this
- queue will be shared under the given name across multiple sessions. \n
-
- *@par Outputs:
- *handle: A Tensor of type DT_RESOURCE. \n
-
- *@attention Constraints:
- *PriorityQueue runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator PriorityQueue.
- */
-
- REG_OP(PriorityQueue)
- .OUTPUT(handle, TensorType({DT_RESOURCE}))
- .ATTR(component_types, ListType, {})
- .ATTR(shapes, ListListInt, {})
- .ATTR(capacity, Int, -1)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(PriorityQueue)
-
- /**
- *@brief Multiplies the matrix "x1" by the matrix "x2". \n
-
- *@par Inputs:
- *Including:
- *handle: A Tensor of type DT_RESOURCE. The handle to a queue. \n
-
- *@par Attributes:
- *cancel_pending_enqueues: An optional bool. Defaults to "False".
- If true, all pending enqueue requests that are blocked on
- the given queue will be canceled. \n
-
- *@attention Constraints:
- *QueueClose runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator QueueClose.
- */
-
- REG_OP(QueueClose)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .ATTR(cancel_pending_enqueues, Bool, false)
- .OP_END_FACTORY_REG(QueueClose)
-
- /**
- *@brief Stage (key, values) in the underlying container which behaves like an ordered associative container. \n
-
- *@par Inputs:
- *Including:
- * @li key: A Tensor of type DT_INT64.
- * @li indices: A Tensor of type DT_INT32.
- * @li values: A list of Must be one of the following types:
- DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, DT_UINT8,
- DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, DT_UINT64,
- DT_RESOURCE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128, DT_QINT8,
- DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32 that inserted
- values should adhere to. It's a dynamic input. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- Maximum number of elements in the Staging Area.
- If > 0, inserts on the container will block
- when the capacity is reached.
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of DTypes.
- *@li container: An optional string. Defaults to "".
- If non-empty, this queue is placed in the given container.
- Otherwise, a default container is used.
- *@li shared_name: An optional string. Defaults to "".
- It is necessary to match this name to the matching Unstage Op. \n
-
- *@attention Constraints:
- *OrderedMapStage runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator OrderedMapStage.
- */
-
- REG_OP(OrderedMapStage)
- .INPUT(key, TensorType({DT_INT64}))
- .INPUT(indices, TensorType({DT_INT32}))
- .DYNAMIC_INPUT(values,
- TensorType({ DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, \
- DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, \
- DT_UINT64, DT_RESOURCE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128, \
- DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32 }))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(OrderedMapStage)
-
- /**
- *@brief Returns the number of elements in the underlying container. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of DTypes.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *size: A Tensor of type DT_INT32. \n
-
- *@attention Constraints:
- *OrderedMapSize runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator OrderedMapSize.
- */
-
- REG_OP(OrderedMapSize)
- .OUTPUT(size, TensorType({DT_INT32}))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(OrderedMapSize)
-
- /**
- *@brief Removes all elements in the underlying container. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of DTypes.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@attention Constraints:
- *OrderedMapClear runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator OrderedMapClear.
- */
-
- REG_OP(OrderedMapClear)
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(OrderedMapClear)
-
- /**
- *@brief Returns the number of incomplete elements in the underlying container. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of DTypes.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *size: A Tensor of type DT_INT32. \n
-
- *@attention Constraints:
- *OrderedMapIncompleteSize runs on the Ascend AI CPU,
- which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator OrderedMapIncompleteSize.
- */
-
- REG_OP(OrderedMapIncompleteSize)
- .OUTPUT(size, TensorType({DT_INT32}))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(OrderedMapIncompleteSize)
-
- /**
- *@brief Peeks at the values at the specified key. \n
-
- *@par Inputs:
- *Including:
- * @li key: A Tensor of type DT_INT64.
- * @li indices: A Tensor of type DT_INT32. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of DTypes that has length >= 1.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *values: A list of Tensor objects. Must be one of the following types:
- DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, DT_UINT8, DT_INT32,
- DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, DT_UINT64, DT_RESOURCE, DT_STRING,
- DT_COMPLEX64, DT_COMPLEX128, DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32. \n
-
- *@attention Constraints:
- *OrderedMapPeek runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator OrderedMapPeek.
- */
-
- REG_OP(OrderedMapPeek)
- .INPUT(key, TensorType({DT_INT64}))
- .INPUT(indices, TensorType({DT_INT32}))
- .DYNAMIC_OUTPUT(values,
- TensorType({ DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, \
- DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, \
- DT_UINT64, DT_RESOURCE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128, \
- DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32 }))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(OrderedMapPeek)
-
- /**
- *@brief Removes and returns the (key, value) element with the smallest. \n
-
- *@par Inputs:
- *Including:
- * @li indices: A Tensor of type DT_INT32. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of DTypes that has length >= 1.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *@li key: A Tensor of type DT_INT64.
- *@li values: A list of Tensor objects. Must be one of the following types:
- DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, DT_UINT8, DT_INT32,
- DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, DT_UINT64, DT_RESOURCE, DT_STRING,
- DT_COMPLEX64, DT_COMPLEX128, DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32. \n
-
- *@attention Constraints:
- *OrderedMapUnstageNoKey runs on the Ascend AI CPU,
- which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator OrderedMapUnstageNoKey.
- */
-
- REG_OP(OrderedMapUnstageNoKey)
- .INPUT(indices, TensorType({DT_INT32}))
- .OUTPUT(key, TensorType({DT_INT64}))
- .DYNAMIC_OUTPUT(values,
- TensorType({ DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, \
- DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, DT_UINT32, \
- DT_UINT64, DT_RESOURCE, DT_STRING, DT_COMPLEX64, DT_COMPLEX128, \
- DT_QINT8, DT_QUINT8, DT_QINT16, DT_QUINT16, DT_QINT32 }))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(OrderedMapUnstageNoKey)
-
- /**
- *@brief Removes and returns the values associated with the key. \n
-
- *@par Inputs:
- *Including:
- * @li key: A Tensor of type DT_INT64.
- * @li indices: A Tensor of type DT_INT32. \n
-
- *@par Attributes:
- *@li capacity: An optional int that is >= 0. Defaults to "0".
- *@li memory_limit: An optional int that is >= 0. Defaults to "0".
- *@li dtypes: A list of tf.DTypes that has length >= 1.
- *@li container: An optional string. Defaults to "".
- *@li shared_name: An optional string. Defaults to "". \n
-
- *@par Outputs:
- *values: A list of Tensor objects. Must be one of the following types:
- DT_INT8, DT_UINT8, DT_INT16, DT_UINT16, DT_INT32, DT_INT64, DT_FLOAT,
- DT_FLOAT16, DT_DOUBLE, DT_BOOL, DT_UINT32, DT_UINT64. \n
-
- *@attention Constraints:
- *OrderedMapUnstage runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator OrderedMapUnstage.
- */
-
- REG_OP(OrderedMapUnstage)
- .INPUT(key, TensorType({DT_INT64}))
- .INPUT(indices, TensorType({DT_INT32}))
- .DYNAMIC_OUTPUT(values, TensorType({DT_INT8, DT_UINT8, DT_INT16, DT_UINT16,
- DT_INT32, DT_INT64, DT_FLOAT, DT_FLOAT16,
- DT_DOUBLE, DT_BOOL, DT_UINT32, DT_UINT64}))
- .ATTR(capacity, Int, 0)
- .ATTR(memory_limit, Int, 0)
- .ATTR(dtypes, ListType, {})
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(OrderedMapUnstage)
-
- /**
- *@brief A barrier represents a key-value map, where each key is a string,
- and each value is a tuple of tensors. \n
-
- *@par Attributes:
- *@li component_types: The type of each component in a value.
- *@li shapes: A list of shapes for each component of a queue element.
- Each shape must be 1 in the first dimension.
- The length of this attr must be the same as
- the length of "component_types".
- *@li capacity: The capacity of the barrier.
- The default capacity is MAX_INT32,
- which is the largest capacity of the underlying queue.
- *@li container: If non-empty, this barrier is placed in the given container.
- Otherwise, a default container is used.
- *@li shared_name: If non-empty, this barrier will be shared under
- the given name across multiple sessions. \n
-
- *@par Outputs:
- *handle: A Tensor of type DT_STRING_REF. The handle to the barrier. \n
-
- *@attention Constraints:
- *Barrier runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator Barrier. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(Barrier)
- .OUTPUT(handle, TensorType({DT_STRING_REF}))
- .REQUIRED_ATTR(component_types, ListType)
- .ATTR(shapes, ListListInt, {})
- .ATTR(capacity, Int, -1)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .OP_END_FACTORY_REG(Barrier)
-
- /**
- *@brief For each key, assigns the respective value to the specified component. \n
-
- *@par Inputs:
- *Including:
- * @li handle: A Tensor of type DT_STRING_REF. The handle to a barrier.
- * @li keys: A Tensor of type DT_STRING. A 1D tensor of keys.
- * @li values: An any-dimensional tensor of values, which are associated
- with the respective keys. The 0th dimension must have length n
- Must be one of the following types: DT_FLOAT, DT_FLOAT16, DT_INT8,
- DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_BOOL,
- DT_DOUBLE, DT_COMPLEX64, DT_COMPLEX128, DT_RESOURCE, DT_STRING. \n
-
- *@par Attributes:
- *component_index: The component of the barrier elements that is being assigned. \n
-
- *@attention Constraints:
- *BarrierInsertMany runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator BarrierInsertMany. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(BarrierInsertMany)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .INPUT(keys, TensorType({DT_STRING}))
- .INPUT(values,
- TensorType({DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, \
- DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, \
- DT_COMPLEX64, DT_COMPLEX128, DT_RESOURCE, DT_STRING}))
- .REQUIRED_ATTR(component_index, Int)
- .OP_END_FACTORY_REG(BarrierInsertMany)
-
- /**
- *@brief Takes the given number of completed elements from a barrier. \n
-
- *@par Inputs:
- *Including:
- * @li handle: A Tensor of type DT_STRING_REF. The handle to a barrier.
- * @li num_elements: A Tensor of type DT_INT32.
- A single-element tensor containing the number of elements to take. \n
-
- *@par Attributes:
- *@li component_types: The type of each component in a value.
- *@li allow_small_batch: Allow to return less than "num_elements"
- items if barrier is already closed.
- *@li wait_for_incomplete: An any-dimensional tensor
- for each component in the barrier element.
- *@li timeout_ms: If the queue is empty, this operation will block for up to
- "timeout_ms" milliseconds. Note: This option is not supported yet. \n
-
- *@par Outputs:
- *@li indices: A 1D tensor of type DT_INT64. The indices, with length "num_elems".
- These indices refer to the batch in which the values were
- placed into the barrier.
- *@li keys: A 1D tensor of keys,
- with length "num_elements" of type DT_STRING.
- *@li values: A 1D tensor per component in a barrier element.
- All values have length "num_elements" along the 0th dimension.
- Must be one of the following types:
- DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, DT_UINT8,
- DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, DT_COMPLEX64, DT_COMPLEX128,
- DT_RESOURCE, DT_STRING. \n
-
- *@attention Constraints:
- *BarrierTakeMany runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator BarrierTakeMany. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(BarrierTakeMany)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .INPUT(num_elements, TensorType(DT_INT32))
- .OUTPUT(indices, TensorType({DT_INT64}))
- .OUTPUT(keys, TensorType({DT_STRING}))
- .DYNAMIC_OUTPUT(values,
- TensorType({DT_FLOAT, DT_FLOAT16, DT_INT8, DT_INT16, DT_UINT16, \
- DT_UINT8, DT_INT32, DT_INT64, DT_BOOL, DT_DOUBLE, \
- DT_COMPLEX64, DT_COMPLEX128, DT_RESOURCE, DT_STRING}))
- .REQUIRED_ATTR(component_types, ListType)
- .ATTR(allow_small_batch, Bool, false)
- .ATTR(wait_for_incomplete, Bool, false)
- .ATTR(timeout_ms, Int, -1)
- .OP_END_FACTORY_REG(BarrierTakeMany)
-
- /**
- *@brief Closes the given barrier. \n
-
- *@par Inputs:
- *Including:
- *handle: A Tensor of type DT_STRING_REF. The handle to a barrier. \n
-
- *@par Attributes:
- *cancel_pending_enqueues: If true, all pending enqueue requests
- that are blocked on the barrier's queue will
- be canceled. InsertMany will fail,
- even if no new key is introduced. \n
-
- *@attention Constraints:
- *BarrierClose runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator BarrierClose. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(BarrierClose)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .ATTR(cancel_pending_enqueues, Bool, false)
- .OP_END_FACTORY_REG(BarrierClose)
-
- /**
- *@brief Computes the number of complete elements in the given barrier. \n
-
- *@par Inputs:
- *Including:
- *handle: A Tensor of type DT_STRING_REF. The handle to a barrier. \n
-
- *@par Outputs:
- *size: A Tensor of type DT_INT32. The number of complete elements. \n
-
- *@attention Constraints:
- *BarrierReadySize runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator BarrierReadySize. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(BarrierReadySize)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .OUTPUT(size, TensorType(DT_INT32))
- .OP_END_FACTORY_REG(BarrierReadySize)
-
- /**
- *@brief Computes the number of incomplete elements in the given barrier. \n
-
- *@par Inputs:
- *Including:
- *handle: A Tensor of type DT_STRING_REF. The handle to a barrier. \n
-
- *@par Outputs:
- *size: A Tensor of type DT_INT32. The number of incomplete elements in the barrier. \n
-
- *@attention Constraints:
- *BarrierIncompleteSize runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator BarrierIncompleteSize. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(BarrierIncompleteSize)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .OUTPUT(size, TensorType(DT_INT32))
- .OP_END_FACTORY_REG(BarrierIncompleteSize)
-
- /**
- *@brief Emits randomized records. \n
-
- *@par Attributes:
- *@li file_pattern: A string. Glob pattern for the data files.
- *@li file_random_seed: An optional int. Defaults to 301. Random seeds used to
- produce randomized records.
- *@li file_shuffle_shift_ratio: An optional float. Defaults to 0. Shifts the
- list of files after the list is randomly shuffled.
- *@li file_buffer_size: An optional int. Defaults to 10000. The randomization
- shuffling buffer.
- *@li file_parallelism: An optional int. Defaults to 16. How many sstables are
- opened and concurrently iterated over.
- *@li batch_size: An optional int. Defaults to 32. The batch size.
- *@li compression_type: An optional string. Defaults to "". The type of
- compression for the file. Currently ZLIB and GZIP are supported. \n
-
- *@par Outputs:
- *records: A Tensor of type string. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow RecordInput operator.
- */
-
- REG_OP(RecordInput)
- .OUTPUT(records, TensorType({DT_STRING}))
- .REQUIRED_ATTR(file_pattern, String)
- .ATTR(file_random_seed, Int, 301)
- .ATTR(file_shuffle_shift_ratio, Float, 0)
- .ATTR(file_buffer_size, Int, 10000)
- .ATTR(file_parallelism, Int, 16)
- .ATTR(batch_size, Int, 32)
- .ATTR(compression_type, String, "")
- .OP_END_FACTORY_REG(RecordInput)
-
- /**
- *@brief A conditional accumulator for aggregating gradients. \n
-
- *@par Attributes:
- *@li dtype: The type of the value being accumulated.
- *@li shape: The shape of the values, can be [], in which case shape is unknown.
- *@li container: If non-empty, this accumulator is placed in the given container.
- Otherwise, a default container is used.
- *@li shared_name: If non-empty, this accumulator will be shared under the given
- name across multiple sessions.
- *@li reduction_type: reduction operator type, default "MEAN". \n
-
- *@par Outputs:
- *handle: A Tensor of type DT_STRING_REF. The handle to the accumulator. \n
-
- *@attention Constraints:
- *ConditionalAccumulator runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator ConditionalAccumulator. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(ConditionalAccumulator)
- .OUTPUT(handle, TensorType({DT_STRING_REF}))
- .REQUIRED_ATTR(dtype, Type)
- .REQUIRED_ATTR(shape, ListInt)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .ATTR(reduction_type, String, "MEAN")
- .OP_END_FACTORY_REG(ConditionalAccumulator)
-
- /**
- *@brief Applies a gradient to a given accumulator. \n
-
- *@par Inputs:
- *Does not add if "local_step" is lesser than the accumulator's "global_step".
- * @li handle: A Tensor of type DT_STRING_REF. The handle to an accumulator.
- * @li local_step: A Tensor of type DT_INT64.
- The "local_step" value at which the gradient was computed. \n
-
- * @li gradient: A tensor of the gradient to be accumulated.
- Must be one of the following types:
- DT_FLOAT16, DT_FLOAT, DT_DOUBLE
-
- *@par Attributes:
- *dtype: Must be one of the following types:
- DT_FLOAT16, DT_FLOAT, DT_DOUBLE
-
- *@attention Constraints:
- *AccumulatorApplyGradient runs on the Ascend AI CPU,
- which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator AccumulatorApplyGradient. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(AccumulatorApplyGradient)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .INPUT(local_step, TensorType({DT_INT64}))
- .INPUT(gradient, TensorType({DT_FLOAT16, DT_FLOAT, DT_DOUBLE}))
- .REQUIRED_ATTR(dtype, Type)
- .OP_END_FACTORY_REG(AccumulatorApplyGradient)
-
- /**
- *@brief Returns the number of gradients aggregated in the given accumulators. \n
-
- *@par Inputs:
- *Including:
- *handle: A Tensor of type DT_STRING_REF. The handle to an accumulator. \n
-
- *@par Outputs:
- *y: A Tensor of type DT_INT32. The number of gradients aggregated
- in the given accumulator. \n
-
- *@attention Constraints:
- *AccumulatorNumAccumulated runs on the Ascend AI CPU,
- which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator AccumulatorNumAccumulated. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(AccumulatorNumAccumulated)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .OUTPUT(y, TensorType({DT_INT32}))
- .OP_END_FACTORY_REG(AccumulatorNumAccumulated)
-
- /**
- *@brief Updates the accumulator with a new value for "global_step". \n
-
- *@par Inputs:
- *Input "new_global_step" is a scalar.
- * @li handle: A Tensor of type DT_STRING_REF. The handle to an accumulator.
- * @li new_global_step: The new "global_step" value to set A Tensor of type DT_INT64. \n
-
- *@attention Constraints:
- *AccumulatorSetGlobalStep runs on the Ascend AI CPU, which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator AccumulatorSetGlobalStep. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(AccumulatorSetGlobalStep)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .INPUT(new_global_step, TensorType({DT_INT64}))
- .OP_END_FACTORY_REG(AccumulatorSetGlobalStep)
-
- /**
- *@brief Extracts the average gradient in the given ConditionalAccumulator. \n
-
- *@par Inputs:
- * Input "num_required" is a scalar.
- * @li handle: A Tensor of type DT_STRING_REF. The handle to an accumulator.
- * @li num_required: A Tensor of type DT_INT32.
- Number of gradients required before an aggregate is returned. \n
-
- *@par Attributes:
- *dtype: The data type of accumulated gradients.
- Needs to correspond to the type of the accumulator. \n
-
- *@par Outputs:
- *y: The average of the accumulated gradients.
- Must be one of the following types:
- DT_FLOAT16, DT_FLOAT, DT_DOUBLE. \n
-
- *@attention Constraints:
- *AccumulatorTakeGradient runs on the Ascend AI CPU,
- which delivers poor performance.
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator AccumulatorTakeGradient. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(AccumulatorTakeGradient)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .INPUT(num_required, TensorType({DT_INT32}))
- .OUTPUT(y, TensorType({DT_FLOAT16, DT_FLOAT, DT_DOUBLE}))
- .REQUIRED_ATTR(dtype, Type)
- .OP_END_FACTORY_REG(AccumulatorTakeGradient)
-
- /**
- *@brief A conditional accumulator for aggregating sparse gradients. \n
-
- *@par Attributes:
- *@li shape: The shape of the values.
- *@li dtype: The type of the value being accumulated.
- *@li container: If non-empty, this accumulator is placed in the given
- container. Otherwise, a default container is used.
- *@li shared_name: If non-empty, this accumulator will be shared under the
- given name across multiple sessions.
- *@li reduction_type: The reduction method whose type is string,
- default is "MEAN". \n
-
- *@par Outputs:
- *handle: The handle to the accumulator. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow SparseConditionalAccumulator operator. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(SparseConditionalAccumulator)
- .OUTPUT(handle, TensorType({DT_STRING_REF}))
- .REQUIRED_ATTR(shape, ListInt)
- .REQUIRED_ATTR(dtype, Type)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .ATTR(reduction_type, String, "MEAN")
- .OP_END_FACTORY_REG(SparseConditionalAccumulator)
-
- /**
- *@brief Applies a sparse gradient to a given accumulator. \n
-
- *@par Inputs:
- *The input handle must be type string_ref. Inputs include:
- *@li handle: A Tensor of type mutable string. The handle to a accumulator.
- *@li local_step: A Tensor of type int64. The local_step value at which the
- sparse gradient was computed.
- *@li indices: A Tensor of type int64. Indices of the sparse gradient to be
- accumulated. Must be a vector.
- *@li values: A Tensor. Values are the non-zero slices of the gradient,
- and must have the same first dimension as indices, i.e., the nnz represented
- by indices and values must be consistent.
- *@li shape: A Tensor of type int64. \n
-
- *@par Attributes:
- *@li has_known_shape: A bool. Boolean indicating whether gradient_shape is
- unknown, in which case the input is ignored during validation.
- *@li dtype: The data type of accumulated gradients. Needs to correspond to
- the type of the accumulator. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow SparseAccumulatorApplyGradient operator. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(SparseAccumulatorApplyGradient)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .INPUT(local_step, TensorType({DT_INT64}))
- .INPUT(indices, TensorType({DT_INT64}))
- .INPUT(values, TensorType({DT_INT8, DT_UINT8, DT_INT16, DT_UINT16, \
- DT_INT32, DT_INT64, DT_DOUBLE, DT_FLOAT, DT_FLOAT16, DT_UINT32, \
- DT_UINT64, DT_COMPLEX64, DT_COMPLEX128, DT_QINT16, DT_QUINT16, \
- DT_QINT8, DT_QUINT8, DT_QINT32}))
- .INPUT(shape, TensorType({DT_INT64}))
- .REQUIRED_ATTR(has_known_shape, Bool)
- .REQUIRED_ATTR(dtype, Type)
- .OP_END_FACTORY_REG(SparseAccumulatorApplyGradient)
-
- /**
- *@brief Extracts the average sparse gradient in a SparseConditionalAccumulator. \n
-
- *@par Inputs:
- *The input handle must be type string_ref. Inputs include:
- *@li handle: The handle to a SparseConditionalAccumulator.
- *@li num_required: Number of gradients required before we return an aggregate. \n
-
- *@par Attributes:
- *dtype: The data type of accumulated gradients. Needs to correspond to the
- type of the accumulator. \n
-
- *@par Outputs:
- *@li indices: Indices of the average of the accumulated sparse gradients.
- *@li values: Values of the average of the accumulated sparse gradients.
- *@li shape: Shape of the average of the accumulated sparse gradients. \n
-
- *@par Third-party framework compatibility
- *Compatible with tensorflow SparseAccumulatorTakeGradient operator. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(SparseAccumulatorTakeGradient)
- .INPUT(handle, TensorType({DT_STRING_REF}))
- .INPUT(num_required, TensorType({DT_INT32}))
- .OUTPUT(indices, TensorType({DT_INT64}))
- .OUTPUT(values, TensorType({DT_INT8, DT_UINT8, DT_INT16, DT_UINT16, \
- DT_INT32, DT_INT64, DT_DOUBLE, DT_FLOAT}))
- .OUTPUT(shape, TensorType({DT_INT64}))
- .REQUIRED_ATTR(dtype, Type)
- .OP_END_FACTORY_REG(SparseAccumulatorTakeGradient)
-
- /**
- *@brief A conditional accumulator for aggregating gradients. \n
-
- *@par Attributes:
- * @li dtype: The type of the value being accumulated.
- * @li shape: The shape of the values, can be [], in which case shape is unknown.
- * @li container: If non-empty, this accumulator is placed in the given container.
- Otherwise, a default container is used.
- * @li shared_name: If non-empty, this accumulator will be shared under the given
- name across multiple sessions.
- * @li reduction_type: reduction operator type, default "MEAN". \n
-
- *@par Outputs:
- *handle: A Tensor of type DT_RESOURCE. The handle to the accumulator. \n
-
- *@attention Constraints:
- *ResourceConditionalAccumulator runs on the Ascend AI CPU, which delivers poor performance. \n
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator ResourceConditionalAccumulator. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(ResourceConditionalAccumulator)
- .OUTPUT(handle, TensorType({DT_RESOURCE}))
- .REQUIRED_ATTR(dtype, Type)
- .REQUIRED_ATTR(shape, ListInt)
- .ATTR(container, String, "")
- .ATTR(shared_name, String, "")
- .ATTR(reduction_type, String, "MEAN")
- .OP_END_FACTORY_REG(ResourceConditionalAccumulator)
-
- /**
- *@brief Applies a gradient to a given accumulator.
- Does not add if "local_step" is lesser than the accumulator's "global_step". \n
-
- *@par Inputs:
- * @li handle: The handle to an accumulator.
- * @li local_step: The "local_step" value at which the gradient was computed.
- * @li gradient: A tensor of the gradient to be accumulated.
- Must be one of the following types:
- DT_FLOAT16, DT_FLOAT, DT_DOUBLE
-
- *@attention Constraints:
- *ResourceAccumulatorApplyGradient runs on the Ascend AI CPU, which delivers poor performance. \n
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator ResourceAccumulatorApplyGradient. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(ResourceAccumulatorApplyGradient)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .INPUT(local_step, TensorType({DT_INT64}))
- .INPUT(gradient, TensorType({DT_FLOAT16, DT_FLOAT, DT_DOUBLE}))
- .OP_END_FACTORY_REG(ResourceAccumulatorApplyGradient)
-
- /**
- *@brief Returns the number of gradients aggregated in the given accumulators. \n
-
- *@par Inputs:
- *handle: The handle to an accumulator. \n
-
- *@par Outputs:
- *num_accumulated: The number of gradients aggregated in the given accumulator. \n
-
- *@attention Constraints:
- *ResourceAccumulatorNumAccumulated runs on the Ascend AI CPU, which delivers poor performance. \n
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator ResourceAccumulatorNumAccumulated. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(ResourceAccumulatorNumAccumulated)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .OUTPUT(num_accumulated, TensorType({DT_INT32}))
- .OP_END_FACTORY_REG(ResourceAccumulatorNumAccumulated)
-
- /**
- *@brief Updates the accumulator with a new value for "global_step". \n
-
- *@par Inputs:
- * @li handle: The handle to an accumulator.
- * @li new_global_step: The new "global_step" value to set. \n
-
- *@attention Constraints:
- *ResourceAccumulatorSetGlobalStep runs on the Ascend AI CPU, which delivers poor performance. \n
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator ResourceAccumulatorSetGlobalStep. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(ResourceAccumulatorSetGlobalStep)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .INPUT(new_global_step, TensorType({DT_INT64}))
- .OP_END_FACTORY_REG(ResourceAccumulatorSetGlobalStep)
-
- /**
- *@brief Extracts the average gradient in the given ConditionalAccumulator. \n
-
- *@par Inputs:
- * @li handle: The handle to an accumulator.
- * @li num_required: Number of gradients required before an aggregate is returned. \n
-
- *@par Attributes:
- *dtype: The data type of accumulated gradients.
- Needs to correspond to the type of the accumulator. \n
-
- *@par Outputs:
- *average: The average of the accumulated gradients.
- Must be one of the following types:
- DT_FLOAT16, DT_FLOAT, DT_DOUBLE. \n
-
- *@attention Constraints:
- *ResourceAccumulatorTakeGradient runs on the Ascend AI CPU, which delivers poor performance. \n
-
- *@par Third-party framework compatibility
- *Compatible with the TensorFlow operator ResourceAccumulatorTakeGradient. \n
-
- *@par Restrictions:
- *Warning: THIS FUNCTION IS EXPERIMENTAL. Please do not use.
- */
- REG_OP(ResourceAccumulatorTakeGradient)
- .INPUT(handle, TensorType({DT_RESOURCE}))
- .INPUT(num_required, TensorType({DT_INT32}))
- .OUTPUT(average, TensorType({DT_FLOAT16, DT_FLOAT, DT_DOUBLE}))
- .REQUIRED_ATTR(dtype, Type)
- .OP_END_FACTORY_REG(ResourceAccumulatorTakeGradient)
-
- /**
- *@brief Enqueue a Tensor on the computation outfeed. \n
-
- *@par Inputs:
- *Inputs include:
- *x: A Tensor. Must be one of the following types: float16, float32,
- float64, int8, int16, uint16, uint8, int32, int64, uint32, uint64,
- bool, double, string. It's a dynamic input. \n
-
- *@par Attributes:
- *channel_name: name of operator channel, default "". \n
-
- *@attention Constraints:
- *The implementation for OutfeedEnqueueOp on Ascend uses AICPU, with bad performance.
-
- *@par Third-party framework compatibility
- *@li compatible with tensorflow OutfeedEnqueueOp operator.
- */
- REG_OP(OutfeedEnqueueOp)
- .DYNAMIC_INPUT(x, TensorType({DT_FLOAT, DT_FLOAT16, DT_INT8,
- DT_INT16, DT_UINT16, DT_UINT8, DT_INT32, DT_INT64, DT_UINT32,
- DT_UINT64, DT_BOOL, DT_DOUBLE, DT_STRING}))
- .ATTR(channel_name, String, "")
- .OP_END_FACTORY_REG(OutfeedEnqueueOp)
-
- } // namespace ge
-
- #endif // OPS_BUILT_IN_OP_PROTO_INC_DATA_FLOW_OPS_H_
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