245 lines
8.1 KiB
Python
245 lines
8.1 KiB
Python
# Copyright 2017 The TensorFlow Authors. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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# ==============================================================================
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"""Functions called by the generated code to execute an eager-mode op."""
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from __future__ import absolute_import
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from __future__ import division
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from __future__ import print_function
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import six
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from google.protobuf import text_format
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from tensorflow.core.framework import tensor_pb2
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from tensorflow.python import pywrap_tensorflow
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from tensorflow.python.eager import core
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from tensorflow.python.framework import dtypes
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from tensorflow.python.framework import ops
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from tensorflow.python.framework import tensor_shape
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from tensorflow.python.util import compat
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def quick_execute(op_name, num_outputs, inputs, attrs, ctx, name=None):
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"""Execute a TensorFlow operation.
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Args:
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op_name: Name of the TensorFlow operation (see REGISTER_OP in C++ code) to
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execute.
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num_outputs: The number of outputs of the operation to fetch.
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(Explicitly provided instead of being inferred for performance
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reasons).
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inputs: A list of inputs to the operation. Each entry should be a Tensor, or
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a value which can be passed to the Tensor constructor to create one.
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attrs: A tuple with alternating string attr names and attr values for this
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operation.
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ctx: The value of context.context().
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name: Customized name for the operation.
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Returns:
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List of output Tensor objects. The list is empty if there are no outputs
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Raises:
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An exception on error.
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"""
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device_name = ctx.device_name
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# pylint: disable=protected-access
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try:
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tensors = pywrap_tensorflow.TFE_Py_Execute(ctx._handle, device_name,
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op_name, inputs, attrs,
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num_outputs)
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except core._NotOkStatusException as e:
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if name is not None:
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message = e.message + " name: " + name
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else:
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message = e.message
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six.raise_from(core._status_to_exception(e.code, message), None)
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# pylint: enable=protected-access
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return tensors
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def execute_with_callbacks(op_name, num_outputs, inputs, attrs, ctx, name=None):
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"""Monkey-patch to execute to enable execution callbacks."""
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tensors = quick_execute(op_name, num_outputs, inputs, attrs, ctx, name)
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for callback in ctx.post_execution_callbacks:
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callback(op_name, inputs, attrs, tensors, name)
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return tensors
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execute = quick_execute
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def record_gradient(unused_op_name, unused_inputs, unused_attrs, unused_results,
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unused_name):
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"""Import backprop if you want gradients recorded."""
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pass
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def make_float(v, arg_name):
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if not isinstance(v, compat.real_types):
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raise TypeError("Expected float for argument '%s' not %s." %
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(arg_name, repr(v)))
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return float(v)
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def make_int(v, arg_name):
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if isinstance(v, six.string_types):
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raise TypeError("Expected int for argument '%s' not %s." %
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(arg_name, repr(v)))
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try:
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return int(v)
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except (ValueError, TypeError):
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raise TypeError("Expected int for argument '%s' not %s." %
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(arg_name, repr(v)))
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def make_str(v, arg_name):
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if not isinstance(v, compat.bytes_or_text_types):
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raise TypeError("Expected string for argument '%s' not %s." %
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(arg_name, repr(v)))
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return compat.as_bytes(v) # Convert unicode strings to bytes.
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def make_bool(v, arg_name):
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if not isinstance(v, bool):
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raise TypeError("Expected bool for argument '%s' not %s." %
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(arg_name, repr(v)))
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return v
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def make_type(v, arg_name):
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try:
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v = dtypes.as_dtype(v).base_dtype
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except TypeError:
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raise TypeError("Expected DataType for argument '%s' not %s." %
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(arg_name, repr(v)))
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i = v.as_datatype_enum
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return i
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def make_shape(v, arg_name):
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"""Convert v into a list."""
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# Args:
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# v: A TensorShapeProto, a list of ints, or a tensor_shape.TensorShape.
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# arg_name: String, for error messages.
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# Returns:
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# None if the rank is unknown, otherwise a list of ints (or Nones in the
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# position where the dimension is unknown).
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try:
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shape = tensor_shape.as_shape(v)
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except TypeError as e:
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raise TypeError("Error converting %s to a TensorShape: %s." % (arg_name, e))
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except ValueError as e:
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raise ValueError("Error converting %s to a TensorShape: %s." % (arg_name,
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e))
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if shape.ndims is None:
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return None
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else:
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return shape.as_list()
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def make_tensor(v, arg_name):
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"""Ensure v is a TensorProto."""
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if isinstance(v, tensor_pb2.TensorProto):
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return v
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elif isinstance(v, six.string_types):
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pb = tensor_pb2.TensorProto()
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text_format.Merge(v, pb)
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return pb
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raise TypeError(
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"Don't know how to convert %s to a TensorProto for argument '%s'." %
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(repr(v), arg_name))
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def args_to_matching_eager(l, ctx, default_dtype=None):
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"""Convert sequence `l` to eager same-type Tensors."""
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EagerTensor = ops.EagerTensor # pylint: disable=invalid-name
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for x in l:
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if not isinstance(x, EagerTensor):
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break
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else: # note: intentional for-else
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return l[0]._datatype_enum(), l # pylint: disable=protected-access
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# TODO(josh11b): Could we do a better job if we also passed in the
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# allowed dtypes when that was known?
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# Is some input already a Tensor with a dtype?
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dtype = None
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for t in l:
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if isinstance(t, EagerTensor):
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dtype = t.dtype
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break
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internal_convert_to_tensor = ops.internal_convert_to_tensor
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if dtype is None:
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# Infer a dtype based on the first value, and use that dtype for the
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# remaining values.
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ret = []
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for t in l:
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ret.append(internal_convert_to_tensor(
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t, dtype, preferred_dtype=default_dtype, ctx=ctx))
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if dtype is None:
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dtype = ret[-1].dtype
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else:
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ret = [internal_convert_to_tensor(t, dtype, ctx=ctx) for t in l]
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return dtype.as_datatype_enum, ret
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def convert_to_mixed_eager_tensors(values, ctx):
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v = [
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t if isinstance(t, ops.EagerTensor) else ops.EagerTensor(
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t, context=ctx._handle, device=ctx.device_name) # pylint: disable=protected-access
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for t in values
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]
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types = [t._datatype_enum() for t in v] # pylint: disable=protected-access
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return types, v
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def args_to_mixed_eager_tensors(lists, ctx):
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"""Converts a list of same-length lists of values to eager tensors."""
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assert len(lists) > 1
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# Generate an error if len(lists[i]) is not the same for all i.
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lists_ret = []
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for l in lists[1:]:
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if len(l) != len(lists[0]):
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raise ValueError(
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"Expected list arguments to be the same length: %d != %d (%r vs. %r)."
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% (len(lists[0]), len(l), lists[0], l))
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lists_ret.append([])
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# Convert the first element of each list first, then the second element, etc.
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types = []
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for i in range(len(lists[0])):
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dtype = None
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# If any list has a Tensor, use that dtype
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for l in lists:
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if isinstance(l[i], ops.EagerTensor):
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dtype = l[i].dtype
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break
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if dtype is None:
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# Convert the first one and use its dtype.
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lists_ret[0].append(ops.internal_convert_to_tensor(lists[0][i], ctx=ctx))
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dtype = lists_ret[0][i].dtype
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for j in range(1, len(lists)):
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lists_ret[j].append(
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ops.internal_convert_to_tensor(lists[j][i], dtype=dtype, ctx=ctx))
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else:
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# Convert everything to the found dtype.
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for j in range(len(lists)):
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lists_ret[j].append(
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ops.internal_convert_to_tensor(lists[j][i], dtype=dtype, ctx=ctx))
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types.append(dtype.as_datatype_enum)
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return types, lists_ret
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