# Copyright 2017 The TensorFlow Authors. All Rights Reserved. # # 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. # ============================================================================== """tf.data.Dataset builder. Creates data sources for DetectionModels from an InputReader config. See input_reader.proto for options. Note: If users wishes to also use their own InputReaders with the Object Detection configuration framework, they should define their own builder function that wraps the build function. """ import functools import tensorflow as tf from object_detection.data_decoders import tf_example_decoder from object_detection.protos import input_reader_pb2 def make_initializable_iterator(dataset): """Creates an iterator, and initializes tables. This is useful in cases where make_one_shot_iterator wouldn't work because the graph contains a hash table that needs to be initialized. Args: dataset: A `tf.data.Dataset` object. Returns: A `tf.data.Iterator`. """ iterator = dataset.make_initializable_iterator() tf.add_to_collection(tf.GraphKeys.TABLE_INITIALIZERS, iterator.initializer) return iterator def read_dataset(file_read_func, input_files, config): """Reads a dataset, and handles repetition and shuffling. Args: file_read_func: Function to use in tf.contrib.data.parallel_interleave, to read every individual file into a tf.data.Dataset. input_files: A list of file paths to read. config: A input_reader_builder.InputReader object. Returns: A tf.data.Dataset of (undecoded) tf-records based on config. """ # Shard, shuffle, and read files. filenames = tf.gfile.Glob(input_files) num_readers = config.num_readers if num_readers > len(filenames): num_readers = len(filenames) tf.logging.warning('num_readers has been reduced to %d to match input file ' 'shards.' % num_readers) filename_dataset = tf.data.Dataset.from_tensor_slices(filenames) if config.shuffle: filename_dataset = filename_dataset.shuffle( config.filenames_shuffle_buffer_size) elif num_readers > 1: tf.logging.warning('`shuffle` is false, but the input data stream is ' 'still slightly shuffled since `num_readers` > 1.') filename_dataset = filename_dataset.repeat(config.num_epochs or None) records_dataset = filename_dataset.apply( tf.contrib.data.parallel_interleave( file_read_func, cycle_length=num_readers, block_length=config.read_block_length, sloppy=config.shuffle)) if config.shuffle: records_dataset = records_dataset.shuffle(config.shuffle_buffer_size) return records_dataset def build(input_reader_config, batch_size=None, transform_input_data_fn=None): """Builds a tf.data.Dataset. Builds a tf.data.Dataset by applying the `transform_input_data_fn` on all records. Applies a padded batch to the resulting dataset. Args: input_reader_config: A input_reader_pb2.InputReader object. batch_size: Batch size. If batch size is None, no batching is performed. transform_input_data_fn: Function to apply transformation to all records, or None if no extra decoding is required. Returns: A tf.data.Dataset based on the input_reader_config. Raises: ValueError: On invalid input reader proto. ValueError: If no input paths are specified. """ if not isinstance(input_reader_config, input_reader_pb2.InputReader): raise ValueError('input_reader_config not of type ' 'input_reader_pb2.InputReader.') if input_reader_config.WhichOneof('input_reader') == 'tf_record_input_reader': config = input_reader_config.tf_record_input_reader if not config.input_path: raise ValueError('At least one input path must be specified in ' '`input_reader_config`.') label_map_proto_file = None if input_reader_config.HasField('label_map_path'): label_map_proto_file = input_reader_config.label_map_path decoder = tf_example_decoder.TfExampleDecoder( load_instance_masks=input_reader_config.load_instance_masks, load_multiclass_scores=input_reader_config.load_multiclass_scores, instance_mask_type=input_reader_config.mask_type, label_map_proto_file=label_map_proto_file, use_display_name=input_reader_config.use_display_name, num_additional_channels=input_reader_config.num_additional_channels) def process_fn(value): """Sets up tf graph that decodes, transforms and pads input data.""" processed_tensors = decoder.decode(value) if transform_input_data_fn is not None: processed_tensors = transform_input_data_fn(processed_tensors) return processed_tensors dataset = read_dataset( functools.partial(tf.data.TFRecordDataset, buffer_size=8 * 1000 * 1000), config.input_path[:], input_reader_config) if input_reader_config.sample_1_of_n_examples > 1: dataset = dataset.shard(input_reader_config.sample_1_of_n_examples, 0) # TODO(rathodv): make batch size a required argument once the old binaries # are deleted. if batch_size: num_parallel_calls = batch_size * input_reader_config.num_parallel_batches else: num_parallel_calls = input_reader_config.num_parallel_map_calls # TODO(b/123952794): Migrate to V2 function. if hasattr(dataset, 'map_with_legacy_function'): data_map_fn = dataset.map_with_legacy_function else: data_map_fn = dataset.map dataset = data_map_fn(process_fn, num_parallel_calls=num_parallel_calls) if batch_size: dataset = dataset.apply( tf.contrib.data.batch_and_drop_remainder(batch_size)) dataset = dataset.prefetch(input_reader_config.num_prefetch_batches) return dataset raise ValueError('Unsupported input_reader_config.')