# Copyright (c) 2016 PaddlePaddle 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. import os import math import six.moves.cPickle as pickle import random import collections def save_file(data, filename): """ Save data into pickle format. data: the data to save. filename: the output filename. """ pickle.dump(data, open(filename, 'wb'), protocol=pickle.HIGHEST_PROTOCOL) def save_list(l, outfile): """ Save a list of string into a text file. There is one line for each string. l: the list of string to save outfile: the output file """ open(outfile, "w").write("\n".join(l)) def exclude_pattern(f): """ Return whether f is in the exlucde pattern. Exclude the files that starts with . or ends with ~. """ return f.startswith(".") or f.endswith("~") def list_dirs(path): """ Return a list of directories in path. Exclude all the directories that start with '.'. path: the base directory to search over. """ return [ os.path.join(path, d) for d in next(os.walk(path))[1] if not exclude_pattern(d) ] def list_images(path, exts=set(["jpg", "png", "bmp", "jpeg"])): """ Return a list of images in path. path: the base directory to search over. exts: the extensions of the images to find. """ return [os.path.join(path, d) for d in os.listdir(path) \ if os.path.isfile(os.path.join(path, d)) and not exclude_pattern(d)\ and os.path.splitext(d)[-1][1:] in exts] def list_files(path): """ Return a list of files in path. path: the base directory to search over. exts: the extensions of the images to find. """ return [os.path.join(path, d) for d in os.listdir(path) \ if os.path.isfile(os.path.join(path, d)) and not exclude_pattern(d)] def get_label_set_from_dir(path): """ Return a dictionary of the labels and label ids from a path. Assume each direcotry in the path corresponds to a unique label. The keys of the dictionary is the label name. The values of the dictionary is the label id. """ dirs = list_dirs(path) return dict([(os.path.basename(d), i) for i, d in enumerate(sorted(dirs))]) class Label: """ A class of label data. """ def __init__(self, label, name): """ label: the id of the label. name: the name of the label. """ self.label = label self.name = name def convert_to_paddle_format(self): """ convert the image into the paddle batch format. """ return int(self.label) def __hash__(self): return hash((self.label)) class Dataset: """ A class to represent a dataset. A dataset contains a set of items. Each item contains multiple slots of data. For example: in image classification dataset, each item contains two slot, The first slot is an image, and the second slot is a label. """ def __init__(self, data, keys): """ data: a list of data. Each data is a tuple containing multiple slots of data. Each slot is an object with convert_to_paddle_format function. keys: contains a list of keys for all the slots. """ self.data = data self.keys = keys def check_valid(self): for d in self.data: assert (len(d) == len(self.keys)) def permute(self, key_id, num_per_batch): """ Permuate data for batching. It supports two types now: 1. if key_id == None, the batching process is completely random. 2. if key_id is not None. The batching process Permuate the data so that the key specified by key_id are uniformly distributed in batches. See the comments of permute_by_key for details. """ if key_id is None: self.uniform_permute() else: self.permute_by_key(key_id, num_per_batch) def uniform_permute(self): """ Permuate the data randomly. """ random.shuffle(self.data) def permute_by_key(self, key_id, num_per_batch): """ Permuate the data so that the key specified by key_id are uniformly distributed in batches. For example: if we have three labels, and the number of data for each label are 100, 200, and 300, respectively. The number of batches is 4. Then, the number of data for these labels is 25, 50, and 75. """ # Store the indices of the data that has the key value # specified by key_id. keyvalue_indices = collections.defaultdict(list) for idx in range(len(self.data)): keyvalue_indices[self.data[idx][key_id].label].append(idx) for k in keyvalue_indices: random.shuffle(keyvalue_indices[k]) num_data_per_key_batch = \ math.ceil(num_per_batch / float(len(list(keyvalue_indices.keys())))) if num_data_per_key_batch < 2: raise Exception("The number of data in a batch is too small") permuted_data = [] keyvalue_readpointer = collections.defaultdict(int) while len(permuted_data) < len(self.data): for k in keyvalue_indices: begin_idx = keyvalue_readpointer[k] end_idx = int( min(begin_idx + num_data_per_key_batch, len(keyvalue_indices[k]))) print("begin_idx, end_idx") print(begin_idx, end_idx) for idx in range(begin_idx, end_idx): permuted_data.append(self.data[keyvalue_indices[k][idx]]) keyvalue_readpointer[k] = end_idx self.data = permuted_data class DataBatcher: """ A class that is used to create batches for both training and testing datasets. """ def __init__(self, train_data, test_data, label_set): """ train_data, test_data: Each one is a dataset object repesenting training and testing data, respectively. label_set: a dictionary storing the mapping from label name to label id. """ self.train_data = train_data self.test_data = test_data self.label_set = label_set self.num_per_batch = 5000 assert (self.train_data.keys == self.test_data.keys) def create_batches_and_list(self, output_path, train_list_name, test_list_name, label_set_name): """ Create batches for both training and testing objects. It also create train.list and test.list to indicate the list of the batch files for training and testing data, respectively. """ train_list = self.create_batches(self.train_data, output_path, "train_", self.num_per_batch) test_list = self.create_batches(self.test_data, output_path, "test_", self.num_per_batch) save_list(train_list, os.path.join(output_path, train_list_name)) save_list(test_list, os.path.join(output_path, test_list_name)) save_file(self.label_set, os.path.join(output_path, label_set_name)) def create_batches(self, data, output_path, prefix="", num_data_per_batch=5000): """ Create batches for a Dataset object. data: the Dataset object to process. output_path: the output path of the batches. prefix: the prefix of each batch. num_data_per_batch: number of data in each batch. """ num_batches = int(math.ceil(len(data.data) / float(num_data_per_batch))) batch_names = [] data.check_valid() num_slots = len(data.keys) for i in range(num_batches): batch_name = os.path.join(output_path, prefix + "batch_%03d" % i) out_data = dict([(k, []) for k in data.keys]) begin_idx = i * num_data_per_batch end_idx = min((i + 1) * num_data_per_batch, len(data.data)) for j in range(begin_idx, end_idx): for slot_id in range(num_slots): out_data[data.keys[slot_id]].\ append(data.data[j][slot_id].convert_to_paddle_format()) save_file(out_data, batch_name) batch_names.append(batch_name) return batch_names class DatasetCreater(object): """ A virtual class for creating datasets. The derived clasas needs to implemnt the following methods: - create_dataset() - create_meta_file() """ def __init__(self, data_path): """ data_path: the path to store the training data and batches. train_dir_name: relative training data directory. test_dir_name: relative testing data directory. batch_dir_name: relative batch directory. num_per_batch: the number of data in a batch. meta_filename: the filename of the meta file. train_list_name: training batch list name. test_list_name: testing batch list name. label_set: label set name. overwrite: whether to overwrite the files if the batches are already in the given path. """ self.data_path = data_path self.train_dir_name = 'train' self.test_dir_name = 'test' self.batch_dir_name = 'batches' self.num_per_batch = 50000 self.meta_filename = "batches.meta" self.train_list_name = "train.list" self.test_list_name = "test.list" self.label_set_name = "labels.pkl" self.output_path = os.path.join(self.data_path, self.batch_dir_name) self.overwrite = False self.permutate_key = "labels" self.from_list = False def create_meta_file(self, data): """ Create a meta file from training data. data: training data given in a Dataset format. """ raise NotImplementedError def create_dataset(self, path): """ Create a data set object from a path. It will use directory structure or a file list to determine dataset if self.from_list is True. Otherwise, it will uses a file list to determine the datset. path: the path of the dataset. return a tuple of Dataset object, and a mapping from lable set to label id. """ if self.from_list: return self.create_dataset_from_list(path) else: return self.create_dataset_from_dir(path) def create_dataset_from_list(self, path): """ Create a data set object from a path. It will uses a file list to determine the datset. path: the path of the dataset. return a tuple of Dataset object, and a mapping from lable set to label id """ raise NotImplementedError def create_dataset_from_dir(self, path): """ Create a data set object from a path. It will use directory structure or a file list to determine dataset if self.from_list is True. path: the path of the dataset. return a tuple of Dataset object, and a mapping from lable set to label id """ raise NotImplementedError def create_batches(self): """ create batches and meta file. """ train_path = os.path.join(self.data_path, self.train_dir_name) test_path = os.path.join(self.data_path, self.test_dir_name) out_path = os.path.join(self.data_path, self.batch_dir_name) if not os.path.exists(out_path): os.makedirs(out_path) if (self.overwrite or not os.path.exists( os.path.join(out_path, self.train_list_name))): train_data, train_label_set = \ self.create_dataset(train_path) test_data, test_label_set = \ self.create_dataset(test_path) train_data.permute( self.keys.index(self.permutate_key), self.num_per_batch) assert (train_label_set == test_label_set) data_batcher = DataBatcher(train_data, test_data, train_label_set) data_batcher.num_per_batch = self.num_per_batch data_batcher.create_batches_and_list( self.output_path, self.train_list_name, self.test_list_name, self.label_set_name) self.num_classes = len(list(train_label_set.keys())) self.create_meta_file(train_data) return out_path