flowers.py

# 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.
"""
This module will download dataset from
http://www.robots.ox.ac.uk/~vgg/data/flowers/102/index.html
and parse train/test set intopaddle reader creators.

This set contains images of flowers belonging to 102 different categories.
The images were acquired by searching the web and taking pictures. There are a
minimum of 40 images for each category.

The database was used in:

Nilsback, M-E. and Zisserman, A. Automated flower classification over a large
 number of classes.Proceedings of the Indian Conference on Computer Vision,
Graphics and Image Processing (2008)
http://www.robots.ox.ac.uk/~vgg/publications/papers/nilsback08.{pdf,ps.gz}.

"""
import cPickle
import itertools
import functools
from common import download
import tarfile
import scipy.io as scio
from paddle.v2.image import *
from paddle.v2.reader import *
import os
import numpy as np
from multiprocessing import cpu_count
__all__ = ['train', 'test', 'valid']

DATA_URL = 'http://www.robots.ox.ac.uk/~vgg/data/flowers/102/102flowers.tgz'
LABEL_URL = 'http://www.robots.ox.ac.uk/~vgg/data/flowers/102/imagelabels.mat'
SETID_URL = 'http://www.robots.ox.ac.uk/~vgg/data/flowers/102/setid.mat'
DATA_MD5 = '52808999861908f626f3c1f4e79d11fa'
LABEL_MD5 = 'e0620be6f572b9609742df49c70aed4d'
SETID_MD5 = 'a5357ecc9cb78c4bef273ce3793fc85c'
# In official 'readme', tstid is the flag of test data
# and trnid is the flag of train data. But test data is more than train data.
# So we exchange the train data and test data.
TRAIN_FLAG = 'tstid'
TEST_FLAG = 'trnid'
VALID_FLAG = 'valid'


def default_mapper(is_train, sample):
    '''
    map image bytes data to type needed by model input layer
    '''
    img, label = sample
    img = load_image_bytes(img)
    img = simple_transform(img, 256, 224, is_train)
    return img.flatten().astype('float32'), label


train_mapper = functools.partial(default_mapper, True)
test_mapper = functools.partial(default_mapper, False)


def reader_creator(data_file,
                   label_file,
                   setid_file,
                   dataset_name,
                   mapper,
                   buffered_size=1024,
                   use_xmap=True):
    '''
    1. read images from tar file and
        merge images into batch files in 102flowers.tgz_batch/
    2. get a reader to read sample from batch file

    :param data_file: downloaded data file
    :type data_file: string
    :param label_file: downloaded label file
    :type label_file: string
    :param setid_file: downloaded setid file containing information
                        about how to split dataset
    :type setid_file: string
    :param dataset_name: data set name (tstid|trnid|valid)
    :type dataset_name: string
    :param mapper: a function to map image bytes data to type
                    needed by model input layer
    :type mapper: callable
    :param buffered_size: the size of buffer used to process images
    :type buffered_size: int
    :return: data reader
    :rtype: callable
    '''
    labels = scio.loadmat(label_file)['labels'][0]
    indexes = scio.loadmat(setid_file)[dataset_name][0]
    img2label = {}
    for i in indexes:
        img = "jpg/image_%05d.jpg" % i
        img2label[img] = labels[i - 1]
    file_list = batch_images_from_tar(data_file, dataset_name, img2label)

    def reader():
        for file in open(file_list):
            file = file.strip()
            batch = None
            with open(file, 'r') as f:
                batch = cPickle.load(f)
            data = batch['data']
            labels = batch['label']
            for sample, label in itertools.izip(data, batch['label']):
                yield sample, int(label)

    if use_xmap:
        return xmap_readers(mapper, reader, cpu_count(), buffered_size)
    else:
        return map_readers(mapper, reader)


def train(mapper=train_mapper, buffered_size=1024, use_xmap=True):
    '''
    Create flowers training set reader.
    It returns a reader, each sample in the reader is
    image pixels in [0, 1] and label in [1, 102]
    translated from original color image by steps:
    1. resize to 256*256
    2. random crop to 224*224
    3. flatten
    :param mapper:  a function to map sample.
    :type mapper: callable
    :param buffered_size: the size of buffer used to process images
    :type buffered_size: int
    :return: train data reader
    :rtype: callable
    '''
    return reader_creator(
        download(DATA_URL, 'flowers', DATA_MD5),
        download(LABEL_URL, 'flowers', LABEL_MD5),
        download(SETID_URL, 'flowers', SETID_MD5), TRAIN_FLAG, mapper,
        buffered_size, use_xmap)


def test(mapper=test_mapper, buffered_size=1024, use_xmap=True):
    '''
    Create flowers test set reader.
    It returns a reader, each sample in the reader is
    image pixels in [0, 1] and label in [1, 102]
    translated from original color image by steps:
    1. resize to 256*256
    2. random crop to 224*224
    3. flatten
    :param mapper:  a function to map sample.
    :type mapper: callable
    :param buffered_size: the size of buffer used to process images
    :type buffered_size: int
    :return: test data reader
    :rtype: callable
    '''
    return reader_creator(
        download(DATA_URL, 'flowers', DATA_MD5),
        download(LABEL_URL, 'flowers', LABEL_MD5),
        download(SETID_URL, 'flowers', SETID_MD5), TEST_FLAG, mapper,
        buffered_size, use_xmap)


def valid(mapper=test_mapper, buffered_size=1024, use_xmap=True):
    '''
    Create flowers validation set reader.
    It returns a reader, each sample in the reader is
    image pixels in [0, 1] and label in [1, 102]
    translated from original color image by steps:
    1. resize to 256*256
    2. random crop to 224*224
    3. flatten
    :param mapper:  a function to map sample.
    :type mapper: callable
    :param buffered_size: the size of buffer used to process images
    :type buffered_size: int
    :return: test data reader
    :rtype: callable
    '''
    return reader_creator(
        download(DATA_URL, 'flowers', DATA_MD5),
        download(LABEL_URL, 'flowers', LABEL_MD5),
        download(SETID_URL, 'flowers', SETID_MD5), VALID_FLAG, mapper,
        buffered_size, use_xmap)


def fetch():
    download(DATA_URL, 'flowers', DATA_MD5)
    download(LABEL_URL, 'flowers', LABEL_MD5)
    download(SETID_URL, 'flowers', SETID_MD5)