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from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
__author__ = 'tylin'
__version__ = '1.0.1'
# Interface for accessing the Microsoft COCO dataset.
# Microsoft COCO is a large image dataset designed for object detection,
# segmentation, and caption generation. pycocotools is a Python API that
# assists in loading, parsing and visualizing the annotations in COCO.
# Please visit http://mscoco.org/ for more information on COCO, including
# for the data, paper, and tutorials. The exact format of the annotations
# is also described on the COCO website. For example usage of the pycocotools
# please see pycocotools_demo.ipynb. In addition to this API, please download both
# the COCO images and annotations in order to run the demo.
# An alternative to using the API is to load the annotations directly
# into Python dictionary
# Using the API provides additional utility functions. Note that this API
# supports both *instance* and *caption* annotations. In the case of
# captions not all functions are defined (e.g. categories are undefined).
# The following API functions are defined:
# COCO - COCO api class that loads COCO annotation file and prepare data structures.
# decodeMask - Decode binary mask M encoded via run-length encoding.
# encodeMask - Encode binary mask M using run-length encoding.
# getAnnIds - Get ann ids that satisfy given filter conditions.
# getCatIds - Get cat ids that satisfy given filter conditions.
# getImgIds - Get img ids that satisfy given filter conditions.
# loadAnns - Load anns with the specified ids.
# loadCats - Load cats with the specified ids.
# loadImgs - Load imgs with the specified ids.
# segToMask - Convert polygon segmentation to binary mask.
# showAnns - Display the specified annotations.
# loadRes - Load result file and create result api object.
# Throughout the API "ann"=annotation, "cat"=category, and "img"=image.
# Help on each functions can be accessed by: "help COCO>function".
# See also COCO>decodeMask,
# COCO>encodeMask, COCO>getAnnIds, COCO>getCatIds,
# COCO>getImgIds, COCO>loadAnns, COCO>loadCats,
# COCO>loadImgs, COCO>segToMask, COCO>showAnns
# Microsoft COCO Toolbox. Version 1.0
# Data, paper, and tutorials available at: http://mscoco.org/
# Code written by Piotr Dollar and Tsung-Yi Lin, 2014.
# Licensed under the Simplified BSD License [see bsd.txt]
import json
import datetime
import matplotlib.pyplot as plt
from matplotlib.collections import PatchCollection
from matplotlib.patches import Polygon
import numpy as np
from skimage.draw import polygon
import copy
class COCO:
def __init__(self, annotation_file=None):
"""
Constructor of Microsoft COCO helper class for reading and visualizing annotations.
:param annotation_file (str): location of annotation file
:param image_folder (str): location to the folder that hosts images.
:return:
"""
# load dataset
self.dataset = {}
self.anns = []
self.imgToAnns = {}
self.catToImgs = {}
self.imgs = []
self.cats = []
if not annotation_file == None:
print('loading annotations into memory...')
time_t = datetime.datetime.utcnow()
dataset = json.load(open(annotation_file, 'r'))
print(datetime.datetime.utcnow() - time_t)
self.dataset = dataset
self.createIndex()
def createIndex(self):
# create index
print('creating index...')
imgToAnns = {ann['image_id']: [] for ann in self.dataset['annotations']}
anns = {ann['id']: [] for ann in self.dataset['annotations']}
if 'annotations' in self.dataset:
for ann in self.dataset['annotations']:
imgToAnns[ann['image_id']] += [ann]
anns[ann['id']] = ann
if 'images' in self.dataset:
imgs = {im['id']: {} for im in self.dataset['images']}
for img in self.dataset['images']:
imgs[img['id']] = img
catToImgs = []
cats = []
if 'categories' in self.dataset:
cats = {cat['id']: [] for cat in self.dataset['categories']}
for cat in self.dataset['categories']:
cats[cat['id']] = cat
catToImgs = {cat['id']: [] for cat in self.dataset['categories']}
for ann in self.dataset['annotations']:
catToImgs[ann['category_id']] += [ann['image_id']]
print('index created!')
# create class members
self.anns = anns
self.imgToAnns = imgToAnns
self.catToImgs = catToImgs
self.imgs = imgs
self.cats = cats
def info(self):
"""
Print information about the annotation file.
:return:
"""
for key, value in list(self.datset['info'].items()):
print('%s: %s'%(key, value))
def getAnnIds(self, imgIds=[], catIds=[], areaRng=[], iscrowd=None):
"""
Get ann ids that satisfy given filter conditions. default skips that filter
:param imgIds (int array) : get anns for given imgs
catIds (int array) : get anns for given cats
areaRng (float array) : get anns for given area range (e.g. [0 inf])
iscrowd (boolean) : get anns for given crowd label (False or True)
:return: ids (int array) : integer array of ann ids
"""
imgIds = imgIds if type(imgIds) == list else [imgIds]
catIds = catIds if type(catIds) == list else [catIds]
if len(imgIds) == len(catIds) == len(areaRng) == 0:
anns = self.dataset['annotations']
else:
if not len(imgIds) == 0:
anns = sum([self.imgToAnns[imgId] for imgId in imgIds if imgId in self.imgToAnns],[])
else:
anns = self.dataset['annotations']
anns = anns if len(catIds) == 0 else [ann for ann in anns if ann['category_id'] in catIds]
anns = anns if len(areaRng) == 0 else [ann for ann in anns if ann['area'] > areaRng[0] and ann['area'] < areaRng[1]]
if self.dataset['type'] == 'instances':
if not iscrowd == None:
ids = [ann['id'] for ann in anns if ann['iscrowd'] == iscrowd]
else:
ids = [ann['id'] for ann in anns]
else:
ids = [ann['id'] for ann in anns]
return ids
def getCatIds(self, catNms=[], supNms=[], catIds=[]):
"""
filtering parameters. default skips that filter.
:param catNms (str array) : get cats for given cat names
:param supNms (str array) : get cats for given supercategory names
:param catIds (int array) : get cats for given cat ids
:return: ids (int array) : integer array of cat ids
"""
catNms = catNms if type(catNms) == list else [catNms]
supNms = supNms if type(supNms) == list else [supNms]
catIds = catIds if type(catIds) == list else [catIds]
if len(catNms) == len(supNms) == len(catIds) == 0:
cats = self.dataset['categories']
else:
cats = self.dataset['categories']
cats = cats if len(catNms) == 0 else [cat for cat in cats if cat['name'] in catNms]
cats = cats if len(supNms) == 0 else [cat for cat in cats if cat['supercategory'] in supNms]
cats = cats if len(catIds) == 0 else [cat for cat in cats if cat['id'] in catIds]
ids = [cat['id'] for cat in cats]
return ids
def getImgIds(self, imgIds=[], catIds=[]):
'''
Get img ids that satisfy given filter conditions.
:param imgIds (int array) : get imgs for given ids
:param catIds (int array) : get imgs with all given cats
:return: ids (int array) : integer array of img ids
'''
imgIds = imgIds if type(imgIds) == list else [imgIds]
catIds = catIds if type(catIds) == list else [catIds]
if len(imgIds) == len(catIds) == 0:
ids = list(self.imgs.keys())
else:
ids = set(imgIds)
for catId in catIds:
if len(ids) == 0:
ids = set(self.catToImgs[catId])
else:
ids &= set(self.catToImgs[catId])
return list(ids)
def loadAnns(self, ids=[]):
"""
Load anns with the specified ids.
:param ids (int array) : integer ids specifying anns
:return: anns (object array) : loaded ann objects
"""
if type(ids) == list:
return [self.anns[id] for id in ids]
elif type(ids) == int:
return [self.anns[ids]]
def loadCats(self, ids=[]):
"""
Load cats with the specified ids.
:param ids (int array) : integer ids specifying cats
:return: cats (object array) : loaded cat objects
"""
if type(ids) == list:
return [self.cats[id] for id in ids]
elif type(ids) == int:
return [self.cats[ids]]
def loadImgs(self, ids=[]):
"""
Load anns with the specified ids.
:param ids (int array) : integer ids specifying img
:return: imgs (object array) : loaded img objects
"""
if type(ids) == list:
return [self.imgs[id] for id in ids]
elif type(ids) == int:
return [self.imgs[ids]]
def showAnns(self, anns):
"""
Display the specified annotations.
:param anns (array of object): annotations to display
:return: None
"""
if len(anns) == 0:
return 0
if self.dataset['type'] == 'instances':
ax = plt.gca()
polygons = []
color = []
for ann in anns:
c = np.random.random((1, 3)).tolist()[0]
if type(ann['segmentation']) == list:
# polygon
for seg in ann['segmentation']:
poly = np.array(seg).reshape((len(seg)/2, 2))
polygons.append(Polygon(poly, True,alpha=0.4))
color.append(c)
else:
# mask
mask = COCO.decodeMask(ann['segmentation'])
img = np.ones( (mask.shape[0], mask.shape[1], 3) )
if ann['iscrowd'] == 1:
color_mask = np.array([2.0,166.0,101.0])/255
if ann['iscrowd'] == 0:
color_mask = np.random.random((1, 3)).tolist()[0]
for i in range(3):
img[:,:,i] = color_mask[i]
ax.imshow(np.dstack( (img, mask*0.5) ))
p = PatchCollection(polygons, facecolors=color, edgecolors=(0,0,0,1), linewidths=3, alpha=0.4)
ax.add_collection(p)
if self.dataset['type'] == 'captions':
for ann in anns:
print(ann['caption'])
def loadRes(self, resFile):
"""
Load result file and return a result api object.
:param resFile (str) : file name of result file
:return: res (obj) : result api object
"""
res = COCO()
res.dataset['images'] = [img for img in self.dataset['images']]
print('Loading and preparing results... ')
time_t = datetime.datetime.utcnow()
anns = json.load(open(resFile))
assert type(anns) == list, 'results in not an array of objects'
annsImgIds = [ann['image_id'] for ann in anns]
assert set(annsImgIds) == (set(annsImgIds) & set(self.getImgIds())), \
'Results do not correspond to current coco set'
if 'caption' in anns[0]:
imgIds = set([img['id'] for img in res.dataset['images']]) & set([ann['image_id'] for ann in anns])
res.dataset['images'] = [img for img in res.dataset['images'] if img['id'] in imgIds]
for id, ann in enumerate(anns):
ann['id'] = id
elif 'bbox' in anns[0] and not anns[0]['bbox'] == []:
res.dataset['categories'] = copy.deepcopy(self.dataset['categories'])
for id, ann in enumerate(anns):
bb = ann['bbox']
x1, x2, y1, y2 = [bb[0], bb[0]+bb[2], bb[1], bb[1]+bb[3]]
ann['segmentation'] = [[x1, y1, x1, y2, x2, y2, x2, y1]]
ann['area'] = bb[2]*bb[3]
ann['id'] = id
ann['iscrowd'] = 0
elif 'segmentation' in anns[0]:
res.dataset['categories'] = copy.deepcopy(self.dataset['categories'])
for id, ann in enumerate(anns):
ann['area']=sum(ann['segmentation']['counts'][2:-1:2])
ann['bbox'] = []
ann['id'] = id
ann['iscrowd'] = 0
print('DONE (t=%0.2fs)'%((datetime.datetime.utcnow() - time_t).total_seconds()))
res.dataset['annotations'] = anns
res.createIndex()
return res
@staticmethod
def decodeMask(R):
"""
Decode binary mask M encoded via run-length encoding.
:param R (object RLE) : run-length encoding of binary mask
:return: M (bool 2D array) : decoded binary mask
"""
N = len(R['counts'])
M = np.zeros( (R['size'][0]*R['size'][1], ))
n = 0
val = 1
for pos in range(N):
val = not val
for c in range(R['counts'][pos]):
R['counts'][pos]
M[n] = val
n += 1
return M.reshape((R['size']), order='F')
@staticmethod
def encodeMask(M):
"""
Encode binary mask M using run-length encoding.
:param M (bool 2D array) : binary mask to encode
:return: R (object RLE) : run-length encoding of binary mask
"""
[h, w] = M.shape
M = M.flatten(order='F')
N = len(M)
counts_list = []
pos = 0
# counts
counts_list.append(1)
diffs = np.logical_xor(M[0:N-1], M[1:N])
for diff in diffs:
if diff:
pos +=1
counts_list.append(1)
else:
counts_list[pos] += 1
# if array starts from 1. start with 0 counts for 0
if M[0] == 1:
counts_list = [0] + counts_list
return {'size': [h, w],
'counts': counts_list ,
}
@staticmethod
def segToMask( S, h, w ):
"""
Convert polygon segmentation to binary mask.
:param S (float array) : polygon segmentation mask
:param h (int) : target mask height
:param w (int) : target mask width
:return: M (bool 2D array) : binary mask
"""
M = np.zeros((h,w), dtype=np.bool)
for s in S:
N = len(s)
rr, cc = polygon(np.array(s[1:N:2]), np.array(s[0:N:2])) # (y, x)
M[rr, cc] = 1
return M |