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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.
import torch
import pycocotools.mask as mask_utils
# transpose
FLIP_LEFT_RIGHT = 0
FLIP_TOP_BOTTOM = 1
class Mask(object):
"""
This class is unfinished and not meant for use yet
It is supposed to contain the mask for an object as
a 2d tensor
"""
def __init__(self, masks, size, mode):
self.masks = masks
self.size = size
self.mode = mode
def transpose(self, method):
if method not in (FLIP_LEFT_RIGHT, FLIP_TOP_BOTTOM):
raise NotImplementedError("Only FLIP_LEFT_RIGHT and FLIP_TOP_BOTTOM implemented")
width, height = self.size
if method == FLIP_LEFT_RIGHT:
dim = width
idx = 2
elif method == FLIP_TOP_BOTTOM:
dim = height
idx = 1
flip_idx = list(range(dim)[::-1])
flipped_masks = self.masks.index_select(dim, flip_idx)
return Mask(flipped_masks, self.size, self.mode)
def crop(self, box):
w, h = box[2] - box[0], box[3] - box[1]
cropped_masks = self.masks[:, box[1] : box[3], box[0] : box[2]]
return Mask(cropped_masks, size=(w, h), mode=self.mode)
def resize(self, size, *args, **kwargs):
pass
class Polygons(object):
"""
This class holds a set of polygons that represents a single instance
of an object mask. The object can be represented as a set of
polygons
"""
def __init__(self, polygons, size, mode):
# assert isinstance(polygons, list), '{}'.format(polygons)
if isinstance(polygons, list):
polygons = [torch.as_tensor(p, dtype=torch.float32) for p in polygons]
elif isinstance(polygons, Polygons):
polygons = polygons.polygons
self.polygons = polygons
self.size = size
self.mode = mode
def transpose(self, method):
if method not in (FLIP_LEFT_RIGHT, FLIP_TOP_BOTTOM):
raise NotImplementedError("Only FLIP_LEFT_RIGHT and FLIP_TOP_BOTTOM implemented")
flipped_polygons = []
width, height = self.size
if method == FLIP_LEFT_RIGHT:
dim = width
idx = 0
elif method == FLIP_TOP_BOTTOM:
dim = height
idx = 1
for poly in self.polygons:
p = poly.clone()
TO_REMOVE = 1
p[idx::2] = dim - poly[idx::2] - TO_REMOVE
flipped_polygons.append(p)
return Polygons(flipped_polygons, size=self.size, mode=self.mode)
def crop(self, box):
w, h = box[2] - box[0], box[3] - box[1]
# TODO chck if necessary
w = max(w, 1)
h = max(h, 1)
cropped_polygons = []
for poly in self.polygons:
p = poly.clone()
p[0::2] = p[0::2] - box[0] # .clamp(min=0, max=w)
p[1::2] = p[1::2] - box[1] # .clamp(min=0, max=h)
cropped_polygons.append(p)
return Polygons(cropped_polygons, size=(w, h), mode=self.mode)
def resize(self, size, *args, **kwargs):
ratios = tuple(float(s) / float(s_orig) for s, s_orig in zip(size, self.size))
if ratios[0] == ratios[1]:
ratio = ratios[0]
scaled_polys = [p * ratio for p in self.polygons]
return Polygons(scaled_polys, size, mode=self.mode)
ratio_w, ratio_h = ratios
scaled_polygons = []
for poly in self.polygons:
p = poly.clone()
p[0::2] *= ratio_w
p[1::2] *= ratio_h
scaled_polygons.append(p)
return Polygons(scaled_polygons, size=size, mode=self.mode)
def convert(self, mode):
width, height = self.size
if mode == "mask":
rles = mask_utils.frPyObjects([p.detach().numpy() for p in self.polygons], height, width)
rle = mask_utils.merge(rles)
mask = mask_utils.decode(rle)
mask = torch.from_numpy(mask)
# TODO add squeeze?
return mask
def __repr__(self):
s = self.__class__.__name__ + "("
s += "num_polygons={}, ".format(len(self.polygons))
s += "image_width={}, ".format(self.size[0])
s += "image_height={}, ".format(self.size[1])
s += "mode={})".format(self.mode)
return s
class SegmentationMask(object):
"""
This class stores the segmentations for all objects in the image
"""
def __init__(self, polygons, size, mode=None):
"""
Arguments:
polygons: a list of list of lists of numbers. The first
level of the list correspond to individual instances,
the second level to all the polygons that compose the
object, and the third level to the polygon coordinates.
"""
assert isinstance(polygons, list)
self.polygons = [Polygons(p, size, mode) for p in polygons]
self.size = size
self.mode = mode
def transpose(self, method):
if method not in (FLIP_LEFT_RIGHT, FLIP_TOP_BOTTOM):
raise NotImplementedError("Only FLIP_LEFT_RIGHT and FLIP_TOP_BOTTOM implemented")
flipped = []
for polygon in self.polygons:
flipped.append(polygon.transpose(method))
return SegmentationMask(flipped, size=self.size, mode=self.mode)
def crop(self, box):
w, h = box[2] - box[0], box[3] - box[1]
cropped = []
for polygon in self.polygons:
cropped.append(polygon.crop(box))
return SegmentationMask(cropped, size=(w, h), mode=self.mode)
def resize(self, size, *args, **kwargs):
scaled = []
for polygon in self.polygons:
scaled.append(polygon.resize(size, *args, **kwargs))
return SegmentationMask(scaled, size=size, mode=self.mode)
def to(self, *args, **kwargs):
return self
def __getitem__(self, item):
if isinstance(item, (int, slice)):
selected_polygons = [self.polygons[item]]
else:
# advanced indexing on a single dimension
selected_polygons = []
if isinstance(item, torch.Tensor) and item.dtype == torch.bool:
item = item.nonzero()
item = item.squeeze(1) if item.numel() > 0 else item
item = item.tolist()
for i in item:
selected_polygons.append(self.polygons[i])
return SegmentationMask(selected_polygons, size=self.size, mode=self.mode)
def __iter__(self):
return iter(self.polygons)
def __repr__(self):
s = self.__class__.__name__ + "("
s += "num_instances={}, ".format(len(self.polygons))
s += "image_width={}, ".format(self.size[0])
s += "image_height={})".format(self.size[1])
return s
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