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datagen.py
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datagen.py
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import os
from os.path import dirname, join, basename, isfile, isdir, splitext
import numpy as np
import random
from glob import glob
import torch
from torch.utils.data import DataLoader, Dataset
import cv2
from hparams import hparams
def to_categorical(y, num_classes=None, dtype='float32'):
"""Converts a class vector (integers) to binary class matrix.
E.g. for use with categorical_crossentropy.
# Arguments
y: class vector to be converted into a matrix
(integers from 0 to num_classes).
num_classes: total number of classes.
dtype: The data type expected by the input, as a string
(`float32`, `float64`, `int32`...)
# Returns
A binary matrix representation of the input. The classes axis
is placed last.
# Example
```python
# Consider an array of 5 labels out of a set of 3 classes {0, 1, 2}:
> labels
array([0, 2, 1, 2, 0])
# `to_categorical` converts this into a matrix with as many
# columns as there are classes. The number of rows
# stays the same.
> to_categorical(labels)
array([[ 1., 0., 0.],
[ 0., 0., 1.],
[ 0., 1., 0.],
[ 0., 0., 1.],
[ 1., 0., 0.]], dtype=float32)
```
"""
y = np.array(y, dtype='int')
input_shape = y.shape
if input_shape and input_shape[-1] == 1 and len(input_shape) > 1:
input_shape = tuple(input_shape[:-1])
y = y.ravel()
if not num_classes:
num_classes = np.max(y)
n = y.shape[0]
categorical = np.zeros((n, num_classes), dtype=dtype)
categorical[np.arange(n), y] = 1
output_shape = input_shape + (num_classes,)
categorical = np.reshape(categorical, output_shape)
return categorical
emotion_dict = {'ANG':0, 'DIS':1, 'FEA':2, 'HAP':3, 'NEU':4, 'SAD':5}
intensity_dict = {'XX':0, 'LO':1, 'MD':2, 'HI':3}
emonet_T = 5
class Dataset(object):
def __init__(self, args, val=False):
self.args = args
self.filelist = []
if not val:
self.path = self.args.in_path
else:
self.path = self.args.val_path
self.all_videos = [f for f in os.listdir(self.path) if isdir(join(self.path, f))]
for filename in self.all_videos:
#print(splitext(filename))
labels = splitext(filename)[0].split('_')
emotion = emotion_dict[labels[2]]
emotion_intensity = intensity_dict[labels[3]]
if val:
if emotion_intensity != 3:
continue
self.filelist.append((filename, emotion, emotion_intensity))
self.filelist = np.array(self.filelist)
print('Num files: ', len(self.filelist))
def get_frame_id(self, frame):
return int(basename(frame).split('.')[0])
def get_window(self, start_frame):
start_id = self.get_frame_id(start_frame)
vidname = dirname(start_frame)
window_fnames = []
for frame_id in range(start_id, start_id + emonet_T):
frame = join(vidname, '{}.jpg'.format(frame_id))
if not isfile(frame):
return None
window_fnames.append(frame)
return window_fnames
def read_window(self, window_fnames):
if window_fnames is None: return None
window = []
for fname in window_fnames:
img = cv2.imread(fname)
if img is None:
return None
try:
img = cv2.resize(img, (hparams.img_size, hparams.img_size))
except Exception as e:
return None
window.append(img)
return window
def prepare_window(self, window):
# 3 x T x H x W
x = np.asarray(window) / 255.
x = np.transpose(x, (3, 0, 1, 2))
return x
def __len__(self):
return len(self.filelist)
def __getitem__(self, idx):
while 1:
idx = random.randint(0, len(self.filelist) - 1)
filename = self.filelist[idx]
vidname = filename[0]
emotion = int(filename[1])
emotion = to_categorical(emotion, num_classes=6)
emotion_intensity = int(filename[2]) # We don't use this info
img_names = list(glob(join(self.path, vidname, '*.jpg')))
if len(img_names) <= 3 * emonet_T:
continue
img_name = random.choice(img_names)
window_fnames = self.get_window(img_name)
if window_fnames is None:
continue
window = []
all_read = True
for fname in window_fnames:
img = cv2.imread(fname)
if img is None:
all_read = False
break
try:
img = cv2.resize(img, (hparams.img_size, hparams.img_size))
except Exception as e:
all_read = False
break
window.append(img)
if not all_read: continue
# H x W x 3 * T
# x = np.concatenate(window, axis=2) / 255.
x = np.asarray(window) / 255
x = x.transpose(3, 0, 1, 2) # C, T, W, H
x = torch.FloatTensor(x)
# print(x.shape)
return x, emotion