def test_step(self, batchdata, **kwargs):
"""test step.
Args:
batchdata: list for train_batch, numpy.ndarray or variable, length up to Collect class.
Returns:
list: outputs (already gathered from all threads)
"""
epoch = kwargs.get('epoch', 0)
images = batchdata[0] # [B,N,C,H,W]
images = ensemble_forward(images, Type=epoch) # for ensemble
H, W = images.shape[-2], images.shape[-1]
scale = getattr(self.generator, 'upscale_factor', 4)
padding_multi = self.eval_cfg.get('padding_multi', 1)
# padding for H and W
images = img_multi_padding(images,
padding_multi=padding_multi,
pad_value=-0.5) # [B,N,C,H,W]
output = test_generator_batch(images,
get_mid_bicubic(images),
netG=self.generator) # HR [B,C,4H,4W]
output = img_de_multi_padding(output,
origin_H=H * scale,
origin_W=W * scale)
# back ensemble for G
G = ensemble_back(output, Type=epoch)
save_image_flag = kwargs.get('save_image')
if save_image_flag:
save_path = kwargs.get('save_path', None)
start_id = kwargs.get('sample_id', None)
if save_path is None or start_id is None:
raise RuntimeError(
"if save image in test_step, please set 'save_path' and 'sample_id' parameters"
)
for idx in range(G.shape[0]):
if epoch == 0:
imwrite(tensor2img(G[idx], min_max=(-0.5, 0.5)),
file_path=os.path.join(
save_path,
"idx_{}.png".format(start_id + idx)))
else:
imwrite(tensor2img(G[idx], min_max=(-0.5, 0.5)),
file_path=os.path.join(
save_path, "idx_{}_epoch_{}.png".format(
start_id + idx, epoch)))
return [
output,
]
def test_step(self, batchdata, **kwargs):
"""
possible kwargs:
save_image
save_path
ensemble
"""
lq = batchdata['lq'] # [B,3,h,w]
gt = batchdata.get('gt', None) # if not None: [B,3,4*h,4*w]
assert len(batchdata['lq_path']) == 1 # 每个sample所带的lq_path列表长度仅为1, 即自己
lq_paths = batchdata['lq_path'][0] # length 为batch长度
now_start_id, clip = self.get_img_id(lq_paths[0])
now_end_id, _ = self.get_img_id(lq_paths[-1])
assert clip == _
if now_start_id == 0:
print("first frame: {}".format(lq_paths[0]))
self.LR_list = []
self.HR_list = []
# pad lq
B, _, origin_H, origin_W = lq.shape
lq = img_multi_padding(lq,
padding_multi=self.eval_cfg.multi_pad,
pad_method="edge") # edge constant
self.LR_list.append(lq) # [1,3,h,w]
if gt is not None:
for i in range(B):
self.HR_list.append(gt[i:i + 1, ...])
if now_end_id == 99:
print("start to forward all frames....")
if self.eval_cfg.gap == 1:
# do ensemble (8 times)
ensemble_res = []
self.LR_list = np.concatenate(self.LR_list,
axis=0) # [100, 3,h,w]
for item in tqdm(range(8)): # do not have flip
inp = mge.tensor(ensemble_forward(self.LR_list, Type=item),
dtype="float32")
oup = test_generator_batch(F.expand_dims(inp, axis=0),
netG=self.generator)
ensemble_res.append(ensemble_back(oup.numpy(), Type=item))
self.HR_G = sum(ensemble_res) / len(
ensemble_res) # ensemble_res 结果取平均
elif self.eval_cfg.gap == 2:
raise NotImplementedError("not implement gap != 1 now")
# self.HR_G_1 = test_generator_batch(F.stack(self.LR_list[::2], axis=1), netG=self.generator)
# self.HR_G_2 = test_generator_batch(F.stack(self.LR_list[1::2], axis=1), netG=self.generator) # [B,T,C,H,W]
# # 交叉组成HR_G
# res = []
# _,T1,_,_,_ = self.HR_G_1.shape
# _,T2,_,_,_ = self.HR_G_2.shape
# assert T1 == T2
# for i in range(T1):
# res.append(self.HR_G_1[:, i, ...])
# res.append(self.HR_G_2[:, i, ...])
# self.HR_G = F.stack(res, axis=1) # [B,T,C,H,W]
else:
raise NotImplementedError("do not support eval&test gap value")
scale = self.generator.upscale_factor
# get numpy
self.HR_G = img_de_multi_padding(
self.HR_G,
origin_H=origin_H * scale,
origin_W=origin_W * scale) # depad for HR_G [B,T,C,H,W]
if kwargs.get('save_image', False):
print("saving images to disk ...")
save_path = kwargs.get('save_path')
B, T, _, _, _ = self.HR_G.shape
assert B == 1
assert T == 100
for i in range(T):
img = tensor2img(self.HR_G[0, i, ...], min_max=(0, 1))
if (i + 1) % 10 == 0:
imwrite(img,
file_path=os.path.join(
save_path, "partframes",
f"{clip}_{str(i).zfill(8)}.png"))
imwrite(img,
file_path=os.path.join(
save_path, "allframes",
f"{clip}_{str(i).zfill(8)}.png"))
return now_end_id == 99
def test_step(self, batchdata, **kwargs):
"""test step.
need to know whether the first frame for video, and every step restore some hidden state.
Args:
batchdata: list for train_batch, numpy.ndarray, length up to Collect class.
Returns:
list: outputs
"""
epoch = kwargs.get('epoch', 0)
image = batchdata[0] # [B,T,C,H,W]
image = ensemble_forward(image, Type=epoch) # for ensemble
H, W = image.shape[-2], image.shape[-1]
scale = getattr(self.generator, 'upscale_factor', 4)
padding_multi = self.eval_cfg.get('padding_multi', 1)
# padding for H and W
image = img_multi_padding(image,
padding_multi=padding_multi,
pad_value=-0.5) # [B,T,C,H,W]
assert image.shape[0] == 1 # only support batchsize 1
assert len(batchdata[1].shape) == 1 # first frame flag
if batchdata[1][0] > 0.5: # first frame
print("first frame")
self.now_test_num = 1
B, _, _, now_H, now_W = image.shape
print("use now_H : {} and now_W: {}".format(now_H, now_W))
self.pre_SD = np.zeros((B, hidden_channels, now_H, now_W),
dtype=np.float32)
outputs = test_generator_batch(image, self.pre_SD, netG=self.generator)
outputs = list(outputs)
outputs[0] = img_de_multi_padding(outputs[0],
origin_H=H * scale,
origin_W=W * scale)
for i in range(len(outputs)):
outputs[i] = outputs[i].numpy()
# update hidden state
G, self.pre_SD = outputs
# back ensemble for G
G = ensemble_back(G, Type=epoch)
save_image_flag = kwargs.get('save_image')
if save_image_flag:
save_path = kwargs.get('save_path', None)
start_id = kwargs.get('sample_id', None)
if save_path is None or start_id is None:
raise RuntimeError(
"if save image in test_step, please set 'save_path' and 'sample_id' parameters"
)
for idx in range(G.shape[0]):
if epoch == 0:
imwrite(tensor2img(G[idx], min_max=(-0.5, 0.5)),
file_path=os.path.join(
save_path,
"idx_{}.png".format(start_id + idx)))
else:
imwrite(tensor2img(G[idx], min_max=(-0.5, 0.5)),
file_path=os.path.join(
save_path, "idx_{}_epoch_{}.png".format(
start_id + idx, epoch)))
print("now test num: {}".format(self.now_test_num))
self.now_test_num += 1
return outputs
