# Copyright (c) OpenMMLab. All rights reserved.
import copy
import warnings
import mmcv
import numpy as np
import torch
from mmdet.datasets import replace_ImageToTensor
from mmocr.utils import is_2dlist, is_type_list
def update_pipeline(cfg, idx=None):
if idx is None:
if cfg.pipeline is not None:
cfg.pipeline = replace_ImageToTensor(cfg.pipeline)
else:
cfg.pipeline[idx] = replace_ImageToTensor(cfg.pipeline[idx])
def replace_image_to_tensor(cfg, set_types=None):
"""Replace 'ImageToTensor' to 'DefaultFormatBundle'."""
assert set_types is None or isinstance(set_types, list)
if set_types is None:
set_types = ['val', 'test']
cfg = copy.deepcopy(cfg)
for set_type in set_types:
assert set_type in ['val', 'test']
uniform_pipeline = cfg.data[set_type].get('pipeline', None)
if is_type_list(uniform_pipeline, dict):
update_pipeline(cfg.data[set_type])
elif is_2dlist(uniform_pipeline):
for idx, _ in enumerate(uniform_pipeline):
update_pipeline(cfg.data[set_type], idx)
for dataset in cfg.data[set_type].get('datasets', []):
if isinstance(dataset, list):
for each_dataset in dataset:
update_pipeline(each_dataset)
else:
update_pipeline(dataset)
return cfg
def update_pipeline_recog(cfg, idx=None):
warning_msg = 'Remove "MultiRotateAugOCR" to support batch ' + \
'inference since samples_per_gpu > 1.'
if idx is None:
if cfg.get('pipeline',
None) and cfg.pipeline[1].type == 'MultiRotateAugOCR':
warnings.warn(warning_msg)
cfg.pipeline = [cfg.pipeline[0], *cfg.pipeline[1].transforms]
else:
if cfg[idx][1].type == 'MultiRotateAugOCR':
warnings.warn(warning_msg)
cfg[idx] = [cfg[idx][0], *cfg[idx][1].transforms]
def disable_text_recog_aug_test(cfg, set_types=None):
"""Remove aug_test from test pipeline for text recognition.
Args:
cfg (mmcv.Config): Input config.
set_types (list[str]): Type of dataset source. Should be
None or sublist of ['test', 'val'].
"""
assert set_types is None or isinstance(set_types, list)
if set_types is None:
set_types = ['val', 'test']
cfg = copy.deepcopy(cfg)
warnings.simplefilter('once')
for set_type in set_types:
assert set_type in ['val', 'test']
dataset_type = cfg.data[set_type].type
if dataset_type not in [
'ConcatDataset', 'UniformConcatDataset', 'OCRDataset',
'OCRSegDataset'
]:
continue
uniform_pipeline = cfg.data[set_type].get('pipeline', None)
if is_type_list(uniform_pipeline, dict):
update_pipeline_recog(cfg.data[set_type])
elif is_2dlist(uniform_pipeline):
for idx, _ in enumerate(uniform_pipeline):
update_pipeline_recog(cfg.data[set_type].pipeline, idx)
for dataset in cfg.data[set_type].get('datasets', []):
if isinstance(dataset, list):
for each_dataset in dataset:
update_pipeline_recog(each_dataset)
else:
update_pipeline_recog(dataset)
return cfg
def tensor2grayimgs(tensor, mean=(127, ), std=(127, ), **kwargs):
"""Convert tensor to 1-channel gray images.
Args:
tensor (torch.Tensor): Tensor that contains multiple images, shape (
N, C, H, W).
mean (tuple[float], optional): Mean of images. Defaults to (127).
std (tuple[float], optional): Standard deviation of images.
Defaults to (127).
Returns:
list[np.ndarray]: A list that contains multiple images.
"""
assert torch.is_tensor(tensor) and tensor.ndim == 4
assert tensor.size(1) == len(mean) == len(std) == 1
num_imgs = tensor.size(0)
mean = np.array(mean, dtype=np.float32)
std = np.array(std, dtype=np.float32)
imgs = []
for img_id in range(num_imgs):
img = tensor[img_id, ...].cpu().numpy().transpose(1, 2, 0)
img = mmcv.imdenormalize(img, mean, std, to_bgr=False).astype(np.uint8)
imgs.append(np.ascontiguousarray(img))
return imgs