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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved. | |
import datetime | |
import logging | |
import time | |
import os | |
import re | |
import torch | |
from tqdm import tqdm | |
from collections import defaultdict | |
from maskrcnn_benchmark.data.datasets.evaluation import evaluate, im_detect_bbox_aug | |
from ..utils.comm import is_main_process | |
from ..utils.comm import all_gather | |
from ..utils.comm import synchronize | |
import pdb | |
from maskrcnn_benchmark.data.datasets.evaluation.flickr.flickr_eval import FlickrEvaluator | |
from maskrcnn_benchmark.structures.bounding_box import BoxList | |
import matplotlib.pyplot as plt | |
import matplotlib.pylab as pylab | |
from maskrcnn_benchmark.data.datasets.tsv import load_from_yaml_file | |
def imshow(img, file_name = "tmp.jpg"): | |
plt.imshow(img[:, :, [2, 1, 0]]) | |
plt.axis("off") | |
#plt.figtext(0.5, 0.09, "test", wrap=True, horizontalalignment='center', fontsize=20) | |
plt.savefig(file_name) | |
def load(url_or_file_name): | |
try: | |
response = requests.get(url_or_file_name) | |
except: | |
response = None | |
if response is None: | |
pil_image = Image.open(url_or_file_name).convert("RGB") | |
else: | |
pil_image = Image.open(BytesIO(response.content)).convert("RGB") | |
# convert to BGR format | |
image = np.array(pil_image)[:, :, [2, 1, 0]] | |
return image | |
def inference_default( | |
model, | |
data_loader, | |
dataset_name, | |
iou_types=("bbox",), | |
box_only=False, | |
device="cuda", | |
expected_results=(), | |
expected_results_sigma_tol=4, | |
output_folder=None, | |
cfg=None | |
): | |
# convert to a torch.device for efficiency | |
device = torch.device(device) | |
num_devices = ( | |
torch.distributed.get_world_size() | |
if torch.distributed.is_initialized() | |
else 1 | |
) | |
logger = logging.getLogger("maskrcnn_benchmark.inference") | |
dataset = data_loader.dataset | |
logger.info("Start evaluation on {} dataset({} images).".format(dataset_name, len(dataset))) | |
start_time = time.time() | |
model.eval() | |
results_dict = {} | |
cpu_device = torch.device("cpu") | |
for i, batch in enumerate(tqdm(data_loader)): | |
images, targets, image_ids, *_ = batch | |
with torch.no_grad(): | |
if cfg.TEST.USE_MULTISCALE: | |
output = im_detect_bbox_aug(model, images, device) | |
else: | |
output = model(images.to(device)) | |
output = [o.to(cpu_device) for o in output] | |
results_dict.update( | |
{img_id: result for img_id, result in zip(image_ids, output)} | |
) | |
predictions = results_dict | |
# wait for all processes to complete before measuring the time | |
synchronize() | |
total_time = time.time() - start_time | |
total_time_str = str(datetime.timedelta(seconds=total_time)) | |
logger.info( | |
"Total inference time: {} ({} s / img per device, on {} devices)".format( | |
total_time_str, total_time * num_devices / len(dataset), num_devices | |
) | |
) | |
predictions = _accumulate_predictions_from_multiple_gpus(predictions) | |
if not is_main_process(): | |
return None | |
if output_folder: | |
torch.save(predictions, os.path.join(output_folder, "predictions.pth")) | |
extra_args = dict( | |
box_only=box_only, | |
iou_types=iou_types, | |
expected_results=expected_results, | |
expected_results_sigma_tol=expected_results_sigma_tol, | |
) | |
return evaluate(dataset=dataset, predictions=predictions, output_folder=output_folder, **extra_args) | |
def clean_name(name): | |
name = re.sub(r"\(.*\)", "", name) | |
name = re.sub(r"_", " ", name) | |
name = re.sub(r" ", " ", name) | |
return name | |
def create_one_hot_dict(labels, no_minus_one_for_one_hot = False): | |
positive_map_token_to_label = defaultdict(int) | |
positive_map_label_to_token = defaultdict(int) | |
for i in range(len(labels)): | |
positive_map_token_to_label[i] = labels[i] | |
positive_map_label_to_token[labels[i]] = i | |
if no_minus_one_for_one_hot: | |
positive_map_token_to_label = defaultdict(int) | |
positive_map_label_to_token = defaultdict(int) | |
for i in range(len(labels)): | |
positive_map_token_to_label[i+1] = labels[i] | |
positive_map_label_to_token[labels[i]] = i + 1 | |
return positive_map_token_to_label, positive_map_label_to_token | |
def create_positive_dict(tokenized, tokens_positive, labels): | |
"""construct a dictionary such that positive_map[i] = j, iff token i is mapped to j label""" | |
positive_map = defaultdict(int) | |
# Additionally, have positive_map_label_to_tokens | |
positive_map_label_to_token = defaultdict(list) | |
for j, tok_list in enumerate(tokens_positive): | |
for (beg, end) in tok_list: | |
beg_pos = tokenized.char_to_token(beg) | |
end_pos = tokenized.char_to_token(end - 1) | |
if beg_pos is None: | |
try: | |
beg_pos = tokenized.char_to_token(beg + 1) | |
if beg_pos is None: | |
beg_pos = tokenized.char_to_token(beg + 2) | |
except: | |
beg_pos = None | |
if end_pos is None: | |
try: | |
end_pos = tokenized.char_to_token(end - 2) | |
if end_pos is None: | |
end_pos = tokenized.char_to_token(end - 3) | |
except: | |
end_pos = None | |
if beg_pos is None or end_pos is None: | |
continue | |
assert beg_pos is not None and end_pos is not None | |
for i in range(beg_pos, end_pos + 1): | |
positive_map[i] = labels[j] # because the labels starts from 1 | |
positive_map_label_to_token[labels[j]].append(i) | |
# positive_map[j, beg_pos : end_pos + 1].fill_(1) | |
return positive_map, positive_map_label_to_token # / (positive_map.sum(-1)[:, None] + 1e-6) | |
def chunks(lst, n): | |
"""Yield successive n-sized chunks from lst.""" | |
all_ = [] | |
for i in range(0, len(lst), n): | |
data_index = lst[i:i + n] | |
all_.append(data_index) | |
counter = 0 | |
for i in all_: | |
counter += len(i) | |
assert(counter == len(lst)) | |
return all_ | |
def create_queries_and_maps_from_dataset(dataset, cfg): | |
categories = dataset.categories() | |
#one_hot = dataset.one_hot | |
labels = [] | |
label_list = [] | |
keys = list(categories.keys()) | |
keys.sort() | |
for i in keys: | |
labels.append(i) | |
label_list.append(categories[i]) | |
if cfg.TEST.CHUNKED_EVALUATION != -1: | |
labels = chunks(labels, cfg.TEST.CHUNKED_EVALUATION) | |
label_list = chunks(label_list, cfg.TEST.CHUNKED_EVALUATION) | |
else: | |
labels = [labels] | |
label_list = [label_list] | |
all_queries = [] | |
all_positive_map_label_to_token = [] | |
for i in range(len(labels)): | |
labels_i = labels[i] | |
label_list_i = label_list[i] | |
query_i, positive_map_label_to_token_i = create_queries_and_maps( | |
labels_i, label_list_i, additional_labels = cfg.DATASETS.SUPRESS_QUERY if cfg.DATASETS.USE_SUPRESS_QUERY else None, cfg = cfg) | |
all_queries.append(query_i) | |
all_positive_map_label_to_token.append(positive_map_label_to_token_i) | |
print("All queries", all_queries) | |
return all_queries, all_positive_map_label_to_token | |
def create_queries_and_maps(labels, label_list, additional_labels = None, cfg = None): | |
# Clean label list | |
original_label_list = label_list.copy() | |
label_list = [clean_name(i) for i in label_list] | |
# Form the query and get the mapping | |
tokens_positive = [] | |
start_i = 0 | |
end_i = 0 | |
objects_query = "" | |
# sep between tokens, follow training | |
separation_tokens = cfg.DATASETS.SEPARATION_TOKENS | |
caption_prompt = cfg.DATASETS.CAPTION_PROMPT | |
if caption_prompt is not None and isinstance(caption_prompt, str): | |
caption_prompt = load_from_yaml_file(caption_prompt) | |
use_caption_prompt = cfg.DATASETS.USE_CAPTION_PROMPT and caption_prompt is not None | |
for _index, label in enumerate(label_list): | |
if use_caption_prompt: | |
objects_query += caption_prompt[_index]["prefix"] | |
start_i = len(objects_query) | |
if use_caption_prompt: | |
objects_query += caption_prompt[_index]["name"] | |
else: | |
objects_query += label | |
end_i = len(objects_query) | |
tokens_positive.append([(start_i, end_i)]) # Every label has a [(start, end)] | |
if use_caption_prompt: | |
objects_query += caption_prompt[_index]["suffix"] | |
if _index != len(label_list) - 1: | |
objects_query += separation_tokens | |
if additional_labels is not None: | |
objects_query += separation_tokens | |
for _index, label in enumerate(additional_labels): | |
objects_query += label | |
if _index != len(additional_labels) - 1: | |
objects_query += separation_tokens | |
print(objects_query) | |
from transformers import AutoTokenizer | |
# tokenizer = AutoTokenizer.from_pretrained("bert-base-uncased") | |
if cfg.MODEL.LANGUAGE_BACKBONE.TOKENIZER_TYPE == "bert-base-uncased": | |
tokenizer = AutoTokenizer.from_pretrained("bert-base-uncased") | |
tokenized = tokenizer(objects_query, return_tensors="pt") | |
elif cfg.MODEL.LANGUAGE_BACKBONE.TOKENIZER_TYPE == "clip": | |
from transformers import CLIPTokenizerFast | |
if cfg.MODEL.DYHEAD.FUSE_CONFIG.MLM_LOSS: | |
tokenizer = CLIPTokenizerFast.from_pretrained("openai/clip-vit-base-patch32", | |
from_slow=True, mask_token='ðŁĴij</w>') | |
else: | |
tokenizer = CLIPTokenizerFast.from_pretrained("openai/clip-vit-base-patch32", | |
from_slow=True) | |
tokenized = tokenizer(objects_query, | |
max_length=cfg.MODEL.LANGUAGE_BACKBONE.MAX_QUERY_LEN, | |
truncation=True, | |
return_tensors="pt") | |
else: | |
tokenizer = None | |
raise NotImplementedError | |
# Create the mapping between tokenized sentence and the original label | |
positive_map_token_to_label, positive_map_label_to_token = create_positive_dict(tokenized, tokens_positive, | |
labels=labels) # from token position to original label | |
return objects_query, positive_map_label_to_token | |
def create_positive_map_label_to_token_from_positive_map(positive_map, plus = 0): | |
positive_map_label_to_token = {} | |
for i in range(len(positive_map)): | |
positive_map_label_to_token[i + plus] = torch.nonzero(positive_map[i], as_tuple=True)[0].tolist() | |
return positive_map_label_to_token | |
def _accumulate_predictions_from_multiple_gpus(predictions_per_gpu): | |
all_predictions = all_gather(predictions_per_gpu) | |
if not is_main_process(): | |
return | |
# merge the list of dicts | |
predictions = {} | |
for p in all_predictions: | |
predictions.update(p) | |
# convert a dict where the key is the index in a list | |
image_ids = list(sorted(predictions.keys())) | |
if len(image_ids) != image_ids[-1] + 1: | |
logger = logging.getLogger("maskrcnn_benchmark.inference") | |
logger.warning( | |
"Number of images that were gathered from multiple processes is not " | |
"a contiguous set. Some images might be missing from the evaluation" | |
) | |
# convert to a list | |
predictions = [predictions[i] for i in image_ids] | |
return predictions | |
def resize_box(output, targets): | |
if isinstance(targets[0], dict): | |
orig_target_sizes = targets[0]["orig_size"].unsqueeze(0) | |
else: | |
orig_target_sizes = torch.stack([targets[0].extra_fields["orig_size"] for _ in range(1)], dim=0) | |
img_h, img_w = orig_target_sizes.unbind(1) | |
return output.resize((img_w, img_h)) | |
def flickr_post_process(output, targets, positive_map_label_to_token, plus): | |
output = resize_box(output, targets) | |
scores, indices = torch.topk(output.extra_fields["scores"], k = len(output.extra_fields["scores"]), sorted=True) | |
boxes = output.bbox.tolist() | |
boxes = [boxes[i] for i in indices] | |
labels = [output.extra_fields["labels"][i] for i in indices] | |
output_boxes = [[] for i in range(len(positive_map_label_to_token))] | |
output_scores = [[] for i in range(len(positive_map_label_to_token))] | |
for i in range(len(boxes)): | |
output_boxes[labels[i] - plus].append(boxes[i]) | |
output_scores[labels[i] - plus].append(scores[i]) | |
for i in output_boxes: | |
i.append([0.0, 0.0, 0.0, 0.0]) | |
image_ids = [t.extra_fields["original_img_id"] for t in targets] | |
sentence_ids = [t.extra_fields["sentence_id"] for t in targets] | |
return {"image_id": image_ids[0], "sentence_id": sentence_ids[0], "boxes": output_boxes, "scores": output_scores} | |
def build_flickr_evaluator(cfg): | |
evaluator = FlickrEvaluator( | |
"DATASET/flickr30k/flickr30k/", # Hard written!! | |
subset="test" if "test" in cfg.DATASETS.TEST[0] else "val", | |
merge_boxes=cfg.DATASETS.FLICKR_GT_TYPE == "merged") | |
return evaluator | |
def build_lvis_evaluator(ann_file, fixed_ap=True): | |
from maskrcnn_benchmark.data.datasets.evaluation.lvis.lvis import LVIS | |
from maskrcnn_benchmark.data.datasets.evaluation.lvis.lvis_eval import LvisEvaluatorFixedAP, LvisEvaluator | |
evaluator = LvisEvaluatorFixedAP(LVIS(ann_file), fixed_ap=fixed_ap) | |
#evaluator = LvisEvaluator(LVIS(ann_file), iou_types=['segm', 'bbox']) | |
return evaluator | |
def write_lvis_results(results, output_file_name): | |
lines = [] | |
lines.append("metric, avg ") | |
for each_result in results: | |
metric_string = " ".join(each_result.split(" ")[:-2]) | |
number = each_result.split(" ")[-1] | |
each_result = metric_string + ", " + number + " " | |
lines.append(each_result) | |
string_to_write = "\n".join(lines) + "\n" | |
with open(output_file_name, "w") as f: | |
f.write(string_to_write) | |
return | |
def write_flickr_results(results, output_file_name): | |
''' | |
{'Recall@1_all': 0.8394651146677753, 'Recall@1_animals': 0.9177820267686424, 'Recall@1_bodyparts': 0.7097966728280961, ...} | |
''' | |
lines = [] | |
lines.append("metric, avg ") | |
for each_metric, number in results.items(): | |
each_result = each_metric + ", " + str(number) + " " | |
lines.append(each_result) | |
string_to_write = "\n".join(lines) + "\n" | |
with open(output_file_name, "w") as f: | |
f.write(string_to_write) | |
return | |
def inference( | |
model, | |
data_loader, | |
dataset_name, | |
iou_types=("bbox",), | |
box_only=False, | |
device="cuda", | |
expected_results=(), | |
expected_results_sigma_tol=4, | |
output_folder=None, | |
cfg=None, | |
verbose=True, | |
visualizer = None | |
): | |
# convert to a torch.device for efficiency | |
try: | |
device = torch.device(device) | |
except: | |
device = device | |
num_devices = ( | |
torch.distributed.get_world_size() | |
if torch.distributed.is_initialized() | |
else 1 | |
) | |
logger = logging.getLogger("maskrcnn_benchmark.inference") | |
dataset = data_loader.dataset | |
if verbose: | |
logger.info("Start evaluation on {} dataset({} images).".format(dataset_name, len(dataset))) | |
start_time = time.time() | |
task = cfg.TEST.EVAL_TASK | |
if not task: | |
return inference_default(model, data_loader, dataset_name, iou_types, box_only, device, expected_results, expected_results_sigma_tol, output_folder, cfg) | |
if cfg.GLIPKNOW.PARALLEL_LANGUAGE_INPUT: | |
assert task == 'detection' | |
categories = dataset.categories() | |
keys = list(categories.keys()) | |
keys.sort() | |
all_queries = [[categories[k] for k in keys]] | |
all_positive_map_label_to_token = [{k: [i] for i, k in enumerate(keys)}] | |
elif task == "detection": | |
all_queries, all_positive_map_label_to_token = create_queries_and_maps_from_dataset(dataset, cfg) | |
elif task == "grounding": | |
all_queries = [None] | |
all_positive_map_label_to_token = [None] | |
else: | |
assert(0) | |
''' | |
Build Dataset Sepecific Evaluator | |
''' | |
if "flickr" in cfg.DATASETS.TEST[0]: | |
evaluator = build_flickr_evaluator(cfg) | |
elif "lvis" in cfg.DATASETS.TEST[0]: | |
evaluator = build_lvis_evaluator(dataset.ann_file, fixed_ap=not cfg.DATASETS.LVIS_USE_NORMAL_AP) | |
else: | |
evaluator = None | |
model.eval() | |
results_dict = {} | |
cpu_device = torch.device("cpu") | |
if verbose: | |
_iterator = tqdm(data_loader) | |
else: | |
_iterator = data_loader | |
for i, batch in enumerate(_iterator): | |
if i == cfg.TEST.SUBSET: | |
break | |
images, targets, image_ids, *_ = batch | |
all_output = [] | |
mdetr_style_output = [] | |
with torch.no_grad(): | |
if cfg.TEST.USE_MULTISCALE: | |
query_time = len(all_queries) | |
for query_i in range(query_time): | |
if task == "detection": | |
captions = [all_queries[query_i] for ii in range(len(targets))] | |
positive_map_label_to_token = all_positive_map_label_to_token[query_i] | |
else: | |
captions = None | |
positive_map_label_to_token = None | |
output = im_detect_bbox_aug(model, images, device, captions, positive_map_label_to_token) | |
output = [o.to(cpu_device) for o in output] | |
all_output.append(output) | |
else: | |
images = images.to(device) | |
query_time = len(all_queries) | |
for query_i in range(query_time): | |
if not isinstance(targets[0], dict): # For LVIS dataset and datasets directly copied from MDETR | |
targets = [target.to(device) for target in targets] | |
''' | |
different datasets seem to have different data format... For LVIS dataset, the target is a dictionary, while for modulatedDataset such as COCO/Flickr, the target is a BoxList | |
''' | |
if task == "detection": | |
captions = [all_queries[query_i] for ii in range(len(targets))] | |
positive_map_label_to_token = all_positive_map_label_to_token[query_i] | |
elif task == "grounding": | |
captions = [t.get_field("caption") for t in targets] | |
positive_map_eval = [t.get_field("positive_map_eval") for t in targets] | |
if cfg.MODEL.RPN_ARCHITECTURE == "VLDYHEAD": | |
plus = 1 | |
else: | |
plus = 0 | |
assert(len(positive_map_eval) == 1) # Let's just use one image per batch | |
positive_map_eval = positive_map_eval[0] | |
positive_map_label_to_token = create_positive_map_label_to_token_from_positive_map(positive_map_eval, plus=plus) | |
output = model(images, captions=captions, positive_map=positive_map_label_to_token) | |
output = [o.to(cpu_device) for o in output] | |
if "flickr" in cfg.DATASETS.TEST[0]: | |
output = output[0] | |
new_output = flickr_post_process( | |
output, | |
targets, | |
positive_map_label_to_token, | |
plus # This is only used in Flickr | |
) | |
mdetr_style_output.append(new_output) | |
elif "lvis" in cfg.DATASETS.TEST[0]: | |
output = output[0] | |
output = resize_box(output, targets) | |
scores = output.extra_fields["scores"] | |
labels = output.extra_fields["labels"] | |
boxes = output.bbox | |
mdetr_style_output.append((targets[0]["image_id"].item(), {"scores": scores, "labels": labels, "boxes": boxes})) | |
else: | |
all_output.append(output) | |
if visualizer is not None: | |
assert(len(all_output) == 1) | |
if "lvis" in cfg.DATASETS.TEST[0]: | |
scores = [o[1]["scores"] for o in mdetr_style_output] | |
labels = [o[1]["labels"] for o in mdetr_style_output] | |
boxes = [o[1]["boxes"] for o in mdetr_style_output] | |
scores = torch.cat(scores, dim=0) | |
labels = torch.cat(labels, dim=0) | |
boxes = torch.cat(boxes, dim=0) | |
visualizer_input = BoxList(boxes, output.size) | |
visualizer_input.add_field("scores", scores) | |
visualizer_input.add_field("labels", labels) | |
else: | |
visualizer_input = all_output[0][0] # single image_visualize | |
image_id = dataset.ids[i] | |
try: | |
image_path = os.path.join(dataset.root, dataset.coco.loadImgs(image_id)[0]["file_name"]) | |
categories = dataset.coco.dataset["categories"] | |
except: | |
lvis = dataset.lvis | |
img_id = dataset.ids[i] | |
ann_ids = lvis.get_ann_ids(img_ids=img_id) | |
target = lvis.load_anns(ann_ids) | |
image_path = "DATASET/coco/" + "/".join(dataset.lvis.load_imgs(img_id)[0]["coco_url"].split("/")[-2:]) | |
categories = dataset.lvis.dataset["categories"] | |
image = load(image_path) | |
no_background = True | |
label_list = [] | |
for index, i in enumerate(categories): | |
if not no_background or (i["name"] != "__background__" and i['id'] != 0): | |
label_list.append(i["name"]) | |
visualizer.entities = label_list | |
result, _ = visualizer.visualize_with_predictions( | |
image, | |
visualizer_input, | |
threshold, | |
alpha=alpha, | |
box_pixel=box_pixel, | |
text_size=text_size, | |
text_pixel=text_pixel, | |
text_offset=text_offset, | |
text_offset_original=text_offset_original, | |
color=color, | |
) | |
imshow(result, "./visualize/img_{}.jpg".format(i)) | |
if evaluator is not None: | |
evaluator.update(mdetr_style_output) | |
else: | |
output = [[row[_i] for row in all_output] for _i in range(len(all_output[0]))] | |
for index, i in enumerate(output): | |
output[index] = i[0].concate_box_list(i) | |
results_dict.update({img_id: result for img_id, result in zip(image_ids, output)}) | |
if evaluator is not None: | |
evaluator.synchronize_between_processes() | |
try: | |
evaluator.accumulate() | |
except: | |
print("Evaluator has no accumulation, skipped...") | |
score = evaluator.summarize() | |
print(score) | |
import maskrcnn_benchmark.utils.mdetr_dist as dist | |
if is_main_process(): | |
if "flickr" in cfg.DATASETS.TEST[0]: | |
write_flickr_results(score, output_file_name=os.path.join(output_folder, "bbox.csv")) | |
elif "lvis" in cfg.DATASETS.TEST[0]: | |
write_lvis_results(score, output_file_name=os.path.join(output_folder, "bbox.csv")) | |
try: | |
torch.distributed.barrier() | |
except: | |
print("Default process group is not initialized") | |
return | |
if evaluator is not None: | |
predictions = mdetr_style_output | |
else: | |
predictions = results_dict | |
# wait for all processes to complete before measuring the time | |
synchronize() | |
total_time = time.time() - start_time | |
total_time_str = str(datetime.timedelta(seconds=total_time)) | |
logger.info( | |
"Total inference time: {} ({} s / img per device, on {} devices)".format( | |
total_time_str, total_time * num_devices / len(dataset), num_devices | |
) | |
) | |
predictions = _accumulate_predictions_from_multiple_gpus(predictions) | |
print("Accumulated results") | |
if not is_main_process(): | |
return None | |
if output_folder: | |
torch.save(predictions, os.path.join(output_folder, "predictions.pth")) | |
extra_args = dict( | |
box_only=box_only, | |
iou_types=iou_types, | |
expected_results=expected_results, | |
expected_results_sigma_tol=expected_results_sigma_tol, | |
) | |
return evaluate(dataset=dataset, predictions=predictions, output_folder=output_folder, **extra_args) | |