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import cv2 | |
from matplotlib import pyplot as plt | |
import numpy as np | |
import torch | |
from PIL import Image, ImageDraw, ImageFont | |
from datetime import datetime | |
import os | |
from typing import List, Dict | |
def convert_and_resize_mask(mask): | |
if mask.ndim == 3: | |
mask = cv2.cvtColor(mask, cv2.COLOR_BGR2GRAY) | |
resized_mask = cv2.resize(mask, (1024, 1024)) | |
return resized_mask | |
def add_masks_resized(masks): | |
final_mask = np.zeros((1024, 1024), dtype=np.uint8) | |
for mask in masks: | |
if mask is not None: | |
resized_mask = convert_and_resize_mask(mask) | |
resized_mask = resized_mask.astype(np.uint8) | |
final_mask = cv2.add(final_mask, resized_mask) | |
return final_mask | |
def attend_mask(mask_file, attend_scale=10, save=False): | |
if isinstance(mask_file, str): | |
if mask_file == '': | |
return torch.zeros([1, 1, 128, 128], dtype=torch.float32).cuda() | |
else: | |
image_with_mask = cv2.imread(mask_file, cv2.IMREAD_GRAYSCALE) | |
elif len(mask_file.shape) == 3: # convert RGB to gray | |
image_with_mask = cv2.cvtColor(mask_file, cv2.COLOR_BGR2GRAY) | |
else: | |
image_with_mask = mask_file | |
if attend_scale != 0: | |
kernel = np.ones((abs(attend_scale), abs(attend_scale)), np.uint8) | |
if attend_scale > 0: | |
image_with_mask = cv2.dilate(image_with_mask, kernel, iterations=1) | |
else: | |
image_with_mask = cv2.erode(image_with_mask, kernel, iterations=1) | |
if save and isinstance(mask_file, str): | |
new_mask_file_name = mask_file[:-4]+'_'+str(attend_scale)+'.jpg' | |
cv2.imwrite(new_mask_file_name, image_with_mask) | |
print("new_mask is saved in ", new_mask_file_name) | |
dilated_image= cv2.resize(image_with_mask, (128, 128), interpolation=cv2.INTER_NEAREST) | |
dilated_image = torch.from_numpy(dilated_image).to(torch.float32).unsqueeze(0).unsqueeze(0).cuda() / 255 | |
return dilated_image | |
def panning(img_path=None, op_list=[['left', 0.2]], save=False, save_dir=None): | |
if isinstance(img_path, str): | |
img = cv2.imread(img_path) | |
else: | |
img = img_path | |
img_new = img.copy() | |
img_height, img_width, _ = img.shape | |
w_mask = 255 * np.ones((img_height, img_width), dtype=np.uint8) | |
h_mask = 255 * np.ones((img_height, img_width), dtype=np.uint8) | |
for op in op_list: | |
scale = op[1] | |
if op[0] in ['right', 'left']: | |
K = int(scale*img_width) | |
elif op[0] in ['up', 'down']: | |
K = int(scale*img_height) | |
if op[0] == 'right': | |
img_new[:, K:, :] = img[:, 0:img_width-K, :] | |
w_mask[:, K:] = 0 | |
elif op[0] == 'left': | |
img_new[:, 0:img_width-K, :] = img[:, K:, :] | |
w_mask[:, 0:img_width-K] = 0 | |
elif op[0] == 'down': | |
img_new[K:, :, :] = img[0:img_height-K, :, :] | |
h_mask[K:, :] = 0 | |
elif op[0] == 'up': | |
img_new[0:img_height-K, :, :] = img[K:, :, :] | |
h_mask[0:img_height-K, :] = 0 | |
img = img_new | |
mask = w_mask + h_mask | |
mask[mask>0] = 255 | |
if save: | |
if save_dir is None: | |
base_dir = os.path.dirname(img_path) | |
save_dir = os.path.join(base_dir, 'preprocess') | |
elif not os.path.exists(save_dir): | |
os.makedirs(save_dir) | |
resized_img_name = f"{save_dir}/resized_image.png" | |
resized_mask_name = f"{save_dir}/resized_mask.png" | |
cv2.imwrite(resized_img_name, img_new) | |
cv2.imwrite(resized_mask_name, mask) | |
return resized_img_name, resized_mask_name | |
else: | |
return img_new, mask | |
def zooming(img_path=None, scale=[0.8, 0.8], save=False, save_dir=None): | |
if isinstance(img_path, str): | |
img = cv2.imread(img_path) | |
else: | |
img = img_path | |
img_new = img.copy() | |
img_height, img_width, _ = img.shape | |
mask = 255 * np.ones((img_height, img_width), dtype=np.uint8) | |
new_height = int(img_height*scale[0]) | |
new_width = int(img_width*scale[1]) | |
resized_img = cv2.resize(img, (new_width, new_height), interpolation=cv2.INTER_AREA) | |
x_offset = (img_width - new_width) // 2 | |
y_offset = (img_height - new_height) // 2 | |
img_new[y_offset:y_offset + new_height, x_offset:x_offset + new_width] = resized_img | |
mask[y_offset:y_offset + new_height, x_offset:x_offset + new_width] = 0 | |
if save: | |
if save_dir is None: | |
base_dir = os.path.dirname(img_path) | |
save_dir = os.path.join(base_dir, 'preprocess') | |
elif not os.path.exists(save_dir): | |
os.makedirs(save_dir) | |
resized_img_name = f"{save_dir}/resized_image.png" | |
resized_mask_name = f"{save_dir}/resized_mask.png" | |
cv2.imwrite(resized_img_name, img_new) | |
cv2.imwrite(resized_mask_name, mask) | |
return resized_img_name, resized_mask_name | |
else: | |
return img_new, mask | |
def get_box(mask, bias = 2): | |
nonzero_indices = torch.nonzero(mask) | |
H, W = mask.shape[-2:] | |
min_x = max(min(nonzero_indices[:, 1]) - bias, 0) | |
min_y = max(min(nonzero_indices[:, 0]) - bias, 0) | |
max_x = min(max(nonzero_indices[:, 1]) + bias, W) | |
max_y = min(max(nonzero_indices[:, 0]) + bias, H) | |
return (min_x, min_y, max_x, max_y) | |
def draw_axis(img,grid_dict,x_len,y_len): | |
if grid_dict is not None and grid_dict is not False: | |
assert isinstance(grid_dict,Dict) | |
assert "x_title" in grid_dict | |
assert "y_title" in grid_dict | |
assert "x_text_list" in grid_dict | |
assert "y_text_list" in grid_dict | |
x_title=grid_dict["x_title"] | |
y_title=grid_dict["y_title"] | |
x_text_list=grid_dict['x_text_list'] | |
y_text_list=grid_dict['y_text_list'] | |
assert len(y_text_list)==y_len | |
assert len(x_text_list)==x_len | |
assert "font_size" in grid_dict | |
font_size=grid_dict["font_size"] | |
if "x_color" in grid_dict: | |
color_x=grid_dict['x_color'] | |
else: | |
color_x="black" | |
if "y_color" in grid_dict: | |
color_y=grid_dict['y_color'] | |
else: | |
color_y="black" | |
if "num_decimals" in grid_dict: | |
num_decimals=grid_dict['num_decimals'] | |
else: | |
num_decimals=2 | |
if "shift_x" in grid_dict: | |
shift_x_x,shift_x_y=grid_dict['shift_x'] | |
else: | |
shift_x_x=shift_x_y=0 | |
if "shift_y" in grid_dict: | |
shift_y_x,shift_y_y=grid_dict['shift_y'] | |
else: | |
shift_y_x=shift_y_y=0 | |
if "title" in grid_dict: | |
title=grid_dict['title'] | |
if isinstance(title,List): | |
all_title="" | |
for s in title: | |
all_title=all_title+s+"\n" | |
title=all_title | |
else: | |
title='' | |
width, height = img.size | |
num_x=x_len | |
num_y=y_len | |
new_img = Image.new("RGB", (width + width // num_x+width // (num_x*2), height + height // num_y+height // (num_y*2)), color=(255, 255, 255)) | |
width,height=(width + width // num_x, height + height // num_y) | |
num_x=num_x+1 | |
num_y=num_y+1 | |
new_img.paste(img, (width // num_x, height // num_y)) | |
draw = ImageDraw.Draw(new_img) | |
font = ImageFont.truetype("DejaVuSansMono.ttf", font_size) | |
for i in range(2, num_x+1): | |
x = (i - 1) * width // num_x + width // (num_x * 2)-width *0.2// num_x+shift_x_x | |
y = height // (num_y * 2)+shift_x_y | |
k=i-1 | |
if isinstance(x_text_list[i-2],str): | |
draw.text((x, y), x_text_list[i-2], font=font,fill=color_x,align="center") | |
else: | |
draw.text((x, y), "{:.{}f}".format(x_text_list[i-2],num_decimals), font=font,fill=color_x,align="center") | |
for i in range(2, num_y+1): | |
x = width // (num_x * 2)-width *0.1// num_x+shift_y_x | |
y = (i - 1) * height // num_y + height // (num_y * 2)-height*0.1//num_y+shift_y_y | |
k = i - 1 | |
if isinstance(y_text_list[i-2],str): | |
draw.text((x, y), y_text_list[i-2], font=font,fill=color_y,align="center") | |
else: | |
draw.text((x, y), "{:.{}f}".format(y_text_list[i-2],num_decimals), font=font,fill=color_y,align="center") | |
i=1 | |
x = (i - 1) * width // num_x + width // (num_x * 2)-height*0.1//num_y+shift_y_x | |
y = height // (num_y * 2)+width *0.2// num_x+shift_y_y | |
draw.text((x, y), y_title, font=font, fill=color_y,align="center") | |
x = width // (num_x * 2)+width *0.2// num_x+shift_x_x | |
y = (i - 1) * height // num_y + height // (num_y * 2)+shift_x_y | |
draw.text((x, y), x_title, font=font, fill=color_x,align="left") | |
x = width // 4 | |
y = (i - 1) * height // num_y + height // (num_y * 10) | |
draw.text((x, y), title, font=font, fill='blue',align="left") | |
else: | |
new_img=img | |
return new_img | |
def view_images(images, num_rows=1, offset_ratio=0.02,text="",folder=None,Notimestamp=False, | |
grid_dict=None,subfolder=None,verbose=True,output_dir=None,timestamp=None,**kwargs): | |
if type(images) is list: | |
num_empty = len(images) % num_rows | |
elif images.ndim == 4: | |
num_empty = images.shape[0] % num_rows | |
else: | |
images = [images] | |
num_empty = 0 | |
origin_size=kwargs.get("origin_size",None) | |
images_copy=images.copy() | |
for i, per_image in enumerate(images_copy): | |
if isinstance(per_image, Image.Image) and origin_size is not None: | |
images[i] = np.array(per_image.resize((origin_size[1],origin_size[0]))) | |
else: | |
images[i] = np.array(per_image) | |
empty_images = np.ones(images[0].shape, dtype=np.uint8) * 255 | |
images = [image.astype(np.uint8) for image in images] + [empty_images] * num_empty | |
num_items = len(images) | |
h, w, c = images[0].shape | |
offset = int(h * offset_ratio) | |
num_cols = num_items // num_rows | |
image_ = np.ones((h * num_rows + offset * (num_rows - 1), | |
w * num_cols + offset * (num_cols - 1), 3), dtype=np.uint8) * 255 | |
for i in range(num_rows): | |
for j in range(num_cols): | |
image_[i * (h + offset): i * (h + offset) + h:, j * (w + offset): j * (w + offset) + w] = images[ | |
i * num_cols + j] | |
pil_img = Image.fromarray(image_) | |
pil_img_=draw_axis(pil_img,grid_dict,num_cols,num_rows) | |
if pil_img_.size[0]==pil_img_.size[1]: | |
pil_img_.resize((2048,2048)) | |
else: | |
longer_side = max(pil_img.size) | |
ratio = 2048/longer_side | |
new_size = tuple([int(x*ratio) for x in pil_img.size]) | |
pil_img = pil_img.resize(new_size) | |
if verbose is False: | |
return pil_img | |
now = datetime.now() | |
if timestamp is None: | |
if Notimestamp is False: | |
timestamp = now.strftime("%Y-%m-%d_%H-%M-%S") | |
else: | |
timestamp="" | |
if output_dir is None: | |
if timestamp != "": | |
date, time = timestamp.split('_') | |
else: | |
date, time = "","" | |
if folder is not None: | |
dirname="./"+folder | |
filename = text+f"img_{timestamp}.jpg" | |
else: | |
if subfolder is not None: | |
dirname=os.path.join("./img", subfolder,date) | |
dirname=os.path.join(dirname,time) | |
filename =text+f"img_{timestamp}.jpg" | |
else: | |
dirname=os.path.join("./img",date) | |
dirname=os.path.join(dirname,time) | |
filename =text+f"img_{timestamp}.jpg" | |
else: | |
dirname=output_dir | |
filename =text+f"img_{timestamp}.jpg" | |
if not os.path.exists(dirname): | |
os.makedirs(dirname) | |
if verbose is True: | |
for i, img in enumerate(images): | |
im = Image.fromarray(img) | |
im.save(os.path.join(dirname,f"{i}.jpg")) | |
print(f"Output dir: {dirname}") | |
pil_img.save(os.path.join(dirname, filename)) | |
if grid_dict is not None and grid_dict is not False: | |
if not os.path.exists(dirname): | |
os.makedirs(dirname) | |
pil_img_.save(os.path.join(dirname, filename[:-4]+"_2048x.jpg")) | |
def resize_image_with_mask(img, mask, scale): | |
if scale == 1: | |
return img, mask, None | |
img_blackboard = img.copy() # canvas | |
mask_blackboard = np.zeros_like(mask) | |
M = cv2.moments(mask) | |
cx = int(M["m10"] / M["m00"]) | |
cy = int(M["m01"] / M["m00"]) | |
scale_factor = [scale, scale] | |
resized_img = cv2.resize(img, None, fx=scale_factor[0], fy=scale_factor[1], interpolation=cv2.INTER_AREA) | |
resized_mask = cv2.resize(mask, None, fx=scale_factor[0], fy=scale_factor[1], interpolation=cv2.INTER_AREA) | |
new_cx, new_cy = cx * scale_factor[0], cy * scale_factor[1] | |
for y in range(resized_mask.shape[0]): | |
for x in range(resized_mask.shape[1]): | |
if 0 <= cy - (new_cy - y) < img.shape[0] and 0 <= cx - (new_cx - x) < img.shape[1]: | |
mask_blackboard[int(cy - (new_cy - y)), int(cx - (new_cx - x))] = resized_mask[y, x] | |
img_blackboard[int(cy - (new_cy - y)), int(cx - (new_cx - x))] = resized_img[y, x] | |
return img_blackboard, mask_blackboard, (cx, cy) | |
def flip_image_with_mask(img, mask, flip_code=None): | |
if flip_code is None: | |
return img, mask, None | |
M = cv2.moments(mask) | |
if M["m00"] == 0: | |
return img, mask | |
cx = int(M["m10"] / M["m00"]) | |
cy = int(M["m01"] / M["m00"]) | |
h, w = img.shape[:2] | |
img_center = (w // 2, h // 2) | |
tx = img_center[0] - cx | |
ty = img_center[1] - cy | |
M_translate = np.float32([[1, 0, tx], [0, 1, ty]]) | |
img_translated = cv2.warpAffine(img, M_translate, (w, h)) | |
mask_translated = cv2.warpAffine(mask, M_translate, (w, h)) | |
flipped_img = cv2.flip(img_translated, flip_code) | |
flipped_mask = cv2.flip(mask_translated, flip_code) | |
M_translate_back = np.float32([[1, 0, -tx], [0, 1, -ty]]) | |
flipped_img_back = cv2.warpAffine(flipped_img, M_translate_back, (w, h)) | |
flipped_mask_back = cv2.warpAffine(flipped_mask, M_translate_back, (w, h)) | |
return flipped_img_back, flipped_mask_back, (cx, cy) | |