IOPaint/iopaint/model/anytext/utils.py
2024-01-21 12:30:49 +08:00

152 lines
4.9 KiB
Python

import os
import datetime
import cv2
import numpy as np
from PIL import Image, ImageDraw
def save_images(img_list, folder):
if not os.path.exists(folder):
os.makedirs(folder)
now = datetime.datetime.now()
date_str = now.strftime("%Y-%m-%d")
folder_path = os.path.join(folder, date_str)
if not os.path.exists(folder_path):
os.makedirs(folder_path)
time_str = now.strftime("%H_%M_%S")
for idx, img in enumerate(img_list):
image_number = idx + 1
filename = f"{time_str}_{image_number}.jpg"
save_path = os.path.join(folder_path, filename)
cv2.imwrite(save_path, img[..., ::-1])
def check_channels(image):
channels = image.shape[2] if len(image.shape) == 3 else 1
if channels == 1:
image = cv2.cvtColor(image, cv2.COLOR_GRAY2BGR)
elif channels > 3:
image = image[:, :, :3]
return image
def resize_image(img, max_length=768):
height, width = img.shape[:2]
max_dimension = max(height, width)
if max_dimension > max_length:
scale_factor = max_length / max_dimension
new_width = int(round(width * scale_factor))
new_height = int(round(height * scale_factor))
new_size = (new_width, new_height)
img = cv2.resize(img, new_size)
height, width = img.shape[:2]
img = cv2.resize(img, (width - (width % 64), height - (height % 64)))
return img
def insert_spaces(string, nSpace):
if nSpace == 0:
return string
new_string = ""
for char in string:
new_string += char + " " * nSpace
return new_string[:-nSpace]
def draw_glyph(font, text):
g_size = 50
W, H = (512, 80)
new_font = font.font_variant(size=g_size)
img = Image.new(mode="1", size=(W, H), color=0)
draw = ImageDraw.Draw(img)
left, top, right, bottom = new_font.getbbox(text)
text_width = max(right - left, 5)
text_height = max(bottom - top, 5)
ratio = min(W * 0.9 / text_width, H * 0.9 / text_height)
new_font = font.font_variant(size=int(g_size * ratio))
text_width, text_height = new_font.getsize(text)
offset_x, offset_y = new_font.getoffset(text)
x = (img.width - text_width) // 2
y = (img.height - text_height) // 2 - offset_y // 2
draw.text((x, y), text, font=new_font, fill="white")
img = np.expand_dims(np.array(img), axis=2).astype(np.float64)
return img
def draw_glyph2(
font, text, polygon, vertAng=10, scale=1, width=512, height=512, add_space=True
):
enlarge_polygon = polygon * scale
rect = cv2.minAreaRect(enlarge_polygon)
box = cv2.boxPoints(rect)
box = np.int0(box)
w, h = rect[1]
angle = rect[2]
if angle < -45:
angle += 90
angle = -angle
if w < h:
angle += 90
vert = False
if abs(angle) % 90 < vertAng or abs(90 - abs(angle) % 90) % 90 < vertAng:
_w = max(box[:, 0]) - min(box[:, 0])
_h = max(box[:, 1]) - min(box[:, 1])
if _h >= _w:
vert = True
angle = 0
img = np.zeros((height * scale, width * scale, 3), np.uint8)
img = Image.fromarray(img)
# infer font size
image4ratio = Image.new("RGB", img.size, "white")
draw = ImageDraw.Draw(image4ratio)
_, _, _tw, _th = draw.textbbox(xy=(0, 0), text=text, font=font)
text_w = min(w, h) * (_tw / _th)
if text_w <= max(w, h):
# add space
if len(text) > 1 and not vert and add_space:
for i in range(1, 100):
text_space = insert_spaces(text, i)
_, _, _tw2, _th2 = draw.textbbox(xy=(0, 0), text=text_space, font=font)
if min(w, h) * (_tw2 / _th2) > max(w, h):
break
text = insert_spaces(text, i - 1)
font_size = min(w, h) * 0.80
else:
shrink = 0.75 if vert else 0.85
font_size = min(w, h) / (text_w / max(w, h)) * shrink
new_font = font.font_variant(size=int(font_size))
left, top, right, bottom = new_font.getbbox(text)
text_width = right - left
text_height = bottom - top
layer = Image.new("RGBA", img.size, (0, 0, 0, 0))
draw = ImageDraw.Draw(layer)
if not vert:
draw.text(
(rect[0][0] - text_width // 2, rect[0][1] - text_height // 2 - top),
text,
font=new_font,
fill=(255, 255, 255, 255),
)
else:
x_s = min(box[:, 0]) + _w // 2 - text_height // 2
y_s = min(box[:, 1])
for c in text:
draw.text((x_s, y_s), c, font=new_font, fill=(255, 255, 255, 255))
_, _t, _, _b = new_font.getbbox(c)
y_s += _b
rotated_layer = layer.rotate(angle, expand=1, center=(rect[0][0], rect[0][1]))
x_offset = int((img.width - rotated_layer.width) / 2)
y_offset = int((img.height - rotated_layer.height) / 2)
img.paste(rotated_layer, (x_offset, y_offset), rotated_layer)
img = np.expand_dims(np.array(img.convert("1")), axis=2).astype(np.float64)
return img