#!/usr/bin/env python3 import os import math import cv2 import pathlib from typing import NamedTuple from entity import Entity TILE_SIZE = 800 TILE_OVERLAP = 0.8 class BoundingBox(NamedTuple): x: float = 0.0 y: float = 0.0 w: float = 0.0 h: float = 0.0 @classmethod def from_centroid(cls, c): x = math.floor(c.x + c.w/2) y = math.floor(c.y + c.h/2) self = cls(x=x, y=y, w=math.ceil(c.w), h=math.ceil(c.h)) return self @classmethod def from_dict(cls, d): self = cls(x=d['x'], y=d['y'], w=d['width'], h=d['height']) return self class Centroid(BoundingBox): @classmethod def from_bounding_box(cls, b): x = math.floor(b.x - c.w/2) y = math.floor(b.y - c.h/2) self = cls(x=x, y=y, w=math.ceil(c.w), h=math.ceil(c.h)) def read_bounding_boxes(filename): boxes = [] with open(filename, 'r') as f: (x,y,w,h) = [float(i) for i in f.readline().split(' ')[1:]] boxes.append(BoundingBox(x,y,w,h)) return boxes def floor_point(a, b): return (math.floor(a), math.floor(b)) def cut_img(im, s, e): x = s[0] y = s[1] w = e[0] - x h = e[1] - y print("DEBUG", im.shape, x, y, w, h) return im[y:h, x:w] def cut_logo(im, l): (x, y, w, h) = floor_logo(l) return im[x:w, y:h] def crop(fn, logos): basename = os.path.basename(fn).replace('.png', '') out = f"./data/squares" pathlib.Path(out).mkdir(parents=True, exist_ok=True) im = cv2.imread(fn) (h, w, c) = im.shape (tx, ty)= ( math.ceil(w/(TILE_SIZE*TILE_OVERLAP)), math.ceil(h/(TILE_SIZE*TILE_OVERLAP)) ) print('shape', basename, tx, ty, h, w, logos) for x in range(tx): for y in range(ty): color = (0,x*(255/tx),y*(255/ty)) fx = math.floor(x*(w - TILE_SIZE)/(tx)) fy = math.floor(y*(h - TILE_SIZE)/(ty)) start = (fx, fy) end = (fx + TILE_SIZE, fy + TILE_SIZE) #im = cv2.rectangle(im, start, end, color, 10) li = [] for l in logos: def intersect(): six = l.x - fx siy = l.y - fy eix = six + l.w eiy = siy + l.h if six < 0: if six + l.w < 0: return None six = 0 if siy < 0: if siy + l.h < 0: return None siy = 0 if eix > TILE_SIZE: if eix - l.w > TILE_SIZE: return None eix = TILE_SIZE if eiy > TILE_SIZE: if eiy - l.h > TILE_SIZE: return None eiy = TILE_SIZE return (six, siy), (eix, eiy) p = intersect() if p: li.append(p) c = (255, 0, 0) nim = im[fy:fy+TILE_SIZE, fx:fx+TILE_SIZE] name =f"{out}/{basename}.{x}.{y}" cv2.imwrite(f"{name}.png", nim) if len(li): with open(f"{name}.txt", 'w') as f: for p in li: cw = p[1][0] - p[0][0] ch = p[1][1] - p[0][1] cx = cw/2 + p[0][0] cy = ch/2 + p[0][1] a = f"{basename} {cx/TILE_SIZE} {cy/TILE_SIZE} {cw/TILE_SIZE} {ch/TILE_SIZE}" f.write(a) print(a) if __name__ == '__main__': boxes = read_bounding_boxes("./data/debug.full.txt") print(boxes) crop("./data/debug.full.png", boxes)