| | |
| |
|
| | """ |
| | Possible shell commands |
| | |
| | Dilation SEx |
| | Erosion SEx |
| | Hit-Or-Miss SEx |
| | ChangeColor [[a1,a2,a3],[b1,b2,b3]] |
| | |
| | Example |
| | fname.json band-Dilation-SE1-iterate band-Erosion-SE2-iterate band-HitorMiss-SE2-iterate band-ChangeColor-[[a1,a2,a3],[b1,b2,b3]]-iterate |
| | |
| | ./Dataset/CatB_Hard/Task000.json 1-HitOrMiss-SE8-1 1-Dilation-SE6-2 1-Erosion-SE6-2 2-Dilation-SE8-1 2-Dilation-SE7-1 2-Dilation-SE5-1 2-Dilation-SE7-1 2-Erosion-SE7-1 2-Erosion-SE5-1 2-Erosion-SE7-1 1-ChangeColor-[[0,0,0],[0,1,2],[1,0,1],[1,1,2]]-1 |
| | |
| | will check if the given sequence satisfies the tasks in <fname>.json |
| | |
| | """ |
| |
|
| | import os.path |
| | import sys |
| | import numpy as np |
| | import json |
| | import pdb |
| | from matplotlib import pyplot as plt |
| | import os |
| | from ast import literal_eval |
| |
|
| | |
| | from scipy.ndimage import binary_dilation, binary_erosion, binary_hit_or_miss |
| | import random |
| |
|
| | from ListSelEm import * |
| | from Utils import Process, Change_Colour |
| |
|
| |
|
| | def perform_op(fname, list_ops): |
| | def _perform_task(img, k_iterate, op, se): |
| | for _ in range(k_iterate): |
| | list_se = ['SE1', 'SE2', 'SE3', 'SE4', 'SE5', 'SE6', 'SE7', 'SE8'] |
| | if op == 'Dilation': |
| | list_se_idx = list_se.index(se) |
| | img = binary_dilation(img, list_se_3x3[list_se_idx]) |
| | elif op == 'Erosion': |
| | list_se_idx = list_se.index(se) |
| | img = binary_erosion(img, list_se_3x3[list_se_idx]) |
| | elif op == 'HitOrMiss': |
| | list_se_idx = list_se.index(se) |
| | tmp_img = binary_hit_or_miss(img, list_se_3x3[list_se_idx]) |
| | img[tmp_img] = 2 |
| | img = Process(img, num_colors=2) |
| | elif op == 'ChangeColor': |
| | img = Change_Colour(img, np.array(se, dtype=np.int32)) |
| | return img |
| |
|
| | |
| | with open(fname, 'r') as f: |
| | data = json.load(f) |
| |
|
| | for d in data: |
| | img = np.array(d['input'], dtype=np.int32) |
| | if len(img.shape) == 2: |
| | sx, sy = img.shape |
| | img = img.reshape((sx, sy, 1)) |
| | for band, k_iterate, op, se in list_ops: |
| | if op != 'HitOrMiss' and op != 'ChangeColor': |
| | img[:, :, band-1] = _perform_task(img[:, :, band-1], k_iterate, op, se) |
| | elif op == 'HitOrMiss': |
| | img = _perform_task(img[:, :, band-1], k_iterate, op, se) |
| | else: |
| | img = _perform_task(img, k_iterate, op, se) |
| | img = img*1 |
| | out = np.array(d['output'], dtype=np.int32) |
| | check_same = np.all(img == out) |
| | if check_same: |
| | print("Program works!!") |
| | else: |
| | print("Something went wrong!!") |
| |
|
| |
|
| | if __name__ == '__main__': |
| | fname = sys.argv[1] |
| | list_ops = [] |
| | for arg in sys.argv[2:]: |
| | band, op, se, k_iterate = str(arg).split("-") |
| | band = int(band) |
| | k_iterate = int(k_iterate) |
| | if op == 'ChangeColor': |
| | se = np.array(literal_eval(se)) |
| | list_ops.append((band, k_iterate, op, se)) |
| |
|
| | perform_op(fname, list_ops) |
| |
|
