def __init__(self, a_queue):
self.a_queue = a_queue
self.black_model = keras.models.load_model(
get_absolute_path("../resources/black_model.h5", __file__)
)
self.white_model = keras.models.load_model(
get_absolute_path("../resources/white_model.h5", __file__)
)
def get_squares_ids() -> dict:
"""
:return: squares_ids.json as python dict
"""
with open(get_absolute_path("squares_ids.json", __file__),
encoding="utf-8") as file:
return json.loads(file.read())
def get_squares_ids_absolute_paths() -> dict:
squares_ids: dict = get_squares_ids()
result: dict = {}
for square_color, pieces in squares_ids.items():
for piece, piece_id in pieces.items():
relative_path = dataset_squares + "/" + square_color + "/" + piece
result[get_absolute_path(relative_path, __file__)] = piece_id
return result
def __init__(self, root, *args, **kwargs):
tk.Frame.__init__(self, root, *args, **kwargs)
self.canvas = tk.Canvas(self, width=560, height=560)
self.canvas.place(x=20, y=20)
self.board_image = ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/board.jpg", __file__)).resize((560, 560))
)
self.canvas.create_image(0, 0, image=self.board_image, anchor=tk.NW)
self.pieces = load_pieces()
self.showed_pieces = []
def save_counter(count: int) -> None:
with open(get_absolute_path("count_diagrams.txt", __file__),
"w") as counter_file:
counter_file.write(str(count) + "\n")
def get_counter() -> int:
with open(get_absolute_path("count_diagrams.txt", __file__),
"r") as counter_file:
return int(counter_file.readline().strip())
################################################################################
# Crop 'diagrams' from 'raw_diagrams'
################################################################################
from relative_to_absolute_path import get_absolute_path
import sys
sys.path.insert(0, get_absolute_path("../src", __file__))
import cv2 as cv
from os import listdir, remove
from os.path import isfile, join, exists
from detection import get_diagram_position
################################################################################
################################################################################
# Set paths:
input_dataset: str = get_absolute_path("../datasets/raw_diagrams", __file__)
assert exists(
input_dataset), "'%s' must be a valid directory path" % input_dataset
output_dataset: str = get_absolute_path("../datasets/unused_diagrams",
__file__)
assert exists(
output_dataset), "'%s' must be a valid directory path" % output_dataset
################################################################################
################################################################################
# Read 'count' from file
def get_counter() -> int:
def load_pieces() -> dict:
return {
4: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/bB.png", __file__)).resize((70, 70))
),
6: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/bK.png", __file__)).resize((70, 70))
),
3: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/bN.png", __file__)).resize((70, 70))
),
1: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/bP.png", __file__)).resize((70, 70))
),
5: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/bQ.png", __file__)).resize((70, 70))
),
2: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/bR.png", __file__)).resize((70, 70))
),
10: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/wB.png", __file__)).resize((70, 70))
),
12: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/wK.png", __file__)).resize((70, 70))
),
9: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/wN.png", __file__)).resize((70, 70))
),
7: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/wP.png", __file__)).resize((70, 70))
),
11: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/wQ.png", __file__)).resize((70, 70))
),
8: ImageTk.PhotoImage(
Image.open(get_absolute_path("../resources/pieces/wR.png", __file__)).resize((70, 70))
),
}
################################################################################
# Use this script to classify unlabeled squares
################################################################################
from relative_to_absolute_path import get_absolute_path
import cv2 as cv
import tkinter as tk
from PIL import Image, ImageTk
import sys
from os import listdir
from os.path import isfile, join, exists
import os
################################################################################
# Set paths:
input_dataset: str = get_absolute_path("../datasets/unlabeled_squares/",
__file__)
assert exists(
input_dataset), "'%s' must be a valid directory path" % input_dataset
output_dataset: str = get_absolute_path("../datasets/squares/", __file__)
assert exists(
output_dataset), "'%s' must be a valid directory path" % output_dataset
################################################################################
OPTIONS = [
"empty", "black_bishop", "black_king", "black_knight", "black_pawn",
"black_queen", "black_rook", "white_bishop", "white_king", "white_knight",
"white_pawn", "white_queen", "white_rook"
]
i = 0
################################################################################
# For all diagrams in 'diagrams' crop each square
# and put all squares in 'unlabeled squares'
################################################################################
from relative_to_absolute_path import get_absolute_path
import cv2 as cv
from os import listdir, rename
from os.path import isfile, join, exists
################################################################################
################################################################################
# Set paths:
input_dataset = get_absolute_path("../datasets/unused_diagrams", __file__)
output_dataset_diagrams = get_absolute_path("../datasets/diagrams", __file__)
output_dataset = get_absolute_path("../datasets/unlabeled_squares", __file__)
output_dataset_black = output_dataset + "/black"
assert exists(output_dataset_black
), "'%s' must be a valid directory path" % output_dataset_black
output_dataset_white = output_dataset + "/white"
assert exists(output_dataset_white
), "'%s' must be a valid directory path" % output_dataset_white
################################################################################
################################################################################
# Read 'count' from file
def get_counter() -> int:
with open(get_absolute_path("count_squares.txt", __file__),
def main():
X, Y = get_data()
save_data_as_csv(X, Y, get_absolute_path(output_file, __file__))
################################################################################
# Print number of files for each dataset
################################################################################
from squares_ids import get_squares_ids_absolute_paths
from relative_to_absolute_path import get_absolute_path
from os import listdir
from os.path import isfile, join, basename
################################################################################
################################################################################
# Set paths:
dataset_diagrams: str = get_absolute_path("../datasets/diagrams", __file__)
################################################################################
################################################################################
def print_status_squares() -> None:
print("************************************************************")
print("S Q U A R E S")
print()
paths: dict = get_squares_ids_absolute_paths()
count_all: int = 0
print("black_square:")
for path in paths:
if "black_square" in path:
number_of_squares = len(
[f for f in listdir(path) if isfile(join(path, f))])
count_all += number_of_squares
print("\t" + basename(path), ":", number_of_squares)
def load_data() -> np.ndarray:
absolute_path = get_absolute_path(dataset_squares, __file__)
assert exists(absolute_path), "'%s' must be a valid directory path" % absolute_path
return np.genfromtxt(absolute_path, delimiter=",", dtype=np.uint8)
