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- # coding: utf-8
- """ Converts pixel-art images into cross-stitch patterns.
-
- This tool assumes that 1px = 1 stitch.
-
- TODO:
- * Accept image name from command line. (DONE)
- * Change characters to symbols for ease of reading.
- * Expand number of symbols.
- * Create image from symbolized pixels instead of just printing to screen. (DONE)
- * Add grid lines and edge labels to image. (DONE)
- * Add legend to image, based on the `symbols` dictionary. (DONE)
- * Correspond hex colors to floss colors, where possible.
- * (Maybe) add stitch count for each color. (DONE)
- * (Maybe) add GUI. (DONE)
- * Make sure legend width doesn't exceed image width.
- """
-
- __author__ = "Noëlle Anthony"
- __version__ = "0.4.0"
-
- import sys
- from PIL import Image, ImageDraw
- from collections import defaultdict
-
- def create_stitch(img_name):
- img = Image.open("/var/www/noelle.codes/node/stitchimg/" + img_name)
- oimg_name_bits = img_name.split("/")[-1].split(".")
- oimg_name = "".join(oimg_name_bits[:-1]) + "_pattern." + oimg_name_bits[-1]
- oimg_fullpath = "/var/www/noelle.codes/node/stitchimg/" + oimg_name
- w,h = img.size
-
- symbols = defaultdict(str)
- symbols["transparent"] = " "
- characters = "AaBbCcDdEeFfGgHhIiJjKkLlMmNnOoPpQqRrSsTtUuVvWwXxYyZz"
- symbol_counts = defaultdict(int)
- # l = 0
- lines = []
- for i in range(h):
- line = []
- # k = 0
- for j in range(w):
- c = "".join(["{}{}".format(hex(x//16).split('x')[-1], hex(x%16).split('x')[-1]) for x in list(img.getpixel((j,i)))])
- d = " "
- if c[-2:] == "ff":
- cs = c[:-2]
- if cs not in symbols.keys():
- symbols[cs] = characters[0]
- characters = characters[1:]
- symbol_counts[cs] += 1
- d = symbols[cs]
- line.append(d)
- # print(d, end="")
- # k += 1
- # if k == 9:
- # print("|", end="")
- # k = 0
- lines.append(line)
- # print()
- # l += 1
- # if l == 9:
- # for ww in range(int(w*1.1)+1):
- # if (ww+1)%10 == 0:
- # print("+", end="")
- # else:
- # print("-", end="")
- # l = 0
- # print()
-
- # print("\nLEGEND")
- legend = []
- keys = 0
- for k,v in symbols.items():
- if v != " ":
- keys += 1
- legend.append("{}: #{} ({}ct)".format(v, k, symbol_counts[k]))
- #print("{} keys".format(keys))
- # print("\n".join(legend))
-
- owid, ohgt = (w*10)+10, (h*10)+20+(15*(int(keys/3)+1))
- #print((owid, ohgt))
- oimg = Image.new("RGB", (owid, ohgt), "white")
- draw = ImageDraw.Draw(oimg)
- woff, hoff = int(((w)%10)/2)+1, int(((h)%10)/2)+1
- for ww in range(1, w+1):
- posx = ww * 10
- linecolor = 0 if (posx-(woff*10)) % 100 == 0 else (128,128,128)
- linewidth = 2 if (posx-(woff*10)) % 100 == 0 else 1
- draw.line((posx, 10, posx, ((h+1)*10)), fill=linecolor, width=linewidth)
- for hh in range(1, h+2):
- posy = hh * 10
- linecolor = 0 if (posy-(hoff*10)) % 100 == 0 else (128,128,128)
- linewidth = 2 if (posy-(hoff*10)) % 100 == 0 else 1
- draw.line((10, posy, owid, posy), fill=linecolor, width=linewidth)
- char_positions = [x*10+4 for x in range(1,max(h,w)+1)]
- # print(char_positions)
- #char_colors = {" ": (0,0,0), "A": (0,0,0), "B": (128,0,0), "C": (0,128,0), "D": (0,255,255), "E": (128,128,0), "F": (128,0,128), "G": (0,0,0)}
- adjust = 0
- for line in lines:
- for char in range(len(line)):
- # print(char_positions[char])
- # print(line[char])
- try:
- draw.text((char_positions[char], char_positions[0]-4+adjust), line[char], fill=0)
- except:
- pass
- adjust += 10
- legend_out = ""
- item_ct = 0
- for item in legend:
- item_ct += 1
- legend_out += item
- if item_ct % 3 == 0:
- legend_out += "\n"
- else:
- legend_out += " "
- draw.text((20, (h*10)+20), legend_out, fill=0)
- oimg.save(oimg_name)
- print("{}".format(oimg_fullpath))
- sys.stdout.flush()
- # if display:
- # oimg.show()
-
- if __name__ == "__main__":
- create_stitch(sys.argv[1])
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