/
merge_image.py
executable file
·170 lines (144 loc) · 4.82 KB
/
merge_image.py
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#!/usr/bin/python
import os
import random
from PIL import ImageOps
import Image
BASE_PATH = "/home/aloha/code/imagesearch"
HEIGHT = 768
WIDTH = 1024
#
# This file is part of ImageSearch.
#
# ImageSearch is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# ImageSearch is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with ImageSearch. If not, see <http://www.gnu.org/licenses/>.
#
def get_width_height(img_name):
Image.load(img_name)
x, y = img.size
return(x,y)
ve = {}
hz = {}
sq = {}
def assign(target, colorname, img_name):
if not colorname in target:
target[colorname] = [img_name]
else:
target[colorname].append(img_name)
return(target)
for dirname in os.walk(BASE_PATH + os.sep + 'output'):
if len(dirname[-1]) > 1:
for img_name in dirname[-1]:
colorname = dirname[-3].split("/")[-1]
if img_name.find('_ve_') > -1:
ve = assign(ve, colorname, img_name)
elif img_name.find('_hz_') > -1:
hz = assign(hz, colorname, img_name)
else:
sq = assign(sq, colorname, img_name)
im_n = Image.new("RGB", (1024, 768), "white")
img_name = random.choice(ve["green_blue"])
im = Image.open(BASE_PATH + os.sep + "output/green_blue/" + img_name)
size = 512, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (256, 256))
name = "black_red"
i = random.randrange(0,3)
if i == 0:
img_name = random.choice(ve[name])
elif i == 1:
img_name = random.choice(hz[name])
else:
img_name = random.choice(sq[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (0, 0))
name = "black_green"
i = random.randrange(0,3)
if i == 0:
img_name = random.choice(ve[name])
elif i == 1:
img_name = random.choice(hz[name])
else:
img_name = random.choice(sq[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (256, 0))
name = "black_blue"
img_name = random.choice(ve[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (256*2, 0))
name = "blue_green"
img_name = random.choice(hz[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (256*3, 0))
name = "blue_red"
img_name = random.choice(hz[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (0, 256))
name = "green_red"
img_name = random.choice(hz[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (256 * 3, 256))
name = "red_blue"
img_name = random.choice(sq[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (0, 256 * 3))
name = "red_blue"
img_name = random.choice(sq[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (0, 256 * 2))
name = "red_green"
img_name = random.choice(sq[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (256, 256 * 2))
name = "white_green"
i = random.randrange(0,3)
if i == 0:
img_name = random.choice(ve[name])
elif i == 1:
img_name = random.choice(hz[name])
else:
img_name = random.choice(sq[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (256 * 2, 256 * 2))
name = "white_red"
i = random.randrange(0,3)
if i == 0:
img_name = random.choice(ve[name])
elif i == 1:
img_name = random.choice(hz[name])
else:
img_name = random.choice(sq[name])
im = Image.open(BASE_PATH + os.sep + "output" + os.sep + name + os.sep + img_name)
size = 256, 256
im = ImageOps.fit(im, size, Image.ANTIALIAS)
im_n.paste(im, (256 * 3, 256 * 2))
im_n.save(BASE_PATH + os.sep + "out.jpg")