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157 lines (132 loc) · 5.95 KB
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from bottle import route, run, template, static_file, get, post, request, BaseRequest
import urllib.request, urllib.error, urllib.parse
import cv2
import numpy as np
import re
import base64
import tensorflow as tf
import dc_main
from dc_main import *
import guess_colors
from guess_colors import *
BaseRequest.MEMFILE_MAX = 1000 * 1000
c = Color(512, 1)
p = Palette(256, 1)
c.loadmodel(load_discrim=False)
p.loadmodel(c.sess, False)
@route('/<filename:path>')
def send_static(filename):
return static_file(filename, root='web/')
@route('/draw')
def send_static():
return static_file("draw.html", root='web/')
@route('/')
def send_static():
return static_file("index.html", root='web/')
def imageblur(cimg, sampling=False):
if sampling:
cimg = cimg * 0.3 + np.ones_like(cimg) * 0.7 * 255
else:
for i in range(30):
randx = randint(0,205)
randy = randint(0,205)
cimg[randx:randx+50, randy:randy+50] = 255
return cv2.blur(cimg,(100,100))
@route("/standard_sanae", method="POST")
def do_uploadtl():
lines_img = cv2.imread("web/image_examples/sanae.png", 1)
lines_img = np.array(cv2.resize(lines_img, (512,512)))
lines_img = cv2.adaptiveThreshold(cv2.cvtColor(lines_img, cv2.COLOR_BGR2GRAY), 255, cv2.ADAPTIVE_THRESH_MEAN_C, cv2.THRESH_BINARY, blockSize=9, C=2)
lines_img = cv2.merge((lines_img,lines_img,lines_img,255 - lines_img))
cnt = cv2.imencode(".png",lines_img)[1]
return base64.b64encode(cnt)
@route("/standard_armscross", method="POST")
def do_uploadtl():
lines_img = cv2.imread("web/image_examples/armscross.png", 1)
lines_img = np.array(cv2.resize(lines_img, (512,512)))
lines_img = cv2.adaptiveThreshold(cv2.cvtColor(lines_img, cv2.COLOR_BGR2GRAY), 255, cv2.ADAPTIVE_THRESH_MEAN_C, cv2.THRESH_BINARY, blockSize=9, C=2)
lines_img = cv2.merge((lines_img,lines_img,lines_img,255 - lines_img))
cnt = cv2.imencode(".png",lines_img)[1]
return base64.b64encode(cnt)
@route("/standard_picasso", method="POST")
def do_uploadtl():
lines_img = cv2.imread("web/image_examples/picasso.png", 1)
lines_img = np.array(cv2.resize(lines_img, (512,512)))
lines_img = cv2.adaptiveThreshold(cv2.cvtColor(lines_img, cv2.COLOR_BGR2GRAY), 255, cv2.ADAPTIVE_THRESH_MEAN_C, cv2.THRESH_BINARY, blockSize=9, C=2)
lines_img = cv2.merge((lines_img,lines_img,lines_img,255 - lines_img))
cnt = cv2.imencode(".png",lines_img)[1]
return base64.b64encode(cnt)
@route("/upload_toline", method="POST")
def do_uploadtl():
print("Parsing line")
img = request.files.get('img')
lines_img = cv2.imdecode(np.fromstring(img.file.read(), np.uint8), cv2.CV_LOAD_IMAGE_UNCHANGED)
lines_img = np.array(cv2.resize(lines_img, (512,512)))
lines_img = cv2.adaptiveThreshold(cv2.cvtColor(lines_img, cv2.COLOR_BGR2GRAY), 255, cv2.ADAPTIVE_THRESH_MEAN_C, cv2.THRESH_BINARY, blockSize=9, C=2)
lines_img = cv2.merge((lines_img,lines_img,lines_img,255 - lines_img))
cnt = cv2.imencode(".png",lines_img)[1]
return base64.b64encode(cnt)
def imageblur(cimg, sampling=False):
if sampling:
cimg = cimg * 0.3 + np.ones_like(cimg) * 0.7 * 255
else:
for i in range(30):
randx = randint(0,205)
randy = randint(0,205)
cimg[randx:randx+50, randy:randy+50] = 255
return cv2.blur(cimg,(100,100))
@route('/upload_canvas', method='POST')
def do_uploadc():
print("Got it")
# lines = request.files.get('lines')
# colors = request.files.get('colors')
line_data = request.forms.get("lines")
line_data = re.sub('^data:image/.+;base64,', '', line_data)
line_s = base64.b64decode(line_data)
line_img = np.fromstring(line_s, dtype=np.uint8)
line_img = cv2.imdecode(line_img, -1)
color_data = request.forms.get("colors")
color_data = re.sub('^data:image/.+;base64,', '', color_data)
color_s = base64.b64decode(color_data)
color_img = np.fromstring(color_s, dtype=np.uint8)
color_img = cv2.imdecode(color_img, -1)
lines_img = np.array(cv2.resize(line_img, (512,512)))
lines_img = np.array([lines_img]) / 255.0
lines_img = lines_img[:,:,:,0]
lines_img = np.expand_dims(lines_img, 3)
color_img = color_img[:,:,:] * lines_img[0,:,:,:]
colors_img = imageblur(color_img, True)
colors_img = np.array([colors_img]) / 255.0
colors_img = colors_img[:,:,:,0:3]
generated = c.sess.run(c.generated_images, feed_dict={c.line_images: lines_img, c.color_images: colors_img})
cnt = cv2.imencode(".png",generated[0]*255)[1]
return base64.b64encode(cnt)
@route('/upload_lineonly', method='POST')
def do_uploadc():
print("Got it")
# lines = request.files.get('lines')
# colors = request.files.get('colors')
line_data = request.forms.get("lines")
line_data = re.sub('^data:image/.+;base64,', '', line_data)
line_s = base64.b64decode(line_data)
line_img = np.fromstring(line_s, dtype=np.uint8)
line_img = cv2.imdecode(line_img, -1)
lines_img = np.array(cv2.resize(line_img, (512,512)))
lines_img = np.array([lines_img]) / 255.0
lines_img = lines_img[:,:,:,0]
lines_img = np.expand_dims(lines_img, 3)
lines_img_sm = np.array(cv2.resize(line_img, (256,256)))
lines_img_sm = np.array([lines_img_sm]) / 255.0
lines_img_sm = lines_img_sm[:,:,:,0]
lines_img_sm = np.expand_dims(lines_img_sm, 3)
random_z = np.random.normal(0, 1, [p.batch_size, p.z_dim])
color_img = p.sess.run(p.generated_images, feed_dict={p.line_images: lines_img_sm, p.guessed_z: random_z})
color_img = np.array([cv2.resize(x, (512,512), interpolation=cv2.INTER_NEAREST) for x in color_img])[0]
color_img = color_img * 255.0
colors_img = imageblur(color_img, True)
colors_img = np.array([colors_img]) / 255.0
colors_img = colors_img[:,:,:,0:3]
generated = c.sess.run(c.generated_images, feed_dict={c.line_images: lines_img, c.color_images: colors_img})
cnt = cv2.imencode(".png",generated[0]*255)[1]
return base64.b64encode(cnt)
run(host="0.0.0.0", port=8000)