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#!/usr/bin/python2.7
import sys
import cgi
from os import getpid, path
from subprocess import call, Popen, PIPE
import time
MAIN_DIRECTORY = ""
BIN_CONVERT = "convert"
BIN_IDENTIFY = "identify"
BIN_COMPOSITE = "composite"
ACCEPTABLE_FILE_TYPES = [".png", ".jpg", ".gif", ".jpeg"]
def usage():
sys.stderr.write("$>makePattern.py [ input_file ] [ pattern_file ] [ username ]");
def now():
return str(int(time.time()))
def image_dimensions_and_test(filename):
ident = Popen([BIN_IDENTIFY, filename], stdout=PIPE).communicate()[0]
partz = ident.split(" ")
filetype = "."+partz[1]
size = partz[6]
if filetype.lower() not in ACCEPTABLE_FILE_TYPES:
error("file was not an image")
return partz[2].split("x")
def error(s):
" returns an error and exits the program "
print("ERROR: "+s)
exit(1)
def hexdir(filename):
" creates a two-letter directory name "
return sha1(filename.encode()).hexdigest()[:2]
#repage command convert original.png -resize 425x92 -repage 425x92+0+0 new.png
class Pattern:
def __init__(self):
self.nametag = "imPattern";
self.pid = str(getpid())
self.pattern_file = "";
self.original_file = "";
self.username = "";
self.commands = [];
def makeResultFilename(self):
file_base, extension = path.splitext(self.original_file)
if len(file_base) > self.MAX_NAME_LENGTH:
file_base = file_base[0:self.MAX_NAME_LENGTH]
return "%s_%s_%s%s%s" % (file_base, self.username, self.nametag, now(), extension)
#first step
def makeCanvas(self):
call([BIN_CONVERT,"-size",self.dimensions[0]+"x"+self.dimensions[1],"canvas:transparent", self.canvas_file])
#second step use the Canvas as a background
def makeMask(self):
#tile the pattern pattern on the canvas
command = [BIN_COMPOSITE,"-tile", self.pattern_file, self.canvas_file, self.mask_file];
call(command)
self.commands.append(command)
#fuse the tiled file to create a mask
#convert thebg.gif -compose Dst_In null: thefile.gif -matte -layers composite new.gif
command = [BIN_CONVERT, self.mask_file, "-compose", "Dst_In", "null:", self.original_file, "-matte", "-layers", "composite", self.mask_file]
call(command)
#cleanup
call(["rm", self.canvas_file])
#third step
def fuseMask(self, fuse_mode="Pin_Light"):
call([BIN_CONVERT, self.mask_file, "null:", self.original_file, "-matte", "-compose", fuse_mode, "-layers", "composite", self.result_file])
call(["rm", self.mask_file])
def main(self, input_file_path, pattern_file, username=""):
self.pattern_file = pattern_file;
self.original_file = input_file_path;
self.username = username;
self.MAX_NAME_LENGTH = 10;
self.image_format = self.original_file.split(".")[-1]
self.dimensions = ""
try:
self.dimensions = image_dimensions_and_test(self.original_file);
except Exception as e:
sys.stderr.write(str(e));
error("Unable to determine dimensions")
self.canvas_file = self.pid+"blank_canvas.png";
self.makeCanvas();
self.mask_file = self.pid+"mask_file"+"."+self.image_format;
self.makeMask();
self.result_file = self.makeResultFilename();
self.fuseMask();
if __name__ == "__main__":
p = Pattern();
if len(sys.argv) < 2 or len(sys.argv) > 3:
usage();
sys.exit(0);
input_file_path = sys.argv[1]
pattern_file = sys.argv[2]
username = "";
# username = sys.argv[3]
print input_file_path;
print pattern_file;
print username;
p.main(input_file_path, pattern_file, username);
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