Example #1
0
    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)

        argparser = fse_patcher.makeArgParser()

        self.logger = _logging.getLogger(__name__)

        self.checkboxargs = []
        self.valueargs = []

        for action in argparser._actions:
            if isinstance(action, argparse._HelpAction):
                pass
            elif isinstance(action, argparse._StoreTrueAction):
                self.checkboxargs.append(
                    CheckboxArg(self, action.dest, action.help))
            elif isinstance(action, argparse._StoreAction):
                self.valueargs.append(
                    ValueArg(self, action.dest, action.help, action.nargs))
            else:
                self.logger.error("Unknown type", type(action))

        self.argstr_vis = tk.StringVar()
        self.argstr = []

        self.initwindow()

        self.mainloop()
Example #2
0
from PIL import Image
from PIL import ImageChops
import os
import re
import glob
import math
import _logging
import yaml

logger = _logging.getLogger(__name__)

SEP = "_"
REPLACE_THRESHHOLD = 0.5  # How much more efficient the patch needs to be than just using the image outright.


def distance(t1, t2):
    """Returns the distance between two points in n-dimensional space.
    Used for determining the difference between two RGBA colors.
    Coordinate length must match.

    Args:
        t1 (tuple): Coordinates
        t2 (tuple): Coordinates

    Returns:
        float: Distance
    """
    e2 = 0
    for a, b in zip(t1, t2):
        e2 += (a - b)**2
    return math.sqrt(e2)
Example #3
0
def getLogger(*args):
    """getLogger() -> Logger"""
    return _logging.getLogger(*args)
Example #4
0
def getLogger(*args):
    """getLogger() -> Logger"""
    return _logging.getLogger(*args)