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#! /usr/bin/env python3 | |
# -*- coding: utf-8 -*- | |
# File : patch_match.py | |
# Author : Jiayuan Mao | |
# Email : maojiayuan@gmail.com | |
# Date : 01/09/2020 | |
# | |
# Distributed under terms of the MIT license. | |
import ctypes, os | |
import os.path as osp | |
from typing import Optional, Union | |
import numpy as np | |
from PIL import Image | |
# try: | |
# # If the Jacinle library (https://github.com/vacancy/Jacinle) is present, use its auto_travis feature. | |
# from jacinle.jit.cext import auto_travis | |
# auto_travis(__file__, required_files=['*.so']) | |
# except ImportError as e: | |
# # Otherwise, fall back to the subprocess. | |
# import subprocess | |
# print('Compiling and loading c extensions from "{}".'.format(osp.realpath(osp.dirname(__file__)))) | |
# subprocess.check_call(['./travis.sh'], cwd=osp.dirname(__file__)) | |
__all__ = ['set_random_seed', 'set_verbose', 'inpaint', 'inpaint_regularity'] | |
class CShapeT(ctypes.Structure): | |
_fields_ = [ | |
('width', ctypes.c_int), | |
('height', ctypes.c_int), | |
('channels', ctypes.c_int), | |
] | |
class CMatT(ctypes.Structure): | |
_fields_ = [ | |
('data_ptr', ctypes.c_void_p), | |
('shape', CShapeT), | |
('dtype', ctypes.c_int) | |
] | |
import sys | |
if sys.platform == 'linux': | |
PMLIB = ctypes.CDLL('data/libs/libpatchmatch_inpaint.so') | |
else: | |
PMLIB = ctypes.CDLL('data/libs/libpatchmatch.dll') | |
PMLIB.PM_set_random_seed.argtypes = [ctypes.c_uint] | |
PMLIB.PM_set_verbose.argtypes = [ctypes.c_int] | |
PMLIB.PM_free_pymat.argtypes = [CMatT] | |
PMLIB.PM_inpaint.argtypes = [CMatT, CMatT, ctypes.c_int] | |
PMLIB.PM_inpaint.restype = CMatT | |
PMLIB.PM_inpaint_regularity.argtypes = [CMatT, CMatT, CMatT, ctypes.c_int, ctypes.c_float] | |
PMLIB.PM_inpaint_regularity.restype = CMatT | |
PMLIB.PM_inpaint2.argtypes = [CMatT, CMatT, CMatT, ctypes.c_int] | |
PMLIB.PM_inpaint2.restype = CMatT | |
PMLIB.PM_inpaint2_regularity.argtypes = [CMatT, CMatT, CMatT, CMatT, ctypes.c_int, ctypes.c_float] | |
PMLIB.PM_inpaint2_regularity.restype = CMatT | |
def set_random_seed(seed: int): | |
PMLIB.PM_set_random_seed(ctypes.c_uint(seed)) | |
def set_verbose(verbose: bool): | |
PMLIB.PM_set_verbose(ctypes.c_int(verbose)) | |
def inpaint( | |
image: Union[np.ndarray, Image.Image], | |
mask: Optional[Union[np.ndarray, Image.Image]] = None, | |
*, | |
global_mask: Optional[Union[np.ndarray, Image.Image]] = None, | |
patch_size: int = 15 | |
) -> np.ndarray: | |
""" | |
PatchMatch based inpainting proposed in: | |
PatchMatch : A Randomized Correspondence Algorithm for Structural Image Editing | |
C.Barnes, E.Shechtman, A.Finkelstein and Dan B.Goldman | |
SIGGRAPH 2009 | |
Args: | |
image (Union[np.ndarray, Image.Image]): the input image, should be 3-channel RGB/BGR. | |
mask (Union[np.array, Image.Image], optional): the mask of the hole(s) to be filled, should be 1-channel. | |
If not provided (None), the algorithm will treat all purely white pixels as the holes (255, 255, 255). | |
global_mask (Union[np.array, Image.Image], optional): the target mask of the output image. | |
patch_size (int): the patch size for the inpainting algorithm. | |
Return: | |
result (np.ndarray): the repaired image, of the same size as the input image. | |
""" | |
if isinstance(image, Image.Image): | |
image = np.array(image) | |
image = np.ascontiguousarray(image) | |
assert image.ndim == 3 and image.shape[2] == 3 and image.dtype == 'uint8' | |
if mask is None: | |
mask = (image == (255, 255, 255)).all(axis=2, keepdims=True).astype('uint8') | |
mask = np.ascontiguousarray(mask) | |
else: | |
mask = _canonize_mask_array(mask) | |
if global_mask is None: | |
ret_pymat = PMLIB.PM_inpaint(np_to_pymat(image), np_to_pymat(mask), ctypes.c_int(patch_size)) | |
else: | |
global_mask = _canonize_mask_array(global_mask) | |
ret_pymat = PMLIB.PM_inpaint2(np_to_pymat(image), np_to_pymat(mask), np_to_pymat(global_mask), ctypes.c_int(patch_size)) | |
ret_npmat = pymat_to_np(ret_pymat) | |
PMLIB.PM_free_pymat(ret_pymat) | |
return ret_npmat | |
def inpaint_regularity( | |
image: Union[np.ndarray, Image.Image], | |
mask: Optional[Union[np.ndarray, Image.Image]], | |
ijmap: np.ndarray, | |
*, | |
global_mask: Optional[Union[np.ndarray, Image.Image]] = None, | |
patch_size: int = 15, guide_weight: float = 0.25 | |
) -> np.ndarray: | |
if isinstance(image, Image.Image): | |
image = np.array(image) | |
image = np.ascontiguousarray(image) | |
assert isinstance(ijmap, np.ndarray) and ijmap.ndim == 3 and ijmap.shape[2] == 3 and ijmap.dtype == 'float32' | |
ijmap = np.ascontiguousarray(ijmap) | |
assert image.ndim == 3 and image.shape[2] == 3 and image.dtype == 'uint8' | |
if mask is None: | |
mask = (image == (255, 255, 255)).all(axis=2, keepdims=True).astype('uint8') | |
mask = np.ascontiguousarray(mask) | |
else: | |
mask = _canonize_mask_array(mask) | |
if global_mask is None: | |
ret_pymat = PMLIB.PM_inpaint_regularity(np_to_pymat(image), np_to_pymat(mask), np_to_pymat(ijmap), ctypes.c_int(patch_size), ctypes.c_float(guide_weight)) | |
else: | |
global_mask = _canonize_mask_array(global_mask) | |
ret_pymat = PMLIB.PM_inpaint2_regularity(np_to_pymat(image), np_to_pymat(mask), np_to_pymat(global_mask), np_to_pymat(ijmap), ctypes.c_int(patch_size), ctypes.c_float(guide_weight)) | |
ret_npmat = pymat_to_np(ret_pymat) | |
PMLIB.PM_free_pymat(ret_pymat) | |
return ret_npmat | |
def _canonize_mask_array(mask): | |
if isinstance(mask, Image.Image): | |
mask = np.array(mask) | |
if mask.ndim == 2 and mask.dtype == 'uint8': | |
mask = mask[..., np.newaxis] | |
assert mask.ndim == 3 and mask.shape[2] == 1 and mask.dtype == 'uint8' | |
return np.ascontiguousarray(mask) | |
dtype_pymat_to_ctypes = [ | |
ctypes.c_uint8, | |
ctypes.c_int8, | |
ctypes.c_uint16, | |
ctypes.c_int16, | |
ctypes.c_int32, | |
ctypes.c_float, | |
ctypes.c_double, | |
] | |
dtype_np_to_pymat = { | |
'uint8': 0, | |
'int8': 1, | |
'uint16': 2, | |
'int16': 3, | |
'int32': 4, | |
'float32': 5, | |
'float64': 6, | |
} | |
def np_to_pymat(npmat): | |
assert npmat.ndim == 3 | |
return CMatT( | |
ctypes.cast(npmat.ctypes.data, ctypes.c_void_p), | |
CShapeT(npmat.shape[1], npmat.shape[0], npmat.shape[2]), | |
dtype_np_to_pymat[str(npmat.dtype)] | |
) | |
def pymat_to_np(pymat): | |
npmat = np.ctypeslib.as_array( | |
ctypes.cast(pymat.data_ptr, ctypes.POINTER(dtype_pymat_to_ctypes[pymat.dtype])), | |
(pymat.shape.height, pymat.shape.width, pymat.shape.channels) | |
) | |
ret = np.empty(npmat.shape, npmat.dtype) | |
ret[:] = npmat | |
return ret | |