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filters.py

filters.py 4.6 KB
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  1. from numpy import ndarray
    2. 

  2. from abc import ABC, abstractmethod
    3. 

  3. from .critics import colorize_crit_learner
    4. 

  4. from fastai.core import *
    5. 

  5. from fastai.vision import *
    6. 

  6. from fastai.vision.image import *
    7. 

  7. from fastai.vision.data import *
    8. 

  8. from fastai import *
    9. 

  9. import math
    10. 

  10. from scipy import misc
    11. 

  11. import cv2
    12. 

  12. from PIL import Image as PilImage
    13. 

  13. 

  14. 

  15. class IFilter(ABC):
    16. 

  16.     @abstractmethod
    17. 

  17.     def filter(
    18. 

  18.         self, orig_image: PilImage, filtered_image: PilImage, render_factor: int
    19. 

  19.     ) -> PilImage:
    20. 

  20.         pass
    21. 

  21. 

  22. 

  23. class BaseFilter(IFilter):
    24. 

  24.     def __init__(self, learn: Learner, stats: tuple = imagenet_stats):
    25. 

  25.         super().__init__()
    26. 

  26.         self.learn = learn
    27. 

  27.         self.device = next(self.learn.model.parameters()).device
    28. 

  28.         self.norm, self.denorm = normalize_funcs(*stats)
    29. 

  29. 

  30.     def _transform(self, image: PilImage) -> PilImage:
    31. 

  31.         return image
    32. 

  32. 

  33.     def _scale_to_square(self, orig: PilImage, targ: int) -> PilImage:
    34. 

  34.         # a simple stretch to fit a square really makes a big difference in rendering quality/consistency.
    35. 

  35.         # I've tried padding to the square as well (reflect, symetric, constant, etc).  Not as good!
    36. 

  36.         targ_sz = (targ, targ)
    37. 

  37.         return orig.resize(targ_sz, resample=PIL.Image.BILINEAR)
    38. 

  38. 

  39.     def _get_model_ready_image(self, orig: PilImage, sz: int) -> PilImage:
    40. 

  40.         result = self._scale_to_square(orig, sz)
    41. 

  41.         result = self._transform(result)
    42. 

  42.         return result
    43. 

  43. 

  44.     def _model_process(self, orig: PilImage, sz: int) -> PilImage:
    45. 

  45.         model_image = self._get_model_ready_image(orig, sz)
    46. 

  46.         x = pil2tensor(model_image, np.float32)
    47. 

  47.         x = x.to(self.device)
    48. 

  48.         x.div_(255)
    49. 

  49.         x, y = self.norm((x, x), do_x=True)
    50. 

  50.         
    51. 

  51.         try:
    52. 

  52.             result = self.learn.pred_batch(
    53. 

  53.                 ds_type=DatasetType.Valid, batch=(x[None], y[None]), reconstruct=True
    54. 

  54.             )
    55. 

  55.         except RuntimeError as rerr:
    56. 

  56.             if 'memory' not in str(rerr):
    57. 

  57.                 raise rerr
    58. 

  58.             print('Warning: render_factor was set too high, and out of memory error resulted. Returning original image.')
    59. 

  59.             return model_image
    60. 

  60.             
    61. 

  61.         out = result[0]
    62. 

  62.         out = self.denorm(out.px, do_x=False)
    63. 

  63.         out = image2np(out * 255).astype(np.uint8)
    64. 

  64.         return PilImage.fromarray(out)
    65. 

  65. 

  66.     def _unsquare(self, image: PilImage, orig: PilImage) -> PilImage:
    67. 

  67.         targ_sz = orig.size
    68. 

  68.         image = image.resize(targ_sz, resample=PIL.Image.BILINEAR)
    69. 

  69.         return image
    70. 

  70. 

  71. 

  72. class ColorizerFilter(BaseFilter):
    73. 

  73.     def __init__(self, learn: Learner, stats: tuple = imagenet_stats):
    74. 

  74.         super().__init__(learn=learn, stats=stats)
    75. 

  75.         self.render_base = 16
    76. 

  76. 

  77.     def filter(
    78. 

  78.         self, orig_image: PilImage, filtered_image: PilImage, render_factor: int, post_process: bool = True) -> PilImage:
    79. 

  79.         render_sz = render_factor * self.render_base
    80. 

  80.         model_image = self._model_process(orig=filtered_image, sz=render_sz)
    81. 

  81.         raw_color = self._unsquare(model_image, orig_image)
    82. 

  82. 

  83.         if post_process:
    84. 

  84.             return self._post_process(raw_color, orig_image)
    85. 

  85.         else:
    86. 

  86.             return raw_color
    87. 

  87. 

  88.     def _transform(self, image: PilImage) -> PilImage:
    89. 

  89.         return image.convert('LA').convert('RGB')
    90. 

  90. 

  91.     # This takes advantage of the fact that human eyes are much less sensitive to
    92. 

  92.     # imperfections in chrominance compared to luminance.  This means we can
    93. 

  93.     # save a lot on memory and processing in the model, yet get a great high
    94. 

  94.     # resolution result at the end.  This is primarily intended just for
    95. 

  95.     # inference
    96. 

  96.     def _post_process(self, raw_color: PilImage, orig: PilImage) -> PilImage:
    97. 

  97.         color_np = np.asarray(raw_color)
    98. 

  98.         orig_np = np.asarray(orig)
    99. 

  99.         color_yuv = cv2.cvtColor(color_np, cv2.COLOR_BGR2YUV)
    100. 

  100.         # do a black and white transform first to get better luminance values
    101. 

  101.         orig_yuv = cv2.cvtColor(orig_np, cv2.COLOR_BGR2YUV)
    102. 

  102.         hires = np.copy(orig_yuv)
    103. 

  103.         hires[:, :, 1:3] = color_yuv[:, :, 1:3]
    104. 

  104.         final = cv2.cvtColor(hires, cv2.COLOR_YUV2BGR)
    105. 

  105.         final = PilImage.fromarray(final)
    106. 

  106.         return final
    107. 

  107. 

  108. 

  109. class MasterFilter(BaseFilter):
    110. 

  110.     def __init__(self, filters: [IFilter], render_factor: int):
    111. 

  111.         self.filters = filters
    112. 

  112.         self.render_factor = render_factor
    113. 

  113. 

  114.     def filter(
    115. 

  115.         self, orig_image: PilImage, filtered_image: PilImage, render_factor: int = None, post_process: bool = True) -> PilImage:
    116. 

  116.         render_factor = self.render_factor if render_factor is None else render_factor
    117. 

  117.         for filter in self.filters:
    118. 

  118.             filtered_image = filter.filter(orig_image, filtered_image, render_factor, post_process)
    119. 

  119. 

  120.         return filtered_image
    121.