mirror of
https://github.com/iperov/DeepFaceLab.git
synced 2025-07-06 04:52:13 -07:00
9598ba0141
added option Eyes priority (y/n) fix eye problems during training ( especially on HD architectures ) by forcing the neural network to train eyes with higher priority before/after https://i.imgur.com/YQHOuSR.jpg It does not guarantee the right eye direction.
336 lines
17 KiB
Python
336 lines
17 KiB
Python
import collections
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from enum import IntEnum
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import cv2
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import numpy as np
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from core import imagelib
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from facelib import FaceType, LandmarksProcessor
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class SampleProcessor(object):
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class Types(IntEnum):
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NONE = 0
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IMG_TYPE_BEGIN = 1
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IMG_SOURCE = 1
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IMG_WARPED = 2
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IMG_WARPED_TRANSFORMED = 3
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IMG_TRANSFORMED = 4
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IMG_LANDMARKS_ARRAY = 5 #currently unused
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IMG_PITCH_YAW_ROLL = 6
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IMG_PITCH_YAW_ROLL_SIGMOID = 7
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IMG_TYPE_END = 10
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FACE_TYPE_BEGIN = 10
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FACE_TYPE_HALF = 10
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FACE_TYPE_MID_FULL = 11
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FACE_TYPE_FULL = 12
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FACE_TYPE_HEAD = 13 #currently unused
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FACE_TYPE_AVATAR = 14 #currently unused
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FACE_TYPE_FULL_NO_ALIGN = 15
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FACE_TYPE_HEAD_NO_ALIGN = 16
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FACE_TYPE_END = 20
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MODE_BEGIN = 40
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MODE_BGR = 40 #BGR
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MODE_G = 41 #Grayscale
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MODE_GGG = 42 #3xGrayscale
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MODE_FACE_MASK_ALL_HULL = 43 #mask all hull as grayscale
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MODE_FACE_MASK_EYES_HULL = 44 #mask eyes hull as grayscale
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MODE_FACE_MASK_ALL_EYES_HULL = 45 #combo all + eyes as grayscale
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MODE_FACE_MASK_STRUCT = 46 #mask structure as grayscale
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MODE_BGR_SHUFFLE = 47 #BGR shuffle
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MODE_BGR_RANDOM_HSV_SHIFT = 48
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MODE_END = 50
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class Options(object):
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def __init__(self, random_flip = True, rotation_range=[-10,10], scale_range=[-0.05, 0.05], tx_range=[-0.05, 0.05], ty_range=[-0.05, 0.05] ):
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self.random_flip = random_flip
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self.rotation_range = rotation_range
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self.scale_range = scale_range
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self.tx_range = tx_range
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self.ty_range = ty_range
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SPTF_FACETYPE_TO_FACETYPE = { Types.FACE_TYPE_HALF : FaceType.HALF,
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Types.FACE_TYPE_MID_FULL : FaceType.MID_FULL,
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Types.FACE_TYPE_FULL : FaceType.FULL,
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Types.FACE_TYPE_HEAD : FaceType.HEAD,
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Types.FACE_TYPE_FULL_NO_ALIGN : FaceType.FULL_NO_ALIGN,
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Types.FACE_TYPE_HEAD_NO_ALIGN : FaceType.HEAD_NO_ALIGN,
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}
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@staticmethod
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def process (samples, sample_process_options, output_sample_types, debug, ct_sample=None):
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SPTF = SampleProcessor.Types
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sample_rnd_seed = np.random.randint(0x80000000)
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outputs = []
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for sample in samples:
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sample_bgr = sample.load_bgr()
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ct_sample_bgr = None
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h,w,c = sample_bgr.shape
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is_face_sample = sample.landmarks is not None
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if debug and is_face_sample:
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LandmarksProcessor.draw_landmarks (sample_bgr, sample.landmarks, (0, 1, 0))
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params = imagelib.gen_warp_params(sample_bgr, sample_process_options.random_flip, rotation_range=sample_process_options.rotation_range, scale_range=sample_process_options.scale_range, tx_range=sample_process_options.tx_range, ty_range=sample_process_options.ty_range, rnd_seed=sample_rnd_seed )
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outputs_sample = []
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for opts in output_sample_types:
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resolution = opts.get('resolution', 0)
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types = opts.get('types', [] )
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motion_blur = opts.get('motion_blur', None)
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gaussian_blur = opts.get('gaussian_blur', None)
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ct_mode = opts.get('ct_mode', 'None')
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normalize_tanh = opts.get('normalize_tanh', False)
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data_format = opts.get('data_format', 'NHWC')
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img_type = SPTF.NONE
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target_face_type = SPTF.NONE
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mode_type = SPTF.NONE
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for t in types:
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if t >= SPTF.IMG_TYPE_BEGIN and t < SPTF.IMG_TYPE_END:
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img_type = t
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elif t >= SPTF.FACE_TYPE_BEGIN and t < SPTF.FACE_TYPE_END:
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target_face_type = t
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elif t >= SPTF.MODE_BEGIN and t < SPTF.MODE_END:
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mode_type = t
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if is_face_sample:
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if target_face_type == SPTF.NONE:
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raise ValueError("target face type must be defined for face samples")
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else:
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if mode_type == SPTF.MODE_FACE_MASK_ALL_HULL:
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raise ValueError("MODE_FACE_MASK_ALL_HULL applicable only for face samples")
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if mode_type == SPTF.MODE_FACE_MASK_EYES_HULL:
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raise ValueError("MODE_FACE_MASK_EYES_HULL applicable only for face samples")
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if mode_type == SPTF.MODE_FACE_MASK_ALL_EYES_HULL:
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raise ValueError("MODE_FACE_MASK_ALL_EYES_HULL applicable only for face samples")
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if mode_type == SPTF.MODE_FACE_MASK_STRUCT:
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raise ValueError("MODE_FACE_MASK_STRUCT applicable only for face samples")
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can_warp = (img_type==SPTF.IMG_WARPED or img_type==SPTF.IMG_WARPED_TRANSFORMED)
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can_transform = (img_type==SPTF.IMG_WARPED_TRANSFORMED or img_type==SPTF.IMG_TRANSFORMED)
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if img_type == SPTF.NONE:
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raise ValueError ('expected IMG_ type')
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if img_type == SPTF.IMG_LANDMARKS_ARRAY:
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l = sample.landmarks
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l = np.concatenate ( [ np.expand_dims(l[:,0] / w,-1), np.expand_dims(l[:,1] / h,-1) ], -1 )
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l = np.clip(l, 0.0, 1.0)
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out_sample = l
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elif img_type == SPTF.IMG_PITCH_YAW_ROLL or img_type == SPTF.IMG_PITCH_YAW_ROLL_SIGMOID:
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pitch_yaw_roll = sample.get_pitch_yaw_roll()
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if params['flip']:
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yaw = -yaw
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if img_type == SPTF.IMG_PITCH_YAW_ROLL_SIGMOID:
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pitch = np.clip( (pitch / math.pi) / 2.0 + 0.5, 0, 1)
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yaw = np.clip( (yaw / math.pi) / 2.0 + 0.5, 0, 1)
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roll = np.clip( (roll / math.pi) / 2.0 + 0.5, 0, 1)
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out_sample = (pitch, yaw, roll)
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else:
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if mode_type == SPTF.NONE:
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raise ValueError ('expected MODE_ type')
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if mode_type == SPTF.MODE_FACE_MASK_ALL_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_EYES_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_ALL_EYES_HULL:
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if mode_type == SPTF.MODE_FACE_MASK_ALL_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_ALL_EYES_HULL:
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if sample.eyebrows_expand_mod is not None:
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all_mask = LandmarksProcessor.get_image_hull_mask (sample_bgr.shape, sample.landmarks, eyebrows_expand_mod=sample.eyebrows_expand_mod )
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else:
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all_mask = LandmarksProcessor.get_image_hull_mask (sample_bgr.shape, sample.landmarks)
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all_mask = np.clip(all_mask, 0, 1)
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if mode_type == SPTF.MODE_FACE_MASK_EYES_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_ALL_EYES_HULL:
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eyes_mask = LandmarksProcessor.get_image_eye_mask (sample_bgr.shape, sample.landmarks)
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eyes_mask = np.clip(eyes_mask, 0, 1)
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if mode_type == SPTF.MODE_FACE_MASK_ALL_HULL:
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img = all_mask
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elif mode_type == SPTF.MODE_FACE_MASK_EYES_HULL:
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img = eyes_mask
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elif mode_type == SPTF.MODE_FACE_MASK_ALL_EYES_HULL:
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img = all_mask + eyes_mask
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if sample.ie_polys is not None:
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sample.ie_polys.overlay_mask(img)
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elif mode_type == SPTF.MODE_FACE_MASK_STRUCT:
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if sample.eyebrows_expand_mod is not None:
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img = LandmarksProcessor.get_face_struct_mask (sample_bgr.shape, sample.landmarks, eyebrows_expand_mod=sample.eyebrows_expand_mod )
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else:
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img = LandmarksProcessor.get_face_struct_mask (sample_bgr.shape, sample.landmarks)
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else:
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img = sample_bgr
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if motion_blur is not None:
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chance, mb_max_size = motion_blur
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chance = np.clip(chance, 0, 100)
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rnd_state = np.random.RandomState (sample_rnd_seed)
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mblur_rnd_chance = rnd_state.randint(100)
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mblur_rnd_kernel = rnd_state.randint(mb_max_size)+1
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mblur_rnd_deg = rnd_state.randint(360)
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if mblur_rnd_chance < chance:
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img = imagelib.LinearMotionBlur (img, mblur_rnd_kernel, mblur_rnd_deg )
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if gaussian_blur is not None:
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chance, kernel_max_size = gaussian_blur
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chance = np.clip(chance, 0, 100)
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if np.random.randint(100) < chance:
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img = cv2.GaussianBlur(img, ( np.random.randint( kernel_max_size )*2+1 ,) *2 , 0)
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if is_face_sample:
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target_ft = SampleProcessor.SPTF_FACETYPE_TO_FACETYPE[target_face_type]
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if target_ft > sample.face_type:
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raise Exception ('sample %s type %s does not match model requirement %s. Consider extract necessary type of faces.' % (sample.filename, sample.face_type, target_ft) )
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if sample.face_type == FaceType.MARK_ONLY:
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mat = LandmarksProcessor.get_transform_mat (sample.landmarks, sample.shape[0], target_ft)
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if mode_type == SPTF.MODE_FACE_MASK_ALL_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_EYES_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_ALL_EYES_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_STRUCT:
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img = cv2.warpAffine( img, mat, (sample.shape[0],sample.shape[0]), flags=cv2.INTER_LINEAR )
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img = imagelib.warp_by_params (params, img, can_warp, can_transform, can_flip=True, border_replicate=False, cv2_inter=cv2.INTER_LINEAR)
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img = cv2.resize( img, (resolution,resolution), cv2.INTER_LINEAR )[...,None]
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else:
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img = cv2.warpAffine( img, mat, (sample.shape[0],sample.shape[0]), flags=cv2.INTER_CUBIC )
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img = imagelib.warp_by_params (params, img, can_warp, can_transform, can_flip=True, border_replicate=True)
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img = cv2.resize( img, (resolution,resolution), cv2.INTER_CUBIC )
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else:
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mat = LandmarksProcessor.get_transform_mat (sample.landmarks, resolution, target_ft)
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if mode_type == SPTF.MODE_FACE_MASK_ALL_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_EYES_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_ALL_EYES_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_STRUCT:
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img = imagelib.warp_by_params (params, img, can_warp, can_transform, can_flip=True, border_replicate=False, cv2_inter=cv2.INTER_LINEAR)
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img = cv2.warpAffine( img, mat, (resolution,resolution), borderMode=cv2.BORDER_CONSTANT, flags=cv2.INTER_LINEAR )[...,None]
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else:
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img = imagelib.warp_by_params (params, img, can_warp, can_transform, can_flip=True, border_replicate=True)
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img = cv2.warpAffine( img, mat, (resolution,resolution), borderMode=cv2.BORDER_REPLICATE, flags=cv2.INTER_CUBIC )
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else:
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img = imagelib.warp_by_params (params, img, can_warp, can_transform, can_flip=True, border_replicate=True)
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img = cv2.resize( img, (resolution,resolution), cv2.INTER_CUBIC )
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if mode_type == SPTF.MODE_FACE_MASK_ALL_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_EYES_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_ALL_EYES_HULL or \
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mode_type == SPTF.MODE_FACE_MASK_STRUCT:
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out_sample = img.astype(np.float32)
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else:
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img = np.clip(img.astype(np.float32), 0, 1)
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if ct_mode is not None and ct_sample is not None:
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if ct_sample_bgr is None:
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ct_sample_bgr = ct_sample.load_bgr()
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img = imagelib.color_transfer (ct_mode,
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img,
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cv2.resize( ct_sample_bgr, (resolution,resolution), cv2.INTER_LINEAR ) )
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if mode_type == SPTF.MODE_BGR:
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out_sample = img
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elif mode_type == SPTF.MODE_BGR_SHUFFLE:
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rnd_state = np.random.RandomState (sample_rnd_seed)
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out_sample = np.take (img, rnd_state.permutation(img.shape[-1]), axis=-1)
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elif mode_type == SPTF.MODE_BGR_RANDOM_HSV_SHIFT:
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rnd_state = np.random.RandomState (sample_rnd_seed)
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hsv = cv2.cvtColor(img, cv2.COLOR_BGR2HSV)
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h, s, v = cv2.split(hsv)
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h = (h + rnd_state.randint(360) ) % 360
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s = np.clip ( s + rnd_state.random()-0.5, 0, 1 )
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v = np.clip ( v + rnd_state.random()-0.5, 0, 1 )
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hsv = cv2.merge([h, s, v])
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out_sample = np.clip( cv2.cvtColor(hsv, cv2.COLOR_HSV2BGR) , 0, 1 )
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elif mode_type == SPTF.MODE_G:
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out_sample = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)[...,None]
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elif mode_type == SPTF.MODE_GGG:
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out_sample = np.repeat ( np.expand_dims(cv2.cvtColor(img, cv2.COLOR_BGR2GRAY),-1), (3,), -1)
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if not debug:
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if normalize_tanh:
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out_sample = np.clip (out_sample * 2.0 - 1.0, -1.0, 1.0)
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if data_format == "NCHW":
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out_sample = np.transpose(out_sample, (2,0,1) )
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outputs_sample.append ( out_sample )
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outputs += [outputs_sample]
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return outputs
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"""
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close_sample = sample.close_target_list[ np.random.randint(0, len(sample.close_target_list)) ] if sample.close_target_list is not None else None
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close_sample_bgr = close_sample.load_bgr() if close_sample is not None else None
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if debug and close_sample_bgr is not None:
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LandmarksProcessor.draw_landmarks (close_sample_bgr, close_sample.landmarks, (0, 1, 0))
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RANDOM_CLOSE = 0x00000040, #currently unused
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MORPH_TO_RANDOM_CLOSE = 0x00000080, #currently unused
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if f & SPTF.RANDOM_CLOSE != 0:
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img_type += 10
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elif f & SPTF.MORPH_TO_RANDOM_CLOSE != 0:
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img_type += 20
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if img_type >= 10 and img_type <= 19: #RANDOM_CLOSE
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img_type -= 10
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img = close_sample_bgr
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cur_sample = close_sample
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elif img_type >= 20 and img_type <= 29: #MORPH_TO_RANDOM_CLOSE
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img_type -= 20
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res = sample.shape[0]
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s_landmarks = sample.landmarks.copy()
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d_landmarks = close_sample.landmarks.copy()
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idxs = list(range(len(s_landmarks)))
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#remove landmarks near boundaries
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for i in idxs[:]:
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s_l = s_landmarks[i]
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d_l = d_landmarks[i]
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if s_l[0] < 5 or s_l[1] < 5 or s_l[0] >= res-5 or s_l[1] >= res-5 or \
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d_l[0] < 5 or d_l[1] < 5 or d_l[0] >= res-5 or d_l[1] >= res-5:
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idxs.remove(i)
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#remove landmarks that close to each other in 5 dist
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for landmarks in [s_landmarks, d_landmarks]:
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for i in idxs[:]:
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s_l = landmarks[i]
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for j in idxs[:]:
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if i == j:
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continue
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s_l_2 = landmarks[j]
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diff_l = np.abs(s_l - s_l_2)
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if np.sqrt(diff_l.dot(diff_l)) < 5:
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idxs.remove(i)
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break
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s_landmarks = s_landmarks[idxs]
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d_landmarks = d_landmarks[idxs]
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s_landmarks = np.concatenate ( [s_landmarks, [ [0,0], [ res // 2, 0], [ res-1, 0], [0, res//2], [res-1, res//2] ,[0,res-1] ,[res//2, res-1] ,[res-1,res-1] ] ] )
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d_landmarks = np.concatenate ( [d_landmarks, [ [0,0], [ res // 2, 0], [ res-1, 0], [0, res//2], [res-1, res//2] ,[0,res-1] ,[res//2, res-1] ,[res-1,res-1] ] ] )
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img = imagelib.morph_by_points (sample_bgr, s_landmarks, d_landmarks)
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cur_sample = close_sample
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else:
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"""
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