mirror of
https://github.com/iperov/DeepFaceLab.git
synced 2025-08-19 21:13:20 -07:00
old SAE model will not work with this update.
Fixed bug when SAE can be collapsed during a time. SAE: removed CA weights and encoder/decoder dims. added new options: Encoder dims per channel (21-85 ?:help skip:%d) More encoder dims help to recognize more facial features, but require more VRAM. You can fine-tune model size to fit your GPU. Decoder dims per channel (11-85 ?:help skip:%d) More decoder dims help to get better details, but require more VRAM. You can fine-tune model size to fit your GPU. Add residual blocks to decoder? (y/n, ?:help skip:n) : These blocks help to get better details, but require more computing time. Remove gray border? (y/n, ?:help skip:n) : Removes gray border of predicted face, but requires more computing resources.
This commit is contained in:
iperov
parent
4f4447d719
commit
37505d88e3
12 changed files with 264 additions and 47242 deletions
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@ -19,8 +19,8 @@ class ConverterMasked(Converter):
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#override
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def __init__(self, predictor_func,
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predictor_input_size=0,
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output_size=0,
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predictor_input_size=0,
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output_size=0,
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face_type=FaceType.FULL,
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default_mode = 4,
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base_erode_mask_modifier = 0,
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@ -28,102 +28,103 @@ class ConverterMasked(Converter):
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default_erode_mask_modifier = 0,
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default_blur_mask_modifier = 0,
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clip_hborder_mask_per = 0):
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super().__init__(predictor_func, Converter.TYPE_FACE)
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self.predictor_input_size = predictor_input_size
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self.output_size = output_size
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self.face_type = face_type
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self.face_type = face_type
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self.clip_hborder_mask_per = clip_hborder_mask_per
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mode = io.input_int ("Choose mode: (1) overlay, (2) hist match, (3) hist match bw, (4) seamless, (5) raw. Default - %d : " % (default_mode) , default_mode)
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mode_dict = {1:'overlay',
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2:'hist-match',
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3:'hist-match-bw',
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4:'seamless',
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5:'raw'}
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self.mode = mode_dict.get (mode, mode_dict[default_mode] )
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self.suppress_seamless_jitter = False
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if self.mode == 'raw':
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mode = io.input_int ("Choose raw mode: (1) rgb, (2) rgb+mask (default), (3) mask only, (4) predicted only : ", 2)
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self.raw_mode = {1:'rgb',
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2:'rgb-mask',
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3:'mask-only',
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4:'predicted-only'}.get (mode, 'rgb-mask')
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if self.mode != 'raw':
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if self.mode == 'seamless':
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io.input_bool ("Suppress seamless jitter? [ y/n ] (?:help skip:n ) : ", False, help_message="Seamless clone produces face jitter. You can suppress it, but process can take a long time." )
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if io.input_bool("Seamless hist match? (y/n skip:n) : ", False):
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self.mode = 'seamless-hist-match'
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if self.mode == 'hist-match' or self.mode == 'hist-match-bw':
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self.masked_hist_match = io.input_bool("Masked hist match? (y/n skip:y) : ", True)
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if self.mode == 'hist-match' or self.mode == 'hist-match-bw' or self.mode == 'seamless-hist-match':
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self.hist_match_threshold = np.clip ( io.input_int("Hist match threshold [0..255] (skip:255) : ", 255), 0, 255)
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if face_type == FaceType.FULL:
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self.mask_mode = io.input_int ("Mask mode: (1) learned, (2) dst, (3) FAN-prd, (4) FAN-dst (?) help. Default - %d : " % (1) , 1, help_message="If you learned mask, then option 1 should be choosed. 'dst' mask is raw shaky mask from dst aligned images. 'FAN-prd' - using super smooth mask by pretrained FAN-model from predicted face. 'FAN-dst' - using super smooth mask by pretrained FAN-model from dst face.")
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else:
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self.mask_mode = io.input_int ("Mask mode: (1) learned, (2) dst . Default - %d : " % (1) , 1)
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if self.mask_mode == 3 or self.mask_mode == 4:
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self.fan_seg = None
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self.fan_seg = None
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if self.mode != 'raw':
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self.erode_mask_modifier = base_erode_mask_modifier + np.clip ( io.input_int ("Choose erode mask modifier [-200..200] (skip:%d) : " % (default_erode_mask_modifier), default_erode_mask_modifier), -200, 200)
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self.blur_mask_modifier = base_blur_mask_modifier + np.clip ( io.input_int ("Choose blur mask modifier [-200..200] (skip:%d) : " % (default_blur_mask_modifier), default_blur_mask_modifier), -200, 200)
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self.seamless_erode_mask_modifier = 0
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if 'seamless' in self.mode:
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self.seamless_erode_mask_modifier = np.clip ( io.input_int ("Choose seamless erode mask modifier [-100..100] (skip:0) : ", 0), -100, 100)
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self.output_face_scale = np.clip ( 1.0 + io.input_int ("Choose output face scale modifier [-50..50] (skip:0) : ", 0)*0.01, 0.5, 1.5)
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self.color_transfer_mode = io.input_str ("Apply color transfer to predicted face? Choose mode ( rct/lct skip:None ) : ", None, ['rct','lct'])
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if self.mode != 'raw':
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self.final_image_color_degrade_power = np.clip ( io.input_int ("Degrade color power of final image [0..100] (skip:0) : ", 0), 0, 100)
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self.alpha = io.input_bool("Export png with alpha channel? (y/n skip:n) : ", False)
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io.log_info ("")
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io.log_info ("")
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self.over_res = 4 if self.suppress_seamless_jitter else 1
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#override
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def dummy_predict(self):
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self.predictor_func ( np.zeros ( (self.predictor_input_size,self.predictor_input_size,4), dtype=np.float32 ) )
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#override
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def convert_face (self, img_bgr, img_face_landmarks, debug):
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#overridable
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def on_cli_initialize(self):
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if (self.mask_mode == 3 or self.mask_mode == 4) and self.fan_seg == None:
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self.fan_seg = FANSegmentator(256, FaceType.toString(FaceType.FULL) )
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#override
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def convert_face (self, img_bgr, img_face_landmarks, debug):
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if self.over_res != 1:
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img_bgr = cv2.resize ( img_bgr, ( img_bgr.shape[1]*self.over_res, img_bgr.shape[0]*self.over_res ) )
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img_face_landmarks = img_face_landmarks*self.over_res
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if debug:
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if debug:
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debugs = [img_bgr.copy()]
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img_size = img_bgr.shape[1], img_bgr.shape[0]
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img_face_mask_a = LandmarksProcessor.get_image_hull_mask (img_bgr.shape, img_face_landmarks)
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face_mat = LandmarksProcessor.get_transform_mat (img_face_landmarks, self.output_size, face_type=self.face_type)
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face_output_mat = LandmarksProcessor.get_transform_mat (img_face_landmarks, self.output_size, face_type=self.face_type, scale=self.output_face_scale)
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dst_face_bgr = cv2.warpAffine( img_bgr , face_mat, (self.output_size, self.output_size), flags=cv2.INTER_LANCZOS4 )
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dst_face_mask_a_0 = cv2.warpAffine( img_face_mask_a, face_mat, (self.output_size, self.output_size), flags=cv2.INTER_LANCZOS4 )
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predictor_input_bgr = cv2.resize (dst_face_bgr, (self.predictor_input_size,self.predictor_input_size))
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predictor_input_mask_a_0 = cv2.resize (dst_face_mask_a_0, (self.predictor_input_size,self.predictor_input_size))
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predictor_input_mask_a = np.expand_dims (predictor_input_mask_a_0, -1)
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predictor_input_mask_a = np.expand_dims (predictor_input_mask_a_0, -1)
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predicted_bgra = self.predictor_func ( np.concatenate( (predictor_input_bgr, predictor_input_mask_a), -1) )
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prd_face_bgr = np.clip (predicted_bgra[:,:,0:3], 0, 1.0 )
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@ -132,7 +133,7 @@ class ConverterMasked(Converter):
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if self.mask_mode == 2: #dst
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prd_face_mask_a_0 = predictor_input_mask_a_0
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elif self.mask_mode == 3: #FAN-prd
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prd_face_bgr_256 = cv2.resize (prd_face_bgr, (256,256) )
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prd_face_bgr_256 = cv2.resize (prd_face_bgr, (256,256) )
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prd_face_bgr_256_mask = self.fan_seg.extract_from_bgr( np.expand_dims(prd_face_bgr_256,0) ) [0]
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prd_face_mask_a_0 = cv2.resize (prd_face_bgr_256_mask, (self.predictor_input_size, self.predictor_input_size))
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elif self.mask_mode == 4: #FAN-dst
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@ -140,19 +141,19 @@ class ConverterMasked(Converter):
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dst_face_256_bgr = cv2.warpAffine(img_bgr, face_256_mat, (256, 256), flags=cv2.INTER_LANCZOS4 )
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dst_face_256_mask = self.fan_seg.extract_from_bgr( np.expand_dims(dst_face_256_bgr,0) ) [0]
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prd_face_mask_a_0 = cv2.resize (dst_face_256_mask, (self.predictor_input_size, self.predictor_input_size))
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prd_face_mask_a_0[ prd_face_mask_a_0 < 0.001 ] = 0.0
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prd_face_mask_a = np.expand_dims (prd_face_mask_a_0, axis=-1)
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prd_face_mask_aaa = np.repeat (prd_face_mask_a, (3,), axis=-1)
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img_face_mask_aaa = cv2.warpAffine( prd_face_mask_aaa, face_output_mat, img_size, np.zeros(img_bgr.shape, dtype=np.float32), flags=cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4 )
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img_face_mask_aaa = np.clip (img_face_mask_aaa, 0.0, 1.0)
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img_face_mask_aaa [ img_face_mask_aaa <= 0.1 ] = 0.0 #get rid of noise
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if debug:
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debugs += [img_face_mask_aaa.copy()]
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if 'seamless' in self.mode:
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#mask used for cv2.seamlessClone
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img_face_seamless_mask_aaa = None
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@ -163,26 +164,26 @@ class ConverterMasked(Converter):
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img_face_seamless_mask_aaa = img_face_mask_aaa.copy()
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img_face_seamless_mask_aaa[a] = 1.0
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img_face_seamless_mask_aaa[img_face_seamless_mask_aaa <= i / 10.0] = 0.0
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out_img = img_bgr.copy()
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if self.mode == 'raw':
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if self.raw_mode == 'rgb' or self.raw_mode == 'rgb-mask':
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out_img = cv2.warpAffine( prd_face_bgr, face_output_mat, img_size, out_img, cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4, cv2.BORDER_TRANSPARENT )
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if self.raw_mode == 'rgb-mask':
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out_img = np.concatenate ( [out_img, np.expand_dims (img_face_mask_aaa[:,:,0],-1)], -1 )
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if self.raw_mode == 'mask-only':
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out_img = img_face_mask_aaa
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out_img = img_face_mask_aaa
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if self.raw_mode == 'predicted-only':
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out_img = cv2.warpAffine( prd_face_bgr, face_output_mat, img_size, np.zeros(out_img.shape, dtype=np.float32), cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4, cv2.BORDER_TRANSPARENT )
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elif ('seamless' not in self.mode) or (img_face_seamless_mask_aaa is not None):
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elif ('seamless' not in self.mode) or (img_face_seamless_mask_aaa is not None):
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#averaging [lenx, leny, maskx, masky] by grayscale gradients of upscaled mask
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ar = []
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for i in range(1, 10):
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for i in range(1, 10):
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maxregion = np.argwhere( img_face_mask_aaa > i / 10.0 )
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if maxregion.size != 0:
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miny,minx = maxregion.min(axis=0)[:2]
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@ -193,32 +194,32 @@ class ConverterMasked(Converter):
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masky = ( miny+(leny/2) )
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if lenx >= 4 and leny >= 4:
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ar += [ [ lenx, leny, maskx, masky] ]
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if len(ar) > 0:
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lenx, leny, maskx, masky = np.mean ( ar, axis=0 )
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if debug:
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io.log_info ("lenx/leny:(%d/%d) maskx/masky:(%f/%f)" % (lenx, leny, maskx, masky ) )
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maskx = int( maskx )
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masky = int( masky )
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lowest_len = min (lenx, leny)
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if debug:
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io.log_info ("lowest_len = %f" % (lowest_len) )
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img_mask_blurry_aaa = img_face_mask_aaa
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if self.erode_mask_modifier != 0:
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ero = int( lowest_len * ( 0.126 - lowest_len * 0.00004551365 ) * 0.01*self.erode_mask_modifier )
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if debug:
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io.log_info ("erode_size = %d" % (ero) )
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io.log_info ("erode_size = %d" % (ero) )
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if ero > 0:
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img_mask_blurry_aaa = cv2.erode(img_mask_blurry_aaa, cv2.getStructuringElement(cv2.MORPH_ELLIPSE,(ero,ero)), iterations = 1 )
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img_mask_blurry_aaa = cv2.erode(img_mask_blurry_aaa, cv2.getStructuringElement(cv2.MORPH_ELLIPSE,(ero,ero)), iterations = 1 )
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elif ero < 0:
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img_mask_blurry_aaa = cv2.dilate(img_mask_blurry_aaa, cv2.getStructuringElement(cv2.MORPH_ELLIPSE,(-ero,-ero)), iterations = 1 )
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if self.seamless_erode_mask_modifier != 0:
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ero = int( lowest_len * ( 0.126 - lowest_len * 0.00004551365 ) * 0.01*self.seamless_erode_mask_modifier )
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if debug:
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@ -228,39 +229,39 @@ class ConverterMasked(Converter):
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elif ero < 0:
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img_face_seamless_mask_aaa = cv2.dilate(img_face_seamless_mask_aaa, cv2.getStructuringElement(cv2.MORPH_ELLIPSE,(-ero,-ero)), iterations = 1 )
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img_face_seamless_mask_aaa = np.clip (img_face_seamless_mask_aaa, 0, 1)
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if self.clip_hborder_mask_per > 0: #clip hborder before blur
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prd_hborder_rect_mask_a = np.ones ( prd_face_mask_a.shape, dtype=np.float32)
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prd_hborder_rect_mask_a = np.ones ( prd_face_mask_a.shape, dtype=np.float32)
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prd_border_size = int ( prd_hborder_rect_mask_a.shape[1] * self.clip_hborder_mask_per )
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prd_hborder_rect_mask_a[:,0:prd_border_size,:] = 0
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prd_hborder_rect_mask_a[:,-prd_border_size:,:] = 0
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prd_hborder_rect_mask_a[:,-prd_border_size:,:] = 0
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prd_hborder_rect_mask_a = np.expand_dims(cv2.blur(prd_hborder_rect_mask_a, (prd_border_size, prd_border_size) ),-1)
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img_prd_hborder_rect_mask_a = cv2.warpAffine( prd_hborder_rect_mask_a, face_output_mat, img_size, np.zeros(img_bgr.shape, dtype=np.float32), cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4 )
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img_prd_hborder_rect_mask_a = np.expand_dims (img_prd_hborder_rect_mask_a, -1)
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img_mask_blurry_aaa *= img_prd_hborder_rect_mask_a
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img_mask_blurry_aaa = np.clip( img_mask_blurry_aaa, 0, 1.0 )
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if debug:
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debugs += [img_mask_blurry_aaa.copy()]
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if self.blur_mask_modifier > 0:
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blur = int( lowest_len * 0.10 * 0.01*self.blur_mask_modifier )
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if debug:
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io.log_info ("blur_size = %d" % (blur) )
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if blur > 0:
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img_mask_blurry_aaa = cv2.blur(img_mask_blurry_aaa, (blur, blur) )
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img_mask_blurry_aaa = cv2.blur(img_mask_blurry_aaa, (blur, blur) )
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img_mask_blurry_aaa = np.clip( img_mask_blurry_aaa, 0, 1.0 )
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if debug:
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debugs += [img_mask_blurry_aaa.copy()]
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if self.color_transfer_mode is not None:
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if self.color_transfer_mode == 'rct':
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if debug:
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debugs += [ np.clip( cv2.warpAffine( prd_face_bgr, face_output_mat, img_size, np.zeros(img_bgr.shape, dtype=np.float32), cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4, cv2.BORDER_TRANSPARENT ), 0, 1.0) ]
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prd_face_bgr = image_utils.reinhard_color_transfer ( np.clip( (prd_face_bgr*255).astype(np.uint8), 0, 255),
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np.clip( (dst_face_bgr*255).astype(np.uint8), 0, 255),
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source_mask=prd_face_mask_a, target_mask=prd_face_mask_a)
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@ -268,96 +269,95 @@ class ConverterMasked(Converter):
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if debug:
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debugs += [ np.clip( cv2.warpAffine( prd_face_bgr, face_output_mat, img_size, np.zeros(img_bgr.shape, dtype=np.float32), cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4, cv2.BORDER_TRANSPARENT ), 0, 1.0) ]
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elif self.color_transfer_mode == 'lct':
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if debug:
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debugs += [ np.clip( cv2.warpAffine( prd_face_bgr, face_output_mat, img_size, np.zeros(img_bgr.shape, dtype=np.float32), cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4, cv2.BORDER_TRANSPARENT ), 0, 1.0) ]
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prd_face_bgr = image_utils.linear_color_transfer (prd_face_bgr, dst_face_bgr)
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prd_face_bgr = np.clip( prd_face_bgr, 0.0, 1.0)
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if debug:
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debugs += [ np.clip( cv2.warpAffine( prd_face_bgr, face_output_mat, img_size, np.zeros(img_bgr.shape, dtype=np.float32), cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4, cv2.BORDER_TRANSPARENT ), 0, 1.0) ]
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if self.mode == 'hist-match-bw':
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prd_face_bgr = cv2.cvtColor(prd_face_bgr, cv2.COLOR_BGR2GRAY)
|
||||
prd_face_bgr = np.repeat( np.expand_dims (prd_face_bgr, -1), (3,), -1 )
|
||||
|
||||
|
||||
if self.mode == 'hist-match' or self.mode == 'hist-match-bw':
|
||||
if debug:
|
||||
debugs += [ cv2.warpAffine( prd_face_bgr, face_output_mat, img_size, np.zeros(img_bgr.shape, dtype=np.float32), cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4, cv2.BORDER_TRANSPARENT ) ]
|
||||
|
||||
|
||||
hist_mask_a = np.ones ( prd_face_bgr.shape[:2] + (1,) , dtype=np.float32)
|
||||
|
||||
|
||||
if self.masked_hist_match:
|
||||
hist_mask_a *= prd_face_mask_a
|
||||
|
||||
hist_match_1 = prd_face_bgr*hist_mask_a + (1.0-hist_mask_a)* np.ones ( prd_face_bgr.shape[:2] + (1,) , dtype=np.float32)
|
||||
|
||||
hist_match_1 = prd_face_bgr*hist_mask_a + (1.0-hist_mask_a)* np.ones ( prd_face_bgr.shape[:2] + (1,) , dtype=np.float32)
|
||||
hist_match_1[ hist_match_1 > 1.0 ] = 1.0
|
||||
|
||||
hist_match_2 = dst_face_bgr*hist_mask_a + (1.0-hist_mask_a)* np.ones ( prd_face_bgr.shape[:2] + (1,) , dtype=np.float32)
|
||||
|
||||
hist_match_2 = dst_face_bgr*hist_mask_a + (1.0-hist_mask_a)* np.ones ( prd_face_bgr.shape[:2] + (1,) , dtype=np.float32)
|
||||
hist_match_2[ hist_match_1 > 1.0 ] = 1.0
|
||||
|
||||
prd_face_bgr = image_utils.color_hist_match(hist_match_1, hist_match_2, self.hist_match_threshold )
|
||||
|
||||
|
||||
if self.mode == 'hist-match-bw':
|
||||
prd_face_bgr = prd_face_bgr.astype(dtype=np.float32)
|
||||
|
||||
|
||||
out_img = cv2.warpAffine( prd_face_bgr, face_output_mat, img_size, out_img, cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4, cv2.BORDER_TRANSPARENT )
|
||||
out_img = np.clip(out_img, 0.0, 1.0)
|
||||
|
||||
|
||||
if debug:
|
||||
debugs += [out_img.copy()]
|
||||
|
||||
if self.mode == 'overlay':
|
||||
pass
|
||||
|
||||
|
||||
if 'seamless' in self.mode:
|
||||
try:
|
||||
try:
|
||||
out_img = cv2.seamlessClone( (out_img*255).astype(np.uint8), (img_bgr*255).astype(np.uint8), (img_face_seamless_mask_aaa*255).astype(np.uint8), (maskx,masky) , cv2.NORMAL_CLONE )
|
||||
out_img = out_img.astype(dtype=np.float32) / 255.0
|
||||
except Exception as e:
|
||||
#seamlessClone may fail in some cases
|
||||
e_str = traceback.format_exc()
|
||||
|
||||
|
||||
if 'MemoryError' in e_str:
|
||||
raise Exception("Seamless fail: " + e_str) #reraise MemoryError in order to reprocess this data by other processes
|
||||
else:
|
||||
print ("Seamless fail: " + e_str)
|
||||
|
||||
|
||||
if debug:
|
||||
debugs += [out_img.copy()]
|
||||
|
||||
out_img = np.clip( img_bgr*(1-img_mask_blurry_aaa) + (out_img*img_mask_blurry_aaa) , 0, 1.0 )
|
||||
|
||||
if self.mode == 'seamless-hist-match':
|
||||
out_face_bgr = cv2.warpAffine( out_img, face_mat, (self.output_size, self.output_size) )
|
||||
new_out_face_bgr = image_utils.color_hist_match(out_face_bgr, dst_face_bgr, self.hist_match_threshold)
|
||||
out_face_bgr = cv2.warpAffine( out_img, face_mat, (self.output_size, self.output_size) )
|
||||
new_out_face_bgr = image_utils.color_hist_match(out_face_bgr, dst_face_bgr, self.hist_match_threshold)
|
||||
new_out = cv2.warpAffine( new_out_face_bgr, face_mat, img_size, img_bgr.copy(), cv2.WARP_INVERSE_MAP | cv2.INTER_LANCZOS4, cv2.BORDER_TRANSPARENT )
|
||||
out_img = np.clip( img_bgr*(1-img_mask_blurry_aaa) + (new_out*img_mask_blurry_aaa) , 0, 1.0 )
|
||||
|
||||
|
||||
if self.final_image_color_degrade_power != 0:
|
||||
if debug:
|
||||
debugs += [out_img.copy()]
|
||||
debugs += [out_img.copy()]
|
||||
out_img_reduced = image_utils.reduce_colors(out_img, 256)
|
||||
if self.final_image_color_degrade_power == 100:
|
||||
out_img = out_img_reduced
|
||||
else:
|
||||
alpha = self.final_image_color_degrade_power / 100.0
|
||||
out_img = (out_img*(1.0-alpha) + out_img_reduced*alpha)
|
||||
|
||||
|
||||
if self.alpha:
|
||||
out_img = np.concatenate ( [out_img, np.expand_dims (img_mask_blurry_aaa[:,:,0],-1)], -1 )
|
||||
|
||||
out_img = np.concatenate ( [out_img, np.expand_dims (img_mask_blurry_aaa[:,:,0],-1)], -1 )
|
||||
|
||||
if self.over_res != 1:
|
||||
out_img = cv2.resize ( out_img, ( img_bgr.shape[1] // self.over_res, img_bgr.shape[0] // self.over_res ) )
|
||||
|
||||
out_img = np.clip (out_img, 0.0, 1.0 )
|
||||
|
||||
|
||||
if debug:
|
||||
debugs += [out_img.copy()]
|
||||
|
||||
return debugs if debug else out_img
|
||||
|
||||
|
||||
return debugs if debug else out_img
|
||||
|
||||
|
|
|
|||
Loading…
Add table
Add a link
Reference in a new issue