cleanup
This commit is contained in:
parent
d186572b0a
commit
1f761f360b
210
gradio_ui.py
210
gradio_ui.py
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@ -59,6 +59,7 @@ class BlendingFrontend():
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self.init_save_dir()
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self.init_save_dir()
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self.save_empty_image()
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self.save_empty_image()
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self.share = False
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self.share = False
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self.transition_can_be_computed = False
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self.depth_strength = 0.25
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self.depth_strength = 0.25
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self.seed1 = 420
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self.seed1 = 420
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self.seed2 = 420
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self.seed2 = 420
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@ -69,14 +70,12 @@ class BlendingFrontend():
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self.prompt2 = ""
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self.prompt2 = ""
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self.negative_prompt = ""
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self.negative_prompt = ""
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self.state_current = {}
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self.state_current = {}
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self.branch1_influence = 0.3
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self.branch1_crossfeed_power = self.lb.branch1_crossfeed_power
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self.branch1_max_depth_influence = 0.6
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self.branch1_crossfeed_range = self.lb.branch1_crossfeed_range
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self.branch1_influence_decay = 0.3
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self.branch1_crossfeed_decay = self.lb.branch1_crossfeed_decay
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self.parental_influence = 0.1
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self.parental_crossfeed_power = self.lb.parental_crossfeed_power
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self.parental_max_depth_influence = 1.0
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self.parental_crossfeed_range = self.lb.parental_crossfeed_range
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self.parental_influence_decay = 1.0
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self.parental_crossfeed_power_decay = self.lb.parental_crossfeed_power_decay
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self.nmb_branches_final = 9
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self.nmb_imgs_show = 5 # don't change
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self.fps = 30
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self.fps = 30
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self.duration_video = 10
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self.duration_video = 10
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self.t_compute_max_allowed = 10
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self.t_compute_max_allowed = 10
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@ -87,15 +86,14 @@ class BlendingFrontend():
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self.fp_img1 = None
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self.fp_img1 = None
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self.fp_img2 = None
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self.fp_img2 = None
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self.multi_idx_current = -1
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self.multi_idx_current = -1
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self.multi_list_concat = []
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self.list_imgs_shown_last = 5*[self.fp_img_empty]
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self.list_imgs_shown_last = 5*[self.fp_img_empty]
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self.nmb_trans_stack = 6
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self.list_all_segments = []
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self.dp_session = ""
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def init_save_dir(self):
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def init_save_dir(self):
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load_dotenv(find_dotenv(), verbose=False)
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load_dotenv(find_dotenv(), verbose=False)
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self.dp_out = os.getenv("dp_out")
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self.dp_out = os.getenv("DIR_OUT")
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if self.dp_out is None:
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if self.dp_out is None:
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self.dp_out = ""
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self.dp_out = ""
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self.dp_imgs = os.path.join(self.dp_out, "imgs")
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self.dp_imgs = os.path.join(self.dp_out, "imgs")
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@ -104,7 +102,6 @@ class BlendingFrontend():
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os.makedirs(self.dp_movies, exist_ok=True)
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os.makedirs(self.dp_movies, exist_ok=True)
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# make dummy image
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# make dummy image
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def save_empty_image(self):
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def save_empty_image(self):
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self.fp_img_empty = os.path.join(self.dp_imgs, 'empty.jpg')
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self.fp_img_empty = os.path.join(self.dp_imgs, 'empty.jpg')
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@ -112,6 +109,10 @@ class BlendingFrontend():
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def randomize_seed1(self):
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def randomize_seed1(self):
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# Dont randomize seed if we are in a multi concat mode. we don't want to change this one otherwise the movie breaks
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if len(self.list_all_segments) > 0:
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seed = self.seed1
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else:
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seed = np.random.randint(0, 10000000)
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seed = np.random.randint(0, 10000000)
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self.seed1 = int(seed)
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self.seed1 = int(seed)
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print(f"randomize_seed1: new seed = {self.seed1}")
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print(f"randomize_seed1: new seed = {self.seed1}")
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@ -141,12 +142,12 @@ class BlendingFrontend():
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self.lb.seed1 = list_ui_elem[list_ui_keys.index('seed1')] #seed
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self.lb.seed1 = list_ui_elem[list_ui_keys.index('seed1')] #seed
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self.lb.seed2 = list_ui_elem[list_ui_keys.index('seed2')]
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self.lb.seed2 = list_ui_elem[list_ui_keys.index('seed2')]
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self.lb.branch1_influence = list_ui_elem[list_ui_keys.index('branch1_influence')]
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self.lb.branch1_crossfeed_power = list_ui_elem[list_ui_keys.index('branch1_crossfeed_power')]
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self.lb.branch1_max_depth_influence = list_ui_elem[list_ui_keys.index('branch1_max_depth_influence')]
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self.lb.branch1_crossfeed_range = list_ui_elem[list_ui_keys.index('branch1_crossfeed_range')]
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self.lb.branch1_influence_decay = list_ui_elem[list_ui_keys.index('branch1_influence_decay')]
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self.lb.branch1_crossfeed_decay = list_ui_elem[list_ui_keys.index('branch1_crossfeed_decay')]
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self.lb.parental_influence = list_ui_elem[list_ui_keys.index('parental_influence')]
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self.lb.parental_crossfeed_power = list_ui_elem[list_ui_keys.index('parental_crossfeed_power')]
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self.lb.parental_max_depth_influence = list_ui_elem[list_ui_keys.index('parental_max_depth_influence')]
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self.lb.parental_crossfeed_range = list_ui_elem[list_ui_keys.index('parental_crossfeed_range')]
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self.lb.parental_influence_decay = list_ui_elem[list_ui_keys.index('parental_influence_decay')]
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self.lb.parental_crossfeed_power_decay = list_ui_elem[list_ui_keys.index('parental_crossfeed_power_decay')]
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self.num_inference_steps = list_ui_elem[list_ui_keys.index('num_inference_steps')]
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self.num_inference_steps = list_ui_elem[list_ui_keys.index('num_inference_steps')]
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self.depth_strength = list_ui_elem[list_ui_keys.index('depth_strength')]
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self.depth_strength = list_ui_elem[list_ui_keys.index('depth_strength')]
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@ -162,27 +163,26 @@ class BlendingFrontend():
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return [self.fp_img1, self.fp_img_empty, self.fp_img_empty, self.fp_img_empty, self.fp_img_empty]
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return [self.fp_img1, self.fp_img_empty, self.fp_img_empty, self.fp_img_empty, self.fp_img_empty]
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def compute_img2(self, *args):
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def compute_img2(self, *args):
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if self.fp_img1 is None: # don't do anything
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return [self.fp_img_empty, self.fp_img_empty, self.fp_img_empty, self.fp_img_empty]
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list_ui_elem = args
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list_ui_elem = args
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self.setup_lb(list_ui_elem)
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self.setup_lb(list_ui_elem)
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self.fp_img2 = os.path.join(self.dp_imgs, f"img2_{get_time('second')}.jpg")
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self.fp_img2 = os.path.join(self.dp_imgs, f"img2_{get_time('second')}.jpg")
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img2 = Image.fromarray(self.lb.compute_latents2(return_image=True))
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img2 = Image.fromarray(self.lb.compute_latents2(return_image=True))
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img2.save(self.fp_img2)
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img2.save(self.fp_img2)
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self.recycle_img2 = True
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self.recycle_img2 = True
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self.transition_can_be_computed = True
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return [self.fp_img_empty, self.fp_img_empty, self.fp_img_empty, self.fp_img2]
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return [self.fp_img_empty, self.fp_img_empty, self.fp_img_empty, self.fp_img2]
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def compute_transition(self, *args):
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def compute_transition(self, *args):
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if not self.recycle_img1:
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if not self.transition_can_be_computed:
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print("compute first image before transition")
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list_return = [self.fp_img_empty, self.fp_img_empty, self.fp_img_empty, self.fp_img_empty]
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return
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return list_return
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if not self.recycle_img2:
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print("compute last image before transition")
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return
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list_ui_elem = args
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list_ui_elem = args
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self.setup_lb(list_ui_elem)
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self.setup_lb(list_ui_elem)
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print("STARTING DIFFUSION!")
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print("STARTING TRANSITION...")
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if self.use_debug:
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if self.use_debug:
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list_imgs = [(255*np.random.rand(self.height,self.width,3)).astype(np.uint8) for l in range(5)]
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list_imgs = [(255*np.random.rand(self.height,self.width,3)).astype(np.uint8) for l in range(5)]
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list_imgs = [Image.fromarray(l) for l in list_imgs]
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list_imgs = [Image.fromarray(l) for l in list_imgs]
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@ -236,14 +236,21 @@ class BlendingFrontend():
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def stack_forward(self, prompt2, seed2):
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def stack_forward(self, prompt2, seed2):
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# Save preview images, prompts and seeds into dictionary for stacking
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# Save preview images, prompts and seeds into dictionary for stacking
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# self.list_imgs_shown_last = self.get_multi_trans_imgs_preview(f"lowres_{self.current_timestamp}")[0:5]
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if len(self.list_all_segments) == 0:
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timestamp_section = get_time('second')
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timestamp_session = get_time('second')
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self.lb.write_imgs_transition(os.path.join(self.dp_out, f"lowres_{timestamp_section}"))
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self.dp_session = os.path.join(self.dp_out, f"session_{timestamp_session}")
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self.lb.write_imgs_transition(os.path.join(self.dp_out, "lowres_current"))
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os.makedirs(self.dp_session)
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shutil.copyfile(self.fp_movie, os.path.join(self.dp_out, f"lowres_{timestamp_section}", "movie.mp4"))
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self.transition_can_be_computed = False
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idx_segment = len(self.list_all_segments)
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dp_segment = os.path.join(self.dp_session, f"segment_{str(idx_segment).zfill(3)}")
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self.list_all_segments.append(dp_segment)
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self.lb.write_imgs_transition(dp_segment)
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shutil.copyfile(self.fp_movie, os.path.join(dp_segment, "movie.mp4"))
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self.lb.swap_forward()
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self.lb.swap_forward()
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self.multi_append()
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fp_multi = self.multi_concat()
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fp_multi = self.multi_concat()
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list_out = [fp_multi]
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list_out = [fp_multi]
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list_out.extend([self.fp_img2])
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list_out.extend([self.fp_img2])
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@ -252,52 +259,19 @@ class BlendingFrontend():
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list_out.append(gr.update(interactive=False, value=seed2))
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list_out.append(gr.update(interactive=False, value=seed2))
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list_out.append("")
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list_out.append("")
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list_out.append(np.random.randint(0, 10000000))
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list_out.append(np.random.randint(0, 10000000))
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print(f"stack_forward: fp_multi {fp_multi}")
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print(f"stack_forward: fp_multi {fp_multi}")
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return list_out
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return list_out
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def get_list_all_stacked(self):
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list_all = os.listdir(os.path.join(self.dp_out))
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list_all = [l for l in list_all if l[:8]=="lowres_2"]
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list_all.sort()
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return list_all
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def multi_append(self):
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list_all = self.get_list_all_stacked()
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dn = list_all[self.multi_idx_current]
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self.multi_list_concat.append(dn)
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list_short = [dn[7:] for dn in self.multi_list_concat]
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str_out = "\n".join(list_short)
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return str_out
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def multi_reset(self):
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self.multi_list_concat = []
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str_out = ""
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return str_out
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def multi_concat(self):
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def multi_concat(self):
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# Make new output directory
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dp_multi = os.path.join(self.dp_out, f"multi_{get_time('second')}")
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os.makedirs(dp_multi, exist_ok=False)
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# Copy all low-res folders (prepending multi001_xxxx), however leave out the movie.mp4
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# also collect all movie.mp4
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list_fp_movies = []
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list_fp_movies = []
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for i, dn in enumerate(self.multi_list_concat):
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for dp_segment in self.list_all_segments:
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dp_source = os.path.join(self.dp_out, dn)
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list_fp_movies.append(os.path.join(dp_segment, "movie.mp4"))
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dp_sequence = os.path.join(dp_multi, f"{str(i).zfill(3)}_{dn}")
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os.makedirs(dp_sequence, exist_ok=False)
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list_source = os.listdir(dp_source)
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list_source = [l for l in list_source if not l.endswith(".mp4")]
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for fn in list_source:
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shutil.copyfile(os.path.join(dp_source, fn), os.path.join(dp_sequence, fn))
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list_fp_movies.append(os.path.join(dp_source, "movie.mp4"))
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# Concatenate movies and save
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# Concatenate movies and save
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fp_final = os.path.join(dp_multi, "movie.mp4")
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fp_final = os.path.join(self.dp_session, "movie.mp4")
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concatenate_movies(fp_final, list_fp_movies)
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concatenate_movies(fp_final, list_fp_movies)
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return fp_final
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return fp_final
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return state_dict
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return state_dict
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def get_img_rand():
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return (255*np.random.rand(self.height,self.width,3)).astype(np.uint8)
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def generate_list_output(
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prompt1,
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prompt2,
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seed1,
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seed2,
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list_fp_imgs,
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):
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list_output = []
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list_output.append(prompt1)
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list_output.append(prompt2)
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list_output.append(seed1)
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list_output.append(seed2)
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for fp_img in list_fp_imgs:
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list_output.append(fp_img)
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return list_output
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if __name__ == "__main__":
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if __name__ == "__main__":
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# fp_ckpt = "../stable_diffusion_models/ckpt/v2-1_768-ema-pruned.ckpt"
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# fp_ckpt = "../stable_diffusion_models/ckpt/v2-1_768-ema-pruned.ckpt"
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fp_ckpt = "../stable_diffusion_models/ckpt/v2-1_512-ema-pruned.ckpt"
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fp_ckpt = "../stable_diffusion_models/ckpt/v2-1_512-ema-pruned.ckpt"
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self = BlendingFrontend(StableDiffusionHolder(fp_ckpt)) # Yes this is possible in python and yes it is an awesome trick
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bf = BlendingFrontend(StableDiffusionHolder(fp_ckpt))
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# self = BlendingFrontend(None) # Yes this is possible in python and yes it is an awesome trick
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# self = BlendingFrontend(None)
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dict_ui_elem = {}
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with gr.Blocks() as demo:
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with gr.Blocks() as demo:
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with gr.Tab("Single Transition"):
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with gr.Tab("Single Transition"):
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prompt2 = gr.Textbox(label="prompt 2")
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prompt2 = gr.Textbox(label="prompt 2")
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with gr.Row():
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with gr.Row():
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duration_compute = gr.Slider(5, 45, self.t_compute_max_allowed, step=1, label='compute budget for transition (seconds)', interactive=True)
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duration_compute = gr.Slider(5, 200, bf.t_compute_max_allowed, step=1, label='compute budget for transition (seconds)', interactive=True)
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duration_video = gr.Slider(0.1, 30, self.duration_video, step=0.1, label='result video duration (seconds)', interactive=True)
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duration_video = gr.Slider(1, 100, bf.duration_video, step=0.1, label='result video duration (seconds)', interactive=True)
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height = gr.Slider(256, 2048, self.height, step=128, label='height', interactive=True)
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height = gr.Slider(256, 2048, bf.height, step=128, label='height', interactive=True)
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width = gr.Slider(256, 2048, self.width, step=128, label='width', interactive=True)
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width = gr.Slider(256, 2048, bf.width, step=128, label='width', interactive=True)
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with gr.Accordion("Advanced Settings (click to expand)", open=False):
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with gr.Accordion("Advanced Settings (click to expand)", open=False):
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with gr.Accordion("Diffusion settings", open=True):
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with gr.Accordion("Diffusion settings", open=True):
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with gr.Row():
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with gr.Row():
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num_inference_steps = gr.Slider(5, 100, self.num_inference_steps, step=1, label='num_inference_steps', interactive=True)
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num_inference_steps = gr.Slider(5, 100, bf.num_inference_steps, step=1, label='num_inference_steps', interactive=True)
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guidance_scale = gr.Slider(1, 25, self.guidance_scale, step=0.1, label='guidance_scale', interactive=True)
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guidance_scale = gr.Slider(1, 25, bf.guidance_scale, step=0.1, label='guidance_scale', interactive=True)
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negative_prompt = gr.Textbox(label="negative prompt")
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negative_prompt = gr.Textbox(label="negative prompt")
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with gr.Accordion("Seeds control", open=True):
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with gr.Accordion("Seed control: adjust seeds for first and last images", open=True):
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with gr.Row():
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with gr.Row():
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b_newseed1 = gr.Button("randomize seed 1", variant='secondary')
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b_newseed1 = gr.Button("randomize seed 1", variant='secondary')
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seed1 = gr.Number(self.seed1, label="seed 1", interactive=True)
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seed1 = gr.Number(bf.seed1, label="seed 1", interactive=True)
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seed2 = gr.Number(self.seed2, label="seed 2", interactive=True)
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seed2 = gr.Number(bf.seed2, label="seed 2", interactive=True)
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b_newseed2 = gr.Button("randomize seed 2", variant='secondary')
|
b_newseed2 = gr.Button("randomize seed 2", variant='secondary')
|
||||||
|
|
||||||
with gr.Accordion("Crossfeeding for last image", open=True):
|
with gr.Accordion("Last image crossfeeding.", open=True):
|
||||||
with gr.Row():
|
with gr.Row():
|
||||||
branch1_influence = gr.Slider(0.0, 1.0, self.branch1_influence, step=0.01, label='crossfeed power', interactive=True)
|
branch1_crossfeed_power = gr.Slider(0.0, 1.0, bf.branch1_crossfeed_power, step=0.01, label='branch1 crossfeed power', interactive=True)
|
||||||
branch1_max_depth_influence = gr.Slider(0.0, 1.0, self.branch1_max_depth_influence, step=0.01, label='crossfeed range', interactive=True)
|
branch1_crossfeed_range = gr.Slider(0.0, 1.0, bf.branch1_crossfeed_range, step=0.01, label='branch1 crossfeed range', interactive=True)
|
||||||
branch1_influence_decay = gr.Slider(0.0, 1.0, self.branch1_influence_decay, step=0.01, label='crossfeed decay', interactive=True)
|
branch1_crossfeed_decay = gr.Slider(0.0, 1.0, bf.branch1_crossfeed_decay, step=0.01, label='branch1 crossfeed decay', interactive=True)
|
||||||
|
|
||||||
with gr.Accordion("Transition settings", open=True):
|
with gr.Accordion("Transition settings", open=True):
|
||||||
with gr.Row():
|
with gr.Row():
|
||||||
parental_influence = gr.Slider(0.0, 1.0, self.parental_influence, step=0.01, label='parental power', interactive=True)
|
parental_crossfeed_power = gr.Slider(0.0, 1.0, bf.parental_crossfeed_power, step=0.01, label='parental crossfeed power', interactive=True)
|
||||||
parental_max_depth_influence = gr.Slider(0.0, 1.0, self.parental_max_depth_influence, step=0.01, label='parental range', interactive=True)
|
parental_crossfeed_range = gr.Slider(0.0, 1.0, bf.parental_crossfeed_range, step=0.01, label='parental crossfeed range', interactive=True)
|
||||||
parental_influence_decay = gr.Slider(0.0, 1.0, self.parental_influence_decay, step=0.01, label='parental decay', interactive=True)
|
parental_crossfeed_power_decay = gr.Slider(0.0, 1.0, bf.parental_crossfeed_power_decay, step=0.01, label='parental crossfeed decay', interactive=True)
|
||||||
with gr.Row():
|
with gr.Row():
|
||||||
depth_strength = gr.Slider(0.01, 0.99, self.depth_strength, step=0.01, label='depth_strength', interactive=True)
|
depth_strength = gr.Slider(0.01, 0.99, bf.depth_strength, step=0.01, label='depth_strength', interactive=True)
|
||||||
guidance_scale_mid_damper = gr.Slider(0.01, 2.0, self.guidance_scale_mid_damper, step=0.01, label='guidance_scale_mid_damper', interactive=True)
|
guidance_scale_mid_damper = gr.Slider(0.01, 2.0, bf.guidance_scale_mid_damper, step=0.01, label='guidance_scale_mid_damper', interactive=True)
|
||||||
|
|
||||||
|
|
||||||
with gr.Row():
|
with gr.Row():
|
||||||
|
@ -404,10 +355,11 @@ if __name__ == "__main__":
|
||||||
|
|
||||||
with gr.Row():
|
with gr.Row():
|
||||||
# b_restart = gr.Button("RESTART EVERYTHING")
|
# b_restart = gr.Button("RESTART EVERYTHING")
|
||||||
b_stackforward = gr.Button('multi-movie start next segment (move last image -> first image)', variant='primary')
|
b_stackforward = gr.Button('append last movie segment (left) to multi movie (right)', variant='primary')
|
||||||
|
|
||||||
|
|
||||||
# Collect all UI elemts in list to easily pass as inputs
|
# Collect all UI elemts in list to easily pass as inputs in gradio
|
||||||
|
dict_ui_elem = {}
|
||||||
dict_ui_elem["prompt1"] = prompt1
|
dict_ui_elem["prompt1"] = prompt1
|
||||||
dict_ui_elem["negative_prompt"] = negative_prompt
|
dict_ui_elem["negative_prompt"] = negative_prompt
|
||||||
dict_ui_elem["prompt2"] = prompt2
|
dict_ui_elem["prompt2"] = prompt2
|
||||||
|
@ -418,9 +370,9 @@ if __name__ == "__main__":
|
||||||
dict_ui_elem["width"] = width
|
dict_ui_elem["width"] = width
|
||||||
|
|
||||||
dict_ui_elem["depth_strength"] = depth_strength
|
dict_ui_elem["depth_strength"] = depth_strength
|
||||||
dict_ui_elem["branch1_influence"] = branch1_influence
|
dict_ui_elem["branch1_crossfeed_power"] = branch1_crossfeed_power
|
||||||
dict_ui_elem["branch1_max_depth_influence"] = branch1_max_depth_influence
|
dict_ui_elem["branch1_crossfeed_range"] = branch1_crossfeed_range
|
||||||
dict_ui_elem["branch1_influence_decay"] = branch1_influence_decay
|
dict_ui_elem["branch1_crossfeed_decay"] = branch1_crossfeed_decay
|
||||||
|
|
||||||
dict_ui_elem["num_inference_steps"] = num_inference_steps
|
dict_ui_elem["num_inference_steps"] = num_inference_steps
|
||||||
dict_ui_elem["guidance_scale"] = guidance_scale
|
dict_ui_elem["guidance_scale"] = guidance_scale
|
||||||
|
@ -428,9 +380,9 @@ if __name__ == "__main__":
|
||||||
dict_ui_elem["seed1"] = seed1
|
dict_ui_elem["seed1"] = seed1
|
||||||
dict_ui_elem["seed2"] = seed2
|
dict_ui_elem["seed2"] = seed2
|
||||||
|
|
||||||
dict_ui_elem["parental_max_depth_influence"] = parental_max_depth_influence
|
dict_ui_elem["parental_crossfeed_range"] = parental_crossfeed_range
|
||||||
dict_ui_elem["parental_influence"] = parental_influence
|
dict_ui_elem["parental_crossfeed_power"] = parental_crossfeed_power
|
||||||
dict_ui_elem["parental_influence_decay"] = parental_influence_decay
|
dict_ui_elem["parental_crossfeed_power_decay"] = parental_crossfeed_power_decay
|
||||||
|
|
||||||
# Convert to list, as gradio doesn't seem to accept dicts
|
# Convert to list, as gradio doesn't seem to accept dicts
|
||||||
list_ui_elem = []
|
list_ui_elem = []
|
||||||
|
@ -438,21 +390,19 @@ if __name__ == "__main__":
|
||||||
for k in dict_ui_elem.keys():
|
for k in dict_ui_elem.keys():
|
||||||
list_ui_elem.append(dict_ui_elem[k])
|
list_ui_elem.append(dict_ui_elem[k])
|
||||||
list_ui_keys.append(k)
|
list_ui_keys.append(k)
|
||||||
self.list_ui_keys = list_ui_keys
|
bf.list_ui_keys = list_ui_keys
|
||||||
|
|
||||||
b_newseed1.click(self.randomize_seed1, outputs=seed1)
|
b_newseed1.click(bf.randomize_seed1, outputs=seed1)
|
||||||
b_newseed2.click(self.randomize_seed2, outputs=seed2)
|
b_newseed2.click(bf.randomize_seed2, outputs=seed2)
|
||||||
b_compute1.click(self.compute_img1, inputs=list_ui_elem, outputs=[img1, img2, img3, img4, img5])
|
b_compute1.click(bf.compute_img1, inputs=list_ui_elem, outputs=[img1, img2, img3, img4, img5])
|
||||||
b_compute2.click(self.compute_img2, inputs=list_ui_elem, outputs=[img2, img3, img4, img5])
|
b_compute2.click(bf.compute_img2, inputs=list_ui_elem, outputs=[img2, img3, img4, img5])
|
||||||
b_compute_transition.click(self.compute_transition,
|
b_compute_transition.click(bf.compute_transition,
|
||||||
inputs=list_ui_elem,
|
inputs=list_ui_elem,
|
||||||
outputs=[img2, img3, img4, vid_single])
|
outputs=[img2, img3, img4, vid_single])
|
||||||
|
|
||||||
b_stackforward.click(self.stack_forward,
|
b_stackforward.click(bf.stack_forward,
|
||||||
inputs=[prompt2, seed2],
|
inputs=[prompt2, seed2],
|
||||||
outputs=[vid_multi, img1, img2, img3, img4, img5, prompt1, seed1, prompt2])
|
outputs=[vid_multi, img1, img2, img3, img4, img5, prompt1, seed1, prompt2])
|
||||||
|
|
||||||
# b_restart.click(self.multi_reset)
|
|
||||||
|
|
||||||
|
demo.launch(share=bf.share, inbrowser=True, inline=False)
|
||||||
demo.launch(share=self.share, inbrowser=True, inline=False)
|
|
||||||
|
|
|
@ -109,13 +109,13 @@ class LatentBlending():
|
||||||
self.list_nmb_branches = None
|
self.list_nmb_branches = None
|
||||||
|
|
||||||
# Mixing parameters
|
# Mixing parameters
|
||||||
self.branch1_influence = 0.0
|
self.branch1_crossfeed_power = 0.1
|
||||||
self.branch1_max_depth_influence = 0.65
|
self.branch1_crossfeed_range = 0.6
|
||||||
self.branch1_influence_decay = 0.8
|
self.branch1_crossfeed_decay = 0.8
|
||||||
|
|
||||||
self.parental_influence = 0.0
|
self.parental_crossfeed_power = 0.1
|
||||||
self.parental_max_depth_influence = 1.0
|
self.parental_crossfeed_range = 0.8
|
||||||
self.parental_influence_decay = 1.0
|
self.parental_crossfeed_power_decay = 0.8
|
||||||
|
|
||||||
self.branch1_insertion_completed = False
|
self.branch1_insertion_completed = False
|
||||||
self.set_guidance_scale(guidance_scale)
|
self.set_guidance_scale(guidance_scale)
|
||||||
|
@ -335,10 +335,10 @@ class LatentBlending():
|
||||||
list_conditionings = self.get_mixed_conditioning(1)
|
list_conditionings = self.get_mixed_conditioning(1)
|
||||||
latents_start = self.get_noise(self.seed2)
|
latents_start = self.get_noise(self.seed2)
|
||||||
# Influence from branch1
|
# Influence from branch1
|
||||||
if self.branch1_influence > 0.0:
|
if self.branch1_crossfeed_power > 0.0:
|
||||||
# Set up the mixing_coeffs
|
# Set up the mixing_coeffs
|
||||||
idx_mixing_stop = int(round(self.num_inference_steps*self.branch1_max_depth_influence))
|
idx_mixing_stop = int(round(self.num_inference_steps*self.branch1_crossfeed_range))
|
||||||
mixing_coeffs = list(np.linspace(self.branch1_influence, self.branch1_influence*self.branch1_influence_decay, idx_mixing_stop))
|
mixing_coeffs = list(np.linspace(self.branch1_crossfeed_power, self.branch1_crossfeed_power*self.branch1_crossfeed_decay, idx_mixing_stop))
|
||||||
mixing_coeffs.extend((self.num_inference_steps-idx_mixing_stop)*[0])
|
mixing_coeffs.extend((self.num_inference_steps-idx_mixing_stop)*[0])
|
||||||
list_latents_mixing = self.tree_latents[0]
|
list_latents_mixing = self.tree_latents[0]
|
||||||
list_latents2 = self.run_diffusion(
|
list_latents2 = self.run_diffusion(
|
||||||
|
@ -385,11 +385,11 @@ class LatentBlending():
|
||||||
latents_parental = interpolate_spherical(latents_p1, latents_p2, fract_mixing_parental)
|
latents_parental = interpolate_spherical(latents_p1, latents_p2, fract_mixing_parental)
|
||||||
list_latents_parental_mix.append(latents_parental)
|
list_latents_parental_mix.append(latents_parental)
|
||||||
|
|
||||||
idx_mixing_stop = int(round(self.num_inference_steps*self.parental_max_depth_influence))
|
idx_mixing_stop = int(round(self.num_inference_steps*self.parental_crossfeed_range))
|
||||||
mixing_coeffs = idx_injection*[self.parental_influence]
|
mixing_coeffs = idx_injection*[self.parental_crossfeed_power]
|
||||||
nmb_mixing = idx_mixing_stop - idx_injection
|
nmb_mixing = idx_mixing_stop - idx_injection
|
||||||
if nmb_mixing > 0:
|
if nmb_mixing > 0:
|
||||||
mixing_coeffs.extend(list(np.linspace(self.parental_influence, self.parental_influence*self.parental_influence_decay, nmb_mixing)))
|
mixing_coeffs.extend(list(np.linspace(self.parental_crossfeed_power, self.parental_crossfeed_power*self.parental_crossfeed_power_decay, nmb_mixing)))
|
||||||
mixing_coeffs.extend((self.num_inference_steps-len(mixing_coeffs))*[0])
|
mixing_coeffs.extend((self.num_inference_steps-len(mixing_coeffs))*[0])
|
||||||
|
|
||||||
latents_start = list_latents_parental_mix[idx_injection-1]
|
latents_start = list_latents_parental_mix[idx_injection-1]
|
||||||
|
@ -793,8 +793,8 @@ class LatentBlending():
|
||||||
grab_vars = ['prompt1', 'prompt2', 'seed1', 'seed2', 'height', 'width',
|
grab_vars = ['prompt1', 'prompt2', 'seed1', 'seed2', 'height', 'width',
|
||||||
'num_inference_steps', 'depth_strength', 'guidance_scale',
|
'num_inference_steps', 'depth_strength', 'guidance_scale',
|
||||||
'guidance_scale_mid_damper', 'mid_compression_scaler', 'negative_prompt',
|
'guidance_scale_mid_damper', 'mid_compression_scaler', 'negative_prompt',
|
||||||
'branch1_influence', 'branch1_max_depth_influence', 'branch1_influence_decay'
|
'branch1_crossfeed_power', 'branch1_crossfeed_range', 'branch1_crossfeed_decay'
|
||||||
'parental_influence', 'parental_max_depth_influence', 'parental_influence_decay']
|
'parental_crossfeed_power', 'parental_crossfeed_range', 'parental_crossfeed_power_decay']
|
||||||
for v in grab_vars:
|
for v in grab_vars:
|
||||||
if hasattr(self, v):
|
if hasattr(self, v):
|
||||||
if v == 'seed1' or v == 'seed2':
|
if v == 'seed1' or v == 'seed2':
|
||||||
|
@ -1167,25 +1167,25 @@ if __name__ == "__main__":
|
||||||
self.set_prompt2(prompt2)
|
self.set_prompt2(prompt2)
|
||||||
|
|
||||||
# Run latent blending
|
# Run latent blending
|
||||||
self.branch1_influence = 0.3
|
self.branch1_crossfeed_power = 0.3
|
||||||
self.branch1_max_depth_influence = 0.4
|
self.branch1_crossfeed_range = 0.4
|
||||||
# self.run_transition(depth_strength=depth_strength, fixed_seeds=fixed_seeds)
|
# self.run_transition(depth_strength=depth_strength, fixed_seeds=fixed_seeds)
|
||||||
self.seed1=21312
|
self.seed1=21312
|
||||||
img1 =self.compute_latents1(True)
|
img1 =self.compute_latents1(True)
|
||||||
#%
|
#%
|
||||||
self.seed2=1234121
|
self.seed2=1234121
|
||||||
self.branch1_influence = 0.7
|
self.branch1_crossfeed_power = 0.7
|
||||||
self.branch1_max_depth_influence = 0.3
|
self.branch1_crossfeed_range = 0.3
|
||||||
self.branch1_influence_decay = 0.3
|
self.branch1_crossfeed_decay = 0.3
|
||||||
img2 =self.compute_latents2(True)
|
img2 =self.compute_latents2(True)
|
||||||
# Image.fromarray(np.concatenate((img1, img2), axis=1))
|
# Image.fromarray(np.concatenate((img1, img2), axis=1))
|
||||||
|
|
||||||
#%%
|
#%%
|
||||||
t0 = time.time()
|
t0 = time.time()
|
||||||
self.t_compute_max_allowed = 30
|
self.t_compute_max_allowed = 30
|
||||||
self.parental_max_depth_influence = 1.0
|
self.parental_crossfeed_range = 1.0
|
||||||
self.parental_influence = 0.0
|
self.parental_crossfeed_power = 0.0
|
||||||
self.parental_influence_decay = 1.0
|
self.parental_crossfeed_power_decay = 1.0
|
||||||
imgs_transition = self.run_transition(recycle_img1=True, recycle_img2=True)
|
imgs_transition = self.run_transition(recycle_img1=True, recycle_img2=True)
|
||||||
t1 = time.time()
|
t1 = time.time()
|
||||||
print(f"took: {t1-t0}s")
|
print(f"took: {t1-t0}s")
|
Loading…
Reference in New Issue