# https://modelscope.cn/models/damo/text-to-video-synthesis/summary bl_info = { "name": "Generative AI", "author": "tintwotin", "version": (1, 2), "blender": (3, 4, 0), "location": "Video Sequence Editor > Sidebar > Generative AI", "description": "Generate media in the VSE", "category": "Sequencer", } import bpy, ctypes, random from bpy.types import Operator, Panel, AddonPreferences from bpy.props import StringProperty, BoolProperty, EnumProperty, IntProperty, FloatProperty import site, platform import subprocess import sys, os, aud, re import string from os.path import dirname, realpath, isdir, join, basename import shutil os_platform = platform.system() # 'Linux', 'Darwin', 'Java', 'Windows' # not working def get_active_device_vram(): active_scene = bpy.context.scene active_view_layer = active_scene.view_layers.active active_view_layer.use_gpu_select = True # Enable GPU selection in the view layer # Iterate over available GPU devices for gpu_device in bpy.context.preferences.system.compute_device: if gpu_device.type == 'CUDA': # Only consider CUDA devices if gpu_device.use: return gpu_device.memory_total return None def show_system_console(show): if os_platform == "Windows": # https://docs.microsoft.com/en-us/windows/win32/api/winuser/nf-winuser-showwindow SW_HIDE = 0 SW_SHOW = 5 ctypes.windll.user32.ShowWindow( ctypes.windll.kernel32.GetConsoleWindow(), SW_SHOW #if show else SW_HIDE ) def set_system_console_topmost(top): if os_platform == "Windows": # https://docs.microsoft.com/en-us/windows/win32/api/winuser/nf-winuser-setwindowpos HWND_NOTOPMOST = -2 HWND_TOPMOST = -1 HWND_TOP = 0 SWP_NOMOVE = 0x0002 SWP_NOSIZE = 0x0001 SWP_NOZORDER = 0x0004 ctypes.windll.user32.SetWindowPos( ctypes.windll.kernel32.GetConsoleWindow(), HWND_TOP if top else HWND_NOTOPMOST, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE | SWP_NOZORDER, ) def split_and_recombine_text(text, desired_length=200, max_length=300): """Split text it into chunks of a desired length trying to keep sentences intact.""" # normalize text, remove redundant whitespace and convert non-ascii quotes to ascii text = re.sub(r'\n\n+', '\n', text) text = re.sub(r'\s+', ' ', text) text = re.sub(r'[“”]', '"', text) rv = [] in_quote = False current = "" split_pos = [] pos = -1 end_pos = len(text) - 1 def seek(delta): nonlocal pos, in_quote, current is_neg = delta < 0 for _ in range(abs(delta)): if is_neg: pos -= 1 current = current[:-1] else: pos += 1 current += text[pos] if text[pos] == '"': in_quote = not in_quote return text[pos] def peek(delta): p = pos + delta return text[p] if p < end_pos and p >= 0 else "" def commit(): nonlocal rv, current, split_pos rv.append(current) current = "" split_pos = [] while pos < end_pos: c = seek(1) # do we need to force a split? if len(current) >= max_length: if len(split_pos) > 0 and len(current) > (desired_length / 2): # we have at least one sentence and we are over half the desired length, seek back to the last split d = pos - split_pos[-1] seek(-d) else: # no full sentences, seek back until we are not in the middle of a word and split there while c not in '!?.,\n ' and pos > 0 and len(current) > desired_length: c = seek(-1) commit() # check for sentence boundaries elif not in_quote and (c in '!?\n' or (c == '.' and peek(1) in '\n ')): # seek forward if we have consecutive boundary markers but still within the max length while pos < len(text) - 1 and len(current) < max_length and peek(1) in '!?.,': c = seek(1) split_pos.append(pos) if len(current) >= desired_length: commit() # treat end of quote as a boundary if its followed by a space or newline elif in_quote and peek(1) == '"' and peek(2) in '\n ': seek(2) split_pos.append(pos) rv.append(current) # clean up, remove lines with only whitespace or punctuation rv = [s.strip() for s in rv] rv = [s for s in rv if len(s) > 0 and not re.match(r'^[\s\.,;:!?]*$', s)] return rv def closest_divisible_64(num): # Determine the remainder when num is divided by 64 remainder = num % 64 # If the remainder is less than or equal to 32, return num - remainder, # but ensure the result is not less than 64 if remainder <= 32: result = num - remainder return max(result, 192) # Otherwise, return num + (64 - remainder) else: return num + (64 - remainder) def find_first_empty_channel(start_frame, end_frame): for ch in range(1, len(bpy.context.scene.sequence_editor.sequences_all) + 1): for seq in bpy.context.scene.sequence_editor.sequences_all: if ( seq.channel == ch and seq.frame_final_start < end_frame and (seq.frame_final_start + seq.frame_final_duration) > start_frame ): break else: return ch return 1 def clean_filename(filename): filename = filename[:50] valid_chars = "-_.() %s%s" % (string.ascii_letters, string.digits) clean_filename = "".join(c if c in valid_chars else "_" for c in filename) clean_filename = clean_filename.replace('\n', ' ') clean_filename = clean_filename.replace('\r', ' ') return clean_filename.strip() def create_folder(folderpath): if not isdir(folderpath): os.makedirs(folderpath, exist_ok=True) return folderpath def clean_path(full_path): preferences = bpy.context.preferences addon_prefs = preferences.addons[__name__].preferences name, ext = os.path.splitext(full_path) dir_path, filename = os.path.split(name) dir_path = create_folder(addon_prefs.generator_ai) cleaned_filename = clean_filename(filename) new_filename = cleaned_filename + ext i = 1 while os.path.exists(os.path.join(dir_path, new_filename)): name, ext = os.path.splitext(new_filename) new_filename = f"{name.rsplit('(', 1)[0]}({i}){ext}" i += 1 return os.path.join(dir_path, new_filename) def limit_string(my_string): if len(my_string) > 77: print("Warning: String is longer than 77 characters. Excessive string:", my_string[77:]) return my_string[:77] else: return my_string def import_module(self, module, install_module): show_system_console(True) set_system_console_topmost(True) module = str(module) try: exec("import " + module) except ModuleNotFoundError: app_path = site.USER_SITE if app_path not in sys.path: sys.path.append(app_path) pybin = sys.executable self.report({"INFO"}, "Installing: " + module + " module.") print("Installing: " + module + " module") subprocess.check_call( [ pybin, "-m", "pip", "install", install_module, "--no-warn-script-location", "--user", ] ) try: exec("import " + module) except ModuleNotFoundError: return False return True def install_modules(self): app_path = site.USER_SITE if app_path not in sys.path: sys.path.append(app_path) pybin = sys.executable print("Ensuring: pip") try: subprocess.call([pybin, "-m", "ensurepip"]) subprocess.call([pybin, "-m", "pip", "install", "--upgrade", "pip"]) except ImportError: pass try: exec("import torch") except ModuleNotFoundError: app_path = site.USER_SITE if app_path not in sys.path: sys.path.append(app_path) pybin = sys.executable self.report({"INFO"}, "Installing: torch module.") print("Installing: torch module") if os_platform == "Windows": subprocess.check_call( [ pybin, "-m", "pip", "install", "torch", "--index-url", "https://download.pytorch.org/whl/cu118", "--no-warn-script-location", "--user", ] ) subprocess.check_call( [ pybin, "-m", "pip", "install", "torchvision", "--index-url", "https://download.pytorch.org/whl/cu118", "--no-warn-script-location", "--user", ] ) subprocess.check_call( [ pybin, "-m", "pip", "install", "torchaudio", "--index-url", "https://download.pytorch.org/whl/cu118", "--no-warn-script-location", "--user", ] ) else: import_module(self, "torch", "torch") import_module(self, "torchvision", "torchvision") import_module(self, "torchaudio", "torchaudio") if os_platform == 'Darwin' or os_platform == 'Linux': import_module(self, "sox", "sox") else: import_module(self, "soundfile", "PySoundFile") import_module(self, "diffusers", "diffusers") #git+https://github.com/huggingface/diffusers.git") import_module(self, "accelerate", "accelerate") import_module(self, "transformers", "transformers") import_module(self, "sentencepiece", "sentencepiece") import_module(self, "safetensors", "safetensors") import_module(self, "cv2", "opencv_python") import_module(self, "scipy", "scipy") import_module(self, "IPython", "IPython") import_module(self, "bark", "git+https://github.com/suno-ai/bark.git") import_module(self, "xformers", "xformers") #subprocess.check_call([pybin,"-m","pip","install","force-reinstall","no-deps","pre xformers"]) subprocess.check_call([pybin,"-m","pip","install","numpy","--upgrade"]) if os_platform == "Windows": subprocess.check_call( [ pybin, "-m", "pip", "install", "torch", "--index-url", "https://download.pytorch.org/whl/cu118", "--no-warn-script-location", "--user", ] ) def get_module_dependencies(module_name): """ Get the list of dependencies for a given module. """ app_path = site.USER_SITE if app_path not in sys.path: sys.path.append(app_path) pybin = sys.executable result = subprocess.run([pybin,'-m' , 'pip', 'show', module_name], capture_output=True, text=True) output = result.stdout.strip() dependencies = [] for line in output.split('\n'): if line.startswith('Requires:'): dependencies = line.split(':')[1].strip().split(', ') break return dependencies def uninstall_module_with_dependencies(module_name): """ Uninstall a module and its dependencies. """ show_system_console(True) set_system_console_topmost(True) app_path = site.USER_SITE if app_path not in sys.path: sys.path.append(app_path) pybin = sys.executable dependencies = get_module_dependencies(module_name) # Uninstall the module subprocess.run([pybin, '-m', 'pip', 'uninstall', '-y', module_name]) # Uninstall the dependencies for dependency in dependencies: subprocess.run([pybin, '-m', 'pip', 'uninstall', '-y', dependency]) subprocess.check_call([pybin,"-m","pip","install","numpy"]) class GeneratorAddonPreferences(AddonPreferences): bl_idname = __name__ soundselect: EnumProperty( name="Sound", items={ ("ding", "Ding", "A simple bell sound"), ("coin", "Coin", "A Mario-like coin sound"), ("user", "User", "Load a custom sound file"), }, default="ding", ) default_folder = os.path.join( os.path.dirname(os.path.abspath(__file__)), "sounds", "*.wav" ) if default_folder not in sys.path: sys.path.append(default_folder) usersound: StringProperty( name="User", description="Load a custom sound from your computer", subtype="FILE_PATH", default=default_folder, maxlen=1024, ) playsound: BoolProperty( name="Audio Notification", default=True, ) movie_model_card: bpy.props.EnumProperty( name="Video Model Card", items=[ ("strangeman3107/animov-0.1.1", "Animov (448x384)", "Animov (448x384)"), ("strangeman3107/animov-512x", "Animov (512x512)", "Animov (512x512)"), ("cerspense/zeroscope_v1-1_320s", "Zeroscope v1.1 (320x320)", "Zerocope (320x320)"), ("camenduru/potat1", "Potat v1 (1024x576)", "Potat (1024x576)"), ("polyware-ai/text-to-video-ms-stable-v1", "text-to-video-ms-1.7b (384x384)", "text-to-video-ms-1.7b (384x384)"), #("vdo/potat1-50000", "Potat v1 50000 (1024x576)", "Potat (1024x576)"), ("damo-vilab/text-to-video-ms-1.7b", "Modelscope (256x256)", "Modelscope (256x256)"), ], default="strangeman3107/animov-0.1.1", ) image_model_card: bpy.props.EnumProperty( name="Image Model Card", items=[ ("runwayml/stable-diffusion-v1-5", "Stable Diffusion 1.5 (512x512)", "Stable Diffusion 1.5"), ("stabilityai/stable-diffusion-2", "Stable Diffusion 2 (768x768)", "Stable Diffusion 2"), ("DeepFloyd/IF-I-M-v1.0", "DeepFloyd/IF-I-M-v1.0", "DeepFloyd"), ], default="stabilityai/stable-diffusion-2", ) audio_model_card: bpy.props.EnumProperty( name="Audio Model Card", items=[ ("cvssp/audioldm-s-full-v2", "AudioLDM S Full v2", "AudioLDM Small Full v2"), #("cvssp/audioldm", "AudioLDM", "AudioLDM"), ("bark", "Bark", "Bark"), ], default="bark", ) hugginface_token: bpy.props.StringProperty( name="Hugginface Token", default="hugginface_token", subtype = "PASSWORD", ) generator_ai: StringProperty( name = "Filepath", description = "Path to the folder where the generated files are stored", subtype = 'DIR_PATH', default = join(bpy.utils.user_resource('DATAFILES'), "Generator AI") ) def draw(self, context): layout = self.layout box = layout.box() row = box.row() row.operator("sequencer.install_generator") row.operator("sequencer.uninstall_generator") box.prop(self, "movie_model_card") box.prop(self, "image_model_card") if self.image_model_card == "DeepFloyd/IF-I-M-v1.0": row = box.row(align=True) row.prop(self, "hugginface_token") row.operator("wm.url_open", text="", icon='URL').url = "https://huggingface.co/settings/tokens" box.prop(self, "audio_model_card") box.prop(self, "generator_ai") row = box.row(align=True) row.label(text="Notification:") row.prop(self, "playsound", text="") sub_row = row.row() sub_row.prop(self, "soundselect", text="") if self.soundselect == "user": sub_row.prop(self, "usersound", text="") sub_row.operator("renderreminder.play_notification", text="", icon="PLAY") sub_row.active = self.playsound class GENERATOR_OT_install(Operator): """Install all dependencies""" bl_idname = "sequencer.install_generator" bl_label = "Install Dependencies" bl_options = {"REGISTER", "UNDO"} def execute(self, context): preferences = context.preferences addon_prefs = preferences.addons[__name__].preferences install_modules(self) self.report( {"INFO"}, "Installation of dependencies is finished.", ) return {"FINISHED"} class GENERATOR_OT_uninstall(Operator): """Unnstall all dependencies""" bl_idname = "sequencer.uninstall_generator" bl_label = "Uninstall Dependencies" bl_options = {"REGISTER", "UNDO"} def execute(self, context): preferences = context.preferences addon_prefs = preferences.addons[__name__].preferences uninstall_module_with_dependencies("torch") uninstall_module_with_dependencies("torchvision") uninstall_module_with_dependencies("torchaudio") if os_platform == 'Darwin' or os_platform == 'Linux': uninstall_module_with_dependencies("sox") else: uninstall_module_with_dependencies("PySoundFile") uninstall_module_with_dependencies("diffusers") uninstall_module_with_dependencies("accelerate") uninstall_module_with_dependencies("transformers") uninstall_module_with_dependencies("sentencepiece") uninstall_module_with_dependencies("safetensors") uninstall_module_with_dependencies("opencv_python") uninstall_module_with_dependencies("scipy") uninstall_module_with_dependencies("IPython") uninstall_module_with_dependencies("bark") uninstall_module_with_dependencies("xformers") self.report( {"INFO"}, "\nRemove AI Models manually: \nOn Linux and macOS: ~/.cache/huggingface/transformers\nOn Windows: %userprofile%.cache\\huggingface\\transformers", ) return {"FINISHED"} class GENERATOR_OT_sound_notification(Operator): """Test your notification settings""" bl_idname = "renderreminder.play_notification" bl_label = "Test Notification" bl_options = {"REGISTER", "UNDO"} def execute(self, context): preferences = context.preferences addon_prefs = preferences.addons[__name__].preferences if addon_prefs.playsound: device = aud.Device() def coinSound(): sound = aud.Sound("") handle = device.play( sound.triangle(1000) .highpass(20) .lowpass(2000) .ADSR(0, 0.5, 1, 0) .fadeout(0.1, 0.1) .limit(0, 1) ) handle = device.play( sound.triangle(1500) .highpass(20) .lowpass(2000) .ADSR(0, 0.5, 1, 0) .fadeout(0.2, 0.2) .delay(0.1) .limit(0, 1) ) def ding(): sound = aud.Sound("") handle = device.play( sound.triangle(3000) .highpass(20) .lowpass(1000) .ADSR(0, 0.5, 1, 0) .fadeout(0, 1) .limit(0, 1) ) if addon_prefs.soundselect == "ding": ding() if addon_prefs.soundselect == "coin": coinSound() if addon_prefs.soundselect == "user": file = str(addon_prefs.usersound) if os.path.isfile(file): sound = aud.Sound(file) handle = device.play(sound) return {"FINISHED"} class SEQEUNCER_PT_generate_ai(Panel): """Generate Media using AI""" bl_idname = "SEQUENCER_PT_sequencer_generate_movie_panel" bl_label = "Generative AI" bl_space_type = "SEQUENCE_EDITOR" bl_region_type = "UI" bl_category = "Generative AI" def draw(self, context): preferences = context.preferences addon_prefs = preferences.addons[__name__].preferences audio_model_card = addon_prefs.audio_model_card layout = self.layout layout.use_property_split = False layout.use_property_decorate = False scene = context.scene type = scene.generatorai_typeselect col = layout.column() col.prop(context.scene, "generatorai_typeselect", text="") layout = self.layout col = layout.column(align=True) col.use_property_split = True col.use_property_decorate = False col.scale_y = 1.2 col.prop(context.scene, "generate_movie_prompt", text="", icon="ADD") if type == "audio" and audio_model_card == "bark": pass else: col.prop(context.scene, "generate_movie_negative_prompt", text="", icon="REMOVE") layout = self.layout layout.use_property_split = True layout.use_property_decorate = False if type == "movie" or type == "image": col = layout.column(align=True) col.prop(context.scene, "generate_movie_x", text="X") col.prop(context.scene, "generate_movie_y", text="Y") col = layout.column(align=True) if type == "movie" or type == "image": col.prop(context.scene, "generate_movie_frames", text="Frames") if type == "audio" and audio_model_card != "bark": col.prop(context.scene, "audio_length_in_f", text="Frames") if type == "audio" and audio_model_card == "bark": col = layout.column(align=True) col.prop(context.scene, "speakers", text="Speaker") col.prop(context.scene, "languages", text="Language") else: col.prop(context.scene, "movie_num_inference_steps", text="Quality Steps") col.prop(context.scene, "movie_num_guidance", text="Word Power") col = layout.column() row = col.row(align=True) sub_row = row.row(align=True) sub_row.prop(context.scene, "movie_num_seed", text="Seed") row.prop(context.scene, "movie_use_random", text="", icon="QUESTION") sub_row.active = not context.scene.movie_use_random col.prop(context.scene, "movie_num_batch", text="Batch Count") row = layout.row(align=True) row.scale_y = 1.1 if type == "movie": row.operator("sequencer.generate_movie", text="Generate") if type == "image": row.operator("sequencer.generate_image", text="Generate") if type == "audio": row.operator("sequencer.generate_audio", text="Generate") class SEQUENCER_OT_generate_movie(Operator): """Generate Video""" bl_idname = "sequencer.generate_movie" bl_label = "Prompt" bl_description = "Convert text to video" bl_options = {"REGISTER", "UNDO"} def execute(self, context): scene = context.scene if not scene.generate_movie_prompt: self.report({"INFO"}, "Text prompt in the Generative AI tab is empty!") return {"CANCELLED"} show_system_console(True) set_system_console_topmost(True) seq_editor = scene.sequence_editor if not seq_editor: scene.sequence_editor_create() try: import torch from diffusers import DiffusionPipeline, DPMSolverMultistepScheduler from diffusers.utils import export_to_video except ModuleNotFoundError: print("Dependencies needs to be installed in the add-on preferences.") self.report( {"INFO"}, "Dependencies needs to be installed in the add-on preferences.", ) return {"CANCELLED"} # clear the VRAM if torch.cuda.is_available(): torch.cuda.empty_cache() current_frame = scene.frame_current prompt = scene.generate_movie_prompt negative_prompt = scene.generate_movie_negative_prompt + " nsfw nude nudity" movie_x = scene.generate_movie_x movie_y = scene.generate_movie_y x = scene.generate_movie_x = closest_divisible_64(movie_x) y = scene.generate_movie_y = closest_divisible_64(movie_y) duration = scene.generate_movie_frames movie_num_inference_steps = scene.movie_num_inference_steps movie_num_guidance = scene.movie_num_guidance #wm = bpy.context.window_manager #tot = scene.movie_num_batch #wm.progress_begin(0, tot) preferences = context.preferences addon_prefs = preferences.addons[__name__].preferences movie_model_card = addon_prefs.movie_model_card # Options: https://huggingface.co/docs/diffusers/api/pipelines/text_to_video pipe = DiffusionPipeline.from_pretrained( movie_model_card, #"strangeman3107/animov-0.1.1", #"damo-vilab/text-to-video-ms-1.7b", torch_dtype=torch.float16, variant="fp16", ) pipe.scheduler = DPMSolverMultistepScheduler.from_config( pipe.scheduler.config ) # memory optimization pipe.enable_model_cpu_offload() pipe.enable_vae_slicing() #pipe.enable_xformers_memory_efficient_attention() for i in range(scene.movie_num_batch): #wm.progress_update(i) if i > 0: empty_channel = scene.sequence_editor.active_strip.channel start_frame = ( scene.sequence_editor.active_strip.frame_final_start + scene.sequence_editor.active_strip.frame_final_duration ) scene.frame_current = ( scene.sequence_editor.active_strip.frame_final_start ) else: empty_channel = find_first_empty_channel( scene.frame_current, (scene.movie_num_batch * duration) + scene.frame_current, ) start_frame = scene.frame_current seed = context.scene.movie_num_seed seed = ( seed if not context.scene.movie_use_random else random.randint(0, 999999) ) context.scene.movie_num_seed = seed # Use cuda if possible if torch.cuda.is_available(): generator = ( torch.Generator("cuda").manual_seed(seed) if seed != 0 else None ) else: if seed != 0: generator = torch.Generator() generator.manual_seed(seed) else: generator = None video_frames = pipe( prompt, negative_prompt=negative_prompt, num_inference_steps=movie_num_inference_steps, guidance_scale=movie_num_guidance, height=y, width=x, num_frames=duration, generator=generator, ).frames # Move to folder src_path = export_to_video(video_frames) dst_path = clean_path(dirname(realpath(__file__)) + "/" + os.path.basename(src_path)) shutil.move(src_path, dst_path) # Add strip if not os.path.isfile(dst_path): print("No resulting file found.") return {"CANCELLED"} for window in bpy.context.window_manager.windows: screen = window.screen for area in screen.areas: if area.type == "SEQUENCE_EDITOR": from bpy import context with context.temp_override(window=window, area=area): bpy.ops.sequencer.movie_strip_add(filepath=dst_path, frame_start=start_frame, channel=empty_channel, fit_method="FIT", adjust_playback_rate=True, sound=False, use_framerate = False, ) strip = scene.sequence_editor.active_strip strip.transform.filter = 'SUBSAMPLING_3x3' scene.sequence_editor.active_strip = strip strip.use_proxy = True strip.name = str(seed)+"_"+prompt bpy.ops.sequencer.rebuild_proxy() if i > 0: scene.frame_current = ( scene.sequence_editor.active_strip.frame_final_start ) # Redraw UI to display the new strip. Remove this if Blender crashes: https://docs.blender.org/api/current/info_gotcha.html#can-i-redraw-during-script-execution bpy.ops.wm.redraw_timer(type="DRAW_WIN_SWAP", iterations=1) break # clear the VRAM if torch.cuda.is_available(): torch.cuda.empty_cache() bpy.ops.renderreminder.play_notification() #wm.progress_end() scene.frame_current = current_frame return {"FINISHED"} class SEQUENCER_OT_generate_audio(Operator): """Generate Audio""" bl_idname = "sequencer.generate_audio" bl_label = "Prompt" bl_description = "Convert text to audio" bl_options = {"REGISTER", "UNDO"} def execute(self, context): scene = context.scene if not scene.generate_movie_prompt: self.report({"INFO"}, "Text prompt in the Generative AI tab is empty!") return {"CANCELLED"} if not scene.sequence_editor: scene.sequence_editor_create() preferences = context.preferences addon_prefs = preferences.addons[__name__].preferences current_frame = scene.frame_current prompt = scene.generate_movie_prompt negative_prompt = scene.generate_movie_negative_prompt movie_num_inference_steps = scene.movie_num_inference_steps movie_num_guidance = scene.movie_num_guidance audio_length_in_s = scene.audio_length_in_f/(scene.render.fps / scene.render.fps_base) try: from diffusers import AudioLDMPipeline import torch import scipy #from bark import SAMPLE_RATE, generate_audio, preload_models from IPython.display import Audio from scipy.io.wavfile import write as write_wav import xformers if addon_prefs.audio_model_card == "bark": os.environ["CUDA_VISIBLE_DEVICES"] = "0" import numpy as np from bark.generation import ( generate_text_semantic, preload_models, ) from bark.api import semantic_to_waveform from bark import generate_audio, SAMPLE_RATE except ModuleNotFoundError: print("Dependencies needs to be installed in the add-on preferences.") self.report( {"INFO"}, "Dependencies needs to be installed in the add-on preferences.", ) return {"CANCELLED"} show_system_console(True) set_system_console_topmost(True) # clear the VRAM if torch.cuda.is_available(): torch.cuda.empty_cache() if addon_prefs.audio_model_card != "bark": repo_id = addon_prefs.audio_model_card pipe = AudioLDMPipeline.from_pretrained(repo_id) # , torch_dtype=torch.float16z # Use cuda if possible if torch.cuda.is_available(): pipe = pipe.to("cuda") else: #bark preload_models( text_use_small=True, coarse_use_small=True, fine_use_gpu=True, fine_use_small=True, ) for i in range(scene.movie_num_batch): #wm.progress_update(i) if i > 0: empty_channel = scene.sequence_editor.active_strip.channel start_frame = ( scene.sequence_editor.active_strip.frame_final_start + scene.sequence_editor.active_strip.frame_final_duration ) scene.frame_current = ( scene.sequence_editor.active_strip.frame_final_start ) else: empty_channel = find_first_empty_channel( scene.frame_current, 100000000000000000000, ) start_frame = scene.frame_current if addon_prefs.audio_model_card == "bark": rate = 24000 GEN_TEMP = 0.6 SPEAKER = "v2/"+scene.languages + "_" + scene.speakers #"v2/"+ silence = np.zeros(int(0.25 * rate)) # quarter second of silence prompt = context.scene.generate_movie_prompt prompt = prompt.replace("\n", " ").strip() sentences = split_and_recombine_text(prompt, desired_length=90, max_length=150) pieces = [] for sentence in sentences: print(sentence) semantic_tokens = generate_text_semantic( sentence, history_prompt=SPEAKER, temp=GEN_TEMP, #min_eos_p=0.1, # this controls how likely the generation is to end ) audio_array = semantic_to_waveform(semantic_tokens, history_prompt=SPEAKER) pieces += [audio_array, silence.copy()] audio = np.concatenate(pieces) #Audio(np.concatenate(pieces), rate=rate) filename = clean_path(dirname(realpath(__file__)) + "/" + prompt + ".wav") # Write the combined audio to a file write_wav(filename, rate, audio.transpose()) else: # AudioLDM seed = context.scene.movie_num_seed seed = ( seed if not context.scene.movie_use_random else random.randint(0, 999999) ) context.scene.movie_num_seed = seed # Use cuda if possible if torch.cuda.is_available(): generator = ( torch.Generator("cuda").manual_seed(seed) if seed != 0 else None ) else: if seed != 0: generator = torch.Generator() generator.manual_seed(seed) else: generator = None prompt = context.scene.generate_movie_prompt # Options: https://huggingface.co/docs/diffusers/main/en/api/pipelines/audioldm audio = pipe( prompt, num_inference_steps=movie_num_inference_steps, audio_length_in_s=audio_length_in_s, guidance_scale=movie_num_guidance, generator=generator, ).audios[0] rate = 16000 filename = clean_path(dirname(realpath(__file__)) + "/" + prompt + ".wav") write_wav(filename, rate, audio.transpose()) #.transpose() filepath = filename if os.path.isfile(filepath): empty_channel = empty_channel strip = scene.sequence_editor.sequences.new_sound( name = prompt, filepath=filepath, channel=empty_channel, frame_start=start_frame, ) scene.sequence_editor.active_strip = strip if i > 0: scene.frame_current = ( scene.sequence_editor.active_strip.frame_final_start ) # Redraw UI to display the new strip. Remove this if Blender crashes: https://docs.blender.org/api/current/info_gotcha.html#can-i-redraw-during-script-execution bpy.ops.wm.redraw_timer(type="DRAW_WIN_SWAP", iterations=1) else: print("No resulting file found!") # clear the VRAM if torch.cuda.is_available(): torch.cuda.empty_cache() bpy.ops.renderreminder.play_notification() return {"FINISHED"} class SEQUENCER_OT_generate_image(Operator): """Generate Image""" bl_idname = "sequencer.generate_image" bl_label = "Prompt" bl_description = "Convert text to image" bl_options = {"REGISTER", "UNDO"} def execute(self, context): scene = context.scene if scene.generate_movie_prompt == "": self.report({"INFO"}, "Text prompt in the Generative AI tab is empty!") return {"CANCELLED"} show_system_console(True) set_system_console_topmost(True) scene = context.scene seq_editor = scene.sequence_editor if not seq_editor: scene.sequence_editor_create() try: from diffusers import DiffusionPipeline, DPMSolverMultistepScheduler from diffusers.utils import pt_to_pil import torch except ModuleNotFoundError: print("Dependencies needs to be installed in the add-on preferences.") self.report( {"INFO"}, "Dependencies needs to be installed in the add-on preferences.", ) return {"CANCELLED"} # clear the VRAM if torch.cuda.is_available(): torch.cuda.empty_cache() current_frame = scene.frame_current prompt = scene.generate_movie_prompt negative_prompt = scene.generate_movie_negative_prompt + " nsfw nude nudity" image_x = scene.generate_movie_x image_y = scene.generate_movie_y x = scene.generate_movie_x = closest_divisible_64(image_x) y = scene.generate_movie_y = closest_divisible_64(image_y) duration = scene.generate_movie_frames image_num_inference_steps = scene.movie_num_inference_steps image_num_guidance = scene.movie_num_guidance #wm = bpy.context.window_manager #tot = scene.movie_num_batch #wm.progress_begin(0, tot) preferences = context.preferences addon_prefs = preferences.addons[__name__].preferences image_model_card = addon_prefs.image_model_card if image_model_card == "DeepFloyd/IF-I-M-v1.0": from huggingface_hub.commands.user import login result = login(token = addon_prefs.hugginface_token) torch.cuda.set_per_process_memory_fraction(0.85) # 6 GB VRAM # stage 1 stage_1 = DiffusionPipeline.from_pretrained("DeepFloyd/IF-I-M-v1.0", variant="fp16", torch_dtype=torch.float16) # stage_1.enable_model_cpu_offload() stage_1.enable_sequential_cpu_offload() # 6 GB VRAM # stage 2 stage_2 = DiffusionPipeline.from_pretrained( "DeepFloyd/IF-II-M-v1.0", text_encoder=None, variant="fp16", torch_dtype=torch.float16 ) stage_2.enable_model_cpu_offload() # stage 3 safety_modules = { "feature_extractor": stage_1.feature_extractor, "safety_checker": stage_1.safety_checker, "watermarker": stage_1.watermarker, } stage_3 = DiffusionPipeline.from_pretrained( "stabilityai/stable-diffusion-x4-upscaler", **safety_modules, torch_dtype=torch.float16 ) stage_3.enable_model_cpu_offload() else: # stable Diffusion pipe = DiffusionPipeline.from_pretrained( image_model_card, torch_dtype=torch.float16, variant="fp16", ) pipe.scheduler = DPMSolverMultistepScheduler.from_config(pipe.scheduler.config) # memory optimization pipe.enable_model_cpu_offload() pipe.enable_vae_slicing() pipe.enable_xformers_memory_efficient_attention() for i in range(scene.movie_num_batch): #wm.progress_update(i) if i > 0: empty_channel = scene.sequence_editor.active_strip.channel start_frame = ( scene.sequence_editor.active_strip.frame_final_start + scene.sequence_editor.active_strip.frame_final_duration ) scene.frame_current = ( scene.sequence_editor.active_strip.frame_final_start ) else: empty_channel = find_first_empty_channel( scene.frame_current, (scene.movie_num_batch * duration) + scene.frame_current, ) start_frame = scene.frame_current seed = context.scene.movie_num_seed seed = ( seed if not context.scene.movie_use_random else random.randint(0, 999999) ) context.scene.movie_num_seed = seed # Use cuda if possible if torch.cuda.is_available(): generator = ( torch.Generator("cuda").manual_seed(seed) if seed != 0 else None ) else: if seed != 0: generator = torch.Generator() generator.manual_seed(seed) else: generator = None if image_model_card == "DeepFloyd/IF-I-M-v1.0": prompt_embeds, negative_embeds = stage_1.encode_prompt(prompt, negative_prompt) # stage 1 image = stage_1( prompt_embeds=prompt_embeds, negative_prompt_embeds=negative_embeds, generator=generator, output_type="pt" ).images pt_to_pil(image)[0].save("./if_stage_I.png") # stage 2 image = stage_2( image=image, prompt_embeds=prompt_embeds, negative_prompt_embeds=negative_embeds, generator=generator, output_type="pt", ).images pt_to_pil(image)[0].save("./if_stage_II.png") # stage 3 image = stage_3(prompt=prompt, image=image, noise_level=100, generator=generator).images # image[0].save("./if_stage_III.png") image = image[0] else: # Stable Diffusion image = pipe( prompt, negative_prompt=negative_prompt, num_inference_steps=image_num_inference_steps, guidance_scale=image_num_guidance, height=y, width=x, generator=generator, ).images[0] # Move to folder filename = clean_filename(str(seed)+"_"+context.scene.generate_movie_prompt) out_path = clean_path(dirname(realpath(__file__))+"/"+filename+".png") image.save(out_path) # Add strip if os.path.isfile(out_path): strip = scene.sequence_editor.sequences.new_image( name = str(seed)+"_"+context.scene.generate_movie_prompt, frame_start=start_frame, filepath=out_path, channel=empty_channel, fit_method="FIT", ) strip.frame_final_duration = scene.generate_movie_frames strip.transform.filter = 'SUBSAMPLING_3x3' scene.sequence_editor.active_strip = strip if i > 0: scene.frame_current = ( scene.sequence_editor.active_strip.frame_final_start ) strip.use_proxy = True bpy.ops.sequencer.rebuild_proxy() # Redraw UI to display the new strip. Remove this if Blender crashes: https://docs.blender.org/api/current/info_gotcha.html#can-i-redraw-during-script-execution bpy.ops.wm.redraw_timer(type="DRAW_WIN_SWAP", iterations=1) else: print("No resulting file found.") # clear the VRAM if torch.cuda.is_available(): torch.cuda.empty_cache() bpy.ops.renderreminder.play_notification() #wm.progress_end() scene.frame_current = current_frame # clear the VRAM if torch.cuda.is_available(): torch.cuda.empty_cache() return {"FINISHED"} class SEQUENCER_OT_strip_to_generatorAI(Operator): """Convert selected text strips to Generative AI""" bl_idname = "sequencer.text_to_generator" bl_label = "Convert Text Strips to Generative AI" bl_options = {"INTERNAL"} bl_description = "Adds selected text strips as Generative AI strips" @classmethod def poll(cls, context): return context.scene and context.scene.sequence_editor def execute(self, context): preferences = context.preferences addon_prefs = preferences.addons[__name__].preferences play_sound = addon_prefs.playsound addon_prefs.playsound = False scene = context.scene sequencer = bpy.ops.sequencer sequences = bpy.context.sequences strips = context.selected_sequences prompt = scene.generate_movie_prompt current_frame = scene.frame_current type = scene.generatorai_typeselect for strip in strips: if strip.type == "TEXT": if strip.text: print("Processing: " + strip.text+", "+prompt) scene.generate_movie_prompt = strip.text+", "+prompt scene.frame_current = strip.frame_final_start if type == "movie": sequencer.generate_movie() if type == "audio": sequencer.generate_audio() if type == "image": sequencer.generate_image() scene.generate_movie_prompt = prompt scene.frame_current = current_frame scene.generate_movie_prompt = prompt addon_prefs.playsound = play_sound bpy.ops.renderreminder.play_notification() return {"FINISHED"} def panel_text_to_generatorAI(self, context): layout = self.layout layout.separator() layout.operator( "sequencer.text_to_generator", text="Text to Generative AI", icon="SHADERFX" ) classes = ( GeneratorAddonPreferences, SEQUENCER_OT_generate_movie, SEQUENCER_OT_generate_audio, SEQUENCER_OT_generate_image, SEQEUNCER_PT_generate_ai, GENERATOR_OT_sound_notification, SEQUENCER_OT_strip_to_generatorAI, GENERATOR_OT_install, GENERATOR_OT_uninstall, ) def register(): bpy.types.Scene.generate_movie_prompt = bpy.props.StringProperty( name="generate_movie_prompt", default="high quality, masterpiece, slow motion, 4k" ) bpy.types.Scene.generate_movie_negative_prompt = bpy.props.StringProperty( name="generate_movie_negative_prompt", default="low quality, windy, flicker, jitter", ) bpy.types.Scene.generate_audio_prompt = bpy.props.StringProperty( name="generate_audio_prompt", default="" ) bpy.types.Scene.generate_movie_x = bpy.props.IntProperty( name="generate_movie_x", default=448, step=64, min=192, max=1024, ) bpy.types.Scene.generate_movie_y = bpy.props.IntProperty( name="generate_movie_y", default=384, step=64, min=192, max=1024, ) # The number of frames to be generated. bpy.types.Scene.generate_movie_frames = bpy.props.IntProperty( name="generate_movie_frames", default=18, min=1, max=125, ) # The number of denoising steps. More denoising steps usually lead to a higher quality audio at the expense of slower inference. bpy.types.Scene.movie_num_inference_steps = bpy.props.IntProperty( name="movie_num_inference_steps", default=25, min=1, max=100, ) # The number of videos to generate. bpy.types.Scene.movie_num_batch = bpy.props.IntProperty( name="movie_num_batch", default=1, min=1, max=100, ) # The seed number. bpy.types.Scene.movie_num_seed = bpy.props.IntProperty( name="movie_num_seed", default=1, min=1, max=2147483647, ) # The seed number. bpy.types.Scene.movie_use_random = bpy.props.BoolProperty( name="movie_use_random", default=1, ) # The seed number. bpy.types.Scene.movie_num_guidance = bpy.props.FloatProperty( name="movie_num_guidance", default=15.0, min=1, max=100, ) # The frame audio duration. bpy.types.Scene.audio_length_in_f = bpy.props.IntProperty( name="audio_length_in_f", default=80, min=1, max=10000, ) bpy.types.Scene.generatorai_typeselect = bpy.props.EnumProperty( name="Sound", items=[ ("movie", "Video", "Generate Video"), ("image", "Image", "Generate Image"), ("audio", "Audio", "Generate Audio"), ], default="movie", ) bpy.types.Scene.speakers = bpy.props.EnumProperty( name="Speakers", items=[ ("speaker_0", "Speaker 0", ""), ("speaker_1", "Speaker 1", ""), ("speaker_2", "Speaker 2", ""), ("speaker_3", "Speaker 3", ""), ("speaker_4", "Speaker 4", ""), ("speaker_5", "Speaker 5", ""), ("speaker_6", "Speaker 6", ""), ("speaker_7", "Speaker 7", ""), ("speaker_8", "Speaker 8", ""), ("speaker_9", "Speaker 9", ""), ], default="speaker_3", ) bpy.types.Scene.languages = bpy.props.EnumProperty( name="Languages", items=[ ("en", "English", ""), ("de", "German", ""), ("es", "Spanish", ""), ("fr", "French", ""), ("hi", "Hindi", ""), ("it", "Italian", ""), ("ja", "Japanese", ""), ("ko", "Korean", ""), ("pl", "Polish", ""), ("pt", "Portuguese", ""), ("ru", "Russian", ""), ("tr", "Turkish", ""), ("zh", "Chinese, simplified", ""), ], default="en" ) for cls in classes: bpy.utils.register_class(cls) bpy.types.SEQUENCER_MT_add.append(panel_text_to_generatorAI) def unregister(): for cls in classes: bpy.utils.unregister_class(cls) del bpy.types.Scene.generate_movie_prompt del bpy.types.Scene.generate_audio_prompt del bpy.types.Scene.generate_movie_x del bpy.types.Scene.generate_movie_y del bpy.types.Scene.movie_num_inference_steps del bpy.types.Scene.movie_num_batch del bpy.types.Scene.movie_num_seed del bpy.types.Scene.movie_use_random del bpy.types.Scene.movie_num_guidance del bpy.types.Scene.generatorai_typeselect bpy.types.SEQUENCER_MT_add.remove(panel_text_to_generatorAI) if __name__ == "__main__": register()