GenAI-Arena / model /model_manager.py
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import concurrent.futures
import random
import gradio as gr
import requests
import io, base64, json
import spaces
from PIL import Image
from .models import IMAGE_GENERATION_MODELS, IMAGE_EDITION_MODELS, VIDEO_GENERATION_MODELS, load_pipeline
class ModelManager:
def __init__(self):
self.model_ig_list = IMAGE_GENERATION_MODELS
self.model_ie_list = IMAGE_EDITION_MODELS
self.model_vg_list = VIDEO_GENERATION_MODELS
self.loaded_models = {}
def load_model_pipe(self, model_name):
if not model_name in self.loaded_models:
pipe = load_pipeline(model_name)
self.loaded_models[model_name] = pipe
else:
pipe = self.loaded_models[model_name]
return pipe
@spaces.GPU(duration=120)
def generate_image_ig(self, prompt, model_name):
pipe = self.load_model_pipe(model_name)
result = pipe(prompt=prompt)
return result
def generate_image_ig_parallel_anony(self, prompt, model_A, model_B):
if model_A == "" and model_B == "":
model_names = random.sample([model for model in self.model_ig_list], 2)
else:
model_names = [model_A, model_B]
with concurrent.futures.ThreadPoolExecutor() as executor:
futures = [executor.submit(self.generate_image_ig, prompt, model) for model in model_names]
results = [future.result() for future in futures]
return results[0], results[1], model_names[0], model_names[1]
def generate_image_ig_parallel(self, prompt, model_A, model_B):
model_names = [model_A, model_B]
with concurrent.futures.ThreadPoolExecutor() as executor:
futures = [executor.submit(self.generate_image_ig, prompt, model) for model in model_names]
results = [future.result() for future in futures]
return results[0], results[1]
@spaces.GPU(duration=150)
def generate_image_ie(self, textbox_source, textbox_target, textbox_instruct, source_image, model_name):
pipe = self.load_model_pipe(model_name)
result = pipe(src_image = source_image, src_prompt = textbox_source, target_prompt = textbox_target, instruct_prompt = textbox_instruct)
return result
def generate_image_ie_parallel(self, textbox_source, textbox_target, textbox_instruct, source_image, model_A, model_B):
model_names = [model_A, model_B]
with concurrent.futures.ThreadPoolExecutor() as executor:
futures = [
executor.submit(self.generate_image_ie, textbox_source, textbox_target, textbox_instruct, source_image,
model) for model in model_names]
results = [future.result() for future in futures]
return results[0], results[1]
def generate_image_ie_parallel_anony(self, textbox_source, textbox_target, textbox_instruct, source_image, model_A, model_B):
if model_A == "" and model_B == "":
model_names = random.sample([model for model in self.model_ie_list], 2)
else:
model_names = [model_A, model_B]
with concurrent.futures.ThreadPoolExecutor() as executor:
futures = [executor.submit(self.generate_image_ie, textbox_source, textbox_target, textbox_instruct, source_image, model) for model in model_names]
results = [future.result() for future in futures]
return results[0], results[1], model_names[0], model_names[1]
@spaces.GPU(duration=200)
def generate_video_vg(self, prompt, model_name):
pipe = self.load_model_pipe(model_name)
result = pipe(prompt=prompt)
return result
def generate_video_vg_parallel_anony(self, prompt, model_A, model_B):
if model_A == "" and model_B == "":
model_names = random.sample([model for model in self.model_vg_list], 2)
else:
model_names = [model_A, model_B]
with concurrent.futures.ThreadPoolExecutor() as executor:
futures = [executor.submit(self.generate_video_vg, prompt, model) for model in model_names]
results = [future.result() for future in futures]
return results[0], results[1], model_names[0], model_names[1]
def generate_video_vg_parallel(self, prompt, model_A, model_B):
model_names = [model_A, model_B]
with concurrent.futures.ThreadPoolExecutor() as executor:
futures = [executor.submit(self.generate_video_vg, prompt, model) for model in model_names]
results = [future.result() for future in futures]
return results[0], results[1]