import torch from PIL import Image from modelscope import dataset_snapshot_download from diffsynth.pipelines.qwen_image import QwenImagePipeline, ModelConfig, ControlNetInput pipe = QwenImagePipeline.from_pretrained( torch_dtype=torch.bfloat16, device="cuda", model_configs=[ ModelConfig(model_id="Qwen/Qwen-Image", origin_file_pattern="transformer/diffusion_pytorch_model*.safetensors"), ModelConfig(model_id="Qwen/Qwen-Image", origin_file_pattern="text_encoder/model*.safetensors"), ModelConfig(model_id="Qwen/Qwen-Image", origin_file_pattern="vae/diffusion_pytorch_model.safetensors"), ModelConfig(model_id="DiffSynth-Studio/Qwen-Image-Blockwise-ControlNet-Inpaint", origin_file_pattern="model.safetensors"), ModelConfig(model_id="DiffSynth-Studio/Qwen-Image-Blockwise-ControlNet-Canny", origin_file_pattern="model.safetensors"), ], tokenizer_config=ModelConfig(model_id="Qwen/Qwen-Image", origin_file_pattern="tokenizer/"), ) dataset_snapshot_download( dataset_id="DiffSynth-Studio/example_image_dataset", local_dir="./data/example_image_dataset", allow_file_pattern="canny/*.jpg" ) prompt = "一只小狗,毛发光洁柔顺,眼神灵动,背景是樱花纷飞的春日庭院,唯美温馨。" controlnet_canny_image = Image.open("data/example_image_dataset/canny/image_1.jpg").resize((1328, 1328)) controlnet_inpaint_image = Image.open("./data/example_image_dataset/canny/image_2.jpg").convert("RGB").resize((1328, 1328)) # generate a centered square mask inpaint_mask = Image.new("L", controlnet_inpaint_image.size, 0) mask_size = 512 left = (controlnet_inpaint_image.width - mask_size) // 2 top = (controlnet_inpaint_image.height - mask_size) // 2 right = left + mask_size bottom = top + mask_size inpaint_mask.paste(255, (left, top, right, bottom)) inpaint_mask = inpaint_mask.resize((1328, 1328)).convert("RGB") image = pipe( prompt, seed=0, input_image=controlnet_inpaint_image, inpaint_mask=inpaint_mask, blockwise_controlnet_inputs=[ ControlNetInput(image=controlnet_inpaint_image, inpaint_mask=inpaint_mask, controlnet_id=0), ControlNetInput(image=controlnet_canny_image, controlnet_id=1), ], num_inference_steps=40, ) image.save("image.jpg")