import io, os, base64 from PIL import Image import gradio as gr import shortuuid from transformers import pipeline asr = pipeline("automatic-speech-recognition") latent = gr.Interface.load("spaces/multimodalart/latentdiffusion") zero = gr.Interface.load("spaces/Datatrooper/zero-shot-image-classification") #tts = gr.Interface.load("spaces/osanseviero/tortoisse-tts") def text2image_latent(text, steps, width, height, images, diversity): print(text) results = latent(text, steps, width, height, images, diversity) image_paths = [] for image in results[1]: image_str = image[0] image_str = image_str.replace("data:image/png;base64,","") decoded_bytes = base64.decodebytes(bytes(image_str, "utf-8")) img = Image.open(io.BytesIO(decoded_bytes)) url = shortuuid.uuid() temp_dir = './tmp' if not os.path.exists(temp_dir): os.makedirs(temp_dir, exist_ok=True) image_path = f'{temp_dir}/{url}.png' img.save(f'{temp_dir}/{url}.png') image_paths.append(image_path) return(image_paths) def speech_to_text(mic=None, file=None): if mic is not None: audio = mic elif file is not None: audio = file else: return "You must either provide a mic recording or a file" transcription = asr(audio)["text"] return transcription def zero_shot(image, text_input): results = zero(image, text_input) return results with gr.Blocks() as demo: gr.Markdown( """ Input voice/text Convert voice/text to image via Latent Diffusion Given list of labels and a selected image from gallery do zero-shot classification Coming soon: TTS(audio) your output label as: Your output looks like "label of zero-shot" """) with gr.Row(): with gr.Column(): audio_file =[ gr.Audio(source="microphone", type="filepath", optional=True), gr.Audio(source="upload", type="filepath", optional=True)] text = gr.Textbox(placeholder="If you dont want to record or upload your voice you can input text here") with gr.Row(): speech_to_text = gr.Button("Speech to text go brrr", css={"margin-top": "1em"}) with gr.Column(): steps = gr.inputs.Slider(label="Steps - more steps can increase quality but will take longer to generate",default=50,maximum=50,minimum=1,step=1) width = gr.inputs.Slider(label="Width", default=256, step=32, maximum=256, minimum=32) height = gr.inputs.Slider(label="Height", default=256, step=32, maximum = 256, minimum=32) images = gr.inputs.Slider(label="Images - How many images you wish to generate", default=1, step=1, minimum=1, maximum=4) diversity = gr.inputs.Slider(label="Diversity scale - How different from one another you wish the images to be",default=15.0, minimum=1.0, maximum=15.0) #gallery = [gr.outputs.Image(type="pil"),gr.outputs.Textbox(label="Error")] gallery = gr.Gallery(label="Individual images") with gr.Row(): get_image_latent = gr.Button("Generate Image go brr") with gr.Column(): text_input = gr.Textbox(placeholder="input a list of labels separated by commas") label = gr.Label() with gr.Row(): zero_shot_clf = gr.Button("Classify Image go brr") speech_to_text.click(speech_to_text, inputs=audio_file, outputs=text) get_image_latent.click(text2image_latent, inputs=[text,steps,width,height,images,diversity], outputs=gallery) zero_shot_clf.click(zero_shot, inputs=[gallery,text_input], outputs=label) demo.launch(enable_queue=False)