******************************************************************************** Step 1 ******************************************************************************** ------Action------ THOUGHT: None ACTION TYPE: None ACTION CONTENT: None -----Response----- RESPONSE (User Message): USER QUERY: Query: "Based on the content of 13181.jpg, can you identify the main subject, develop a refreshing depiction of the same subject, and formulate a descriptive narrative to correspond with the new artwork?" Any files mentioned in the query will be located at /root/input_data. E.g. if the query mentions example.png, it will be located at /root/input_data/example.png. Use the code base located at `/root/mnm/mnm` to solve this query. Your current directory is `/root/playground`. If the import path in retrieved code block says `testing/dir_name/file_name.py` and you want to import variable, function or class called `obj` from this file, then import using `from testing.dir_name.file_name import obj`. The code base path has either been installed via pip or has been already been added to the system path via ``` import sys sys.path.extend(['/root/mnm']) ``` ******************************************************************************** Step 2 ******************************************************************************** ------Action------ THOUGHT: First, I need to identify the main subject in the image 13181.jpg. I will search for the image understanding function that can classify the image or detect objects within it. Once I have identified the main subject, I will then search for the image editing function that can generate a new image based on a text description. Finally, I will search for a text understanding function that can generate a descriptive narrative based on the new artwork. ACTION TYPE: search ACTION CONTENT: (type: FUNCTION) AND (text: image classification) (type: FUNCTION) AND (text: generate images) (type: FUNCTION) AND (text: text generation) -----Response----- RESPONSE (Retrieval Result): QUERY: (type: FUNCTION) AND (text: image classification) CODE BLOCKS: --- file_path=mnm/tool_api.py lines=[325, 346] type=FUNCTION content={ def image_classification(image, ckpt=MODEL_SELECTION['image_classification']): """ Classifies an image into one of the predefined categories using a Vision Transformer (ViT) model. Args: image: The image to be classified, which will be processed by `image_processing` function. ckpt (str, optional): The checkpoint or model identifier to use for loading the pre-trained model. Defaults to `MODEL_SELECTION["image_classification"]`. Returns: dict: A dictionary with a key "text" that maps to the predicted category of the image. Examples: >>> result = image_classification(my_image) >>> print(result) {'text': 'cat'} """ ... } --- file_path=mnm/tool_api.py lines=[165, 176] type=FUNCTION content={ def text_classification(text: str, ckpt=MODEL_SELECTION['text_classification']): """ Classifies a given text into a category based on the model's vocabulary. Args: text (str): The text to be classified. ckpt: The model checkpoint to use for classification. Defaults to MODEL_SELECTION["text_classification"]. Returns: dict: A dictionary with the key 'text' and the value as the classification label. Examples: >>> text_classification("I love sunny days.") {'text': 'POSITIVE'} """ ... } --- file_path=mnm/tool_api.py lines=[731, 765] type=FUNCTION content={ def tag(image, objects, ckpt=None): """ Tags objects in an image with bounding boxes and class labels. Args: image: The image to be processed and tagged. objects: A list of dictionaries, each containing 'bbox' (bounding box) and 'label' (class) for an object. ckpt (optional): A checkpoint or model state to use for tagging, not used in the current implementation. Returns: A dictionary with a key 'image' containing the tagged image. Examples: # Assuming 'image' is an image object and 'objects' is a list of object dictionaries with 'bbox' and 'label' result = tag(image, objects) tagged_image = result['image'] """ ... } --- (35 additional code blocks not shown. Search again with the same query to see additional results.) Prototypes for the next 7 out of 35 classes/functions found in unexpanded results (search again with the same query to see details): def object_detection(image, ckpt=MODEL_SELECTION['object_detection']): ... # mnm/tool_api.py def image_generation(text: str, ckpt=MODEL_SELECTION['image_generation']): ... # mnm/tool_api.py def automatic_speech_recognition(audio: str, ckpt=MODEL_SELECTION['automatic_speech_recognition']): ... # mnm/tool_api.py def image_segmentation(image, ckpt=MODEL_SELECTION['image_segmentation']): ... # mnm/tool_api.py def optical_character_recognition(image, ckpt=MODEL_SELECTION['optical_character_recognition']): ... # mnm/tool_api.py def image_captioning(image, ckpt=MODEL_SELECTION['image_captioning']): ... # mnm/tool_api.py def visual_question_answering(image, question, ckpt=MODEL_SELECTION['visual_question_answering']): ... # mnm/tool_api.py QUERY: (type: FUNCTION) AND (text: generate images) CODE BLOCKS: --- file_path=mnm/tool_api.py lines=[228, 249] type=FUNCTION content={ def image_generation(text: str, ckpt=MODEL_SELECTION["image_generation"]): """ It takes a text prompt and generates an image that matches the text description. """ if ckpt == "stabilityai/stable-diffusion-xl-base-1.0": text = text_processing(text) from diffusers import DiffusionPipeline generator = DiffusionPipeline.from_pretrained( pretrained_model_name_or_path=ckpt, torch_dtype=torch.float16, use_safetensors=True, variant="fp16", ).to(DEVICE) result = generator(prompt=text).images[0] result_formatted = {"image": result} return result_formatted } --- file_path=mnm/tool_api.py lines=[251, 267] type=FUNCTION content={ def image_captioning( image, ckpt=MODEL_SELECTION["image_captioning"] ): # alternative: nlpconnect/vit-gpt2-image-captioning (testing, blip is better than vit-gpt2)z """ It takes an image and generates a text caption of the image. """ image = image_processing(image) pipe = pipeline("image-to-text", model=ckpt) result = pipe( image ) # [{'generated_text': 'there is a small white dog sitting next to a cell phone'}] result_formatted = {"text": result[0]["generated_text"]} return result_formatted } --- file_path=mnm/tool_api.py lines=[348, 375] type=FUNCTION content={ def visual_question_answering(image, question, ckpt=MODEL_SELECTION['visual_question_answering']): """ Processes an image and a question about the image, then generates an answer using a pre-trained model. Args: image: The image to be processed. question: The question related to the image. ckpt: The checkpoint or model identifier for the pre-trained model. Defaults to MODEL_SELECTION["visual_question_answering"]. Returns: A dictionary with a key 'text' containing the generated answer to the question. Examples: >>> answer = visual_question_answering(my_image, "What is in this image?") >>> print(answer['text']) "A cat sitting on a windowsill." """ ... } --- (24 additional code blocks not shown. Search again with the same query to see additional results.) Prototypes for the next 7 out of 24 classes/functions found in unexpanded results (search again with the same query to see details): def automatic_speech_recognition(audio: str, ckpt=MODEL_SELECTION['automatic_speech_recognition']): ... # mnm/tool_api.py def get_full_path_data(filename): ... # mnm/tool_api.py def text_generation(text: str, ckpt=MODEL_SELECTION['text_generation']): ... # mnm/tool_api.py def image_editing(image, prompt: str, ckpt=MODEL_SELECTION['image_editing']): ... # mnm/tool_api.py def image_segmentation(image, ckpt=MODEL_SELECTION['image_segmentation']): ... # mnm/tool_api.py def object_detection(image, ckpt=MODEL_SELECTION['object_detection']): ... # mnm/tool_api.py def image_crop(image, object, ckpt=None): ... # mnm/tool_api.py QUERY: (type: FUNCTION) AND (text: text generation) CODE BLOCKS: --- file_path=mnm/tool_api.py lines=[111, 141] type=FUNCTION content={ def text_generation(text: str, ckpt=MODEL_SELECTION['text_generation']): """ Generates a continuation of the given input text using a specified language model. Args: text (str): The input text prompt to be continued. ckpt (str, optional): The identifier for the language model to be used. Defaults to the model specified in MODEL_SELECTION["text_generation"]. Returns: dict: A dictionary containing the generated text under the key 'text'. Raises: KeyError: If the OPENAI_API_KEY environment variable is not set. APIError: If the OpenAI API encounters an issue with the request. Examples: >>> generated_text = text_generation("Once upon a time") >>> print(generated_text) {'text': '...continued text from the model...'} """ ... } --- file_path=mnm/tool_api.py lines=[195, 226] type=FUNCTION content={ def automatic_speech_recognition(audio: str, ckpt=MODEL_SELECTION['automatic_speech_recognition']): """ Performs automatic speech recognition on an audio file using a pre-trained model. Args: audio (str): The file path to the audio file to be transcribed. ckpt (str, optional): The checkpoint identifier of the pre-trained model to use. Defaults to the model specified in MODEL_SELECTION["automatic_speech_recognition"]. Returns: dict: A dictionary containing the transcription of the audio file with the key 'text'. Raises: ImportError: If the required libraries (librosa, transformers) are not installed. Examples: >>> transcription = automatic_speech_recognition("path/to/audio/file.wav") >>> print(transcription) {'text': 'The transcribed text of the audio.'} """ ... } --- file_path=mnm/tool_api.py lines=[17, 22] type=FUNCTION content={ def get_full_path_data( filename, ): # get the path of data which isn't generated during the process base_path = MNM_BASE_PATH_DATA return os.path.join(base_path, filename) } --- (28 additional code blocks not shown. Search again with the same query to see additional results.) Prototypes for the next 7 out of 28 classes/functions found in unexpanded results (search again with the same query to see details): def wikipedia_simple_search(text: str, ckpt=None): ... # mnm/tool_api.py def text_summarization(text: str, ckpt=MODEL_SELECTION['text_summarization']): ... # mnm/tool_api.py def question_answering(question: str, text: str, ckpt=MODEL_SELECTION['question_answering']): ... # mnm/tool_api.py def optical_character_recognition(image, ckpt=MODEL_SELECTION['optical_character_recognition']): ... # mnm/tool_api.py def image_editing(image, prompt: str, ckpt=MODEL_SELECTION['image_editing']): ... # mnm/tool_api.py def search_movie(movie_title: str, movie_year: str, ckpt=None): ... # mnm/tool_api.py def image_segmentation(image, ckpt=MODEL_SELECTION['image_segmentation']): ... # mnm/tool_api.py ******************************************************************************** Step 3 ******************************************************************************** ------Action------ THOUGHT: The search results have provided the necessary functions to solve the user's query. I will use `image_classification` to identify the main subject of the image. Then, I will use `image_generation` to develop a refreshing depiction of the same subject based on the text description of the classified subject. Finally, I will use `text_generation` to formulate a descriptive narrative corresponding to the new artwork. I will now write the code to execute these steps sequentially. ACTION TYPE: code ACTION CONTENT: from mnm.tool_api import image_classification, image_generation, text_generation # Step 1: Identify the main subject of the image classified_result = image_classification(image='/root/input_data/13181.jpg') # Step 2: Generate a new image based on the classified subject generated_image_result = image_generation(text=classified_result['text']) # Step 3: Generate a descriptive narrative for the new image descriptive_narrative_result = text_generation(text="Describe this image: " + classified_result['text']) -----Response----- RESPONSE (Execution Result): STDOUT: {'text': 'A wire-haired fox terrier is a small to medium-sized dog with a wiry, rough coat that is typically white with black or brown markings. They have a distinctive rectangular-shaped head, with a long, straight muzzle and dark round eyes. Their ears are small and V-shaped, standing upright on top of their head. The dog is alert and energetic, with a playful expression on its face.'} RELEVANT VARIABLES (only shown if string rep. has changed after code exec): {"image_classification": , "image_generation": , "text_generation": , "classified_result": {'text': 'wire-haired fox terrier'}, "generated_image_result": {'image': }, "descriptive_narrative_result": {'text': 'A wire-haired fox terrier is a small to medium-sized dog with a wiry, rough coat that is typically white with black or brown markings. They have a distinctive rectangular-shaped head, with a long, straight muzzle and dark round eyes. Their ears are small and V-shaped, standing upright on top of their head. The dog is alert and energetic, with a playful expression on its face.'}} ******************************************************************************** Step 4 ******************************************************************************** ------Action------ THOUGHT: The code execution was successful. The main subject of the image was identified as a 'wire-haired fox terrier', a new image was generated based on this description, and a descriptive narrative was formulated corresponding to the new artwork. I will now provide a summary of the solution. ACTION TYPE: code_summary ACTION CONTENT: from mnm.tool_api import image_classification, image_generation, text_generation output0 = image_classification(image='/root/input_data/13181.jpg') output1 = image_generation(text=output0['text']) output2 = text_generation(text="Describe this image: " + output0['text']) -----Response----- RESPONSE (User Message): Summary received and stored. ******************************************************************************** Step 5 ******************************************************************************** ------Action------ THOUGHT: The user has acknowledged the receipt of the code summary. The task is complete. ACTION TYPE: done ACTION CONTENT: True -----Response----- None