# DRAFT Python API Reference **THE API REFERENCES BELOW ARE STILL UNDER DEVELOPMENT.** :::tip NOTE Knowledge Base Management ::: ## Create knowledge base ```python RAGFlow.create_dataset( name: str, avatar: str = "", description: str = "", language: str = "English", permission: str = "me", document_count: int = 0, chunk_count: int = 0, parse_method: str = "naive", parser_config: DataSet.ParserConfig = None ) -> DataSet ``` Creates a knowledge base (dataset). ### Parameters #### name: `str`, *Required* The unique name of the dataset to create. It must adhere to the following requirements: - Permitted characters include: - English letters (a-z, A-Z) - Digits (0-9) - "_" (underscore) - Must begin with an English letter or underscore. - Maximum 65,535 characters. - Case-insensitive. #### avatar: `str` Base64 encoding of the avatar. Defaults to `""` #### description #### tenant_id: `str` The id of the tenant associated with the created dataset is used to identify different users. Defaults to `None`. - If creating a dataset, tenant_id must not be provided. - If updating a dataset, tenant_id can't be changed. #### description: `str` The description of the created dataset. Defaults to `""`. #### language: `str` The language setting of the created dataset. Defaults to `"English"`. ???????????? #### permission Specify who can operate on the dataset. Defaults to `"me"`. #### document_count: `int` The number of documents associated with the dataset. Defaults to `0`. #### chunk_count: `int` The number of data chunks generated or processed by the created dataset. Defaults to `0`. #### parse_method, `str` The method used by the dataset to parse and process data. Defaults to `"naive"`. #### parser_config The parser configuration of the dataset. A `ParserConfig` object contains the following attributes: - `chunk_token_count`: Defaults to `128`. - `layout_recognize`: Defaults to `True`. - `delimiter`: Defaults to `'\n!?。;!?'`. - `task_page_size`: Defaults to `12`. ### Returns - Success: A `dataset` object. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag_object = RAGFlow(api_key="", base_url="http://:9380") ds = rag_object.create_dataset(name="kb_1") ``` --- ## Delete knowledge bases ```python RAGFlow.delete_datasets(ids: list[str] = None) ``` Deletes knowledge bases by name or ID. ### Parameters #### ids The IDs of the knowledge bases to delete. ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python rag.delete_datasets(ids=["id_1","id_2"]) ``` --- ## List knowledge bases ```python RAGFlow.list_datasets( page: int = 1, page_size: int = 1024, orderby: str = "create_time", desc: bool = True, id: str = None, name: str = None ) -> list[DataSet] ``` Retrieves a list of knowledge bases. ### Parameters #### page: `int` The current page number to retrieve from the paginated results. Defaults to `1`. #### page_size: `int` The number of records on each page. Defaults to `1024`. #### order_by: `str` The field by which the records should be sorted. This specifies the attribute or column used to order the results. Defaults to `"create_time"`. #### desc: `bool` Whether the sorting should be in descending order. Defaults to `True`. #### id: `str` The id of the dataset to be got. Defaults to `None`. #### name: `str` The name of the dataset to be got. Defaults to `None`. ### Returns - Success: A list of `DataSet` objects representing the retrieved knowledge bases. - Failure: `Exception`. ### Examples #### List all knowledge bases ```python for ds in rag_object.list_datasets(): print(ds) ``` #### Retrieve a knowledge base by ID ```python dataset = rag_object.list_datasets(id = "id_1") print(dataset[0]) ``` --- ## Update knowledge base ```python DataSet.update(update_message: dict) ``` Updates the current knowledge base. ### Parameters #### update_message: `dict[str, str|int]`, *Required* - `"name"`: `str` The name of the knowledge base to update. - `"tenant_id"`: `str` The `"tenant_id` you get after calling `create_dataset()`. ????????????????????? - `"embedding_model"`: `str` The embedding model for generating vector embeddings. - Ensure that `"chunk_count"` is `0` before updating `"embedding_model"`. - `"parser_method"`: `str` The default parsing method for the knowledge base. - `"naive"`: General - `"manual`: Manual - `"qa"`: Q&A - `"table"`: Table - `"paper"`: Paper - `"book"`: Book - `"laws"`: Laws - `"presentation"`: Presentation - `"picture"`: Picture - `"one"`:One - `"knowledge_graph"`: Knowledge Graph - `"email"`: Email ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") dataset = rag.list_datasets(name="kb_name") dataset.update({"embedding_model":"BAAI/bge-zh-v1.5", "parse_method":"manual"}) ``` --- :::tip API GROUPING File Management within Knowledge Base ::: ## Upload documents ```python DataSet.upload_documents(document_list: list[dict]) ``` Updloads documents to the current knowledge base. ### Parameters #### document_list A list of dictionaries representing the documents to upload, each containing the following keys: - `"name"`: (Optional) File path to the document to upload. Ensure that each file path has a suffix. - `"blob"`: (Optional) The document to upload in binary format. ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python dataset = rag.create_dataset(name="kb_name") dataset.upload_documents([{"name": "1.txt", "blob": "123"}]) ``` --- ## Update document ```python Document.update(update_message:dict) ``` Updates configurations for the current document. ### Parameters #### update_message: `dict[str, str|int]`, *Required* only `name`, `parser_config`, and `parser_method` can be changed ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") dataset=rag.list_datasets(id='id') dataset=dataset[0] doc = dataset.list_documents(id="wdfxb5t547d") doc = doc[0] doc.update([{"parser_method": "manual"}]) ``` --- ## Download document ```python Document.download() -> bytes ``` ### Returns Bytes of the document. ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") ds=rag.list_datasets(id="id") ds=ds[0] doc = ds.list_documents(id="wdfxb5t547d") doc = doc[0] open("~/ragflow.txt", "wb+").write(doc.download()) print(doc) ``` --- ## List documents ```python Dataset.list_documents(id:str =None, keywords: str=None, offset: int=0, limit:int = 1024,order_by:str = "create_time", desc: bool = True) -> list[Document] ``` ### Parameters #### id The id of the document to retrieve. #### keywords List documents whose name has the given keywords. Defaults to `None`. #### offset The beginning number of records for paging. Defaults to `0`. #### limit Records number to return, `-1` means all of them. Records number to return, `-1` means all of them. #### orderby The field by which the records should be sorted. This specifies the attribute or column used to order the results. #### desc A boolean flag indicating whether the sorting should be in descending order. ### Returns - Success: A list of `Document` objects. - Failure: `Exception`. A `Document` object contains the following attributes: - `id` Id of the retrieved document. Defaults to `""`. - `thumbnail` Thumbnail image of the retrieved document. Defaults to `""`. - `knowledgebase_id` Knowledge base ID related to the document. Defaults to `""`. - `parser_method` Method used to parse the document. Defaults to `""`. - `parser_config`: `ParserConfig` Configuration object for the parser. Defaults to `None`. - `source_type`: Source type of the document. Defaults to `""`. - `type`: Type or category of the document. Defaults to `""`. - `created_by`: `str` Creator of the document. Defaults to `""`. - `name` Name or title of the document. Defaults to `""`. - `size`: `int` Size of the document in bytes or some other unit. Defaults to `0`. - `token_count`: `int` Number of tokens in the document. Defaults to `""`. - `chunk_count`: `int` Number of chunks the document is split into. Defaults to `0`. - `progress`: `float` Current processing progress as a percentage. Defaults to `0.0`. - `progress_msg`: `str` Message indicating current progress status. Defaults to `""`. - `process_begin_at`: `datetime` Start time of the document processing. Defaults to `None`. - `process_duation`: `float` Duration of the processing in seconds or minutes. Defaults to `0.0`. ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") dataset = rag.create_dataset(name="kb_1") filename1 = "~/ragflow.txt" blob=open(filename1 , "rb").read() list_files=[{"name":filename1,"blob":blob}] dataset.upload_documents(list_files) for d in dataset.list_documents(keywords="rag", offset=0, limit=12): print(d) ``` --- ## Delete documents ```python DataSet.delete_documents(ids: list[str] = None) ``` Deletes specified documents or all documents from the current knowledge base. ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") ds = rag.list_datasets(name="kb_1") ds = ds[0] ds.delete_documents(ids=["id_1","id_2"]) ``` --- ## Parse and stop parsing document ```python DataSet.async_parse_documents(document_ids:list[str]) -> None DataSet.async_cancel_parse_documents(document_ids:list[str])-> None ``` ### Parameters #### document_ids: `list[str]` The IDs of the documents to parse. ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python #documents parse and cancel rag = RAGFlow(API_KEY, HOST_ADDRESS) ds = rag.create_dataset(name="dataset_name") documents = [ {'name': 'test1.txt', 'blob': open('./test_data/test1.txt',"rb").read()}, {'name': 'test2.txt', 'blob': open('./test_data/test2.txt',"rb").read()}, {'name': 'test3.txt', 'blob': open('./test_data/test3.txt',"rb").read()} ] ds.upload_documents(documents) documents=ds.list_documents(keywords="test") ids=[] for document in documents: ids.append(document.id) ds.async_parse_documents(ids) print("Async bulk parsing initiated") ds.async_cancel_parse_documents(ids) print("Async bulk parsing cancelled") ``` --- ## List chunks ```python Document.list_chunks(keywords: str = None, offset: int = 0, limit: int = -1, id : str = None) -> list[Chunk] ``` ### Parameters #### keywords List chunks whose name has the given keywords. Defaults to `None` #### offset The beginning number of records for paging. Defaults to `1` #### limit Records number to return. Default: `30` #### id The ID of the chunk to retrieve. Default: `None` ### Returns list[chunk] ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") ds = rag.list_datasets("123") ds = ds[0] ds.async_parse_documents(["wdfxb5t547d"]) for c in doc.list_chunks(keywords="rag", offset=0, limit=12): print(c) ``` ## Add chunk ```python Document.add_chunk(content:str) -> Chunk ``` ### Parameters #### content: *Required* The main text or information of the chunk. #### important_keywords :`list[str]` List the key terms or phrases that are significant or central to the chunk's content. ### Returns chunk ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") dataset = rag.list_datasets(id="123") dtaset = dataset[0] doc = dataset.list_documents(id="wdfxb5t547d") doc = doc[0] chunk = doc.add_chunk(content="xxxxxxx") ``` --- ## Delete chunk ```python Document.delete_chunks(chunk_ids: list[str]) ``` ### Parameters #### chunk_ids:`list[str]` A list of chunk_id. ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") ds = rag.list_datasets(id="123") ds = ds[0] doc = ds.list_documents(id="wdfxb5t547d") doc = doc[0] chunk = doc.add_chunk(content="xxxxxxx") doc.delete_chunks(["id_1","id_2"]) ``` --- ## Update chunk ```python Chunk.update(update_message: dict) ``` ### Parameters #### update_message: *Required* - `content`: `str` Contains the main text or information of the chunk - `important_keywords`: `list[str]` List the key terms or phrases that are significant or central to the chunk's content - `available`: `int` Indicating the availability status, `0` means unavailable and `1` means available ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") dataset = rag.list_datasets(id="123") dataset = dataset[0] doc = dataset.list_documents(id="wdfxb5t547d") doc = doc[0] chunk = doc.add_chunk(content="xxxxxxx") chunk.update({"content":"sdfx..."}) ``` --- ## Retrieval ```python RAGFlow.retrieve(question:str="", datasets:list[str]=None, document=list[str]=None, offset:int=1, limit:int=30, similarity_threshold:float=0.2, vector_similarity_weight:float=0.3, top_k:int=1024,rerank_id:str=None,keyword:bool=False,higlight:bool=False) -> list[Chunk] ``` ### Parameters #### question: `str`, *Required* The user query or query keywords. Defaults to `""`. #### datasets: `list[Dataset]`, *Required* The scope of datasets. #### document: `list[Document]` The scope of document. `None` means no limitation. Defaults to `None`. #### offset: `int` The beginning point of retrieved records. Defaults to `0`. #### limit: `int` The maximum number of records needed to return. Defaults to `6`. #### Similarity_threshold: `float` The minimum similarity score. Defaults to `0.2`. #### similarity_threshold_weight: `float` The weight of vector cosine similarity, 1 - x is the term similarity weight. Defaults to `0.3`. #### top_k: `int` Number of records engaged in vector cosine computaton. Defaults to `1024`. #### rerank_id:`str` ID of the rerank model. Defaults to `None`. #### keyword:`bool` Indicating whether keyword-based matching is enabled (True) or disabled (False). #### highlight:`bool` Specifying whether to enable highlighting of matched terms in the results (True) or not (False). ### Returns list[Chunk] ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") ds = rag.list_datasets(name="ragflow") ds = ds[0] name = 'ragflow_test.txt' path = './test_data/ragflow_test.txt' rag.create_document(ds, name=name, blob=open(path, "rb").read()) doc = ds.list_documents(name=name) doc = doc[0] ds.async_parse_documents([doc.id]) for c in rag.retrieve(question="What's ragflow?", datasets=[ds.id], documents=[doc.id], offset=1, limit=30, similarity_threshold=0.2, vector_similarity_weight=0.3, top_k=1024 ): print(c) ``` --- :::tip API GROUPING Chat Assistant Management ::: ## Create chat assistant ```python RAGFlow.create_chat( name: str = "assistant", avatar: str = "path", knowledgebases: list[DataSet] = [], llm: Chat.LLM = None, prompt: Chat.Prompt = None ) -> Chat ``` Creates a chat assistant. ### Returns - Success: A `Chat` object representing the chat assistant. - Failure: `Exception` The following shows the attributes of a `Chat` object: - `name`: `str` The name of the chat assistant. Defaults to `"assistant"`. - `avatar`: `str` Base64 encoding of the avatar. Defaults to `""`. - `knowledgebases`: `list[str]` The associated knowledge bases. Defaults to `["kb1"]`. - `llm`: `LLM` The llm of the created chat. Defaults to `None`. When the value is `None`, a dictionary with the following values will be generated as the default. - `model_name`, `str` The chat model name. If it is `None`, the user's default chat model will be returned. - `temperature`, `float` Controls the randomness of the model's predictions. A lower temperature increases the model's conficence in its responses; a higher temperature increases creativity and diversity. Defaults to `0.1`. - `top_p`, `float` Also known as “nucleus sampling”, this parameter sets a threshold to select a smaller set of words to sample from. It focuses on the most likely words, cutting off the less probable ones. Defaults to `0.3` - `presence_penalty`, `float` This discourages the model from repeating the same information by penalizing words that have already appeared in the conversation. Defaults to `0.2`. - `frequency penalty`, `float` Similar to the presence penalty, this reduces the model’s tendency to repeat the same words frequently. Defaults to `0.7`. - `max_token`, `int` This sets the maximum length of the model’s output, measured in the number of tokens (words or pieces of words). Defaults to `512`. - `Prompt`: `Prompt` Instructions for the LLM to follow. - `"similarity_threshold"`: `float` A similarity score to evaluate distance between two lines of text. It's weighted keywords similarity and vector cosine similarity. If the similarity between query and chunk is less than this threshold, the chunk will be filtered out. Defaults to `0.2`. - `"keywords_similarity_weight"`: `float` It's weighted keywords similarity and vector cosine similarity or rerank score (0~1). Defaults to `0.7`. - `"top_n"`: `int` Not all the chunks whose similarity score is above the 'similarity threshold' will be feed to LLMs. LLM can only see these 'Top N' chunks. Defaults to `8`. - `"variables"`: `list[dict[]]` If you use dialog APIs, the variables might help you chat with your clients with different strategies. The variables are used to fill in the 'System' part in prompt in order to give LLM a hint. The 'knowledge' is a very special variable which will be filled-in with the retrieved chunks. All the variables in 'System' should be curly bracketed. Defaults to `[{"key": "knowledge", "optional": True}]` - `"rerank_model"`: `str` If it is not specified, vector cosine similarity will be used; otherwise, reranking score will be used. Defaults to `""`. - `"empty_response"`: `str` If nothing is retrieved in the knowledge base for the user's question, this will be used as the response. To allow the LLM to improvise when nothing is retrieved, leave this blank. Defaults to `None`. - `"opener"`: `str` The opening greeting for the user. Defaults to `"Hi! I am your assistant, can I help you?"`. - `"show_quote`: `bool` Indicates whether the source of text should be displayed Defaults to `True`. - `"prompt"`: `str` The prompt content. Defaults to `You are an intelligent assistant. Please summarize the content of the knowledge base to answer the question. Please list the data in the knowledge base and answer in detail. When all knowledge base content is irrelevant to the question, your answer must include the sentence "The answer you are looking for is not found in the knowledge base!" Answers need to consider chat history. Here is the knowledge base: {knowledge} The above is the knowledge base.`. ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") knowledge_base = rag.list_datasets(name="kb_1") assistant = rag.create_chat("Miss R", knowledgebases=knowledge_base) ``` --- ## Update chat ```python Chat.update(update_message: dict) ``` Updates the current chat assistant. ### Parameters #### update_message: `dict[str, Any]`, *Required* - `"name"`: `str` The name of the chat assistant to update. - `"avatar"`: `str` Base64 encoding of the avatar. Defaults to `""` - `"knowledgebases"`: `list[str]` Knowledge bases to update. - `"llm"`: `dict` The LLM settings: - `"model_name"`, `str` The chat model name. - `"temperature"`, `float` Controls the randomness of the model's predictions. - `"top_p"`, `float` Also known as “nucleus sampling”, this parameter sets a threshold to select a smaller set of words to sample from. - `"presence_penalty"`, `float` This discourages the model from repeating the same information by penalizing words that have appeared in the conversation. - `"frequency penalty"`, `float` Similar to presence penalty, this reduces the model’s tendency to repeat the same words. - `"max_token"`, `int` This sets the maximum length of the model’s output, measured in the number of tokens (words or pieces of words). - `"prompt"` : Instructions for the LLM to follow. - `"similarity_threshold"`: `float` A score to evaluate distance between two lines of text. It's weighted keywords similarity and vector cosine similarity. If the similarity between query and chunk is less than this threshold, the chunk will be filtered out. Defaults to `0.2`. - `"keywords_similarity_weight"`: `float` It's weighted keywords similarity and vector cosine similarity or rerank score (0~1). Defaults to `0.7`. - `"top_n"`: `int` Not all the chunks whose similarity score is above the 'similarity threshold' will be feed to LLMs. LLM can only see these 'Top N' chunks. Defaults to `8`. - `"variables"`: `list[dict[]]` If you use dialog APIs, the variables might help you chat with your clients with different strategies. The variables are used to fill in the 'System' part in prompt in order to give LLM a hint. The 'knowledge' is a very special variable which will be filled-in with the retrieved chunks. All the variables in 'System' should be curly bracketed. Defaults to `[{"key": "knowledge", "optional": True}]` - `"rerank_model"`: `str` If it is not specified, vector cosine similarity will be used; otherwise, reranking score will be used. Defaults to `""`. - `"empty_response"`: `str` If nothing is retrieved in the knowledge base for the user's question, this will be used as the response. To allow the LLM to improvise when nothing is retrieved, leave this blank. Defaults to `None`. - `"opener"`: `str` The opening greeting for the user. Defaults to `"Hi! I am your assistant, can I help you?"`. - `"show_quote`: `bool` Indicates whether the source of text should be displayed Defaults to `True`. - `"prompt"`: `str` The prompt content. Defaults to `You are an intelligent assistant. Please summarize the content of the knowledge base to answer the question. Please list the data in the knowledge base and answer in detail. When all knowledge base content is irrelevant to the question, your answer must include the sentence "The answer you are looking for is not found in the knowledge base!" Answers need to consider chat history. Here is the knowledge base: {knowledge} The above is the knowledge base.`. ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") knowledge_base = rag.list_datasets(name="kb_1") assistant = rag.create_chat("Miss R", knowledgebases=knowledge_base) assistant.update({"name": "Stefan", "llm": {"temperature": 0.8}, "prompt": {"top_n": 8}}) ``` --- ## Delete chats Deletes specified chat assistants. ```python RAGFlow.delete_chats(ids: list[str] = None) ``` ### Parameters #### ids IDs of the chat assistants to delete. If not specified, all chat assistants will be deleted. ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") rag.delete_chats(ids=["id_1","id_2"]) ``` --- ## List chats ```python RAGFlow.list_chats( page: int = 1, page_size: int = 1024, orderby: str = "create_time", desc: bool = True, id: str = None, name: str = None ) -> list[Chat] ``` Retrieves a list of chat assistants. ### Parameters #### page Specifies the page on which the records will be displayed. Defaults to `1`. #### page_size The number of records on each page. Defaults to `1024`. #### order_by The attribute by which the results are sorted. Defaults to `"create_time"`. #### desc Indicates whether to sort the results in descending order. Defaults to `True`. #### id: `string` The ID of the chat to retrieve. Defaults to `None`. #### name: `string` The name of the chat to retrieve. Defaults to `None`. ### Returns - Success: A list of `Chat` objects. - Failure: `Exception`. ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") for assistant in rag.list_chats(): print(assistant) ``` --- :::tip API GROUPING Chat-session APIs ::: ## Create session ```python Chat.create_session(name: str = "New session") -> Session ``` Creates a chat session. ### Parameters #### name The name of the chat session to create. ### Returns - Success: A `Session` object containing the following attributes: - `id`: `str` The auto-generated unique identifier of the created session. - `name`: `str` The name of the created session. - `message`: `list[Message]` The messages of the created session assistant. Default: `[{"role": "assistant", "content": "Hi! I am your assistant,can I help you?"}]` - `chat_id`: `str` The ID of the associated chat assistant. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") assistant = rag.list_chats(name="Miss R") assistant = assistant[0] session = assistant.create_session() ``` ## Update session ```python Session.update(update_message: dict) ``` Updates the current session. ### Parameters #### update_message: `dict[str, Any]`, *Required* - `"name"`: `str` The name of the session to update. ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") assistant = rag.list_chats(name="Miss R") assistant = assistant[0] session = assistant.create_session("session_name") session.update({"name": "updated_name"}) ``` --- ## Chat ```python Session.ask(question: str, stream: bool = False) -> Optional[Message, iter[Message]] ``` Asks a question to start a conversation. ### Parameters #### question *Required* The question to start an AI chat. Defaults to `None`. #### stream Indicates whether to output responses in a streaming way: - `True`: Enable streaming. - `False`: (Default) Disable streaming. ### Returns - A `Message` object containing the response to the question if `stream` is set to `False` - An iterator containing multiple `message` objects (`iter[Message]`) if `stream` is set to `True` The following shows the attributes of a `Message` object: #### id: `str` The auto-generated message ID. #### content: `str` The content of the message. Defaults to `"Hi! I am your assistant, can I help you?"`. #### reference: `list[Chunk]` A list of `Chunk` objects representing references to the message, each containing the following attributes: - **id**: `str` The chunk ID. - **content**: `str` The content of the chunk. - **image_id**: `str` The ID of the snapshot of the chunk. - **document_id**: `str` The ID of the referenced document. - **document_name**: `str` The name of the referenced document. - **position**: `list[str]` The location information of the chunk within the referenced document. - **knowledgebase_id**: `str` The ID of the knowledge base to which the referenced document belongs. - **similarity**: `float` A composite similarity score of the chunk ranging from `0` to `1`, with a higher value indicating greater similarity. - **vector_similarity**: `float` A vector similarity score of the chunk ranging from `0` to `1`, with a higher value indicating greater similarity between vector embeddings. - **term_similarity**: `float` A keyword similarity score of the chunk ranging from `0` to `1`, with a higher value indicating greater similarity between keywords. ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") assistant = rag.list_chats(name="Miss R") assistant = assistant[0] session = assistant.create_session() print("\n==================== Miss R =====================\n") print(assistant.get_prologue()) while True: question = input("\n==================== User =====================\n> ") print("\n==================== Miss R =====================\n") cont = "" for ans in session.ask(question, stream=True): print(answer.content[len(cont):], end='', flush=True) cont = answer.content ``` --- ## List sessions ```python Chat.list_sessions( page: int = 1, page_size: int = 1024, orderby: str = "create_time", desc: bool = True, id: str = None, name: str = None ) -> list[Session] ``` Lists sessions associated with the current chat assistant. ### Parameters #### page Specifies the page on which records will be displayed. Defaults to `1`. #### page_size The number of records on each page. Defaults to `1024`. #### orderby The field by which the records should be sorted. This specifies the attribute or column used to sort the results. Defaults to `"create_time"`. #### desc Whether the sorting should be in descending order. Defaults to `True`. #### id The ID of the chat session to retrieve. Defaults to `None`. #### name The name of the chat to retrieve. Defaults to `None`. ### Returns - Success: A list of `Session` objects associated with the current chat assistant. - Failure: `Exception`. ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") assistant = rag.list_chats(name="Miss R") assistant = assistant[0] for session in assistant.list_sessions(): print(session) ``` --- ## Delete sessions ```python Chat.delete_sessions(ids:list[str] = None) ``` Deletes specified sessions or all sessions associated with the current chat assistant. ### Parameters #### ids IDs of the sessions to delete. If not specified, all sessions associated with the current chat assistant will be deleted. ### Returns - Success: No value is returned. - Failure: `Exception` ### Examples ```python from ragflow import RAGFlow rag = RAGFlow(api_key="", base_url="http://:9380") assistant = rag.list_chats(name="Miss R") assistant = assistant[0] assistant.delete_sessions(ids=["id_1","id_2"]) ```