from langchain_community.document_loaders import ( PyPDFLoader, TextLoader, DirectoryLoader, CSVLoader, UnstructuredExcelLoader, Docx2txtLoader, ) from langchain.text_splitter import RecursiveCharacterTextSplitter, CharacterTextSplitter import tiktoken import gradio as gr import os, tempfile, glob, random from pathlib import Path #from IPython.display import Markdown from PIL import Image from getpass import getpass import numpy as np from itertools import combinations import pypdf # LLM: openai and google_genai import openai from langchain_openai import OpenAI, OpenAIEmbeddings, ChatOpenAI from langchain_google_genai import ChatGoogleGenerativeAI from langchain_google_genai import GoogleGenerativeAIEmbeddings # LLM: HuggingFace from langchain_community.embeddings import HuggingFaceInferenceAPIEmbeddings from langchain_community.llms import HuggingFaceHub # langchain prompts, memory, chains... from langchain.prompts import PromptTemplate, ChatPromptTemplate from langchain.chains import ConversationalRetrievalChain from langchain_community.chat_message_histories import StreamlitChatMessageHistory from operator import itemgetter from langchain_core.runnables import RunnableLambda, RunnableParallel, RunnablePassthrough from langchain.schema import Document, format_document from langchain_core.messages import AIMessage, HumanMessage, get_buffer_string # OutputParser from langchain_core.output_parsers import StrOutputParser # Chroma: vectorstore from langchain_community.vectorstores import Chroma # Contextual Compression from langchain.retrievers.document_compressors import DocumentCompressorPipeline from langchain.text_splitter import CharacterTextSplitter from langchain_community.document_transformers import EmbeddingsRedundantFilter,LongContextReorder from langchain.retrievers.document_compressors import EmbeddingsFilter from langchain.retrievers import ContextualCompressionRetriever from langchain.retrievers import ContextualCompressionRetriever from langchain.retrievers.document_compressors import CohereRerank from langchain_community.llms import Cohere from langchain.memory import ConversationSummaryBufferMemory,ConversationBufferMemory from langchain.schema import Document # Cohere from langchain.retrievers.document_compressors import CohereRerank from langchain_community.llms import Cohere openai_api_key = os.environ['openai_key'] google_api_key = os.environ['gemini_key'] HF_key = os.environ['HF_token'] cohere_api_key = os.environ['cohere_api'] current_dir = os.getcwd() def langchain_document_loader(): """ Load documents from the temporary directory (TMP_DIR). Files can be in txt, pdf, CSV or docx format. """ #current_dir = os.getcwd() #TMP_DIR = current_dir global documents documents = [] """ txt_loader = DirectoryLoader( TMP_DIR.as_posix(), glob="**/*.txt", loader_cls=TextLoader, show_progress=True ) documents.extend(txt_loader.load()) """ pdf_loader = DirectoryLoader( current_dir, glob="*.pdf", loader_cls=PyPDFLoader, show_progress=True ) documents.extend(pdf_loader.load()) """ csv_loader = DirectoryLoader( TMP_DIR.as_posix(), glob="**/*.csv", loader_cls=CSVLoader, show_progress=True, loader_kwargs={"encoding":"utf8"} ) documents.extend(csv_loader.load()) doc_loader = DirectoryLoader( #TMP_DIR.as_posix(), current_dir, glob="**/*.docx", loader_cls=Docx2txtLoader, show_progress=True, ) documents.extend(doc_loader.load()) """ return documents langchain_document_loader() text_splitter = RecursiveCharacterTextSplitter( separators = ["\n\n", "\n", " ", ""], chunk_size = 1600, chunk_overlap= 200 ) # Text splitting chunks = text_splitter.split_documents(documents=documents) def tiktoken_tokens(documents,model="gpt-3.5-turbo"): """Use tiktoken (tokeniser for OpenAI models) to return a list of token lengths per document.""" encoding = tiktoken.encoding_for_model(model) # returns the encoding used by the model. tokens_length = [len(encoding.encode(documents[i].page_content)) for i in range(len(documents))] return tokens_length chunks_length = tiktoken_tokens(chunks,model="gpt-3.5-turbo") print(f"Number of tokens - Average : {int(np.mean(chunks_length))}") print(f"Number of tokens - 25% percentile : {int(np.quantile(chunks_length,0.25))}") print(f"Number of tokens - 50% percentile : {int(np.quantile(chunks_length,0.5))}") print(f"Number of tokens - 75% percentile : {int(np.quantile(chunks_length,0.75))}") def select_embeddings_model(LLM_service="HuggingFace"): """Connect to the embeddings API endpoint by specifying the name of the embedding model. if LLM_service == "OpenAI": embeddings = OpenAIEmbeddings( model='text-embedding-ada-002', api_key=openai_api_key) if LLM_service == "Google": embeddings = GoogleGenerativeAIEmbeddings( model="models/embedding-001", google_api_key=google_api_key )""" if LLM_service == "HuggingFace": embeddings = HuggingFaceInferenceAPIEmbeddings( api_key=HF_key, model_name="thenlper/gte-large" ) return embeddings #embeddings_OpenAI = select_embeddings_model(LLM_service="OpenAI") embeddings_google = select_embeddings_model(LLM_service="Google") embeddings_HuggingFace = select_embeddings_model(LLM_service="HuggingFace") def create_vectorstore(embeddings,documents,vectorstore_name): """Create a Chroma vector database.""" persist_directory = (current_dir + "/" + vectorstore_name) vector_store = Chroma.from_documents( documents=documents, embedding=embeddings, persist_directory=persist_directory ) return vector_store create_vectorstores = True # change to True to create vectorstores if create_vectorstores: """ vector_store_OpenAI,_ = create_vectorstore( embeddings=embeddings_OpenAI, documents = chunks, vectorstore_name="Vit_All_OpenAI_Embeddings", ) print("vector_store_OpenAI:",vector_store_OpenAI._collection.count(),"chunks.") vector_store_google,new_vectorstore_name = create_vectorstore( embeddings=embeddings_google, documents = chunks, vectorstore_name="Vit_All_Google_Embeddings" ) print("vector_store_google:",vector_store_google._collection.count(),"chunks.") """ vector_store_HF = create_vectorstore( embeddings=embeddings_HuggingFace, documents = chunks, vectorstore_name="Vit_All_HF_Embeddings" ) print("vector_store_HF:",vector_store_HF._collection.count(),"chunks.") print("") """ vector_store_OpenAI = Chroma( persist_directory = LOCAL_VECTOR_STORE_DIR.as_posix() + "/Vit_All_OpenAI_Embeddings", embedding_function=embeddings_OpenAI) print("vector_store_OpenAI:",vector_store_OpenAI._collection.count(),"chunks.") """ vector_store_google = Chroma( persist_directory = current_dir + "/Vit_All_Google_Embeddings", embedding_function=embeddings_google) print("vector_store_google:",vector_store_google._collection.count(),"chunks.") vector_store_HF = Chroma( persist_directory = current_dir + "/Vit_All_HF_Embeddings", embedding_function=embeddings_HuggingFace) print("vector_store_HF:",vector_store_HF._collection.count(),"chunks.") def Vectorstore_backed_retriever( vectorstore,search_type="similarity",k=4,score_threshold=None ): """create a vectorsore-backed retriever Parameters: search_type: Defines the type of search that the Retriever should perform. Can be "similarity" (default), "mmr", or "similarity_score_threshold" k: number of documents to return (Default: 4) score_threshold: Minimum relevance threshold for similarity_score_threshold (default=None) """ search_kwargs={} if k is not None: search_kwargs['k'] = k if score_threshold is not None: search_kwargs['score_threshold'] = score_threshold global retriever retriever = vectorstore.as_retriever( search_type=search_type, search_kwargs=search_kwargs ) return retriever # similarity search #base_retriever_OpenAI = Vectorstore_backed_retriever(vector_store_OpenAI,"similarity",k=10) base_retriever_google = Vectorstore_backed_retriever(vector_store_google,"similarity",k=10) base_retriever_HF = Vectorstore_backed_retriever(vector_store_HF,"similarity",k=10) def create_compression_retriever(embeddings, base_retriever, chunk_size=500, k=16, similarity_threshold=None): """Build a ContextualCompressionRetriever. We wrap the the base_retriever (a vectorstore-backed retriever) into a ContextualCompressionRetriever. The compressor here is a Document Compressor Pipeline, which splits documents into smaller chunks, removes redundant documents, filters out the most relevant documents, and reorder the documents so that the most relevant are at the top and bottom of the list. Parameters: embeddings: OpenAIEmbeddings, GoogleGenerativeAIEmbeddings or HuggingFaceInferenceAPIEmbeddings. base_retriever: a vectorstore-backed retriever. chunk_size (int): Documents will be splitted into smaller chunks using a CharacterTextSplitter with a default chunk_size of 500. k (int): top k relevant chunks to the query are filtered using the EmbeddingsFilter. default =16. similarity_threshold : minimum relevance threshold used by the EmbeddingsFilter. default =None. """ # 1. splitting documents into smaller chunks splitter = CharacterTextSplitter(chunk_size=chunk_size, chunk_overlap=0, separator=". ") # 2. removing redundant documents redundant_filter = EmbeddingsRedundantFilter(embeddings=embeddings) # 3. filtering based on relevance to the query relevant_filter = EmbeddingsFilter(embeddings=embeddings, k=k, similarity_threshold=similarity_threshold) # similarity_threshold and top K # 4. Reorder the documents # Less relevant document will be at the middle of the list and more relevant elements at the beginning or end of the list. # Reference: https://python.langchain.com/docs/modules/data_connection/retrievers/long_context_reorder reordering = LongContextReorder() # 5. Create compressor pipeline and retriever pipeline_compressor = DocumentCompressorPipeline( transformers=[splitter, redundant_filter, relevant_filter, reordering] ) compression_retriever = ContextualCompressionRetriever( base_compressor=pipeline_compressor, base_retriever=base_retriever ) return compression_retriever def CohereRerank_retriever( base_retriever, cohere_api_key,cohere_model="rerank-multilingual-v2.0", top_n=8 ): """Build a ContextualCompressionRetriever using Cohere Rerank endpoint to reorder the results based on relevance. Parameters: base_retriever: a Vectorstore-backed retriever cohere_api_key: the Cohere API key cohere_model: The Cohere model can be either 'rerank-english-v2.0' or 'rerank-multilingual-v2.0', with the latter being the default. top_n: top n results returned by Cohere rerank, default = 8. """ compressor = CohereRerank( cohere_api_key=cohere_api_key, model=cohere_model, top_n=top_n ) retriever_Cohere = ContextualCompressionRetriever( base_compressor=compressor, base_retriever=base_retriever ) return retriever_Cohere def retrieval_blocks( create_vectorstore=True,# if True a Chroma vectorstore is created, else the Chroma vectorstore will be loaded LLM_service="HuggingFace", vectorstore_name="Vit_All_HF_Embeddings", chunk_size = 1600, chunk_overlap=200, # parameters of the RecursiveCharacterTextSplitter retriever_type="Vectorstore_backed_retriever", base_retriever_search_type="similarity", base_retriever_k=10, base_retriever_score_threshold=None, compression_retriever_k=16, cohere_api_key="***", cohere_model="rerank-multilingual-v2.0", cohere_top_n=8, ): """ Rertieval includes: document loaders, text splitter, vectorstore and retriever. Parameters: create_vectorstore (boolean): If True, a new Chroma vectorstore will be created. Otherwise, an existing vectorstore will be loaded. LLM_service: OpenAI, Google or HuggingFace. vectorstore_name (str): the name of the vectorstore. chunk_size and chunk_overlap: parameters of the RecursiveCharacterTextSplitter, default = (1600,200). retriever_type (str): in [Vectorstore_backed_retriever,Contextual_compression,Cohere_reranker] base_retriever_search_type: search_type in ["similarity", "mmr", "similarity_score_threshold"], default = similarity. base_retriever_k: The most similar vectors to retrieve (default k = 10). base_retriever_score_threshold: score_threshold used by the base retriever, default = None. compression_retriever_k: top k documents returned by the compression retriever, default=16 cohere_api_key: Cohere API key cohere_model (str): The Cohere model can be either 'rerank-english-v2.0' or 'rerank-multilingual-v2.0', with the latter being the default. cohere_top_n: top n results returned by Cohere rerank, default = 8. Output: retriever. """ try: # Create new Vectorstore (Chroma index) if create_vectorstore: # 1. load documents documents = langchain_document_loader(current_dir) # 2. Text Splitter: split documents to chunks text_splitter = RecursiveCharacterTextSplitter( separators = ["\n\n", "\n", " ", ""], chunk_size = chunk_size, chunk_overlap= chunk_overlap ) chunks = text_splitter.split_documents(documents=documents) # 3. Embeddings embeddings = select_embeddings_model(LLM_service=LLM_service) # 4. Vectorsore: create Chroma index vector_store = create_vectorstore( embeddings=embeddings, documents = chunks, vectorstore_name=vectorstore_name, ) # 5. Load a Vectorstore (Chroma index) else: embeddings = select_embeddings_model(LLM_service=LLM_service) vector_store = Chroma( persist_directory = current_dir + "/" + vectorstore_name, embedding_function=embeddings ) # 6. base retriever: Vector store-backed retriever base_retriever = Vectorstore_backed_retriever( vector_store, search_type=base_retriever_search_type, k=base_retriever_k, score_threshold=base_retriever_score_threshold ) retriever = None if retriever_type=="Vectorstore_backed_retriever": retriever = base_retriever # 7. Contextual Compression Retriever if retriever_type=="Contextual_compression": retriever = create_compression_retriever( embeddings=embeddings, base_retriever=base_retriever, k=compression_retriever_k, ) # 8. CohereRerank retriever if retriever_type=="Cohere_reranker": retriever = CohereRerank_retriever( base_retriever=base_retriever, cohere_api_key=cohere_api_key, cohere_model=cohere_model, top_n=cohere_top_n ) print(f"\n{retriever_type} is created successfully!") print(f"Relevant documents will be retrieved from vectorstore ({vectorstore_name}) which uses {LLM_service} embeddings \ and has {vector_store._collection.count()} chunks.") return retriever except Exception as e: print(e) def instantiate_LLM(LLM_provider,api_key,temperature=0.5,top_p=0.95,model_name=None): """Instantiate LLM in Langchain. Parameters: LLM_provider (str): the LLM provider; in ["OpenAI","Google","HuggingFace"] model_name (str): in ["gpt-3.5-turbo", "gpt-3.5-turbo-0125", "gpt-4-turbo-preview", "gemini-pro", "mistralai/Mistral-7B-Instruct-v0.2"]. api_key (str): google_api_key or openai_api_key or huggingfacehub_api_token temperature (float): Range: 0.0 - 1.0; default = 0.5 top_p (float): : Range: 0.0 - 1.0; default = 1. """ if LLM_provider == "OpenAI": llm = ChatOpenAI( api_key=api_key, model="gpt-3.5-turbo", # in ["gpt-3.5-turbo", "gpt-3.5-turbo-0125", "gpt-4-turbo-preview"] temperature=temperature, model_kwargs={ "top_p": top_p } ) if LLM_provider == "Google": llm = ChatGoogleGenerativeAI( google_api_key=api_key, model="gemini-pro", # "gemini-pro" temperature=temperature, top_p=top_p, convert_system_message_to_human=True ) if LLM_provider == "HuggingFace": llm = HuggingFaceHub( repo_id="mistralai/Mistral-7B-Instruct-v0.2", # "mistralai/Mistral-7B-Instruct-v0.2" huggingfacehub_api_token=api_key, model_kwargs={ "temperature":temperature, "top_p": top_p, "do_sample": True, "max_new_tokens":1024 }, ) return llm def get_environment_variable(key): if key in os.environ: value = os.environ.get(key) print(f"\n[INFO]: {key} retrieved successfully.") else : print(f"\n[ERROR]: {key} is not found in your environment variables.") value = getpass(f"Insert your {key}") return value def create_memory(model_name='gpt-3.5-turbo',memory_max_token=None): """Creates a ConversationSummaryBufferMemory for gpt-3.5-turbo. Creates a ConversationBufferMemory for the other models.""" if model_name=="gpt-3.5-turbo": if memory_max_token is None: memory_max_token = 1024 # max_tokens for 'gpt-3.5-turbo' = 4096 memory = ConversationSummaryBufferMemory( max_token_limit=memory_max_token, llm=ChatOpenAI(model_name="gpt-3.5-turbo",openai_api_key=openai_api_key,temperature=0.1), return_messages=True, memory_key='chat_history', output_key="answer", input_key="question" ) else: memory = ConversationBufferMemory( return_messages=True, memory_key='chat_history', output_key="answer", input_key="question", ) return memory # Set a small memory_max_token, just to show how older messages are summarized if max_token_limit is exceeded. memory = create_memory(model_name='gpt-3.5-turbo',memory_max_token=20) # save context memory.save_context( inputs={"question":"what does DTC stand for?"}, outputs={"answer":"""Diffuse to Choose (DTC) is a novel diffusion inpainting approach designed for the Vit-All application, which allows users to virtually place any e-commerce item in any setting, ensuring detailed, semantically coherent blending with realistic lighting and shadows. It effectively incorporates fine-grained cues from the reference image into the main U-Net decoder using a secondary U-Net encoder. DTC can handle a variety of e-commerce products and can generate images using in-the-wild images & references. It is superior to existing zero-shot personalization methods, especially in preserving the fine-grained details of items."""} ) memory.save_context( inputs={"question":"what does Vit-all stand for?"}, outputs={"answer":"Virtual Try-All"} ) memory.load_memory_variables({}) standalone_question_template = """Given the following conversation and a follow up question, rephrase the follow up question to be a standalone question, in its original language.\n\n Chat History:\n{chat_history}\n Follow Up Input: {question}\n Standalone question:""" standalone_question_prompt = PromptTemplate( input_variables=['chat_history', 'question'], template=standalone_question_template ) def answer_template(language="english"): """Pass the standalone question along with the chat history and context to the `LLM` wihch will answer""" template = f"""Answer the question at the end, using only the following context (delimited by ). Your answer must be in the language at the end. {{chat_history}} {{context}} Question: {{question}} Language: {language}. """ return template answer_prompt = ChatPromptTemplate.from_template(answer_template()) # invoke the ChatPromptTemplate answer_prompt.invoke( {"question":"plaese give more details about DTC, including its use cases and implementation.", "context":[Document(page_content="DTC use cases include...")], # the context is a list of retrieved documents. "chat_history":memory.chat_memory} ) """ # Instantiate the retriever and the ConversationalRetrievalChain : retriever_Google = retrieval_blocks( create_vectorstore=False, LLM_service="Google", vectorstore_name="Vit_All_Google_Embeddings", retriever_type="Cohere_reranker", base_retriever_search_type="similarity", base_retriever_k=12, compression_retriever_k=16, cohere_api_key=cohere_api_key,cohere_top_n=10, ) chain_gemini,memory_gemini = custom_ConversationalRetrievalChain( llm = instantiate_LLM( LLM_provider="Google",api_key=google_api_key,temperature=0.5,model_name="gemini-pro" ), condense_question_llm = instantiate_LLM( LLM_provider="Google",api_key=google_api_key,temperature=0.1,model_name="gemini-pro"), retriever=retriever_Google, language="english", llm_provider="Google", model_name="gemini-pro" ) memory_gemini.clear() """ chain = ConversationalRetrievalChain.from_llm( condense_question_prompt=standalone_question_prompt, combine_docs_chain_kwargs={'prompt': answer_prompt}, condense_question_llm=instantiate_LLM( LLM_provider="Google",api_key=google_api_key,temperature=0.1, model_name="gemini-pro"), memory=create_memory("gemini-pro"), retriever = base_retriever_google, #base_retriever_HF llm=instantiate_LLM( LLM_provider="Google",api_key=google_api_key,temperature=0.5, model_name="gemini-pro"), chain_type= "stuff", verbose= False, return_source_documents=True ) # let's invoke the chain response = chain.invoke({"question":"what does DTC stand for?"}) response chain.memory.load_memory_variables({}) follow_up_question = "plaese give more details about it, including its use cases and implementation." chain.invoke({"question":follow_up_question})['answer'] """ # 1. load memory using RunnableLambda. Retrieves the chat_history attribute using itemgetter. # `RunnablePassthrough.assign` adds the chat_history to the assign function loaded_memory = RunnablePassthrough.assign( chat_history=RunnableLambda(memory.load_memory_variables) | itemgetter("chat_history"), ) # 2. Pass the follow-up question along with the chat history to the LLM, and parse the answer (standalone_question). condense_question_prompt = PromptTemplate( input_variables=['chat_history', 'question'], template=standalone_question_template ) condense_question_llm = instantiate_LLM( LLM_provider="Google",api_key=google_api_key,temperature=0.1, model_name="gemini-pro" ) standalone_question_chain = { "standalone_question": { "question": lambda x: x["question"], "chat_history": lambda x: get_buffer_string(x["chat_history"]), } | condense_question_prompt | condense_question_llm | StrOutputParser(), } # 3. Combine load_memory and standalone_question_chain chain_question = loaded_memory | standalone_question_chain memory.clear() memory.save_context( {"question": "What does DTC stand for?"}, {"answer": "Diffuse to Choose."} ) """ print("Chat history:\n",memory.load_memory_variables({})) follow_up_question = "plaese give more details about it, including its use cases and implementation." print("\nFollow-up question:\n",follow_up_question) # invoke chain_question response = chain_question.invoke({"question":follow_up_question})["standalone_question"] print("\nStandalone_question:\n",response) def _combine_documents(docs, document_prompt, document_separator="\n\n"): doc_strings = [format_document(doc, document_prompt) for doc in docs] return document_separator.join(doc_strings) # 1. Retrieve relevant documents retrieved_documents = { "docs": itemgetter("standalone_question") | retriever, "question": lambda x: x["standalone_question"], } # 2. Get variables ['chat_history', 'context', 'question'] that will be passed to `answer_prompt` DEFAULT_DOCUMENT_PROMPT = PromptTemplate.from_template(template="{page_content}") answer_prompt = ChatPromptTemplate.from_template(answer_template()) # 3 variables are expected ['chat_history', 'context', 'question'] answer_prompt_variables = { "context": lambda x: _combine_documents(docs=x["docs"],document_prompt=DEFAULT_DOCUMENT_PROMPT), "question": itemgetter("question"), "chat_history": itemgetter("chat_history") # get chat_history from `loaded_memory` variable } llm = instantiate_LLM( LLM_provider="Google",api_key=google_api_key,temperature=0.5, model_name="gemini-pro" ) # 3. Load memory, format `answer_prompt` with variables (context, question and chat_history) and pass the `answer_prompt to LLM. # return answer, docs and standalone_question chain_answer = { "answer": loaded_memory | answer_prompt_variables | answer_prompt | llm, "docs": lambda x: [ Document(page_content=doc.page_content,metadata=doc.metadata) # return only page_content and metadata for doc in x["docs"] ], "standalone_question": lambda x:x["question"] # return standalone_question } conversational_retriever_chain = chain_question | retrieved_documents | chain_answer follow_up_question = "plaese give more details about it, including its use cases and implementation." response = conversational_retriever_chain.invoke({"question":follow_up_question}) gr.Markdown(response['answer'].content) memory.save_context( {"question": follow_up_question}, {"answer": response['answer'].content} ) questions = ["what does DTC stands for?", "plaese give more details about it, including its use cases and implementation.", "does it outperform other diffusion-based models? explain in details.", "what is Langchain?"] # Instantiate the retriever and the ConversationalRetrievalChain : retriever_Google = retrieval_blocks( create_vectorstore=False, LLM_service="Google", vectorstore_name="Vit_All_Google_Embeddings", retriever_type="Cohere_reranker", base_retriever_search_type="similarity", base_retriever_k=12, compression_retriever_k=16, cohere_api_key=cohere_api_key,cohere_top_n=10, ) chain_gemini,memory_gemini = custom_ConversationalRetrievalChain( llm = instantiate_LLM( LLM_provider="Google",api_key=google_api_key,temperature=0.5,model_name="gemini-pro" ), condense_question_llm = instantiate_LLM( LLM_provider="Google",api_key=google_api_key,temperature=0.1,model_name="gemini-pro"), retriever=retriever_Google, language="english", llm_provider="Google", model_name="gemini-pro" ) memory_gemini.clear() for i,question in enumerate(questions): response = chain_gemini.invoke({"question":question}) answer = response['answer'].content print(f"Question[{i}]:",question) print("Standalone_question:",response['standalone_question']) print("Answer:\n",answer,f"\n\n{'-' * 100}\n") memory_gemini.save_context( {"question": question}, {"answer": answer} ) # update memory css = """ #col-container {max-width: 80%; margin-left: auto; margin-right: auto;} #chatbox {min-height: 400px;} #header {text-align: center;} #prompt_template_preview {padding: 1em; border-width: 1px; border-style: solid; border-color: #e0e0e0; border-radius: 4px; min-height: 150px;} #total_tokens_str {text-align: right; font-size: 0.8em; color: #666;} #label {font-size: 0.8em; padding: 0.5em; margin: 0;} .message { font-size: 1.2em; } """ with gr.Blocks(css=css) as demo: state = gr.State(get_empty_state()) with gr.Column(elem_id="col-container"): gr.Markdown("""## Ask questions of *needs assessment* experts, ## get responses from a *needs assessment experts* version of ChatGPT. Ask questions of all of them, or pick your expert below. This is a free resource but it does cost us money to run. Unfortunately someone has been abusing this approach. In response, we have had to temporarily turn it off until we can put improve the monitoring. Sorry for the inconvenience.""" , elem_id="header") with gr.Row(): with gr.Column(): chatbot = gr.Chatbot(elem_id="chatbox") input_message = gr.Textbox(show_label=False, placeholder="Enter your needs assessment question", visible=True).style(container=False) btn_submit = gr.Button("Submit") #total_tokens_str = gr.Markdown(elem_id="total_tokens_str") btn_clear_conversation = gr.Button("Start New Conversation") with gr.Column(): prompt_template = gr.Dropdown(label="Choose an Expert:", choices=list(prompt_templates.keys())) prompt_template_preview = gr.Markdown(elem_id="prompt_template_preview") with gr.Accordion("Advanced parameters", open=False): temperature = gr.Slider(minimum=0, maximum=2.0, value=0.7, step=0.1, label="Flexibility", info="Higher = More AI, Lower = More Expert") max_tokens = gr.Slider(minimum=100, maximum=400, value=200, step=1, label="Length of Response.") context_length = gr.Slider(minimum=1, maximum=5, value=2, step=1, label="Context Length", info="Number of previous questions you have asked.") btn_submit.click(submit_message, [ input_message, prompt_template, temperature, max_tokens, context_length, state], [input_message, chatbot, state]) input_message.submit(submit_message, [ input_message, prompt_template, temperature, max_tokens, context_length, state], [input_message, chatbot, state]) btn_clear_conversation.click(clear_conversation, [], [input_message, chatbot, state]) prompt_template.change(on_prompt_template_change_description, inputs=[prompt_template], outputs=[prompt_template_preview]) demo.load(download_prompt_templates, inputs=None, outputs=[prompt_template], queur=False) demo.queue(concurrency_count=10) demo.launch(height='800px')