app_old.py

import os
import openai
import datetime
import gradio as gr
import json
from jinja2 import Template
import csv
import requests

# Configuration variables
AIRTABLE_API_KEY = os.getenv("AIRTABLE_API_KEY")

# Airtable table names
policies_table_name = 'tbla6PC65qZfqdJhE'
prompts_table_name = 'tblYIZEB8m6JkGDEP'
qalog_table_name = 'tbl4oNgFPWM5xH1XO'
examples_table_name = 'tblu7sraOEmRgEGkp'
users_table_name = 'tblLNe5ZL47SvrAEk'
user_log_table_name = 'tblrlTsRrkl6BqMAJ'

# Define the style and content for the response field
label_text = "NILI Response"
color = "#6562F4"
background_color = "white"
border_radius = "10px"
response_label = f'<h3 style="color: {color}; background-color: {background_color}; border-radius: {border_radius}; padding: 10px;display: inline-block;">{label_text}</h3>'

# Initialize OpenAI
openai.api_key = os.getenv("OPENAI_API_KEY")

base_id = 'appcUK3hUWC7GM2Kb'


HEADERS = {
    "Authorization": f"Bearer {AIRTABLE_API_KEY}",
    "Content-Type": "application/json",
    "Accept": "application/json",
}



def get_policies(school_selection):

    AIRTABLE_ENDPOINT = f'https://api.airtable.com/v0/{base_id}/{policies_table_name}'    
    school = ''
    
    # Parameters for the API request to filter by 'school' field and retrieve 'policy_text'
    params = {
        'filterByFormula': "OR({})".format(','.join(["school='{}'".format(school) for school in school_selection])),
        'fields[]': 'policy_text',  # Replace with the name of your field
    }

    #print(params)

    try:
        # Send a GET request to the Airtable API
        response = requests.get(AIRTABLE_ENDPOINT, headers=HEADERS, params=params)

        # Check if the request was successful (status code 200)
        if response.status_code == 200:
            # Parse the JSON response
            data = response.json()

            # Check if there are records in the response
            if data.get('records'):
                # Initialize an empty string to store concatenated policies
                concatenated_policies = ''
                
                # Extract the 'policy_text' values from each record and concatenate them
                for record in data['records']:
                    policy_text = record['fields']['policy_text']
                    if concatenated_policies:
                        concatenated_policies += "\n----------\n"
                    concatenated_policies += policy_text

            else:
                print("No records found in the 'policies' table for the selected schools.")
        else:
            print(f"Failed to retrieve data. Status code: {response.status_code}")
    except Exception as e:
        print(f"An error occurred: {str(e)}")

    #print(concatenated_policies)   

    return concatenated_policies


def get_schools():

    AIRTABLE_ENDPOINT = f'https://api.airtable.com/v0/{base_id}/{policies_table_name}'    

    # Parameters for the API request to select only the 'school' field
    params = {
        'fields[]': 'school',  # Replace with the name of your field
        'sort[0][field]': 'school',  # Sort by the 'school' field
        'sort[0][direction]': 'asc',  # Sort in ascending order
    }

    try:
        # Send a GET request to the Airtable API
        response = requests.get(AIRTABLE_ENDPOINT, headers=HEADERS, params=params)

        # Check if the request was successful (status code 200)
        if response.status_code == 200:
            # Parse the JSON response
            data = response.json()

            # Check if there are records in the response
            if data.get('records'):
                # Extract the 'school' values from each record
                schools = [record['fields']['school'] for record in data['records']]

               # Print the list of 'school' values
               # print(schools)
            else:
                print("No records found in the 'policies' table.")
        else:
            print(f"Failed to retrieve data. Status code: {response.status_code}")
    except Exception as e:
        print(f"An error occurred: {str(e)}")

    return schools

def get_prompt(header, template_content):

    AIRTABLE_ENDPOINT = f'https://api.airtable.com/v0/{base_id}/{prompts_table_name}'    

    params = {
        'filterByFormula': "prompt_name='NILI_v1'",
    }

    response = requests.get(AIRTABLE_ENDPOINT, headers=HEADERS, params=params)

    # Check for errors
    response.raise_for_status()

    data = response.json()

    
    # Check if there is at least one record matching the condition
    if data.get('records'):
        # Get the first record (there should be only one)
            record = data['records'][0]['fields']
            
            # Assign system_prompt and user_prompt to variables
            header = record.get('system_prompt', '')
            template_content = record.get('user_prompt', '')

    return header, template_content

def get_examples():

    AIRTABLE_ENDPOINT = f'https://api.airtable.com/v0/{base_id}/{examples_table_name}'    

    # Send your request and parse the response
    response = requests.get(AIRTABLE_ENDPOINT, headers=HEADERS)
    data = json.loads(response.text)

    # Check for errors
    response.raise_for_status()

    for record in data['records']:
        nil_question = record['fields']['nil_question']
        ui_examples.append([None, None, None, nil_question])

    #print(ui_examples)
           

def append_to_at_qalog(your_role, school_selection, output_format, input_text, gpt_response,response_time,question_cost,prompt_tokens,completion_tokens):

    AIRTABLE_ENDPOINT = f'https://api.airtable.com/v0/{base_id}/{qalog_table_name}'
    
    # Organize data for Airtable
    new_fields = {
            'your_role': str(your_role),
            'school_selection': str(school_selection),
            'output_format': str(output_format),
            'input_text': str(input_text),
            'gpt_response': str(gpt_response),
            'response_time': str(response_time),
            'question_cost': question_cost,
            'user_name': str(logged_in_user),
            'prompt_tokens': prompt_tokens,
            'completion_tokens': completion_tokens
        }

    data = {
        'fields': new_fields
        }

    try:
    # Post data to Airtable
        response = requests.post(AIRTABLE_ENDPOINT, headers=HEADERS, json=data)
    
        # Check for errors
        response.raise_for_status()

    except requests.exceptions.HTTPError as http_error:
        # Handle the HTTP error (e.g., log it or display an error message)
        print(f"HTTP error occurred: {http_error}")

    except Exception as e:
        # Handle exceptions, log errors, or raise them as needed
        print(f"An error occurred: {str(e)}")

#Chatbot Function
def chatbot(your_role,school_selection,output_format,input_text):

    start_time = datetime.datetime.now()

    # school_selection holds an array of one or more schools
    #print(school_selection)

    # Read the Hydrated policies
  
    policies = get_policies(school_selection)

    template_content = ''
    header = ''

    header, template_content = get_prompt(header, template_content)
       
    # Create a Jinja2 template from the content
    template = Template(template_content)

    # Render the template with the policy JSON
    analysis_input = template.render(policies=policies, question=input_text,format=output_format)
  
    #with open('analysis_input.txt', 'w', encoding='utf-8') as out_file:
        #out_file.write(analysis_input)
  
    response = openai.ChatCompletion.create(
        model="gpt-4",
      # model="gpt-3.5-turbo",
        temperature=0,
        messages=[
            {
                "role": "system",
                "content": header
            },
            {
                "role": "user",
                "content": analysis_input
            }
          ]
        )

    gpt_response = response.choices[0].message["content"]

    tokens_used = response.usage
    question_cost = (tokens_used.get('total_tokens', 0) / 1000) * .03
    prompt_tokens = tokens_used.get('prompt_tokens',)
    completion_tokens = tokens_used.get('completion_tokens', 0)
    end_time = datetime.datetime.now()
    response_time = end_time - start_time

    append_to_at_qalog(your_role, school_selection, output_format, input_text, gpt_response,response_time,question_cost,prompt_tokens,completion_tokens)

    return response_label,gpt_response

def log_login(username):

    AIRTABLE_ENDPOINT = f'https://api.airtable.com/v0/{base_id}/{user_log_table_name}'

    # Organize data for Airtable
    new_fields = {
            'user_name': str(username),
        }

    data = {
        'fields': new_fields
        }

    try:
        # Post data to Airtable
        response = requests.post(AIRTABLE_ENDPOINT, headers=HEADERS, json=data)
    
        # Check for errors
        response.raise_for_status()
        
    except requests.exceptions.HTTPError as http_error:
        # Handle the HTTP error (e.g., log it or display an error message)
        print(f"HTTP error occurred: {http_error}")

    except Exception as e:
        # Handle exceptions, log errors, or raise them as needed
        print(f"An error occurred: {str(e)}")

def login_auth(username, password):

    AIRTABLE_ENDPOINT = f'https://api.airtable.com/v0/{base_id}/{users_table_name}'
    
    # Query the 'users' table to check for a match with the provided username and password
    params = {
        'filterByFormula': f'AND(user_name = "{username}", password = "{password}")'
    }

    response = requests.get(AIRTABLE_ENDPOINT, headers=HEADERS, params=params)

    if response.status_code == 200:
        data = response.json()
        if data.get('records'):

            log_login(username)
            global logged_in_user
            logged_in_user = username
            
            return True
            
        print(f"Invalid user/password combination")
    
    return False

#Gradio UI
CIMStheme = gr.themes.Soft().set(button_primary_background_fill='#6562F4')

# Initialize an empty list to store the examples
ui_examples = []
school_selection = []

schools = get_schools()

get_examples()

with gr.Blocks(CIMStheme) as iface:
    with gr.Row():
        with gr.Column(scale=2):
            gr.Image(label="Logo",value="CIMS Logo Purple.png",width=10,show_download_button=False,interactive=False,show_label=False,elem_id="logo",container=False)
        with gr.Column(scale=2):
            gr.Markdown(value="# NILI - Powered by CIMS.AI")
        with gr.Column(scale=2):
            gr.Markdown("")
    with gr.Row():
        with gr.Column():
            gr.Interface(fn=chatbot,
                     inputs=[
                         gr.components.Dropdown(["Student Athlete","Parent","Athletic Director"],multiselect=False,info="Select a role.",label="User Role", ),
                         gr.components.Dropdown(schools,multiselect=True,info="Select one or more schools. This will help set the context of your question.",label="School Context"),
                         gr.components.Dropdown(["Summary","Detailed Analysis","Table"],multiselect=False,info="Select the desired output format.",label="Output Format"),
                         gr.components.Textbox(lines=5, placeholder="Enter your question here", label="NIL Question")],
                     outputs=[
                         gr.components.Markdown(response_label),
                         gr.components.HTML(label="NILI Response")
                         ],
                     description="Ask any question about Name, Image, Likeness (NIL)",
                     allow_flagging="manual",
                     examples=ui_examples,
                     cache_examples = False,
                     flagging_options=["The response is incorrect","The response is inappropriate","The response doesn't make sense"]
                      )
    with gr.Row():
        with gr.Column():
            gr.HTML('<center><i>CIMS.AI Confidential 2023</i></center>')
            
iface.launch(auth=login_auth, auth_message= "Enter your username and password that you received from CIMS.AI. To request a login, please email 'info@cims.ai'")
#iface.launch(auth=('admin','cims.ai'))