import requests import os from openai import OpenAI import asyncio import pyperclip import sys import platform from dotenv import load_dotenv import zipfile import tempfile import shutil current_directory = os.path.dirname(os.path.realpath(__file__)) config_directory = os.path.expanduser("~/.config/fabric") env_file = os.path.join(config_directory, ".env") class Standalone: def __init__(self, args, pattern="", env_file="~/.config/fabric/.env", local=False, claude=False): """ Initialize the class with the provided arguments and environment file. Args: args: The arguments for initialization. pattern: The pattern to be used (default is an empty string). env_file: The path to the environment file (default is "~/.config/fabric/.env"). Returns: None Raises: KeyError: If the "OPENAI_API_KEY" is not found in the environment variables. FileNotFoundError: If no API key is found in the environment variables. """ # Expand the tilde to the full path env_file = os.path.expanduser(env_file) load_dotenv(env_file) try: apikey = os.environ["OPENAI_API_KEY"] self.client = OpenAI() self.client.api_key = apikey except KeyError: print("OPENAI_API_KEY not found in environment variables.") except FileNotFoundError: print("No API key found. Use the --apikey option to set the key") sys.exit() self.local = local self.config_pattern_directory = config_directory self.pattern = pattern self.args = args self.model = args.model self.claude = claude try: self.model = os.environ["DEFAULT_MODEL"] except: if self.local: if self.args.model == 'gpt-4-turbo-preview': self.model = 'llama2' if self.claude: if self.args.model == 'gpt-4-turbo-preview': self.model = 'claude-3-opus-20240229' async def localChat(self, messages): from ollama import AsyncClient response = await AsyncClient().chat(model=self.model, messages=messages) print(response['message']['content']) async def localStream(self, messages): from ollama import AsyncClient async for part in await AsyncClient().chat(model=self.model, messages=messages, stream=True): print(part['message']['content'], end='', flush=True) async def claudeStream(self, system, user): from anthropic import AsyncAnthropic self.claudeApiKey = os.environ["CLAUDE_API_KEY"] Streamingclient = AsyncAnthropic(api_key=self.claudeApiKey) async with Streamingclient.messages.stream( max_tokens=4096, system=system, messages=[user], model=self.model, temperature=0.0, top_p=1.0 ) as stream: async for text in stream.text_stream: print(text, end="", flush=True) print() message = await stream.get_final_message() async def claudeChat(self, system, user): from anthropic import Anthropic self.claudeApiKey = os.environ["CLAUDE_API_KEY"] client = Anthropic(api_key=self.claudeApiKey) message = client.messages.create( max_tokens=4096, system=system, messages=[user], model=self.model, temperature=0.0, top_p=1.0 ) print(message.content[0].text) def streamMessage(self, input_data: str, context=""): """ Stream a message and handle exceptions. Args: input_data (str): The input data for the message. Returns: None: If the pattern is not found. Raises: FileNotFoundError: If the pattern file is not found. """ wisdomFilePath = os.path.join( config_directory, f"patterns/{self.pattern}/system.md" ) user_message = {"role": "user", "content": f"{input_data}"} wisdom_File = os.path.join(current_directory, wisdomFilePath) system = "" buffer = "" if self.pattern: try: with open(wisdom_File, "r") as f: if context: system = context + '\n\n' + f.read() else: system = f.read() system_message = {"role": "system", "content": system} messages = [system_message, user_message] except FileNotFoundError: print("pattern not found") return else: if context: messages = [ {"role": "system", "content": context}, user_message] else: messages = [user_message] try: if self.local: asyncio.run(self.localStream(messages)) elif self.claude: from anthropic import AsyncAnthropic asyncio.run(self.claudeStream(system, user_message)) else: stream = self.client.chat.completions.create( model=self.model, messages=messages, temperature=0.0, top_p=1, frequency_penalty=0.1, presence_penalty=0.1, stream=True, ) for chunk in stream: if chunk.choices[0].delta.content is not None: char = chunk.choices[0].delta.content buffer += char if char not in ["\n", " "]: print(char, end="") elif char == " ": print(" ", end="") # Explicitly handle spaces elif char == "\n": print() # Handle newlines sys.stdout.flush() except Exception as e: if "All connection attempts failed" in str(e): print( "Error: cannot connect to llama2. If you have not already, please visit https://ollama.com for installation instructions") if "CLAUDE_API_KEY" in str(e): print( "Error: CLAUDE_API_KEY not found in environment variables. Please run --setup and add the key") if "overloaded_error" in str(e): print( "Error: Fabric is working fine, but claude is overloaded. Please try again later.") else: print(f"Error: {e}") print(e) if self.args.copy: pyperclip.copy(buffer) if self.args.output: with open(self.args.output, "w") as f: f.write(buffer) def sendMessage(self, input_data: str, context=""): """ Send a message using the input data and generate a response. Args: input_data (str): The input data to be sent as a message. Returns: None Raises: FileNotFoundError: If the specified pattern file is not found. """ wisdomFilePath = os.path.join( config_directory, f"patterns/{self.pattern}/system.md" ) user_message = {"role": "user", "content": f"{input_data}"} wisdom_File = os.path.join(current_directory, wisdomFilePath) system = "" if self.pattern: try: with open(wisdom_File, "r") as f: if context: system = context + '\n\n' + f.read() else: system = f.read() system_message = {"role": "system", "content": system} messages = [system_message, user_message] except FileNotFoundError: print("pattern not found") return else: if context: messages = [ {'role': 'system', 'content': context}, user_message] else: messages = [user_message] try: if self.local: asyncio.run(self.localChat(messages)) elif self.claude: asyncio.run(self.claudeChat(system, user_message)) else: response = self.client.chat.completions.create( model=self.model, messages=messages, temperature=0.0, top_p=1, frequency_penalty=0.1, presence_penalty=0.1, ) print(response.choices[0].message.content) except Exception as e: if "All connection attempts failed" in str(e): print( "Error: cannot connect to llama2. If you have not already, please visit https://ollama.com for installation instructions") if "CLAUDE_API_KEY" in str(e): print( "Error: CLAUDE_API_KEY not found in environment variables. Please run --setup and add the key") if "overloaded_error" in str(e): print( "Error: Fabric is working fine, but claude is overloaded. Please try again later.") if "Attempted to call a sync iterator on an async stream" in str(e): print("Error: There is a problem connecting fabric with your local ollama installation. Please visit https://ollama.com for installation instructions. It is possible that you have chosen the wrong model. Please run fabric --listmodels to see the available models and choose the right one with fabric --model or fabric --changeDefaultModel. If this does not work. Restart your computer (always a good idea) and try again. If you are still having problems, please visit https://ollama.com for installation instructions.") else: print(f"Error: {e}") print(e) if self.args.copy: pyperclip.copy(response.choices[0].message.content) if self.args.output: with open(self.args.output, "w") as f: f.write(response.choices[0].message.content) def fetch_available_models(self): headers = { "Authorization": f"Bearer {self.client.api_key}" } response = requests.get( "https://api.openai.com/v1/models", headers=headers) if response.status_code == 200: print("OpenAI GPT models:\n") models = response.json().get("data", []) # Filter only gpt models gpt_models = [model for model in models if model.get( "id", "").startswith(("gpt"))] # Sort the models alphabetically by their ID sorted_gpt_models = sorted(gpt_models, key=lambda x: x.get("id")) for model in sorted_gpt_models: print(model.get("id")) print("\nLocal Ollama models:") import ollama ollamaList = ollama.list()['models'] for model in ollamaList: print(model['name'].rstrip(":latest")) print("\nClaude models:") print("claude-3-opus-20240229") else: print(f"Failed to fetch models: HTTP {response.status_code}") def get_cli_input(self): """ aided by ChatGPT; uses platform library accepts either piped input or console input from either Windows or Linux Args: none Returns: string from either user or pipe """ system = platform.system() if system == 'Windows': if not sys.stdin.isatty(): # Check if input is being piped return sys.stdin.read().strip() # Read piped input else: # Prompt user for input from console return input("Enter Question: ") else: return sys.stdin.read() class Update: def __init__(self): """Initialize the object with default values.""" self.repo_zip_url = "https://github.com/danielmiessler/fabric/archive/refs/heads/main.zip" self.config_directory = os.path.expanduser("~/.config/fabric") self.pattern_directory = os.path.join( self.config_directory, "patterns") os.makedirs(self.pattern_directory, exist_ok=True) print("Updating patterns...") self.update_patterns() # Start the update process immediately def update_patterns(self): """Update the patterns by downloading the zip from GitHub and extracting it.""" with tempfile.TemporaryDirectory() as temp_dir: zip_path = os.path.join(temp_dir, "repo.zip") self.download_zip(self.repo_zip_url, zip_path) extracted_folder_path = self.extract_zip(zip_path, temp_dir) # The patterns folder will be inside "fabric-main" after extraction patterns_source_path = os.path.join( extracted_folder_path, "fabric-main", "patterns") if os.path.exists(patterns_source_path): # If the patterns directory already exists, remove it before copying over the new one if os.path.exists(self.pattern_directory): shutil.rmtree(self.pattern_directory) shutil.copytree(patterns_source_path, self.pattern_directory) print("Patterns updated successfully.") else: print("Patterns folder not found in the downloaded zip.") def download_zip(self, url, save_path): """Download the zip file from the specified URL.""" response = requests.get(url) response.raise_for_status() # Check if the download was successful with open(save_path, 'wb') as f: f.write(response.content) print("Downloaded zip file successfully.") def extract_zip(self, zip_path, extract_to): """Extract the zip file to the specified directory.""" with zipfile.ZipFile(zip_path, 'r') as zip_ref: zip_ref.extractall(extract_to) print("Extracted zip file successfully.") return extract_to # Return the path to the extracted contents class Alias: def __init__(self): self.config_files = [] home_directory = os.path.expanduser("~") self.patterns = os.path.join(home_directory, ".config/fabric/patterns") if os.path.exists(os.path.join(home_directory, ".bashrc")): self.config_files.append(os.path.join(home_directory, ".bashrc")) if os.path.exists(os.path.join(home_directory, ".zshrc")): self.config_files.append(os.path.join(home_directory, ".zshrc")) if os.path.exists(os.path.join(home_directory, ".bash_profile")): self.config_files.append(os.path.join( home_directory, ".bash_profile")) self.remove_all_patterns() self.add_patterns() print('Aliases added successfully. Please restart your terminal to use them.') def add(self, name, alias): for file in self.config_files: with open(file, "a") as f: f.write(f"alias {name}='{alias}'\n") def remove(self, pattern): for file in self.config_files: # Read the whole file first with open(file, "r") as f: wholeFile = f.read() # Determine if the line to be removed is in the file target_line = f"alias {pattern}='fabric --pattern {pattern}'\n" if target_line in wholeFile: # If the line exists, replace it with nothing (remove it) wholeFile = wholeFile.replace(target_line, "") # Write the modified content back to the file with open(file, "w") as f: f.write(wholeFile) def remove_all_patterns(self): allPatterns = os.listdir(self.patterns) for pattern in allPatterns: self.remove(pattern) def find_line(self, name): for file in self.config_files: with open(file, "r") as f: lines = f.readlines() for line in lines: if line.strip("\n") == f"alias ${name}='{alias}'": return line def add_patterns(self): allPatterns = os.listdir(self.patterns) for pattern in allPatterns: self.add(pattern, f"fabric --pattern {pattern}") class Setup: def __init__(self): """ Initialize the object. Raises: OSError: If there is an error in creating the pattern directory. """ self.config_directory = os.path.expanduser("~/.config/fabric") self.pattern_directory = os.path.join( self.config_directory, "patterns") os.makedirs(self.pattern_directory, exist_ok=True) self.env_file = os.path.join(self.config_directory, ".env") def api_key(self, api_key): """ Set the OpenAI API key in the environment file. Args: api_key (str): The API key to be set. Returns: None Raises: OSError: If the environment file does not exist or cannot be accessed. """ api_key = api_key.strip() if not os.path.exists(self.env_file) and api_key: with open(self.env_file, "w") as f: f.write(f"OPENAI_API_KEY={api_key}") print(f"OpenAI API key set to {api_key}") elif api_key: # erase the line OPENAI_API_KEY=key and write the new key with open(self.env_file, "r") as f: lines = f.readlines() with open(self.env_file, "w") as f: for line in lines: if "OPENAI_API_KEY" not in line: f.write(line) f.write(f"OPENAI_API_KEY={api_key}") def claude_key(self, claude_key): """ Set the Claude API key in the environment file. Args: claude_key (str): The API key to be set. Returns: None Raises: OSError: If the environment file does not exist or cannot be accessed. """ claude_key = claude_key.strip() if os.path.exists(self.env_file) and claude_key: with open(self.env_file, "r") as f: lines = f.readlines() with open(self.env_file, "w") as f: for line in lines: if "CLAUDE_API_KEY" not in line: f.write(line) f.write(f"CLAUDE_API_KEY={claude_key}") elif claude_key: with open(self.env_file, "w") as f: f.write(f"CLAUDE_API_KEY={claude_key}") def default_model(self, model): """ Set the default model in the environment file. Args: model (str): The model to be set. """ model = model.strip() if os.path.exists(self.env_file) and model: with open(self.env_file, "r") as f: lines = f.readlines() with open(self.env_file, "w") as f: for line in lines: if "DEFAULT_MODEL" not in line: f.write(line) f.write(f"DEFAULT_MODEL={model}") elif model: with open(self.env_file, "w") as f: f.write(f"DEFAULT_MODEL={model}") else: with open(self.env_file, "r") as f: lines = f.readlines() with open(self.env_file, "w") as f: for line in lines: if "DEFAULT_MODEL" not in line: f.write(line) def patterns(self): """ Method to update patterns and exit the system. Returns: None """ Update() def run(self): """ Execute the Fabric program. This method prompts the user for their OpenAI API key, sets the API key in the Fabric object, and then calls the patterns method. Returns: None """ print("Welcome to Fabric. Let's get started.") apikey = input( "Please enter your OpenAI API key. If you do not have one or if you have already entered it, press enter.\n") self.api_key(apikey.strip()) print("Please enter your claude API key. If you do not have one, or if you have already entered it, press enter.\n") claudekey = input() self.claude_key(claudekey.strip()) print("Please enter your default model. Press enter to choose the default gpt-4-turbo-preview\n") self.patterns() class Transcribe: def youtube(video_id): """ This method gets the transciption of a YouTube video designated with the video_id Input: the video id specifing a YouTube video an example url for a video: https://www.youtube.com/watch?v=vF-MQmVxnCs&t=306s the video id is vF-MQmVxnCs&t=306s Output: a transcript for the video Raises: an exception and prints error """ try: transcript_list = YouTubeTranscriptApi.get_transcript(video_id) transcript = "" for segment in transcript_list: transcript += segment['text'] + " " return transcript.strip() except Exception as e: print("Error:", e) return None class AgentSetup: def apiKeys(self): """Method to set the API keys in the environment file. Returns: None """ print("Welcome to Fabric. Let's get started.") browserless = input("Please enter your Browserless API key\n") serper = input("Please enter your Serper API key\n") # Entries to be added browserless_entry = f"BROWSERLESS_API_KEY={browserless}" serper_entry = f"SERPER_API_KEY={serper}" # Check and write to the file with open(env_file, "r+") as f: content = f.read() # Determine if the file ends with a newline if content.endswith('\n'): # If it ends with a newline, we directly write the new entries f.write(f"{browserless_entry}\n{serper_entry}\n") else: # If it does not end with a newline, add one before the new entries f.write(f"\n{browserless_entry}\n{serper_entry}\n")