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ollama-eng.py
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ollama-eng.py
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import os
from dotenv import load_dotenv
import json
from tavily import TavilyClient
import re
import ollama
import asyncio
import difflib
import time
import logging
from typing import Optional, Dict, Any
from rich.console import Console
from rich.panel import Panel
from rich.syntax import Syntax
from rich.markdown import Markdown
import asyncio
import aiohttp
from prompt_toolkit import PromptSession
from prompt_toolkit.styles import Style
async def get_user_input(prompt="You: "):
style = Style.from_dict({
'prompt': 'cyan bold',
})
session = PromptSession(style=style)
return await session.prompt_async(prompt, multiline=False)
from rich.progress import Progress, SpinnerColumn, TextColumn, BarColumn
import datetime
# Load environment variables from .env file
load_dotenv()
# Initialize the Ollama client
client = ollama.AsyncClient()
# Initialize the Tavily client
tavily_api_key = os.getenv("TAVILY_API_KEY")
if not tavily_api_key:
raise ValueError("TAVILY_API_KEY not found in environment variables")
tavily = TavilyClient(api_key=tavily_api_key)
console = Console()
# Set up the conversation memory (maintains context for MAINMODEL)
conversation_history = []
# Store file contents (part of the context for MAINMODEL)
file_contents = {}
# Code editor memory (maintains some context for CODEEDITORMODEL between calls)
code_editor_memory = []
# Files already present in code editor's context
code_editor_files = set()
# automode flag
automode = False
# Store file contents
file_contents = {}
# Global dictionary to store running processes
running_processes = {}
# Constants
CONTINUATION_EXIT_PHRASE = "AUTOMODE_COMPLETE"
MAX_CONTINUATION_ITERATIONS = 25
MAX_CONTEXT_TOKENS = 200000 # Reduced to 200k tokens for context window
# Models
# Models that maintain context memory across interactions
MAINMODEL = "mistral-nemo" # Maintains conversation history and file contents
# Models that don't maintain context (memory is reset after each call)
TOOLCHECKERMODEL = "mistral-nemo"
CODEEDITORMODEL = "mistral-nemo"
# System prompts
BASE_SYSTEM_PROMPT = """
You are Ollama Engineer, an AI assistant powered Ollama models, specialized in software development with access to a variety of tools and the ability to instruct and direct a coding agent and a code execution one. Your capabilities include:
1. Creating and managing project structures
2. Writing, debugging, and improving code across multiple languages
3. Providing architectural insights and applying design patterns
4. Staying current with the latest technologies and best practices
5. Analyzing and manipulating files within the project directory
6. Performing web searches for up-to-date information
7. Executing code and analyzing its output within an isolated 'code_execution_env' virtual environment
8. Managing and stopping running processes started within the 'code_execution_env'
Available tools and their optimal use cases:
1. create_folder: Create new directories in the project structure.
2. create_file: Generate new files with specified content. Strive to make the file as complete and useful as possible.
3. edit_and_apply: Examine and modify existing files by instructing a separate AI coding agent. You are responsible for providing clear, detailed instructions to this agent. When using this tool:
- Provide comprehensive context about the project, including recent changes, new variables or functions, and how files are interconnected.
- Clearly state the specific changes or improvements needed, explaining the reasoning behind each modification.
- Include ALL the snippets of code to change, along with the desired modifications.
- Specify coding standards, naming conventions, or architectural patterns to be followed.
- Anticipate potential issues or conflicts that might arise from the changes and provide guidance on how to handle them.
4. execute_code: Run Python code exclusively in the 'code_execution_env' virtual environment and analyze its output. Use this when you need to test code functionality or diagnose issues. Remember that all code execution happens in this isolated environment. This tool now returns a process ID for long-running processes.
5. stop_process: Stop a running process by its ID. Use this when you need to terminate a long-running process started by the execute_code tool.
6. read_file: Read the contents of an existing file.
7. read_multiple_files: Read the contents of multiple existing files at once. Use this when you need to examine or work with multiple files simultaneously.
8. list_files: List all files and directories in a specified folder.
9. tavily_search: Perform a web search using the Tavily API for up-to-date information.
Tool Usage Guidelines:
- Always use the most appropriate tool for the task at hand.
- Provide detailed and clear instructions when using tools, especially for edit_and_apply.
- After making changes, always review the output to ensure accuracy and alignment with intentions.
- Use execute_code to run and test code within the 'code_execution_env' virtual environment, then analyze the results.
- For long-running processes, use the process ID returned by execute_code to stop them later if needed.
- Proactively use tavily_search when you need up-to-date information or additional context.
- When working with multiple files, consider using read_multiple_files for efficiency.
Error Handling and Recovery:
- If a tool operation fails, carefully analyze the error message and attempt to resolve the issue.
- For file-related errors, double-check file paths and permissions before retrying.
- If a search fails, try rephrasing the query or breaking it into smaller, more specific searches.
- If code execution fails, analyze the error output and suggest potential fixes, considering the isolated nature of the environment.
- If a process fails to stop, consider potential reasons and suggest alternative approaches.
Project Creation and Management:
1. Start by creating a root folder for new projects.
2. Create necessary subdirectories and files within the root folder.
3. Organize the project structure logically, following best practices for the specific project type.
Always strive for accuracy, clarity, and efficiency in your responses and actions. Your instructions must be precise and comprehensive. If uncertain, use the tavily_search tool or admit your limitations. When executing code, always remember that it runs in the isolated 'code_execution_env' virtual environment. Be aware of any long-running processes you start and manage them appropriately, including stopping them when they are no longer needed.
When using tools:
1. Carefully consider if a tool is necessary before using it.
2. Ensure all required parameters are provided and valid.
3. Handle both successful results and errors gracefully.
4. Provide clear explanations of tool usage and results to the user.
Remember, you are an AI assistant, and your primary goal is to help the user accomplish their tasks effectively and efficiently while maintaining the integrity and security of their development environment.
"""
AUTOMODE_SYSTEM_PROMPT = """
You are currently in automode. Follow these guidelines:
1. Goal Setting:
- Set clear, achievable goals based on the user's request.
- Break down complex tasks into smaller, manageable goals.
2. Goal Execution:
- Work through goals systematically, using appropriate tools for each task.
- Utilize file operations, code writing, and web searches as needed.
- Always read a file before editing and review changes after editing.
3. Progress Tracking:
- Provide regular updates on goal completion and overall progress.
- Use the iteration information to pace your work effectively.
4. Tool Usage:
- Leverage all available tools to accomplish your goals efficiently.
- Prefer edit_and_apply for file modifications, applying changes in chunks for large edits.
- Use tavily_search proactively for up-to-date information.
5. Error Handling:
- If a tool operation fails, analyze the error and attempt to resolve the issue.
- For persistent errors, consider alternative approaches to achieve the goal.
6. Automode Completion:
- When all goals are completed, respond with "AUTOMODE_COMPLETE" to exit automode.
- Do not ask for additional tasks or modifications once goals are achieved.
7. Iteration Awareness:
- You have access to this {iteration_info}.
- Use this information to prioritize tasks and manage time effectively.
Remember: Focus on completing the established goals efficiently and effectively. Avoid unnecessary conversations or requests for additional tasks.
"""
def update_system_prompt(current_iteration: Optional[int] = None, max_iterations: Optional[int] = None) -> str:
global file_contents
chain_of_thought_prompt = """
Answer the user's request using relevant tools (if they are available). Before calling a tool, do some analysis within <thinking></thinking> tags. First, think about which of the provided tools is the relevant tool to answer the user's request. Second, go through each of the required parameters of the relevant tool and determine if the user has directly provided or given enough information to infer a value. When deciding if the parameter can be inferred, carefully consider all the context to see if it supports a specific value. If all of the required parameters are present or can be reasonably inferred, close the thinking tag and proceed with the tool call. BUT, if one of the values for a required parameter is missing, DO NOT invoke the function (not even with fillers for the missing params) and instead, ask the user to provide the missing parameters. DO NOT ask for more information on optional parameters if it is not provided.
Do not reflect on the quality of the returned search results in your response.
"""
file_contents_prompt = "\n\nFile Contents:\n"
for path, content in file_contents.items():
file_contents_prompt += f"\n--- {path} ---\n{content}\n"
if automode:
iteration_info = ""
if current_iteration is not None and max_iterations is not None:
iteration_info = f"You are currently on iteration {current_iteration} out of {max_iterations} in automode."
return BASE_SYSTEM_PROMPT + file_contents_prompt + "\n\n" + AUTOMODE_SYSTEM_PROMPT.format(iteration_info=iteration_info) + "\n\n" + chain_of_thought_prompt
else:
return BASE_SYSTEM_PROMPT + file_contents_prompt + "\n\n" + chain_of_thought_prompt
def create_folder(path):
try:
os.makedirs(path, exist_ok=True)
return f"Folder created: {path}"
except Exception as e:
return f"Error creating folder: {str(e)}"
def create_file(path, content=""):
global file_contents
try:
with open(path, 'w') as f:
f.write(content)
file_contents[path] = content
return f"File created and added to system prompt: {path}"
except Exception as e:
return f"Error creating file: {str(e)}"
def highlight_diff(diff_text):
return Syntax(diff_text, "diff", theme="monokai", line_numbers=True)
def generate_and_apply_diff(original_content, new_content, path):
diff = list(difflib.unified_diff(
original_content.splitlines(keepends=True),
new_content.splitlines(keepends=True),
fromfile=f"a/{path}",
tofile=f"b/{path}",
n=3
))
if not diff:
return "No changes detected."
try:
with open(path, 'w') as f:
f.writelines(new_content)
diff_text = ''.join(diff)
highlighted_diff = highlight_diff(diff_text)
diff_panel = Panel(
highlighted_diff,
title=f"Changes in {path}",
expand=False,
border_style="cyan"
)
console.print(diff_panel)
added_lines = sum(1 for line in diff if line.startswith('+') and not line.startswith('+++'))
removed_lines = sum(1 for line in diff if line.startswith('-') and not line.startswith('---'))
summary = f"Changes applied to {path}:\n"
summary += f" Lines added: {added_lines}\n"
summary += f" Lines removed: {removed_lines}\n"
return summary
except Exception as e:
error_panel = Panel(
f"Error: {str(e)}",
title="Error Applying Changes",
style="bold red"
)
console.print(error_panel)
return f"Error applying changes: {str(e)}"
async def generate_edit_instructions(file_path, file_content, instructions, project_context, full_file_contents):
global code_editor_tokens, code_editor_memory, code_editor_files
try:
# Prepare memory context (this is the only part that maintains some context between calls)
memory_context = "\n".join([f"Memory {i+1}:\n{mem}" for i, mem in enumerate(code_editor_memory)])
# Prepare full file contents context, excluding the file being edited if it's already in code_editor_files
full_file_contents_context = "\n\n".join([
f"--- {path} ---\n{content}" for path, content in full_file_contents.items()
if path != file_path or path not in code_editor_files
])
system_prompt = f"""
You are an AI coding agent that generates edit instructions for code files. Your task is to analyze the provided code and generate SEARCH/REPLACE blocks for necessary changes. Follow these steps:
1. Review the entire file content to understand the context:
{file_content}
2. Carefully analyze the specific instructions:
{instructions}
3. Take into account the overall project context:
{project_context}
4. Consider the memory of previous edits:
{memory_context}
5. Consider the full context of all files in the project:
{full_file_contents_context}
6. Generate SEARCH/REPLACE blocks for each necessary change. Each block should:
- Include enough context to uniquely identify the code to be changed
- Provide the exact replacement code, maintaining correct indentation and formatting
- Focus on specific, targeted changes rather than large, sweeping modifications
7. Ensure that your SEARCH/REPLACE blocks:
- Address all relevant aspects of the instructions
- Maintain or enhance code readability and efficiency
- Consider the overall structure and purpose of the code
- Follow best practices and coding standards for the language
- Maintain consistency with the project context and previous edits
- Take into account the full context of all files in the project
IMPORTANT: RETURN ONLY THE SEARCH/REPLACE BLOCKS. NO EXPLANATIONS OR COMMENTS.
USE THE FOLLOWING FORMAT FOR EACH BLOCK:
<SEARCH>
Code to be replaced
</SEARCH>
<REPLACE>
New code to insert
</REPLACE>
If no changes are needed, return an empty list.
"""
# Make the API call to CODEEDITORMODEL (context is not maintained except for code_editor_memory)
response = client.messages.create(
model=CODEEDITORMODEL,
max_tokens=8000,
system=system_prompt,
extra_headers={"anthropic-beta": "max-tokens-3-5-sonnet-2024-07-15"},
messages=[
{"role": "user", "content": "Generate SEARCH/REPLACE blocks for the necessary changes."}
]
)
# Update token usage for code editor
code_editor_tokens['input'] += response.usage.input_tokens
code_editor_tokens['output'] += response.usage.output_tokens
# Parse the response to extract SEARCH/REPLACE blocks
edit_instructions = parse_search_replace_blocks(response.content[0].text)
# Update code editor memory (this is the only part that maintains some context between calls)
code_editor_memory.append(f"Edit Instructions for {file_path}:\n{response.content[0].text}")
# Add the file to code_editor_files set
code_editor_files.add(file_path)
return edit_instructions
except Exception as e:
console.print(f"Error in generating edit instructions: {str(e)}", style="bold red")
return [] # Return empty list if any exception occurs
def parse_search_replace_blocks(response_text):
blocks = []
pattern = r'<SEARCH>\n(.*?)\n</SEARCH>\n<REPLACE>\n(.*?)\n</REPLACE>'
matches = re.findall(pattern, response_text, re.DOTALL)
for search, replace in matches:
blocks.append({
'search': search.strip(),
'replace': replace.strip()
})
return json.dumps(blocks) # Keep returning JSON string
async def edit_and_apply(path, instructions, project_context, is_automode=False, max_retries=3):
global file_contents
try:
original_content = file_contents.get(path, "")
if not original_content:
with open(path, 'r') as file:
original_content = file.read()
file_contents[path] = original_content
for attempt in range(max_retries):
edit_instructions_json = await generate_edit_instructions(path, original_content, instructions, project_context, file_contents)
if edit_instructions_json:
edit_instructions = json.loads(edit_instructions_json) # Parse JSON here
console.print(Panel(f"Attempt {attempt + 1}/{max_retries}: The following SEARCH/REPLACE blocks have been generated:", title="Edit Instructions", style="cyan"))
for i, block in enumerate(edit_instructions, 1):
console.print(f"Block {i}:")
console.print(Panel(f"SEARCH:\n{block['search']}\n\nREPLACE:\n{block['replace']}", expand=False))
edited_content, changes_made, failed_edits = await apply_edits(path, edit_instructions, original_content)
if changes_made:
file_contents[path] = edited_content # Update the file_contents with the new content
console.print(Panel(f"File contents updated in system prompt: {path}", style="green"))
if failed_edits:
console.print(Panel(f"Some edits could not be applied. Retrying...", style="yellow"))
instructions += f"\n\nPlease retry the following edits that could not be applied:\n{failed_edits}"
original_content = edited_content
continue
return f"Changes applied to {path}"
elif attempt == max_retries - 1:
return f"No changes could be applied to {path} after {max_retries} attempts. Please review the edit instructions and try again."
else:
console.print(Panel(f"No changes could be applied in attempt {attempt + 1}. Retrying...", style="yellow"))
else:
return f"No changes suggested for {path}"
return f"Failed to apply changes to {path} after {max_retries} attempts."
except Exception as e:
return f"Error editing/applying to file: {str(e)}"
async def apply_edits(file_path, edit_instructions, original_content):
changes_made = False
edited_content = original_content
total_edits = len(edit_instructions)
failed_edits = []
with Progress(
SpinnerColumn(),
TextColumn("[progress.description]{task.description}"),
BarColumn(),
TextColumn("[progress.percentage]{task.percentage:>3.0f}%"),
console=console
) as progress:
edit_task = progress.add_task("[cyan]Applying edits...", total=total_edits)
for i, edit in enumerate(edit_instructions, 1):
search_content = edit['search'].strip()
replace_content = edit['replace'].strip()
# Use regex to find the content, ignoring leading/trailing whitespace
pattern = re.compile(re.escape(search_content), re.DOTALL)
match = pattern.search(edited_content)
if match:
# Replace the content, preserving the original whitespace
start, end = match.span()
# Strip <SEARCH> and <REPLACE> tags from replace_content
replace_content_cleaned = re.sub(r'</?SEARCH>|</?REPLACE>', '', replace_content)
edited_content = edited_content[:start] + replace_content_cleaned + edited_content[end:]
changes_made = True
# Display the diff for this edit
diff_result = generate_diff(search_content, replace_content, file_path)
console.print(Panel(diff_result, title=f"Changes in {file_path} ({i}/{total_edits})", style="cyan"))
else:
console.print(Panel(f"Edit {i}/{total_edits} not applied: content not found", style="yellow"))
failed_edits.append(f"Edit {i}: {search_content}")
progress.update(edit_task, advance=1)
if not changes_made:
console.print(Panel("No changes were applied. The file content already matches the desired state.", style="green"))
else:
# Write the changes to the file
with open(file_path, 'w') as file:
file.write(edited_content)
console.print(Panel(f"Changes have been written to {file_path}", style="green"))
return edited_content, changes_made, "\n".join(failed_edits)
def generate_diff(original, new, path):
diff = list(difflib.unified_diff(
original.splitlines(keepends=True),
new.splitlines(keepends=True),
fromfile=f"a/{path}",
tofile=f"b/{path}",
n=3
))
diff_text = ''.join(diff)
highlighted_diff = highlight_diff(diff_text)
return highlighted_diff
def read_file(path):
global file_contents
try:
with open(path, 'r') as f:
content = f.read()
file_contents[path] = content
return f"File '{path}' has been read and stored in the system prompt."
except Exception as e:
return f"Error reading file: {str(e)}"
def read_multiple_files(paths):
global file_contents
results = []
for path in paths:
try:
with open(path, 'r') as f:
content = f.read()
file_contents[path] = content
results.append(f"File '{path}' has been read and stored in the system prompt.")
except Exception as e:
results.append(f"Error reading file '{path}': {str(e)}")
return "\n".join(results)
def list_files(path="."):
try:
files = os.listdir(path)
return "\n".join(files)
except Exception as e:
return f"Error listing files: {str(e)}"
def tavily_search(query):
try:
response = tavily.qna_search(query=query, search_depth="advanced")
return response
except Exception as e:
return f"Error performing search: {str(e)}"
tools = [
{
"type": "function",
"function": {
"name": "create_folder",
"description": "Create a new folder at the specified path",
"parameters": {
"type": "object",
"properties": {
"path": {
"type": "string",
"description": "The absolute or relative path where the folder should be created"
}
},
"required": ["path"]
}
}
},
{
"type": "function",
"function": {
"name": "create_file",
"description": "Create a new file at the specified path with the given content",
"parameters": {
"type": "object",
"properties": {
"path": {
"type": "string",
"description": "The absolute or relative path where the file should be created"
},
"content": {
"type": "string",
"description": "The content of the file"
}
},
"required": ["path", "content"]
}
}
},
{
"type": "function",
"function": {
"name": "edit_and_apply",
"description": "Apply AI-powered improvements to a file based on specific instructions and project context",
"parameters": {
"type": "object",
"properties": {
"path": {
"type": "string",
"description": "The absolute or relative path of the file to edit"
},
"instructions": {
"type": "string",
"description": "Detailed instructions for the changes to be made"
},
"project_context": {
"type": "string",
"description": "Comprehensive context about the project"
}
},
"required": ["path", "instructions", "project_context"]
}
}
},
{
"type": "function",
"function": {
"name": "read_file",
"description": "Read the contents of a file at the specified path",
"parameters": {
"type": "object",
"properties": {
"path": {
"type": "string",
"description": "The absolute or relative path of the file to read"
}
},
"required": ["path"]
}
}
},
{
"type": "function",
"function": {
"name": "read_multiple_files",
"description": "Read the contents of multiple files at the specified paths",
"parameters": {
"type": "object",
"properties": {
"paths": {
"type": "array",
"items": {
"type": "string"
},
"description": "An array of absolute or relative paths of the files to read"
}
},
"required": ["paths"]
}
}
},
{
"type": "function",
"function": {
"name": "list_files",
"description": "List all files and directories in the specified folder",
"parameters": {
"type": "object",
"properties": {
"path": {
"type": "string",
"description": "The absolute or relative path of the folder to list"
}
}
}
}
},
{
"type": "function",
"function": {
"name": "tavily_search",
"description": "Perform a web search using the Tavily API",
"parameters": {
"type": "object",
"properties": {
"query": {
"type": "string",
"description": "The search query"
}
},
"required": ["query"]
}
}
}
]
from typing import Dict, Any
async def execute_tool(tool_call: Dict[str, Any]) -> Dict[str, Any]:
try:
function_call = tool_call['function']
tool_name = function_call['name']
tool_arguments = function_call['arguments']
# Check if tool_arguments is a string and parse it if necessary
if isinstance(tool_arguments, str):
try:
tool_input = json.loads(tool_arguments)
except json.JSONDecodeError:
return {
"content": f"Error: Failed to parse tool arguments for {tool_name}",
"is_error": True
}
else:
tool_input = tool_arguments
result = None
is_error = False
if tool_name == "create_folder":
if "path" not in tool_input:
raise KeyError("Missing 'path' parameter for create_folder")
result = create_folder(tool_input["path"])
elif tool_name == "create_file":
result = create_file(tool_input["path"], tool_input.get("content", ""))
elif tool_name == "edit_and_apply":
result = await edit_and_apply(
tool_input["path"],
tool_input["instructions"],
tool_input["project_context"],
is_automode=automode
)
elif tool_name == "read_file":
result = read_file(tool_input["path"])
elif tool_name == "read_multiple_files":
result = read_multiple_files(tool_input["paths"])
elif tool_name == "list_files":
result = list_files(tool_input.get("path", "."))
elif tool_name == "tavily_search":
result = tavily_search(tool_input["query"])
else:
is_error = True
result = f"Unknown tool: {tool_name}"
return {
"content": result,
"is_error": is_error
}
except KeyError as e:
error_message = f"Missing required parameter {str(e)} for tool {tool_name}"
logging.error(error_message)
return {
"content": f"Error: {error_message}",
"is_error": True
}
except Exception as e:
error_message = f"Error executing tool {tool_name}: {str(e)}"
logging.error(error_message)
return {
"content": f"Error: {error_message}",
"is_error": True
}
def parse_goals(response):
goals = re.findall(r'Goal \d+: (.+)', response)
return goals
async def execute_goals(goals):
global automode
for i, goal in enumerate(goals, 1):
console.print(Panel(f"Executing Goal {i}: {goal}", title="Goal Execution", style="bold yellow"))
response, _ = await chat_with_ollama(f"Continue working on goal: {goal}")
if CONTINUATION_EXIT_PHRASE in response:
automode = False
console.print(Panel("Exiting automode.", title="Automode", style="bold green"))
break
async def run_goals(response):
goals = parse_goals(response)
await execute_goals(goals)
def save_chat():
# Generate filename
now = datetime.datetime.now()
filename = f"Chat_{now.strftime('%H%M')}.md"
# Format conversation history
formatted_chat = "# Claude-3-Sonnet Engineer Chat Log\n\n"
for message in conversation_history:
if message['role'] == 'user':
formatted_chat += f"## User\n\n{message['content']}\n\n"
elif message['role'] == 'assistant':
if isinstance(message['content'], str):
formatted_chat += f"## Claude\n\n{message['content']}\n\n"
elif isinstance(message['content'], list):
for content in message['content']:
if content['type'] == 'tool_use':
formatted_chat += f"### Tool Use: {content['name']}\n\n```json\n{json.dumps(content['input'], indent=2)}\n```\n\n"
elif content['type'] == 'text':
formatted_chat += f"## Claude\n\n{content['text']}\n\n"
elif message['role'] == 'user' and isinstance(message['content'], list):
for content in message['content']:
if content['type'] == 'tool_result':
formatted_chat += f"### Tool Result\n\n```\n{content['content']}\n```\n\n"
# Save to file
with open(filename, 'w', encoding='utf-8') as f:
f.write(formatted_chat)
return filename
async def chat_with_ollama(user_input, image_path=None, current_iteration=None, max_iterations=None):
global conversation_history, automode, main_model_tokens
# This function uses MAINMODEL, which maintains context across calls
current_conversation = []
current_conversation.append({"role": "user", "content": user_input})
# Filter conversation history to maintain context
filtered_conversation_history = []
for message in conversation_history:
if isinstance(message['content'], list):
filtered_content = [
content for content in message['content']
if content.get('type') != 'tool_result' or (
content.get('type') == 'tool_result' and
not any(keyword in content.get('output', '') for keyword in [
"File contents updated in system prompt",
"File created and added to system prompt",
"has been read and stored in the system prompt"
])
)
]
if filtered_content:
filtered_conversation_history.append({**message, 'content': filtered_content})
else:
filtered_conversation_history.append(message)
# Combine filtered history with current conversation to maintain context
messages = filtered_conversation_history + current_conversation
try:
# MAINMODEL call, which maintains context
# Prepend the system message to the messages list
system_message = {"role": "system", "content": update_system_prompt(current_iteration, max_iterations)}
messages_with_system = [system_message] + messages
response = await client.chat(
model=MAINMODEL,
messages=messages_with_system,
tools=tools,
stream=False
)
# Check if the response is a dictionary
if isinstance(response, dict):
if 'error' in response:
console.print(Panel(f"Error: {response['error']}", title="API Error", style="bold red"))
return f"I'm sorry, but there was an error with the model response: {response['error']}", False
elif 'message' in response:
assistant_message = response['message']
assistant_response = assistant_message.get('content', '')
exit_continuation = CONTINUATION_EXIT_PHRASE in assistant_response
tool_calls = assistant_message.get('tool_calls', [])
else:
# Handle unexpected dictionary response
console.print(Panel("Unexpected response format", title="API Error", style="bold red"))
return "I'm sorry, but there was an unexpected error in the model response.", False
else:
# Handle unexpected non-dictionary response
console.print(Panel("Unexpected response type", title="API Error", style="bold red"))
return "I'm sorry, but there was an unexpected error in the model response.", False
except Exception as e:
console.print(Panel(f"API Error: {str(e)}", title="API Error", style="bold red"))
return "I'm sorry, there was an error communicating with the AI. Please try again.", False
console.print(Panel(Markdown(assistant_response), title="Ollama's Response", title_align="left", border_style="blue", expand=False))
if tool_calls:
console.print(Panel("Tool calls detected", title="Tool Usage", style="bold yellow"))
console.print(Panel(json.dumps(tool_calls, indent=2), title="Tool Calls", style="cyan"))
# Display files in context
if file_contents:
files_in_context = "\n".join(file_contents.keys())
else:
files_in_context = "No files in context. Read, create, or edit files to add."
console.print(Panel(files_in_context, title="Files in Context", title_align="left", border_style="white", expand=False))
for tool_call in tool_calls:
tool_name = tool_call['function']['name']
tool_arguments = tool_call['function']['arguments']
# Check if tool_arguments is a string and parse it if necessary
if isinstance(tool_arguments, str):
try:
tool_input = json.loads(tool_arguments)
except json.JSONDecodeError:
tool_input = {"error": "Failed to parse tool arguments"}
else:
tool_input = tool_arguments
console.print(Panel(f"Tool Used: {tool_name}", style="green"))
console.print(Panel(f"Tool Input: {json.dumps(tool_input, indent=2)}", style="green"))
tool_result = await execute_tool(tool_call)
if tool_result["is_error"]:
console.print(Panel(tool_result["content"], title="Tool Execution Error", style="bold red"))
else:
console.print(Panel(tool_result["content"], title_align="left", title="Tool Result", style="green"))
current_conversation.append({
"role": "assistant",
"content": None,
"tool_calls": [tool_call]
})
current_conversation.append({
"role": "tool",
"content": tool_result["content"],
"tool_call_id": tool_call.get('id', 'unknown_id') # Use 'unknown_id' if 'id' is not present
})
# Update the file_contents dictionary if applicable
if tool_name in ['create_file', 'edit_and_apply', 'read_file'] and not tool_result["is_error"]:
if 'path' in tool_input:
file_path = tool_input['path']
if "File contents updated in system prompt" in tool_result["content"] or \
"File created and added to system prompt" in tool_result["content"] or \
"has been read and stored in the system prompt" in tool_result["content"]:
# The file_contents dictionary is already updated in the tool function
pass
messages = filtered_conversation_history + current_conversation
try:
# Prepend the system message to the messages list
system_message = {"role": "system", "content": update_system_prompt(current_iteration, max_iterations)}
messages_with_system = [system_message] + messages
tool_response = await client.chat(
model=TOOLCHECKERMODEL,
messages=messages_with_system,
tools=tools,
stream=False
)
if isinstance(tool_response, dict) and 'message' in tool_response:
tool_checker_response = tool_response['message'].get('content', '')
console.print(Panel(Markdown(tool_checker_response), title="Ollama's Response to Tool Result", title_align="left", border_style="blue", expand=False))
assistant_response += "\n\n" + tool_checker_response
else:
error_message = "Unexpected tool response format"
console.print(Panel(error_message, title="Error", style="bold red"))
assistant_response += f"\n\n{error_message}"
except Exception as e:
error_message = f"Error in tool response: {str(e)}"
console.print(Panel(error_message, title="Error", style="bold red"))
assistant_response += f"\n\n{error_message}"
if assistant_response:
current_conversation.append({"role": "assistant", "content": assistant_response})
conversation_history = messages + [{"role": "assistant", "content": assistant_response}]
return assistant_response, exit_continuation
def reset_code_editor_memory():
global code_editor_memory
code_editor_memory = []
console.print(Panel("Code editor memory has been reset.", title="Reset", style="bold green"))
def reset_conversation():
global conversation_history, file_contents, code_editor_files
conversation_history = []
file_contents = {}
code_editor_files = set()
reset_code_editor_memory()
console.print(Panel("Conversation history, file contents, code editor memory, and code editor files have been reset.", title="Reset", style="bold green"))
async def main():
global automode, conversation_history
console.print(Panel("Welcome to the Ollama Llama 3.1 Engineer Chat with Multi-Agent and Image Support!", title="Welcome", style="bold green"))
console.print("Type 'exit' to end the conversation.")
console.print("Type 'automode [number]' to enter Autonomous mode with a specific number of iterations.")
console.print("Type 'reset' to clear the conversation history.")
console.print("Type 'save chat' to save the conversation to a Markdown file.")
console.print("While in automode, press Ctrl+C at any time to exit the automode to return to regular chat.")
while True:
user_input = await get_user_input()
if user_input.lower() == 'exit':
console.print(Panel("Thank you for chatting. Goodbye!", title_align="left", title="Goodbye", style="bold green"))
break
if user_input.lower() == 'reset':
reset_conversation()
continue
if user_input.lower() == 'save chat':
filename = save_chat()
console.print(Panel(f"Chat saved to {filename}", title="Chat Saved", style="bold green"))
continue
if user_input.lower().startswith('automode'):
try:
parts = user_input.split()
if len(parts) > 1 and parts[1].isdigit():
max_iterations = int(parts[1])
else:
max_iterations = MAX_CONTINUATION_ITERATIONS
automode = True
console.print(Panel(f"Entering automode with {max_iterations} iterations. Please provide the goal of the automode.", title_align="left", title="Automode", style="bold yellow"))
console.print(Panel("Press Ctrl+C at any time to exit the automode loop.", style="bold yellow"))
user_input = await get_user_input()
iteration_count = 0
try:
while automode and iteration_count < max_iterations:
response, exit_continuation = await chat_with_ollama(user_input, current_iteration=iteration_count+1, max_iterations=max_iterations)
if exit_continuation or CONTINUATION_EXIT_PHRASE in response:
console.print(Panel("Automode completed.", title_align="left", title="Automode", style="green"))
automode = False
else:
console.print(Panel(f"Continuation iteration {iteration_count + 1} completed. Press Ctrl+C to exit automode. ", title_align="left", title="Automode", style="yellow"))
user_input = "Continue with the next step. Or STOP by saying 'AUTOMODE_COMPLETE' if you think you've achieved the results established in the original request."
iteration_count += 1
if iteration_count >= max_iterations:
console.print(Panel("Max iterations reached. Exiting automode.", title_align="left", title="Automode", style="bold red"))
automode = False
except KeyboardInterrupt:
console.print(Panel("\nAutomode interrupted by user. Exiting automode.", title_align="left", title="Automode", style="bold red"))
automode = False
if conversation_history and conversation_history[-1]["role"] == "user":