llama.cpp/examples/pydantic-models-to-grammar-examples.py
Maximilian Winter 52ee4540c0
examples : add pydantic models to GBNF grammar generator (#4883)
* Create pydantic-models-to-grammar.py

* Added some comments for usage

* Refactored Grammar Generator

Added example and usage instruction.

* Update pydantic_models_to_grammar.py

* Update pydantic-models-to-grammar-examples.py

* Renamed module and imported it.

* Update pydantic-models-to-grammar.py

* Renamed file and fixed grammar generator issue.
2024-01-12 21:46:45 +02:00

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# Function calling example using pydantic models.
import json
from enum import Enum
from typing import Union, Optional
import requests
from pydantic import BaseModel, Field
import importlib
from pydantic_models_to_grammar import generate_gbnf_grammar_and_documentation
# Function to get completion on the llama.cpp server with grammar.
def create_completion(prompt, grammar):
headers = {"Content-Type": "application/json"}
data = {"prompt": prompt, "grammar": grammar}
response = requests.post("http://127.0.0.1:8080/completion", headers=headers, json=data)
data = response.json()
print(data["content"])
return data["content"]
# A function for the agent to send a message to the user.
class SendMessageToUser(BaseModel):
"""
Send a message to the User.
"""
chain_of_thought: str = Field(..., description="Your chain of thought while sending the message.")
message: str = Field(..., description="Message you want to send to the user.")
def run(self):
print(self.message)
# Enum for the calculator function.
class MathOperation(Enum):
ADD = "add"
SUBTRACT = "subtract"
MULTIPLY = "multiply"
DIVIDE = "divide"
# Very simple calculator tool for the agent.
class Calculator(BaseModel):
"""
Perform a math operation on two numbers.
"""
number_one: Union[int, float] = Field(..., description="First number.")
operation: MathOperation = Field(..., description="Math operation to perform.")
number_two: Union[int, float] = Field(..., description="Second number.")
def run(self):
if self.operation == MathOperation.ADD:
return self.number_one + self.number_two
elif self.operation == MathOperation.SUBTRACT:
return self.number_one - self.number_two
elif self.operation == MathOperation.MULTIPLY:
return self.number_one * self.number_two
elif self.operation == MathOperation.DIVIDE:
return self.number_one / self.number_two
else:
raise ValueError("Unknown operation.")
# Here the grammar gets generated by passing the available function models to generate_gbnf_grammar_and_documentation function. This also generates a documentation usable by the LLM.
# pydantic_model_list is the list of pydanitc models
# outer_object_name is an optional name for an outer object around the actual model object. Like a "function" object with "function_parameters" which contains the actual model object. If None, no outer object will be generated
# outer_object_content is the name of outer object content.
# model_prefix is the optional prefix for models in the documentation. (Default="Output Model")
# fields_prefix is the prefix for the model fields in the documentation. (Default="Output Fields")
gbnf_grammar, documentation = generate_gbnf_grammar_and_documentation(
pydantic_model_list=[SendMessageToUser, Calculator], outer_object_name="function",
outer_object_content="function_parameters", model_prefix="Function", fields_prefix="Parameters")
print(gbnf_grammar)
print(documentation)
system_message = "You are an advanced AI, tasked to assist the user by calling functions in JSON format. The following are the available functions and their parameters and types:\n\n" + documentation
user_message = "What is 42 * 42?"
prompt = f"<|im_start|>system\n{system_message}<|im_end|>\n<|im_start|>user\n{user_message}<|im_end|>\n<|im_start|>assistant"
text = create_completion(prompt=prompt, grammar=gbnf_grammar)
# This should output something like this:
# {
# "function": "calculator",
# "function_parameters": {
# "number_one": 42,
# "operation": "multiply",
# "number_two": 42
# }
# }
function_dictionary = json.loads(text)
if function_dictionary["function"] == "calculator":
function_parameters = {**function_dictionary["function_parameters"]}
print(Calculator(**function_parameters).run())
# This should output: 1764
# A example structured output based on pydantic models. The LLM will create an entry for a Book database out of an unstructured text.
class Category(Enum):
"""
The category of the book.
"""
Fiction = "Fiction"
NonFiction = "Non-Fiction"
class Book(BaseModel):
"""
Represents an entry about a book.
"""
title: str = Field(..., description="Title of the book.")
author: str = Field(..., description="Author of the book.")
published_year: Optional[int] = Field(..., description="Publishing year of the book.")
keywords: list[str] = Field(..., description="A list of keywords.")
category: Category = Field(..., description="Category of the book.")
summary: str = Field(..., description="Summary of the book.")
# We need no additional parameters other than our list of pydantic models.
gbnf_grammar, documentation = generate_gbnf_grammar_and_documentation([Book])
system_message = "You are an advanced AI, tasked to create a dataset entry in JSON for a Book. The following is the expected output model:\n\n" + documentation
text = """The Feynman Lectures on Physics is a physics textbook based on some lectures by Richard Feynman, a Nobel laureate who has sometimes been called "The Great Explainer". The lectures were presented before undergraduate students at the California Institute of Technology (Caltech), during 19611963. The book's co-authors are Feynman, Robert B. Leighton, and Matthew Sands."""
prompt = f"<|im_start|>system\n{system_message}<|im_end|>\n<|im_start|>user\n{text}<|im_end|>\n<|im_start|>assistant"
text = create_completion(prompt=prompt, grammar=gbnf_grammar)
json_data = json.loads(text)
print(Book(**json_data))