base_model: PipableAI/pip-code-bandit
inference: true
language:
- en
library_name: transformers
license: apache-2.0
metrics:
- accuracy
model_creator: PipableAI
model_name: pip-code-bandit
pipeline_tag: text-generation
quantized_by: afrideva
tags:
- python
- java
- cpp
- sql
- function calling
- unit tests
- causalLM
- codeLLAMA modified archi
- document
- code
- code2doc
- instruction_tuned
- basemodel
- pytorch
- docstring
- documentation
- text-generation-inference
- plan
- planner
- gguf
- ggml
- quantized
widget:
- example_title: example
text: >-
<example_response>--code:def function_divide2(x): return x /
2--question:Document the code--doc:Description:This function takes a
number and divides it by 2.Parameters:- x (numeric): The input value to be
divided by 2.Returns:- float: The result of x divided by 2.Example:To call
the function, use the following
code:function_divide2(1.0)</example_response><function_code>def
_plot_bounding_polygon(polygons_coordinates,
output_html_path=bounding_polygon_map.html):map_center = [sum([coord[0]for
polygon_coords in polygons_coordinatesfor coord in polygon_coords])/
sum([len(polygon_coords) for polygon_coords in
polygons_coordinates]),sum([coord[1]for polygon_coords in
polygons_coordinatesfor coord in polygon_coords])/
sum([len(polygon_coords) for polygon_coords in
polygons_coordinates]),]my_map = folium.Map(location=map_center,
zoom_start=12)for polygon_coords in
polygons_coordinates:folium.Polygon(locations=polygon_coords,color=blue,fill=True,fill_color=blue,fill_opacity=0.2,).add_to(my_map)marker_cluster
= MarkerCluster().add_to(my_map)for polygon_coords in
polygons_coordinates:for coord in
polygon_coords:folium.Marker(location=[coord[0], coord[1]],
popup=fCoordinates: {coord}).add_to(marker_cluster)draw =
Draw(export=True)draw.add_to(my_map)my_map.save(output_html_path)return
output_html_path</function_code><question>Document the python code above
giving function description ,parameters and return type and example how to
call the function</question><doc>
pip-code-bandit-GGUF
Quantized GGUF model files for pip-code-bandit from PipableAI
Original Model Card:
pip-code-bandit
Objective
Given a goal and tools, can AI intelligently use the tools to reach the goal?
What if it has a meagre 1.3b params/neurons akin to that of an owl? Can it follow instructions and plan to reach a goal?
It can!
Releasing pip-code-bandit and pipflow
A model
and a library
to manage and run goal-oriented agentic system.
Model attributes
-- number of params ~ 1.3b [2.9 Gb GPU memory footprint]
-- sequence length ~ 16.3k [Can go higher but will show performance degradation]
-- license - apache 2.0
-- instruction following , RL tuned.
-- tasks:
1. complex planning(plan) of sequential function calls | a list of callables and goal
2. corrected plan | feedback instructions with error
3. function calling | doc or code and goal
4. code generation | plan and goal
5. code generation | goal
6. doc generation | code
7. code generation | doc
8. file parsed to json | any raw data
9. sql generation | schema, question, instructions and examples
How did we build it?
We used a simulator to simulate environments where the model could play games to achieve goals, given a set of actions available to it. All the model could do was find the right action and config to incur a positive reward. The reward policy is around the concept of a model going to a stable state of zero net sum reward for both good and bad behaviour. In this setup, the model, which was pre-trained on code, function documentation, and similar OS datasets, was RL-tuned for reliability and instruction-following.
License
complete open-sourced - apache 2.0. License
Usage
NOTE:
If you wish to try this model without utilizing your GPU, we have hosted the model on our end. To execute the library using the hosted model, initialize the generator as shown below:
pip3 install git+https://github.com/PipableAI/pipflow.git
from pipflow import PipFlow
generator = PipFlow()
We have hosted the model at https://playground.pipable.ai/infer. Hence, one can also make a POST request to this endpoint with the following payload:
{
"model_name": "PipableAI/pip-code-bandit",
"prompt": "prompt",
"max_new_tokens": "400"
}
curl -X 'POST' \
'https://playground.pipable.ai/infer' \
-H 'accept: application/json' \
-H 'Content-Type: application/x-www-form-urlencoded' \
-d 'model_name=PipableAI%2Fpip-code-bandit&prompt="YOUR PROMPT"&max_new_tokens=400'
Alternatively, you can directly access the UI endpoint at https://playground.pipable.ai/docs#/default/infer_infer_post.
Library Usage
To directly use the model's capabilities without putting extra effort into schemas and prompts, try to use pipflow.
For detailed usage, refer to the colab_notebook
Model Usage
pip install transformers accelerate torch
import torch
from transformers import AutoModelForCausalLM, AutoTokenizer
from accelerate import Accelerator
model =AutoModelForCausalLM.from_pretrained("PipableAI/pip-code-bandit",torch_dtype=torch.bfloat16,device_map="auto")
tokenizer = tokenizer = AutoTokenizer.from_pretrained("PipableAI/pip-code-bandit")
new_tokens = 600
prompt = """
<question>
Generate a python function for adding two numbers.
</question>
<code>
"""
inputs = tokenizer(prompt, return_tensors="pt").to("cuda")
outputs = model.generate(**inputs, max_new_tokens=new_tokens)
response = tokenizer.decode(outputs[0], skip_special_tokens=True)
response = response.split("<code>")[1].split("</code>")[0]
print(response)
Prompt
prompt = f"""<example_response>{--question , --query}</example_response><function_code>{code}</function_code>
<question>Give one line description of the python code above in natural language.</question>
<doc>"""
prompt = f"""<example_response>{example of some --question: , --query}</example_response><schema>{schema with cols described}</schema>
<question>Write a sql query to ....</question>
<sql>"""
Team
Avi Kothari, Gyan Ranjan, Pratham Gupta, Ritvik Aryan Kalra, Soham Acharya