Desktop AI Assistant powered by models: OpenAI o1, GPT-4o, GPT-4, GPT-4 Vision, GPT-3.5, DALL-E 3, Llama 3, Mistral, Gemini, Claude, Bielik, and other models supported by Langchain, Llama Index, and Ollama. Features include chatbot, text completion, image generation, vision analysis, speech-to-text, internet access, file handling, command execution and more.
Project description
PyGPT - Desktop AI Assistant
Release: 2.4.11 | build: 2024.11.15 | Python: >=3.10, <3.12
Official website: https://pygpt.net | Documentation: https://pygpt.readthedocs.io
Discord: https://pygpt.net/discord | Snap: https://snapcraft.io/pygpt | PyPi: https://pypi.org/project/pygpt-net
Compiled version for Linux (
zip
) and Windows 10/11 (msi
) 64-bit: https://pygpt.net/#download❤️ Donate: https://www.buymeacoffee.com/szczyglis
Overview
PyGPT is all-in-one Desktop AI Assistant that provides direct interaction with OpenAI language models, including o1
, gpt-4o
, gpt-4
, gpt-4 Vision
, and gpt-3.5
, through the OpenAI API
. By utilizing Langchain
and Llama-index
, the application also supports alternative LLMs, like those available on HuggingFace
, locally available models (like Llama 3
,Mistral
or Bielik
), Google Gemini
and Anthropic Claude
.
This assistant offers multiple modes of operation such as chat, assistants, completions, and image-related tasks using DALL-E 3
for generation and gpt-4 Vision
for image analysis. PyGPT has filesystem capabilities for file I/O, can generate and run Python code, execute system commands, execute custom commands and manage file transfers. It also allows models to perform web searches with the Google
and Microsoft Bing
.
For audio interactions, PyGPT includes speech synthesis using the Microsoft Azure
, Google
, Eleven Labs
and OpenAI
Text-To-Speech services. Additionally, it features speech recognition capabilities provided by OpenAI Whisper
, Google
and Bing
enabling the application to understand spoken commands and transcribe audio inputs into text. It features context memory with save and load functionality, enabling users to resume interactions from predefined points in the conversation. Prompt creation and management are streamlined through an intuitive preset system.
PyGPT's functionality extends through plugin support, allowing for custom enhancements. Its multi-modal capabilities make it an adaptable tool for a range of AI-assisted operations, such as text-based interactions, system automation, daily assisting, vision applications, natural language processing, code generation and image creation.
Multiple operation modes are included, such as chat, text completion, assistant, vision, Langchain, Chat with files (via Llama-index
), commands execution, external API calls and image generation, making PyGPT a multi-tool for many AI-driven tasks.
Video (mp4, version 2.2.0
, build 2024-04-28
):
https://github.com/szczyglis-dev/py-gpt/assets/61396542/7140ded4-1639-4c12-ac33-201b68b99a16
Screenshot (version 2.2.0
, build 2024-04-28
):
You can download compiled 64-bit versions for Windows and Linux here: https://pygpt.net/#download
Features
- Desktop AI Assistant for
Linux
,Windows
andMac
, written in Python. - Works similarly to
ChatGPT
, but locally (on a desktop computer). - 10 modes of operation: Chat, Vision, Completion, Assistant, Image generation, Langchain, Chat with files, Experts, Agent (Llama-index), and Agent (legacy, autonomous).
- Supports multiple models:
o1
,gpt-4
,gpt-3.5
, and any model accessible throughLangchain
andLlama-index
such asLlama 3
,Mistral
,Google Gemini
,Anthropic Claude
,Bielik
, etc. - Included support features for individuals with disabilities: customizable keyboard shortcuts, voice control, and translation of on-screen actions into audio via speech synthesis.
- Handles and stores the full context of conversations (short and long-term memory).
- Real-time video camera capture in Vision mode.
- Internet access via
Google
andMicrosoft Bing
. - Speech synthesis via
Microsoft Azure
,Google
,Eleven Labs
andOpenAI
Text-To-Speech services. - Speech recognition via
OpenAI Whisper
,Google
,Google Cloud
andMicrosoft Bing
. - Image analysis via
gpt4-o
andgpt-4 vision
. - Crontab / Task scheduler included.
- Integrated
Langchain
support (you can connect to any LLM, e.g., onHuggingFace
). - Integrated
Llama-index
support: chat withtxt
,pdf
,csv
,html
,md
,docx
,json
,epub
,xlsx
,xml
, webpages,Google
,GitHub
, video/audio, images and other data types, or use conversation history as additional context provided to the model. - Integrated calendar, day notes and search in contexts by selected date.
- Commands execution (via plugins: access to the local filesystem, Python code interpreter, system commands execution).
- Custom commands creation and execution.
- Manages files and attachments with options to upload, download, and organize.
- Context history with the capability to revert to previous contexts (long-term memory).
- Allows you to easily manage prompts with handy editable presets.
- Provides an intuitive operation and interface.
- Includes a notepad.
- Includes simple painter / drawing tool.
- Includes optional Autonomous Mode (Agents).
- Supports multiple languages.
- Enables the use of all the powerful features of
o1
,gpt-4
,gpt-4-vision
, andgpt-3.5
. - Requires no previous knowledge of using AI models.
- Simplifies image generation using
DALL-E 3
andDALL-E 2
. - Possesses the potential to support future OpenAI models.
- Fully configurable.
- Themes support.
- Real-time code syntax highlighting.
- Plugins support.
- Built-in token usage calculation.
- It's open source; source code is available on
GitHub
. - Utilizes the user's own API key.
The application is free, open-source, and runs on PCs with Linux
, Windows 10
, Windows 11
and Mac
.
Full Python source code is available on GitHub
.
PyGPT uses the user's API key - to use the application, you must have a registered OpenAI account and your own API key.
You can also use built-it Langchain support to connect to other Large Language Models (LLMs), such as those on HuggingFace. Additional API keys may be required.
Installation
Compiled versions (Linux, Windows 10 and 11)
You can download compiled versions for Linux
and Windows
(10/11).
Download the .msi
or zip
/tar.gz
for the appropriate OS from the download page at https://pygpt.net and then extract files from the archive and run the application. 64-bit only.
Linux version requires GLIBC
>= 2.35
.
Snap Store
You can install PyGPT directly from Snap Store:
sudo snap install pygpt
To manage future updates just use:
sudo snap refresh pygpt
Using camera: to use camera in Snap version you must connect the camera with:
sudo snap connect pygpt:camera
Using microphone: to use microphone in Snap version you must connect the microphone with:
sudo snap connect pygpt:audio-record :audio-record
PyPi (pip)
The application can also be installed from PyPi
using pip install
:
- Create virtual environment:
python3 -m venv venv
source venv/bin/activate
- Install from PyPi:
pip install pygpt-net
- Once installed run the command to start the application:
pygpt
Source Code
An alternative method is to download the source code from GitHub
and execute the application using the Python interpreter (>=3.10, <3.12).
Running from GitHub source code
- Clone git repository or download .zip file:
git clone https://github.com/szczyglis-dev/py-gpt.git
cd py-gpt
- Create virtual environment:
python3 -m venv venv
source venv/bin/activate
- Install requirements:
pip install -r requirements.txt
- Run the application:
python3 run.py
Install with Poetry
- Clone git repository or download .zip file:
git clone https://github.com/szczyglis-dev/py-gpt.git
cd py-gpt
- Install Poetry (if not installed):
pip install poetry
- Create a new virtual environment that uses Python 3.10:
poetry env use python3.10
poetry shell
- Install requirements:
poetry install
- Run the application:
poetry run python3 run.py
Tip: you can use PyInstaller
to create a compiled version of
the application for your system (required version >= 6.0.0
).
Troubleshooting
If you have a problems with xcb
plugin with newer versions of PySide on Linux, e.g. like this:
qt.qpa.plugin: Could not load the Qt platform plugin "xcb" in "" even though it was found.
This application failed to start because no Qt platform plugin could be initialized.
Reinstalling the application may fix this problem.
...then install libxcb
:
sudo apt install libxcb-cursor0
If you have a problems with audio on Linux, then try to install portaudio19-dev
and/or libasound2
:
sudo apt install portaudio19-dev
sudo apt install libasound2
sudo apt install libasound2-data
sudo apt install libasound2-plugins
Problems with GLIBC on Linux
If you encounter error:
Error loading Python lib libpython3.10.so.1.0: dlopen: /lib/x86_64-linux-gnu/libm.so.6: version GLIBC_2.35 not found (required by libpython3.10.so.1.0)
when trying to run the compiled version for Linux, try updating GLIBC to version 2.35
, or use a newer operating system that has at least version 2.35
of GLIBC.
Access to camera in Snap version:
sudo snap connect pygpt:camera
Access to microphone in Snap version:
To use microphone in Snap version you must connect the microphone with:
sudo snap connect pygpt:audio-record :audio-record
Windows and VC++ Redistributable
On Windows, the proper functioning requires the installation of the VC++ Redistributable
, which can be found on the Microsoft website:
https://learn.microsoft.com/en-us/cpp/windows/latest-supported-vc-redist
The libraries from this environment are used by PySide6
- one of the base packages used by PyGPT.
The absence of the installed libraries may cause display errors or completely prevent the application from running.
It may also be necessary to add the path C:\path\to\venv\Lib\python3.x\site-packages\PySide6
to the PATH
variable.
WebEngine/Chromium renderer and OpenGL problems
If you have a problems with WebEngine / Chromium
renderer you can force the legacy mode by launching the app with command line arguments:
python3 run.py --legacy=1
and to force disable OpenGL hardware acceleration:
python3 run.py --disable-gpu=1
You can also manualy enable legacy mode by editing config file - open the %WORKDIR%/config.json
config file in editor and set the following options:
"render.engine": "legacy",
"render.open_gl": false,
Other requirements
For operation, an internet connection is needed (for API connectivity), a registered OpenAI account, and an active API key that must be input into the program.
Debugging and logging
Tip: Go to Debugging and Logging
section for instructions on how to log and diagnose issues in a more detailed manner.
Quick Start
Setting-up OpenAI API KEY
Tip: The API key is required to work with the OpenAI API. If you wish to use custom API endpoints or local API that do not require API keys, simply enter anything into the API key field to avoid a prompt about the API key being empty.
During the initial launch, you must configure your API key within the application.
To do so, navigate to the menu:
Config -> Settings...
and then paste the API key into the OpenAI API KEY
field.
The API key can be obtained by registering on the OpenAI website:
Your API keys will be available here:
https://platform.openai.com/account/api-keys
Note: The ability to use models within the application depends on the API user's access to a given model!
Working modes
Chat
+ inline Vision and Image generation
This mode in PyGPT mirrors ChatGPT
, allowing you to chat with models such as GPT-4
, GPT-4 Turbo
and GPT-3.5
. It's easy to switch models whenever you want. It works by using the ChatCompletion API
.
The main part of the interface is a chat window where conversations appear. Right below that is where you type your messages. On the right side of the screen, there's a section to set up or change your system prompts. You can also save these setups as presets to quickly switch between different models or tasks.
Above where you type your messages, the interface shows you the number of tokens your message will use up as you type it – this helps to keep track of usage. There's also a feature to upload files in this area. Go to the Files
tab to manage your uploads or add attachments to send to the OpenAI API (but this makes effect only in Assisant
and Vision
modes).
Vision: If you want to send photos or image from camera to analysis you must enable plugin GPT-4 Vision Inline in the Plugins menu. Plugin allows you to send photos or image from camera to analysis in any Chat mode:
With this plugin, you can capture an image with your camera or attach an image and send it for analysis to discuss the photograph:
Image generation: If you want to generate images (using DALL-E) directly in chat you must enable plugin DALL-E 3 Inline in the Plugins menu. Plugin allows you to generate images in Chat mode:
Completion
This mode provides in-depth access to a broader range of capabilities offered by Large Language Models (LLMs). While it maintains a chat-like interface for user interaction, it introduces additional settings and functional richness beyond typical chat exchanges. Users can leverage this mode to prompt models for complex text completions, role-play dialogues between different characters, perform text analysis, and execute a variety of other sophisticated tasks. It supports any model provided by the OpenAI API as well as other models through Langchain
.
Similar to chat mode, on the right-hand side of the interface, there are convenient presets. These allow you to fine-tune instructions and swiftly transition between varied configurations and pre-made prompt templates.
Additionally, this mode offers options for labeling the AI and the user, making it possible to simulate dialogues between specific characters - for example, you could create a conversation between Batman and the Joker, as predefined in the prompt. This feature presents a range of creative possibilities for setting up different conversational scenarios in an engaging and exploratory manner.
From version 2.0.107
the davinci
models are deprecated and has been replaced with gpt-3.5-turbo-instruct
model in Completion mode.
Assistants
This mode uses the new OpenAI's Assistants API.
This mode expands on the basic chat functionality by including additional external tools like a Code Interpreter
for executing code, Retrieval Files
for accessing files, and custom Functions
for enhanced interaction and integration with other APIs or services. In this mode, you can easily upload and download files. PyGPT streamlines file management, enabling you to quickly upload documents and manage files created by the model.
Setting up new assistants is simple - a single click is all it takes, and they instantly sync with the OpenAI API
. Importing assistants you've previously created with OpenAI into PyGPT is also a seamless process.
In Assistant mode you are allowed to storage your files (per Assistant) and manage them easily from app:
Please note that token usage calculation is unavailable in this mode. Nonetheless, file (attachment)
uploads are supported. Simply navigate to the Files
tab to effortlessly manage files and attachments which
can be sent to the OpenAI API.
Vector stores (via Assistants API)
Assistant mode supports the use of external vector databases offered by the OpenAI API. This feature allows you to store your files in a database and then search them using the Assistant's API. Each assistant can be linked to one vector database—if a database is linked, all files uploaded in this mode will be stored in the linked vector database. If an assistant does not have a linked vector database, a temporary database is automatically created during the file upload, which is accessible only in the current thread. Files from temporary databases are automatically deleted after 7 days.
To enable the use of vector stores, enable the Chat with files
checkbox in the Assistant settings. This enables the File search
tool in Assistants API.
To manage external vector databases, click the DB icon next to the vector database selection list in the Assistant creation and editing window. In this management window, you can create a new database, edit an existing one, or import a list of all existing databases from the OpenAI server:
You can define, using Expire days
, how long files should be automatically kept in the database before deletion (as storing files on OpenAI incurs costs). If the value is set to 0, files will not be automatically deleted.
The vector database in use will be displayed in the list of uploaded files, on the field to the right—if a file is stored in a database, the name of the database will be displayed there; if not, information will be shown indicating that the file is only accessible within the thread:
Vision (GPT-4 Vision)
INFO: From version 2.2.6
(2024-04-30) Vision is available directly in Chat mode, without any plugins - if the model supports Vision (currently: gpt-4-turbo
and gpt-4-turbo-2024-04-09
).
This mode enables image analysis using the GPT-4 Vision
model. Functioning much like the chat mode,
it also allows you to upload images or provide URLs to images. The vision feature can analyze both local
images and those found online.
Vision is integrated into any chat mode via plugin GPT-4 Vision (inline)
. Just enable the plugin and use Vision in standard modes.
Vision mode also includes real-time video capture from camera. To enable capture check the option Camera
on the right-bottom corner. It will enable real-time capturing from your camera. To capture image from camera and append it to chat just click on video at left side. You can also enable Auto capture
- image will be captured and appended to chat message every time you send message.
1) Video camera real-time image capture
2) you can also provide an image URL
3) or you can just upload your local images or use the inline Vision in the standard chat mode:
Tip: When using Vision (inline)
by utilizing a plugin in standard mode, such as Chat
(not Vision
mode), the + Vision
special checkbox will appear at the bottom of the Chat window. It will be automatically enabled any time you provide content for analysis (like an uploaded photo). When the checkbox is enabled, the vision model is used. If you wish to exit the vision model after image analysis, simply uncheck the checkbox. It will activate again automatically when the next image content for analysis is provided.
Langchain
This mode enables you to work with models that are supported by Langchain
. The Langchain support is integrated
into the application, allowing you to interact with any LLM by simply supplying a configuration
file for the specific model. You can add as many models as you like; just list them in the configuration
file named models.json
.
Available LLMs providers supported by PyGPT, in Langchain
and Chat with files (llama-index)
modes:
- OpenAI
- Azure OpenAI
- Google (Gemini, etc.)
- HuggingFace
- Anthropic
- Ollama (Llama3, Mistral, etc.)
You have the ability to add custom model wrappers for models that are not available by default in PyGPT.
To integrate a new model, you can create your own wrapper and register it with the application.
Detailed instructions for this process are provided in the section titled Managing models / Adding models via Langchain
.
Chat with files (Llama-index)
This mode enables chat interaction with your documents and entire context history through conversation.
It seamlessly incorporates Llama-index
into the chat interface, allowing for immediate querying of your indexed documents.
Querying single files
You can also query individual files "on the fly" using the query_file
command from the Files I/O
plugin. This allows you to query any file by simply asking a question about that file. A temporary index will be created in memory for the file being queried, and an answer will be returned from it. From version 2.1.9
similar command is available for querying web and external content: Directly query web content with Llama-index
.
For example:
If you have a file: data/my_cars.txt
with content My car is red.
You can ask for: Query the file my_cars.txt about what color my car is.
And you will receive the response: Red
.
Note: this command indexes the file only for the current query and does not persist it in the database. To store queried files also in the standard index you must enable the option "Auto-index readed files" in plugin settings. Remember to enable "Execute commands" checkbox to allow usage of query commands.
Using Chat with files mode
In this mode, you are querying the whole index, stored in a vector store database. To start, you need to index (embed) the files you want to use as additional context. Embedding transforms your text data into vectors. If you're unfamiliar with embeddings and how they work, check out this article:
https://stackoverflow.blog/2023/11/09/an-intuitive-introduction-to-text-embeddings/
For a visualization from OpenAI's page, see this picture:
Source: https://cdn.openai.com/new-and-improved-embedding-model/draft-20221214a/vectors-3.svg
To index your files, simply copy or upload them into the data
directory and initiate indexing (embedding) by clicking the Index all
button, or right-click on a file and select Index...
. Additionally, you have the option to utilize data from indexed files in any Chat mode by activating the Chat with files (Llama-index, inline)
plugin.
After the file(s) are indexed (embedded in vector store), you can use context from them in chat mode:
Built-in file loaders:
Files:
- CSV files (csv)
- Epub files (epub)
- Excel .xlsx spreadsheets (xlsx)
- HTML files (html, htm)
- IPYNB Notebook files (ipynb)
- Image (vision) (jpg, jpeg, png, gif, bmp, tiff, webp)
- JSON files (json)
- Markdown files (md)
- PDF documents (pdf)
- Txt/raw files (txt)
- Video/audio (mp4, avi, mov, mkv, webm, mp3, mpeg, mpga, m4a, wav)
- Word .docx documents (docx)
- XML files (xml)
Web/external content:
- Bitbucket
- ChatGPT Retrieval Plugin
- GitHub Issues
- GitHub Repository
- Google Calendar
- Google Docs
- Google Drive
- Google Gmail
- Google Keep
- Google Sheets
- Microsoft OneDrive
- RSS
- SQL Database
- Sitemap (XML)
- Twitter/X posts
- Webpages (crawling any webpage content)
- YouTube (transcriptions)
You can configure data loaders in Settings / Llama-index / Data Loaders
by providing list of keyword arguments for specified loaders.
You can also develop and provide your own custom loader and register it within the application.
Llama-index is also integrated with context database - you can use data from database (your context history) as additional context in discussion.
Options for indexing existing context history or enabling real-time indexing new ones (from database) are available in Settings / Llama-index
section.
WARNING: remember that when indexing content, API calls to the embedding model are used. Each indexing consumes additional tokens. Always control the number of tokens used on the OpenAI page.
Tip: when using Chat with files
you are using additional context from db data and files indexed from data
directory, not the files sending via Attachments
tab.
Attachments tab in Chat with files
mode can be used to provide images to Vision (inline)
plugin only.
Token limit: When you use Chat with files
in non-query mode, Llama-index adds extra context to the system prompt. If you use a plugins (which also adds more instructions to system prompt), you might go over the maximum number of tokens allowed. If you get a warning that says you've used too many tokens, turn off plugins you're not using or turn off the "Execute commands" option to reduce the number of tokens used by the system prompt.
Available vector stores (provided by Llama-index
):
- ChromaVectorStore
- ElasticsearchStore
- PinecodeVectorStore
- RedisVectorStore
- SimpleVectorStore
You can configure selected vector store by providing config options like api_key
, etc. in Settings -> Llama-index
window.
Arguments provided here (on list: Vector Store (**kwargs)
in Advanced settings
will be passed to selected vector store provider.
You can check keyword arguments needed by selected provider on Llama-index API reference page:
https://docs.llamaindex.ai/en/stable/api_reference/storage/vector_store.html
Which keyword arguments are passed to providers?
For ChromaVectorStore
and SimpleVectorStore
all arguments are set by PyGPT and passed internally (you do not need to configure anything).
For other providers you can provide these arguments:
ElasticsearchStore
Keyword arguments for ElasticsearchStore(**kwargs
):
index_name
(default: current index ID, already set, not required)- any other keyword arguments provided on list
PinecodeVectorStore
Keyword arguments for Pinecone(**kwargs
):
api_key
- index_name (default: current index ID, already set, not required)
RedisVectorStore
Keyword arguments for RedisVectorStore(**kwargs
):
index_name
(default: current index ID, already set, not required)- any other keyword arguments provided on list
You can extend list of available providers by creating custom provider and registering it on app launch.
By default, you are using chat-based mode when using Chat with files
.
If you want to only query index (without chat) you can enable Query index only (without chat)
option.
Adding custom vector stores and data loaders
You can create a custom vector store provider or data loader for your data and develop a custom launcher for the application. To register your custom vector store provider or data loader, simply register it by passing the vector store provider instance to vector_stores
keyword argument and loader instance in the loaders
keyword argument:
# custom_launcher.py
from pygpt_net.app import run
from plugins import CustomPlugin, OtherCustomPlugin
from llms import CustomLLM
from vector_stores import CustomVectorStore
from loaders import CustomLoader
plugins = [
CustomPlugin(),
OtherCustomPlugin(),
]
llms = [
CustomLLM(),
]
vector_stores = [
CustomVectorStore(),
]
loaders = [
CustomLoader(),
]
run(
plugins=plugins,
llms=llms,
vector_stores=vector_stores, # <--- list with custom vector store providers
loaders=loaders # <--- list with custom data loaders
)
The vector store provider must be an instance of pygpt_net.provider.vector_stores.base.BaseStore
.
You can review the code of the built-in providers in pygpt_net.provider.vector_stores
and use them as examples when creating a custom provider.
The data loader must be an instance of pygpt_net.provider.loaders.base.BaseLoader
.
You can review the code of the built-in loaders in pygpt_net.provider.loaders
and use them as examples when creating a custom loader.
Configuring data loaders
In the Settings -> Llama-index -> Data loaders
section you can define the additional keyword arguments to pass into data loader instance.
In most cases, an internal Llama-index loaders are used internally. You can check these base loaders e.g. here:
Tip: to index an external data or data from the Web just ask for it, by using Command: Web Search
plugin, e.g. you can ask the model with Please index the youtube video: URL to video
, etc. Data loader for a specified content will be choosen automatically.
Allowed additional keyword arguments for built-in data loaders (files):
CSV Files (file_csv)
concat_rows
- bool, default:True
encoding
- str, default:utf-8
HTML Files (file_html)
tag
- str, default:section
ignore_no_id
- bool, default:False
Image (vision) (file_image_vision)
This loader can operate in two modes: local model and API. If the local mode is enabled, then the local model will be used. The local mode requires a Python/PyPi version of the application and is not available in the compiled or Snap versions. If the API mode (default) is selected, then the OpenAI API and the standard vision model will be used.
Note: Usage of API mode consumes additional tokens in OpenAI API (for GPT-4 Vision
model)!
Local mode requires torch
, transformers
, sentencepiece
and Pillow
to be installed and uses the Salesforce/blip2-opt-2.7b
model to describing images.
keep_image
- bool, default:False
local_prompt
- str, default:Question: describe what you see in this image. Answer:
api_prompt
- str, default:Describe what you see in this image
- Prompt to use in APIapi_model
- str, default:gpt-4-vision-preview
- Model to use in APIapi_tokens
- int, default:1000
- Max output tokens in API
IPYNB Notebook files (file_ipynb)
parser_config
- dict, default:None
concatenate
- bool, default:False
Markdown files (file_md)
remove_hyperlinks
- bool, default:True
remove_images
- bool, default:True
PDF documents (file_pdf)
return_full_document
- bool, default:False
Video/Audio (file_video_audio)
This loader can operate in two modes: local model and API.
If the local mode is enabled, then the local Whisper
model will be used. The local mode requires a Python/PyPi version of the application and is not available in the compiled or Snap versions.
If the API mode (default) is selected, then the currently selected provider in Audio Input
plugin will be used. If the OpenAI Whisper
is chosen then the OpenAI API and the API Whisper model will be used.
Note: Usage of Whisper via API consumes additional tokens in OpenAI API (for Whisper
model)!
Local mode requires torch
and openai-whisper
to be installed and uses the Whisper
model locally to transcribing video and audio.
model_version
- str, default:base
- Whisper model to use, available models: https://github.com/openai/whisper
XML files (file_xml)
tree_level_split
- int, default:0
Allowed additional keyword arguments for built-in data loaders (Web and external content):
Bitbucket (web_bitbucket)
username
- str, default:None
api_key
- str, default:None
extensions_to_skip
- list, default:[]
ChatGPT Retrieval (web_chatgpt_retrieval)
endpoint_url
- str, default:None
bearer_token
- str, default:None
retries
- int, default:None
batch_size
- int, default:100
Google Calendar (web_google_calendar)
credentials_path
- str, default:credentials.json
token_path
- str, default:token.json
Google Docs (web_google_docs)
credentials_path
- str, default:credentials.json
token_path
- str, default:token.json
Google Drive (web_google_drive)
credentials_path
- str, default:credentials.json
token_path
- str, default:token.json
pydrive_creds_path
- str, default:creds.txt
client_config
- dict, default:{}
Google Gmail (web_google_gmail)
credentials_path
- str, default:credentials.json
token_path
- str, default:token.json
use_iterative_parser
- bool, default:False
max_results
- int, default:10
results_per_page
- int, default:None
Google Keep (web_google_keep)
credentials_path
- str, default:keep_credentials.json
Google Sheets (web_google_sheets)
credentials_path
- str, default:credentials.json
token_path
- str, default:token.json
GitHub Issues (web_github_issues)
token
- str, default:None
verbose
- bool, default:False
GitHub Repository (web_github_repository)
token
- str, default:None
verbose
- bool, default:False
concurrent_requests
- int, default:5
timeout
- int, default:5
retries
- int, default:0
filter_dirs_include
- list, default:None
filter_dirs_exclude
- list, default:None
filter_file_ext_include
- list, default:None
filter_file_ext_exclude
- list, default:None
Microsoft OneDrive (web_microsoft_onedrive)
client_id
- str, default:None
client_secret
- str, default:None
tenant_id
- str, default:consumers
Sitemap (XML) (web_sitemap)
html_to_text
- bool, default:False
limit
- int, default:10
SQL Database (web_database)
engine
- str, default:None
uri
- str, default:None
scheme
- str, default:None
host
- str, default:None
port
- str, default:None
user
- str, default:None
password
- str, default:None
dbname
- str, default:None
Twitter/X posts (web_twitter)
bearer_token
- str, default:None
num_tweets
- int, default:100
Agent (Llama-index)
Currently in beta version -- introduced in 2.4.10
(2024-11-14)
Mode that allows the use of agents offered by Llama-index
.
Includes built-in agents:
- OpenAI
- ReAct
- Structured Planner (sub-tasks)
In the future, the list of built-in agents will be expanded.
You can also create your own agent by creating a new provider that inherits from pygpt_net.provider.agents.base
.
Tools / Plugins
In this mode, all commands from active plugins are available (commands from plugins are automatically converted into tools for the agent on-the-fly).
RAG / Using indexes
If an index is selected in the agent preset, a tool for reading data from the index is automatically added to the agent, creating a RAG automatically.
Multimodality is currently unavailable, only text is supported. Vision support will be added in the future.
Agent (legacy, autonomous)
This is an older version of the Agent mode, still available as legacy. However, it is recommended to use the newer mode: Agent (Llama-index)
.
WARNING: Please use this mode with caution - autonomous mode, when connected with other plugins, may produce unexpected results!
The mode activates autonomous mode, where AI begins a conversation with itself. You can set this loop to run for any number of iterations. Throughout this sequence, the model will engage in self-dialogue, answering his own questions and comments, in order to find the best possible solution, subjecting previously generated steps to criticism.
WARNING: Setting the number of run steps (iterations) to 0
activates an infinite loop which can generate a large number of requests and cause very high token consumption, so use this option with caution! Confirmation will be displayed every time you run the infinite loop.
This mode is similar to Auto-GPT
- it can be used to create more advanced inferences and to solve problems by breaking them down into subtasks that the model will autonomously perform one after another until the goal is achieved.
You can create presets with custom instructions for multiple agents, incorporating various workflows, instructions, and goals to achieve.
All plugins are available for agents, so you can enable features such as file access, command execution, web searching, image generation, vision analysis, etc., for your agents. Connecting agents with plugins can create a fully autonomous, self-sufficient system. All currently enabled plugins are automatically available to the Agent.
When the Auto-stop
option is enabled, the agent will attempt to stop once the goal has been reached.
In opposition to Auto-stop
, when the Always continue...
option is enabled, the agent will use the "always continue" prompt to generate additional reasoning and automatically proceed to the next step, even if it appears that the task has been completed.
Options
The agent is essentially a virtual mode that internally sequences the execution of a selected underlying mode. You can choose which internal mode the agent should use in the settings:
Settings / Agent (autonomous) / Sub-mode to use
Available choices include: chat
, completion
, langchain
, vision
, llama_index
(Chat with files).
Default is: chat
.
If you want to use the Llama-index mode when running the agent, you can also specify which index Llama-index
should use with the option:
Settings / Agent (autonomous) / Index to use
Experts (co-op, co-operation mode)
Added in version 2.2.7 (2024-05-01).
This mode is experimental.
Expert mode allows for the creation of experts (using presets) and then consulting them during a conversation. In this mode, a primary base context is created for conducting the conversation. From within this context, the model can make requests to an expert to perform a task and return the results to the main thread. When an expert is called in the background, a separate context is created for them with their own memory. This means that each expert, during the life of one main context, also has access to their own memory via their separate, isolated context.
In simple terms - you can imagine an expert as a separate, additional instance of the model running in the background, which can be called at any moment for assistance, with its own context and memory, as well as its own specialized instructions in a given subject.
Experts do not share contexts with one another, and the only point of contact between them is the main conversation thread. In this main thread, the model acts as a manager of experts, who can exchange data between them as needed.
An expert is selected based on the name in the presets; for example, naming your expert as: ID = python_expert, name = "Python programmer" will create an expert whom the model will attempt to invoke for matters related to Python programming. You can also manually request to refer to a given expert:
Call the Python expert to generate some code.
Experts can be activated or deactivated - to enable or disable use RMB context menu to select the Enable/Disable
options from the presets list. Only enabled experts are available to use in the thread.
Experts can also be used in Agent (autonomous)
mode - by creating a new agent using a preset. Simply move the appropriate experts to the active list to automatically make them available for use by the agent.
You can also use experts in "inline" mode - by activating the Experts (inline)
plugin. This allows for the use of experts in any mode, such as normal chat.
Expert mode, like agent mode, is a "virtual" mode - you need to select a target mode of operation for it, which can be done in the settings at Settings / Agent (autonomous) / Sub-mode for experts
.
You can also ask for a list of active experts at any time:
Give me a list of active experts.
Accessibility
Since version 2.2.8
, PyGPT has added beta support for disabled people and voice control. This may be very useful for blind people.
In the Config / Accessibility
menu, you can turn on accessibility features such as:
-
activating voice control
-
translating actions and events on the screen with audio speech
-
setting up keyboard shortcuts for actions.
Using voice control
Voice control can be turned on in two ways: globally, through settings in Config -> Accessibility
, and by using the Voice control (inline)
plugin. Both options let you use the same voice commands, but they work a bit differently - the global option allows you to run commands outside of a conversation, anywhere, while the plugin option lets you execute commands directly during a conversation – allowing you to interact with the model and execute commands at the same time, within the conversation.
In the plugin (inline) option, you can also turn on a special trigger word that will be needed for content to be recognized as a voice command. You can set this up by going to Plugins -> Settings -> Voice Control (inline)
:
Magic prefix for voice commands
Tip: When the voice control is enabled via a plugin, simply provide commands while providing the content of the conversation by using the standard Microphone
button.
Enabling voice control globally
Turn on the voice control option in Config / Accessibility
:
Enable voice control (using microphone)
Once you enable this option, an Voice Control
button will appear at the bottom right corner of the window. When you click on this button, the microphone will start listening; clicking it again stops listening and starts recognizing the voice command you said. You can cancel voice recording at any time with the ESC
key. You can also set a keyboard shortcut to turn voice recording on/off.
Voice command recognition works based on a model, so you don't have to worry about saying things perfectly.
Here's a list of commands you can ask for by voice:
- Get the current application status
- Exit the application
- Enable audio output
- Disable audio output
- Enable audio input
- Disable audio input
- Add a memo to the calendar
- Clear memos from calendar
- Read the calendar memos
- Enable the camera
- Disable the camera
- Capture image from camera
- Create a new context
- Go to the previous context
- Go to the next context
- Go to the latest context
- Focus on the input
- Send the input
- Clear the input
- Get current conversation info
- Get available commands list
- Stop executing current action
- Clear the attachments
- Read the last conversation entry
- Read the whole conversation
- Rename current context
- Search for a conversation
- Clear the search results
- Send the message to input
- Append message to current input without sending it
- Switch to chat mode
- Switch to chat with files (llama-index) mode
- Switch to the next mode
- Switch to the previous mode
- Switch to the next model
- Switch to the previous model
- Add note to notepad
- Clear notepad contents
- Read current notepad contents
- Switch to the next preset
- Switch to the previous preset
- Switch to the chat tab
- Switch to the calendar tab
- Switch to the draw (painter) tab
- Switch to the files tab
- Switch to the notepad tab
- Switch to the next tab
- Switch to the previous tab
- Start listening for voice input
- Stop listening for voice input
- Toggle listening for voice input
More commands coming soon.
Just ask for an action that matches one of the descriptions above. These descriptions are also known to the model, and relevant commands are assigned to them. When you voice a command that fits one of those patterns, the model will trigger the appropriate action.
For convenience, you can enable a short sound to play when voice recording starts and stops. To do this, turn on the option:
Audio notify microphone listening start/stop
To enable a sound notification when a voice command is recognized and command execution begins, turn on the option:
Audio notify voice command execution
For voice translation of on-screen events and information about completed commands via speech synthesis, you can turn on the option:
Use voice synthesis to describe events on the screen.
Files and attachments
Input attachments (upload)
PyGPT makes it simple for users to upload files to the server and send them to the model for tasks like analysis, similar to attaching files in ChatGPT
. There's a separate Files
tab next to the text input area specifically for managing file uploads. Users can opt to have files automatically deleted after each upload or keep them on the list for repeated use.
The attachment feature is available in both the Assistant
and Vision
modes at default.
In Assistant
mode, you can send documents and files to analyze, while in Vision
mode, you can send images.
In other modes, you can enable attachments by activating the Vision (inline)
plugin (for providing images only).
Files (download, code generation)
PyGPT enables the automatic download and saving of files created by the model. This is carried out in the background, with the files being saved to an data
folder located within the user's working directory. To view or manage these files, users can navigate to the Files
tab which features a file browser for this specific directory. Here, users have the interface to handle all files sent by the AI.
This data
directory is also where the application stores files that are generated locally by the AI, such as code files or any other data requested from the model. Users have the option to execute code directly from the stored files and read their contents, with the results fed back to the AI. This hands-off process is managed by the built-in plugin system and model-triggered commands. You can also indexing files from this directory (using integrated Llama-index
) and use it's contents as additional context provided to discussion.
The Command: Files I/O
plugin takes care of file operations in the data
directory, while the Command: Code Interpreter
plugin allows for the execution of code from these files.
To allow the model to manage files or python code execution, the Execute commands
option must be active, along with the above-mentioned plugins:
Draw (paint)
Using the Draw
tool, you can create quick sketches and submit them to the model for analysis. You can also edit opened from disk or captured from camera images, for example, by adding elements like arrows or outlines to objects. Additionally, you can capture screenshots from the system - the captured image is placed in the drawing tool and attached to the query being sent.
To capture the screenshot just click on the Ask with screenshot
option in a tray-icon dropdown:
Calendar
Using the calendar, you can go back to selected conversations from a specific day and add daily notes. After adding a note, it will be marked on the list, and you can change the color of its label by right-clicking and selecting Set label color
. By clicking on a particular day of the week, conversations from that day will be displayed.
Context and memory
Short and long-term memory
PyGPT features a continuous chat mode that maintains a long context of the ongoing dialogue. It preserves the entire conversation history and automatically appends it to each new message (prompt) you send to the AI. Additionally, you have the flexibility to revisit past conversations whenever you choose. The application keeps a record of your chat history, allowing you to resume discussions from the exact point you stopped.
Handling multiple contexts
On the left side of the application interface, there is a panel that displays a list of saved conversations. You can save numerous contexts and switch between them with ease. This feature allows you to revisit and continue from any point in a previous conversation. PyGPT automatically generates a summary for each context, akin to the way ChatGPT
operates and gives you the option to modify these titles itself.
You can disable context support in the settings by using the following option:
Config -> Settings -> Use context
Clearing history
You can clear the entire memory (all contexts) by selecting the menu option:
File -> Clear history...
Context storage
On the application side, the context is stored in the SQLite
database located in the working directory (db.sqlite
).
In addition, all history is also saved to .txt
files for easy reading.
Once a conversation begins, a title for the chat is generated and displayed on the list to the left. This process is similar to ChatGPT
, where the subject of the conversation is summarized, and a title for the thread is created based on that summary. You can change the name of the thread at any time.
Presets
What is preset?
Presets in PyGPT are essentially templates used to store and quickly apply different configurations. Each preset includes settings for the mode you want to use (such as chat, completion, or image generation), an initial system message, an assigned name for the AI, a username for the session, and the desired "temperature" for the conversation. A warmer "temperature" setting allows the AI to provide more creative responses, while a cooler setting encourages more predictable replies. These presets can be used across various modes and with models accessed via the OpenAI API
or Langchain
.
The system lets you create as many presets as needed and easily switch among them. Additionally, you can clone an existing preset, which is useful for creating variations based on previously set configurations and experimentation.
Example usage
The application includes several sample presets that help you become acquainted with the mechanism of their use.
Image generation (DALL-E 3 and DALL-E 2)
DALL-E 3
PyGPT enables quick and easy image creation with DALL-E 3
.
The older model version, DALL-E 2
, is also accessible. Generating images is akin to a chat conversation - a user's prompt triggers the generation, followed by downloading, saving to the computer,
and displaying the image onscreen. You can send raw prompt to DALL-E
in Image generation
mode or ask the model for the best prompt.
Image generation using DALL-E is available in every mode via plugin DALL-E 3 Image Generation (inline)
. Just ask any model, in any mode, like e.g. GPT-4 to generate an image and it will do it inline, without need to mode change.
If you want to generate images (using DALL-E) directly in chat you must enable plugin DALL-E 3 Inline in the Plugins menu. Plugin allows you to generate images in Chat mode:
Multiple variants
You can generate up to 4 different variants (DALL-E 2) for a given prompt in one session. DALL-E 3 allows one image. To select the desired number of variants to create, use the slider located in the right-hand corner at the bottom of the screen. This replaces the conversation temperature slider when you switch to image generation mode.
Raw mode
There is an option for switching prompt generation mode.
If Raw Mode is enabled, DALL-E will receive the prompt exactly as you have provided it. If Raw Mode is disabled, GPT will generate the best prompt for you based on your instructions.
Image storage
Once you've generated an image, you can easily save it anywhere on your disk by right-clicking on it. You also have the options to delete it or view it in full size in your web browser.
Tip: Use presets to save your prepared prompts. This lets you quickly use them again for generating new images later on.
The app keeps a history of all your prompts, allowing you to revisit any session and reuse previous prompts for creating new images.
Images are stored in img
directory in PyGPT user data folder.
Managing models
All models are specified in the configuration file models.json
, which you can customize.
This file is located in your working directory. You can add new models provided directly by OpenAI API
and those supported by Langchain
and Llama-index
to this file. Configuration for Langchain wrapper is placed in langchain
key.
Adding custom LLMs via Langchain and Llama-index
To add a new model using the Langchain or Llama-index wrapper in PyGPT, insert the model's configuration details into the models.json
file. This should include the model's name, its supported modes (either chat
, completion
, or both), the LLM provider (which can be either e.g. OpenAI
or HuggingFace
), and, if you are using a HuggingFace
model, an optional API KEY
.
Example of models configuration - models.json
:
"gpt-3.5-turbo": {
"id": "gpt-3.5-turbo",
"name": "gpt-3.5-turbo",
"mode": [
"chat",
"assistant",
"langchain",
"llama_index"
],
"langchain": {
"provider": "openai",
"mode": [
"chat"
],
"args": [
{
"name": "model_name",
"value": "gpt-3.5-turbo",
"type": "str"
}
],
"env": [
{
"name": "OPENAI_API_KEY",
"value": "{api_key}"
}
]
},
"llama_index": {
"provider": "openai",
"mode": [
"chat"
],
"args": [
{
"name": "model",
"value": "gpt-3.5-turbo",
"type": "str"
}
],
"env": [
{
"name": "OPENAI_API_KEY",
"value": "{api_key}"
}
]
},
"ctx": 4096,
"tokens": 4096,
"default": false
},
There is built-in support for those LLMs providers:
- OpenAI (openai)
- Azure OpenAI (azure_openai)
- Google (google)
- HuggingFace (huggingface)
- Anthropic (anthropic)
- Ollama (ollama)
Using other models (non-GPT)
Llama 3, Mistral, and other local models
How to use locally installed Llama 3 or Mistral models:
-
Choose a working mode:
Chat with files
orLangchain
. -
On the models list - select, edit, or add a new model (with
ollama
provider). You can edit the model settings through the right mouse button click ->Edit
, then configure the model parameters in theadvanced
section. -
Download and install Ollama from here: https://github.com/ollama/ollama
For example, on Linux:
curl -fsSL https://ollama.com/install.sh | sh
- Run the model (e.g. Llama 3) locally on your machine. For example, on Linux:
ollama run llama3.1
- Return to PyGPT and select the correct model from models list to chat with selected model using Ollama running locally.
Example available models
- llama3.1
- codellama
- mistral
- llama2-uncensored
You can add more models by editing the models list.
List of all models supported by Ollama
https://github.com/ollama/ollama
IMPORTANT: Remember to define the correct model name in the **kwargs list in the model settings.
Using local embedding models
Refer to: https://docs.llamaindex.ai/en/stable/examples/embeddings/ollama_embedding/
You can use an Ollama instance for embeddings. Simply select the ollama
provider in:
Config -> Settings -> Indexes (llama-index) -> Embeddings -> Embeddings provider
Define parameters like model name and Ollama base URL in the Embeddings provider **kwargs list, e.g.:
-
name:
model_name
, value:llama3.1
, type:str
-
name:
base_url
, value:http://localhost:11434
, type:str
Google Gemini and Anthropic Claude
To use Gemini
or Claude
models, select the Chat with files
mode in PyGPT and select a predefined model.
Remember to configure the required parameters like API keys in the model ENV config fields (RMB click on the model name and select Edit
).
Google Gemini
Required ENV:
- GOOGLE_API_KEY
Required **kwargs:
- model
Anthropic Claude
Required ENV:
- ANTHROPIC_API_KEY
Required **kwargs:
- model
Adding custom LLM providers
Handling LLMs with Langchain and Llama-index is implemented through separated wrappers. This allows for the addition of support for any provider and model available via Langchain or Llama-index. All built-in wrappers for the models and its providers are placed in the pygpt_net.provider.llms
.
These wrappers are loaded into the application during startup using launcher.add_llm()
method:
# app.py
from pygpt_net.provider.llms.openai import OpenAILLM
from pygpt_net.provider.llms.azure_openai import AzureOpenAILLM
from pygpt_net.provider.llms.anthropic import AnthropicLLM
from pygpt_net.provider.llms.hugging_face import HuggingFaceLLM
from pygpt_net.provider.llms.ollama import OllamaLLM
from pygpt_net.provider.llms.google import GoogleLLM
def run(**kwargs):
"""Runs the app."""
# Initialize the app
launcher = Launcher()
launcher.init()
# Register plugins
...
# Register langchain and llama-index LLMs wrappers
launcher.add_llm(OpenAILLM())
launcher.add_llm(AzureOpenAILLM())
launcher.add_llm(AnthropicLLM())
launcher.add_llm(HuggingFaceLLM())
launcher.add_llm(OllamaLLM())
launcher.add_llm(GoogleLLM())
# Launch the app
launcher.run()
To add support for providers not included by default, you can create your own wrapper that returns a custom model to the application and then pass this custom wrapper to the launcher.
Extending PyGPT with custom plugins and LLM wrappers is straightforward:
- Pass instances of custom plugins and LLM wrappers directly to the launcher.
To register custom LLM wrappers:
- Provide a list of LLM wrapper instances as
llms
keyword argument.
Example:
# launcher.py
from pygpt_net.app import run
from plugins import CustomPlugin, OtherCustomPlugin
from llms import CustomLLM
plugins = [
CustomPlugin(),
OtherCustomPlugin(),
]
llms = [
CustomLLM(), # <--- custom LLM provider (wrapper)
]
vector_stores = []
run(
plugins=plugins,
llms=llms,
vector_stores=vector_stores,
)
Examples (tutorial files)
See the examples
directory in this repository with examples of custom launcher, plugin, vector store, LLM (Langchain and Llama-index) provider and data loader:
-
examples/custom_launcher.py
-
examples/example_audio_input.py
-
examples/example_audio_output.py
-
examples/example_data_loader.py
-
examples/example_llm.py
<-- use it as an example -
examples/example_plugin.py
-
examples/example_vector_store.py
-
examples/example_web_search.py
These example files can be used as a starting point for creating your own extensions for PyGPT.
To integrate your own model or provider into PyGPT, you can also reference the classes located in the pygpt_net.provider.llms
. These samples can act as an more complex example for your custom class. Ensure that your custom wrapper class includes two essential methods: chat
and completion
. These methods should return the respective objects required for the model to operate in chat
and completion
modes.
Every single LLM provider (wrapper) inherits from BaseLLM
class and can provide 3 components: provider for Langchain, provider for Llama-index, and provider for Embeddings.
Adding custom Vector Store providers
From version 2.0.114 you can also register your own Vector Store provider:
# app.py
# vector stores
from pygpt_net.provider.vector_stores.chroma import ChromaProvider
from pygpt_net.provider.vector_stores.elasticsearch import ElasticsearchProvider
from pygpt_net.provider.vector_stores.pinecode import PinecodeProvider
from pygpt_net.provider.vector_stores.redis import RedisProvider
from pygpt_net.provider.vector_stores.simple import SimpleProvider
def run(**kwargs):
# ...
# register base vector store providers (llama-index)
launcher.add_vector_store(ChromaProvider())
launcher.add_vector_store(ElasticsearchProvider())
launcher.add_vector_store(PinecodeProvider())
launcher.add_vector_store(RedisProvider())
launcher.add_vector_store(SimpleProvider())
# register custom vector store providers (llama-index)
vector_stores = kwargs.get('vector_stores', None)
if isinstance(vector_stores, list):
for store in vector_stores:
launcher.add_vector_store(store)
# ...
To register your custom vector store provider just register it by passing provider instance in vector_stores
keyword argument:
# custom_launcher.py
from pygpt_net.app import run
from plugins import CustomPlugin, OtherCustomPlugin
from llms import CustomLLM
from vector_stores import CustomVectorStore
plugins = [
CustomPlugin(),
OtherCustomPlugin(),
]
llms = [
CustomLLM(),
]
vector_stores = [
CustomVectorStore(), # <--- custom vector store provider
]
run(
plugins=plugins,
llms=llms,
vector_stores=vector_stores,
)
Plugins
PyGPT can be enhanced with plugins to add new features.
Tip: Plugins works best with GPT-4 models.
The following plugins are currently available, and model can use them instantly:
-
Audio Input
- provides speech recognition. -
Audio Output
- provides voice synthesis. -
Autonomous Agent (inline)
- enables autonomous conversation (AI to AI), manages loop, and connects output back to input. This is the inline Agent mode. -
Chat with files (Llama-index, inline)
- plugin integratesLlama-index
storage in any chat and provides additional knowledge into context (from indexed files and previous context from database). -
Command: API calls
- plugin lets you connect the model to the external services using custom defined API calls. -
Command: Code Interpreter
- responsible for generating and executing Python code, functioning much like the Code Interpreter on ChatGPT, but locally. This means GPT can interface with any script, application, or code. The plugin can also execute system commands, allowing GPT to integrate with your operating system. Plugins can work in conjunction to perform sequential tasks; for example, theFiles
plugin can write generated Python code to a file, which theCode Interpreter
can execute it and return its result to GPT. -
Command: Custom Commands
- allows you to create and execute custom commands on your system. -
Command: Files I/O
- provides access to the local filesystem, enabling GPT to read and write files, as well as list and create directories. -
Command: Mouse and Keyboard
- provides the ability to control the mouse and keyboard by the model. -
Command: Web Search
- provides the ability to connect to the Web, search web pages for current data, and index external content using Llama-index data loaders. -
Command: Serial port / USB
- plugin provides commands for reading and sending data to USB ports. -
Context history (calendar, inline)
- provides access to context history database. -
Crontab / Task scheduler
- plugin provides cron-based job scheduling - you can schedule tasks/prompts to be sent at any time using cron-based syntax for task setup. -
DALL-E 3: Image Generation (inline)
- integrates DALL-E 3 image generation with any chat and mode. Just enable and ask for image in Chat mode, using standard model like GPT-4. The plugin does not require theExecute commands
option to be enabled. -
Experts (inline)
- allows calling experts in any chat mode. This is the inline Experts (co-op) mode. -
GPT-4 Vision (inline)
- integrates Vision capabilities with any chat mode, not just Vision mode. When the plugin is enabled, the model temporarily switches to vision in the background when an image attachment or vision capture is provided. -
Real Time
- automatically appends the current date and time to the system prompt, informing the model about current time. -
System Prompt Extra (append)
- appends additional system prompts (extra data) from a list to every current system prompt. You can enhance every system prompt with extra instructions that will be automatically appended to the system prompt. -
Voice Control (inline)
- provides voice control command execution within a conversation.
Audio Input
The plugin facilitates speech recognition (by default using the Whisper
model from OpenAI, Google
and Bing
are also available). It allows for voice commands to be relayed to the AI using your own voice. Whisper doesn't require any extra API keys or additional configurations; it uses the main OpenAI key. In the plugin's configuration options, you should adjust the volume level (min energy) at which the plugin will respond to your microphone. Once the plugin is activated, a new Speak
option will appear at the bottom near the Send
button - when this is enabled, the application will respond to the voice received from the microphone.
The plugin can be extended with other speech recognition providers.
Options:
Provider
provider
Choose the provider. Default: Whisper
Available providers:
- Whisper (via
OpenAI API
) - Whisper (local model) - not available in compiled and Snap versions, only Python/PyPi version
- Google (via
SpeechRecognition
library) - Google Cloud (via
SpeechRecognition
library) - Microsoft Bing (via
SpeechRecognition
library)
Whisper (API)
Model
whisper_model
Choose the model. Default: whisper-1
Whisper (local)
Model
whisper_local_model
Choose the local model. Default: base
Available models: https://github.com/openai/whisper
Additional keywords arguments
google_args
Additional keywords arguments for r.recognize_google(audio, **kwargs)
Google Cloud
Additional keywords arguments
google_cloud_args
Additional keywords arguments for r.recognize_google_cloud(audio, **kwargs)
Bing
Additional keywords arguments
bing_args
Additional keywords arguments for r.recognize_bing(audio, **kwargs)
General options
Auto send
auto_send
Automatically send recognized speech as input text after recognition. Default: True
Advanced mode
advanced
Enable only if you want to use advanced mode and the settings below. Do not enable this option if you just want to use the simplified mode (default). Default: False
Advanced mode options
Timeout
timeout
The duration in seconds that the application waits for voice input from the microphone. Default: 5
Phrase max length
phrase_length
Maximum duration for a voice sample (in seconds). Default: 10
Min energy
min_energy
Minimum threshold multiplier above the noise level to begin recording. Default: 1.3
Adjust for ambient noise
adjust_noise
Enables adjustment to ambient noise levels. Default: True
Continuous listen
continuous_listen
Experimental: continuous listening - do not stop listening after a single input.
Warning: This feature may lead to unexpected results and requires fine-tuning with
the rest of the options! If disabled, listening must be started manually
by enabling the Speak
option. Default: False
Wait for response
wait_response
Wait for a response before initiating listening for the next input. Default: True
Magic word
magic_word
Activate listening only after the magic word is provided. Default: False
Reset Magic word
magic_word_reset
Reset the magic word status after it is received (the magic word will need to be provided again). Default: True
Magic words
magic_words
List of magic words to initiate listening (Magic word mode must be enabled). Default: OK, Okay, Hey GPT, OK GPT
Magic word timeout
magic_word_timeout
The number of seconds the application waits for magic word. Default: 1
Magic word phrase max length
magic_word_phrase_length
The minimum phrase duration for magic word. Default: 2
Prefix words
prefix_words
List of words that must initiate each phrase to be processed. For example, you can define words like "OK" or "GPT"—if set, any phrases not starting with those words will be ignored. Insert multiple words or phrases separated by commas. Leave empty to deactivate. Default: empty
Stop words
stop_words
List of words that will stop the listening process. Default: stop, exit, quit, end, finish, close, terminate, kill, halt, abort
Options related to Speech Recognition internals:
energy_threshold
recognition_energy_threshold
Represents the energy level threshold for sounds. Default: 300
dynamic_energy_threshold
recognition_dynamic_energy_threshold
Represents whether the energy level threshold (see recognizer_instance.energy_threshold) for sounds
should be automatically adjusted based on the currently ambient noise level while listening. Default: True
dynamic_energy_adjustment_damping
recognition_dynamic_energy_adjustment_damping
Represents approximately the fraction of the current energy threshold that is retained after one second
of dynamic threshold adjustment. Default: 0.15
pause_threshold
recognition_pause_threshold
Represents the minimum length of silence (in seconds) that will register as the end of a phrase. Default: 0.8
adjust_for_ambient_noise: duration
recognition_adjust_for_ambient_noise_duration
The duration parameter is the maximum number of seconds that it will dynamically adjust the threshold
for before returning. Default: 1
Options reference: https://pypi.org/project/SpeechRecognition/1.3.1/
Audio Output
The plugin lets you turn text into speech using the TTS model from OpenAI or other services like Microsoft Azure
, Google
, and Eleven Labs
. You can add more text-to-speech providers to it too. OpenAI TTS
does not require any additional API keys or extra configuration; it utilizes the main OpenAI key.
Microsoft Azure requires to have an Azure API Key. Before using speech synthesis via Microsoft Azure
, Google
or Eleven Labs
, you must configure the audio plugin with your API keys, regions and voices if required.
Through the available options, you can select the voice that you want the model to use. More voice synthesis providers coming soon.
To enable voice synthesis, activate the Audio Output
plugin in the Plugins
menu or turn on the Audio Output
option in the Audio / Voice
menu (both options in the menu achieve the same outcome).
Options
Provider
provider
Choose the provider. Default: OpenAI TTS
Available providers:
- OpenAI TTS
- Microsoft Azure TTS
- Google TTS
- Eleven Labs TTS
OpenAI Text-To-Speech
Model
openai_model
Choose the model. Available options:
- tts-1
- tts-1-hd
Default: tts-1
Voice
openai_voice
Choose the voice. Available voices to choose from:
- alloy
- echo
- fable
- onyx
- nova
- shimmer
Default: alloy
Microsoft Azure Text-To-Speech
Azure API Key
azure_api_key
Here, you should enter the API key, which can be obtained by registering for free on the following website: https://azure.microsoft.com/en-us/services/cognitive-services/text-to-speech
Azure Region
azure_region
You must also provide the appropriate region for Azure here. Default: eastus
Voice (EN)
azure_voice_en
Here you can specify the name of the voice used for speech synthesis for English. Default: en-US-AriaNeural
Voice (non-English)
azure_voice_pl
Here you can specify the name of the voice used for speech synthesis for other non-english languages. Default: pl-PL-AgnieszkaNeural
Google Text-To-Speech
Google Cloud Text-to-speech API Key
google_api_key
You can obtain your own API key at: https://console.cloud.google.com/apis/library/texttospeech.googleapis.com
Voice
google_voice
Specify voice. Voices: https://cloud.google.com/text-to-speech/docs/voices
Language code
google_api_key
Language code. Language codes: https://cloud.google.com/speech-to-text/docs/speech-to-text-supported-languages
Eleven Labs Text-To-Speech
Eleven Labs API Key
eleven_labs_api_key
You can obtain your own API key at: https://elevenlabs.io/speech-synthesis
Voice ID
eleven_labs_voice
Voice ID. Voices: https://elevenlabs.io/voice-library
Model
eleven_labs_model
Specify model. Models: https://elevenlabs.io/docs/speech-synthesis/models
If speech synthesis is enabled, a voice will be additionally generated in the background while generating a response via GPT.
Both OpenAI TTS
and OpenAI Whisper
use the same single API key provided for the OpenAI API, with no additional keys required.
Autonomous Agent (inline)
WARNING: Please use autonomous mode with caution! - this mode, when connected with other plugins, may produce unexpected results!
The plugin activates autonomous mode in standard chat modes, where AI begins a conversation with itself. You can set this loop to run for any number of iterations. Throughout this sequence, the model will engage in self-dialogue, answering his own questions and comments, in order to find the best possible solution, subjecting previously generated steps to criticism.
This mode is similar to Auto-GPT
- it can be used to create more advanced inferences and to solve problems by breaking them down into subtasks that the model will autonomously perform one after another until the goal is achieved. The plugin is capable of working in cooperation with other plugins, thus it can utilize tools such as web search, access to the file system, or image generation using DALL-E
.
You can adjust the number of iterations for the self-conversation in the Plugins / Settings...
menu under the following option:
Iterations
iterations
Default: 3
WARNING: Setting this option to 0
activates an infinity loop which can generate a large number of requests and cause very high token consumption, so use this option with caution!
Prompts
prompts
Editable list of prompts used to instruct how to handle autonomous mode, you can create as many prompts as you want. First active prompt on list will be used to handle autonomous mode. INFO: At least one active prompt is required!
Auto-stop after goal is reached
auto_stop
If enabled, plugin will stop after goal is reached." Default: True
Reverse roles between iterations
reverse_roles
Only for Completion/Langchain modes.
If enabled, this option reverses the roles (AI <> user) with each iteration. For example,
if in the previous iteration the response was generated for "Batman," the next iteration will use that
response to generate an input for "Joker." Default: True
Chat with files (Llama-index, inline)
Plugin integrates Llama-index
storage in any chat and provides additional knowledge into context.
Ask Llama-index first
ask_llama_first
When enabled, then Llama-index
will be asked first, and response will be used as additional knowledge in prompt. When disabled, then Llama-index
will be asked only when needed. INFO: Disabled in autonomous mode (via plugin)! Default: False
Auto-prepare question before asking Llama-index first
prepare_question
When enabled, then question will be prepared before asking Llama-index first to create best query. Default: False
Model for question preparation
model_prepare_question
Model used to prepare question before asking Llama-index. Default: gpt-3.5-turbo
Max output tokens for question preparation
prepare_question_max_tokens
Max tokens in output when preparing question before asking Llama-index. Default: 500
Prompt for question preparation
syntax_prepare_question
System prompt for question preparation.
Max characters in question
max_question_chars
Max characters in question when querying Llama-index, 0 = no limit. Default: 1000
Append metadata to context
append_meta
If enabled, then metadata from Llama-index will be appended to additional context. Default: False
Model
model_query
Model used for querying Llama-index
. Default: gpt-3.5-turbo
Indexes IDs
idx
Indexes to use. If you want to use multiple indexes at once then separate them by comma. Default: base
Command: API calls
PyGPT lets you connect the model to the external services using custom defined API calls.
To activate this feature, turn on the Command: API calls
plugin found in the Plugins
menu.
In this plugin you can provide list of allowed API calls, their parameters and request types. The model will replace provided placeholders with required params and make API call to external service.
Your custom API calls
cmds
You can provide custom API calls on the list here.
Params to specify for API call:
- Enabled (True / False)
- Name: unique API call name (ID)
- Instruction: description for model when and how to use this API call
- GET params: list, separated by comma, GET params to append to endpoint URL
- POST params: list, separated by comma, POST params to send in POST request
- POST JSON: provide the JSON object, template to send in POST JSON request, use
%param%
as POST param placeholders - Headers: provide the JSON object with dictionary of extra request headers, like Authorization, API keys, etc.
- Request type: use GET for basic GET request, POST to send encoded POST params or POST_JSON to send JSON-encoded object as body
- Endpoint: API endpoint URL, use
{param}
as GET param placeholders
An example API call is provided with plugin by default, it calls the Wikipedia API:
- Name:
search_wiki
- Instructiom:
send API call to Wikipedia to search pages by query
- GET params:
query, limit
- Type:
GET
- API endpoint: https://en.wikipedia.org/w/api.php?action=opensearch&limit={limit}&format=json&search={query}
In the above example, every time you ask the model for query Wiki for provided query (e.g. Call the Wikipedia API for query: Nikola Tesla
) it will replace placeholders in provided API endpoint URL with a generated query and it will call prepared API endpoint URL, like below:
https://en.wikipedia.org/w/api.php?action=opensearch&limit=5&format=json&search=Nikola%20Tesla
You can specify type of request: GET
, POST
and POST JSON
.
In the POST
request you can provide POST params, they will be encoded and send as POST data.
In the POST JSON
request you must provide JSON object template to be send, using %param%
placeholders in the JSON object to be replaced with the model.
You can also provide any required credentials, like Authorization headers, API keys, tokens, etc. using the headers
field - you can provide a JSON object here with a dictionary key => value
- provided JSON object will be converted to headers dictonary and send with the request.
Disable SSL verify
disable_ssl
Disables SSL verification when making requests. Default: False
Timeout
timeout
Connection timeout (seconds). Default: 5
User agent
user_agent
User agent to use when making requests. Default: Mozilla/5.0
Command: Code Interpreter
Executing Code
The plugin operates similarly to the Code Interpreter
in ChatGPT
, with the key difference that it works locally on the user's system. It allows for the execution of any Python code on the computer that the model may generate. When combined with the Command: Files I/O
plugin, it facilitates running code from files saved in the data
directory. You can also prepare your own code files and enable the model to use them or add your own plugin for this purpose. You can execute commands and code on the host machine or in Docker container.
Code interpreter: a real-time Python code interpreter is built-in. Click the <>
icon to open the interpreter window. Both the input and output of the interpreter are connected to the plugin. Any output generated by the executed code will be displayed in the interpreter. Additionally, you can request the model to retrieve contents from the interpreter window output.
Executing system commands
Another feature is the ability to execute system commands and return their results. With this functionality, the plugin can run any system command, retrieve the output, and then feed the result back to the model. When used with other features, this provides extensive integration capabilities with the system.
Tip: always remember to enable the Execute commands
option to allow execute commands from the plugins.
Options:
Python command template
python_cmd_tpl
Python command template (use {filename} as path to file placeholder). Default: python3 {filename}
Enable: code_execute
cmd.code_execute
Allows code_execute
command execution. If enabled, provides Python code execution (generate and execute from file). Default: True
Enable: code_execute_all
cmd.code_execute_all
Allows code_execute_all
command execution. If enabled, provides execution of all the Python code in interpreter window. Default: True
Enable: code_execute_file
cmd.code_execute_file
Allows code_execute_file
command execution. If enabled, provides Python code execution from existing .py file. Default: True
Enable: sys_exec
cmd.sys_exec
Allows sys_exec
command execution. If enabled, provides system commands execution. Default: True
Enable: get_python_output
cmd.get_python_output
Allows get_python_output
command execution. If enabled, it allows retrieval of the output from the Python code interpreter window. Default: True
Enable: get_python_input
cmd.get_python_input
Allows get_python_input
command execution. If enabled, it allows retrieval all input code (from edit section) from the Python code interpreter window. Default: True
Enable: clear_python_output
cmd.clear_python_output
Allows clear_python_output
command execution. If enabled, it allows clear the output of the Python code interpreter window. Default: True
Enable: render_html_output
cmd.render_html_output
Allows render_html_output
command execution. If enabled, it allows to render HTML/JS code in built-it HTML/JS browser (HTML Canvas). Default: True
Enable: get_html_output
cmd.get_html_output
Allows get_html_output
command execution. If enabled, it allows retrieval current output from HTML Canvas. Default: True
Sandbox (docker container)
sandbox_docker
Execute commands in sandbox (docker container). Docker must be installed and running. Default: False
Docker image
sandbox_docker_image
Docker image to use for sandbox Default: python:3.8-alpine
Auto-append CWD to sys_exec
auto_cwd
Automatically append current working directory to sys_exec
command. Default: True
Connect to the Python code interpreter window
attach_output
Automatically attach code input/output to the Python code interpreter window. Default: True
Command: Custom Commands
With the Custom Commands
plugin, you can integrate PyGPT with your operating system and scripts or applications. You can define an unlimited number of custom commands and instruct GPT on when and how to execute them. Configuration is straightforward, and PyGPT includes a simple tutorial command for testing and learning how it works:
To add a new custom command, click the ADD button and then:
- Provide a name for your command: this is a unique identifier for GPT.
- Provide an
instruction
explaining what this command does; GPT will know when to use the command based on this instruction. - Define
params
, separated by commas - GPT will send data to your commands using these params. These params will be placed into placeholders you have defined in thecmd
field. For example:
If you want instruct GPT to execute your Python script named smart_home_lights.py
with an argument, such as 1
to turn the light ON, and 0
to turn it OFF, define it as follows:
- name: lights_cmd
- instruction: turn lights on/off; use 1 as 'arg' to turn ON, or 0 as 'arg' to turn OFF
- params: arg
- cmd:
python /path/to/smart_home_lights.py {arg}
The setup defined above will work as follows:
When you ask GPT to turn your lights ON, GPT will locate this command and prepare the command python /path/to/smart_home_lights.py {arg}
with {arg}
replaced with 1
. On your system, it will execute the command:
python /path/to/smart_home_lights.py 1
And that's all. GPT will take care of the rest when you ask to turn ON the lights.
You can define as many placeholders and parameters as you desire.
Here are some predefined system placeholders for use:
{_time}
- current time inH:M:S
format{_date}
- current date inY-m-d
format{_datetime}
- current date and time inY-m-d H:M:S
format{_file}
- path to the file from which the command is invoked{_home}
- path to PyGPT's home/working directory
You can connect predefined placeholders with your own params.
Example:
- name: song_cmd
- instruction: store the generated song on hard disk
- params: song_text, title
- cmd:
echo "{song_text}" > {_home}/{title}.txt
With the setup above, every time you ask GPT to generate a song for you and save it to the disk, it will:
- Generate a song.
- Locate your command.
- Execute the command by sending the song's title and text.
- The command will save the song text into a file named with the song's title in the PyGPT working directory.
Example tutorial command
PyGPT provides simple tutorial command to show how it works, to run it just ask GPT for execute tutorial test command
and it will show you how it works:
> please execute tutorial test command
Command: Files I/O
The plugin allows for file management within the local filesystem. It enables the model to create, read, write and query files located in the data
directory, which can be found in the user's work directory. With this plugin, the AI can also generate Python code files and thereafter execute that code within the user's system.
Plugin capabilities include:
- Sending files as attachments
- Reading files
- Appending to files
- Writing files
- Deleting files and directories
- Listing files and directories
- Creating directories
- Downloading files
- Copying files and directories
- Moving (renaming) files and directories
- Reading file info
- Indexing files and directories using Llama-index
- Querying files using Llama-index
- Searching for files and directories
If a file being created (with the same name) already exists, a prefix including the date and time is added to the file name.
Options:
General
Enable: send (upload) file as attachment
cmd.send_file
Allows cmd.send_file
command execution. Default: True
Enable: read file
cmd.read_file
Allows read_file
command execution. Default: True
Enable: append to file
cmd.append_file
Allows append_file
command execution. Text-based files only (plain text, JSON, CSV, etc.) Default: True
Enable: save file
cmd.save_file
Allows save_file
command execution. Text-based files only (plain text, JSON, CSV, etc.) Default: True
Enable: delete file
cmd.delete_file
Allows delete_file
command execution. Default: True
Enable: list files (ls)
cmd.list_files
Allows list_dir
command execution. Default: True
Enable: list files in dirs in directory (ls)
cmd.list_dir
Allows mkdir
command execution. Default: True
Enable: downloading files
cmd.download_file
Allows download_file
command execution. Default: True
Enable: removing directories
cmd.rmdir
Allows rmdir
command execution. Default: True
Enable: copying files
cmd.copy_file
Allows copy_file
command execution. Default: True
Enable: copying directories (recursive)
cmd.copy_dir
Allows copy_dir
command execution. Default: True
Enable: move files and directories (rename)
cmd.move
Allows move
command execution. Default: True
Enable: check if path is directory
cmd.is_dir
Allows is_dir
command execution. Default: True
Enable: check if path is file
cmd.is_file
Allows is_file
command execution. Default: True
Enable: check if file or directory exists
cmd.file_exists
Allows file_exists
command execution. Default: True
Enable: get file size
cmd.file_size
Allows file_size
command execution. Default: True
Enable: get file info
cmd.file_info
Allows file_info
command execution. Default: True
Enable: find file or directory
cmd.find
Allows find
command execution. Default: True
Enable: get current working directory
cmd.cwd
Allows cwd
command execution. Default: True
Use data loaders
use_loaders
Use data loaders from Llama-index for file reading (read_file
command). Default: True
Indexing
Enable: quick query the file with Llama-index
cmd.query_file
Allows query_file
command execution (in-memory index). If enabled, model will be able to quick index file into memory and query it for data (in-memory index) Default: True
Model for query in-memory index
model_tmp_query
Model used for query temporary index for query_file
command (in-memory index). Default: gpt-3.5-turbo
Enable: indexing files to persistent index
cmd.file_index
Allows file_index
command execution. If enabled, model will be able to index file or directory using Llama-index (persistent index). Default: True
Index to use when indexing files
idx
ID of index to use for indexing files (persistent index). Default: base
Auto index reading files
auto_index
If enabled, every time file is read, it will be automatically indexed (persistent index). Default: False
Only index reading files
only_index
If enabled, file will be indexed without return its content on file read (persistent index). Default: False
Command: Mouse And Keyboard
Introduced in version: 2.4.4
(2024-11-09)
WARNING: Use this plugin with caution - allowing all options gives the model full control over the mouse and keyboard
The plugin allows for controlling the mouse and keyboard by the model. With this plugin, you can send a task to the model, e.g., "open notepad, type something in it" or "open web browser, do search, find something."
Plugin capabilities include:
- Get mouse cursor position
- Control mouse cursor position
- Control mouse clicks
- Control mouse scroll
- Control the keyboard (pressing keys, typing text)
- Making screenshots
The Execute commands
option must be enabled to use this plugin.
Options:
General
Prompt
prompt
Prompt used to instruct how to control the mouse and keyboard.
Enable: Allow mouse movement
allow_mouse_move
Allows mouse movement. Default: True
Enable: Allow mouse click
allow_mouse_click
Allows mouse click. Default: True
Enable: Allow mouse scroll
allow_mouse_scroll
Allows mouse scroll. Default: True
Enable: Allow keyboard key press
allow_keyboard
Allows keyboard typing. Default: True
Enable: Allow making screenshots
allow_screenshot
Allows making screenshots. Default: True
Enable: mouse_get_pos
cmd.mouse_get_pos
Allows mouse_get_pos
command execution. Default: True
Enable: mouse_set_pos
cmd.mouse_set_pos
Allows mouse_set_pos
command execution. Default: True
Enable: make_screenshot
cmd.make_screenshot
Allows make_screenshot
command execution. Default: True
Enable: mouse_click
cmd.mouse_click
Allows mouse_click
command execution. Default: True
Enable: mouse_move
cmd.mouse_move
Allows mouse_move
command execution. Default: True
Enable: mouse_scroll
cmd.mouse_scroll
Allows mouse_scroll
command execution. Default: True
Enable: keyboard_key
cmd.keyboard_key
Allows keyboard_key
command execution. Default: True
Enable: keyboard_type
cmd.keyboard_type
Allows keyboard_type
command execution. Default: True
Command: Web Search
PyGPT lets you connect GPT to the internet and carry out web searches in real time as you make queries.
To activate this feature, turn on the Command: Web Search
plugin found in the Plugins
menu.
Web searches are provided by Google Custom Search Engine
and Microsoft Bing
APIs and can be extended with other search engine providers.
Options
Provider
provider
Choose the provider. Default: Google
Available providers:
- Microsoft Bing
To use this provider, you need an API key, which you can obtain by registering an account at:
https://developers.google.com/custom-search/v1/overview
After registering an account, create a new project and select it from the list of available projects:
https://programmablesearchengine.google.com/controlpanel/all
After selecting your project, you need to enable the Whole Internet Search
option in its settings.
Then, copy the following two items into PyGPT:
Api Key
CX ID
These data must be configured in the appropriate fields in the Plugins / Settings...
menu:
Google Custom Search API KEY
google_api_key
You can obtain your own API key at https://developers.google.com/custom-search/v1/overview
Google Custom Search CX ID
google_api_cx
You will find your CX ID at https://programmablesearchengine.google.com/controlpanel/all - remember to enable "Search on ALL internet pages" option in project settings.
Microsoft Bing
Bing Search API KEY
bing_api_key
You can obtain your own API key at https://www.microsoft.com/en-us/bing/apis/bing-web-search-api
Bing Search API endpoint
bing_endpoint
API endpoint for Bing Search API, default: https://api.bing.microsoft.com/v7.0/search
General options
Number of pages to search
num_pages
Number of max pages to search per query. Default: 10
Max content characters
max_page_content_length
Max characters of page content to get (0 = unlimited). Default: 0
Per-page content chunk size
chunk_size
Per-page content chunk size (max characters per chunk). Default: 20000
Disable SSL verify
disable_ssl
Disables SSL verification when crawling web pages. Default: False
Timeout
timeout
Connection timeout (seconds). Default: 5
User agent
user_agent
User agent to use when making requests. Default: Mozilla/5.0
.
Max result length
max_result_length
Max length of summarized result (characters). Default: 1500
Max summary tokens
summary_max_tokens
Max tokens in output when generating summary. Default: 1500
Enable: search the Web
cmd.web_search
Allows web_search
command execution. If enabled, model will be able to search the Web. Default: True
Enable: opening URLs
cmd.web_url_open
Allows web_url_open
command execution. If enabled, model will be able to open specified URL and summarize content. Default: True
Enable: reading the raw content from URLs
cmd.web_url_raw
Allows web_url_raw
command execution. If enabled, model will be able to open specified URL and get the raw content. Default: True
Enable: getting a list of URLs from search results
cmd.web_urls
Allows web_urls
command execution. If enabled, model will be able to search the Web and get founded URLs list. Default: True
Enable: indexing web and external content
cmd.web_index
Allows web_index
command execution. If enabled, model will be able to index pages and external content using Llama-index (persistent index). Default: True
Enable: quick query the web and external content
cmd.web_index_query
Allows web_index_query
command execution. If enabled, model will be able to quick index and query web content using Llama-index (in-memory index). Default: True
Auto-index all used URLs using Llama-index
auto_index
If enabled, every URL used by the model will be automatically indexed using Llama-index (persistent index). Default: False
Index to use
idx
ID of index to use for web page indexing (persistent index). Default: base
Model used for web page summarize
summary_model
Model used for web page summarize. Default: gpt-3.5-turbo-1106
Summarize prompt
prompt_summarize
Prompt used for web search results summarize, use {query} as a placeholder for search query.
Summarize prompt (URL open)
prompt_summarize_url
Prompt used for specified URL page summarize.
Command: Serial port / USB
Provides commands for reading and sending data to USB ports.
Tip: in Snap version you must connect the interface first: https://snapcraft.io/docs/serial-port-interface
You can send commands to, for example, an Arduino or any other controllers using the serial port for communication.
Above is an example of co-operation with the following code uploaded to Arduino Uno
and connected via USB:
// example.ino
void setup() {
Serial.begin(9600);
}
void loop() {
if (Serial.available() > 0) {
String input = Serial.readStringUntil('\n');
if (input.length() > 0) {
Serial.println("OK, response for: " + input);
}
}
}
Options
USB port
serial_port
USB port name, e.g. /dev/ttyUSB0
, /dev/ttyACM0
, COM3
. Default: /dev/ttyUSB0
Connection speed (baudrate, bps)
serial_bps
Port connection speed, in bps. Default: 9600
Timeout
timeout
Timeout in seconds. Default: 1
Sleep
sleep
Sleep in seconds after connection Default: 2
Enable: Send text commands to USB port
cmd.serial_send
Allows serial_send
command execution. Default: True
Enable: Send raw bytes to USB port
cmd.serial_send_bytes
Allows serial_send_bytes
command execution. Default: True
Enable: Read data from USB port
cmd.serial_read
Allows serial_read
command execution. Default: True
Context history (calendar, inline)
Provides access to context history database. Plugin also provides access to reading and creating day notes.
Examples of use, you can ask e.g. for the following:
Give me today day note
Save a new note for today
Update my today note with...
Get the list of yesterday conversations
Get contents of conversation ID 123
etc.
You can also use @
ID tags to automatically use summary of previous contexts in current discussion.
To use context from previous discussion with specified ID use following syntax in your query:
@123
Where 123
is the ID of previous context (conversation) in database, example of use:
Let's talk about discussion @123
Options
Enable: using context @ ID tags
use_tags
When enabled, it allows to automatically retrieve context history using @ tags, e.g. use @123 in question to use summary of context with ID 123 as additional context. Default: False
Enable: get date range context list
cmd.get_ctx_list_in_date_range
Allows get_ctx_list_in_date_range
command execution. If enabled, it allows getting the list of context history (previous conversations). Default: `True
Enable: get context content by ID
cmd.get_ctx_content_by_id
Allows get_ctx_content_by_id
command execution. If enabled, it allows getting summarized content of context with defined ID. Default: True
Enable: count contexts in date range
cmd.count_ctx_in_date
Allows count_ctx_in_date
command execution. If enabled, it allows counting contexts in date range. Default: True
Enable: get day note
cmd.get_day_note
Allows get_day_note
command execution. If enabled, it allows retrieving day note for specific date. Default: True
Enable: add day note
cmd.add_day_note
Allows add_day_note
command execution. If enabled, it allows adding day note for specific date. Default: True
Enable: update day note
cmd.update_day_note
Allows update_day_note
command execution. If enabled, it allows updating day note for specific date. Default: True
Enable: remove day note
cmd.remove_day_note
Allows remove_day_note
command execution. If enabled, it allows removing day note for specific date. Default: True
Model
model_summarize
Model used for summarize. Default: gpt-3.5-turbo
Max summary tokens
summary_max_tokens
Max tokens in output when generating summary. Default: 1500
Max contexts to retrieve
ctx_items_limit
Max items in context history list to retrieve in one query. 0 = no limit. Default: 30
Per-context items content chunk size
chunk_size
Per-context content chunk size (max characters per chunk). Default: 100000 chars
Options (advanced)
Prompt: @ tags (system)
prompt_tag_system
Prompt for use @ tag (system).
Prompt: @ tags (summary)
prompt_tag_summary
Prompt for use @ tag (summary).
Crontab / Task scheduler
Plugin provides cron-based job scheduling - you can schedule tasks/prompts to be sent at any time using cron-based syntax for task setup.
Your tasks
crontab
Add your cron-style tasks here. They will be executed automatically at the times you specify in the cron-based job format. If you are unfamiliar with Cron, consider visiting the Cron Guru page for assistance: https://crontab.guru
Number of active tasks is always displayed in a tray dropdown menu:
Create a new context on job run
new_ctx
If enabled, then a new context will be created on every run of the job. Default: True
Show notification on job run
show_notify
If enabled, then a tray notification will be shown on every run of the job. Default: True
DALL-E 3: Image Generation (inline)
The plugin integrates DALL-E 3
image generation with any chat mode. Simply enable it and request an image in Chat mode, using a standard model such as GPT-4
. The plugin does not require the Execute commands
option to be enabled.
Options
Prompt
prompt
The prompt is used to generate a query for the DALL-E
image generation model, which runs in the background.
Experts (inline)
The plugin allows calling experts in any chat mode. This is the inline Experts (co-op) mode.
See the Mode -> Experts
section for more details.
GPT-4 Vision (inline)
The plugin integrates vision capabilities across all chat modes, not just Vision mode. Once enabled, it allows the model to seamlessly switch to vision processing in the background whenever an image attachment or vision capture is detected.
Tip: When using Vision (inline)
by utilizing a plugin in standard mode, such as Chat
(not Vision
mode), the + Vision
special checkbox will appear at the bottom of the Chat window. It will be automatically enabled any time you provide content for analysis (like an uploaded photo). When the checkbox is enabled, the vision model is used. If you wish to exit the vision model after image analysis, simply uncheck the checkbox. It will activate again automatically when the next image content for analysis is provided.
Options
Model
model
The model used to temporarily provide vision capabilities. Default: gpt-4-vision-preview
.
Prompt
prompt
The prompt used for vision mode. It will append or replace current system prompt when using vision model.
Replace prompt
replace_prompt
Replace whole system prompt with vision prompt against appending it to the current prompt. Default: False
Enable: capturing images from camera
cmd.camera_capture
Allows capture
command execution. If enabled, model will be able to capture images from camera itself. The Execute commands
option must be enabled. Default: False
Enable: making screenshots
cmd.make_screenshot
Allows screenshot
command execution. If enabled, model will be able to making screenshots itself. The Execute commands
option must be enabled. Default: False
Real Time
This plugin automatically adds the current date and time to each system prompt you send. You have the option to include just the date, just the time, or both.
When enabled, it quietly enhances each system prompt with current time information before sending it to GPT.
Options
Append time
hour
If enabled, it appends the current time to the system prompt. Default: True
Append date
date
If enabled, it appends the current date to the system prompt. Default: True
Template
tpl
Template to append to the system prompt. The placeholder {time}
will be replaced with the
current date and time in real-time. Default: Current time is {time}.
System Prompt Extra (append)
The plugin appends additional system prompts (extra data) from a list to every current system prompt. You can enhance every system prompt with extra instructions that will be automatically appended to the system prompt.
Options
Prompts
prompts
List of extra prompts - prompts that will be appended to system prompt. All active extra prompts defined on list will be appended to the system prompt in the order they are listed here.
Voice Control (inline)
The plugin provides voice control command execution within a conversation.
See the Accessibility
section for more details.
Creating Your Own Plugins
You can create your own plugin for PyGPT at any time. The plugin can be written in Python and then registered with the application just before launching it. All plugins included with the app are stored in the plugin
directory - you can use them as coding examples for your own plugins.
PyGPT can be extended with:
-
Custom plugins
-
Custom LLMs wrappers
-
Custom vector store providers
-
Custom data loaders
-
Custom audio input providers
-
Custom audio output providers
-
Custom web search engine providers
Examples (tutorial files)
See the examples
directory in this repository with examples of custom launcher, plugin, vector store, LLM (Langchain and Llama-index) provider and data loader:
-
examples/custom_launcher.py
-
examples/example_audio_input.py
-
examples/example_audio_output.py
-
examples/example_data_loader.py
-
examples/example_llm.py
-
examples/example_plugin.py
-
examples/example_vector_store.py
-
examples/example_web_search.py
These example files can be used as a starting point for creating your own extensions for PyGPT.
Extending PyGPT with custom plugins, LLMs wrappers and vector stores:
-
You can pass custom plugin instances, LLMs wrappers and vector store providers to the launcher.
-
This is useful if you want to extend PyGPT with your own plugins, vectors storage and LLMs.
To register custom plugins:
- Pass a list with the plugin instances as
plugins
keyword argument.
To register custom LLMs wrappers:
- Pass a list with the LLMs wrappers instances as
llms
keyword argument.
To register custom vector store providers:
- Pass a list with the vector store provider instances as
vector_stores
keyword argument.
To register custom data loaders:
- Pass a list with the data loader instances as
loaders
keyword argument.
To register custom audio input providers:
- Pass a list with the audio input provider instances as
audio_input
keyword argument.
To register custom audio output providers:
- Pass a list with the audio output provider instances as
audio_output
keyword argument.
To register custom web providers:
- Pass a list with the web provider instances as
web
keyword argument.
Example:
# custom_launcher.py
from pygpt_net.app import run
from plugins import CustomPlugin, OtherCustomPlugin
from llms import CustomLLM
from vector_stores import CustomVectorStore
plugins = [
CustomPlugin(),
OtherCustomPlugin(),
]
llms = [
CustomLLM(),
]
vector_stores = [
CustomVectorStore(),
]
run(
plugins=plugins,
llms=llms,
vector_stores=vector_stores,
)
Handling events
In the plugin, you can receive and modify dispatched events.
To do this, create a method named handle(self, event, *args, **kwargs)
and handle the received events like here:
# custom_plugin.py
from pygpt_net.core.dispatcher import Event
def handle(self, event: Event, *args, **kwargs):
"""
Handle dispatched events
:param event: event object
"""
name = event.name
data = event.data
ctx = event.ctx
if name == Event.INPUT_BEFORE:
self.some_method(data['value'])
elif name == Event.CTX_BEGIN:
self.some_other_method(ctx)
else:
# ...
List of Events
Event names are defined in Event
class in pygpt_net.core.dispatcher.Event
.
Syntax: event name
- triggered on, event data
(data type):
-
AI_NAME
- when preparing an AI name,data['value']
(string, name of the AI assistant) -
AUDIO_INPUT_RECORD_START
- start audio input recording -
AUDIO_INPUT_RECORD_STOP
- stop audio input recording -
AUDIO_INPUT_RECORD_TOGGLE
- toggle audio input recording -
AUDIO_INPUT_TRANSCRIBE
- on audio file transcribe,data['path']
(string, path to audio file) -
AUDIO_INPUT_STOP
- force stop audio input -
AUDIO_INPUT_TOGGLE
- when speech input is enabled or disabled,data['value']
(bool, True/False) -
AUDIO_OUTPUT_STOP
- force stop audio output -
AUDIO_OUTPUT_TOGGLE
- when speech output is enabled or disabled,data['value']
(bool, True/False) -
AUDIO_READ_TEXT
- on text read using speech synthesis,data['text']
(str, text to read) -
CMD_EXECUTE
- when a command is executed,data['commands']
(list, commands and arguments) -
CMD_INLINE
- when an inline command is executed,data['commands']
(list, commands and arguments) -
CMD_SYNTAX
- when appending syntax for commands,data['prompt'], data['syntax']
(string, list, prompt and list with commands usage syntax) -
CMD_SYNTAX_INLINE
- when appending syntax for commands (inline mode),data['prompt'], data['syntax']
(string, list, prompt and list with commands usage syntax) -
CTX_AFTER
- after the context item is sent,ctx
-
CTX_BEFORE
- before the context item is sent,ctx
-
CTX_BEGIN
- when context item create,ctx
-
CTX_END
- when context item handling is finished,ctx
-
CTX_SELECT
- when context is selected on list,data['value']
(int, ctx meta ID) -
DISABLE
- when the plugin is disabled,data['value']
(string, plugin ID) -
ENABLE
- when the plugin is enabled,data['value']
(string, plugin ID) -
FORCE_STOP
- on force stop plugins -
INPUT_BEFORE
- upon receiving input from the textarea,data['value']
(string, text to be sent) -
MODE_BEFORE
- before the mode is selecteddata['value'], data['prompt']
(string, string, mode ID) -
MODE_SELECT
- on mode selectdata['value']
(string, mode ID) -
MODEL_BEFORE
- before the model is selecteddata['value']
(string, model ID) -
MODEL_SELECT
- on model selectdata['value']
(string, model ID) -
PLUGIN_SETTINGS_CHANGED
- on plugin settings update (saving settings) -
PLUGIN_OPTION_GET
- on request for plugin option valuedata['name'], data['value']
(string, any, name of requested option, value) -
POST_PROMPT
- after preparing a system prompt,data['value']
(string, system prompt) -
PRE_PROMPT
- before preparing a system prompt,data['value']
(string, system prompt) -
SYSTEM_PROMPT
- when preparing a system prompt,data['value']
(string, system prompt) -
UI_ATTACHMENTS
- when the attachment upload elements are rendered,data['value']
(bool, show True/False) -
UI_VISION
- when the vision elements are rendered,data['value']
(bool, show True/False) -
USER_NAME
- when preparing a user's name,data['value']
(string, name of the user) -
USER_SEND
- just before the input text is sent,data['value']
(string, input text)
You can stop the propagation of a received event at any time by setting stop
to True
:
event.stop = True
Events flow can be debugged by enabling the option Config -> Settings -> Developer -> Log and debug events
.
Functions and commands execution
INFO: From version 2.2.20
PyGPT uses native API function calls by default. You can go back to internal syntax (described below) by switching off option Config -> Settings -> Prompts -> Use native API function calls
. Native API function calls are available in Chat, Completion and Assistant modes only (using OpenAI API).
In background, PyGPT uses an internal syntax to define commands and their parameters, which can then be used by the model and executed on the application side or even directly in the system. This syntax looks as follows (example command below):
~###~{"cmd": "send_email", "params": {"quote": "Why don't skeletons fight each other? They don't have the guts!"}}~###~
It is a JSON object wrapped between ~###~
. The application extracts the JSON object from such formatted text and executes the appropriate function based on the provided parameters and command name. Many of these types of commands are defined in plugins (e.g., those used for file operations or internet searches). You can also define your own commands using the Custom Commands
plugin, or simply by creating your own plugin and adding it to the application.
Tip: The Execute commands
option checkbox must be enabled to allow the execution of commands from plugins. Disable the option if you do not want to use commands, to prevent additional token usage (as the command execution system prompt consumes additional tokens).
When native API function calls are disabled, a special system prompt responsible for invoking commands is added to the main system prompt if the Execute commands
option is active.
However, there is an additional possibility to define your own commands and execute them with the help of GPT. These are functions - defined on the OpenAI API side and described using JSON objects. You can find a complete guide on how to define functions here:
https://platform.openai.com/docs/guides/function-calling
https://cookbook.openai.com/examples/how_to_call_functions_with_chat_models
PyGPT offers compatibility of these functions with commands used in the application. All you need to do is define the appropriate functions using the syntax required by OpenAI, and PyGPT will do the rest, translating such syntax on the fly into its own internal format.
You can define functions for modes: Chat
and Assistants
.
Note that - in Chat mode, they should be defined in Presets
, and for Assistants, in the Assistant
settings.
Example of usage:
- Chat
Create a new Preset, open the Preset edit dialog and add a new function using + Function
button with the following content:
Name: send_email
Description: Sends a quote using email
Params (JSON):
{
"type": "object",
"properties": {
"quote": {
"type": "string",
"description": "A generated funny quote"
}
},
"required": [
"quote"
]
}
Then, in the Custom Commands
plugin, create a new command with the same name and the same parameters:
Command name: send_email
Instruction/prompt: send mail
(don't needed, because it will be called on OpenAI side)
Params list: quote
Command to execute: echo "OK. Email sent: {quote}"
At next, enable the Execute commands
option and enable the plugin.
Ask GPT in Chat mode:
Create a funny quote and email it
In response you will receive prepared command, like this:
~###~{"cmd": "send_email", "params": {"quote": "Why do we tell actors to 'break a leg?' Because every play has a cast!"}}~###~
After receiving this, PyGPT will execute the system echo
command with params given from params
field and replacing {quote}
placeholder with quote
param value.
As a result, response like this will be sent to the model:
[{"request": {"cmd": "send_email"}, "result": "OK. Email sent: Why do we tell actors to 'break a leg?' Because every play has a cast!"}]
- Assistant
In this mode (via Assistants API), it should be done similarly, with the difference that here the functions should be defined in the assistant's settings.
With this flow you can use both forms - OpenAI and PyGPT - to define and execute commands and functions in the application. They will cooperate with each other and you can use them interchangeably.
Tools
PyGPT features several useful tools, including:
- Indexer
- Media Player
- Image viewer
- Text editor
- Transcribe audio/video files
- Python code interpreter
- HTML/JS Canvas (built-in HTML renderer)
Indexer
This tool allows indexing of local files or directories and external web content to a vector database, which can then be used with the Chat with Files
mode. Using this tool, you can manage local indexes and add new data with built-in Llama-index
integration.
Media Player
A simple video/audio player that allows you to play video files directly from within the app.
Image Viewer
A simple image browser that lets you preview images directly within the app.
Text Editor
A simple text editor that enables you to edit text files directly within the app.
Transcribe Audio/Video Files
An audio transcription tool with which you can prepare a transcript from a video or audio file. It will use a speech recognition plugin to generate the text from the file.
Python Code Interpreter
This tool allows you to run Python code directly from within the app. It is integrated with the Code Interpreter
plugin, ensuring that code generated by the model is automatically available from the interpreter. In the plugin settings, you can enable the execution of code in a Docker environment.
HTML/JS Canvas
Allows to render HTML/JS code in HTML Canvas (built-in renderer based on Chromium). To use it, just ask the model to render the HTML/JS code in built-in browser (HTML Canvas). Tool is integrated with the Code Interpreter
plugin.
Token usage calculation
Input tokens
The application features a token calculator. It attempts to forecast the number of tokens that a particular query will consume and displays this estimate in real time. This gives you improved control over your token usage. The app provides detailed information about the tokens used for the user's prompt, the system prompt, any additional data, and those used within the context (the memory of previous entries).
Remember that these are only approximate calculations and do not include, for example, the number of tokens consumed by some plugins. You can find the exact number of tokens used on the OpenAI website.
Total tokens
After receiving a response from the model, the application displays the actual total number of tokens used for the query (received from the API).
Configuration
Settings
The following basic options can be modified directly within the application:
Config -> Settings...
General
-
OpenAI API KEY
: The personal API key you'll need to enter into the application for it to function. -
OpenAI ORGANIZATION KEY
: The organization's API key, which is optional for use within the application. -
API Endpoint
: OpenAI API endpoint URL, default: https://api.openai.com/v1. -
Minimize to tray on exit
: Minimize to tray icon on exit. Tray icon enabled is required for this option to work. Default: False. -
Render engine
: chat output render engine:WebEngine / Chromium
- for full HTML/CSS andLegacy (markdown)
for legacy, simple markdown CSS output. Default: WebEngine / Chromium. -
OpenGL hardware acceleration
: enables hardware acceleration inWebEngine / Chromium
renderer. Default: False. -
Application environment (os.environ)
: Additional environment vars to set on application start.
Layout
-
Zoom
: Adjusts the zoom in chat window (web render view).WebEngine / Chromium
render mode only. -
Code syntax highlight
: Syntax highlight theme in code blocks.WebEngine / Chromium
render mode only. -
Font Size (chat window)
: Adjusts the font size in the chat window (plain-text) and notepads. -
Font Size (input)
: Adjusts the font size in the input window. -
Font Size (ctx list)
: Adjusts the font size in contexts list. -
Font Size (toolbox)
: Adjusts the font size in toolbox on right. -
Layout density
: Adjusts layout elements density. Default: -1. -
DPI scaling
: Enable/disable DPI scaling. Restart of the application is required for this option to take effect. Default: True. -
DPI factor
: DPI factor. Restart of the application is required for this option to take effect. Default: 1.0. -
Display tips (help descriptions)
: Display help tips, Default: True. -
Store dialog window positions
: Enable or disable dialogs positions store/restore, Default: True. -
Use theme colors in chat window
: Use color theme in chat window, Default: True. -
Disable markdown formatting in output
: Enables plain-text display in output window, Default: False.
Files and attachments
-
Store attachments in the workdir upload directory
: Enable to store a local copy of uploaded attachments for future use. Default: True -
Store images, capture and upload in data directory
: Enable to store everything in single data directory. Default: False -
Directory for file downloads
: Subdirectory for downloaded files, e.g. in Assistants mode, inside "data". Default: "download"
Context
-
Context Threshold
: Sets the number of tokens reserved for the model to respond to the next prompt. -
Limit of last contexts on list to show (0 = unlimited)
: Limit of the last contexts on list, default: 0 (unlimited) -
Show context groups on top of the context list
: Display groups on top, default: False -
Show date separators on the context list
: Show date periods, default: True -
Show date separators in groups on the context list
: Show date periods in groups, default: True -
Show date separators in pinned on the context list
: Show date periods in pinned items, default: False -
Use Context
: Toggles the use of conversation context (memory of previous inputs). -
Store History
: Toggles conversation history store. -
Store Time in History
: Chooses whether timestamps are added to the .txt files. -
Context Auto-summary
: Enables automatic generation of titles for contexts, Default: True. -
Lock incompatible modes
: If enabled, the app will create a new context when switched to an incompatible mode within an existing context. -
Search also in conversation content, not only in titles
: When enabled, context search will also consider the content of conversations, not just the titles of conversations. -
Show Llama-index sources
: If enabled, sources utilized will be displayed in the response (if available, it will not work in streamed chat). -
Show code interpreter output
: If enabled, output from the code interpreter in the Assistant API will be displayed in real-time (in stream mode), Default: True. -
Use extra context output
: If enabled, plain text output (if available) from command results will be displayed alongside the JSON output, Default: True. -
Convert lists to paragraphs
: If enabled, lists (ul, ol) will be converted to paragraphs (p), Default: True. -
Model used for auto-summary
: Model used for context auto-summary (default: gpt-3.5-turbo-1106).
Models
-
Max Output Tokens
: Sets the maximum number of tokens the model can generate for a single response. -
Max Total Tokens
: Sets the maximum token count that the application can send to the model, including the conversation context. -
RPM limit
: Sets the limit of maximum requests per minute (RPM), 0 = no limit. -
Temperature
: Sets the randomness of the conversation. A lower value makes the model's responses more deterministic, while a higher value increases creativity and abstraction. -
Top-p
: A parameter that influences the model's response diversity, similar to temperature. For more information, please check the OpenAI documentation. -
Frequency Penalty
: Decreases the likelihood of repetition in the model's responses. -
Presence Penalty
: Discourages the model from mentioning topics that have already been brought up in the conversation.
Prompts
-
Use native API function calls
: Use API function calls to run commands from plugins instead of using command prompts - Chat and Assistants modes ONLY, default: True -
Command execute: instruction
: Prompt for appending command execution instructions. Placeholders: {schema}, {extra} -
Command execute: extra footer (non-Assistant modes)
: Extra footer to append after commands JSON schema. -
Command execute: extra footer (Assistant mode only)
: PAdditional instructions to separate local commands from the remote environment that is already configured in the Assistants. -
Context: auto-summary (system prompt)
: System prompt for context auto-summary. -
Context: auto-summary (user message)
: User message for context auto-summary. Placeholders: {input}, {output} -
Agent: system instruction
: Prompt to instruct how to handle autonomous mode. -
Agent: continue
: Prompt sent to automatically continue the conversation. -
Agent: continue (always, more steps)
: Prompt sent to always automatically continue the conversation (more reasoning - "Always continue..." option). -
Agent: goal update
: Prompt to instruct how to update current goal status. -
Experts: Master prompt
: Prompt to instruct how to handle experts. -
DALL-E: image generate
: Prompt for generating prompts for DALL-E (if raw-mode is disabled).
Images
-
DALL-E Image size
: The resolution of the generated images (DALL-E). Default: 1792x1024. -
DALL-E Image quality
: The image quality of the generated images (DALL-E). Default: standard. -
Open image dialog after generate
: Enable the image dialog to open after an image is generated in Image mode. -
DALL-E: prompt generation model
: Model used for generating prompts for DALL-E (if raw-mode is disabled).
Vision
-
Vision: Camera capture width (px)
: Video capture resolution (width). -
Vision: Camera capture height (px)
: Video capture resolution (height). -
Vision: Camera IDX (number)
: Video capture camera index (number of camera). -
Vision: Image capture quality
: Video capture image JPEG quality (%).
Indexes (Llama-index)
-
Indexes
: List of created indexes. -
Vector Store
: Vector store to use (vector database provided by Llama-index). -
Vector Store (**kwargs)
: Keyword arguments for vector store provider (api_key, index_name, etc.). -
Embeddings provider
: Embeddings provider. -
Embeddings provider (ENV)
: ENV vars to embeddings provider (API keys, etc.). -
Embeddings provider (**kwargs)
: Keyword arguments for embeddings provider (model name, etc.). -
RPM limit for embeddings API calls
: Specify the limit of maximum requests per minute (RPM), 0 = no limit. -
Recursive directory indexing
: Enables recursive directory indexing, default is False. -
Replace old document versions in the index during re-indexing
: If enabled, previous versions of documents will be deleted from the index when the newest versions are indexed, default is True. -
Excluded file extensions
: File extensions to exclude if no data loader for this extension, separated by comma. -
Force exclude files
: If enabled, the exclusion list will be applied even when the data loader for the extension is active. Default: False. -
Stop indexing on error
: If enabled, indexing will stop whenever an error occurs Default: True. -
Custom metadata to append/replace to indexed documents (file)
: Define custom metadata key => value fields for specified file extensions, separate extensions by comma.\nAllowed placeholders: {path}, {relative_path} {filename}, {dirname}, {relative_dir} {ext}, {size}, {mtime}, {date}, {date_time}, {time}, {timestamp}. Use * (asterisk) as extension if you want to apply field to all files. Set empty value to remove field with specified key from metadata. -
Custom metadata to append/replace to indexed documents (web)
: Define custom metadata key => value fields for specified external data loaders.\nAllowed placeholders: {date}, {date_time}, {time}, {timestamp} + {data loader args} -
Additional keyword arguments (**kwargs) for data loaders
: Additional keyword arguments, such as settings, API keys, for the data loader. These arguments will be passed to the loader; please refer to the Llama-index or LlamaHub loaders reference for a list of allowed arguments for the specified data loader. -
Use local models in Video/Audio and Image (vision) loaders
: Enables usage of local models in Video/Audio and Image (vision) loaders. If disabled then API models will be used (GPT-4 Vision and Whisper). Note: local models will work only in Python version (not compiled/Snap). Default: False. -
Auto-index DB in real time
: Enables conversation context auto-indexing in defined modes. -
ID of index for auto-indexing
: Index to use if auto-indexing of conversation context is enabled. -
Enable auto-index in modes
: List of modes with enabled context auto-index, separated by comma. -
DB (ALL), DB (UPDATE), FILES (ALL)
: Index the data – batch indexing is available here. -
Chat mode
: chat mode for use in query engine, default: context
Agent and experts
-
Sub-mode for agents
: Sub-mode to use in Agent mode (chat, completion, langchain, llama_index, etc.). Default: chat. -
Sub-mode for experts
: Sub-mode to use in Experts mode (chat, completion, langchain, llama_index, etc.). Default: chat. -
Index to use
: Only if sub-mode is llama_index (Chat with files), choose the index to use in both Agent and Expert modes. -
Display a tray notification when the goal is achieved.
: If enabled, a notification will be displayed after goal achieved / finished run.
Accessibility
-
Enable voice control (using microphone)
: enables voice control (using microphone and defined commands). -
Model
: model used for voice command recognition. -
Use voice synthesis to describe events on the screen.
: enables audio description of on-screen events. -
Use audio output cache
: If enabled, all static audio outputs will be cached on the disk instead of being generated every time. Default: True. -
Audio notify microphone listening start/stop
: enables audio "tick" notify when microphone listening started/ended. -
Audio notify voice command execution
: enables audio "tick" notify when voice command is executed. -
Control shortcut keys
: configuration for keyboard shortcuts for a specified actions. -
Blacklist for voice synthesis events describe (ignored events)
: list of muted events for 'Use voice synthesis to describe event' option. -
Voice control actions blacklist
: Disable actions in voice control; add actions to the blacklist to prevent execution through voice commands.
Updates
-
Check for updates on start
: Enables checking for updates on start. Default: True. -
Check for updates in background
: Enables checking for updates in background (checking every 5 minutes). Default: True.
Developer
-
Show debug menu
: Enables debug (developer) menu. -
Log and debug context
: Enables logging of context input/output. -
Log and debug events
: Enables logging of event dispatch. -
Log plugin usage to console
: Enables logging of plugin usage to console. -
Log DALL-E usage to console
: Enables logging of DALL-E usage to console. -
Log Llama-index usage to console
: Enables logging of Llama-index usage to console. -
Log Assistants usage to console
: Enables logging of Assistants API usage to console. -
Log level
: toggle log level (ERROR|WARNING|INFO|DEBUG)
JSON files
The configuration is stored in JSON files for easy manual modification outside of the application. These configuration files are located in the user's work directory within the following subdirectory:
{HOME_DIR}/.config/pygpt-net/
Notepad
The application has a built-in notepad, divided into several tabs. This can be useful for storing information in a convenient way, without the need to open an external text editor. The content of the notepad is automatically saved whenever the content changes.
Profiles
You can create multiple profiles for an app and switch between them. Each profile uses its own configuration, settings, context history, and a separate folder for user files. This allows you to set up different environments and quickly switch between them, changing the entire setup with just one click.
The app lets you create new profiles, edit existing ones, and duplicate current ones.
To create a new profile, select the option from the menu: Config -> Profile -> New Profile...
To edit saved profiles, choose the option from the menu: Config -> Profile -> Edit Profiles...
To switch to a created profile, pick the profile from the menu: Config -> Profile -> [Profile Name]
Each profile uses its own user directory (workdir). You can link a newly created or edited profile to an existing workdir with its configuration.
The name of the currently active profile is shown as (Profile Name) in the window title.
Advanced configuration
Manual configuration
You can manually edit the configuration files in this directory (this is your work directory):
{HOME_DIR}/.config/pygpt-net/
assistants.json
- stores the list of assistants.attachments.json
- stores the list of current attachments.config.json
- stores the main configuration settings.models.json
- stores models configurations.cache
- a directory for audio cache.capture
- a directory for captured images from camera and screenshotscss
- a directory for CSS stylesheets (user override)history
- a directory for context history in.txt
format.idx
-Llama-index
indexesimg
- a directory for images generated withDALL-E 3
andDALL-E 2
, saved as.png
files.locale
- a directory for locales (user override)data
- a directory for data files and files downloaded/generated by GPT.presets
- a directory for presets stored as.json
files.upload
- a directory for local copies of attachments coming from outside the workdirdb.sqlite
- a database with contexts, notepads and indexes data recordsapp.log
- a file with error and debug log
Translations / Locale
Locale .ini
files are located in the app directory:
./data/locale
This directory is automatically scanned when the application launches. To add a new translation, create and save the file with the appropriate name, for example:
locale.es.ini
This will add Spanish as a selectable language in the application's language menu.
Overwriting CSS and locales with Your Own Files:
You can also overwrite files in the locale
and css
app directories with your own files in the user directory.
This allows you to overwrite language files or CSS styles in a very simple way - by just creating files in your working directory.
{HOME_DIR}/.config/pygpt-net/
locale
- a directory for locales in.ini
format.css
- a directory for CSS styles in.css
format.
Adding Your Own Fonts
You can add your own fonts and use them in CSS files. To load your own fonts, you should place them in the %workdir%/fonts
directory. Supported font types include: otf
, ttf
.
You can see the list of loaded fonts in Debug / Config
.
Example:
%workdir%
|_css
|_data
|_fonts
|_MyFont
|_MyFont-Regular.ttf
|_MyFont-Bold.ttf
|...
pre {{
font-family: 'MyFont';
}}
Debugging and Logging
In Settings -> Developer
dialog, you can enable the Show debug menu
option to turn on the debugging menu. The menu allows you to inspect the status of application elements. In the debugging menu, there is a Logger
option that opens a log window. In the window, the program's operation is displayed in real-time.
Logging levels:
By default, all errors and exceptions are logged to the file:
{HOME_DIR}/.config/pygpt-net/app.log
To increase the logging level (ERROR
level is default), run the application with --debug
argument:
python3 run.py --debug=1
or
python3 run.py --debug=2
The value 1
enables the INFO
logging level.
The value 2
enables the DEBUG
logging level (most information).
Compatibility (legacy) mode
If you have a problems with WebEngine / Chromium
renderer you can force the legacy mode by launching the app with command line arguments:
python3 run.py --legacy=1
and to force disable OpenGL hardware acceleration:
python3 run.py --disable-gpu=1
You can also manualy enable legacy mode by editing config file - open the %WORKDIR%/config.json
config file in editor and set the following options:
"render.engine": "legacy",
"render.open_gl": false,
Updates
Updating PyGPT
PyGPT comes with an integrated update notification system. When a new version with additional features is released, you'll receive an alert within the app.
To get the new version, simply download it and start using it in place of the old one. All your custom settings like configuration, presets, indexes, and past conversations will be kept and ready to use right away in the new version.
Coming soon
- Enhanced integration with Langchain
- More vector databases support
- Development of autonomous agents
DISCLAIMER
This application is not officially associated with OpenAI. The author shall not be held liable for any damages resulting from the use of this application. It is provided "as is," without any form of warranty. Users are reminded to be mindful of token usage - always verify the number of tokens utilized by the model on the OpenAI website and engage with the application responsibly. Activating plugins, such as Web Search, may consume additional tokens that are not displayed in the main window.
Always monitor your actual token usage on the OpenAI website.
CHANGELOG
Recent changes:
2.4.11 (2024-11-15)
- Added a new Llama-index agent: OpenAI Assistant.
- Added proxy settings to the configuration dialog.
- Added more models to the Agent (Llama-index) mode.
- Improved the agents/presets dialog window.
- Disabled the "OpenAI API KEY is not set" Llama-index error when using a local model in Chat with Files mode. You can now use local embeddings, such as Llama3 via Ollama, and use local models without any warnings.
2.4.10 (2024-11-14)
- Added support for Llama Index agents. (beta)
- Introduced a new working mode: Agent (Llama Index).
- Added 3 Llama Index agents: OpenAI Agent, ReAct Agent, and Structured Planner Agent.
- Fixed: passing an embed model to vector stores on indexing.
- Fixed: python3-tk error in snap version.
2.4.9 (2024-11-12)
- Mouse movement has been moved to the PyAutoGUI library for seamless operation.
- Bridge calls have been moved to an asynchronous thread.
- Fixed the DALL-E call in Image mode.
- Speed improvements and optimizations.
2.4.8 (2024-11-12)
- Fix: restoring order of notepads.
- Fix: mouse move offset in Mouse and Keyboard plugin.
2.4.7 (2024-11-11)
- Added a new tool:
HTML/JS Canvas
, connected to theCode Interpreter
plugin. This feature enables real-time rendering of HTML/JS code in a Chromium-based output by using two newCode Interpreter
commands:render_html_output
andget_html_output
. - Added an SVG icon to the New Tab button.
- Improved the system prompt and execution flow in the
Command: Mouse And Keyboard
plugin and introduced a new option Auto-focus to the plugin settings (default: False).
2.4.6 (2024-11-10)
- Fixed notepad tab titles in Copy To menu.
2.4.5 (2024-11-09)
- Added a new [+] tab button to the right of the tabs.
- Fixed the issue where the tab name disappeared when creating a new tab.
- Fixed the broken find option (CTRL+F) in the chat window.
2.4.4 (2024-11-09)
- Added a new plugin: Command: Mouse And Keyboard. The plugin allows the model to control the mouse and keyboard, control the cursor position, click mouse buttons, use scroll, type text, and press keys on the keyboard.
2.4.3 (2024-11-08)
- Added button to hide output from tools/plugins.
- Added tooltips on the preset list showing the system prompt of the preset.
- Added restoration of tooltips for chat tabs.
- Removed disruptive tooltips from the plugin settings window.
- Improved reading of current tab information in event reading with speech synthesis.
- Minor improvements.
2.4.2 (2024-11-08)
- Improved commands and tools handling.
- Improved autonomous mode.
2.4.1 (2024-11-08)
- Added titles for conversations in tabs.
- Tab tools added to the tools menu.
- Fix: Reload tabs after changing profile.
- Other fixes.
2.4.0 (2024-11-06)
- Added the ability to have conversations in multiple tabs (right-click on the tab bar to add new tabs via "Add a new chat", similar to a web browser).
- Added the option to add notepad tabs using the right-click context menu and selecting "Add a new notepad".
- Added tab reorganization via drag and drop (you can now arrange tabs freely using the mouse).
- Added the ability to name tabs.
2.3.4 (2024-11-03)
- Support for LaTeX: Mathematical formulas can now be displayed in the chat window using
KaTeX
library (https://katex.org/). This enhancement allows for real-time rendering of complex mathematical expressions.
2.3.3 (2024-11-03)
- Added support for models: OpenAI
o1
ando1-mini
andSpeakLeash/bielik-11b-v2.2
(Polish LLM: https://bielik.ai).
Credits and links
Official website: https://pygpt.net
Documentation: https://pygpt.readthedocs.io
Support and donate: https://pygpt.net/#donate
GitHub: https://github.com/szczyglis-dev/py-gpt
Discord: https://pygpt.net/discord
Snap Store: https://snapcraft.io/pygpt
PyPI: https://pypi.org/project/pygpt-net
Author: Marcin Szczygliński (Poland, EU)
Contact: info@pygpt.net
License: MIT License
Special thanks
GitHub's community:
Third-party libraries
Full list of external libraries used in this project is located in the requirements.txt file in the main folder of the repository.
All used SVG icons are from Material Design Icons
provided by Google:
https://github.com/google/material-design-icons
https://fonts.google.com/icons
Monaspace fonts provided by GitHub: https://github.com/githubnext/monaspace
Code of the Llama-index offline loaders integrated into app is taken from LlamaHub: https://llamahub.ai
Awesome ChatGPT Prompts (used in templates): https://github.com/f/awesome-chatgpt-prompts/
Code syntax highlight powered by: https://highlightjs.org
LaTeX support by: https://katex.org and https://github.com/mitya57/python-markdown-math
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