# Add new indexing and reasoning pipeline to the application @trducng At high level, to add new indexing and reasoning pipeline: 1. You define your indexing or reasoning pipeline as a class from `BaseComponent`. 2. You declare that class in the setting files `flowsettings.py`. Then when `python app.py`, the application will dynamically load those pipelines. The below sections talk in more detail about how the pipelines should be constructed. ## Define a pipeline as a class In essence, a pipeline will subclass from `kotaemon.base.BaseComponent`. Each pipeline has 2 main parts: - All declared arguments and sub-pipelines. - The logic inside the pipeline. An example pipeline: ```python from kotaemon.base import BaseComponent class SoSimple(BaseComponent): arg1: int arg2: str def run(self, arg3: str): return self.arg1 * self.arg2 + arg3 ``` This pipeline is simple for demonstration purpose, but we can imagine pipelines with much more arguments, that can take other pipelines as arguments, and have more complicated logic in the `run` method. **_An indexing or reasoning pipeline is just a class subclass from `BaseComponent` like above._** For more detail on this topic, please refer to [Creating a Component](/create-a-component/) ## Run signatures **Note**: this section is tentative at the moment. We will finalize `def run` function signature by latest early April. The indexing pipeline: ```python def run( self, file_paths: str | Path | list[str | Path], reindex: bool = False, **kwargs, ): """Index files to intermediate representation (e.g. vector, database...) Args: file_paths: the list of paths to files reindex: if True, files in `file_paths` that already exists in database should be reindex. """ ``` The reasoning pipeline: ```python def run(self, question: str, history: list, **kwargs) -> Document: """Answer the question Args: question: the user input history: the chat history [(user_msg1, bot_msg1), (user_msg2, bot_msg2)...] Returns: kotaemon.base.Document: the final answer """ ``` ## Register your pipeline to ktem To register your pipelines to ktem, you declare it in the `flowsettings.py` file. This file locates at the current working directory where you start the ktem. In most use cases, it is this [one](https://github.com/Cinnamon/kotaemon/blob/main/flowsettings.py). ```python KH_REASONING = [""] KH_INDEX = "" ``` You can register multiple reasoning pipelines to ktem by populating the `KH_REASONING` list. The user can select which reasoning pipeline to use in their Settings page. For now, there's only one supported index option for `KH_INDEX`. Make sure that your class is discoverable by Python. ## Allow users to customize your pipeline in the app settings To allow the users to configure your pipeline, you need to declare what you allow the users to configure as a dictionary. `ktem` will include them into the application settings. In your pipeline class, add a classmethod `get_user_settings` that returns a setting dictionary, add a classmethod `get_info` that returns an info dictionary. Example: ```python class SoSimple(BaseComponent): ... # as above @classmethod def get_user_settings(cls) -> dict: """The settings to the user""" return { "setting_1": { "name": "Human-friendly name", "value": "Default value", "choices": [("Human-friendly Choice 1", "choice1-id"), ("HFC 2", "choice2-id")], # optional "component": "Which Gradio UI component to render, can be: text, number, checkbox, dropdown, radio, checkboxgroup" }, "setting_2": { # follow the same rule as above } } @classmethod def get_info(cls) -> dict: """Pipeline information for bookkeeping purpose""" return { "id": "a unique id to differentiate this pipeline from other pipeline", "name": "Human-friendly name of the pipeline", "description": "Can be a short description of this pipeline" } ``` Once adding these methods to your pipeline class, `ktem` will automatically extract and add them to the settings. ## Construct to pipeline object Once `ktem` runs your pipeline, it will call your classmethod `get_pipeline` with the full user settings and expect to obtain the pipeline object. Within this `get_pipeline` method, you implement all the necessary logics to initiate the pipeline object. Example: ```python class SoSimple(BaseComponent): ... # as above @classmethod def get_pipeline(self, setting): obj = cls(arg1=setting["reasoning.id.setting1"]) return obj ``` ## Reasoning: Stream output to UI For fast user experience, you can stream the output directly to UI. This way, user can start observing the output as soon as the LLM model generates the 1st token, rather than having to wait the pipeline finishes to read the whole message. To stream the output, you need to; 1. Turn the `run` function to async. 2. Pass in the output to a special queue with `self.report_output`. ```python async def run(self, question: str, history: list, **kwargs) -> Document: for char in "This is a long messages": self.report_output({"output": text.text}) ``` The argument to `self.report_output` is a dictionary, that contains either or all of these 2 keys: "output", "evidence". The "output" string will be streamed to the chat message, and the "evidence" string will be streamed to the information panel. ## Access application LLMs, Embeddings You can access users' collections of LLMs and embedding models with: ```python from ktem.embeddings.manager import embeddings from ktem.llms.manager import llms llm = llms.get_default() embedding_model = embeddings.get_default() ``` You can also allow the users to specifically select which llms or embedding models they want to use through the settings. ```python @classmethod def get_user_settings(cls) -> dict: from ktem.llms.manager import llms return { "citation_llm": { "name": "LLM for citation", "value": llms.get_default(), "component: "dropdown", "choices": list(llms.options().keys()), }, ... } ``` ## Optional: Access application data You can access the user's application database, vector store as follow: ```python # get the database that contains the source files from ktem.db.models import Source, Index, Conversation, User # get the vector store ```