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import sys |
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from typing import Dict, Any |
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from aiflows.utils import logging |
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logging.set_verbosity_debug() |
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log = logging.get_logger(__name__) |
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from aiflows.interfaces import KeyInterface |
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from flow_modules.aiflows.ControllerExecutorFlowModule import ControllerExecutorFlow |
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class AutoGPTFlow(ControllerExecutorFlow): |
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""" This class implements a (very basic) AutoGPT flow. It is a flow that consists of multiple sub-flows that are executed circularly. It Contains the following subflows: |
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- A Controller Flow: A Flow that controls which subflow of the Executor Flow to execute next. |
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- A Memory Flow: A Flow used to save and retrieve messages or memories which might be useful for the Controller Flow. |
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- A HumanFeedback Flow: A flow use to get feedback from the user/human. |
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- A Executor Flow: A Flow that executes commands generated by the Controller Flow. Typically it's a branching flow (see BranchingFlow) and the commands are which branch to execute next. |
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An illustration of the flow is as follows: |
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| -------> Memory Flow -------> Controller Flow ------->| |
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^ | |
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| | |
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| v |
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| <----- HumanFeedback Flow <------- Executor Flow <----| |
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*Configuration Parameters*: |
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- `name` (str): The name of the flow. Default is "AutoGPTFlow". |
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- `description` (str): A description of the flow. Default is "An example implementation of AutoGPT with Flows." |
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- `max_rounds` (int): The maximum number of rounds the circular flow can run for. Default is 30. |
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- `early_exit_key` (str): The key that is used to terminate the flow early. Default is "EARLY_EXIT". |
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- `subflows_config` (Dict[str,Any]): A dictionary of subflows configurations. Default: |
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- `Controller` (Dict[str,Any]): The configuration of the Controller Flow. By default the controller flow is a ControllerAtomicFlow (see ControllerExecutorFlowModule). It's default values are |
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defined in ControllerAtomicFlow.yaml of the ControllerExecutorFlowModule. Except for the following parameters who are overwritten by the AutoGPTFlow in AutoGPTFlow.yaml: |
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- `finish` (Dict[str,Any]): The configuration of the finish command (used to terminate the flow early when the controller has accomplished its goal). |
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- `description` (str): The description of the command. Default is "The finish command is used to terminate the flow early when the controller has accomplished its goal." |
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- `input_args` (List[str]): The list of expected keys to run the finish command. Default is ["answer"]. |
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- `human_message_prompt_template`(Dict[str,Any]): The prompt template used to generate the message that is shown to the user/human when the finish command is executed. Default is: |
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- `template` (str): The template of the humand message prompt (see AutoGPTFlow.yaml for default template) |
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- `input_variables` (List[str]): The list of variables to be included in the template. Default is ["observation", "human_feedback", "memory"]. |
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- `ìnput_interface_initialized` (List[str]): The input interface that Controller Flow expects except for the first time in the flow. Default is ["observation", "human_feedback", "memory"]. |
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- `Executor` (Dict[str,Any]): The configuration of the Executor Flow. By default the executor flow is a Branching Flow (see BranchingFlow). It's default values are the default values of the BranchingFlow. Fields to define: |
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- `subflows_config` (Dict[str,Any]): A Dictionary of subflows configurations.The keys are the names of the subflows and the values are the configurations of the subflows. Each subflow is a branch of the branching flow. |
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- `HumanFeedback` (Dict[str,Any]): The configuration of the HumanFeedback Flow. By default the human feedback flow is a HumanStandardInputFlow (see HumanStandardInputFlowModule ). |
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It's default values are specified in the REAMDE.md of HumanStandardInputFlowModule. Except for the following parameters who are overwritten by the AutoGPTFlow in AutoGPTFlow.yaml: |
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- `request_multi_line_input_flag` (bool): Flag to request multi-line input. Default is False. |
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- `query_message_prompt_template` (Dict[str,Any]): The prompt template presented to the user/human to request input. Default is: |
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- `template` (str): The template of the query message prompt (see AutoGPTFlow.yaml for default template) |
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- `input_variables` (List[str]): The list of variables to be included in the template. Default is ["goal","command","command_args",observation"] |
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- input_interface_initialized (List[str]): The input interface that HumanFeeback Flow expects except for the first time in the flow. Default is ["goal","command","command_args",observation"] |
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- `Memory` (Dict[str,Any]): The configuration of the Memory Flow. By default the memory flow is a ChromaDBFlow (see VectorStoreFlowModule). It's default values are defined in ChromaDBFlow.yaml of the VectorStoreFlowModule. Except for the following parameters who are overwritten by the AutoGPTFlow in AutoGPTFlow.yaml: |
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- `n_results`: The number of results to retrieve from the memory. Default is 2. |
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- `topology` (List[Dict[str,Any]]): The topology of the flow which is "circular". By default, the topology is the one shown in the illustration above (the topology is also described in AutoGPTFlow.yaml). |
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*Input Interface*: |
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- `goal` (str): The goal of the flow. |
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*Output Interface*: |
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- `answer` (str): The answer of the flow. |
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- `status` (str): The status of the flow. It can be "finished" or "unfinished". |
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:param flow_config: The configuration of the flow. Contains the parameters described above and the parameters required by the parent class (CircularFlow). |
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:type flow_config: Dict[str,Any] |
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:param subflows: A list of subflows constituating the circular flow. Required when instantiating the subflow programmatically (it replaces subflows_config from flow_config). |
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:type subflows: List[Flow] |
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""" |
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def __init__(self, **kwargs): |
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super().__init__( **kwargs) |
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self.rename_human_output_interface = KeyInterface( |
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keys_to_rename={"human_input": "human_feedback"} |
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) |
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self.input_interface_controller = KeyInterface( |
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keys_to_select = ["goal","observation","human_feedback", "memory"], |
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) |
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self.input_interface_human_feedback = KeyInterface( |
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keys_to_select = ["goal","command","command_args","observation"], |
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) |
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self.memory_read_ouput_interface = KeyInterface( |
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additional_transformations = [self.prepare_memory_read_output], |
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keys_to_select = ["memory"], |
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) |
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self.human_feedback_ouput_interface = KeyInterface( |
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keys_to_rename={"human_input": "human_feedback"}, |
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keys_to_select = ["human_feedback"], |
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) |
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self.next_state = { |
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None: "MemoryRead", |
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"MemoryRead": "Controller", |
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"Controller": "Executor", |
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"Executor": "HumanFeedback", |
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"HumanFeedback": "MemoryWrite", |
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"MemoryWrite": "MemoryRead", |
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} |
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def set_up_flow_state(self): |
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""" This method sets up the state of the flow. It's called at the beginning of the flow.""" |
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super().set_up_flow_state() |
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self.flow_state["early_exit_flag"] = False |
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def prepare_memory_read_output(self,data_dict: Dict[str, Any],**kwargs): |
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""" This method prepares the output of the Memory Flow to be used by the Controller Flow.""" |
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if len(data_dict["retrieved"]) == 0: |
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return {"memory": ""} |
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retrieved_memories = data_dict["retrieved"][0][1:] |
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return {"memory": "\n".join(retrieved_memories)} |
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def _get_memory_key(self): |
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""" This method returns the memory key that is used to retrieve memories from the ChromaDB model. |
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:param flow_state: The state of the flow |
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:type flow_state: Dict[str, Any] |
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:return: The current context |
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:rtype: str |
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""" |
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goal = self.flow_state.get("goal") |
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last_command = self.flow_state.get("command") |
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last_command_args = self.flow_state.get("command_args") |
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last_observation = self.flow_state.get("observation") |
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last_human_feedback = self.flow_state.get("human_feedback") |
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if last_command is None: |
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return "" |
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assert goal is not None, goal |
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assert last_command_args is not None, last_command_args |
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assert last_observation is not None, last_observation |
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current_context = \ |
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f""" |
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== Goal == |
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{goal} |
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== Command == |
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{last_command} |
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== Args |
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{last_command_args} |
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== Result |
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{last_observation} |
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== Human Feedback == |
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{last_human_feedback} |
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""" |
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return current_context |
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def prepare_memory_read_input(self) -> Dict[str, Any]: |
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""" This method prepares the input of the Memory Flow to read memories |
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:return: The input of the Memory Flow to read memories |
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:rtype: Dict[str, Any] |
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""" |
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query = self._get_memory_key() |
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return { |
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"operation": "read", |
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"content": query |
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} |
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def prepare_memory_write_input(self) -> Dict[str, Any]: |
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""" This method prepares the input of the Memory Flow to write memories |
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:return: The input of the Memory Flow to write memories |
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:rtype: Dict[str, Any] |
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""" |
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query = self._get_memory_key() |
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return { |
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"operation": "write", |
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"content": str(query) |
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} |
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def call_memory_read(self): |
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""" This method calls the Memory Flow to read memories.""" |
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memory_read_input = self.prepare_memory_read_input() |
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message = self.package_input_message( |
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data = memory_read_input, |
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dst_flow = "Memory", |
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) |
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self.subflows["Memory"].get_reply( |
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message, |
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) |
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def call_memory_write(self): |
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""" This method calls the Memory Flow to write memories.""" |
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memory_write_input = self.prepare_memory_write_input() |
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message = self.package_input_message( |
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data = memory_write_input, |
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dst_flow = "Memory", |
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) |
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self.subflows["Memory"].get_reply( |
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message, |
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) |
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def call_human_feedback(self): |
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""" This method calls the HumanFeedback Flow to get feedback from the user/human.""" |
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message = self.package_input_message( |
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data = self.input_interface_human_feedback(self.flow_state), |
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dst_flow = "HumanFeedback", |
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) |
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self.subflows["HumanFeedback"].get_reply( |
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message, |
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) |
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def register_data_to_state(self, input_message): |
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""" This method registers the data from the input message to the state of the flow.""" |
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last_state = self.flow_state["last_state"] |
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if last_state is None: |
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self.flow_state["input_message"] = input_message |
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self.flow_state["goal"] = input_message.data["goal"] |
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elif last_state == "Executor": |
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self.flow_state["observation"] = input_message.data |
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elif last_state == "Controller": |
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self._state_update_dict( |
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{ |
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"command": input_message.data["command"], |
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"command_args": input_message.data["command_args"] |
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} |
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) |
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if self.flow_state["command"] == "finish": |
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self._state_update_dict( |
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{ |
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"EARLY_EXIT": True, |
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"answer": self.flow_state["command_args"]["answer"], |
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"status": "finished" |
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} |
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) |
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self.flow_state["early_exit_flag"] = True |
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elif last_state == "MemoryRead": |
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self._state_update_dict( |
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self.memory_read_ouput_interface(input_message).data |
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) |
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elif last_state == "HumanFeedback": |
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self._state_update_dict( |
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self.human_feedback_ouput_interface(input_message).data |
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) |
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if self.flow_state["human_feedback"].strip().lower() == "q": |
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self._state_update_dict( |
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{ |
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"EARLY_EXIT": True, |
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"answer": "The user has chosen to exit before a final answer was generated.", |
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"status": "unfinished", |
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} |
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) |
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self.flow_state["early_exit_flag"] = True |
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def run(self,input_message): |
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""" This method runs the flow. It's the main method of the flow. It's called when the flow is executed. It calls the subflows circularly. |
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:input_message: The input message of the flow |
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:type input_message: Message |
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""" |
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self.register_data_to_state(input_message) |
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current_state = self.get_next_state() |
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if self.flow_state.get("early_exit_flag",False): |
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self.generate_reply() |
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elif current_state == "MemoryRead": |
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self.call_memory_read() |
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elif current_state == "Controller": |
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self.call_controller() |
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elif current_state == "Executor": |
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self.call_executor() |
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elif current_state == "HumanFeedback": |
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self.call_human_feedback() |
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elif current_state == "MemoryWrite": |
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self.call_memory_write() |
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self.flow_state["current_round"] += 1 |
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else: |
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self._on_reach_max_round() |
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self.generate_reply() |
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if self.flow_state.get("early_exit_flag",False) or current_state is None: |
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self.flow_state["last_state"] = None |
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else: |
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self.flow_state["last_state"] = current_state |
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