okay so we need to be able to handle the following cases: ExpressionStatement CallExpression Identifier | MemberExpression ExpressionLiterals: [ CallExpression StringLiteral NumericLiteral ArrayLiteralExpression ExpressionLiterals ObjectLiteralExpression PropertyAssignment Identifier ExpressionLiterals ]

Hierarchy

Constructors

Properties

parser: ParseFunction

Methods

  • We should separate loading the parser into its own function because loading the grammar takes some time. If there are multiple concurrent parse calls, it's faster to just wait for building the parser once and then use it for all subsequent calls. See expression.test.ts for an example.

    Returns Promise<void>

  • This method is currently empty, but it could be used to provide instructions on the format of the input text.

    Returns string

    string

  • Calls the parser with a given input and optional configuration options. If the input is a string, it creates a generation with the input as text and calls parseResult. If the input is a BaseMessage, it creates a generation with the input as a message and the content of the input as text, and then calls parseResult.

    Parameters

    • input: string | BaseMessage

      The input to the parser, which can be a string or a BaseMessage.

    • Optional options: BaseCallbackConfig

      Optional configuration options.

    Returns Promise<ParsedType>

    A promise of the parsed output.

  • Parses the given text. It first ensures the parser is loaded, then tries to parse the text. If the parsing fails, it throws an error. If the parsing is successful, it returns the parsed expression.

    Parameters

    • text: string

      The text to be parsed.

    Returns Promise<ParsedType>

    The parsed expression

  • Parses the result of an LLM call. This method is meant to be implemented by subclasses to define how the output from the LLM should be parsed.

    Parameters

    Returns Promise<ParsedType>

    A promise of the parsed output.

  • Parses the result of an LLM call with a given prompt. By default, it simply calls parseResult.

    Parameters

    Returns Promise<ParsedType>

    A promise of the parsed output.

  • Create a new runnable sequence that runs each individual runnable in series, piping the output of one runnable into another runnable or runnable-like.

    Type Parameters

    • NewRunOutput

    Parameters

    • coerceable: RunnableLike<ParsedType, NewRunOutput>

      A runnable, function, or object whose values are functions or runnables.

    Returns RunnableSequence<string | BaseMessage, Exclude<NewRunOutput, Error>>

    A new runnable sequence.

  • Stream output in chunks.

    Parameters

    Returns Promise<IterableReadableStream<ParsedType>>

    A readable stream that is also an iterable.

  • Stream all output from a runnable, as reported to the callback system. This includes all inner runs of LLMs, Retrievers, Tools, etc. Output is streamed as Log objects, which include a list of jsonpatch ops that describe how the state of the run has changed in each step, and the final state of the run. The jsonpatch ops can be applied in order to construct state.

    Parameters

    • input: string | BaseMessage
    • Optional options: Partial<BaseCallbackConfig>
    • Optional streamOptions: Omit<LogStreamCallbackHandlerInput, "autoClose">

    Returns AsyncGenerator<RunLogPatch, any, unknown>

  • Default implementation of transform, which buffers input and then calls stream. Subclasses should override this method if they can start producing output while input is still being generated.

    Parameters

    Returns AsyncGenerator<ParsedType, any, unknown>

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