@samchon/openapi/lib/structures/IClaudeSchema.d.ts

OpenAPI definitions and converters for 'typia' and 'nestia'.

import { ILlmSchemaV3_1 } from "./ILlmSchemaV3_1";
/**
 * Type schema info of the Claude.
 *
 * `IClaudeSchema` is a type schema info of the Claude function calling.
 *
 * `IClaudeSchema` seems fully supporting the JSON schema definition of the OpenAPI v3.1
 * specification; {@link OpenApiV3_1.IJsonSchema}. By the way, as the
 * {@link OpenApiV3_1.IJsonSchema} has too much ambiguous and duplicated expressions,
 * `IClaudeSchema` is designed to be clear and simple for the Claude function calling,
 * by utilizng {@link ILlmSchemaV3_1} which has been transformed from the
 * {@link OpenApi.IJsonSchema} for the convenience and clarity.
 *
 * Therefore, `IClaudeSchema` does not follow the entire specification of
 * the OpenAPI v3.1. It has own specific restrictions and definitions. Here is the
 * list of how `ILlmSchemaV3_1` is different with the OpenAPI v3.1 JSON schema.
 *
 * - Decompose mixed type: {@link OpenApiV3_1.IJsonSchema.IMixed}
 * - Resolve nullable property: {@link OpenApiV3_1.IJsonSchema.__ISignificant.nullable}
 * - Tuple type is banned: {@link OpenApiV3_1.IJsonSchema.ITuple.prefixItems}
 * - Constant type is banned: {@link OpenApiV3_1.IJsonSchema.IConstant}
 * - Merge {@link OpenApiV3_1.IJsonSchema.IAnyOf} to {@link IClaudeSchema.IOneOf}
 * - Merge {@link OpenApiV3_1.IJsonSchema.IAllOf} to {@link IClaudeSchema.IObject}
 * - Merge {@link OpenApiV3_1.IJsonSchema.IRecursiveReference} to {@link IClaudeSchema.IReference}
 * - Do not support {@link OpenApiV3_1.IJsonSchema.ITuple} type
 *
 * If compare with the {@link OpenApi.IJsonSchema}, the emended JSON schema specification,
 *
 * - {@link IClaudeSchema.IParameters.$defs} instead of the {@link OpenApi.IJsonSchema.schemas}
 * - Do not support {@link OpenApi.IJsonSchema.ITuple} type
 * - {@link IClaudeSchema.properties} and {@link IClaudeSchema.required} are always defined
 *
 * For reference, if you've composed the `IClaudeSchema` type with the
 * {@link IClaudeSchema.IConfig.reference} `false` option (default is `false`), only the
 * recursive named types would be archived into the {@link IClaudeSchema.IParameters.$defs},
 * and the others would be escaped from the {@link IClaudeSchema.IReference} type.
 *
 * @reference https://docs.anthropic.com/en/docs/build-with-claude/tool-use
 * @reference https://docs.anthropic.com/en/docs/test-and-evaluate/strengthen-guardrails/increase-consistency
 * @author Jeongho Nam - https://github.com/samchon
 */
export type IClaudeSchema = IClaudeSchema.IConstant | IClaudeSchema.IBoolean | IClaudeSchema.IInteger | IClaudeSchema.INumber | IClaudeSchema.IString | IClaudeSchema.IArray | IClaudeSchema.IObject | IClaudeSchema.IReference | IClaudeSchema.IOneOf | IClaudeSchema.INull | IClaudeSchema.IUnknown;
export declare namespace IClaudeSchema {
    /**
     * Configuration for Claude schema composition.
     */
    interface IConfig {
        /**
         * Whether to allow reference type in everywhere.
         *
         * If you configure this property to `false`, most of reference types
         * represented by {@link IClaudeSchema.IReference} would be escaped to
         * a plain type unless recursive type case.
         *
         * This is because some low sized LLM models does not understand the
         * reference type well, and even the large size LLM models sometimes occur
         * the hallucination.
         *
         * However, the reference type makes the schema size smaller, so that reduces
         * the LLM token cost. Therefore, if you're using the large size of LLM model,
         * and want to reduce the LLM token cost, you can configure this property to
         * `true`.
         *
         * @default false
         */
        reference: boolean;
    }
    export import IParameters = ILlmSchemaV3_1.IParameters;
    export import IConstant = ILlmSchemaV3_1.IConstant;
    export import IBoolean = ILlmSchemaV3_1.IBoolean;
    export import IInteger = ILlmSchemaV3_1.IInteger;
    export import INumber = ILlmSchemaV3_1.INumber;
    export import IString = ILlmSchemaV3_1.IString;
    export import IObject = ILlmSchemaV3_1.IObject;
    export import IArray = ILlmSchemaV3_1.IArray;
    export import IReference = ILlmSchemaV3_1.IReference;
    export import IOneOf = ILlmSchemaV3_1.IOneOf;
    export import INull = ILlmSchemaV3_1.INull;
    export import IUnknown = ILlmSchemaV3_1.IUnknown;
}