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AGI MCP Server

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JavaScript
Hybrid

get_memory_relationships

Retrieve connected memories by specifying a memory ID, direction, and optional relationship type to analyze memory associations in AI systems.

Instructions

Get relationships for a specific memory

Input Schema

TableJSON Schema
NameRequiredDescriptionDefault
memory_idYesUUID of the memory
directionNoDirection of relationships to retrieveboth
relationship_typeNoFilter by relationship type (optional)

Implementation Reference

  • src/memory-manager.js:628-675 (handler)
    Core handler function that executes the database query to retrieve memory relationships based on the given memory ID, direction, and optional relationship type filter.
    async getMemoryRelationships(memoryId, direction = 'both', relationshipType = null) {
  try {
    let query = this.db
      .select({
        id: schema.memoryRelationships.id,
        fromMemoryId: schema.memoryRelationships.fromMemoryId,
        toMemoryId: schema.memoryRelationships.toMemoryId,
        relationshipType: schema.memoryRelationships.relationshipType,
        strength: schema.memoryRelationships.strength,
        properties: schema.memoryRelationships.properties,
        createdAt: schema.memoryRelationships.createdAt,
        direction: sql`CASE 
          WHEN ${schema.memoryRelationships.fromMemoryId} = ${memoryId} THEN 'outgoing'
          ELSE 'incoming'
        END`.as('direction'),
        relatedMemoryId: sql`CASE 
          WHEN ${schema.memoryRelationships.fromMemoryId} = ${memoryId} THEN ${schema.memoryRelationships.toMemoryId}
          ELSE ${schema.memoryRelationships.fromMemoryId}
        END`.as('related_memory_id')
      })
      .from(schema.memoryRelationships);

    if (direction === 'outgoing') {
      query = query.where(eq(schema.memoryRelationships.fromMemoryId, memoryId));
    } else if (direction === 'incoming') {
      query = query.where(eq(schema.memoryRelationships.toMemoryId, memoryId));
    } else {
      query = query.where(
        or(
          eq(schema.memoryRelationships.fromMemoryId, memoryId),
          eq(schema.memoryRelationships.toMemoryId, memoryId)
        )
      );
    }

    if (relationshipType) {
      query = query.where(eq(schema.memoryRelationships.relationshipType, relationshipType));
    }

    const results = await query
      .orderBy(desc(schema.memoryRelationships.strength), desc(schema.memoryRelationships.createdAt));
    
    return results;
  } catch (error) {
    console.warn('Memory relationships query failed:', error.message);
    return [];
  }
}
  • mcp.js:249-271 (schema)
    Input schema definition for the get_memory_relationships tool, including parameters for memory_id, direction, and relationship_type.
      name: "get_memory_relationships",
  description: "Get relationships for a specific memory",
  inputSchema: {
    type: "object",
    properties: {
      memory_id: {
        type: "string",
        description: "UUID of the memory"
      },
      direction: {
        type: "string",
        enum: ["incoming", "outgoing", "both"],
        description: "Direction of relationships to retrieve",
        default: "both"
      },
      relationship_type: {
        type: "string",
        description: "Filter by relationship type (optional)"
      }
    },
    required: ["memory_id"]
  }
},
  • mcp.js:610-616 (handler)
    MCP server tool dispatch handler for get_memory_relationships that extracts arguments and calls the memoryManager implementation.
    case "get_memory_relationships":
  const relationships = await memoryManager.getMemoryRelationships(
    args.memory_id,
    args.direction || 'both',
    args.relationship_type || null
  );
  return { content: [{ type: "text", text: JSON.stringify(relationships, null, 2) }] };
  • mcp.js:249-271 (registration)
    Tool registration in the ListTools response, defining the tool name, description, and schema.
      name: "get_memory_relationships",
  description: "Get relationships for a specific memory",
  inputSchema: {
    type: "object",
    properties: {
      memory_id: {
        type: "string",
        description: "UUID of the memory"
      },
      direction: {
        type: "string",
        enum: ["incoming", "outgoing", "both"],
        description: "Direction of relationships to retrieve",
        default: "both"
      },
      relationship_type: {
        type: "string",
        description: "Filter by relationship type (optional)"
      }
    },
    required: ["memory_id"]
  }
},
  • src/tools/memory-tools.js:223-244 (schema)
    Duplicate schema definition in memory tools export (possibly for reference or alternative use).
    name: "get_memory_relationships",
description: "Get relationships for a specific memory",
inputSchema: {
  type: "object",
  properties: {
    memory_id: {
      type: "string",
      description: "UUID of the memory"
    },
    direction: {
      type: "string",
      enum: ["incoming", "outgoing", "both"],
      description: "Direction of relationships to retrieve",
      default: "both"
    },
    relationship_type: {
      type: "string",
      description: "Filter by relationship type (optional)"
    }
  },
  required: ["memory_id"]
}

Tool Definition Quality

C2.9/5.0
Behavior2/5

Does the description disclose side effects, auth requirements, rate limits, or destructive behavior?

No annotations are provided, so the description carries the full burden of behavioral disclosure. It states the action but doesn't describe what 'relationships' entail (e.g., structure, format), whether it's a read-only operation, potential rate limits, or error conditions. This leaves significant gaps for an agent to understand the tool's behavior.

Agents need to know what a tool does to the world before calling it. Descriptions should go beyond structured annotations to explain consequences.

Conciseness5/5

Is the description appropriately sized, front-loaded, and free of redundancy?

The description is a single, efficient sentence that directly states the tool's purpose without unnecessary words. It's appropriately sized and front-loaded, making it easy to parse quickly.

Shorter descriptions cost fewer tokens and are easier for agents to parse. Every sentence should earn its place.

Completeness2/5

Given the tool's complexity, does the description cover enough for an agent to succeed on first attempt?

Given the lack of annotations and output schema, the description is incomplete. It doesn't explain what 'relationships' are returned, their format, or any behavioral traits like pagination or error handling. For a retrieval tool with three parameters, this minimal description leaves too much undefined for effective agent use.

Complex tools with many parameters or behaviors need more documentation. Simple tools need less. This dimension scales expectations accordingly.

Parameters3/5

Does the description clarify parameter syntax, constraints, interactions, or defaults beyond what the schema provides?

The input schema has 100% description coverage, providing clear documentation for all three parameters. The description adds no additional semantic context beyond implying that 'memory_id' identifies the target memory, which is already covered by the schema. This meets the baseline for high schema coverage.

Input schemas describe structure but not intent. Descriptions should explain non-obvious parameter relationships and valid value ranges.

Purpose4/5

Does the description clearly state what the tool does and how it differs from similar tools?

The description clearly states the verb ('Get') and resource ('relationships for a specific memory'), making the purpose understandable. However, it doesn't distinguish this tool from sibling tools like 'find_related_memories' or 'create_memory_relationship', which appear to handle related functionality but with different operations.

Agents choose between tools based on descriptions. A clear purpose with a specific verb and resource helps agents select the right tool.

Usage Guidelines2/5

Does the description explain when to use this tool, when not to, or what alternatives exist?

The description provides no guidance on when to use this tool versus alternatives. With sibling tools like 'find_related_memories' and 'search_memories_advanced' available, there's no indication of context, prerequisites, or exclusions for selecting this specific retrieval tool.

Agents often have multiple tools that could apply. Explicit usage guidance like "use X instead of Y when Z" prevents misuse.

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