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memory-schema

Name: Memory Schema
Author: basicmachines-co

// Schema lifecycle management for Basic Memory: discover unschemaed notes, infer schemas, create and edit schema definitions, validate notes, and detect drift. Use when working with structured note types (Task, Person, Meeting, etc.) to maintain consistency across the knowledge graph.

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updated:1 de marzo de 2026, 16:27

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name	memory-schema
description	Schema lifecycle management for Basic Memory: discover unschemaed notes, infer schemas, create and edit schema definitions, validate notes, and detect drift. Use when working with structured note types (Task, Person, Meeting, etc.) to maintain consistency across the knowledge graph.

Memory Schema

Manage structured note types using Basic Memory's Picoschema system. Schemas define what fields a note type should have, making notes uniform, queryable, and validatable.

When to Use

New note type emerging — you notice several notes share the same structure (meetings, people, decisions)
Validation check — confirm existing notes conform to their schema
Schema drift — detect fields that notes use but the schema doesn't define (or vice versa)
Schema evolution — add/remove/change fields as requirements evolve
On demand — user asks to create, check, or manage schemas

Picoschema Syntax Reference

Schemas are defined in YAML frontmatter using Picoschema — a compact notation for describing note structure.

Basic Types

schema:
  name: string, person's full name
  age: integer, age in years
  score: number, floating-point rating
  active: boolean, whether currently active

Supported types: string, integer, number, boolean.

Optional Fields

Append ? to the field name:

schema:
  title: string, required field
  subtitle?: string, optional field

Enums

Use (enum) with a list of allowed values:

schema:
  status(enum): [active, blocked, done, abandoned], current state

Optional enum:

schema:
  priority?(enum): [low, medium, high, critical], task priority

Arrays

Use (array) for list fields:

schema:
  tags(array): string, categorization labels
  steps?(array): string, ordered steps to complete

Relations

Reference other entity types directly:

schema:
  parent_task?: Task, parent task if this is a subtask
  attendees?(array): Person, people who attended

Relations create edges in the knowledge graph, linking notes together.

Validation Settings

settings:
  validation: warn    # warn (log issues) or error (strict)

Complete Example

---
title: Meeting
type: schema
entity: Meeting
version: 1
schema:
  topic: string, what was discussed
  date: string, when it happened (YYYY-MM-DD)
  attendees?(array): Person, who attended
  decisions?(array): string, decisions made
  action_items?(array): string, follow-up tasks
  status?(enum): [scheduled, completed, cancelled], meeting state
settings:
  validation: warn
---

Discovering Unschemaed Notes

Look for clusters of notes that share structure but have no schema:

Search by type: search_notes(query="type:Meeting") — if many notes share a type but no schema/Meeting.md exists, it's a candidate.
Infer a schema: Use schema_infer to analyze existing notes and generate a suggested schema:
```
schema_infer(noteType="Meeting")
schema_infer(noteType="Meeting", threshold=0.5)  # fields in 50%+ of notes
```
The threshold (0.0–1.0) controls how common a field must be to be included. Default is usually fine; lower it to catch rarer fields.
Review the suggestion — the inferred schema shows field names, types, and frequency. Decide which fields to keep, make optional, or drop.

Creating a Schema

Write the schema note to schema/<EntityName>:

write_note(
  title="Meeting",
  directory="schema",
  note_type="schema",
  metadata={
    "entity": "Meeting",
    "version": 1,
    "schema": {
      "topic": "string, what was discussed",
      "date": "string, when it happened",
      "attendees?(array)": "Person, who attended",
      "decisions?(array)": "string, decisions made"
    },
    "settings": {"validation": "warn"}
  },
  content="""# Meeting

Schema for meeting notes.

## Observations
- [convention] Meeting notes live in memory/meetings/ or as daily entries
- [convention] Always include date and topic
- [convention] Action items should become tasks when complex"""
)

Key Principles

Schema notes live in schema/ — one note per entity type
note_type="schema" marks it as a schema definition
entity: Meeting in metadata names the type it applies to
version: 1 in metadata — increment when making breaking changes
settings.validation: warn is recommended to start — it logs issues without blocking writes

Validating Notes

Check how well existing notes conform to their schema:

# Validate all notes of a type
schema_validate(noteType="Meeting")

# Validate a single note
schema_validate(identifier="meetings/2026-02-10-standup")

Validation reports:

Missing required fields — the note lacks a field the schema requires
Unknown fields — the note has fields the schema doesn't define
Type mismatches — a field value doesn't match the expected type
Invalid enum values — a value isn't in the allowed set

Handling Validation Results

warn mode: Review warnings periodically. Fix notes that are clearly wrong; add optional fields to the schema for legitimate new patterns.
error mode: Use for strict schemas where conformance matters (e.g., automated pipelines consuming notes).

Detecting Drift

Over time, notes evolve and schemas lag behind. Use schema_diff to find divergence:

schema_diff(noteType="Meeting")

Diff reports:

Fields in notes but not in schema — candidates for adding to the schema (as optional)
Schema fields rarely used — consider making optional or removing
Type inconsistencies — fields used as different types across notes

Schema Evolution

When note structure changes:

Run diff to see current state: schema_diff(noteType="Meeting")

Update the schema note via edit_note:

edit_note(
  identifier="schema/Meeting",
  operation="find_replace",
  find_text="version: 1",
  content="version: 2",
  expected_replacements=1
)

Add/remove/modify fields in the schema: block
Re-validate to confirm existing notes still pass: schema_validate(noteType="Meeting")
Fix outliers — update notes that don't conform to the new schema

Evolution Guidelines

Additive changes (new optional fields) are safe — no version bump needed
Breaking changes (new required fields, removed fields, type changes) should bump version
Prefer optional over required — most fields should be optional to start
Don't over-constrain — schemas should describe common structure, not enforce rigid templates
Schema as documentation — even if validation is set to warn, the schema serves as living documentation for what notes of that type should contain

Workflow Summary

1. Notice repeated note structure → infer schema (schema_infer)
2. Review + create schema note   → write to schema/ (write_note)
3. Validate existing notes       → check conformance (schema_validate)
4. Fix outliers                  → edit non-conforming notes (edit_note)
5. Periodically check drift      → detect divergence (schema_diff)
6. Evolve schema as needed       → update schema note (edit_note)

memory-schema

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Memory Schema

When to Use

Picoschema Syntax Reference

Basic Types

Optional Fields

Enums

Arrays

Relations

Validation Settings

Complete Example

Discovering Unschemaed Notes

Creating a Schema

Key Principles

Validating Notes

Handling Validation Results

Detecting Drift

Schema Evolution

Evolution Guidelines

Workflow Summary

Memory Schema

When to Use

Picoschema Syntax Reference

Basic Types

Optional Fields

Enums

Arrays

Relations

Validation Settings

Complete Example

Discovering Unschemaed Notes

Creating a Schema

Key Principles

Validating Notes

Handling Validation Results

Detecting Drift

Schema Evolution

Evolution Guidelines

Workflow Summary