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Euclid

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MCP server for logical reasoning that turns facts into formal proofs using a deterministic inference engine with Prolog.

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Описание

MCP server for logical reasoning that turns facts into formal proofs using a deterministic inference engine with Prolog.

README

Euclid-MCP MCP server

MCP server for logical reasoning — turns facts into formal proofs.

Euclid-MCP is a hybrid cognitive architecture: a lightweight LLM describes the world in facts, and a deterministic engine performs the actual deduction. The LLM never needs to reason — it only needs to describe.

How it works

┌──────────────┐     ┌──────────────────┐     ┌──────────────┐     ┌──────────────┐
│  LLM/Agent   │────▶│  Euclid-MCP      │────▶│  Translator  │────▶│  SWI-Prolog  │
│  (MCP Client)│◀────│  (FastMCP)       │◀────│  + Meta-IP   │◀────│ (subprocess) │
└──────────────┘     └──────────────────┘     └──────────────┘     └──────────────┘
  1. Receive facts, rules, and a query in a simple intermediate language
  2. Translate into Prolog with a meta-interpreter for proof tree capture
  3. Execute via SWI-Prolog subprocess
  4. Return solutions + proof trees as structured JSON

LLMs describe. Euclid MCP proves.

Intermediate Language

Even if currently Euclid-MCP uses a Prolog Engine, no Prolog syntax is required.
Euclid-IR (Intermediate Representation) is a declarative intermediate representation for logical inference. Variables use $name, implication is IF, conjunction is AND.

Text format:

human(socrates)
mortal($x) IF human($x)

? mortal($who)

YAML format:

facts:
  - parent(tom, bob)
  - parent(bob, ann)
  - parent(tom, liz)
rules:
  - ancestor($x, $y) IF parent($x, $y)
  - ancestor($x, $y) IF parent($x, $z) AND ancestor($z, $y)

query: ancestor(tom, $who)

Full language reference: docs/EUCLID_IR.md

Euclid-IR Syntax Reference

Element Syntax Example
Facts predicate(args) parent(tom, bob)
Variables $name (lowercase) $who, $x, $count
Implication IF (uppercase) mortal($x) IF human($x)
Conjunction AND (uppercase) p($x) AND q($x)
Negation NOT (uppercase) NOT active($user)
Query ? predicate ? ancestor(tom, $who)
Multi-line rules Body on next line rule($x) IF\n body($x)

Arithmetic Comparisons

Rules support arithmetic comparisons that are evaluated during deduction:

# Stale access: users who haven't logged in for 90+ days
stale_access($user) IF
    user($user) AND last_login_days($user, $days) AND $days > 90

# Excessive permissions: more than 15 direct permissions
excessive_permissions($user, $count) IF
    user($user) AND permission_count($user, $count) AND $count > 15

# Clearance check: user clearance >= resource classification
can_access($user, $resource) IF
    user($user) AND resource($resource, _, _, _, _, $cls) AND
    classification($cls, $cls_level, _) AND
    user_clearance($user, $user_level) AND $user_level >= $cls_level

Supported operators: >, >=, <, =<, =:=, =\=, is

Multi-line Rules

Rules can span multiple lines for readability:

can_deploy($user, $env) IF
    user($user) AND
    has_role($user, $role) AND
    deploy_requires_level($env, $min) AND
    deploy_role_level($role, $level) AND
    $level >= $min AND
    user_has_permission($user, deploy_code)

Conjunctions in Queries

Queries can combine multiple predicates:

? can_access_resource($who, $res) AND resource($res, _, _, _, _, secret)

This returns solutions where both conditions are satisfied simultaneously.

Why External Inference?

The external inference gives several advantages:

  • deterministic
  • explainable
  • verifiable
  • inexpensive
  • replaceable backend

In the current implementation Euclid-MCP uses Prolog.
Prolog is a 50-year-old battle-tested logic engine. Using it as a "deduction coprocessor" lets small LLMs perform complex multi-step reasoning without needing larger, more expensive models. The intermediate language strips away Prolog's syntax quirks while keeping its logical core.

Some internal benchmarks demonstrate the difference: with 1 000+ facts, LLMs alone score 2/5 while Euclid-MCP scores 5/5 — and runs 7× faster while outputting 14× fewer tokens.

Tools

reason

Main tool for verifiable deterministic reasoning.

Parameter Type Default Description
knowledge string Facts & rules in text or YAML format
query string? Override query (optional)
max_solutions int 5 Max solutions to return
max_depth int 30 Max proof tree depth

Returns ReasonResult with solutions[] — each containing variable bindings and a proof tree.

Installation

# Prerequisites: Python ≥ 3.10, SWI-Prolog
brew install swi-prolog

# Install
pip install euclid-mcp

Or from source:

git clone https://github.com/meo/euclid-mcp
cd euclid-mcp
python3 -m venv .venv && source .venv/bin/activate
pip install -e .

Usage

Via MCP (OpenCode, Claude, etc.)

{
  "mcpServers": {
    "euclid-mcp": {
      "command": "python3",
      "args": ["-m", "euclid_mcp"],
      "cwd": "/path/to/euclid-mcp"
    }
  }
}

Via Python

from euclid_mcp.server import reason

result = reason(knowledge="""
    human(socrates)
    mortal($x) IF human($x)
    ? mortal($who)
""")

for sol in result.solutions:
    print(sol.substitutions, sol.proof.type)

Example output

{
  "query": "ancestor(tom, $who)",
  "solutions": [
    {
      "substitutions": {"who": "bob"},
      "proof": {
        "type": "rule",
        "goal": "ancestor(tom, bob)",
        "body": "parent(tom, bob)",
        "subproof": {"type": "fact", "goal": "parent(tom, bob)"}
      }
    },
    {
      "substitutions": {"who": "ann"},
      "proof": {
        "type": "rule",
        "goal": "ancestor(tom, ann)",
        "body": "parent(tom, bob), ancestor(bob, ann)",
        "subproof": {
          "type": "and",
          "left": {"type": "fact", "goal": "parent(tom, bob)"},
          "right": {
            "type": "rule",
            "goal": "ancestor(bob, ann)",
            "body": "parent(bob, ann)",
            "subproof": {"type": "fact", "goal": "parent(bob, ann)"}
          }
        }
      }
    }
  ]
}

Use cases

  • Small LLM reasoning: Offload deduction from LLMs (3-8B) to a deterministic engine
  • Explainable decisions: Every answer comes with a proof tree which allows explanation, reasoning trace, and justification
  • Business rules: Validate logic chains (permissions, workflows, compliance)
  • Dependency analysis: Circular dependency detection, topological ordering
  • Education: Interactive logic tutoring with visible proof chains
  • Knowledge preload: Complex business rules can be loaded in Euclid instead of using a vector database

Real-world examples

# Genealogy — recursive family tree reasoning
python3 examples/01_genealogy.py

# RBAC — Role-Based Access Control
python3 examples/02_rbac.py

# Classification — biological taxonomy
python3 examples/03_classification.py

# Business rules — loan eligibility
python3 examples/04_loan_eligibility.py

# Compliance auditor — cloud resource policy enforcement
python3 examples/05_compliance_auditor/auditor.py

# Loan officer — CSV-driven eligibility with detailed breakdown
python3 examples/06_loan_eligibility/loan_officer.py

# IT Security & Compliance — multi-layer policy reasoning
python3 examples/07_it_security_compliance/demo.py --small

Each example runs a complete reasoning session and prints solutions with proof trees — no LLM required.
Use them as templates for integrating Euclid-MCP into your own agents.

The two newer examples (05, 06) demonstrate a data-driven agent workflow:

  • Read external data (JSON, CSV) that simulates API/CRM exports
  • Convert structured data to Euclid facts in Python
  • Load policy rules from .euclid files (separated from data)
  • Call reason() for deduction
  • Format results into human-readable reports with proof chains

This mirrors how a real agent would work: collect data, describe it as facts, let Euclid reason, and present the results.

Example 07: IT Security & Compliance

The most advanced example demonstrating:

  • 3-layer architecture: Standards (CIS, AWS IAM) → Company Policies → Data Facts
  • Arithmetic comparisons: $days > 90 for stale access detection
  • Multi-line rules: Complex policies split across lines
  • Conjunction queries: Combining multiple predicates
  • Negative tests: Verifying empty results for invalid access patterns
# Quick test (30 users, 50 resources, ~578 facts)
python3 examples/07_it_security_compliance/demo.py --small

# Full dataset (200 users, 300 resources, ~3,872 facts)
python3 examples/07_it_security_compliance/demo.py

Integrations

OpenCode

Euclid-MCP includes a pre-configured agent in .opencode.json:

{
  "mcpServers": {
    "euclid-mcp": {
      "command": "python3",
      "args": ["-m", "euclid_mcp"],
      "cwd": "."
    }
  },
  "agents": {
    "reasoning-engine": {
      "description": "Deterministic logic engine",
      "instructions": "Write facts in Euclid IR, use the reason tool...",
      "mcpServers": ["euclid-mcp"]
    }
  }
}

n8n / Zapier / Make

Run the HTTP API:

python3 integrations/euclid_api.py --port 8080
POST /reason  →  {"knowledge": "red(apple)\n? red($x)"}
GET  /health

Connect an HTTP Request node to http://localhost:8080/reason.

CLI pipeline

echo '{"knowledge": "red(apple)\\n? red($x)"}' | python3 integrations/euclid_cli.py

See integrations/README.md for full details.

How is Euclid?

Euclid was an ancient Greek mathematician. Living and teaching in Alexandria, he built the foundations of geometry and number theory using rigorous logical proofs.

Euclid-MCP is not:

  • an LLM
  • a knowledge base
  • a vector database
  • an agent framework
  • a planner

Euclid-MCP is a deterministic inference engine that can be used by any of them.
Euclid-MCP allows deterministic and explainable replies from small LLMs on Edge hardware too.

License

Apache 2.0

from github.com/meob/Euclid-MCP

Установка Euclid

У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.

▸ github.com/meob/Euclid-MCP

FAQ

Euclid MCP бесплатный?

Да, Euclid MCP бесплатный — установка в пару кликов через Unyly без оплаты.

Нужен ли API-ключ для Euclid?

Нет, Euclid работает без API-ключей и переменных окружения.

Euclid — hosted или self-hosted?

Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.

Как установить Euclid в Claude Desktop, Claude Code или Cursor?

Открой Euclid на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.

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