Z3/SMT Server
БесплатноНе проверенEnables constraint solving, logical reasoning, and satisfiability checking using the Z3 theorem prover via natural language.
Описание
Enables constraint solving, logical reasoning, and satisfiability checking using the Z3 theorem prover via natural language.
README
An MCP (Model Context Protocol) server that exposes Z3/SMT solver capabilities for constraint solving, logical reasoning, and satisfiability checking.
Features
- Direct Z3 Python code execution - Run arbitrary Z3 Python code
- SMT-LIB 2.0 support - Parse and solve SMT-LIB format problems
- Constraint checking - Check satisfiability of constraint lists
- Theorem proving - Prove theorems by showing unsatisfiability of negation
- Expression simplification - Simplify Z3 expressions
- Logic program solving - Parse and solve structured logic programs (Logic-LLM format)
- Session management - Incremental solving with push/pop support
Installation
# Using pip
pip install z3smt-mcp
# Or install from source
git clone https://github.com/z3smt-mcp/z3smt-mcp
cd z3smt-mcp
pip install -e .
Requirements
- Python >= 3.10
- z3-solver >= 4.12.0
- mcp >= 1.0.0
Usage
Running the Server
# Run directly
z3smt-mcp
# Or via Python
python -m z3smt_mcp.server
Claude Desktop Configuration
Add to your Claude Desktop config (claude_desktop_config.json):
{
"mcpServers": {
"z3smt": {
"command": "z3smt-mcp"
}
}
}
Or if installed from source:
{
"mcpServers": {
"z3smt": {
"command": "python",
"args": ["-m", "z3smt_mcp.server"]
}
}
}
Available Tools
solve
Execute Z3 Python code directly. All Z3 imports are pre-loaded.
# Example: Solve a system of linear equations
x = Int('x')
y = Int('y')
solver = Solver()
solver.add(x + y == 10)
solver.add(x - y == 4)
if solver.check() == sat:
print(solver.model())
# Output: [y = 3, x = 7]
solve_smtlib
Solve problems in SMT-LIB 2.0 format.
(declare-const x Int)
(declare-const y Int)
(assert (= (+ x y) 10))
(assert (= (- x y) 4))
(check-sat)
(get-model)
check_sat
Check satisfiability of a list of constraints with automatic variable detection.
{
"constraints": ["x + y == 10", "x > 0", "y > 0", "x < y"]
}
prove
Prove a theorem by showing its negation is unsatisfiable.
{
"theorem": "Implies(And(x > 0, y > 0), x + y > 0)",
"variables": {"x": "int", "y": "int"}
}
simplify
Simplify a Z3 expression.
{
"expression": "And(x > 0, Or(x > 0, y > 0))"
}
solve_logic_program
Solve structured logic programs in Logic-LLM format.
# Declarations
Color = EnumSort([red, green, blue])
assign = Function(Object -> Color)
# Constraints
assign(obj1) != assign(obj2)
Distinct([c:Color], assign(c))
Session Management Tools
session_add_variable- Add a variable to the sessionsession_add_constraint- Add a constraint to the sessionsession_check- Check satisfiability and get modelsession_push- Push a new context (for backtracking)session_pop- Pop context (backtrack)session_reset- Clear the sessionlist_sessions- List all active sessions
Examples
Solving Sudoku
# Create a 9x9 grid of integer variables
X = [[Int(f"x_{i}_{j}") for j in range(9)] for i in range(9)]
solver = Solver()
# Each cell contains a value in 1-9
for i in range(9):
for j in range(9):
solver.add(And(X[i][j] >= 1, X[i][j] <= 9))
# Each row has distinct values
for i in range(9):
solver.add(Distinct(X[i]))
# Each column has distinct values
for j in range(9):
solver.add(Distinct([X[i][j] for i in range(9)]))
# Each 3x3 box has distinct values
for box_i in range(3):
for box_j in range(3):
box = [X[3*box_i + i][3*box_j + j]
for i in range(3) for j in range(3)]
solver.add(Distinct(box))
# Add known values (example)
solver.add(X[0][0] == 5)
solver.add(X[0][1] == 3)
# ... more constraints
if solver.check() == sat:
m = solver.model()
for i in range(9):
print([m[X[i][j]] for j in range(9)])
Bit-Vector Arithmetic
# Solve for x where x * 3 == 21 in 8-bit arithmetic
x = BitVec('x', 8)
solver = Solver()
solver.add(x * 3 == 21)
if solver.check() == sat:
print(solver.model())
Array Theory
# Find an array where a[0] + a[1] == 10
a = Array('a', IntSort(), IntSort())
solver = Solver()
solver.add(a[0] + a[1] == 10)
solver.add(a[0] > 0)
solver.add(a[1] > 0)
if solver.check() == sat:
print(solver.model())
Credits
- Z3 solver implementation adapted from Logic-LLM
- MCP interface inspired by clingo-mcp
- Z3 Theorem Prover by Microsoft Research
License
MIT License
Установить Z3/SMT Server в Claude Desktop, Claude Code, Cursor
unyly install z3-smt-mcp-serverСтавит в Claude Desktop, Claude Code, Cursor и VS Code — сам разбирается с npx, uvx и сборкой из исходников.
Впервые? Поставь CLI: curl -fsSL https://unyly.org/install | sh
Или настроить вручную
Выполни в терминале:
claude mcp add z3-smt-mcp-server -- uvx z3smt-mcpFAQ
Z3/SMT Server MCP бесплатный?
Да, Z3/SMT Server MCP бесплатный — установка в пару кликов через Unyly без оплаты.
Нужен ли API-ключ для Z3/SMT Server?
Нет, Z3/SMT Server работает без API-ключей и переменных окружения.
Z3/SMT Server — hosted или self-hosted?
Доступен hosted-вариант: Unyly запускает сервер в облаке, локальная установка не обязательна.
Как установить Z3/SMT Server в Claude Desktop, Claude Code или Cursor?
Открой Z3/SMT Server 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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