Compute MCP
An MCP server for evaluating arithmetic expressions using a Pratt parser in Rust.
🔮 Compute MCP
A robust arithmetic expression evaluator implemented as an MCP (Model Context Protocol) server. This project demonstrates production-quality parser development using modern Rust techniques, comprehensive property-based testing, and adversarial test strategies.
✨ Features
- Complete Arithmetic:
+,-,*,/with correct precedence - Scientific Notation:
1e10,2.5e-3,1.23E+4 - Parentheses Grouping:
(2 + 3) * 4 - Decimal Numbers:
3.14159,-0.5 - Unary Operators:
-42,-(5 + 3),--5 - Robust Error Handling: Division by zero, malformed input, parse errors
- Deep Nesting Support: Handles complex nested expressions
- Property-Based Tested: 60+ tests covering mathematical invariants
🏗️ Architecture
Built using a modern Pratt parser for clean operator precedence handling:
Input String → Pest Grammar → Pratt Parser → AST → Evaluator → Result
│ │ │ │ │ │
"2 + 3 * 4" compute.pest PrattParser Expr::Add eval_expr Ok(14.0)
/ \
Expr::Num(2) Expr::Mul
/ \
Expr::Num(3) Expr::Num(4)
Key Components
- Grammar (
src/compute.pest) - Defines syntax with atoms and operators - Pratt Parser (
src/lib.rs) - Handles precedence automatically - AST (
Exprenum) - Immutable expression tree - Evaluator (
eval_expr) - Stack-safe recursive evaluation - MCP Server (
src/bin/stdio_direct.rs) - JSON-RPC interface
🚀 Quick Start
Installation
cargo build --release
Direct Evaluation
# Command line tool
cargo run --bin stdio_direct -- eval "2 + 3 * 4"
cargo run --bin stdio_direct -- eval "1e10 / (2.5 + 3.7)"
MCP Server
# Initialize server
echo '{"jsonrpc":"2.0","method":"initialize","params":{},"id":1}' | cargo run --bin stdio_direct
# Batch evaluation
echo '{"jsonrpc":"2.0","method":"tools/call","params":{"name":"evaluate_batch","arguments":{"expressions":["2+2","1e3*2","(5-3)^2"]}},"id":2}' | cargo run --bin stdio_direct
Claude Desktop Integration
{
"mcpServers": {
"compute": {
"command": "/path/to/compute-mcp/target/release/stdio_direct"
}
}
}
🧪 Comprehensive Testing
This project features one of the most thorough test suites for arithmetic parsers:
Test Categories
🔧 Unit Tests (tests/tests.rs)
- Basic arithmetic operations
- Precedence and associativity
- Error handling
- Round-trip parsing
⚡ Adversarial Tests (tests/adversarial_tests.rs)
- Floating-point edge cases (infinity, NaN, subnormals)
- Deep nesting (1000+ levels)
- Malformed input fuzzing
- Performance stress testing
🎯 Property-Based Tests (tests/proptest_adversarial.rs)
- Mathematical invariants (commutativity, associativity, distributivity)
- Parser robustness (never panics)
- Evaluation determinism
- Precision preservation
Key Invariants Tested
// Precedence preservation
parse("a + b * c") == Add(a, Mul(b, c))
// Evaluation determinism
eval(expr) == eval(expr) // Always same result
// Mathematical laws
eval(Add(a, b)) ≈ eval(Add(b, a)) // Commutativity
eval(Add(Add(a, b), c)) ≈ eval(Add(a, Add(b, c))) // Associativity
// Round-trip consistency
eval(parse(print(ast))) ≈ eval(ast)
// Error containment
parse(invalid_input) == Err(_) // Never panics
Running Tests
# All tests
cargo test
# Specific test suites
cargo test --test tests # Basic functionality
cargo test --test adversarial_tests # Edge cases
cargo test --test proptest_adversarial # Property tests
# Parallel execution
cargo test -- --test-threads=4
🐛 Bugs Found & Fixed
Property-based testing discovered critical issues during development:
Grammar Ambiguity: The original grammar allowed -5 to parse as either Neg(Number(5)) or Number(-5), causing non-deterministic behavior. Fixed by removing minus signs from number literals.
Precision Edge Cases: Tests revealed floating-point precision issues with expressions like 1e20 + 1 - 1e20, leading to more robust error tolerance.
Deep Nesting Limits: Found parser performance cliffs at ~40+ nesting levels, optimized for practical use cases.
📊 Code Examples
Basic Usage
use compute_mcp::*;
// Simple evaluation
let result = evaluate("2 + 3 * 4")?;
assert_eq!(result, 14.0);
// Scientific notation
let result = evaluate("1.5e3 + 2.5e2")?;
assert_eq!(result, 1750.0);
// Complex expressions
let result = evaluate("((1 + 2) * 3 - 4) / 2")?;
assert_eq!(result, 2.5);
Advanced Features
// Parse to AST for inspection
let ast = parse_expression("-(2 + 3) * 4")?;
// Returns: Mul(Neg(Add(Number(2), Number(3))), Number(4))
// Batch processing
let expressions = vec!["1+1", "2*2", "3/3"];
let results = evaluate_batch(&expressions);
// Error handling
match evaluate("10 / 0") {
Err(ComputeError::DivisionByZero) => println!("Caught division by zero"),
_ => unreachable!(),
}
📁 Project Structure
compute-mcp/
├── Cargo.toml # Dependencies and metadata
├── src/
│ ├── lib.rs # Parser, AST, and evaluator (~350 lines)
│ ├── compute.pest # Pratt parser grammar (~35 lines)
│ └── bin/
│ └── stdio_direct.rs # MCP server implementation
├── tests/
│ ├── tests.rs # Unit and integration tests
│ ├── adversarial_tests.rs # Edge case and stress tests
│ ├── proptest_adversarial.rs # Property-based tests
│ └── *.proptest-regressions # Saved failing test cases
└── target/ # Build artifacts
🔗 Dependencies
[dependencies]
pest = "2.6" # Parser generator
pest_derive = "2.6" # Derive macros for grammar
lazy_static = "1.4" # Global parser instance
mcpr = "0.2.3" # MCP protocol
serde = "1.0" # JSON serialization
clap = "4.4" # Command line interface
[dev-dependencies]
proptest = "1.6.0" # Property-based testing
🎓 Educational Value
This project serves as an excellent case study for:
- Modern Parser Design: Pratt parsers vs recursive descent
- Property-Based Testing: Discovering edge cases automatically
- Rust Best Practices: Error handling, type safety, zero-cost abstractions
- Protocol Implementation: MCP server development
- Mathematical Correctness: Ensuring arithmetic laws hold
Perfect for blog posts, tutorials, and educational content about robust software development.
📝 License
MIT - See LICENSE for details.
🔮 Ready for production use with confidence backed by comprehensive testing! 🔮
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