use dust_lang::*; #[test] fn empty() { assert_eq!(interpret("x = 9"), Ok(Value::none())); assert_eq!(interpret("x = 1 + 1"), Ok(Value::none())); } #[test] fn integer() { assert_eq!(interpret("1"), Ok(Value::Integer(1))); assert_eq!(interpret("123"), Ok(Value::Integer(123))); assert_eq!(interpret("-666"), Ok(Value::Integer(-666))); } #[test] fn integer_overflow() { assert_eq!( interpret("9223372036854775807 + 1"), Ok(Value::Integer(i64::MIN)) ); assert_eq!( interpret("-9223372036854775808 - 1"), Ok(Value::Integer(i64::MAX)) ); } #[test] fn float() { assert_eq!( interpret("1.7976931348623157e308"), Ok(Value::Float(f64::MAX)) ); assert_eq!( interpret("-1.7976931348623157e308"), Ok(Value::Float(f64::MIN)) ); } #[test] fn string() { assert_eq!(interpret("\"one\""), Ok(Value::string("one".to_string()))); assert_eq!(interpret("'one'"), Ok(Value::string("one".to_string()))); assert_eq!(interpret("`one`"), Ok(Value::string("one".to_string()))); assert_eq!(interpret("`'one'`"), Ok(Value::string("'one'".to_string()))); assert_eq!(interpret("'`one`'"), Ok(Value::string("`one`".to_string()))); assert_eq!( interpret("\"'one'\""), Ok(Value::string("'one'".to_string())) ); } #[test] fn list() { assert_eq!( interpret("[1, 2, 'foobar']"), Ok(Value::List(List::with_items(vec![ Value::Integer(1), Value::Integer(2), Value::string("foobar".to_string()), ]))) ); } #[test] fn empty_list() { assert_eq!(interpret("[]"), Ok(Value::List(List::new()))); } #[test] fn map() { let mut map = Map::new(); map.set("x".to_string(), Value::Integer(1)); map.set("foo".to_string(), Value::string("bar".to_string())); assert_eq!(interpret("{ x = 1, foo = 'bar' }"), Ok(Value::Map(map))); } #[test] fn empty_map() { assert_eq!(interpret("{}"), Ok(Value::Map(Map::new()))); } #[test] fn map_types() { let mut map = Map::new(); map.set("x".to_string(), Value::Integer(1)); map.set("foo".to_string(), Value::string("bar".to_string())); assert_eq!( interpret("{ x = 1, foo = 'bar' }"), Ok(Value::Map(map)) ); } #[test] fn map_type_errors() { assert_eq!( interpret("{ foo = 'bar' }"), Err(Error::Validation(error::ValidationError::TypeCheck { expected: Type::Boolean, actual: Type::String, position: SourcePosition { start_byte: 0, end_byte: 22, start_row: 1, start_column: 0, end_row: 1, end_column: 22 } })) ); } #[test] fn function() { let result = interpret("() { 1 }"); let value = result.unwrap(); let function = value.as_function().unwrap(); let function = if let Function::ContextDefined(function) = function { function } else { panic!("Something is wrong with this test..."); }; assert_eq!(&Vec::::with_capacity(0), function.parameters()); assert_eq!(&Type::Integer, function.return_type()); let result = interpret("(x ) { true }"); let value = result.unwrap(); let function = value.as_function().unwrap(); let function = if let Function::ContextDefined(function) = function { function } else { panic!("Something is wrong with this test..."); }; assert_eq!( &vec![Identifier::new("x".to_string())], function.parameters() ); assert_eq!(&Type::Boolean, function.return_type()); } #[test] fn range() { assert_eq!(interpret("0..100"), Ok(Value::range(0, 100))); }