use super::*; /// Evaluate a code snippet, returning a value. fn parse_eval(code: &str) -> Value { let chars: Vec<char> = code.chars().collect(); let tokens = scanner::scan(&chars).expect("could not scan code"); let program = parser::parse(tokens).expect("could not parse code"); Interpreter::create() .interpret(program) .expect("could not eval code") } #[test] fn test_if() { let result = parse_eval( r#" if (42 > 23) "pass"; else "fail"; "#, ); assert_eq!(Value::Literal(Literal::String("pass".into())), result,); } #[test] fn test_scope() { let result = parse_eval( r#" var result = ""; var a = "global a, "; var b = "global b, "; var c = "global c"; { var a = "outer a, "; var b = "outer b, "; { var a = "inner a, "; result = a + b + c; } } "#, ); assert_eq!( Value::Literal(Literal::String("inner a, outer b, global c".into())), result, ); } #[test] fn test_binary_operators() { assert_eq!(Value::Literal(Literal::Number(42.0)), parse_eval("40 + 2;")); assert_eq!( Value::Literal(Literal::String("foobar".into())), parse_eval("\"foo\" + \"bar\";") ); } #[test] fn test_functions() { let result = parse_eval( r#" fun add(a, b, c) { a + b + c; } add(1, 2, 3); "#, ); assert_eq!(Value::Literal(Literal::Number(6.0)), result); } #[test] fn test_closure() { let result = parse_eval( r#" fun makeCounter() { var i = 0; fun count() { i = i + 1; } return count; } var counter = makeCounter(); counter(); // "1". counter(); // "2". "#, ); assert_eq!(Value::Literal(Literal::Number(2.0)), result); }