use rhai::{Engine, EvalAltResult, ParseErrorType, Scope, INT}; #[test] fn test_switch() -> Result<(), Box> { let engine = Engine::new(); let mut scope = Scope::new(); scope.push("x", 42 as INT); assert_eq!( engine.eval_with_scope::(&mut scope, "switch x { 1 => (), 2 => 'a', 42 => true }")?, true ); assert_eq!( engine.eval_with_scope::(&mut scope, "switch x { 1 => (), 2 => 'a', _ => true }")?, true ); assert_eq!( engine.eval_with_scope::<()>(&mut scope, "switch x { 1 => 123, 2 => 'a' }")?, () ); assert_eq!( engine.eval::("let x = timestamp(); switch x { 1 => 123, _ => 42 }")?, 42 ); assert_eq!( engine.eval_with_scope::( &mut scope, "switch x { 1 => 123, 42 => { x / 2 }, _ => 999 }" )?, 21 ); #[cfg(not(feature = "no_index"))] assert_eq!( engine.eval_with_scope::( &mut scope, " let y = [1, 2, 3]; switch y { 42 => 1, true => 2, [1, 2, 3] => 3, _ => 9 } " )?, 3 ); #[cfg(not(feature = "no_object"))] assert_eq!( engine.eval_with_scope::( &mut scope, " let y = #{a:1, b:true, c:'x'}; switch y { 42 => 1, true => 2, #{b:true, c:'x', a:1} => 3, _ => 9 } " )?, 3 ); Ok(()) } #[test] fn test_switch_errors() -> Result<(), Box> { let engine = Engine::new(); assert!(matches!( *engine .compile("switch x { 1 => 123, 1 => 42 }") .expect_err("should error") .0, ParseErrorType::DuplicatedSwitchCase )); assert!(matches!( *engine .compile("switch x { _ => 123, 1 => 42 }") .expect_err("should error") .0, ParseErrorType::WrongSwitchDefaultCase )); Ok(()) } #[test] fn test_switch_condition() -> Result<(), Box> { let engine = Engine::new(); let mut scope = Scope::new(); scope.push("x", 42 as INT); assert_eq!( engine.eval_with_scope::( &mut scope, " switch x / 2 { 21 if x > 40 => 1, 0 if x < 100 => 2, 1 => 3, _ => 9 } " )?, 1 ); assert_eq!( engine.eval_with_scope::( &mut scope, " switch x / 2 { 21 if x < 40 => 1, 0 if x < 100 => 2, 1 => 3, _ => 9 } " )?, 9 ); assert!(matches!( *engine .compile( " switch x { 21 if x < 40 => 1, 21 if x == 10 => 10, 0 if x < 100 => 2, 1 => 3, _ => 9 } " ) .expect_err("should error") .0, ParseErrorType::DuplicatedSwitchCase )); assert!(matches!( *engine .compile("switch x { 1 => 123, _ if true => 42 }") .expect_err("should error") .0, ParseErrorType::WrongSwitchCaseCondition )); Ok(()) } #[cfg(not(feature = "no_index"))] #[cfg(not(feature = "no_object"))] mod test_switch_enum { use super::*; use rhai::Array; #[derive(Debug, Clone)] enum MyEnum { Foo, Bar(INT), Baz(String, bool), } impl MyEnum { fn get_enum_data(&mut self) -> Array { match self { Self::Foo => vec!["Foo".into()] as Array, Self::Bar(num) => vec!["Bar".into(), (*num).into()] as Array, Self::Baz(name, option) => { vec!["Baz".into(), name.clone().into(), (*option).into()] as Array } } } } #[test] fn test_switch_enum() -> Result<(), Box> { let mut engine = Engine::new(); engine .register_type_with_name::("MyEnum") .register_get("get_data", MyEnum::get_enum_data); let mut scope = Scope::new(); scope.push("x", MyEnum::Baz("hello".to_string(), true)); assert_eq!( engine.eval_with_scope::( &mut scope, r#" switch x.get_data { ["Foo"] => 1, ["Bar", 42] => 2, ["Bar", 123] => 3, ["Baz", "hello", false] => 4, ["Baz", "hello", true] => 5, _ => 9 } "# )?, 5 ); Ok(()) } }