use dust_lang::*; #[test] fn add() { let source = "1 + 2"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ ( *Instruction::add(0, 0, 1) .set_b_is_constant() .set_c_is_constant(), Span(2, 3) ), (Instruction::r#return(true), Span(5, 5)) ], vec![Value::integer(1), Value::integer(2)], vec![] )) ); assert_eq!(run(source), Ok(Some(Value::integer(3)))); } #[test] fn add_assign() { let source = "let mut a = 1; a += 2; a"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_constant(0, 0, false), Span(12, 13)), (Instruction::define_local(0, 0, true), Span(8, 9)), (*Instruction::add(0, 0, 2).set_c_is_constant(), Span(17, 19)), (Instruction::get_local(1, 0), Span(23, 24)), (Instruction::r#return(true), Span(24, 24)) ], vec![Value::integer(1), Value::string("a"), Value::integer(2)], vec![Local::new(1, None, true, Scope::default(), 0)] )) ); assert_eq!(run(source), Ok(Some(Value::integer(3)))); } #[test] fn constant() { let source = "42"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_constant(0, 0, false), Span(0, 2)), (Instruction::r#return(true), Span(2, 2)) ], vec![Value::integer(42)], vec![] )) ); assert_eq!(run(source), Ok(Some(Value::integer(42)))); } #[test] fn define_local() { let source = "let x = 42;"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_constant(0, 0, false), Span(8, 10)), (Instruction::define_local(0, 0, false), Span(4, 5)), (Instruction::r#return(false), Span(11, 11)) ], vec![Value::integer(42), Value::string("x")], vec![Local::new(1, None, false, Scope::default(), 0)] )), ); assert_eq!(run(source), Ok(None)); } #[test] fn divide() { let source = "2 / 2"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ ( *Instruction::divide(0, 0, 0) .set_b_is_constant() .set_c_is_constant(), Span(2, 3) ), (Instruction::r#return(true), Span(5, 5)) ], vec![Value::integer(2)], vec![] )) ); assert_eq!(run(source), Ok(Some(Value::integer(1)))); } #[test] fn divide_assign() { let source = "let mut a = 2; a /= 2; a"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_constant(0, 0, false), Span(12, 13)), (Instruction::define_local(0, 0, true), Span(8, 9)), ( *Instruction::divide(0, 0, 0).set_c_is_constant(), Span(17, 19) ), (Instruction::get_local(1, 0), Span(23, 24)), (Instruction::r#return(true), Span(24, 24)) ], vec![Value::integer(2), Value::string("a")], vec![Local::new(1, None, true, Scope::default(), 0)] )) ); assert_eq!(run(source), Ok(Some(Value::integer(1)))); } #[test] fn empty() { let source = ""; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![(Instruction::r#return(false), Span(0, 0))], vec![], vec![] )) ); assert_eq!(run(source), Ok(None)); } #[test] fn empty_list() { let source = "[]"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_list(0, 0, 0), Span(0, 2)), (Instruction::r#return(true), Span(2, 2)), ], vec![], vec![] )), ); assert_eq!(run(source), Ok(Some(Value::list(0, 0, Type::Any)))); } #[test] fn list() { let source = "[1, 2, 3]"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_constant(0, 0, false), Span(1, 2)), (Instruction::load_constant(1, 1, false), Span(4, 5)), (Instruction::load_constant(2, 2, false), Span(7, 8)), (Instruction::load_list(3, 0, 2), Span(0, 9)), (Instruction::r#return(true), Span(9, 9)), ], vec![Value::integer(1), Value::integer(2), Value::integer(3),], vec![] )), ); assert_eq!(run(source), Ok(Some(Value::list(0, 2, Type::Integer)))); } #[test] fn list_with_complex_expression() { let source = "[1, 2 + 3 - 4 * 5]"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_constant(0, 0, false), Span(1, 2)), ( *Instruction::add(1, 1, 2) .set_b_is_constant() .set_c_is_constant(), Span(6, 7) ), ( *Instruction::multiply(2, 3, 4) .set_b_is_constant() .set_c_is_constant(), Span(14, 15) ), (Instruction::subtract(3, 1, 2), Span(10, 11)), (Instruction::close(1, 3), Span(17, 18)), (Instruction::load_list(4, 0, 3), Span(0, 18)), (Instruction::r#return(true), Span(18, 18)), ], vec![ Value::integer(1), Value::integer(2), Value::integer(3), Value::integer(4), Value::integer(5) ], vec![] )), ); assert_eq!(run(source), Ok(Some(Value::list(0, 3, Type::Integer)))); } #[test] fn list_with_simple_expression() { let source = "[1, 2 + 3, 4]"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_constant(0, 0, false), Span(1, 2)), ( *Instruction::add(1, 1, 2) .set_b_is_constant() .set_c_is_constant(), Span(6, 7) ), (Instruction::load_constant(2, 3, false), Span(11, 12)), (Instruction::load_list(3, 0, 2), Span(0, 13)), (Instruction::r#return(true), Span(13, 13)), ], vec![ Value::integer(1), Value::integer(2), Value::integer(3), Value::integer(4), ], vec![] )), ); assert_eq!(run(source), Ok(Some(Value::list(0, 2, Type::Integer)))); } #[test] fn math_operator_precedence() { let source = "1 + 2 - 3 * 4 / 5"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ ( *Instruction::add(0, 0, 1) .set_b_is_constant() .set_c_is_constant(), Span(2, 3) ), ( *Instruction::multiply(1, 2, 3) .set_b_is_constant() .set_c_is_constant(), Span(10, 11) ), ( *Instruction::divide(2, 1, 4).set_c_is_constant(), Span(14, 15) ), (Instruction::subtract(3, 0, 2), Span(6, 7)), (Instruction::r#return(true), Span(17, 17)), ], vec![ Value::integer(1), Value::integer(2), Value::integer(3), Value::integer(4), Value::integer(5), ], vec![] )) ); assert_eq!(run(source), Ok(Some(Value::integer(1)))); } #[test] fn multiply() { let source = "1 * 2"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ ( *Instruction::multiply(0, 0, 1) .set_b_is_constant() .set_c_is_constant(), Span(2, 3) ), (Instruction::r#return(true), Span(5, 5)), ], vec![Value::integer(1), Value::integer(2)], vec![] )) ); assert_eq!(run(source), Ok(Some(Value::integer(2)))); } #[test] fn multiply_assign() { let source = "let mut a = 2; a *= 3 a"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_constant(0, 0, false), Span(12, 13)), (Instruction::define_local(0, 0, true), Span(8, 9)), ( *Instruction::multiply(0, 0, 2).set_c_is_constant(), Span(17, 19) ), (Instruction::get_local(1, 0), Span(22, 23)), (Instruction::r#return(true), Span(23, 23)) ], vec![Value::integer(2), Value::string("a"), Value::integer(3)], vec![Local::new(1, None, true, Scope::default(), 0),] )) ); assert_eq!(run(source), Ok(Some(Value::integer(6)))); } #[test] fn negate() { let source = "-(42)"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (*Instruction::negate(0, 0).set_b_is_constant(), Span(0, 1)), (Instruction::r#return(true), Span(5, 5)), ], vec![Value::integer(42)], vec![] )), ); assert_eq!(run(source), Ok(Some(Value::integer(-42)))); } #[test] fn not() { let source = "!true"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_boolean(0, true, false), Span(1, 5)), (Instruction::not(1, 0), Span(0, 1)), (Instruction::r#return(true), Span(5, 5)), ], vec![], vec![] )), ); assert_eq!(run(source), Ok(Some(Value::boolean(false)))); } #[test] fn parentheses_precedence() { let source = "(1 + 2) * 3"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ ( *Instruction::add(0, 0, 1) .set_b_is_constant() .set_c_is_constant(), Span(3, 4) ), ( *Instruction::multiply(1, 0, 2).set_c_is_constant(), Span(8, 9) ), (Instruction::r#return(true), Span(11, 11)), ], vec![Value::integer(1), Value::integer(2), Value::integer(3)], vec![] )) ); assert_eq!(run(source), Ok(Some(Value::integer(9)))); } #[test] fn set_local() { let source = "let mut x = 41; x = 42; x"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_constant(0, 0, false), Span(12, 14)), (Instruction::define_local(0, 0, true), Span(8, 9)), (Instruction::load_constant(1, 2, false), Span(20, 22)), (Instruction::set_local(1, 0), Span(16, 17)), (Instruction::get_local(2, 0), Span(24, 25)), (Instruction::r#return(true), Span(25, 25)), ], vec![Value::integer(41), Value::string("x"), Value::integer(42)], vec![Local::new(1, None, true, Scope::default(), 0)] )), ); assert_eq!(run(source), Ok(Some(Value::integer(42)))); } #[test] fn subtract() { let source = "1 - 2"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ ( *Instruction::subtract(0, 0, 1) .set_b_is_constant() .set_c_is_constant(), Span(2, 3) ), (Instruction::r#return(true), Span(5, 5)), ], vec![Value::integer(1), Value::integer(2)], vec![] )) ); assert_eq!(run(source), Ok(Some(Value::integer(-1)))); } #[test] fn subtract_assign() { let source = "let mut x = 42; x -= 2; x"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_constant(0, 0, false), Span(12, 14)), (Instruction::define_local(0, 0, true), Span(8, 9)), ( *Instruction::subtract(0, 0, 2).set_c_is_constant(), Span(18, 20) ), (Instruction::get_local(1, 0), Span(24, 25)), (Instruction::r#return(true), Span(25, 25)), ], vec![Value::integer(42), Value::string("x"), Value::integer(2)], vec![Local::new(1, None, true, Scope::default(), 0)] )), ); assert_eq!(run(source), Ok(Some(Value::integer(40)))); } #[test] fn variable_and() { let source = "let a = true; let b = false; a && b"; assert_eq!( parse(source), Ok(Chunk::with_data( None, vec![ (Instruction::load_boolean(0, true, false), Span(8, 12)), (Instruction::define_local(0, 0, false), Span(4, 5)), (Instruction::load_boolean(1, false, false), Span(22, 27)), (Instruction::define_local(1, 1, false), Span(18, 19)), (Instruction::get_local(2, 0), Span(29, 30)), (Instruction::test(2, false), Span(31, 33)), (Instruction::jump(1, true), Span(31, 33)), (Instruction::get_local(3, 1), Span(34, 35)), (Instruction::r#return(true), Span(35, 35)), ], vec![Value::string("a"), Value::string("b"),], vec![ Local::new(0, None, false, Scope::default(), 0), Local::new(1, None, false, Scope::default(), 1), ] )) ); assert_eq!(run(source), Ok(Some(Value::boolean(false)))); }