use rhai::module_resolvers::*; use rhai::{Array, Engine, EvalAltResult, RegisterFn, FLOAT, INT}; pub mod empty_module { use rhai::plugin::*; #[export_module] pub mod EmptyModule {} } #[test] fn empty_module_test() -> Result<(), Box> { let mut engine = Engine::new(); let m = rhai::exported_module!(crate::empty_module::EmptyModule); engine.register_static_module("Module::Empty", m.into()); Ok(()) } pub mod one_fn_module { use rhai::plugin::*; #[export_module] pub mod advanced_math { use rhai::FLOAT; pub fn get_mystic_number() -> FLOAT { 42.0 as FLOAT } } } #[test] fn one_fn_module_test() -> Result<(), Box> { let mut engine = Engine::new(); let m = rhai::exported_module!(crate::one_fn_module::advanced_math); engine.register_static_module("Math::Advanced", m.into()); assert_eq!( engine.eval::(r#"let m = Math::Advanced::get_mystic_number();m"#)?, 42.0 ); Ok(()) } pub mod one_fn_and_const_module { use rhai::plugin::*; #[export_module] pub mod advanced_math { use rhai::FLOAT; pub const MYSTIC_NUMBER: FLOAT = 42.0 as FLOAT; pub fn euclidean_distance(x1: FLOAT, y1: FLOAT, x2: FLOAT, y2: FLOAT) -> FLOAT { ((y2 - y1).abs().powf(2.0) + (x2 - x1).abs().powf(2.0)).sqrt() } } } #[test] fn one_fn_and_const_module_test() -> Result<(), Box> { let mut engine = Engine::new(); let m = rhai::exported_module!(crate::one_fn_and_const_module::advanced_math); engine.register_static_module("Math::Advanced", m.into()); assert_eq!( engine.eval::( r#" let m = Math::Advanced::MYSTIC_NUMBER; let x = Math::Advanced::euclidean_distance(0.0, 1.0, 0.0, m); x"# )?, 41.0 ); Ok(()) } pub mod raw_fn_str_module { use rhai::plugin::*; #[export_module] pub mod host_io { pub fn write_out_str(message: &str) -> bool { eprintln!("{}", message); true } } } #[test] fn raw_fn_str_module_test() -> Result<(), Box> { let mut engine = Engine::new(); let m = rhai::exported_module!(crate::raw_fn_str_module::host_io); engine.register_static_module("Host::IO", m.into()); assert_eq!( engine.eval::(r#"let x = Host::IO::write_out_str("hello world!"); x"#)?, true ); Ok(()) } pub mod mut_opaque_ref_module { use rhai::plugin::*; use rhai::INT; #[derive(Clone)] pub struct StatusMessage { os_code: Option, message: String, is_ok: bool, } #[export_module] pub mod host_msg { use super::{StatusMessage, INT}; pub fn new_message(is_ok: bool, message: &str) -> StatusMessage { StatusMessage { is_ok, os_code: None, message: message.to_string(), } } pub fn new_os_message(is_ok: bool, os_code: INT) -> StatusMessage { StatusMessage { is_ok, os_code: Some(os_code), message: format!("OS Code {}", os_code), } } pub fn write_out_message(message: &mut StatusMessage) -> bool { eprintln!("{}", message.message); true } } } #[test] fn mut_opaque_ref_test() -> Result<(), Box> { let mut engine = Engine::new(); let m = rhai::exported_module!(crate::mut_opaque_ref_module::host_msg); engine.register_static_module("Host::Msg", m.into()); assert_eq!( engine.eval::( r#" let success = "it worked"; let message1 = Host::Msg::new_message(true, success); let ok1 = Host::Msg::write_out_message(message1); let message2 = Host::Msg::new_os_message(true, 0); let ok2 = Host::Msg::write_out_message(message2); ok1 && ok2"# )?, true ); Ok(()) } mod duplicate_fn_rename { use rhai::plugin::*; #[export_module] pub mod my_adds { use rhai::{FLOAT, INT}; #[rhai_fn(name = "add")] pub fn add_float(f1: FLOAT, f2: FLOAT) -> FLOAT { f1 + f2 } #[rhai_fn(name = "add")] pub fn add_int(i1: INT, i2: INT) -> INT { i1 + i2 } } } #[test] fn duplicate_fn_rename_test() -> Result<(), Box> { let mut engine = Engine::new(); engine.register_fn("get_mystic_number", || 42 as FLOAT); let m = rhai::exported_module!(crate::duplicate_fn_rename::my_adds); engine.register_static_module("Math::Advanced", m.into()); let output_array = engine.eval::( r#" let fx = get_mystic_number(); let fy = Math::Advanced::add(fx, 1.0); let ix = 42; let iy = Math::Advanced::add(ix, 1); [fy, iy] "#, )?; assert_eq!(&output_array[0].as_float().unwrap(), &43.0); assert_eq!(&output_array[1].as_int().unwrap(), &43); Ok(()) } mod multiple_fn_rename { use rhai::plugin::*; #[export_module] pub mod my_adds { use rhai::{FLOAT, INT}; pub fn get_mystic_number() -> FLOAT { 42.0 } #[rhai_fn(name = "add", name = "+", name = "add_together")] pub fn add_float(f1: FLOAT, f2: FLOAT) -> FLOAT { f1 + f2 * 2.0 } #[rhai_fn(name = "add", name = "+", name = "add_together")] pub fn add_int(i1: INT, i2: INT) -> INT { i1 + i2 * 2 } #[rhai_fn(name = "prop", get = "prop")] pub fn get_prop(x: FLOAT) -> FLOAT { x * 2.0 } #[rhai_fn(name = "idx", index_get)] pub fn index(x: FLOAT, i: INT) -> FLOAT { x + (i as FLOAT) } } } #[test] fn multiple_fn_rename_test() -> Result<(), Box> { let mut engine = Engine::new(); let m = rhai::exported_module!(crate::multiple_fn_rename::my_adds); engine.register_global_module(m.into()); let output_array = engine.eval::( r#" let fx = get_mystic_number(); let fy1 = add(fx, 1.0); let fy2 = add_together(fx, 1.0); let fy3 = fx + 1.0; let p1 = fx.prop; let p2 = prop(fx); let idx1 = fx[1]; let idx2 = idx(fx, 1); let ix = 42; let iy1 = add(ix, 1); let iy2 = add_together(ix, 1); let iy3 = ix + 1; [fy1, fy2, fy3, iy1, iy2, iy3, p1, p2, idx1, idx2] "#, )?; assert_eq!(&output_array[0].as_float().unwrap(), &44.0); assert_eq!(&output_array[1].as_float().unwrap(), &44.0); assert_eq!(&output_array[2].as_float().unwrap(), &44.0); assert_eq!(&output_array[3].as_int().unwrap(), &44); assert_eq!(&output_array[4].as_int().unwrap(), &44); assert_eq!(&output_array[5].as_int().unwrap(), &44); assert_eq!(&output_array[6].as_float().unwrap(), &84.0); assert_eq!(&output_array[7].as_float().unwrap(), &84.0); assert_eq!(&output_array[8].as_float().unwrap(), &43.0); assert_eq!(&output_array[9].as_float().unwrap(), &43.0); Ok(()) } mod export_by_prefix { use rhai::plugin::*; #[export_module(export_prefix = "foo_")] pub mod my_adds { use rhai::{FLOAT, INT}; #[rhai_fn(name = "foo_add_f")] pub fn foo_add1(f1: FLOAT, f2: FLOAT) -> FLOAT { f1 + f2 } #[rhai_fn(name = "bar_add_i")] fn foo_add_int(i1: INT, i2: INT) -> INT { i1 + i2 } #[rhai_fn(name = "foo_add_float2")] pub fn add_float2(f1: FLOAT, f2: FLOAT) -> FLOAT { f1 + f2 } pub fn foo_m(f1: FLOAT, f2: FLOAT) -> FLOAT { f1 + f2 } fn foo_n(i1: INT, i2: INT) -> INT { i1 + i2 } pub fn bar_m(f1: FLOAT, f2: FLOAT) -> FLOAT { f1 + f2 } } } #[test] fn export_by_prefix_test() -> Result<(), Box> { let mut engine = Engine::new(); let m = rhai::exported_module!(crate::export_by_prefix::my_adds); engine.register_static_module("Math::Advanced", m.into()); let output_array = engine.eval::( r#" let ex = 41.0; let fx = Math::Advanced::foo_add_f(ex, 1.0); let gx = Math::Advanced::foo_m(41.0, 1.0); let ei = 41; let fi = Math::Advanced::bar_add_i(ei, 1); let gi = Math::Advanced::foo_n(41, 1); [fx, gx, fi, gi] "#, )?; assert_eq!(&output_array[0].as_float().unwrap(), &42.0); assert_eq!(&output_array[1].as_float().unwrap(), &42.0); assert_eq!(&output_array[2].as_int().unwrap(), &42); assert_eq!(&output_array[3].as_int().unwrap(), &42); assert!(matches!(*engine.eval::( r#" let ex = 41.0; let fx = Math::Advanced::foo_add_float2(ex, 1.0); fx "#).unwrap_err(), EvalAltResult::ErrorFunctionNotFound(s, p) if s == "Math::Advanced::foo_add_float2 (f64, f64)" && p == rhai::Position::new(3, 34))); assert!(matches!(*engine.eval::( r#" let ex = 41.0; let fx = Math::Advanced::bar_m(ex, 1.0); fx "#).unwrap_err(), EvalAltResult::ErrorFunctionNotFound(s, p) if s == "Math::Advanced::bar_m (f64, f64)" && p == rhai::Position::new(3, 34))); Ok(()) } mod export_all { use rhai::plugin::*; #[export_module(export_all)] pub mod my_adds { use rhai::{FLOAT, INT}; #[rhai_fn(name = "foo_add_f")] pub fn add_float(f1: FLOAT, f2: FLOAT) -> FLOAT { f1 + f2 } #[rhai_fn(name = "foo_add_i")] fn add_int(i1: INT, i2: INT) -> INT { i1 + i2 } #[rhai_fn(skip)] pub fn add_float2(f1: FLOAT, f2: FLOAT) -> FLOAT { f1 + f2 } pub fn foo_m(f1: FLOAT, f2: FLOAT) -> FLOAT { f1 + f2 } fn foo_n(i1: INT, i2: INT) -> INT { i1 + i2 } #[rhai_fn(skip)] fn foo_p(i1: INT, i2: INT) -> INT { i1 * i2 } } } #[test] fn export_all_test() -> Result<(), Box> { let mut engine = Engine::new(); let m = rhai::exported_module!(crate::export_all::my_adds); engine.register_static_module("Math::Advanced", m.into()); let output_array = engine.eval::( r#" let ex = 41.0; let fx = Math::Advanced::foo_add_f(ex, 1.0); let gx = Math::Advanced::foo_m(41.0, 1.0); let ei = 41; let fi = Math::Advanced::foo_add_i(ei, 1); let gi = Math::Advanced::foo_n(41, 1); [fx, gx, fi, gi] "#, )?; assert_eq!(&output_array[0].as_float().unwrap(), &42.0); assert_eq!(&output_array[1].as_float().unwrap(), &42.0); assert_eq!(&output_array[2].as_int().unwrap(), &42); assert_eq!(&output_array[3].as_int().unwrap(), &42); assert!(matches!(*engine.eval::( r#" let ex = 41; let fx = Math::Advanced::foo_p(ex, 1); fx "#).unwrap_err(), EvalAltResult::ErrorFunctionNotFound(s, p) if s == "Math::Advanced::foo_p (i64, i64)" && p == rhai::Position::new(3, 34))); Ok(()) }