rhai/codegen/tests/test_functions.rs
2020-08-09 14:19:47 -05:00

274 lines
7.2 KiB
Rust

use rhai::module_resolvers::*;
use rhai::{Array, Engine, EvalAltResult, Module, RegisterFn, FLOAT};
pub mod raw_fn {
use rhai::plugin::*;
use rhai::FLOAT;
#[export_fn]
pub fn distance_function(x1: FLOAT, y1: FLOAT, x2: FLOAT, y2: FLOAT) -> FLOAT {
((y2 - y1).abs().powf(2.0) + (x2 - x1).abs().powf(2.0)).sqrt()
}
}
#[test]
fn raw_fn_test() -> Result<(), Box<EvalAltResult>> {
let mut engine = Engine::new();
engine.register_fn("get_mystic_number", || 42 as FLOAT);
let mut m = Module::new();
rhai::register_exported_fn!(
m,
"euclidean_distance".to_string(),
raw_fn::distance_function
);
let mut r = StaticModuleResolver::new();
r.insert("Math::Advanced".to_string(), m);
engine.set_module_resolver(Some(r));
assert_eq!(
engine.eval::<FLOAT>(
r#"import "Math::Advanced" as math;
let x = math::euclidean_distance(0.0, 1.0, 0.0, get_mystic_number()); x"#
)?,
41.0
);
Ok(())
}
mod raw_fn_mut {
use rhai::plugin::*;
use rhai::FLOAT;
#[export_fn]
pub fn add_in_place(f1: &mut FLOAT, f2: FLOAT) {
*f1 += f2;
}
}
#[test]
fn raw_fn_mut_test() -> Result<(), Box<EvalAltResult>> {
let mut engine = Engine::new();
engine.register_fn("get_mystic_number", || 42 as FLOAT);
let mut m = Module::new();
rhai::register_exported_fn!(m, "add_in_place", raw_fn_mut::add_in_place);
let mut r = StaticModuleResolver::new();
r.insert("Math::Advanced".to_string(), m);
engine.set_module_resolver(Some(r));
assert_eq!(
engine.eval::<FLOAT>(
r#"import "Math::Advanced" as math;
let x = get_mystic_number();
math::add_in_place(x, 1.0);
x"#
)?,
43.0
);
Ok(())
}
mod raw_fn_str {
use rhai::plugin::*;
#[export_fn]
pub fn write_out_str(message: &str) -> bool {
eprintln!("{}", message);
true
}
}
#[test]
fn raw_fn_str_test() -> Result<(), Box<EvalAltResult>> {
let mut engine = Engine::new();
engine.register_fn("get_mystic_number", || 42 as FLOAT);
let mut m = Module::new();
rhai::register_exported_fn!(m, "write_out_str", raw_fn_str::write_out_str);
let mut r = StaticModuleResolver::new();
r.insert("Host::IO".to_string(), m);
engine.set_module_resolver(Some(r));
assert_eq!(
engine.eval::<bool>(
r#"import "Host::IO" as io;
let x = io::write_out_str("hello world!");
x"#
)?,
true
);
Ok(())
}
mod mut_opaque_ref {
use rhai::plugin::*;
use rhai::INT;
#[derive(Clone)]
pub struct StatusMessage {
os_code: Option<INT>,
message: String,
is_ok: bool,
}
#[export_fn]
pub fn new_message(is_ok: bool, message: &str) -> StatusMessage {
StatusMessage {
is_ok,
os_code: None,
message: message.to_string(),
}
}
#[export_fn]
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),
}
}
#[export_fn]
pub fn write_out_message(message: &mut StatusMessage) -> bool {
eprintln!("{}", message.message);
true
}
}
#[test]
fn mut_opaque_ref_test() -> Result<(), Box<EvalAltResult>> {
let mut engine = Engine::new();
let mut m = Module::new();
rhai::register_exported_fn!(m, "new_message", mut_opaque_ref::new_message);
rhai::register_exported_fn!(m, "new_os_message", mut_opaque_ref::new_os_message);
rhai::register_exported_fn!(m, "write_out_message", mut_opaque_ref::write_out_message);
let mut r = StaticModuleResolver::new();
r.insert("Host::Msg".to_string(), m);
engine.set_module_resolver(Some(r));
assert_eq!(
engine.eval::<bool>(
r#"import "Host::Msg" as msg;
let message1 = msg::new_message(true, "it worked");
let ok1 = msg::write_out_message(message1);
let message2 = msg::new_os_message(true, 0);
let ok2 = msg::write_out_message(message2);
ok1 && ok2"#
)?,
true
);
Ok(())
}
mod rename_fn {
use rhai::plugin::*;
use rhai::FLOAT;
#[export_fn(name = "add_float")]
pub fn add(f1: FLOAT, f2: FLOAT) -> FLOAT {
f1 + f2
}
}
#[test]
fn rename_fn_test() -> Result<(), Box<EvalAltResult>> {
let mut engine = Engine::new();
engine.register_fn("get_mystic_number", || 42 as FLOAT);
let mut m = Module::new();
rhai::register_exported_fn!(m, "add_two_floats", rename_fn::add_float);
let mut r = StaticModuleResolver::new();
r.insert("Math::Advanced".to_string(), m);
engine.set_module_resolver(Some(r));
assert_eq!(
engine.eval::<FLOAT>(
r#"import "Math::Advanced" as math;
let x = get_mystic_number();
let y = math::add_two_floats(x, 1.0);
y"#
)?,
43.0
);
Ok(())
}
mod duplicate_fn_rename {
use rhai::plugin::*;
use rhai::{FLOAT, INT};
#[export_fn(name = "add_float")]
pub fn add(f1: FLOAT, f2: FLOAT) -> FLOAT {
f1 + f2
}
#[export_fn(name = "add_int")]
pub fn add(i1: INT, i2: INT) -> INT {
i1 + i2
}
}
#[test]
fn duplicate_fn_rename_test() -> Result<(), Box<EvalAltResult>> {
let mut engine = Engine::new();
engine.register_fn("get_mystic_number", || 42 as FLOAT);
let mut m = Module::new();
rhai::register_exported_fn!(m, "add_two_floats", duplicate_fn_rename::add_float);
rhai::register_exported_fn!(m, "add_two_ints", duplicate_fn_rename::add_int);
let mut r = StaticModuleResolver::new();
r.insert("Math::Advanced".to_string(), m);
engine.set_module_resolver(Some(r));
let output_array = engine.eval::<Array>(
r#"import "Math::Advanced" as math;
let fx = get_mystic_number();
let fy = math::add_two_floats(fx, 1.0);
let ix = 42;
let iy = math::add_two_ints(ix, 1);
[fy, iy]
"#
)?;
assert_eq!(&output_array[0].as_float().unwrap(), &43.0);
assert_eq!(&output_array[1].as_int().unwrap(), &43);
Ok(())
}
pub mod raw_returning_fn {
use rhai::plugin::*;
use rhai::FLOAT;
#[export_fn(return_raw)]
pub fn distance_function(
x1: FLOAT,
y1: FLOAT,
x2: FLOAT,
y2: FLOAT,
) -> Result<rhai::Dynamic, Box<rhai::EvalAltResult>> {
Ok(Dynamic::from(
((y2 - y1).abs().powf(2.0) + (x2 - x1).abs().powf(2.0)).sqrt(),
))
}
}
#[test]
fn raw_returning_fn_test() -> Result<(), Box<EvalAltResult>> {
let mut engine = Engine::new();
engine.register_fn("get_mystic_number", || 42 as FLOAT);
let mut m = Module::new();
rhai::register_exported_fn!(
m,
"euclidean_distance".to_string(),
raw_returning_fn::distance_function
);
let mut r = StaticModuleResolver::new();
r.insert("Math::Advanced".to_string(), m);
engine.set_module_resolver(Some(r));
assert_eq!(
engine.eval::<FLOAT>(
r#"import "Math::Advanced" as math;
let x = math::euclidean_distance(0.0, 1.0, 0.0, get_mystic_number()); x"#
)?,
41.0
);
Ok(())
}