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2ead747f48b7b5117ef5a4877e7afe9bff4c1a10
wasmtime/crates/api/tests/func.rs
Josh Triplett aa78d491b0 Make Func::getN return a Result rather than an Option (#966) 
This allows getN to return a detailed explanation of any type signature
mismatch, and makes it easy to just use `?` on the result of getN rather
than constructing a (necessarily vaguer) error message in the caller.
2020-02-22 17:56:23 -06:00

292 lines
8.4 KiB
Rust
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use anyhow::Result;
use std::rc::Rc;
use std::sync::atomic::{AtomicUsize, Ordering::SeqCst};
use wasmtime::{Callable, Func, FuncType, Instance, Module, Store, Trap, Val, ValType};
#[test]
fn func_constructors() {
let store = Store::default();
Func::wrap0(&store, || {});
Func::wrap1(&store, |_: i32| {});
Func::wrap2(&store, |_: i32, _: i64| {});
Func::wrap2(&store, |_: f32, _: f64| {});
Func::wrap0(&store, || -> i32 { 0 });
Func::wrap0(&store, || -> i64 { 0 });
Func::wrap0(&store, || -> f32 { 0.0 });
Func::wrap0(&store, || -> f64 { 0.0 });
Func::wrap0(&store, || -> Result<(), Trap> { loop {} });
Func::wrap0(&store, || -> Result<i32, Trap> { loop {} });
Func::wrap0(&store, || -> Result<i64, Trap> { loop {} });
Func::wrap0(&store, || -> Result<f32, Trap> { loop {} });
Func::wrap0(&store, || -> Result<f64, Trap> { loop {} });
}
#[test]
fn dtor_runs() {
static HITS: AtomicUsize = AtomicUsize::new(0);
struct A;
impl Drop for A {
fn drop(&mut self) {
HITS.fetch_add(1, SeqCst);
}
}
let store = Store::default();
let a = A;
assert_eq!(HITS.load(SeqCst), 0);
Func::wrap0(&store, move || {
drop(&a);
});
assert_eq!(HITS.load(SeqCst), 1);
}
#[test]
fn dtor_delayed() -> Result<()> {
static HITS: AtomicUsize = AtomicUsize::new(0);
struct A;
impl Drop for A {
fn drop(&mut self) {
HITS.fetch_add(1, SeqCst);
}
}
let store = Store::default();
let a = A;
let func = Func::wrap0(&store, move || drop(&a));
assert_eq!(HITS.load(SeqCst), 0);
let wasm = wat::parse_str(r#"(import "" "" (func))"#)?;
let module = Module::new(&store, &wasm)?;
let instance = Instance::new(&module, &[func.into()])?;
assert_eq!(HITS.load(SeqCst), 0);
drop(instance);
assert_eq!(HITS.load(SeqCst), 1);
Ok(())
}
#[test]
fn signatures_match() {
let store = Store::default();
let f = Func::wrap0(&store, || {});
assert_eq!(f.ty().params(), &[]);
assert_eq!(f.ty().results(), &[]);
let f = Func::wrap0(&store, || -> i32 { loop {} });
assert_eq!(f.ty().params(), &[]);
assert_eq!(f.ty().results(), &[ValType::I32]);
let f = Func::wrap0(&store, || -> i64 { loop {} });
assert_eq!(f.ty().params(), &[]);
assert_eq!(f.ty().results(), &[ValType::I64]);
let f = Func::wrap0(&store, || -> f32 { loop {} });
assert_eq!(f.ty().params(), &[]);
assert_eq!(f.ty().results(), &[ValType::F32]);
let f = Func::wrap0(&store, || -> f64 { loop {} });
assert_eq!(f.ty().params(), &[]);
assert_eq!(f.ty().results(), &[ValType::F64]);
let f = Func::wrap5(&store, |_: f32, _: f64, _: i32, _: i64, _: i32| -> f64 {
loop {}
});
assert_eq!(
f.ty().params(),
&[
ValType::F32,
ValType::F64,
ValType::I32,
ValType::I64,
ValType::I32
]
);
assert_eq!(f.ty().results(), &[ValType::F64]);
}
#[test]
fn import_works() -> Result<()> {
static HITS: AtomicUsize = AtomicUsize::new(0);
let wasm = wat::parse_str(
r#"
(import "" "" (func))
(import "" "" (func (param i32) (result i32)))
(import "" "" (func (param i32) (param i64)))
(import "" "" (func (param i32 i64 i32 f32 f64)))
(func $foo
call 0
i32.const 0
call 1
i32.const 1
i32.add
i64.const 3
call 2
i32.const 100
i64.const 200
i32.const 300
f32.const 400
f64.const 500
call 3
)
(start $foo)
"#,
)?;
let store = Store::default();
let module = Module::new(&store, &wasm)?;
Instance::new(
&module,
&[
Func::wrap0(&store, || {
assert_eq!(HITS.fetch_add(1, SeqCst), 0);
})
.into(),
Func::wrap1(&store, |x: i32| -> i32 {
assert_eq!(x, 0);
assert_eq!(HITS.fetch_add(1, SeqCst), 1);
1
})
.into(),
Func::wrap2(&store, |x: i32, y: i64| {
assert_eq!(x, 2);
assert_eq!(y, 3);
assert_eq!(HITS.fetch_add(1, SeqCst), 2);
})
.into(),
Func::wrap5(&store, |a: i32, b: i64, c: i32, d: f32, e: f64| {
assert_eq!(a, 100);
assert_eq!(b, 200);
assert_eq!(c, 300);
assert_eq!(d, 400.0);
assert_eq!(e, 500.0);
assert_eq!(HITS.fetch_add(1, SeqCst), 3);
})
.into(),
],
)?;
Ok(())
}
#[test]
fn trap_smoke() {
let store = Store::default();
let f = Func::wrap0(&store, || -> Result<(), Trap> { Err(Trap::new("test")) });
let err = f.call(&[]).unwrap_err();
assert_eq!(err.message(), "test");
}
#[test]
fn trap_import() -> Result<()> {
let wasm = wat::parse_str(
r#"
(import "" "" (func))
(start 0)
"#,
)?;
let store = Store::default();
let module = Module::new(&store, &wasm)?;
let trap = Instance::new(
&module,
&[Func::wrap0(&store, || -> Result<(), Trap> { Err(Trap::new("foo")) }).into()],
)
.err()
.unwrap()
.downcast::<Trap>()?;
assert_eq!(trap.message(), "foo");
Ok(())
}
#[test]
fn get_from_wrapper() {
let store = Store::default();
let f = Func::wrap0(&store, || {});
assert!(f.get0::<()>().is_ok());
assert!(f.get0::<i32>().is_err());
assert!(f.get1::<(), ()>().is_ok());
assert!(f.get1::<i32, ()>().is_err());
assert!(f.get1::<i32, i32>().is_err());
assert!(f.get2::<(), (), ()>().is_ok());
assert!(f.get2::<i32, i32, ()>().is_err());
assert!(f.get2::<i32, i32, i32>().is_err());
let f = Func::wrap0(&store, || -> i32 { loop {} });
assert!(f.get0::<i32>().is_ok());
let f = Func::wrap0(&store, || -> f32 { loop {} });
assert!(f.get0::<f32>().is_ok());
let f = Func::wrap0(&store, || -> f64 { loop {} });
assert!(f.get0::<f64>().is_ok());
let f = Func::wrap1(&store, |_: i32| {});
assert!(f.get1::<i32, ()>().is_ok());
assert!(f.get1::<i64, ()>().is_err());
assert!(f.get1::<f32, ()>().is_err());
assert!(f.get1::<f64, ()>().is_err());
let f = Func::wrap1(&store, |_: i64| {});
assert!(f.get1::<i64, ()>().is_ok());
let f = Func::wrap1(&store, |_: f32| {});
assert!(f.get1::<f32, ()>().is_ok());
let f = Func::wrap1(&store, |_: f64| {});
assert!(f.get1::<f64, ()>().is_ok());
}
#[test]
fn get_from_signature() {
struct Foo;
impl Callable for Foo {
fn call(&self, _params: &[Val], _results: &mut [Val]) -> Result<(), Trap> {
panic!()
}
}
let store = Store::default();
let ty = FuncType::new(Box::new([]), Box::new([]));
let f = Func::new(&store, ty, Rc::new(Foo));
assert!(f.get0::<()>().is_ok());
assert!(f.get0::<i32>().is_err());
assert!(f.get1::<i32, ()>().is_err());
let ty = FuncType::new(Box::new([ValType::I32]), Box::new([ValType::F64]));
let f = Func::new(&store, ty, Rc::new(Foo));
assert!(f.get0::<()>().is_err());
assert!(f.get0::<i32>().is_err());
assert!(f.get1::<i32, ()>().is_err());
assert!(f.get1::<i32, f64>().is_ok());
}
#[test]
fn get_from_module() -> anyhow::Result<()> {
let store = Store::default();
let module = Module::new(
&store,
r#"
(module
(func (export "f0"))
(func (export "f1") (param i32))
(func (export "f2") (result i32)
i32.const 0)
)
"#,
)?;
let instance = Instance::new(&module, &[])?;
let f0 = instance.get_export("f0").unwrap().func().unwrap();
assert!(f0.get0::<()>().is_ok());
assert!(f0.get0::<i32>().is_err());
let f1 = instance.get_export("f1").unwrap().func().unwrap();
assert!(f1.get0::<()>().is_err());
assert!(f1.get1::<i32, ()>().is_ok());
assert!(f1.get1::<i32, f32>().is_err());
let f2 = instance.get_export("f2").unwrap().func().unwrap();
assert!(f2.get0::<()>().is_err());
assert!(f2.get0::<i32>().is_ok());
assert!(f2.get1::<i32, ()>().is_err());
assert!(f2.get1::<i32, f32>().is_err());
Ok(())
}
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