wasm-bindgen/tests/all/api.rs
Alex Crichton efa4a2b8fa
Speed up Travis by running Webpack in fewer tests (#381)
* Reorganize Travis configuration

* Add a `JOB` env var descriptor to all matrix entries. Not used anywhere but is
  useful when viewing the whole build on Travis's web interface.
* Reorganize where builds are located, moving slow builds first and fast ones
  last.
* Change checking the CLI builds from `cargo build` to `cargo check`
* Use YAML references to reduce some duplication

* Print some more timing statistics for each test

* Extract `Project` helper in tests to a module

This'll help make it a bit more extensible over time. At the same time the
methods are also slightly reorganized to read more clearly from top to bottom.

* Migrate all tests away from Webpack

Wepback can take a significant amount of time to execute and when it's
multiplied by hundreds of tests that adds up really quickly! After investigating
Node's `--experimental-modules` option it looks like it's suitable for our use
so this switches all tests to using JS files (moving away from TypeScript as
well) with `--experimental-modules` with Node.

Tests will be selectively re-enabled with webpack and node.js specific output
(that doesn't require `--experimental-modules`), coming in later commits.

* Restore the node test for node.js output

Ensures it's workable as-is

* Only generate typescript with webpack

* Only read wasm files for webpack

* Skip package.json/node_modules for now

* Only generate webpack config if needed

* Start a dedicated test module for typescript

Will hopefully verify the generated Typescript compiles OK.

* Remove unneeded `node` method

* Fixup some rebase conflicts

* Don't run asmjs example on travis

* Fixup generator tests

* Attempt to fix windows

* Comment windows fix

* More test fixes

* More exclusions

* More test fixes

* Relax eslint regex

Catch mjs modules as well

* Fix eslint

* Speed up travis on examples slightly
2018-07-04 22:37:09 -05:00

194 lines
6.0 KiB
Rust

use super::project;
#[test]
fn works() {
project()
.file(
"src/lib.rs",
r#"
#![feature(proc_macro, wasm_custom_section)]
extern crate wasm_bindgen;
use wasm_bindgen::prelude::*;
#[wasm_bindgen]
pub fn foo() -> JsValue {
JsValue::from("foo")
}
#[wasm_bindgen]
pub fn bar(s: &str) -> JsValue {
JsValue::from(s)
}
#[wasm_bindgen]
pub fn baz() -> JsValue {
JsValue::from(1.0)
}
#[wasm_bindgen]
pub fn baz2(a: &JsValue, b: &JsValue) {
assert_eq!(a.as_f64(), Some(2.0));
assert_eq!(b.as_f64(), None);
}
#[wasm_bindgen]
pub fn js_null() -> JsValue {
JsValue::null()
}
#[wasm_bindgen]
pub fn js_undefined() -> JsValue {
JsValue::undefined()
}
#[wasm_bindgen]
pub fn test_is_null_undefined(
a: &JsValue,
b: &JsValue,
c: &JsValue,
) {
assert!(a.is_null());
assert!(!a.is_undefined());
assert!(!b.is_null());
assert!(b.is_undefined());
assert!(!c.is_null());
assert!(!c.is_undefined());
}
#[wasm_bindgen]
pub fn get_true() -> JsValue {
JsValue::from(true)
}
#[wasm_bindgen]
pub fn get_false() -> JsValue {
JsValue::from(false)
}
#[wasm_bindgen]
pub fn test_bool(
a: &JsValue,
b: &JsValue,
c: &JsValue,
) {
assert_eq!(a.as_bool(), Some(true));
assert_eq!(b.as_bool(), Some(false));
assert_eq!(c.as_bool(), None);
}
#[wasm_bindgen]
pub fn mk_symbol() -> JsValue {
let a = JsValue::symbol(None);
assert!(a.is_symbol());
return a
}
#[wasm_bindgen]
pub fn mk_symbol2(s: &str) -> JsValue {
let a = JsValue::symbol(Some(s));
assert!(a.is_symbol());
return a
}
#[wasm_bindgen]
pub fn assert_symbols(a: &JsValue, b: &JsValue) {
assert!(a.is_symbol());
assert!(!b.is_symbol());
}
#[wasm_bindgen]
pub fn acquire_string(a: &JsValue, b: &JsValue) {
assert_eq!(a.as_string().unwrap(), "foo");
assert_eq!(b.as_string(), None);
}
#[wasm_bindgen]
pub fn acquire_string2(a: &JsValue) -> String {
a.as_string().unwrap_or("wrong".to_string())
}
"#,
)
.file(
"test.js",
r#"
import * as assert from "assert";
import * as wasm from "./out";
export function test() {
assert.strictEqual(wasm.foo(), 'foo');
assert.strictEqual(wasm.bar('a'), 'a');
assert.strictEqual(wasm.baz(), 1);
wasm.baz2(2, 'a');
assert.strictEqual(wasm.js_null(), null);
assert.strictEqual(wasm.js_undefined(), undefined);
wasm.test_is_null_undefined(null, undefined, 1.0);
assert.strictEqual(wasm.get_true(), true);
assert.strictEqual(wasm.get_false(), false);
wasm.test_bool(true, false, 1.0);
assert.strictEqual(typeof(wasm.mk_symbol()), 'symbol');
assert.strictEqual(typeof(wasm.mk_symbol2('a')), 'symbol');
assert.strictEqual(Symbol.keyFor(wasm.mk_symbol()), undefined);
assert.strictEqual(Symbol.keyFor(wasm.mk_symbol2('b')), undefined);
wasm.assert_symbols(Symbol(), 'a');
wasm.acquire_string('foo', null)
assert.strictEqual(wasm.acquire_string2(''), '');
assert.strictEqual(wasm.acquire_string2('a'), 'a');
}
"#,
)
.test();
}
#[test]
fn eq_works() {
project()
.file(
"src/lib.rs",
r#"
#![feature(proc_macro, wasm_custom_section)]
extern crate wasm_bindgen;
use wasm_bindgen::prelude::*;
#[wasm_bindgen]
pub fn test(a: &JsValue, b: &JsValue) -> bool {
a == b
}
#[wasm_bindgen]
pub fn test1(a: &JsValue) -> bool {
a == a
}
"#,
)
.file(
"test.js",
r#"
import * as assert from "assert";
import * as wasm from "./out";
export function test() {
assert.strictEqual(wasm.test('a', 'a'), true);
assert.strictEqual(wasm.test('a', 'b'), false);
assert.strictEqual(wasm.test(NaN, NaN), false);
assert.strictEqual(wasm.test({a: 'a'}, {a: 'a'}), false);
assert.strictEqual(wasm.test1(NaN), false);
let x = {a: 'a'};
assert.strictEqual(wasm.test(x, x), true);
assert.strictEqual(wasm.test1(x), true);
}
"#,
)
.test();
}