napi-rs/examples/napi/src/class.rs

349 lines
6.5 KiB
Rust

use napi::{
bindgen_prelude::{Buffer, ClassInstance, This, Uint8Array},
Env, Result,
};
use crate::r#enum::Kind;
/// `constructor` option for `struct` requires all fields to be public,
/// otherwise tag impl fn as constructor
/// #[napi(constructor)]
#[napi]
pub struct Animal {
#[napi(readonly)]
/// Kind of animal
pub kind: Kind,
name: String,
}
#[napi]
impl Animal {
/// This is the constructor
#[napi(constructor)]
pub fn new(kind: Kind, name: String) -> Self {
Animal { kind, name }
}
/// This is a factory method
#[napi(factory)]
pub fn with_kind(kind: Kind) -> Self {
Animal {
kind,
name: "Default".to_owned(),
}
}
#[napi(getter)]
pub fn get_name(&self) -> &str {
self.name.as_str()
}
#[napi(setter)]
pub fn set_name(&mut self, name: String) {
self.name = name;
}
#[napi(getter, js_name = "type")]
pub fn kind(&self) -> Kind {
self.kind
}
#[napi(setter, js_name = "type")]
pub fn set_kind(&mut self, kind: Kind) {
self.kind = kind;
}
/// This is a
/// multi-line comment
/// with an emoji 🚀
#[napi]
pub fn whoami(&self) -> String {
match self.kind {
Kind::Dog => {
format!("Dog: {}", self.name)
}
Kind::Cat => format!("Cat: {}", self.name),
Kind::Duck => format!("Duck: {}", self.name),
}
}
#[napi]
/// This is static...
pub fn get_dog_kind() -> Kind {
Kind::Dog
}
#[napi]
/// Here are some characters and character sequences
/// that should be escaped correctly:
/// \[]{}/\:""
pub fn return_other_class(&self) -> Dog {
Dog {
name: "Doge".to_owned(),
}
}
#[napi]
pub fn return_other_class_with_custom_constructor(&self) -> Bird {
Bird::new("parrot".to_owned())
}
#[napi]
pub fn override_individual_arg_on_method(
&self,
normal_ty: String,
#[napi(ts_arg_type = "{n: string}")] overridden_ty: napi::JsObject,
) -> Bird {
let obj = overridden_ty.coerce_to_object().unwrap();
let the_n: Option<String> = obj.get("n").unwrap();
Bird::new(format!("{}-{}", normal_ty, the_n.unwrap()))
}
}
#[napi(constructor)]
pub struct Dog {
pub name: String,
}
#[napi]
pub struct Bird {
pub name: String,
}
#[napi]
impl Bird {
#[napi(constructor)]
pub fn new(name: String) -> Self {
Bird { name }
}
#[napi]
pub fn get_count(&self) -> u32 {
1234
}
}
/// Smoking test for type generation
#[napi]
#[repr(transparent)]
pub struct Blake2bHasher(u32);
#[napi]
impl Blake2bHasher {
#[napi(factory)]
pub fn with_key(key: &Blake2bKey) -> Self {
Blake2bHasher(key.get_inner())
}
}
#[napi]
impl Blake2bHasher {
#[napi]
pub fn update(&mut self, data: Buffer) {
self.0 += data.len() as u32;
}
}
#[napi]
pub struct Blake2bKey(u32);
impl Blake2bKey {
fn get_inner(&self) -> u32 {
self.0
}
}
#[napi]
pub struct Context {
data: String,
pub maybe_need: Option<bool>,
pub buffer: Uint8Array,
}
// Test for return `napi::Result` and `Result`
#[napi]
impl Context {
#[napi(constructor)]
pub fn new() -> napi::Result<Self> {
Ok(Self {
data: "not empty".into(),
maybe_need: None,
buffer: Uint8Array::new(vec![0, 1, 2, 3]),
})
}
#[napi(factory)]
pub fn with_data(data: String) -> Result<Self> {
Ok(Self {
data,
maybe_need: Some(true),
buffer: Uint8Array::new(vec![0, 1, 2, 3]),
})
}
#[napi(factory)]
pub fn with_buffer(buf: Uint8Array) -> Self {
Self {
data: "not empty".into(),
maybe_need: None,
buffer: buf,
}
}
#[napi]
pub fn method(&self) -> String {
self.data.clone()
}
}
#[napi(constructor)]
pub struct AnimalWithDefaultConstructor {
pub name: String,
pub kind: u32,
}
// Test for skip_typescript
#[napi]
pub struct NinjaTurtle {
pub name: String,
#[napi(skip_typescript)]
pub mask_color: String,
}
#[napi]
impl NinjaTurtle {
/// Create your ninja turtle! 🐢
#[napi(factory)]
pub fn new_raph() -> Self {
Self {
name: "Raphael".to_owned(),
mask_color: "Red".to_owned(),
}
}
/// We are not going to expose this character, so we just skip it...
#[napi(factory, skip_typescript)]
pub fn new_leo() -> Self {
Self {
name: "Leonardo".to_owned(),
mask_color: "Blue".to_owned(),
}
}
#[napi]
pub fn get_mask_color(&self) -> &str {
self.mask_color.as_str()
}
#[napi]
pub fn get_name(&self) -> &str {
self.name.as_str()
}
#[napi]
pub fn return_this(&self, this: This) -> This {
this
}
}
#[napi(js_name = "Assets")]
pub struct JsAssets {}
#[napi]
impl JsAssets {
#[napi(constructor)]
#[allow(clippy::new_without_default)]
pub fn new() -> Self {
JsAssets {}
}
#[napi]
pub fn get(&mut self, _id: u32) -> Option<JsAsset> {
Some(JsAsset {})
}
}
#[napi(js_name = "Asset")]
pub struct JsAsset {}
#[napi]
impl JsAsset {
#[napi(constructor)]
#[allow(clippy::new_without_default)]
pub fn new() -> Self {
Self {}
}
#[napi(getter)]
pub fn get_file_path(&self) -> u32 {
1
}
}
#[napi]
pub struct Optional {}
#[napi]
impl Optional {
#[napi]
pub fn option_end(required: String, optional: Option<String>) -> String {
match optional {
None => required,
Some(optional) => format!("{} {}", required, optional),
}
}
#[napi]
pub fn option_start(optional: Option<String>, required: String) -> String {
match optional {
None => required,
Some(optional) => format!("{} {}", optional, required),
}
}
#[napi]
pub fn option_start_end(
optional1: Option<String>,
required: String,
optional2: Option<String>,
) -> String {
match (optional1, optional2) {
(None, None) => required,
(None, Some(optional2)) => format!("{} {}", required, optional2),
(Some(optional1), None) => format!("{} {}", optional1, required),
(Some(optional1), Some(optional2)) => format!("{} {} {}", optional1, required, optional2),
}
}
#[napi]
pub fn option_only(optional: Option<String>) -> String {
match optional {
None => "".to_string(),
Some(optional) => optional,
}
}
}
#[napi(object)]
pub struct ObjectFieldClassInstance {
pub bird: ClassInstance<Bird>,
}
#[napi]
pub fn create_object_with_class_field(env: Env) -> Result<ObjectFieldClassInstance> {
Ok(ObjectFieldClassInstance {
bird: Bird {
name: "Carolyn".to_owned(),
}
.into_instance(env)?,
})
}
#[napi]
pub fn receive_object_with_class_field(
object: ObjectFieldClassInstance,
) -> Result<ClassInstance<Bird>> {
Ok(object.bird)
}