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use super::CORE_TYPE_SORT;
use crate::{
encode_section, Alias, ComponentExportKind, ComponentOuterAliasKind, ComponentSection,
ComponentSectionId, ComponentTypeRef, Encode, EntityType, ValType,
};
/// Represents the type of a core module.
#[derive(Debug, Clone, Default)]
pub struct ModuleType {
bytes: Vec<u8>,
num_added: u32,
types_added: u32,
}
impl ModuleType {
/// Creates a new core module type.
pub fn new() -> Self {
Self::default()
}
/// Defines an import in this module type.
pub fn import(&mut self, module: &str, name: &str, ty: EntityType) -> &mut Self {
crate::component::imports::push_extern_name_byte(&mut self.bytes, name);
module.encode(&mut self.bytes);
name.encode(&mut self.bytes);
ty.encode(&mut self.bytes);
self.num_added += 1;
self
}
/// Define a type in this module type.
///
/// The returned encoder must be used before adding another definition.
#[must_use = "the encoder must be used to encode the type"]
pub fn ty(&mut self) -> CoreTypeEncoder {
self.bytes.push(0x01);
self.num_added += 1;
self.types_added += 1;
CoreTypeEncoder(&mut self.bytes)
}
/// Defines an outer core type alias in this module type.
pub fn alias_outer_core_type(&mut self, count: u32, index: u32) -> &mut Self {
self.bytes.push(0x02);
self.bytes.push(CORE_TYPE_SORT);
self.bytes.push(0x01); // outer
count.encode(&mut self.bytes);
index.encode(&mut self.bytes);
self.num_added += 1;
self.types_added += 1;
self
}
/// Defines an export in this module type.
pub fn export(&mut self, name: &str, ty: EntityType) -> &mut Self {
self.bytes.push(0x03);
name.encode(&mut self.bytes);
ty.encode(&mut self.bytes);
self.num_added += 1;
self
}
/// Gets the number of types that have been added to this module type.
pub fn type_count(&self) -> u32 {
self.types_added
}
}
impl Encode for ModuleType {
fn encode(&self, sink: &mut Vec<u8>) {
sink.push(0x50);
self.num_added.encode(sink);
sink.extend(&self.bytes);
}
}
/// Used to encode core types.
#[derive(Debug)]
pub struct CoreTypeEncoder<'a>(pub(crate) &'a mut Vec<u8>);
impl<'a> CoreTypeEncoder<'a> {
/// Define a function type.
pub fn function<P, R>(self, params: P, results: R)
where
P: IntoIterator<Item = ValType>,
P::IntoIter: ExactSizeIterator,
R: IntoIterator<Item = ValType>,
R::IntoIter: ExactSizeIterator,
{
let params = params.into_iter();
let results = results.into_iter();
self.0.push(0x60);
params.len().encode(self.0);
params.for_each(|p| p.encode(self.0));
results.len().encode(self.0);
results.for_each(|p| p.encode(self.0));
}
/// Define a module type.
pub fn module(self, ty: &ModuleType) {
ty.encode(self.0);
}
}
/// An encoder for the core type section of WebAssembly components.
///
/// # Example
///
/// ```rust
/// use wasm_encoder::{Component, CoreTypeSection, ModuleType};
///
/// let mut types = CoreTypeSection::new();
///
/// types.module(&ModuleType::new());
///
/// let mut component = Component::new();
/// component.section(&types);
///
/// let bytes = component.finish();
/// ```
#[derive(Clone, Debug, Default)]
pub struct CoreTypeSection {
bytes: Vec<u8>,
num_added: u32,
}
impl CoreTypeSection {
/// Create a new core type section encoder.
pub fn new() -> Self {
Self::default()
}
/// The number of types in the section.
pub fn len(&self) -> u32 {
self.num_added
}
/// Determines if the section is empty.
pub fn is_empty(&self) -> bool {
self.num_added == 0
}
/// Encode a type into this section.
///
/// The returned encoder must be finished before adding another type.
#[must_use = "the encoder must be used to encode the type"]
pub fn ty(&mut self) -> CoreTypeEncoder<'_> {
self.num_added += 1;
CoreTypeEncoder(&mut self.bytes)
}
/// Define a function type in this type section.
pub fn function<P, R>(&mut self, params: P, results: R) -> &mut Self
where
P: IntoIterator<Item = ValType>,
P::IntoIter: ExactSizeIterator,
R: IntoIterator<Item = ValType>,
R::IntoIter: ExactSizeIterator,
{
self.ty().function(params, results);
self
}
/// Define a module type in this type section.
///
/// Currently this is only used for core type sections in components.
pub fn module(&mut self, ty: &ModuleType) -> &mut Self {
self.ty().module(ty);
self
}
}
impl Encode for CoreTypeSection {
fn encode(&self, sink: &mut Vec<u8>) {
encode_section(sink, self.num_added, &self.bytes);
}
}
impl ComponentSection for CoreTypeSection {
fn id(&self) -> u8 {
ComponentSectionId::CoreType.into()
}
}
/// Represents a component type.
#[derive(Debug, Clone, Default)]
pub struct ComponentType {
bytes: Vec<u8>,
num_added: u32,
core_types_added: u32,
types_added: u32,
instances_added: u32,
}
impl ComponentType {
/// Creates a new component type.
pub fn new() -> Self {
Self::default()
}
/// Define a core type in this component type.
///
/// The returned encoder must be used before adding another definition.
#[must_use = "the encoder must be used to encode the type"]
pub fn core_type(&mut self) -> CoreTypeEncoder {
self.bytes.push(0x00);
self.num_added += 1;
self.core_types_added += 1;
CoreTypeEncoder(&mut self.bytes)
}
/// Define a type in this component type.
///
/// The returned encoder must be used before adding another definition.
#[must_use = "the encoder must be used to encode the type"]
pub fn ty(&mut self) -> ComponentTypeEncoder {
self.bytes.push(0x01);
self.num_added += 1;
self.types_added += 1;
ComponentTypeEncoder(&mut self.bytes)
}
/// Defines an alias for an exported item of a prior instance or an
/// outer type.
pub fn alias(&mut self, alias: Alias<'_>) -> &mut Self {
self.bytes.push(0x02);
alias.encode(&mut self.bytes);
self.num_added += 1;
match &alias {
Alias::InstanceExport {
kind: ComponentExportKind::Type,
..
}
| Alias::Outer {
kind: ComponentOuterAliasKind::Type,
..
} => self.types_added += 1,
Alias::Outer {
kind: ComponentOuterAliasKind::CoreType,
..
} => self.core_types_added += 1,
Alias::InstanceExport {
kind: ComponentExportKind::Instance,
..
} => self.instances_added += 1,
_ => {}
}
self
}
/// Defines an import in this component type.
pub fn import(&mut self, name: &str, ty: ComponentTypeRef) -> &mut Self {
self.bytes.push(0x03);
crate::component::imports::push_extern_name_byte(&mut self.bytes, name);
name.encode(&mut self.bytes);
ty.encode(&mut self.bytes);
self.num_added += 1;
match ty {
ComponentTypeRef::Type(..) => self.types_added += 1,
ComponentTypeRef::Instance(..) => self.instances_added += 1,
_ => {}
}
self
}
/// Defines an export in this component type.
pub fn export(&mut self, name: &str, ty: ComponentTypeRef) -> &mut Self {
self.bytes.push(0x04);
crate::component::imports::push_extern_name_byte(&mut self.bytes, name);
name.encode(&mut self.bytes);
ty.encode(&mut self.bytes);
self.num_added += 1;
match ty {
ComponentTypeRef::Type(..) => self.types_added += 1,
ComponentTypeRef::Instance(..) => self.instances_added += 1,
_ => {}
}
self
}
/// Gets the number of core types that have been added to this component type.
pub fn core_type_count(&self) -> u32 {
self.core_types_added
}
/// Gets the number of types that have been added or aliased in this component type.
pub fn type_count(&self) -> u32 {
self.types_added
}
/// Gets the number of instances that have been defined in this component
/// type through imports, exports, or aliases.
pub fn instance_count(&self) -> u32 {
self.instances_added
}
}
impl Encode for ComponentType {
fn encode(&self, sink: &mut Vec<u8>) {
sink.push(0x41);
self.num_added.encode(sink);
sink.extend(&self.bytes);
}
}
/// Represents an instance type.
#[derive(Debug, Clone, Default)]
pub struct InstanceType(ComponentType);
impl InstanceType {
/// Creates a new instance type.
pub fn new() -> Self {
Self::default()
}
/// Define a core type in this instance type.
///
/// The returned encoder must be used before adding another definition.
#[must_use = "the encoder must be used to encode the type"]
pub fn core_type(&mut self) -> CoreTypeEncoder {
self.0.core_type()
}
/// Define a type in this instance type.
///
/// The returned encoder must be used before adding another definition.
#[must_use = "the encoder must be used to encode the type"]
pub fn ty(&mut self) -> ComponentTypeEncoder {
self.0.ty()
}
/// Defines an outer core type alias in this component type.
pub fn alias(&mut self, alias: Alias<'_>) -> &mut Self {
self.0.alias(alias);
self
}
/// Defines an export in this instance type.
pub fn export(&mut self, name: &str, ty: ComponentTypeRef) -> &mut Self {
self.0.export(name, ty);
self
}
/// Gets the number of core types that have been added to this instance type.
pub fn core_type_count(&self) -> u32 {
self.0.core_types_added
}
/// Gets the number of types that have been added or aliased in this instance type.
pub fn type_count(&self) -> u32 {
self.0.types_added
}
/// Gets the number of instances that have been imported or exported or
/// aliased in this instance type.
pub fn instance_count(&self) -> u32 {
self.0.instances_added
}
/// Returns whether or not this instance type is empty.
pub fn is_empty(&self) -> bool {
self.0.num_added == 0
}
/// Returns the number of entries added to this instance types.
pub fn len(&self) -> u32 {
self.0.num_added
}
}
impl Encode for InstanceType {
fn encode(&self, sink: &mut Vec<u8>) {
sink.push(0x42);
self.0.num_added.encode(sink);
sink.extend(&self.0.bytes);
}
}
/// Used to encode component function types.
#[derive(Debug)]
pub struct ComponentFuncTypeEncoder<'a>(&'a mut Vec<u8>);
impl<'a> ComponentFuncTypeEncoder<'a> {
fn new(sink: &'a mut Vec<u8>) -> Self {
sink.push(0x40);
Self(sink)
}
/// Defines named parameters.
///
/// Parameters must be defined before defining results.
pub fn params<'b, P, T>(&mut self, params: P) -> &mut Self
where
P: IntoIterator<Item = (&'b str, T)>,
P::IntoIter: ExactSizeIterator,
T: Into<ComponentValType>,
{
let params = params.into_iter();
params.len().encode(self.0);
for (name, ty) in params {
name.encode(self.0);
ty.into().encode(self.0);
}
self
}
/// Defines a single unnamed result.
///
/// This method cannot be used with `results`.
pub fn result(&mut self, ty: impl Into<ComponentValType>) -> &mut Self {
self.0.push(0x00);
ty.into().encode(self.0);
self
}
/// Defines named results.
///
/// This method cannot be used with `result`.
pub fn results<'b, R, T>(&mut self, results: R) -> &mut Self
where
R: IntoIterator<Item = (&'b str, T)>,
R::IntoIter: ExactSizeIterator,
T: Into<ComponentValType>,
{
self.0.push(0x01);
let results = results.into_iter();
results.len().encode(self.0);
for (name, ty) in results {
name.encode(self.0);
ty.into().encode(self.0);
}
self
}
}
/// Used to encode component and instance types.
#[derive(Debug)]
pub struct ComponentTypeEncoder<'a>(&'a mut Vec<u8>);
impl<'a> ComponentTypeEncoder<'a> {
/// Define a component type.
pub fn component(self, ty: &ComponentType) {
ty.encode(self.0);
}
/// Define an instance type.
pub fn instance(self, ty: &InstanceType) {
ty.encode(self.0);
}
/// Define a function type.
pub fn function(self) -> ComponentFuncTypeEncoder<'a> {
ComponentFuncTypeEncoder::new(self.0)
}
/// Define a defined component type.
///
/// The returned encoder must be used before adding another type.
#[must_use = "the encoder must be used to encode the type"]
pub fn defined_type(self) -> ComponentDefinedTypeEncoder<'a> {
ComponentDefinedTypeEncoder(self.0)
}
/// Define a resource type.
pub fn resource(self, rep: ValType, dtor: Option<u32>) {
self.0.push(0x3f);
rep.encode(self.0);
match dtor {
Some(i) => {
self.0.push(0x01);
i.encode(self.0);
}
None => self.0.push(0x00),
}
}
}
/// Represents a primitive component value type.
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub enum PrimitiveValType {
/// The type is a boolean.
Bool,
/// The type is a signed 8-bit integer.
S8,
/// The type is an unsigned 8-bit integer.
U8,
/// The type is a signed 16-bit integer.
S16,
/// The type is an unsigned 16-bit integer.
U16,
/// The type is a signed 32-bit integer.
S32,
/// The type is an unsigned 32-bit integer.
U32,
/// The type is a signed 64-bit integer.
S64,
/// The type is an unsigned 64-bit integer.
U64,
/// The type is a 32-bit floating point number with only one NaN.
F32,
/// The type is a 64-bit floating point number with only one NaN.
F64,
/// The type is a Unicode character.
Char,
/// The type is a string.
String,
}
impl Encode for PrimitiveValType {
fn encode(&self, sink: &mut Vec<u8>) {
sink.push(match self {
Self::Bool => 0x7f,
Self::S8 => 0x7e,
Self::U8 => 0x7d,
Self::S16 => 0x7c,
Self::U16 => 0x7b,
Self::S32 => 0x7a,
Self::U32 => 0x79,
Self::S64 => 0x78,
Self::U64 => 0x77,
Self::F32 => 0x76,
Self::F64 => 0x75,
Self::Char => 0x74,
Self::String => 0x73,
});
}
}
/// Represents a component value type.
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub enum ComponentValType {
/// The value is a primitive type.
Primitive(PrimitiveValType),
/// The value is to a defined value type.
///
/// The type index must be to a value type.
Type(u32),
}
impl Encode for ComponentValType {
fn encode(&self, sink: &mut Vec<u8>) {
match self {
Self::Primitive(ty) => ty.encode(sink),
Self::Type(index) => (*index as i64).encode(sink),
}
}
}
impl From<PrimitiveValType> for ComponentValType {
fn from(ty: PrimitiveValType) -> Self {
Self::Primitive(ty)
}
}
/// Used for encoding component defined types.
#[derive(Debug)]
pub struct ComponentDefinedTypeEncoder<'a>(&'a mut Vec<u8>);
impl ComponentDefinedTypeEncoder<'_> {
/// Define a primitive value type.
pub fn primitive(self, ty: PrimitiveValType) {
ty.encode(self.0);
}
/// Define a record type.
pub fn record<'a, F, T>(self, fields: F)
where
F: IntoIterator<Item = (&'a str, T)>,
F::IntoIter: ExactSizeIterator,
T: Into<ComponentValType>,
{
let fields = fields.into_iter();
self.0.push(0x72);
fields.len().encode(self.0);
for (name, ty) in fields {
name.encode(self.0);
ty.into().encode(self.0);
}
}
/// Define a variant type.
pub fn variant<'a, C>(self, cases: C)
where
C: IntoIterator<Item = (&'a str, Option<ComponentValType>, Option<u32>)>,
C::IntoIter: ExactSizeIterator,
{
let cases = cases.into_iter();
self.0.push(0x71);
cases.len().encode(self.0);
for (name, ty, refines) in cases {
name.encode(self.0);
ty.encode(self.0);
refines.encode(self.0);
}
}
/// Define a list type.
pub fn list(self, ty: impl Into<ComponentValType>) {
self.0.push(0x70);
ty.into().encode(self.0);
}
/// Define a tuple type.
pub fn tuple<I, T>(self, types: I)
where
I: IntoIterator<Item = T>,
I::IntoIter: ExactSizeIterator,
T: Into<ComponentValType>,
{
let types = types.into_iter();
self.0.push(0x6F);
types.len().encode(self.0);
for ty in types {
ty.into().encode(self.0);
}
}
/// Define a flags type.
pub fn flags<'a, I>(self, names: I)
where
I: IntoIterator<Item = &'a str>,
I::IntoIter: ExactSizeIterator,
{
let names = names.into_iter();
self.0.push(0x6E);
names.len().encode(self.0);
for name in names {
name.encode(self.0);
}
}
/// Define an enum type.
pub fn enum_type<'a, I>(self, tags: I)
where
I: IntoIterator<Item = &'a str>,
I::IntoIter: ExactSizeIterator,
{
let tags = tags.into_iter();
self.0.push(0x6D);
tags.len().encode(self.0);
for tag in tags {
tag.encode(self.0);
}
}
/// Define an option type.
pub fn option(self, ty: impl Into<ComponentValType>) {
self.0.push(0x6B);
ty.into().encode(self.0);
}
/// Define a result type.
pub fn result(self, ok: Option<ComponentValType>, err: Option<ComponentValType>) {
self.0.push(0x6A);
ok.encode(self.0);
err.encode(self.0);
}
/// Define a `own` handle type
pub fn own(self, idx: u32) {
self.0.push(0x69);
idx.encode(self.0);
}
/// Define a `borrow` handle type
pub fn borrow(self, idx: u32) {
self.0.push(0x68);
idx.encode(self.0);
}
}
/// An encoder for the type section of WebAssembly components.
///
/// # Example
///
/// ```rust
/// use wasm_encoder::{Component, ComponentTypeSection, PrimitiveValType};
///
/// let mut types = ComponentTypeSection::new();
///
/// // Define a function type of `[string, string] -> string`.
/// types
/// .function()
/// .params(
/// [
/// ("a", PrimitiveValType::String),
/// ("b", PrimitiveValType::String)
/// ]
/// )
/// .result(PrimitiveValType::String);
///
/// let mut component = Component::new();
/// component.section(&types);
///
/// let bytes = component.finish();
/// ```
#[derive(Clone, Debug, Default)]
pub struct ComponentTypeSection {
bytes: Vec<u8>,
num_added: u32,
}
impl ComponentTypeSection {
/// Create a new component type section encoder.
pub fn new() -> Self {
Self::default()
}
/// The number of types in the section.
pub fn len(&self) -> u32 {
self.num_added
}
/// Determines if the section is empty.
pub fn is_empty(&self) -> bool {
self.num_added == 0
}
/// Encode a type into this section.
///
/// The returned encoder must be finished before adding another type.
#[must_use = "the encoder must be used to encode the type"]
pub fn ty(&mut self) -> ComponentTypeEncoder<'_> {
self.num_added += 1;
ComponentTypeEncoder(&mut self.bytes)
}
/// Define a component type in this type section.
pub fn component(&mut self, ty: &ComponentType) -> &mut Self {
self.ty().component(ty);
self
}
/// Define an instance type in this type section.
pub fn instance(&mut self, ty: &InstanceType) -> &mut Self {
self.ty().instance(ty);
self
}
/// Define a function type in this type section.
pub fn function(&mut self) -> ComponentFuncTypeEncoder<'_> {
self.ty().function()
}
/// Add a component defined type to this type section.
///
/// The returned encoder must be used before adding another type.
#[must_use = "the encoder must be used to encode the type"]
pub fn defined_type(&mut self) -> ComponentDefinedTypeEncoder<'_> {
self.ty().defined_type()
}
/// Defines a new resource type.
pub fn resource(&mut self, rep: ValType, dtor: Option<u32>) -> &mut Self {
self.ty().resource(rep, dtor);
self
}
}
impl Encode for ComponentTypeSection {
fn encode(&self, sink: &mut Vec<u8>) {
encode_section(sink, self.num_added, &self.bytes);
}
}
impl ComponentSection for ComponentTypeSection {
fn id(&self) -> u8 {
ComponentSectionId::Type.into()
}
}