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use crate::{encode_section, ConstExpr, Encode, RefType, Section, SectionId};
/// An encoder for the element section.
///
/// Element sections are only supported for modules.
///
/// # Example
///
/// ```
/// use wasm_encoder::{
/// Elements, ElementSection, Module, TableSection, TableType,
/// RefType, ConstExpr
/// };
///
/// let mut tables = TableSection::new();
/// tables.table(TableType {
/// element_type: RefType::FUNCREF,
/// minimum: 128,
/// maximum: None,
/// });
///
/// let mut elements = ElementSection::new();
/// let table_index = 0;
/// let offset = ConstExpr::i32_const(42);
/// let functions = Elements::Functions(&[
/// // Function indices...
/// ]);
/// elements.active(Some(table_index), &offset, functions);
///
/// let mut module = Module::new();
/// module
/// .section(&tables)
/// .section(&elements);
///
/// let wasm_bytes = module.finish();
/// ```
#[derive(Clone, Default, Debug)]
pub struct ElementSection {
bytes: Vec<u8>,
num_added: u32,
}
/// A sequence of elements in a segment in the element section.
#[derive(Clone, Copy, Debug)]
pub enum Elements<'a> {
/// A sequences of references to functions by their indices.
Functions(&'a [u32]),
/// A sequence of reference expressions.
Expressions(RefType, &'a [ConstExpr]),
}
/// An element segment's mode.
#[derive(Clone, Debug)]
pub enum ElementMode<'a> {
/// A passive element segment.
///
/// Passive segments are part of the bulk memory proposal.
Passive,
/// A declared element segment.
///
/// Declared segments are part of the bulk memory proposal.
Declared,
/// An active element segment.
Active {
/// The table index.
///
/// `Active` element specifying a `None` table forces the MVP encoding and refers to the
/// 0th table holding `funcref`s. Non-`None` tables use the encoding introduced with the
/// bulk memory proposal and can refer to tables with any valid reference type.
table: Option<u32>,
/// The offset within the table to place this segment.
offset: &'a ConstExpr,
},
}
/// An element segment in the element section.
#[derive(Clone, Debug)]
pub struct ElementSegment<'a> {
/// The element segment's mode.
pub mode: ElementMode<'a>,
/// This segment's elements.
pub elements: Elements<'a>,
}
impl ElementSection {
/// Create a new element section encoder.
pub fn new() -> Self {
Self::default()
}
/// The number of element segments 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
}
/// Define an element segment.
pub fn segment<'a>(&mut self, segment: ElementSegment<'a>) -> &mut Self {
let expr_bit = match segment.elements {
Elements::Expressions(..) => 0b100u32,
Elements::Functions(_) => 0b000u32,
};
let mut encode_type = false;
match &segment.mode {
ElementMode::Passive => {
(0x01 | expr_bit).encode(&mut self.bytes);
encode_type = true;
}
ElementMode::Active { table, offset } => {
match (table, &segment.elements) {
// If the `table` is not specified then the 0x00 encoding
// can be used with either function indices or expressions
// that have a `funcref` type.
(None, Elements::Functions(_) | Elements::Expressions(RefType::FUNCREF, _)) => {
(/* 0x00 | */expr_bit).encode(&mut self.bytes);
}
// ... otherwise fall through for all other expressions here
// with table 0 or an explicitly specified table to the 0x02
// encoding.
(None, Elements::Expressions(..)) | (Some(_), _) => {
(0x02 | expr_bit).encode(&mut self.bytes);
table.unwrap_or(0).encode(&mut self.bytes);
encode_type = true;
}
}
offset.encode(&mut self.bytes);
}
ElementMode::Declared => {
(0x03 | expr_bit).encode(&mut self.bytes);
encode_type = true;
}
}
match segment.elements {
Elements::Functions(fs) => {
if encode_type {
// elemkind == funcref
self.bytes.push(0x00);
}
fs.encode(&mut self.bytes);
}
Elements::Expressions(ty, e) => {
if encode_type {
ty.encode(&mut self.bytes);
}
e.len().encode(&mut self.bytes);
for expr in e {
expr.encode(&mut self.bytes);
}
}
}
self.num_added += 1;
self
}
/// Define an active element segment.
///
/// `Active` element specifying a `None` table forces the MVP encoding and refers to the 0th
/// table holding `funcref`s. Non-`None` tables use the encoding introduced with the bulk
/// memory proposal and can refer to tables with any valid reference type.
pub fn active(
&mut self,
table_index: Option<u32>,
offset: &ConstExpr,
elements: Elements<'_>,
) -> &mut Self {
self.segment(ElementSegment {
mode: ElementMode::Active {
table: table_index,
offset,
},
elements,
})
}
/// Encode a passive element segment.
///
/// Passive segments are part of the bulk memory proposal.
pub fn passive<'a>(&mut self, elements: Elements<'a>) -> &mut Self {
self.segment(ElementSegment {
mode: ElementMode::Passive,
elements,
})
}
/// Encode a declared element segment.
///
/// Declared segments are part of the bulk memory proposal.
pub fn declared<'a>(&mut self, elements: Elements<'a>) -> &mut Self {
self.segment(ElementSegment {
mode: ElementMode::Declared,
elements,
})
}
/// Copy a raw, already-encoded element segment into this elements section.
pub fn raw(&mut self, raw_bytes: &[u8]) -> &mut Self {
self.bytes.extend_from_slice(raw_bytes);
self.num_added += 1;
self
}
}
impl Encode for ElementSection {
fn encode(&self, sink: &mut Vec<u8>) {
encode_section(sink, self.num_added, &self.bytes);
}
}
impl Section for ElementSection {
fn id(&self) -> u8 {
SectionId::Element.into()
}
}