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|
use super::*;
/// Expand the `#[derive(Cast)]` macro.
pub fn cast(item: DeriveInput) -> Result<TokenStream> {
let ty = &item.ident;
let syn::Data::Enum(data) = &item.data else {
bail!(item, "only enums are supported");
};
let mut variants = vec![];
for variant in &data.variants {
if let Some((_, expr)) = &variant.discriminant {
bail!(expr, "explicit discriminant is not allowed");
}
let string = if let Some(attr) =
variant.attrs.iter().find(|attr| attr.path.is_ident("string"))
{
attr.parse_args::<syn::LitStr>()?.value()
} else {
kebab_case(&variant.ident)
};
variants.push(Variant {
ident: variant.ident.clone(),
string,
docs: documentation(&variant.attrs),
});
}
let strs_to_variants = variants.iter().map(|Variant { ident, string, docs }| {
quote! {
#[doc = #docs]
#string => Self::#ident
}
});
let variants_to_strs = variants.iter().map(|Variant { ident, string, .. }| {
quote! {
#ty::#ident => #string
}
});
Ok(quote! {
::typst::eval::cast_from_value! {
#ty,
#(#strs_to_variants),*
}
::typst::eval::cast_to_value! {
v: #ty => ::typst::eval::Value::from(match v {
#(#variants_to_strs),*
})
}
})
}
struct Variant {
ident: Ident,
string: String,
docs: String,
}
/// Expand the `cast_from_value!` macro.
pub fn cast_from_value(stream: TokenStream) -> Result<TokenStream> {
let castable: Castable = syn::parse2(stream)?;
let ty = &castable.ty;
if castable.casts.is_empty() && castable.name.is_none() {
bail!(castable.ty, "expected at least one pattern");
}
let is_func = create_is_func(&castable);
let cast_func = create_cast_func(&castable);
let describe_func = create_describe_func(&castable);
let dynamic_impls = castable.name.as_ref().map(|name| {
quote! {
impl ::typst::eval::Type for #ty {
const TYPE_NAME: &'static str = #name;
}
impl From<#ty> for ::typst::eval::Value {
fn from(v: #ty) -> Self {
::typst::eval::Value::Dyn(::typst::eval::Dynamic::new(v))
}
}
}
});
Ok(quote! {
impl ::typst::eval::Cast for #ty {
#is_func
#cast_func
#describe_func
}
#dynamic_impls
})
}
/// Expand the `cast_to_value!` macro.
pub fn cast_to_value(stream: TokenStream) -> Result<TokenStream> {
let cast: Cast = syn::parse2(stream)?;
let Pattern::Ty(pat, ty) = &cast.pattern else {
bail!(callsite, "expected pattern");
};
let expr = &cast.expr;
Ok(quote! {
impl ::std::convert::From<#ty> for ::typst::eval::Value {
fn from(#pat: #ty) -> Self {
#expr
}
}
})
}
struct Castable {
ty: syn::Type,
name: Option<syn::LitStr>,
casts: Punctuated<Cast, Token![,]>,
}
struct Cast {
attrs: Vec<syn::Attribute>,
pattern: Pattern,
expr: syn::Expr,
}
enum Pattern {
Str(syn::LitStr),
Ty(syn::Pat, syn::Type),
}
impl Parse for Castable {
fn parse(input: ParseStream) -> Result<Self> {
let ty = input.parse()?;
let mut name = None;
if input.peek(Token![:]) {
let _: syn::Token![:] = input.parse()?;
name = Some(input.parse()?);
}
let _: syn::Token![,] = input.parse()?;
let casts = Punctuated::parse_terminated(input)?;
Ok(Self { ty, name, casts })
}
}
impl Parse for Cast {
fn parse(input: ParseStream) -> Result<Self> {
let attrs = input.call(syn::Attribute::parse_outer)?;
let pattern = input.parse()?;
let _: syn::Token![=>] = input.parse()?;
let expr = input.parse()?;
Ok(Self { attrs, pattern, expr })
}
}
impl Parse for Pattern {
fn parse(input: ParseStream) -> Result<Self> {
if input.peek(syn::LitStr) {
Ok(Pattern::Str(input.parse()?))
} else {
let pat = input.parse()?;
let _: syn::Token![:] = input.parse()?;
let ty = input.parse()?;
Ok(Pattern::Ty(pat, ty))
}
}
}
/// Create the castable's `is` function.
fn create_is_func(castable: &Castable) -> TokenStream {
let mut string_arms = vec![];
let mut cast_checks = vec![];
for cast in &castable.casts {
match &cast.pattern {
Pattern::Str(lit) => {
string_arms.push(quote! { #lit => return true });
}
Pattern::Ty(_, ty) => {
cast_checks.push(quote! {
if <#ty as ::typst::eval::Cast>::is(value) {
return true;
}
});
}
}
}
let dynamic_check = castable.name.is_some().then(|| {
quote! {
if let ::typst::eval::Value::Dyn(dynamic) = &value {
if dynamic.is::<Self>() {
return true;
}
}
}
});
let str_check = (!string_arms.is_empty()).then(|| {
quote! {
if let ::typst::eval::Value::Str(string) = &value {
match string.as_str() {
#(#string_arms,)*
_ => {}
}
}
}
});
quote! {
fn is(value: &::typst::eval::Value) -> bool {
#dynamic_check
#str_check
#(#cast_checks)*
false
}
}
}
/// Create the castable's `cast` function.
fn create_cast_func(castable: &Castable) -> TokenStream {
let mut string_arms = vec![];
let mut cast_checks = vec![];
for cast in &castable.casts {
let expr = &cast.expr;
match &cast.pattern {
Pattern::Str(lit) => {
string_arms.push(quote! { #lit => return Ok(#expr) });
}
Pattern::Ty(binding, ty) => {
cast_checks.push(quote! {
if <#ty as ::typst::eval::Cast>::is(&value) {
let #binding = <#ty as ::typst::eval::Cast>::cast(value)?;
return Ok(#expr);
}
});
}
}
}
let dynamic_check = castable.name.is_some().then(|| {
quote! {
if let ::typst::eval::Value::Dyn(dynamic) = &value {
if let Some(concrete) = dynamic.downcast::<Self>() {
return Ok(concrete.clone());
}
}
}
});
let str_check = (!string_arms.is_empty()).then(|| {
quote! {
if let ::typst::eval::Value::Str(string) = &value {
match string.as_str() {
#(#string_arms,)*
_ => {}
}
}
}
});
quote! {
fn cast(value: ::typst::eval::Value) -> ::typst::diag::StrResult<Self> {
#dynamic_check
#str_check
#(#cast_checks)*
<Self as ::typst::eval::Cast>::error(value)
}
}
}
/// Create the castable's `describe` function.
fn create_describe_func(castable: &Castable) -> TokenStream {
let mut infos = vec![];
for cast in &castable.casts {
let docs = documentation(&cast.attrs);
infos.push(match &cast.pattern {
Pattern::Str(lit) => {
quote! { ::typst::eval::CastInfo::Value(#lit.into(), #docs) }
}
Pattern::Ty(_, ty) => {
quote! { <#ty as ::typst::eval::Cast>::describe() }
}
});
}
if let Some(name) = &castable.name {
infos.push(quote! {
::typst::eval::CastInfo::Type(#name)
});
}
quote! {
fn describe() -> ::typst::eval::CastInfo {
#(#infos)+*
}
}
}
|
