fayalite/crates/fayalite-proc-macros-impl/src/hdl_bundle.rs

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2024-09-22 22:30:05 +00:00
// SPDX-License-Identifier: LGPL-3.0-or-later
// See Notices.txt for copyright information
use crate::{
hdl_type_common::{
common_derives, get_target, ItemOptions, MakeHdlTypeExpr, MaybeParsed, ParsedField,
ParsedFieldsNamed, ParsedGenerics, SplitForImpl, TypesParser, WrappedInConst,
},
kw, Errors, HdlAttr, PairsIterExt,
};
use proc_macro2::TokenStream;
use quote::{format_ident, quote_spanned, ToTokens};
use syn::{
parse_quote, parse_quote_spanned,
punctuated::{Pair, Punctuated},
spanned::Spanned,
token::Brace,
AngleBracketedGenericArguments, Attribute, Field, FieldMutability, Fields, FieldsNamed,
GenericParam, Generics, Ident, ItemStruct, Path, Token, Type, Visibility,
};
#[derive(Clone, Debug)]
pub(crate) struct ParsedBundle {
pub(crate) attrs: Vec<Attribute>,
pub(crate) options: HdlAttr<ItemOptions, kw::hdl>,
pub(crate) vis: Visibility,
pub(crate) struct_token: Token![struct],
pub(crate) ident: Ident,
pub(crate) generics: MaybeParsed<ParsedGenerics, Generics>,
pub(crate) fields: MaybeParsed<ParsedFieldsNamed, FieldsNamed>,
pub(crate) field_flips: Vec<Option<HdlAttr<kw::flip, kw::hdl>>>,
pub(crate) mask_type_ident: Ident,
pub(crate) mask_type_match_variant_ident: Ident,
pub(crate) match_variant_ident: Ident,
pub(crate) builder_ident: Ident,
pub(crate) mask_type_builder_ident: Ident,
}
impl ParsedBundle {
fn parse_field(
errors: &mut Errors,
field: &mut Field,
index: usize,
) -> Option<HdlAttr<kw::flip, kw::hdl>> {
let Field {
attrs,
vis: _,
mutability,
ident,
colon_token,
ty,
} = field;
let ident = ident.get_or_insert_with(|| format_ident!("_{}", index, span = ty.span()));
if !matches!(mutability, FieldMutability::None) {
// FIXME: use mutability as the spanned tokens,
// blocked on https://github.com/dtolnay/syn/issues/1717
errors.error(&ident, "field mutability is not supported");
*mutability = FieldMutability::None;
}
*mutability = FieldMutability::None;
colon_token.get_or_insert(Token![:](ident.span()));
let options = errors.unwrap_or_default(HdlAttr::parse_and_take_attr(attrs));
options
}
fn parse(item: ItemStruct) -> syn::Result<Self> {
let ItemStruct {
mut attrs,
vis,
struct_token,
ident,
mut generics,
fields,
semi_token,
} = item;
let mut errors = Errors::new();
let mut options = errors
.unwrap_or_default(HdlAttr::<ItemOptions, kw::hdl>::parse_and_take_attr(
&mut attrs,
))
.unwrap_or_default();
errors.ok(options.body.validate());
let ItemOptions {
outline_generated: _,
target: _,
custom_bounds,
no_static: _,
no_runtime_generics: _,
} = options.body;
let mut fields = match fields {
syn::Fields::Named(fields) => fields,
syn::Fields::Unnamed(fields) => {
errors.error(&fields, "#[hdl] struct must use curly braces: {}");
FieldsNamed {
brace_token: Brace(fields.paren_token.span),
named: fields.unnamed,
}
}
syn::Fields::Unit => {
errors.error(&fields, "#[hdl] struct must use curly braces: {}");
FieldsNamed {
brace_token: Brace(semi_token.unwrap_or_default().span),
named: Punctuated::default(),
}
}
};
let mut field_flips = Vec::with_capacity(fields.named.len());
for (index, field) in fields.named.iter_mut().enumerate() {
field_flips.push(Self::parse_field(&mut errors, field, index));
}
let generics = if custom_bounds.is_some() {
MaybeParsed::Unrecognized(generics)
} else if let Some(generics) = errors.ok(ParsedGenerics::parse(&mut generics)) {
MaybeParsed::Parsed(generics)
} else {
MaybeParsed::Unrecognized(generics)
};
let fields = TypesParser::maybe_run(generics.as_ref(), fields, &mut errors);
errors.finish()?;
Ok(Self {
attrs,
options,
vis,
struct_token,
generics,
fields,
field_flips,
mask_type_ident: format_ident!("__{}__MaskType", ident),
mask_type_match_variant_ident: format_ident!("__{}__MaskType__MatchVariant", ident),
match_variant_ident: format_ident!("__{}__MatchVariant", ident),
mask_type_builder_ident: format_ident!("__{}__MaskType__Builder", ident),
builder_ident: format_ident!("__{}__Builder", ident),
ident,
})
}
}
#[derive(Clone, Debug)]
struct Builder {
vis: Visibility,
struct_token: Token![struct],
ident: Ident,
target: Path,
generics: Generics,
fields: FieldsNamed,
}
#[derive(Copy, Clone, Eq, PartialEq, Debug)]
enum BuilderFieldState {
Unfilled,
Generic,
Filled,
}
impl Builder {
fn phantom_field_name(&self) -> Ident {
format_ident!("__phantom", span = self.ident.span())
}
fn phantom_field(&self) -> Field {
let target = &self.target;
let type_generics = self.generics.split_for_impl().1;
Field {
attrs: vec![],
vis: Visibility::Inherited,
mutability: FieldMutability::None,
ident: Some(self.phantom_field_name()),
colon_token: Some(Token![:](self.ident.span())),
ty: parse_quote_spanned! {self.ident.span()=>
::fayalite::__std::marker::PhantomData<#target #type_generics>
},
}
}
fn builder_struct_generics(
&self,
mut get_field_state: impl FnMut(usize) -> BuilderFieldState,
) -> Generics {
let mut retval = self.generics.clone();
for param in retval.params.iter_mut() {
match param {
GenericParam::Lifetime(_) => {}
GenericParam::Type(param) => param.default = None,
GenericParam::Const(param) => param.default = None,
}
}
for (field_index, field) in self.fields.named.iter().enumerate() {
match get_field_state(field_index) {
BuilderFieldState::Unfilled | BuilderFieldState::Filled => continue,
BuilderFieldState::Generic => {}
}
if !retval.params.empty_or_trailing() {
retval.params.push_punct(Token![,](self.ident.span()));
}
retval.params.push_value(GenericParam::Type(
type_var_for_field_name(field.ident.as_ref().unwrap()).into(),
));
}
retval
}
fn builder_struct_ty(
&self,
mut get_field_state: impl FnMut(usize) -> BuilderFieldState,
) -> Type {
let mut ty_arguments: AngleBracketedGenericArguments = if self.generics.params.is_empty() {
parse_quote_spanned! {self.ident.span()=>
<>
}
} else {
let builder_type_generics = self.generics.split_for_impl().1;
parse_quote! { #builder_type_generics }
};
for (field_index, Field { ident, ty, .. }) in self.fields.named.iter().enumerate() {
let ident = ident.as_ref().unwrap();
if !ty_arguments.args.empty_or_trailing() {
ty_arguments.args.push_punct(Token![,](self.ident.span()));
}
ty_arguments
.args
.push_value(match get_field_state(field_index) {
BuilderFieldState::Unfilled => parse_quote_spanned! {self.ident.span()=>
::fayalite::bundle::Unfilled<#ty>
},
BuilderFieldState::Generic => {
let type_var = type_var_for_field_name(ident);
parse_quote_spanned! {self.ident.span()=>
#type_var
}
}
BuilderFieldState::Filled => parse_quote_spanned! {self.ident.span()=>
::fayalite::expr::Expr<#ty>
},
});
}
let ident = &self.ident;
parse_quote_spanned! {ident.span()=>
#ident #ty_arguments
}
}
}
fn type_var_for_field_name(ident: &Ident) -> Ident {
format_ident!("__T_{}", ident)
}
fn field_fn_for_field_name(ident: &Ident) -> Ident {
format_ident!("field_{}", ident)
}
impl ToTokens for Builder {
fn to_tokens(&self, tokens: &mut TokenStream) {
let Self {
vis,
struct_token,
ident,
target,
generics: _,
fields,
} = self;
let phantom_field_name = self.phantom_field_name();
let builder_struct = ItemStruct {
attrs: vec![parse_quote_spanned! {ident.span()=>
#[allow(non_camel_case_types, dead_code)]
}],
vis: vis.clone(),
struct_token: *struct_token,
ident: ident.clone(),
generics: self.builder_struct_generics(|_| BuilderFieldState::Generic),
fields: Fields::Named(FieldsNamed {
brace_token: fields.brace_token,
named: Punctuated::from_iter(
[Pair::Punctuated(
self.phantom_field(),
Token![,](self.ident.span()),
)]
.into_iter()
.chain(fields.named.pairs().map_pair_value_ref(|field| {
let ident = field.ident.as_ref().unwrap();
let type_var = type_var_for_field_name(ident);
Field {
vis: Visibility::Inherited,
ty: parse_quote_spanned! {ident.span()=>
#type_var
},
..field.clone()
}
})),
),
}),
semi_token: None,
};
builder_struct.to_tokens(tokens);
let field_idents = Vec::from_iter(
self.fields
.named
.iter()
.map(|field| field.ident.as_ref().unwrap()),
);
for (
field_index,
Field {
vis,
ident: field_ident,
ty,
..
},
) in self.fields.named.iter().enumerate()
{
let field_ident = field_ident.as_ref().unwrap();
let fn_ident = field_fn_for_field_name(field_ident);
let fn_generics = self.builder_struct_generics(|i| {
if i == field_index {
BuilderFieldState::Unfilled
} else {
BuilderFieldState::Generic
}
});
let (impl_generics, _, where_clause) = fn_generics.split_for_impl();
let unfilled_ty = self.builder_struct_ty(|i| {
if i == field_index {
BuilderFieldState::Unfilled
} else {
BuilderFieldState::Generic
}
});
let filled_ty = self.builder_struct_ty(|i| {
if i == field_index {
BuilderFieldState::Filled
} else {
BuilderFieldState::Generic
}
});
let pat_fields =
Vec::from_iter(self.fields.named.iter().enumerate().map(|(i, field)| {
let field_ident = field.ident.as_ref().unwrap();
if field_index == i {
quote_spanned! {self.ident.span()=>
#field_ident: _,
}
} else {
quote_spanned! {self.ident.span()=>
#field_ident,
}
}
}));
quote_spanned! {self.ident.span()=>
#[automatically_derived]
#[allow(non_camel_case_types, dead_code)]
impl #impl_generics #unfilled_ty
#where_clause
{
#vis fn #fn_ident(
self,
#field_ident: impl ::fayalite::expr::ToExpr<Type = #ty>,
) -> #filled_ty {
let Self {
#phantom_field_name: _,
#(#pat_fields)*
} = self;
let #field_ident = ::fayalite::expr::ToExpr::to_expr(&#field_ident);
#ident {
#phantom_field_name: ::fayalite::__std::marker::PhantomData,
#(#field_idents,)*
}
}
}
}
.to_tokens(tokens);
}
let unfilled_generics = self.builder_struct_generics(|_| BuilderFieldState::Unfilled);
let unfilled_ty = self.builder_struct_ty(|_| BuilderFieldState::Unfilled);
let (unfilled_impl_generics, _, unfilled_where_clause) = unfilled_generics.split_for_impl();
quote_spanned! {self.ident.span()=>
#[automatically_derived]
#[allow(non_camel_case_types, dead_code)]
impl #unfilled_impl_generics ::fayalite::__std::default::Default for #unfilled_ty
#unfilled_where_clause
{
fn default() -> Self {
#ident {
#phantom_field_name: ::fayalite::__std::marker::PhantomData,
#(#field_idents: ::fayalite::__std::default::Default::default(),)*
}
}
}
}
.to_tokens(tokens);
let filled_generics = self.builder_struct_generics(|_| BuilderFieldState::Filled);
let filled_ty = self.builder_struct_ty(|_| BuilderFieldState::Filled);
let (filled_impl_generics, _, filled_where_clause) = filled_generics.split_for_impl();
let type_generics = self.generics.split_for_impl().1;
quote_spanned! {self.ident.span()=>
#[automatically_derived]
#[allow(non_camel_case_types, dead_code)]
impl #filled_impl_generics ::fayalite::expr::ToExpr for #filled_ty
#filled_where_clause
{
type Type = #target #type_generics;
fn to_expr(
&self,
) -> ::fayalite::expr::Expr<<Self as ::fayalite::expr::ToExpr>::Type> {
let __ty = #target {
#(#field_idents: ::fayalite::expr::Expr::ty(self.#field_idents),)*
};
let __field_values = [
#(::fayalite::expr::Expr::canonical(self.#field_idents),)*
];
::fayalite::expr::ToExpr::to_expr(
&::fayalite::expr::ops::BundleLiteral::new(
__ty,
::fayalite::intern::Intern::intern(&__field_values[..]),
),
)
}
}
}
.to_tokens(tokens);
}
}
impl ToTokens for ParsedBundle {
fn to_tokens(&self, tokens: &mut TokenStream) {
let Self {
attrs,
options,
vis,
struct_token,
ident,
generics,
fields,
field_flips,
mask_type_ident,
mask_type_match_variant_ident,
match_variant_ident,
builder_ident,
mask_type_builder_ident,
} = self;
let ItemOptions {
outline_generated: _,
target,
custom_bounds: _,
no_static,
no_runtime_generics,
} = &options.body;
let target = get_target(target, ident);
let mut item_attrs = attrs.clone();
item_attrs.push(common_derives(ident.span()));
ItemStruct {
attrs: item_attrs,
vis: vis.clone(),
struct_token: *struct_token,
ident: ident.clone(),
generics: generics.into(),
fields: Fields::Named(fields.clone().into()),
semi_token: None,
}
.to_tokens(tokens);
let (impl_generics, type_generics, where_clause) = generics.split_for_impl();
if let (MaybeParsed::Parsed(generics), MaybeParsed::Parsed(fields), None) =
(generics, fields, no_runtime_generics)
{
generics.make_runtime_generics(tokens, vis, ident, &target, |context| {
let fields: Vec<_> = fields
.named
.iter()
.map(|ParsedField { ident, ty, .. }| {
let ident = ident.as_ref().unwrap();
let expr = ty.make_hdl_type_expr(context);
quote_spanned! {ident.span()=>
#ident: #expr,
}
})
.collect();
parse_quote_spanned! {ident.span()=>
#target {
#(#fields)*
}
}
})
}
let mut wrapped_in_const = WrappedInConst::new(tokens, ident.span());
let tokens = wrapped_in_const.inner();
let builder = Builder {
vis: vis.clone(),
struct_token: *struct_token,
ident: builder_ident.clone(),
target: target.clone(),
generics: generics.into(),
fields: fields.clone().into(),
};
builder.to_tokens(tokens);
let unfilled_builder_ty = builder.builder_struct_ty(|_| BuilderFieldState::Unfilled);
let filled_builder_ty = builder.builder_struct_ty(|_| BuilderFieldState::Filled);
let mut mask_type_fields = FieldsNamed::from(fields.clone());
for Field { ident, ty, .. } in &mut mask_type_fields.named {
let ident = ident.as_ref().unwrap();
*ty = parse_quote_spanned! {ident.span()=>
<#ty as ::fayalite::ty::Type>::MaskType
};
}
let mask_type_builder = Builder {
vis: vis.clone(),
struct_token: *struct_token,
ident: mask_type_builder_ident.clone(),
target: mask_type_ident.clone().into(),
generics: generics.into(),
fields: mask_type_fields.clone(),
};
mask_type_builder.to_tokens(tokens);
let unfilled_mask_type_builder_ty =
mask_type_builder.builder_struct_ty(|_| BuilderFieldState::Unfilled);
let filled_mask_type_builder_ty =
mask_type_builder.builder_struct_ty(|_| BuilderFieldState::Filled);
ItemStruct {
attrs: vec![
common_derives(ident.span()),
parse_quote_spanned! {ident.span()=>
#[allow(non_camel_case_types, dead_code)]
},
],
vis: vis.clone(),
struct_token: *struct_token,
ident: mask_type_ident.clone(),
generics: generics.into(),
fields: Fields::Named(mask_type_fields.clone()),
semi_token: None,
}
.to_tokens(tokens);
let mut mask_type_match_variant_fields = mask_type_fields;
for Field { ident, ty, .. } in &mut mask_type_match_variant_fields.named {
let ident = ident.as_ref().unwrap();
*ty = parse_quote_spanned! {ident.span()=>
::fayalite::expr::Expr<#ty>
};
}
ItemStruct {
attrs: vec![
common_derives(ident.span()),
parse_quote_spanned! {ident.span()=>
#[allow(non_camel_case_types, dead_code)]
},
],
vis: vis.clone(),
struct_token: *struct_token,
ident: mask_type_match_variant_ident.clone(),
generics: generics.into(),
fields: Fields::Named(mask_type_match_variant_fields),
semi_token: None,
}
.to_tokens(tokens);
let mut match_variant_fields = FieldsNamed::from(fields.clone());
for Field { ident, ty, .. } in &mut match_variant_fields.named {
let ident = ident.as_ref().unwrap();
*ty = parse_quote_spanned! {ident.span()=>
::fayalite::expr::Expr<#ty>
};
}
ItemStruct {
attrs: vec![
common_derives(ident.span()),
parse_quote_spanned! {ident.span()=>
#[allow(non_camel_case_types, dead_code)]
},
],
vis: vis.clone(),
struct_token: *struct_token,
ident: match_variant_ident.clone(),
generics: generics.into(),
fields: Fields::Named(match_variant_fields),
semi_token: None,
}
.to_tokens(tokens);
let match_variant_body_fields = Vec::from_iter(fields.named().into_iter().map(|field| {
let ident: &Ident = field.ident().as_ref().unwrap();
let ident_str = ident.to_string();
quote_spanned! {ident.span()=>
#ident: ::fayalite::expr::Expr::field(__this, #ident_str),
}
}));
let mask_type_body_fields = Vec::from_iter(fields.named().into_iter().map(|field| {
let ident: &Ident = field.ident().as_ref().unwrap();
quote_spanned! {ident.span()=>
#ident: ::fayalite::ty::Type::mask_type(&self.#ident),
}
}));
let from_canonical_body_fields =
Vec::from_iter(fields.named().into_iter().enumerate().zip(field_flips).map(
|((index, field), flip)| {
let ident: &Ident = field.ident().as_ref().unwrap();
let ident_str = ident.to_string();
let flipped = flip.is_some();
quote_spanned! {ident.span()=>
#ident: {
let ::fayalite::bundle::BundleField {
name: __name,
flipped: __flipped,
ty: __ty,
} = __fields[#index];
::fayalite::__std::assert_eq!(&*__name, #ident_str);
::fayalite::__std::assert_eq!(__flipped, #flipped);
::fayalite::ty::Type::from_canonical(__ty)
},
}
},
));
let fields_body_fields = Vec::from_iter(fields.named().into_iter().zip(field_flips).map(
|(field, flip)| {
let ident: &Ident = field.ident().as_ref().unwrap();
let ident_str = ident.to_string();
let flipped = flip.is_some();
quote_spanned! {ident.span()=>
::fayalite::bundle::BundleField {
name: ::fayalite::intern::Intern::intern(#ident_str),
flipped: #flipped,
ty: ::fayalite::ty::Type::canonical(&self.#ident),
},
}
},
));
let fields_len = fields.named().into_iter().len();
quote_spanned! {ident.span()=>
#[automatically_derived]
impl #impl_generics ::fayalite::ty::Type for #mask_type_ident #type_generics
#where_clause
{
type BaseType = ::fayalite::bundle::Bundle;
type MaskType = #mask_type_ident #type_generics;
type MatchVariant = #mask_type_match_variant_ident #type_generics;
type MatchActiveScope = ();
type MatchVariantAndInactiveScope = ::fayalite::ty::MatchVariantWithoutScope<
<Self as ::fayalite::ty::Type>::MatchVariant,
>;
type MatchVariantsIter = ::fayalite::__std::iter::Once<
<Self as ::fayalite::ty::Type>::MatchVariantAndInactiveScope,
>;
fn match_variants(
__this: ::fayalite::expr::Expr<Self>,
__source_location: ::fayalite::source_location::SourceLocation,
) -> <Self as ::fayalite::ty::Type>::MatchVariantsIter {
let __retval = #mask_type_match_variant_ident {
#(#match_variant_body_fields)*
};
::fayalite::__std::iter::once(::fayalite::ty::MatchVariantWithoutScope(__retval))
}
fn mask_type(&self) -> <Self as ::fayalite::ty::Type>::MaskType {
*self
}
fn canonical(&self) -> ::fayalite::ty::CanonicalType {
::fayalite::ty::Type::canonical(&::fayalite::bundle::Bundle::new(::fayalite::bundle::BundleType::fields(self)))
}
#[track_caller]
fn from_canonical(__canonical_type: ::fayalite::ty::CanonicalType) -> Self {
let ::fayalite::ty::CanonicalType::Bundle(__bundle) = __canonical_type else {
::fayalite::__std::panic!("expected bundle");
};
let __fields = ::fayalite::bundle::BundleType::fields(&__bundle);
::fayalite::__std::assert_eq!(__fields.len(), #fields_len, "bundle has wrong number of fields");
Self {
#(#from_canonical_body_fields)*
}
}
fn source_location() -> ::fayalite::source_location::SourceLocation {
::fayalite::source_location::SourceLocation::caller()
}
}
#[automatically_derived]
impl #impl_generics ::fayalite::bundle::BundleType for #mask_type_ident #type_generics
#where_clause
{
type Builder = #unfilled_mask_type_builder_ty;
type FilledBuilder = #filled_mask_type_builder_ty;
fn fields(&self) -> ::fayalite::intern::Interned<[::fayalite::bundle::BundleField]> {
::fayalite::intern::Intern::intern(&[#(#fields_body_fields)*][..])
}
}
impl #impl_generics #mask_type_ident #type_generics
#where_clause
{
#vis fn __bundle_builder() -> #unfilled_mask_type_builder_ty {
::fayalite::__std::default::Default::default()
}
}
#[automatically_derived]
impl #impl_generics ::fayalite::ty::TypeWithDeref for #mask_type_ident #type_generics
#where_clause
{
fn expr_deref(__this: &::fayalite::expr::Expr<Self>) -> &<Self as ::fayalite::ty::Type>::MatchVariant {
let __this = *__this;
let __retval = #mask_type_match_variant_ident {
#(#match_variant_body_fields)*
};
::fayalite::intern::Interned::<_>::into_inner(::fayalite::intern::Intern::intern_sized(__retval))
}
}
#[automatically_derived]
impl #impl_generics ::fayalite::ty::Type for #target #type_generics
#where_clause
{
type BaseType = ::fayalite::bundle::Bundle;
type MaskType = #mask_type_ident #type_generics;
type MatchVariant = #match_variant_ident #type_generics;
type MatchActiveScope = ();
type MatchVariantAndInactiveScope = ::fayalite::ty::MatchVariantWithoutScope<
<Self as ::fayalite::ty::Type>::MatchVariant,
>;
type MatchVariantsIter = ::fayalite::__std::iter::Once<
<Self as ::fayalite::ty::Type>::MatchVariantAndInactiveScope,
>;
fn match_variants(
__this: ::fayalite::expr::Expr<Self>,
__source_location: ::fayalite::source_location::SourceLocation,
) -> <Self as ::fayalite::ty::Type>::MatchVariantsIter {
let __retval = #match_variant_ident {
#(#match_variant_body_fields)*
};
::fayalite::__std::iter::once(::fayalite::ty::MatchVariantWithoutScope(__retval))
}
fn mask_type(&self) -> <Self as ::fayalite::ty::Type>::MaskType {
#mask_type_ident {
#(#mask_type_body_fields)*
}
}
fn canonical(&self) -> ::fayalite::ty::CanonicalType {
::fayalite::ty::Type::canonical(&::fayalite::bundle::Bundle::new(::fayalite::bundle::BundleType::fields(self)))
}
#[track_caller]
fn from_canonical(__canonical_type: ::fayalite::ty::CanonicalType) -> Self {
let ::fayalite::ty::CanonicalType::Bundle(__bundle) = __canonical_type else {
::fayalite::__std::panic!("expected bundle");
};
let __fields = ::fayalite::bundle::BundleType::fields(&__bundle);
::fayalite::__std::assert_eq!(__fields.len(), #fields_len, "bundle has wrong number of fields");
Self {
#(#from_canonical_body_fields)*
}
}
fn source_location() -> ::fayalite::source_location::SourceLocation {
::fayalite::source_location::SourceLocation::caller()
}
}
#[automatically_derived]
impl #impl_generics ::fayalite::bundle::BundleType for #target #type_generics
#where_clause
{
type Builder = #unfilled_builder_ty;
type FilledBuilder = #filled_builder_ty;
fn fields(&self) -> ::fayalite::intern::Interned<[::fayalite::bundle::BundleField]> {
::fayalite::intern::Intern::intern(&[#(#fields_body_fields)*][..])
}
}
impl #impl_generics #target #type_generics
#where_clause
{
#vis fn __bundle_builder() -> #unfilled_builder_ty {
::fayalite::__std::default::Default::default()
}
}
#[automatically_derived]
impl #impl_generics ::fayalite::ty::TypeWithDeref for #target #type_generics
#where_clause
{
fn expr_deref(__this: &::fayalite::expr::Expr<Self>) -> &<Self as ::fayalite::ty::Type>::MatchVariant {
let __this = *__this;
let __retval = #match_variant_ident {
#(#match_variant_body_fields)*
};
::fayalite::intern::Interned::<_>::into_inner(::fayalite::intern::Intern::intern_sized(__retval))
}
}
}
.to_tokens(tokens);
if let (None, MaybeParsed::Parsed(generics)) = (no_static, &self.generics) {
let static_generics = generics.clone().for_static_type();
let (static_impl_generics, static_type_generics, static_where_clause) =
static_generics.split_for_impl();
let static_type_body_fields = Vec::from_iter(fields.named().into_iter().map(|field| {
let ident: &Ident = field.ident().as_ref().unwrap();
let ty = field.ty();
quote_spanned! {ident.span()=>
#ident: <#ty as ::fayalite::ty::StaticType>::TYPE,
}
}));
let static_mask_type_body_fields =
Vec::from_iter(fields.named().into_iter().map(|field| {
let ident: &Ident = field.ident().as_ref().unwrap();
let ty = field.ty();
quote_spanned! {ident.span()=>
#ident: <#ty as ::fayalite::ty::StaticType>::MASK_TYPE,
}
}));
let type_properties = format_ident!("__type_properties", span = ident.span());
let type_properties_fields = Vec::from_iter(fields.named().into_iter().zip(field_flips).map(|(field, field_flip)| {
let ident: &Ident = field.ident().as_ref().unwrap();
let flipped = field_flip.is_some();
let ty = field.ty();
quote_spanned! {ident.span()=>
let #type_properties = #type_properties.field(#flipped, <#ty as ::fayalite::ty::StaticType>::TYPE_PROPERTIES);
}
}));
let type_properties_mask_fields = Vec::from_iter(fields.named().into_iter().zip(field_flips).map(|(field, field_flip)| {
let ident: &Ident = field.ident().as_ref().unwrap();
let flipped = field_flip.is_some();
let ty = field.ty();
quote_spanned! {ident.span()=>
let #type_properties = #type_properties.field(#flipped, <#ty as ::fayalite::ty::StaticType>::MASK_TYPE_PROPERTIES);
}
}));
quote_spanned! {ident.span()=>
#[automatically_derived]
impl #static_impl_generics ::fayalite::ty::StaticType for #mask_type_ident #static_type_generics
#static_where_clause
{
const TYPE: Self = Self {
#(#static_mask_type_body_fields)*
};
const MASK_TYPE: <Self as ::fayalite::ty::Type>::MaskType = Self {
#(#static_mask_type_body_fields)*
};
const TYPE_PROPERTIES: ::fayalite::ty::TypeProperties = {
let #type_properties = ::fayalite::bundle::BundleTypePropertiesBuilder::new();
#(#type_properties_mask_fields)*
#type_properties.finish()
};
const MASK_TYPE_PROPERTIES: ::fayalite::ty::TypeProperties = {
let #type_properties = ::fayalite::bundle::BundleTypePropertiesBuilder::new();
#(#type_properties_mask_fields)*
#type_properties.finish()
};
}
#[automatically_derived]
impl #static_impl_generics ::fayalite::ty::StaticType for #target #static_type_generics
#static_where_clause
{
const TYPE: Self = Self {
#(#static_type_body_fields)*
};
const MASK_TYPE: <Self as ::fayalite::ty::Type>::MaskType = #mask_type_ident {
#(#static_mask_type_body_fields)*
};
const TYPE_PROPERTIES: ::fayalite::ty::TypeProperties = {
let #type_properties = ::fayalite::bundle::BundleTypePropertiesBuilder::new();
#(#type_properties_fields)*
#type_properties.finish()
};
const MASK_TYPE_PROPERTIES: ::fayalite::ty::TypeProperties = {
let #type_properties = ::fayalite::bundle::BundleTypePropertiesBuilder::new();
#(#type_properties_mask_fields)*
#type_properties.finish()
};
}
}
.to_tokens(tokens);
}
}
}
pub(crate) fn hdl_bundle(item: ItemStruct) -> syn::Result<TokenStream> {
let item = ParsedBundle::parse(item)?;
let outline_generated = item.options.body.outline_generated;
let mut contents = item.to_token_stream();
if outline_generated.is_some() {
contents = crate::outline_generated(contents, "hdl-bundle-");
}
Ok(contents)
}