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|
// This file is part of ICU4X. For terms of use, please see the file
// called LICENSE at the top level of the ICU4X source tree
// (online at: https://github.com/unicode-org/icu4x/blob/main/LICENSE ).
use crate::utils::{self, FieldInfo};
use proc_macro2::Span;
use proc_macro2::TokenStream as TokenStream2;
use quote::{quote, ToTokens};
use syn::spanned::Spanned;
use syn::{
parse_quote, Data, DeriveInput, Error, Field, Fields, GenericArgument, Ident, Lifetime,
PathArguments, Type, TypePath,
};
pub fn make_varule_impl(ule_name: Ident, mut input: DeriveInput) -> TokenStream2 {
if input.generics.type_params().next().is_some()
|| input.generics.const_params().next().is_some()
|| input.generics.lifetimes().count() > 1
{
return Error::new(
input.generics.span(),
"#[make_varule] must be applied to a struct without any type or const parameters and at most one lifetime",
)
.to_compile_error();
}
let sp = input.span();
let attrs = match utils::extract_attributes_common(&mut input.attrs, sp, true) {
Ok(val) => val,
Err(e) => return e.to_compile_error(),
};
let lt = input.generics.lifetimes().next();
if let Some(lt) = lt {
if lt.colon_token.is_some() || !lt.bounds.is_empty() {
return Error::new(
input.generics.span(),
"#[make_varule] must be applied to a struct without lifetime bounds",
)
.to_compile_error();
}
}
let lt = lt.map(|l| &l.lifetime);
let name = &input.ident;
let input_span = input.span();
let fields = match input.data {
Data::Struct(ref mut s) => &mut s.fields,
_ => {
return Error::new(input.span(), "#[make_varule] must be applied to a struct")
.to_compile_error();
}
};
if fields.is_empty() {
return Error::new(
input.span(),
"#[make_varule] must be applied to a struct with at least one field",
)
.to_compile_error();
}
let mut sized_fields = vec![];
let mut unsized_fields = vec![];
let mut custom_varule_idents = vec![];
for field in fields.iter_mut() {
match utils::extract_field_attributes(&mut field.attrs) {
Ok(i) => custom_varule_idents.push(i),
Err(e) => return e.to_compile_error(),
}
}
for (i, field) in fields.iter().enumerate() {
match UnsizedField::new(field, i, custom_varule_idents[i].clone()) {
Ok(o) => unsized_fields.push(o),
Err(_) => sized_fields.push(FieldInfo::new_for_field(field, i)),
}
}
if unsized_fields.is_empty() {
let last_field_index = fields.len() - 1;
let last_field = fields.iter().next_back().unwrap();
let e = UnsizedField::new(
last_field,
last_field_index,
custom_varule_idents[last_field_index].clone(),
)
.unwrap_err();
return Error::new(last_field.span(), e).to_compile_error();
}
if unsized_fields[0].field.index != fields.len() - unsized_fields.len()
&& unsized_fields[0].field.field.ident.is_none()
{
return Error::new(
unsized_fields.first().unwrap().field.field.span(),
"#[make_varule] requires its unsized fields to be at the end for tuple structs",
)
.to_compile_error();
}
let unsized_field_info = UnsizedFields::new(unsized_fields);
let mut field_inits = crate::ule::make_ule_fields(&sized_fields);
let last_field_ule = unsized_field_info.varule_ty();
let setter = unsized_field_info.varule_setter();
let vis = &unsized_field_info.varule_vis();
field_inits.push(quote!(#vis #setter #last_field_ule));
let semi = utils::semi_for(fields);
let repr_attr = utils::repr_for(fields);
let field_inits = utils::wrap_field_inits(&field_inits, fields);
let vis = &input.vis;
let doc = format!(
"[`VarULE`](zerovec::ule::VarULE) type for [`{name}`]. See [`{name}`] for documentation."
);
let varule_struct: DeriveInput = parse_quote!(
#[repr(#repr_attr)]
#[doc = #doc]
#[allow(missing_docs)]
#vis struct #ule_name #field_inits #semi
);
let derived = crate::varule::derive_impl(&varule_struct, unsized_field_info.varule_validator());
let maybe_lt_bound = lt.as_ref().map(|lt| quote!(<#lt>));
let encode_impl = make_encode_impl(
&sized_fields,
&unsized_field_info,
name,
&ule_name,
&maybe_lt_bound,
);
let zf_impl = make_zf_impl(
&sized_fields,
&unsized_field_info,
fields,
name,
&ule_name,
lt,
input_span,
);
let eq_impl = quote!(
impl core::cmp::PartialEq for #ule_name {
fn eq(&self, other: &Self) -> bool {
// The VarULE invariants allow us to assume that equality is byte equality
// in non-safety-critical contexts
<Self as zerovec::ule::VarULE>::as_byte_slice(&self)
== <Self as zerovec::ule::VarULE>::as_byte_slice(&other)
}
}
impl core::cmp::Eq for #ule_name {}
);
let zerofrom_fq_path =
quote!(<#name as zerovec::__zerovec_internal_reexport::ZeroFrom<#ule_name>>);
let maybe_ord_impls = if attrs.skip_ord {
quote!()
} else {
quote!(
impl core::cmp::PartialOrd for #ule_name {
fn partial_cmp(&self, other: &Self) -> Option<core::cmp::Ordering> {
Some(self.cmp(other))
}
}
impl core::cmp::Ord for #ule_name {
fn cmp(&self, other: &Self) -> core::cmp::Ordering {
let this = #zerofrom_fq_path::zero_from(self);
let other = #zerofrom_fq_path::zero_from(other);
<#name as core::cmp::Ord>::cmp(&this, &other)
}
}
)
};
let maybe_debug = if attrs.debug {
quote!(
impl core::fmt::Debug for #ule_name {
fn fmt(&self, f: &mut core::fmt::Formatter) -> core::fmt::Result {
let this = #zerofrom_fq_path::zero_from(self);
<#name as core::fmt::Debug>::fmt(&this, f)
}
}
)
} else {
quote!()
};
let zmkv = if attrs.skip_kv {
quote!()
} else {
quote!(
impl<'a> zerovec::maps::ZeroMapKV<'a> for #ule_name {
type Container = zerovec::VarZeroVec<'a, #ule_name>;
type Slice = zerovec::VarZeroSlice<#ule_name>;
type GetType = #ule_name;
type OwnedType = zerovec::__zerovec_internal_reexport::boxed::Box<#ule_name>;
}
)
};
let serde_path = quote!(zerovec::__zerovec_internal_reexport::serde);
let maybe_ser = if attrs.serialize {
quote!(
impl #serde_path::Serialize for #ule_name {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> where S: #serde_path::Serializer {
let this = #zerofrom_fq_path::zero_from(self);
<#name as #serde_path::Serialize>::serialize(&this, serializer)
}
}
)
} else {
quote!()
};
let maybe_de = if attrs.deserialize {
quote!(
impl<'de> #serde_path::Deserialize<'de> for zerovec::__zerovec_internal_reexport::boxed::Box<#ule_name> {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error> where D: #serde_path::Deserializer<'de> {
let this = <#name as #serde_path::Deserialize>::deserialize(deserializer)?;
Ok(zerovec::ule::encode_varule_to_box(&this))
}
}
)
} else {
quote!()
};
let maybe_hash = if attrs.hash {
quote!(
#[allow(clippy::derive_hash_xor_eq)]
impl core::hash::Hash for #ule_name {
fn hash<H>(&self, state: &mut H) where H: core::hash::Hasher {
state.write(<#ule_name as zerovec::ule::VarULE>::as_byte_slice(&self));
}
}
)
} else {
quote!()
};
let maybe_multi_getters = if let Some(getters) = unsized_field_info.maybe_multi_getters() {
quote! {
impl #ule_name {
#getters
}
}
} else {
quote!()
};
quote!(
#input
#varule_struct
#maybe_multi_getters
#encode_impl
#zf_impl
#derived
#maybe_ord_impls
#eq_impl
#zmkv
#maybe_ser
#maybe_de
#maybe_debug
#maybe_hash
)
}
fn make_zf_impl(
sized_fields: &[FieldInfo],
unsized_field_info: &UnsizedFields,
fields: &Fields,
name: &Ident,
ule_name: &Ident,
maybe_lt: Option<&Lifetime>,
span: Span,
) -> TokenStream2 {
if !unsized_field_info.has_zf() {
return quote!();
}
let lt = if let Some(ref lt) = maybe_lt {
lt
} else {
return Error::new(
span,
"Can only generate ZeroFrom impls for types with lifetimes",
)
.to_compile_error();
};
let mut field_inits = sized_fields
.iter()
.map(|f| {
let ty = &f.field.ty;
let accessor = &f.accessor;
let setter = f.setter();
quote!(#setter <#ty as zerovec::ule::AsULE>::from_unaligned(other.#accessor))
})
.collect::<Vec<_>>();
unsized_field_info.push_zf_setters(lt, &mut field_inits);
let field_inits = utils::wrap_field_inits(&field_inits, fields);
let zerofrom_trait = quote!(zerovec::__zerovec_internal_reexport::ZeroFrom);
quote!(
impl <#lt> #zerofrom_trait <#lt, #ule_name> for #name <#lt> {
fn zero_from(other: &#lt #ule_name) -> Self {
Self #field_inits
}
}
)
}
fn make_encode_impl(
sized_fields: &[FieldInfo],
unsized_field_info: &UnsizedFields,
name: &Ident,
ule_name: &Ident,
maybe_lt_bound: &Option<TokenStream2>,
) -> TokenStream2 {
let mut lengths = vec![];
for field in sized_fields {
let ty = &field.field.ty;
lengths.push(quote!(::core::mem::size_of::<<#ty as zerovec::ule::AsULE>::ULE>()));
}
let (encoders, remaining_offset) = utils::generate_per_field_offsets(
sized_fields,
true,
|field, prev_offset_ident, size_ident| {
let ty = &field.field.ty;
let accessor = &field.accessor;
quote!(
#[allow(clippy::indexing_slicing)] // generate_per_field_offsets produces valid indices
let out = &mut dst[#prev_offset_ident .. #prev_offset_ident + #size_ident];
let unaligned = zerovec::ule::AsULE::to_unaligned(self.#accessor);
let unaligned_slice = &[unaligned];
let src = <<#ty as zerovec::ule::AsULE>::ULE as zerovec::ule::ULE>::as_byte_slice(unaligned_slice);
out.copy_from_slice(src);
)
},
);
let last_encode_len = unsized_field_info.encode_len();
let last_encode_write = unsized_field_info.encode_write(quote!(out));
quote!(
unsafe impl #maybe_lt_bound zerovec::ule::EncodeAsVarULE<#ule_name> for #name #maybe_lt_bound {
// Safety: unimplemented as the other two are implemented
fn encode_var_ule_as_slices<R>(&self, cb: impl FnOnce(&[&[u8]]) -> R) -> R {
unreachable!("other two methods implemented")
}
// Safety: returns the total length of the ULE form by adding up the lengths of each element's ULE forms
fn encode_var_ule_len(&self) -> usize {
#(#lengths +)* #last_encode_len
}
// Safety: converts each element to ULE form and writes them in sequence
fn encode_var_ule_write(&self, mut dst: &mut [u8]) {
debug_assert_eq!(self.encode_var_ule_len(), dst.len());
#encoders
#[allow(clippy::indexing_slicing)] // generate_per_field_offsets produces valid remainder
let out = &mut dst[#remaining_offset..];
#last_encode_write
}
}
// This second impl exists to allow for using EncodeAsVarULE without cloning
//
// A blanket impl cannot exist without coherence issues
unsafe impl #maybe_lt_bound zerovec::ule::EncodeAsVarULE<#ule_name> for &'_ #name #maybe_lt_bound {
// Safety: unimplemented as the other two are implemented
fn encode_var_ule_as_slices<R>(&self, cb: impl FnOnce(&[&[u8]]) -> R) -> R {
unreachable!("other two methods implemented")
}
// Safety: returns the total length of the ULE form by adding up the lengths of each element's ULE forms
fn encode_var_ule_len(&self) -> usize {
(**self).encode_var_ule_len()
}
// Safety: converts each element to ULE form and writes them in sequence
fn encode_var_ule_write(&self, mut dst: &mut [u8]) {
(**self).encode_var_ule_write(dst)
}
}
)
}
/// Represents a VarULE-compatible type that would typically
/// be found behind a `Cow<'a, _>` in the last field, and is represented
/// roughly the same in owned and borrowed versions
#[derive(Copy, Clone, Debug)]
enum OwnULETy<'a> {
/// [T] where T: AsULE<ULE = Self>
Slice(&'a Type),
/// str
Str,
}
/// Represents the type of the last field of the struct
#[derive(Clone, Debug)]
enum UnsizedFieldKind<'a> {
Cow(OwnULETy<'a>),
ZeroVec(&'a Type),
VarZeroVec(&'a Type),
/// Custom VarULE type, and the identifier corresponding to the VarULE type
Custom(&'a TypePath, Ident),
// Generally you should be using the above ones for maximum zero-copy, but these will still work
Growable(OwnULETy<'a>),
Boxed(OwnULETy<'a>),
Ref(OwnULETy<'a>),
}
#[derive(Clone, Debug)]
struct UnsizedField<'a> {
kind: UnsizedFieldKind<'a>,
field: FieldInfo<'a>,
}
struct UnsizedFields<'a> {
fields: Vec<UnsizedField<'a>>,
}
impl<'a> UnsizedFields<'a> {
fn new(fields: Vec<UnsizedField<'a>>) -> Self {
assert!(!fields.is_empty(), "Must have at least one unsized field");
Self { fields }
}
// Get the corresponding VarULE type that can store all of these
fn varule_ty(&self) -> TokenStream2 {
if self.fields.len() == 1 {
self.fields[0].kind.varule_ty()
} else {
quote!(zerovec::ule::MultiFieldsULE)
}
}
// Get the accessor field name in the VarULE type
fn varule_accessor(&self) -> TokenStream2 {
if self.fields.len() == 1 {
self.fields[0].field.accessor.clone()
} else if self.fields[0].field.field.ident.is_some() {
quote!(unsized_fields)
} else {
// first unsized field
self.fields[0].field.accessor.clone()
}
}
// Get the setter for this type for use in struct definition/creation syntax
fn varule_setter(&self) -> TokenStream2 {
if self.fields.len() == 1 {
self.fields[0].field.setter()
} else if self.fields[0].field.field.ident.is_some() {
quote!(unsized_fields: )
} else {
quote!()
}
}
fn varule_vis(&self) -> TokenStream2 {
if self.fields.len() == 1 {
self.fields[0].field.field.vis.to_token_stream()
} else {
// Always private
quote!()
}
}
// Check if the type has a ZeroFrom impl
fn has_zf(&self) -> bool {
self.fields.iter().all(|f| f.kind.has_zf())
}
// Takes all unsized fields on self and encodes them into a byte slice `out`
fn encode_write(&self, out: TokenStream2) -> TokenStream2 {
if self.fields.len() == 1 {
self.fields[0].encode_func(quote!(encode_var_ule_write), quote!(#out))
} else {
let mut lengths = vec![];
let mut writers = vec![];
for (i, field) in self.fields.iter().enumerate() {
lengths.push(field.encode_func(quote!(encode_var_ule_len), quote!()));
let (encodeable_ty, encodeable) = field.encodeable_tokens();
let varule_ty = field.kind.varule_ty();
writers
.push(quote!(multi.set_field_at::<#varule_ty, #encodeable_ty>(#i, #encodeable)))
}
quote!(
let lengths = [#(#lengths),*];
let mut multi = zerovec::ule::MultiFieldsULE::new_from_lengths_partially_initialized(&lengths, #out);
unsafe {
#(#writers;)*
}
)
}
}
// Takes all unsized fields on self and returns the length needed for encoding into a byte slice
fn encode_len(&self) -> TokenStream2 {
if self.fields.len() == 1 {
self.fields[0].encode_func(quote!(encode_var_ule_len), quote!())
} else {
let mut lengths = vec![];
for field in self.fields.iter() {
lengths.push(field.encode_func(quote!(encode_var_ule_len), quote!()));
}
quote!(zerovec::ule::MultiFieldsULE::compute_encoded_len_for(&[#(#lengths),*]))
}
}
/// Constructs ZeroFrom setters for each field of the stack type
fn push_zf_setters(&self, lt: &Lifetime, field_inits: &mut Vec<TokenStream2>) {
let zerofrom_trait = quote!(zerovec::__zerovec_internal_reexport::ZeroFrom);
if self.fields.len() == 1 {
let accessor = self.fields[0].field.accessor.clone();
let setter = self.fields[0].field.setter();
let last_field_ty = &self.fields[0].field.field.ty;
let last_field_ule_ty = self.fields[0].kind.varule_ty();
field_inits.push(quote!(#setter <#last_field_ty as #zerofrom_trait <#lt, #last_field_ule_ty>>::zero_from(&other.#accessor) ));
} else {
for field in self.fields.iter() {
let setter = field.field.setter();
let getter = field.field.getter();
let field_ty = &field.field.field.ty;
let field_ule_ty = field.kind.varule_ty();
field_inits.push(quote!(#setter
<#field_ty as #zerofrom_trait <#lt, #field_ule_ty>>::zero_from(&other.#getter())
));
}
}
}
fn maybe_multi_getters(&self) -> Option<TokenStream2> {
if self.fields.len() == 1 {
None
} else {
let multi_accessor = self.varule_accessor();
let field_getters = self.fields.iter().enumerate().map(|(i, field)| {
let getter = field.field.getter();
let field_ule_ty = field.kind.varule_ty();
let doc_name = field.field.getter_doc_name();
let doc = format!("Access the VarULE type behind {doc_name}");
quote!(
#[doc = #doc]
pub fn #getter<'a>(&'a self) -> &'a #field_ule_ty {
unsafe {
self.#multi_accessor.get_field::<#field_ule_ty>(#i)
}
}
)
});
Some(quote!(#(#field_getters)*))
}
}
/// In case this needs custom validation code, return it
///
/// The code will validate a variable known as `last_field_bytes`
fn varule_validator(&self) -> Option<TokenStream2> {
if self.fields.len() == 1 {
None
} else {
let mut validators = vec![];
for (i, field) in self.fields.iter().enumerate() {
let varule_ty = field.kind.varule_ty();
validators.push(quote!(multi.validate_field::<#varule_ty>(#i)?;));
}
Some(quote!(
let multi = zerovec::ule::MultiFieldsULE::parse_byte_slice(last_field_bytes)?;
unsafe {
#(#validators)*
}
))
}
}
}
impl<'a> UnsizedField<'a> {
fn new(
field: &'a Field,
index: usize,
custom_varule_ident: Option<Ident>,
) -> Result<Self, String> {
Ok(UnsizedField {
kind: UnsizedFieldKind::new(&field.ty, custom_varule_ident)?,
field: FieldInfo::new_for_field(field, index),
})
}
/// Call `<Self as EncodeAsVarULE<V>>::#method(self.accessor #additional_args)` after adjusting
/// Self and self.accessor to be the right types
fn encode_func(&self, method: TokenStream2, additional_args: TokenStream2) -> TokenStream2 {
let encodeas_trait = quote!(zerovec::ule::EncodeAsVarULE);
let (encodeable_ty, encodeable) = self.encodeable_tokens();
let varule_ty = self.kind.varule_ty();
quote!(<#encodeable_ty as #encodeas_trait<#varule_ty>>::#method(#encodeable, #additional_args))
}
/// Returns (encodeable_ty, encodeable)
fn encodeable_tokens(&self) -> (TokenStream2, TokenStream2) {
let accessor = self.field.accessor.clone();
let value = quote!(self.#accessor);
let encodeable = self.kind.encodeable_value(value);
let encodeable_ty = self.kind.encodeable_ty();
(encodeable_ty, encodeable)
}
}
impl<'a> UnsizedFieldKind<'a> {
/// Construct a UnsizedFieldKind for the type of a UnsizedFieldKind if possible
fn new(
ty: &'a Type,
custom_varule_ident: Option<Ident>,
) -> Result<UnsizedFieldKind<'a>, String> {
static PATH_TYPE_IDENTITY_ERROR: &str =
"Can only automatically detect corresponding VarULE types for path types \
that are Cow, ZeroVec, VarZeroVec, Box, String, or Vec";
static PATH_TYPE_GENERICS_ERROR: &str =
"Can only automatically detect corresponding VarULE types for path \
types with at most one lifetime and at most one generic parameter. VarZeroVecFormat
types are not currently supported";
match *ty {
Type::Reference(ref tyref) => OwnULETy::new(&tyref.elem, "reference").map(UnsizedFieldKind::Ref),
Type::Path(ref typath) => {
if let Some(custom_varule_ident) = custom_varule_ident {
return Ok(UnsizedFieldKind::Custom(typath, custom_varule_ident));
}
if typath.path.segments.len() != 1 {
return Err("Can only automatically detect corresponding VarULE types for \
path types with a single path segment".into());
}
let segment = typath.path.segments.first().unwrap();
match segment.arguments {
PathArguments::None => {
if segment.ident == "String" {
Ok(UnsizedFieldKind::Growable(OwnULETy::Str))
} else {
Err(PATH_TYPE_IDENTITY_ERROR.into())
}
}
PathArguments::AngleBracketed(ref params) => {
// At most one lifetime and exactly one generic parameter
let mut lifetime = None;
let mut generic = None;
for param in ¶ms.args {
match param {
GenericArgument::Lifetime(ref lt) if lifetime.is_none() => {
lifetime = Some(lt)
}
GenericArgument::Type(ref ty) if generic.is_none() => {
generic = Some(ty)
}
_ => return Err(PATH_TYPE_GENERICS_ERROR.into()),
}
}
// Must be exactly one generic parameter
// (we've handled the zero generics case already)
let generic = if let Some(g) = generic {
g
} else {
return Err(PATH_TYPE_GENERICS_ERROR.into());
};
let ident = segment.ident.to_string();
if lifetime.is_some() {
match &*ident {
"ZeroVec" => Ok(UnsizedFieldKind::ZeroVec(generic)),
"VarZeroVec" => Ok(UnsizedFieldKind::VarZeroVec(generic)),
"Cow" => OwnULETy::new(generic, "Cow").map(UnsizedFieldKind::Cow),
_ => Err(PATH_TYPE_IDENTITY_ERROR.into()),
}
} else {
match &*ident {
"Vec" => Ok(UnsizedFieldKind::Growable(OwnULETy::Slice(generic))),
"Box" => OwnULETy::new(generic, "Box").map(UnsizedFieldKind::Boxed),
_ => Err(PATH_TYPE_IDENTITY_ERROR.into()),
}
}
}
_ => Err("Can only automatically detect corresponding VarULE types for path types \
with none or angle bracketed generics".into()),
}
}
_ => Err("Can only automatically detect corresponding VarULE types for path and reference types".into()),
}
}
/// Get the tokens for the corresponding VarULE type
fn varule_ty(&self) -> TokenStream2 {
match *self {
Self::Ref(ref inner)
| Self::Cow(ref inner)
| Self::Boxed(ref inner)
| Self::Growable(ref inner) => {
let inner_ule = inner.varule_ty();
quote!(#inner_ule)
}
Self::Custom(_, ref name) => quote!(#name),
Self::ZeroVec(ref inner) => quote!(zerovec::ZeroSlice<#inner>),
Self::VarZeroVec(ref inner) => quote!(zerovec::VarZeroSlice<#inner>),
}
}
// Takes expr `value` and returns it as a value that can be encoded via EncodeAsVarULE
fn encodeable_value(&self, value: TokenStream2) -> TokenStream2 {
match *self {
Self::Ref(_) | Self::Cow(_) | Self::Growable(_) | Self::Boxed(_) => quote!(&*#value),
Self::Custom(..) => quote!(&#value),
Self::ZeroVec(_) | Self::VarZeroVec(_) => quote!(&*#value),
}
}
/// Returns the EncodeAsVarULE type this can be represented as, the same returned by encodeable_value()
fn encodeable_ty(&self) -> TokenStream2 {
match *self {
Self::Ref(ref inner)
| Self::Cow(ref inner)
| Self::Growable(ref inner)
| Self::Boxed(ref inner) => inner.varule_ty(),
Self::Custom(ref path, _) => quote!(#path),
Self::ZeroVec(ref ty) => quote!(zerovec::ZeroSlice<#ty>),
Self::VarZeroVec(ref ty) => quote!(zerovec::VarZeroSlice<#ty>),
}
}
fn has_zf(&self) -> bool {
matches!(
*self,
Self::Ref(_) | Self::Cow(_) | Self::ZeroVec(_) | Self::VarZeroVec(_) | Self::Custom(..)
)
}
}
impl<'a> OwnULETy<'a> {
fn new(ty: &'a Type, context: &str) -> Result<Self, String> {
match *ty {
Type::Slice(ref slice) => Ok(OwnULETy::Slice(&slice.elem)),
Type::Path(ref typath) => {
if typath.path.is_ident("str") {
Ok(OwnULETy::Str)
} else {
Err(format!("Cannot automatically detect corresponding VarULE type for non-str path type inside a {context}"))
}
}
_ => Err(format!("Cannot automatically detect corresponding VarULE type for non-slice/path type inside a {context}")),
}
}
/// Get the tokens for the corresponding VarULE type
fn varule_ty(&self) -> TokenStream2 {
match *self {
OwnULETy::Slice(s) => quote!([#s]),
OwnULETy::Str => quote!(str),
}
}
}
|