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|
use proc_macro2::TokenStream;
use quote::quote;
use syn::{spanned::Spanned as _, Error, Result};
use crate::utils::{
self, AttrParams, DeriveType, FullMetaInfo, HashSet, MetaInfo, MultiFieldData,
State,
};
pub fn expand(
input: &syn::DeriveInput,
trait_name: &'static str,
) -> Result<TokenStream> {
let syn::DeriveInput {
ident, generics, ..
} = input;
let state = State::with_attr_params(
input,
trait_name,
quote!(::std::error),
trait_name.to_lowercase(),
allowed_attr_params(),
)?;
let type_params: HashSet<_> = generics
.params
.iter()
.filter_map(|generic| match generic {
syn::GenericParam::Type(ty) => Some(ty.ident.clone()),
_ => None,
})
.collect();
let (bounds, source, backtrace) = match state.derive_type {
DeriveType::Named | DeriveType::Unnamed => render_struct(&type_params, &state)?,
DeriveType::Enum => render_enum(&type_params, &state)?,
};
let source = source.map(|source| {
quote! {
fn source(&self) -> Option<&(dyn ::std::error::Error + 'static)> {
#source
}
}
});
let backtrace = backtrace.map(|backtrace| {
quote! {
fn backtrace(&self) -> Option<&::std::backtrace::Backtrace> {
#backtrace
}
}
});
let mut generics = generics.clone();
if !type_params.is_empty() {
let generic_parameters = generics.params.iter();
generics = utils::add_extra_where_clauses(
&generics,
quote! {
where
#ident<#(#generic_parameters),*>: ::std::fmt::Debug + ::std::fmt::Display
},
);
}
if !bounds.is_empty() {
let bounds = bounds.iter();
generics = utils::add_extra_where_clauses(
&generics,
quote! {
where
#(#bounds: ::std::fmt::Debug + ::std::fmt::Display + ::std::error::Error + 'static),*
},
);
}
let (impl_generics, ty_generics, where_clause) = generics.split_for_impl();
let render = quote! {
impl#impl_generics ::std::error::Error for #ident#ty_generics #where_clause {
#source
#backtrace
}
};
Ok(render)
}
fn render_struct(
type_params: &HashSet<syn::Ident>,
state: &State,
) -> Result<(HashSet<syn::Type>, Option<TokenStream>, Option<TokenStream>)> {
let parsed_fields = parse_fields(type_params, state)?;
let source = parsed_fields.render_source_as_struct();
let backtrace = parsed_fields.render_backtrace_as_struct();
Ok((parsed_fields.bounds, source, backtrace))
}
fn render_enum(
type_params: &HashSet<syn::Ident>,
state: &State,
) -> Result<(HashSet<syn::Type>, Option<TokenStream>, Option<TokenStream>)> {
let mut bounds = HashSet::default();
let mut source_match_arms = Vec::new();
let mut backtrace_match_arms = Vec::new();
for variant in state.enabled_variant_data().variants {
let default_info = FullMetaInfo {
enabled: true,
..FullMetaInfo::default()
};
let state = State::from_variant(
state.input,
state.trait_name,
state.trait_module.clone(),
state.trait_attr.clone(),
allowed_attr_params(),
variant,
default_info,
)?;
let parsed_fields = parse_fields(type_params, &state)?;
if let Some(expr) = parsed_fields.render_source_as_enum_variant_match_arm() {
source_match_arms.push(expr);
}
if let Some(expr) = parsed_fields.render_backtrace_as_enum_variant_match_arm() {
backtrace_match_arms.push(expr);
}
bounds.extend(parsed_fields.bounds.into_iter());
}
let render = |match_arms: &mut Vec<TokenStream>| {
if !match_arms.is_empty() && match_arms.len() < state.variants.len() {
match_arms.push(quote!(_ => None));
}
if !match_arms.is_empty() {
let expr = quote! {
match self {
#(#match_arms),*
}
};
Some(expr)
} else {
None
}
};
let source = render(&mut source_match_arms);
let backtrace = render(&mut backtrace_match_arms);
Ok((bounds, source, backtrace))
}
fn allowed_attr_params() -> AttrParams {
AttrParams {
enum_: vec!["ignore"],
struct_: vec!["ignore"],
variant: vec!["ignore"],
field: vec!["ignore", "source", "backtrace"],
}
}
struct ParsedFields<'input, 'state> {
data: MultiFieldData<'input, 'state>,
source: Option<usize>,
backtrace: Option<usize>,
bounds: HashSet<syn::Type>,
}
impl<'input, 'state> ParsedFields<'input, 'state> {
fn new(data: MultiFieldData<'input, 'state>) -> Self {
Self {
data,
source: None,
backtrace: None,
bounds: HashSet::default(),
}
}
}
impl<'input, 'state> ParsedFields<'input, 'state> {
fn render_source_as_struct(&self) -> Option<TokenStream> {
let source = self.source?;
let ident = &self.data.members[source];
Some(render_some(quote!(&#ident)))
}
fn render_source_as_enum_variant_match_arm(&self) -> Option<TokenStream> {
let source = self.source?;
let pattern = self.data.matcher(&[source], &[quote!(source)]);
let expr = render_some(quote!(source));
Some(quote!(#pattern => #expr))
}
fn render_backtrace_as_struct(&self) -> Option<TokenStream> {
let backtrace = self.backtrace?;
let backtrace_expr = &self.data.members[backtrace];
Some(quote!(Some(&#backtrace_expr)))
}
fn render_backtrace_as_enum_variant_match_arm(&self) -> Option<TokenStream> {
let backtrace = self.backtrace?;
let pattern = self.data.matcher(&[backtrace], &[quote!(backtrace)]);
Some(quote!(#pattern => Some(backtrace)))
}
}
fn render_some<T>(expr: T) -> TokenStream
where
T: quote::ToTokens,
{
quote!(Some(#expr as &(dyn ::std::error::Error + 'static)))
}
fn parse_fields<'input, 'state>(
type_params: &HashSet<syn::Ident>,
state: &'state State<'input>,
) -> Result<ParsedFields<'input, 'state>> {
let mut parsed_fields = match state.derive_type {
DeriveType::Named => {
parse_fields_impl(state, |attr, field, _| {
// Unwrapping is safe, cause fields in named struct
// always have an ident
let ident = field.ident.as_ref().unwrap();
match attr {
"source" => ident == "source",
"backtrace" => {
ident == "backtrace"
|| is_type_path_ends_with_segment(&field.ty, "Backtrace")
}
_ => unreachable!(),
}
})
}
DeriveType::Unnamed => {
let mut parsed_fields =
parse_fields_impl(state, |attr, field, len| match attr {
"source" => {
len == 1
&& !is_type_path_ends_with_segment(&field.ty, "Backtrace")
}
"backtrace" => {
is_type_path_ends_with_segment(&field.ty, "Backtrace")
}
_ => unreachable!(),
})?;
parsed_fields.source = parsed_fields
.source
.or_else(|| infer_source_field(&state.fields, &parsed_fields));
Ok(parsed_fields)
}
_ => unreachable!(),
}?;
if let Some(source) = parsed_fields.source {
add_bound_if_type_parameter_used_in_type(
&mut parsed_fields.bounds,
type_params,
&state.fields[source].ty,
);
}
Ok(parsed_fields)
}
/// Checks if `ty` is [`syn::Type::Path`] and ends with segment matching `tail`
/// and doesn't contain any generic parameters.
fn is_type_path_ends_with_segment(ty: &syn::Type, tail: &str) -> bool {
let ty = match ty {
syn::Type::Path(ty) => ty,
_ => return false,
};
// Unwrapping is safe, cause 'syn::TypePath.path.segments'
// have to have at least one segment
let segment = ty.path.segments.last().unwrap();
match segment.arguments {
syn::PathArguments::None => (),
_ => return false,
};
segment.ident == tail
}
fn infer_source_field(
fields: &[&syn::Field],
parsed_fields: &ParsedFields,
) -> Option<usize> {
// if we have exactly two fields
if fields.len() != 2 {
return None;
}
// no source field was specified/inferred
if parsed_fields.source.is_some() {
return None;
}
// but one of the fields was specified/inferred as backtrace field
if let Some(backtrace) = parsed_fields.backtrace {
// then infer *other field* as source field
let source = (backtrace + 1) % 2;
// unless it was explicitly marked as non-source
if parsed_fields.data.infos[source].info.source != Some(false) {
return Some(source);
}
}
None
}
fn parse_fields_impl<'input, 'state, P>(
state: &'state State<'input>,
is_valid_default_field_for_attr: P,
) -> Result<ParsedFields<'input, 'state>>
where
P: Fn(&str, &syn::Field, usize) -> bool,
{
let MultiFieldData { fields, infos, .. } = state.enabled_fields_data();
let iter = fields
.iter()
.zip(infos.iter().map(|info| &info.info))
.enumerate()
.map(|(index, (field, info))| (index, *field, info));
let source = parse_field_impl(
&is_valid_default_field_for_attr,
state.fields.len(),
iter.clone(),
"source",
|info| info.source,
)?;
let backtrace = parse_field_impl(
&is_valid_default_field_for_attr,
state.fields.len(),
iter.clone(),
"backtrace",
|info| info.backtrace,
)?;
let mut parsed_fields = ParsedFields::new(state.enabled_fields_data());
if let Some((index, _, _)) = source {
parsed_fields.source = Some(index);
}
if let Some((index, _, _)) = backtrace {
parsed_fields.backtrace = Some(index);
}
Ok(parsed_fields)
}
fn parse_field_impl<'a, P, V>(
is_valid_default_field_for_attr: &P,
len: usize,
iter: impl Iterator<Item = (usize, &'a syn::Field, &'a MetaInfo)> + Clone,
attr: &str,
value: V,
) -> Result<Option<(usize, &'a syn::Field, &'a MetaInfo)>>
where
P: Fn(&str, &syn::Field, usize) -> bool,
V: Fn(&MetaInfo) -> Option<bool>,
{
let explicit_fields = iter.clone().filter(|(_, _, info)| match value(info) {
Some(true) => true,
_ => false,
});
let inferred_fields = iter.filter(|(_, field, info)| match value(info) {
None => is_valid_default_field_for_attr(attr, field, len),
_ => false,
});
let field = assert_iter_contains_zero_or_one_item(
explicit_fields,
&format!(
"Multiple `{}` attributes specified. \
Single attribute per struct/enum variant allowed.",
attr
),
)?;
let field = match field {
field @ Some(_) => field,
None => assert_iter_contains_zero_or_one_item(
inferred_fields,
"Conflicting fields found. Consider specifying some \
`#[error(...)]` attributes to resolve conflict.",
)?,
};
Ok(field)
}
fn assert_iter_contains_zero_or_one_item<'a>(
mut iter: impl Iterator<Item = (usize, &'a syn::Field, &'a MetaInfo)>,
error_msg: &str,
) -> Result<Option<(usize, &'a syn::Field, &'a MetaInfo)>> {
let item = match iter.next() {
Some(item) => item,
None => return Ok(None),
};
if let Some((_, field, _)) = iter.next() {
return Err(Error::new(field.span(), error_msg));
}
Ok(Some(item))
}
fn add_bound_if_type_parameter_used_in_type(
bounds: &mut HashSet<syn::Type>,
type_params: &HashSet<syn::Ident>,
ty: &syn::Type,
) {
if let Some(ty) = utils::get_if_type_parameter_used_in_type(type_params, ty) {
bounds.insert(ty);
}
}
|
