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|
#![doc = include_str!("../README.md")]
use std::collections::HashMap;
use proc_macro::TokenStream;
use proc_macro2::Group;
use quote::format_ident;
use quote::quote;
use quote::quote_spanned;
use quote::ToTokens;
use syn::parenthesized;
use syn::parse::Parse;
use syn::parse_macro_input;
use syn::spanned::Spanned;
use syn::token::Brace;
use syn::token::Gt;
use syn::token::Lt;
use syn::token::Trait;
use syn::AngleBracketedGenericArguments;
use syn::Block;
use syn::Error;
use syn::Expr;
use syn::GenericArgument;
use syn::GenericParam;
use syn::Ident;
use syn::ImplItemMethod;
use syn::ItemTrait;
use syn::LitInt;
use syn::Path;
use syn::PathArguments;
use syn::PathSegment;
use syn::Signature;
use syn::Stmt;
use syn::Token;
use syn::TraitBound;
use syn::TraitItem;
use syn::TraitItemMethod;
use syn::Type;
use syn::TypeParam;
use syn::TypeParamBound;
use syn::TypePath;
use syn::Visibility;
use syn_utils::TypeOrPath;
use crate::parse_assoc_type::parse_assoc_type;
use crate::parse_assoc_type::AssocTypeError;
use crate::parse_trait_sig::parse_trait_signature;
use crate::parse_trait_sig::MethodError;
use crate::parse_trait_sig::SignatureChanges;
use crate::parse_trait_sig::TypeTransform;
use crate::syn_utils::iter_path;
use crate::syn_utils::trait_bounds;
use crate::transform::TransformError;
use crate::transform::TypeConverter;
mod parse_assoc_type;
mod parse_trait_sig;
mod syn_utils;
mod transform;
macro_rules! abort {
($span:expr, $message:literal $(,$args:expr)*) => {{
let msg = format!($message $(,$args)*);
let tokens = quote_spanned! {$span => compile_error!(#msg);}.into();
tokens
}};
}
struct Collection {
id: Ident,
count: usize,
}
impl Parse for Collection {
fn parse(input: syn::parse::ParseStream) -> syn::Result<Self> {
let inner;
parenthesized!(inner in input);
let id: Ident = inner.parse()?;
let _: Token![,] = inner.parse()?;
let count_lit: LitInt = inner.parse()?;
let count: usize = count_lit.base10_parse()?;
if count < 1 {
return Err(Error::new(
count_lit.span(),
"number of type parameters must be >= 1",
));
}
Ok(Self { id, count })
}
}
#[proc_macro_attribute]
pub fn dynamize(_attr: TokenStream, input: TokenStream) -> TokenStream {
let mut original_trait = parse_macro_input!(input as ItemTrait);
assert!(original_trait.auto_token.is_none());
let original_trait_name = original_trait.ident.clone();
let mut objectifiable_methods: Vec<(Signature, SignatureChanges)> = Vec::new();
let mut type_converter = TypeConverter::default();
let mut blanket_impl_attrs = Vec::new();
let mut dyn_trait_attrs = Vec::new();
// FUTURE: use Vec::drain_filter once it's stable
let mut i = 0;
while i < original_trait.attrs.len() {
if original_trait.attrs[i].path.is_ident("blanket_impl_attr") {
let attr = original_trait.attrs.remove(i);
let group: Group = match syn::parse2(attr.tokens) {
Ok(g) => g,
Err(err) => {
return abort!(
err.span(),
"expected parenthesis: #[blanket_impl_attr(...)]"
)
}
};
let tokens = group.stream();
blanket_impl_attrs.push(quote! {#[#tokens]});
} else if original_trait.attrs[i].path.is_ident("dyn_trait_attr") {
let attr = original_trait.attrs.remove(i);
let group: Group = match syn::parse2(attr.tokens) {
Ok(g) => g,
Err(err) => {
return abort!(err.span(), "expected parenthesis: #[dyn_trait_attr(...)]")
}
};
let tokens = group.stream();
dyn_trait_attrs.push(quote! {#[#tokens]});
} else if original_trait.attrs[i].path.is_ident("collection") {
let attr = original_trait.attrs.remove(i);
let tokens = attr.tokens.into();
let coll = parse_macro_input!(tokens as Collection);
if type_converter
.collections
.insert(coll.id.clone(), coll.count)
.is_some()
{
return abort!(
coll.id.span(),
"collection `{}` is defined multiple times for this trait",
coll.id
);
}
} else {
i += 1;
}
}
for item in &original_trait.items {
if let TraitItem::Type(assoc_type) = item {
match parse_assoc_type(assoc_type) {
Ok((ident, type_)) => {
type_converter
.assoc_type_conversions
.insert(ident.clone(), type_);
}
Err((_, AssocTypeError::NoTraitBound)) => continue,
Err((span, AssocTypeError::TraitBoundContainsAssocType)) => {
return abort!(span, "dynamize does not support associated types here")
}
Err((span, AssocTypeError::GenericAssociatedType)) => {
return abort!(
span,
"dynamize does not (yet?) support generic associated types"
)
}
}
}
}
for item in &original_trait.items {
if let TraitItem::Method(method) = item {
let mut signature = method.sig.clone();
match parse_trait_signature(&mut signature, &type_converter) {
Ok(parsed_method) => objectifiable_methods.push((signature, parsed_method)),
Err((span, err)) => match err {
MethodError::NonDispatchableMethod => continue,
MethodError::AssocTypeInInputs => {
return abort!(
span,
"dynamize does not support associated types in parameter types (except in Fn arguments)"
)
}
MethodError::ImplTraitInInputs => {
return abort!(
span,
"dynamize does not support impl here, change it to a method generic"
)
}
MethodError::Transform(TransformError::AssocTypeWithoutDestType) => {
return abort!(
span,
"associated type is either undefined or doesn't have a trait bound"
)
}
MethodError::Transform(TransformError::UnsupportedType) => {
return abort!(span, "dynamize does not know how to convert this type")
}
MethodError::Transform(TransformError::ExpectedAtLeastNTypes(n)) => {
return abort!(
span,
"dynamize expects at least {} generic type arguments for this type",
n
)
}
MethodError::Transform(TransformError::AssocTypeAfterFirstNTypes(n, ident)) => {
return abort!(
span,
"for {} dynamize supports associated types only within the first {} generic type parameters",
ident,
n
)
}
MethodError::UnconvertedAssocType => {
return abort!(span, "dynamize does not support associated types here")
}
},
};
}
}
let mut method_impls: Vec<ImplItemMethod> = Vec::new();
let mut dyn_trait = ItemTrait {
ident: format_ident!("Dyn{}", original_trait.ident),
attrs: Vec::new(),
vis: original_trait.vis.clone(),
unsafety: original_trait.unsafety,
auto_token: None,
trait_token: Trait::default(),
generics: original_trait.generics.clone(),
colon_token: None,
supertraits: original_trait
.supertraits
.iter()
.filter(|t| match t {
TypeParamBound::Trait(t) => !t.path.is_ident("Sized"),
TypeParamBound::Lifetime(_) => true,
})
.cloned()
.collect(),
brace_token: Brace::default(),
items: Vec::new(),
};
let mut generic_map = HashMap::new();
for type_param in dyn_trait.generics.type_params() {
generic_map.insert(type_param.ident.clone(), type_param.bounds.clone());
for trait_bound in trait_bounds(&type_param.bounds) {
if let Some(assoc_type) = iter_path(&trait_bound.path).find_map(filter_map_assoc_paths)
{
return abort!(
assoc_type.span(),
"dynamize does not support associated types in trait generic bounds"
);
}
}
}
for (signature, parsed_method) in objectifiable_methods {
let mut new_method = TraitItemMethod {
attrs: Vec::new(),
sig: signature,
default: None,
semi_token: None,
};
let fun_name = &new_method.sig.ident;
let args = new_method.sig.inputs.iter().map(|arg| match arg {
syn::FnArg::Receiver(_) => quote! {self},
syn::FnArg::Typed(pat_type) => match pat_type.pat.as_ref() {
syn::Pat::Ident(ident) => {
// FUTURE: use try block
if let Type::Path(path) = &*pat_type.ty {
if let Some(type_ident) = path.path.get_ident() {
if let Some(transforms) =
parsed_method.type_param_transforms.get(type_ident)
{
let args = (0..transforms.len()).map(|i| format_ident!("a{}", i));
let calls: Vec<_> = args
.clone()
.enumerate()
.map(|(idx, i)| transforms[idx].convert(i.into_token_stream()))
.collect();
let move_opt = new_method.sig.asyncness.map(|_| quote! {move});
quote!(#move_opt |#(#args),*| #ident(#(#calls),*))
} else {
ident.ident.to_token_stream()
}
} else {
ident.ident.to_token_stream()
}
} else {
ident.ident.to_token_stream()
}
}
_other => {
panic!("unexpected");
}
},
});
// in order for a trait to be object-safe its methods may not have
// generics so we convert method generics into trait generics
if new_method
.sig
.generics
.params
.iter()
.any(|p| matches!(p, GenericParam::Type(_)))
{
// syn::punctuated::Punctuated doesn't have a remove(index)
// method so we firstly move all elements to a vector
let mut params = Vec::new();
while let Some(generic_param) = new_method.sig.generics.params.pop() {
params.push(generic_param.into_value());
}
// FUTURE: use Vec::drain_filter once it's stable
let mut i = 0;
while i < params.len() {
if let GenericParam::Type(type_param) = ¶ms[i] {
if let Some(bounds) = generic_map.get(&type_param.ident) {
if *bounds == type_param.bounds {
params.remove(i);
continue;
} else {
return abort!(type_param.span(), "dynamize failure: there exists a same-named method generic with different bounds");
}
} else {
generic_map.insert(type_param.ident.clone(), type_param.bounds.clone());
dyn_trait.generics.params.push(params.remove(i));
}
} else {
i += 1;
}
}
new_method.sig.generics.params.extend(params);
if dyn_trait.generics.lt_token.is_none() {
dyn_trait.generics.lt_token = Some(Lt::default());
dyn_trait.generics.gt_token = Some(Gt::default());
}
}
let mut expr = quote!(#original_trait_name::#fun_name(#(#args),*));
if new_method.sig.asyncness.is_some() {
expr.extend(quote! {.await})
}
let expr = parsed_method.return_type.convert(expr);
method_impls.push(ImplItemMethod {
attrs: Vec::new(),
vis: Visibility::Inherited,
defaultness: None,
sig: new_method.sig.clone(),
block: Block {
brace_token: Brace::default(),
stmts: vec![Stmt::Expr(Expr::Verbatim(expr))],
},
});
dyn_trait.items.push(new_method.into());
}
let blanket_impl = generate_blanket_impl(&dyn_trait, &original_trait, &method_impls);
let dyn_trait_name = &dyn_trait.ident;
let (impl_generics, ty_generics, where_clause) = dyn_trait.generics.split_for_impl();
let expanded = quote! {
#original_trait
#(#dyn_trait_attrs)*
#dyn_trait
// assert that dyn_trait can actually be made into an object
impl #impl_generics dyn #dyn_trait_name #ty_generics #where_clause {}
#(#blanket_impl_attrs)*
#blanket_impl
};
TokenStream::from(expanded)
}
fn generate_blanket_impl(
dyn_trait: &ItemTrait,
original_trait: &ItemTrait,
method_impls: &[ImplItemMethod],
) -> proc_macro2::TokenStream {
let mut blanket_generics = dyn_trait.generics.clone();
let some_ident = format_ident!("__to_be_dynamized");
blanket_generics.params.push(GenericParam::Type(TypeParam {
attrs: Vec::new(),
ident: some_ident.clone(),
colon_token: None,
bounds: std::iter::once(TypeParamBound::Trait(TraitBound {
paren_token: None,
modifier: syn::TraitBoundModifier::None,
lifetimes: None,
path: Path {
leading_colon: None,
segments: std::iter::once(path_segment_for_trait(original_trait)).collect(),
},
}))
.collect(),
eq_token: None,
default: None,
}));
let (_, type_gen, where_clause) = dyn_trait.generics.split_for_impl();
let dyn_trait_name = &dyn_trait.ident;
quote! {
impl #blanket_generics #dyn_trait_name #type_gen for #some_ident #where_clause {
#(#method_impls)*
}
}
}
fn path_is_assoc_type(path: &Path) -> bool {
path.segments[0].ident == "Self"
}
fn match_assoc_type(item: TypeOrPath) -> bool {
if let TypeOrPath::Path(path) = item {
return path_is_assoc_type(path);
}
false
}
fn filter_map_assoc_paths(item: TypeOrPath) -> Option<&Path> {
match item {
TypeOrPath::Path(p) if path_is_assoc_type(p) => Some(p),
_other => None,
}
}
impl TypeTransform {
fn convert(&self, arg: proc_macro2::TokenStream) -> proc_macro2::TokenStream {
match self {
TypeTransform::Into => quote! {#arg.into()},
TypeTransform::Box(box_type) => {
quote! {Box::new(#arg) as #box_type}
}
TypeTransform::Map(opt) => {
let inner = opt.convert(quote!(x));
quote! {#arg.map(|x| #inner)}
}
TypeTransform::Iterator(box_type, inner) => {
let inner = inner.convert(quote!(x));
quote! {Box::new(#arg.map(|x| #inner)) as #box_type}
}
TypeTransform::Result(ok, err) => {
let map_ok = !matches!(ok.as_ref(), TypeTransform::NoOp);
let map_err = !matches!(err.as_ref(), TypeTransform::NoOp);
if map_ok && map_err {
let ok_inner = ok.convert(quote!(x));
let err_inner = err.convert(quote!(x));
quote! {#arg.map(|x| #ok_inner).map_err(|x| #err_inner)}
} else if map_ok {
let ok_inner = ok.convert(quote!(x));
quote! {#arg.map(|x| #ok_inner)}
} else {
let err_inner = err.convert(quote!(x));
quote! {#arg.map_err(|x| #err_inner)}
}
}
TypeTransform::Tuple(types) => {
let idents = (0..types.len()).map(|i| format_ident!("v{}", i));
// FUTURE: let transforms = std::iter::zip(idents, types).map(|(i, t)| t.convert(quote! {#i}));
let transforms = types.iter().enumerate().map(|(idx, t)| {
let id = format_ident!("v{}", idx);
t.convert(quote! {#id})
});
quote! { {let (#(#idents),*) = #arg; (#(#transforms),*)} }
}
TypeTransform::IntoIterMapCollect(types) => {
let idents = (0..types.len()).map(|i| format_ident!("v{}", i));
// FUTURE: let transforms = std::iter::zip(idents, types).map(|(i, t)| t.convert(quote! {#i}));
let transforms = types.iter().enumerate().map(|(idx, t)| {
let id = format_ident!("v{}", idx);
t.convert(quote! {#id})
});
quote! {#arg.into_iter().map(|(#(#idents),*)| (#(#transforms),*)).collect()}
}
TypeTransform::NoOp => arg,
}
}
}
fn path_segment_for_trait(sometrait: &ItemTrait) -> PathSegment {
PathSegment {
ident: sometrait.ident.clone(),
arguments: match sometrait.generics.params.is_empty() {
true => PathArguments::None,
false => PathArguments::AngleBracketed(AngleBracketedGenericArguments {
colon2_token: None,
lt_token: Lt::default(),
args: sometrait
.generics
.params
.iter()
.map(|param| match param {
GenericParam::Type(type_param) => {
GenericArgument::Type(Type::Path(TypePath {
path: type_param.ident.clone().into(),
qself: None,
}))
}
GenericParam::Lifetime(lifetime_def) => {
GenericArgument::Lifetime(lifetime_def.lifetime.clone())
}
GenericParam::Const(_) => todo!("const generic param not supported"),
})
.collect(),
gt_token: Gt::default(),
}),
},
}
}
#[doc = include_str!("../tests/doctests.md")]
#[cfg(doctest)]
struct Doctests;
#[test]
fn ui() {
use std::process::Command;
for entry in std::fs::read_dir("ui-tests/src/bin").unwrap().flatten() {
if entry.path().extension().unwrap() == "rs" {
let output = Command::new("cargo")
.arg("check")
.arg("--quiet")
.arg("--bin")
.arg(entry.path().file_stem().unwrap())
.current_dir("ui-tests")
.output()
.unwrap();
let received_stderr = std::str::from_utf8(&output.stderr)
.unwrap()
.lines()
.filter(|l| !l.starts_with("error: could not compile"))
.collect::<Vec<_>>()
.join("\n");
let expected_stderr =
std::fs::read_to_string(entry.path().with_extension("stderr")).unwrap_or_default();
if received_stderr != expected_stderr {
println!(
"EXPECTED:\n{banner}\n{expected}{banner}\n\nACTUAL OUTPUT:\n{banner}\n{actual}{banner}",
banner = "-".repeat(30),
expected = expected_stderr,
actual = received_stderr
);
panic!("failed");
}
}
}
}
|