// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. use attrs::Attributes; use optimizer::BailoutReason; use optimizer::Optimizer; use proc_macro::TokenStream; use proc_macro2::Span; use proc_macro2::TokenStream as TokenStream2; use quote::quote; use quote::ToTokens; use syn::parse; use syn::parse_macro_input; use syn::punctuated::Punctuated; use syn::token::Comma; use syn::FnArg; use syn::GenericParam; use syn::Ident; use syn::ItemFn; use syn::Lifetime; use syn::LifetimeDef; mod attrs; mod deno; mod fast_call; mod optimizer; const SCOPE_LIFETIME: &str = "'scope"; /// Add the 'scope lifetime to the function signature. fn add_scope_lifetime(func: &mut ItemFn) { let span = Span::call_site(); let lifetime = LifetimeDef::new(Lifetime::new(SCOPE_LIFETIME, span)); let generics = &mut func.sig.generics; if !generics.lifetimes().any(|def| *def == lifetime) { generics.params.push(GenericParam::Lifetime(lifetime)); } } struct Op { orig: ItemFn, item: ItemFn, /// Is this an async op? /// - `async fn` /// - returns a Future is_async: bool, type_params: Punctuated, // optimizer: Optimizer, core: TokenStream2, attrs: Attributes, } impl Op { fn new(mut item: ItemFn, attrs: Attributes) -> Self { // Preserve the original function. Change the name to `call`. // // impl op_foo { // fn call() {} // ... // } let mut orig = item.clone(); orig.sig.ident = Ident::new("call", Span::call_site()); add_scope_lifetime(&mut item); let is_async = item.sig.asyncness.is_some() || is_future(&item.sig.output); let type_params = exclude_lifetime_params(&item.sig.generics.params); #[cfg(test)] let core = quote!(deno_core); #[cfg(not(test))] let core = deno::import(); Self { orig, item, type_params, is_async, core, attrs, } } fn gen(mut self) -> TokenStream2 { let mut optimizer = Optimizer::new(); match optimizer.analyze(&mut self) { Err(BailoutReason::MustBeSingleSegment) | Err(BailoutReason::FastUnsupportedParamType) => { optimizer.fast_compatible = false; } _ => {} }; let Self { core, item, is_async, orig, attrs, type_params, } = self; let name = &item.sig.ident; let generics = &item.sig.generics; let where_clause = &item.sig.generics.where_clause; // First generate fast call bindings to opt-in to error handling in slow call let fast_call::FastImplItems { impl_and_fn, decl, active, } = fast_call::generate(&core, &mut optimizer, &item); let docline = format!("Use `{name}::decl()` to get an op-declaration"); let is_v8 = attrs.is_v8; let is_unstable = attrs.is_unstable; if let Some(v8_fn) = attrs.relation { return quote! { #[allow(non_camel_case_types)] #[doc="Auto-generated by `deno_ops`, i.e: `#[op]`"] #[doc=""] #[doc=#docline] #[doc="you can include in a `deno_core::Extension`."] pub struct #name; #[doc(hidden)] impl #name { pub fn name() -> &'static str { stringify!(#name) } pub fn v8_fn_ptr #generics () -> #core::v8::FunctionCallback #where_clause { use #core::v8::MapFnTo; #v8_fn::v8_func::<#type_params>.map_fn_to() } pub fn decl #generics () -> #core::OpDecl #where_clause { #core::OpDecl { name: Self::name(), v8_fn_ptr: Self::v8_fn_ptr::<#type_params>(), enabled: true, fast_fn: #decl, is_async: #is_async, is_unstable: #is_unstable, is_v8: #is_v8, force_registration: false, } } #[inline] #[allow(clippy::too_many_arguments)] #orig } #impl_and_fn }; } let has_fallible_fast_call = active && optimizer.returns_result; let v8_body = if is_async { let deferred = attrs.deferred; codegen_v8_async( &core, &item, attrs, item.sig.asyncness.is_some(), deferred, ) } else { codegen_v8_sync(&core, &item, attrs, has_fallible_fast_call) }; // Generate wrapper quote! { #[allow(non_camel_case_types)] #[doc="Auto-generated by `deno_ops`, i.e: `#[op]`"] #[doc=""] #[doc=#docline] #[doc="you can include in a `deno_core::Extension`."] pub struct #name; #[doc(hidden)] impl #name { pub const fn name() -> &'static str { stringify!(#name) } #[allow(clippy::not_unsafe_ptr_arg_deref)] pub extern "C" fn v8_fn_ptr #generics (info: *const #core::v8::FunctionCallbackInfo) #where_clause { let info = unsafe { &*info }; let scope = &mut unsafe { #core::v8::CallbackScope::new(info) }; let args = #core::v8::FunctionCallbackArguments::from_function_callback_info(info); let rv = #core::v8::ReturnValue::from_function_callback_info(info); Self::v8_func::<#type_params>(scope, args, rv); } pub const fn decl #generics () -> #core::OpDecl #where_clause { #core::OpDecl { name: Self::name(), v8_fn_ptr: Self::v8_fn_ptr::<#type_params> as _, enabled: true, fast_fn: #decl, is_async: #is_async, is_unstable: #is_unstable, is_v8: #is_v8, force_registration: false, } } #[inline] #[allow(clippy::too_many_arguments)] #orig pub fn v8_func #generics ( scope: &mut #core::v8::HandleScope<'scope>, args: #core::v8::FunctionCallbackArguments, mut rv: #core::v8::ReturnValue, ) #where_clause { #v8_body } } #impl_and_fn } } } #[proc_macro_attribute] pub fn op(attr: TokenStream, item: TokenStream) -> TokenStream { let margs = parse_macro_input!(attr as Attributes); let func = parse::(item).expect("expected a function"); let op = Op::new(func, margs); op.gen().into() } /// Generate the body of a v8 func for an async op fn codegen_v8_async( core: &TokenStream2, f: &syn::ItemFn, margs: Attributes, asyncness: bool, deferred: bool, ) -> TokenStream2 { let Attributes { is_v8, .. } = margs; let special_args = f .sig .inputs .iter() .map_while(|a| { (if is_v8 { scope_arg(a) } else { None }) .or_else(|| rc_refcell_opstate_arg(a)) }) .collect::>(); let rust_i0 = special_args.len(); let args_head = special_args.into_iter().collect::(); let (arg_decls, args_tail, _) = codegen_args(core, f, rust_i0, 1, asyncness); let type_params = exclude_lifetime_params(&f.sig.generics.params); let wrapper = match (asyncness, is_result(&f.sig.output)) { (true, true) => { quote! { let fut = #core::_ops::map_async_op1(ctx, Self::call::<#type_params>(#args_head #args_tail)); let maybe_response = #core::_ops::queue_async_op( ctx, scope, #deferred, promise_id, fut, ); } } (true, false) => { quote! { let fut = #core::_ops::map_async_op2(ctx, Self::call::<#type_params>(#args_head #args_tail)); let maybe_response = #core::_ops::queue_async_op( ctx, scope, #deferred, promise_id, fut, ); } } (false, true) => { quote! { let fut = #core::_ops::map_async_op3(ctx, Self::call::<#type_params>(#args_head #args_tail)); let maybe_response = #core::_ops::queue_async_op( ctx, scope, #deferred, promise_id, fut, ); } } (false, false) => { quote! { let fut = #core::_ops::map_async_op4(ctx, Self::call::<#type_params>(#args_head #args_tail)); let maybe_response = #core::_ops::queue_async_op( ctx, scope, #deferred, promise_id, fut, ); } } }; quote! { use #core::futures::FutureExt; // SAFETY: #core guarantees args.data() is a v8 External pointing to an OpCtx for the isolates lifetime let ctx = unsafe { &*(#core::v8::Local::<#core::v8::External>::cast(args.data()).value() as *const #core::_ops::OpCtx) }; let promise_id = args.get(0); let promise_id = #core::v8::Local::<#core::v8::Integer>::try_from(promise_id) .map(|l| l.value() as #core::PromiseId) .map_err(#core::anyhow::Error::from); // Fail if promise id invalid (not an int) let promise_id: #core::PromiseId = match promise_id { Ok(promise_id) => promise_id, Err(err) => { #core::_ops::throw_type_error(scope, format!("invalid promise id: {}", err)); return; } }; #arg_decls #wrapper if let Some(response) = maybe_response { rv.set(response); } } } fn scope_arg(arg: &FnArg) -> Option { if is_handle_scope(arg) { Some(quote! { scope, }) } else { None } } fn opstate_arg(arg: &FnArg) -> Option { match arg { arg if is_rc_refcell_opstate(arg) => Some(quote! { ctx.state.clone(), }), arg if is_mut_ref_opstate(arg) => { Some(quote! { &mut std::cell::RefCell::borrow_mut(&ctx.state), }) } _ => None, } } fn rc_refcell_opstate_arg(arg: &FnArg) -> Option { match arg { arg if is_rc_refcell_opstate(arg) => Some(quote! { ctx.state.clone(), }), arg if is_mut_ref_opstate(arg) => Some( quote! { compile_error!("mutable opstate is not supported in async ops"), }, ), _ => None, } } /// Generate the body of a v8 func for a sync op fn codegen_v8_sync( core: &TokenStream2, f: &syn::ItemFn, margs: Attributes, has_fallible_fast_call: bool, ) -> TokenStream2 { let Attributes { is_v8, .. } = margs; let special_args = f .sig .inputs .iter() .map_while(|a| { (if is_v8 { scope_arg(a) } else { None }).or_else(|| opstate_arg(a)) }) .collect::>(); let rust_i0 = special_args.len(); let args_head = special_args.into_iter().collect::(); let (arg_decls, args_tail, _) = codegen_args(core, f, rust_i0, 0, false); let ret = codegen_sync_ret(core, &f.sig.output); let type_params = exclude_lifetime_params(&f.sig.generics.params); let fast_error_handler = if has_fallible_fast_call { quote! { { let op_state = &mut std::cell::RefCell::borrow_mut(&ctx.state); if let Some(err) = op_state.last_fast_op_error.take() { let exception = #core::error::to_v8_error(scope, op_state.get_error_class_fn, &err); scope.throw_exception(exception); return; } } } } else { quote! {} }; quote! { // SAFETY: #core guarantees args.data() is a v8 External pointing to an OpCtx for the isolates lifetime let ctx = unsafe { &*(#core::v8::Local::<#core::v8::External>::cast(args.data()).value() as *const #core::_ops::OpCtx) }; #fast_error_handler #arg_decls let result = Self::call::<#type_params>(#args_head #args_tail); // use RefCell::borrow instead of state.borrow to avoid clash with std::borrow::Borrow let op_state = ::std::cell::RefCell::borrow(&*ctx.state); op_state.tracker.track_sync(ctx.id); #ret } } /// (full declarations, idents, v8 argument count) type ArgumentDecl = (TokenStream2, TokenStream2, usize); fn codegen_args( core: &TokenStream2, f: &syn::ItemFn, rust_i0: usize, // Index of first generic arg in rust v8_i0: usize, // Index of first generic arg in v8/js asyncness: bool, ) -> ArgumentDecl { let inputs = &f.sig.inputs.iter().skip(rust_i0).enumerate(); let ident_seq: TokenStream2 = inputs .clone() .map(|(i, _)| format!("arg_{i}")) .collect::>() .join(", ") .parse() .unwrap(); let decls: TokenStream2 = inputs .clone() .map(|(i, arg)| { codegen_arg(core, arg, format!("arg_{i}").as_ref(), v8_i0 + i, asyncness) }) .collect(); (decls, ident_seq, inputs.len()) } fn codegen_arg( core: &TokenStream2, arg: &syn::FnArg, name: &str, idx: usize, asyncness: bool, ) -> TokenStream2 { let ident = quote::format_ident!("{name}"); let (pat, ty) = match arg { syn::FnArg::Typed(pat) => { if is_optional_fast_callback_option(&pat.ty) || is_optional_wasm_memory(&pat.ty) { return quote! { let #ident = None; }; } (&pat.pat, &pat.ty) } _ => unreachable!(), }; // Fast path if arg should be skipped if matches!(**pat, syn::Pat::Wild(_)) { return quote! { let #ident = (); }; } // Fast path for `String` if let Some(is_ref) = is_string(&**ty) { let ref_block = if is_ref { quote! { let #ident = #ident.as_ref(); } } else { quote! {} }; return quote! { let #ident = match #core::v8::Local::<#core::v8::String>::try_from(args.get(#idx as i32)) { Ok(v8_string) => #core::serde_v8::to_utf8(v8_string, scope), Err(_) => { return #core::_ops::throw_type_error(scope, format!("Expected string at position {}", #idx)); } }; #ref_block }; } // Fast path for `Cow<'_, str>` if is_cow_str(&**ty) { return quote! { let #ident = match #core::v8::Local::<#core::v8::String>::try_from(args.get(#idx as i32)) { Ok(v8_string) => ::std::borrow::Cow::Owned(#core::serde_v8::to_utf8(v8_string, scope)), Err(_) => { return #core::_ops::throw_type_error(scope, format!("Expected string at position {}", #idx)); } }; }; } // Fast path for `Option` if is_option_string(&**ty) { return quote! { let #ident = match #core::v8::Local::<#core::v8::String>::try_from(args.get(#idx as i32)) { Ok(v8_string) => Some(#core::serde_v8::to_utf8(v8_string, scope)), Err(_) => None }; }; } // Fast path for &/&mut [u8] and &/&mut [u32] match is_ref_slice(&**ty) { None => {} Some(SliceType::U32Mut) => { assert!(!asyncness, "Memory slices are not allowed in async ops"); let blck = codegen_u32_mut_slice(core, idx); return quote! { let #ident = #blck; }; } Some(SliceType::F64Mut) => { assert!(!asyncness, "Memory slices are not allowed in async ops"); let blck = codegen_f64_mut_slice(core, idx); return quote! { let #ident = #blck; }; } Some(_) => { assert!(!asyncness, "Memory slices are not allowed in async ops"); let blck = codegen_u8_slice(core, idx); return quote! { let #ident = #blck; }; } } // Fast path for `*const u8` if is_ptr_u8(&**ty) { let blk = codegen_u8_ptr(core, idx); return quote! { let #ident = #blk; }; } // Fast path for `*const c_void` and `*mut c_void` if is_ptr_cvoid(&**ty) { let blk = codegen_cvoid_ptr(core, idx); return quote! { let #ident = #blk; }; } // Otherwise deserialize it via serde_v8 quote! { let #ident = args.get(#idx as i32); let #ident = match #core::serde_v8::from_v8(scope, #ident) { Ok(v) => v, Err(err) => { let msg = format!("Error parsing args at position {}: {}", #idx, #core::anyhow::Error::from(err)); return #core::_ops::throw_type_error(scope, msg); } }; } } fn codegen_u8_slice(core: &TokenStream2, idx: usize) -> TokenStream2 { quote! {{ let value = args.get(#idx as i32); match #core::v8::Local::<#core::v8::ArrayBuffer>::try_from(value) { Ok(b) => { let byte_length = b.byte_length(); if let Some(data) = b.data() { let store = data.cast::().as_ptr(); // SAFETY: rust guarantees that lifetime of slice is no longer than the call. unsafe { ::std::slice::from_raw_parts_mut(store, byte_length) } } else { &mut [] } }, Err(_) => { if let Ok(view) = #core::v8::Local::<#core::v8::ArrayBufferView>::try_from(value) { let len = view.byte_length(); let offset = view.byte_offset(); let buffer = match view.buffer(scope) { Some(v) => v, None => { return #core::_ops::throw_type_error(scope, format!("Expected ArrayBufferView at position {}", #idx)); } }; if let Some(data) = buffer.data() { let store = data.cast::().as_ptr(); // SAFETY: rust guarantees that lifetime of slice is no longer than the call. unsafe { ::std::slice::from_raw_parts_mut(store.add(offset), len) } } else { &mut [] } } else { return #core::_ops::throw_type_error(scope, format!("Expected ArrayBufferView at position {}", #idx)); } } }} } } fn codegen_u8_ptr(core: &TokenStream2, idx: usize) -> TokenStream2 { quote! {{ let value = args.get(#idx as i32); match #core::v8::Local::<#core::v8::ArrayBuffer>::try_from(value) { Ok(b) => { if let Some(data) = b.data() { data.cast::().as_ptr() } else { std::ptr::null::() } }, Err(_) => { if let Ok(view) = #core::v8::Local::<#core::v8::ArrayBufferView>::try_from(value) { let offset = view.byte_offset(); let buffer = match view.buffer(scope) { Some(v) => v, None => { return #core::_ops::throw_type_error(scope, format!("Expected ArrayBufferView at position {}", #idx)); } }; let store = if let Some(data) = buffer.data() { data.cast::().as_ptr() } else { std::ptr::null_mut::() }; unsafe { store.add(offset) } } else { return #core::_ops::throw_type_error(scope, format!("Expected ArrayBufferView at position {}", #idx)); } } } }} } fn codegen_cvoid_ptr(core: &TokenStream2, idx: usize) -> TokenStream2 { quote! {{ let value = args.get(#idx as i32); if value.is_null() { std::ptr::null_mut() } else if let Ok(b) = #core::v8::Local::<#core::v8::External>::try_from(value) { b.value() } else { return #core::_ops::throw_type_error(scope, format!("Expected External at position {}", #idx)); } }} } fn codegen_u32_mut_slice(core: &TokenStream2, idx: usize) -> TokenStream2 { quote! { if let Ok(view) = #core::v8::Local::<#core::v8::Uint32Array>::try_from(args.get(#idx as i32)) { let (offset, len) = (view.byte_offset(), view.byte_length()); let buffer = match view.buffer(scope) { Some(v) => v, None => { return #core::_ops::throw_type_error(scope, format!("Expected Uint32Array at position {}", #idx)); } }; if let Some(data) = buffer.data() { let store = data.cast::().as_ptr(); // SAFETY: buffer from Uint32Array. Rust guarantees that lifetime of slice is no longer than the call. unsafe { ::std::slice::from_raw_parts_mut(store.add(offset) as *mut u32, len / 4) } } else { &mut [] } } else { return #core::_ops::throw_type_error(scope, format!("Expected Uint32Array at position {}", #idx)); } } } fn codegen_f64_mut_slice(core: &TokenStream2, idx: usize) -> TokenStream2 { quote! { if let Ok(view) = #core::v8::Local::<#core::v8::Float64Array>::try_from(args.get(#idx as i32)) { let (offset, len) = (view.byte_offset(), view.byte_length()); let buffer = match view.buffer(scope) { Some(v) => v, None => { return #core::_ops::throw_type_error(scope, format!("Expected Float64Array at position {}", #idx)); } }; if let Some(data) = buffer.data() { let store = data.cast::().as_ptr(); unsafe { ::std::slice::from_raw_parts_mut(store.add(offset) as *mut f64, len / 8) } } else { &mut [] } } else { return #core::_ops::throw_type_error(scope, format!("Expected Float64Array at position {}", #idx)); } } } fn codegen_sync_ret( core: &TokenStream2, output: &syn::ReturnType, ) -> TokenStream2 { if is_void(output) { return quote! {}; } if is_u32_rv(output) { return quote! { rv.set_uint32(result as u32); }; } // Optimize Result<(), Err> to skip serde_v8 when Ok(...) let ok_block = if is_unit_result(output) { quote! {} } else if is_u32_rv_result(output) { quote! { rv.set_uint32(result as u32); } } else if is_ptr_cvoid(output) || is_ptr_cvoid_rv(output) { quote! { if result.is_null() { // External canot contain a null pointer, null pointers are instead represented as null. rv.set_null(); } else { rv.set(v8::External::new(scope, result as *mut ::std::ffi::c_void).into()); } } } else { quote! { match #core::serde_v8::to_v8(scope, result) { Ok(ret) => rv.set(ret), Err(err) => #core::_ops::throw_type_error( scope, format!("Error serializing return: {}", #core::anyhow::Error::from(err)), ), }; } }; if !is_result(output) { return ok_block; } quote! { match result { Ok(result) => { #ok_block }, Err(err) => { let exception = #core::error::to_v8_error(scope, op_state.get_error_class_fn, &err); scope.throw_exception(exception); }, }; } } fn is_void(ty: impl ToTokens) -> bool { tokens(ty).is_empty() } fn is_result(ty: impl ToTokens) -> bool { let tokens = tokens(ty); if tokens.trim_start_matches("-> ").starts_with("Result <") { return true; } // Detect `io::Result<...>`, `anyhow::Result<...>`, etc... // i.e: Result aliases/shorthands which are unfortunately "opaque" at macro-time match tokens.find(":: Result <") { Some(idx) => !tokens.split_at(idx).0.contains('<'), None => false, } } fn is_string(ty: impl ToTokens) -> Option { let toks = tokens(ty); if toks == "String" { return Some(false); } if toks == "& str" { return Some(true); } None } fn is_option_string(ty: impl ToTokens) -> bool { tokens(ty) == "Option < String >" } fn is_cow_str(ty: impl ToTokens) -> bool { tokens(&ty).starts_with("Cow <") && tokens(&ty).ends_with("str >") } enum SliceType { U8, U8Mut, U32Mut, F64Mut, } fn is_ref_slice(ty: impl ToTokens) -> Option { if is_u8_slice(&ty) { return Some(SliceType::U8); } if is_u8_slice_mut(&ty) { return Some(SliceType::U8Mut); } if is_u32_slice_mut(&ty) { return Some(SliceType::U32Mut); } if is_f64_slice_mut(&ty) { return Some(SliceType::F64Mut); } None } fn is_u8_slice(ty: impl ToTokens) -> bool { tokens(ty) == "& [u8]" } fn is_u8_slice_mut(ty: impl ToTokens) -> bool { tokens(ty) == "& mut [u8]" } fn is_u32_slice_mut(ty: impl ToTokens) -> bool { tokens(ty) == "& mut [u32]" } fn is_f64_slice_mut(ty: impl ToTokens) -> bool { tokens(ty) == "& mut [f64]" } fn is_ptr_u8(ty: impl ToTokens) -> bool { tokens(ty) == "* const u8" } fn is_ptr_cvoid(ty: impl ToTokens) -> bool { tokens(&ty) == "* const c_void" || tokens(&ty) == "* mut c_void" } fn is_ptr_cvoid_rv(ty: impl ToTokens) -> bool { tokens(&ty).contains("Result < * const c_void") || tokens(&ty).contains("Result < * mut c_void") } fn is_optional_fast_callback_option(ty: impl ToTokens) -> bool { tokens(&ty).contains("Option < & mut FastApiCallbackOptions") } fn is_optional_wasm_memory(ty: impl ToTokens) -> bool { tokens(&ty).contains("Option < & mut [u8]") } /// Detects if the type can be set using `rv.set_uint32` fast path fn is_u32_rv(ty: impl ToTokens) -> bool { ["u32", "u8", "u16"].iter().any(|&s| tokens(&ty) == s) || is_resource_id(&ty) } /// Detects if the type is of the format Result fn is_u32_rv_result(ty: impl ToTokens) -> bool { is_result(&ty) && (tokens(&ty).contains("Result < u32") || tokens(&ty).contains("Result < u8") || tokens(&ty).contains("Result < u16") || is_resource_id(&ty)) } /// Detects if a type is of the form Result<(), Err> fn is_unit_result(ty: impl ToTokens) -> bool { is_result(&ty) && tokens(&ty).contains("Result < ()") } fn is_resource_id(arg: impl ToTokens) -> bool { let re = lazy_regex::regex!(r#": (?:deno_core :: )?ResourceId$"#); re.is_match(&tokens(arg)) } fn is_mut_ref_opstate(arg: impl ToTokens) -> bool { let re = lazy_regex::regex!(r#": & mut (?:deno_core :: )?OpState$"#); re.is_match(&tokens(arg)) } fn is_rc_refcell_opstate(arg: &syn::FnArg) -> bool { let re = lazy_regex::regex!(r#": Rc < RefCell < (?:deno_core :: )?OpState > >$"#); re.is_match(&tokens(arg)) } fn is_handle_scope(arg: &syn::FnArg) -> bool { let re = lazy_regex::regex!( r#": & mut (?:deno_core :: )?v8 :: HandleScope(?: < '\w+ >)?$"# ); re.is_match(&tokens(arg)) } fn is_future(ty: impl ToTokens) -> bool { tokens(&ty).contains("impl Future < Output =") } fn tokens(x: impl ToTokens) -> String { x.to_token_stream().to_string() } fn exclude_lifetime_params( generic_params: &Punctuated, ) -> Punctuated { generic_params .iter() .filter(|t| !tokens(t).starts_with('\'')) .cloned() .collect::>() } #[cfg(test)] mod tests { use crate::Attributes; use crate::Op; use pretty_assertions::assert_eq; use std::path::PathBuf; #[testing_macros::fixture("optimizer_tests/**/*.rs")] fn test_codegen(input: PathBuf) { let update_expected = std::env::var("UPDATE_EXPECTED").is_ok(); let source = std::fs::read_to_string(&input).expect("Failed to read test file"); let mut attrs = Attributes::default(); if source.contains("// @test-attr:fast") { attrs.must_be_fast = true; } if source.contains("// @test-attr:wasm") { attrs.is_wasm = true; attrs.must_be_fast = true; } let item = syn::parse_str(&source).expect("Failed to parse test file"); let op = Op::new(item, attrs); let expected = std::fs::read_to_string(input.with_extension("out")) .expect("Failed to read expected output file"); let actual = op.gen(); // Validate syntax tree. let tree = syn::parse2(actual).unwrap(); let actual = prettyplease::unparse(&tree); if update_expected { std::fs::write(input.with_extension("out"), actual) .expect("Failed to write expected file"); } else { assert_eq!(actual, expected); } } }