use crate::ast::{Enum, Field, Input, Struct}; use crate::attr::Trait; use crate::generics::InferredBounds; use proc_macro2::TokenStream; use quote::{format_ident, quote, quote_spanned, ToTokens}; use std::collections::BTreeSet as Set; use syn::spanned::Spanned; use syn::{ Data, DeriveInput, GenericArgument, Member, PathArguments, Result, Token, Type, Visibility, }; pub fn derive(node: &DeriveInput) -> Result { let input = Input::from_syn(node)?; input.validate()?; Ok(match input { Input::Struct(input) => impl_struct(input), Input::Enum(input) => impl_enum(input), }) } fn impl_struct(input: Struct) -> TokenStream { let ty = &input.ident; let (impl_generics, ty_generics, where_clause) = input.generics.split_for_impl(); let mut error_inferred_bounds = InferredBounds::new(); let source_body = if input.attrs.transparent.is_some() { let only_field = &input.fields[0]; if only_field.contains_generic { error_inferred_bounds.insert(only_field.ty, quote!(std::error::Error)); } let member = &only_field.member; Some(quote! { std::error::Error::source(self.#member.as_dyn_error()) }) } else if let Some(source_field) = input.source_field() { let source = &source_field.member; if source_field.contains_generic { let ty = unoptional_type(source_field.ty); error_inferred_bounds.insert(ty, quote!(std::error::Error + 'static)); } let asref = if type_is_option(source_field.ty) { Some(quote_spanned!(source.span()=> .as_ref()?)) } else { None }; let dyn_error = quote_spanned!(source.span()=> self.#source #asref.as_dyn_error()); Some(quote! { std::option::Option::Some(#dyn_error) }) } else { None }; let source_method = source_body.map(|body| { quote! { fn source(&self) -> std::option::Option<&(dyn std::error::Error + 'static)> { use thiserror::__private::AsDynError; #body } } }); let provide_method = input.backtrace_field().map(|backtrace_field| { let demand = quote!(demand); let backtrace = &backtrace_field.member; let body = if let Some(source_field) = input.source_field() { let source = &source_field.member; let source_provide = if type_is_option(source_field.ty) { quote_spanned! {source.span()=> if let std::option::Option::Some(source) = &self.#source { source.as_dyn_error().provide(#demand); } } } else { quote_spanned! {source.span()=> self.#source.as_dyn_error().provide(#demand); } }; let self_provide = if source == backtrace { None } else if type_is_option(backtrace_field.ty) { Some(quote! { if let std::option::Option::Some(backtrace) = &self.#backtrace { #demand.provide_ref::(backtrace); } }) } else { Some(quote! { #demand.provide_ref::(&self.#backtrace); }) }; quote! { use thiserror::__private::AsDynError; #source_provide #self_provide } } else if type_is_option(backtrace_field.ty) { quote! { if let std::option::Option::Some(backtrace) = &self.#backtrace { #demand.provide_ref::(backtrace); } } } else { quote! { #demand.provide_ref::(&self.#backtrace); } }; quote! { fn provide<'_demand>(&'_demand self, #demand: &mut std::any::Demand<'_demand>) { #body } } }); let mut display_implied_bounds = Set::new(); let display_body = if input.attrs.transparent.is_some() { let only_field = &input.fields[0].member; display_implied_bounds.insert((0, Trait::Display)); Some(quote! { std::fmt::Display::fmt(&self.#only_field, __formatter) }) } else if let Some(display) = &input.attrs.display { display_implied_bounds = display.implied_bounds.clone(); let use_as_display = if display.has_bonus_display { Some(quote! { #[allow(unused_imports)] use thiserror::__private::{DisplayAsDisplay, PathAsDisplay}; }) } else { None }; let pat = fields_pat(&input.fields); Some(quote! { #use_as_display #[allow(unused_variables, deprecated)] let Self #pat = self; #display }) } else { None }; let display_impl = display_body.map(|body| { let mut display_inferred_bounds = InferredBounds::new(); for (field, bound) in display_implied_bounds { let field = &input.fields[field]; if field.contains_generic { display_inferred_bounds.insert(field.ty, bound); } } let display_where_clause = display_inferred_bounds.augment_where_clause(input.generics); quote! { #[allow(unused_qualifications)] impl #impl_generics std::fmt::Display for #ty #ty_generics #display_where_clause { #[allow(clippy::used_underscore_binding)] fn fmt(&self, __formatter: &mut std::fmt::Formatter) -> std::fmt::Result { #body } } } }); let from_impl = input.from_field().map(|from_field| { let backtrace_field = input.distinct_backtrace_field(); let from = unoptional_type(from_field.ty); let body = from_initializer(from_field, backtrace_field); quote! { #[allow(unused_qualifications)] impl #impl_generics std::convert::From<#from> for #ty #ty_generics #where_clause { #[allow(deprecated)] fn from(source: #from) -> Self { #ty #body } } } }); let error_trait = spanned_error_trait(input.original); if input.generics.type_params().next().is_some() { let self_token = ::default(); error_inferred_bounds.insert(self_token, Trait::Debug); error_inferred_bounds.insert(self_token, Trait::Display); } let error_where_clause = error_inferred_bounds.augment_where_clause(input.generics); quote! { #[allow(unused_qualifications)] impl #impl_generics #error_trait for #ty #ty_generics #error_where_clause { #source_method #provide_method } #display_impl #from_impl } } fn impl_enum(input: Enum) -> TokenStream { let ty = &input.ident; let (impl_generics, ty_generics, where_clause) = input.generics.split_for_impl(); let mut error_inferred_bounds = InferredBounds::new(); let source_method = if input.has_source() { let arms = input.variants.iter().map(|variant| { let ident = &variant.ident; if variant.attrs.transparent.is_some() { let only_field = &variant.fields[0]; if only_field.contains_generic { error_inferred_bounds.insert(only_field.ty, quote!(std::error::Error)); } let member = &only_field.member; let source = quote!(std::error::Error::source(transparent.as_dyn_error())); quote! { #ty::#ident {#member: transparent} => #source, } } else if let Some(source_field) = variant.source_field() { let source = &source_field.member; if source_field.contains_generic { let ty = unoptional_type(source_field.ty); error_inferred_bounds.insert(ty, quote!(std::error::Error + 'static)); } let asref = if type_is_option(source_field.ty) { Some(quote_spanned!(source.span()=> .as_ref()?)) } else { None }; let varsource = quote!(source); let dyn_error = quote_spanned!(source.span()=> #varsource #asref.as_dyn_error()); quote! { #ty::#ident {#source: #varsource, ..} => std::option::Option::Some(#dyn_error), } } else { quote! { #ty::#ident {..} => std::option::Option::None, } } }); Some(quote! { fn source(&self) -> std::option::Option<&(dyn std::error::Error + 'static)> { use thiserror::__private::AsDynError; #[allow(deprecated)] match self { #(#arms)* } } }) } else { None }; let provide_method = if input.has_backtrace() { let demand = quote!(demand); let arms = input.variants.iter().map(|variant| { let ident = &variant.ident; match (variant.backtrace_field(), variant.source_field()) { (Some(backtrace_field), Some(source_field)) if backtrace_field.attrs.backtrace.is_none() => { let backtrace = &backtrace_field.member; let source = &source_field.member; let varsource = quote!(source); let source_provide = if type_is_option(source_field.ty) { quote_spanned! {source.span()=> if let std::option::Option::Some(source) = #varsource { source.as_dyn_error().provide(#demand); } } } else { quote_spanned! {source.span()=> #varsource.as_dyn_error().provide(#demand); } }; let self_provide = if type_is_option(backtrace_field.ty) { quote! { if let std::option::Option::Some(backtrace) = backtrace { #demand.provide_ref::(backtrace); } } } else { quote! { #demand.provide_ref::(backtrace); } }; quote! { #ty::#ident { #backtrace: backtrace, #source: #varsource, .. } => { use thiserror::__private::AsDynError; #source_provide #self_provide } } } (Some(backtrace_field), Some(source_field)) if backtrace_field.member == source_field.member => { let backtrace = &backtrace_field.member; let varsource = quote!(source); let source_provide = if type_is_option(source_field.ty) { quote_spanned! {backtrace.span()=> if let std::option::Option::Some(source) = #varsource { source.as_dyn_error().provide(#demand); } } } else { quote_spanned! {backtrace.span()=> #varsource.as_dyn_error().provide(#demand); } }; quote! { #ty::#ident {#backtrace: #varsource, ..} => { use thiserror::__private::AsDynError; #source_provide } } } (Some(backtrace_field), _) => { let backtrace = &backtrace_field.member; let body = if type_is_option(backtrace_field.ty) { quote! { if let std::option::Option::Some(backtrace) = backtrace { #demand.provide_ref::(backtrace); } } } else { quote! { #demand.provide_ref::(backtrace); } }; quote! { #ty::#ident {#backtrace: backtrace, ..} => { #body } } } (None, _) => quote! { #ty::#ident {..} => {} }, } }); Some(quote! { fn provide<'_demand>(&'_demand self, #demand: &mut std::any::Demand<'_demand>) { #[allow(deprecated)] match self { #(#arms)* } } }) } else { None }; let display_impl = if input.has_display() { let mut display_inferred_bounds = InferredBounds::new(); let use_as_display = if input.variants.iter().any(|v| { v.attrs .display .as_ref() .map_or(false, |display| display.has_bonus_display) }) { Some(quote! { #[allow(unused_imports)] use thiserror::__private::{DisplayAsDisplay, PathAsDisplay}; }) } else { None }; let void_deref = if input.variants.is_empty() { Some(quote!(*)) } else { None }; let arms = input.variants.iter().map(|variant| { let mut display_implied_bounds = Set::new(); let display = match &variant.attrs.display { Some(display) => { display_implied_bounds = display.implied_bounds.clone(); display.to_token_stream() } None => { let only_field = match &variant.fields[0].member { Member::Named(ident) => ident.clone(), Member::Unnamed(index) => format_ident!("_{}", index), }; display_implied_bounds.insert((0, Trait::Display)); quote!(std::fmt::Display::fmt(#only_field, __formatter)) } }; for (field, bound) in display_implied_bounds { let field = &variant.fields[field]; if field.contains_generic { display_inferred_bounds.insert(field.ty, bound); } } let ident = &variant.ident; let pat = fields_pat(&variant.fields); quote! { #ty::#ident #pat => #display } }); let arms = arms.collect::>(); let display_where_clause = display_inferred_bounds.augment_where_clause(input.generics); Some(quote! { #[allow(unused_qualifications)] impl #impl_generics std::fmt::Display for #ty #ty_generics #display_where_clause { fn fmt(&self, __formatter: &mut std::fmt::Formatter) -> std::fmt::Result { #use_as_display #[allow(unused_variables, deprecated, clippy::used_underscore_binding)] match #void_deref self { #(#arms,)* } } } }) } else { None }; let from_impls = input.variants.iter().filter_map(|variant| { let from_field = variant.from_field()?; let backtrace_field = variant.distinct_backtrace_field(); let variant = &variant.ident; let from = unoptional_type(from_field.ty); let body = from_initializer(from_field, backtrace_field); Some(quote! { #[allow(unused_qualifications)] impl #impl_generics std::convert::From<#from> for #ty #ty_generics #where_clause { #[allow(deprecated)] fn from(source: #from) -> Self { #ty::#variant #body } } }) }); let error_trait = spanned_error_trait(input.original); if input.generics.type_params().next().is_some() { let self_token = ::default(); error_inferred_bounds.insert(self_token, Trait::Debug); error_inferred_bounds.insert(self_token, Trait::Display); } let error_where_clause = error_inferred_bounds.augment_where_clause(input.generics); quote! { #[allow(unused_qualifications)] impl #impl_generics #error_trait for #ty #ty_generics #error_where_clause { #source_method #provide_method } #display_impl #(#from_impls)* } } fn fields_pat(fields: &[Field]) -> TokenStream { let mut members = fields.iter().map(|field| &field.member).peekable(); match members.peek() { Some(Member::Named(_)) => quote!({ #(#members),* }), Some(Member::Unnamed(_)) => { let vars = members.map(|member| match member { Member::Unnamed(member) => format_ident!("_{}", member), Member::Named(_) => unreachable!(), }); quote!((#(#vars),*)) } None => quote!({}), } } fn from_initializer(from_field: &Field, backtrace_field: Option<&Field>) -> TokenStream { let from_member = &from_field.member; let some_source = if type_is_option(from_field.ty) { quote!(std::option::Option::Some(source)) } else { quote!(source) }; let backtrace = backtrace_field.map(|backtrace_field| { let backtrace_member = &backtrace_field.member; if type_is_option(backtrace_field.ty) { quote! { #backtrace_member: std::option::Option::Some(std::backtrace::Backtrace::capture()), } } else { quote! { #backtrace_member: std::convert::From::from(std::backtrace::Backtrace::capture()), } } }); quote!({ #from_member: #some_source, #backtrace }) } fn type_is_option(ty: &Type) -> bool { type_parameter_of_option(ty).is_some() } fn unoptional_type(ty: &Type) -> TokenStream { let unoptional = type_parameter_of_option(ty).unwrap_or(ty); quote!(#unoptional) } fn type_parameter_of_option(ty: &Type) -> Option<&Type> { let path = match ty { Type::Path(ty) => &ty.path, _ => return None, }; let last = path.segments.last().unwrap(); if last.ident != "Option" { return None; } let bracketed = match &last.arguments { PathArguments::AngleBracketed(bracketed) => bracketed, _ => return None, }; if bracketed.args.len() != 1 { return None; } match &bracketed.args[0] { GenericArgument::Type(arg) => Some(arg), _ => None, } } fn spanned_error_trait(input: &DeriveInput) -> TokenStream { let vis_span = match &input.vis { Visibility::Public(vis) => Some(vis.pub_token.span()), Visibility::Crate(vis) => Some(vis.crate_token.span()), Visibility::Restricted(vis) => Some(vis.pub_token.span()), Visibility::Inherited => None, }; let data_span = match &input.data { Data::Struct(data) => data.struct_token.span(), Data::Enum(data) => data.enum_token.span(), Data::Union(data) => data.union_token.span(), }; let first_span = vis_span.unwrap_or(data_span); let last_span = input.ident.span(); let path = quote_spanned!(first_span=> std::error::); let error = quote_spanned!(last_span=> Error); quote!(#path #error) }