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ethers-rs/ethers-contract/ethers-contract-derive/src/abi_ty.rs

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//! Helper functions for deriving `EthAbiType`
use crate::utils;
use ethers_core::macros::ethers_core_crate;
use proc_macro2::{Ident, Literal, TokenStream};
use quote::{quote, quote_spanned};
use syn::{parse::Error, spanned::Spanned as _, Data, DeriveInput, Fields, Variant};
/// Generates the tokenize implementation
pub fn derive_tokenizeable_impl(input: &DeriveInput) -> proc_macro2::TokenStream {
let core_crate = ethers_core_crate();
let name = &input.ident;
let generic_params = input.generics.params.iter().map(|p| quote! { #p });
let generic_params = quote! { #(#generic_params,)* };
let generic_args = input.generics.type_params().map(|p| {
let name = &p.ident;
quote_spanned! { p.ident.span() => #name }
});
let generic_args = quote! { #(#generic_args,)* };
let generic_predicates = match input.generics.where_clause {
Some(ref clause) => {
let predicates = clause.predicates.iter().map(|p| quote! { #p });
quote! { #(#predicates,)* }
}
None => quote! {},
};
let (tokenize_predicates, params_len, init_struct_impl, into_token_impl) = match input.data {
Data::Struct(ref data) => match data.fields {
Fields::Named(ref fields) => {
let tokenize_predicates = fields.named.iter().map(|f| {
let ty = &f.ty;
quote_spanned! { f.span() => #ty: #core_crate::abi::Tokenize }
});
let tokenize_predicates = quote! { #(#tokenize_predicates,)* };
let assignments = fields.named.iter().map(|f| {
let name = f.ident.as_ref().expect("Named fields have names");
quote_spanned! { f.span() => #name: #core_crate::abi::Tokenizable::from_token(iter.next().unwrap())? }
});
let init_struct_impl = quote! { Self { #(#assignments,)* } };
let into_token = fields.named.iter().map(|f| {
let name = f.ident.as_ref().expect("Named fields have names");
quote_spanned! { f.span() => self.#name.into_token() }
});
let into_token_impl = quote! { #(#into_token,)* };
(tokenize_predicates, fields.named.len(), init_struct_impl, into_token_impl)
}
Fields::Unnamed(ref fields) => {
let tokenize_predicates = fields.unnamed.iter().map(|f| {
let ty = &f.ty;
quote_spanned! { f.span() => #ty: #core_crate::abi::Tokenize }
});
let tokenize_predicates = quote! { #(#tokenize_predicates,)* };
let assignments = fields.unnamed.iter().map(|f| {
quote_spanned! { f.span() => #core_crate::abi::Tokenizable::from_token(iter.next().unwrap())? }
});
let init_struct_impl = quote! { Self(#(#assignments,)* ) };
let into_token = fields.unnamed.iter().enumerate().map(|(i, f)| {
let idx = syn::Index::from(i);
quote_spanned! { f.span() => self.#idx.into_token() }
});
let into_token_impl = quote! { #(#into_token,)* };
(tokenize_predicates, fields.unnamed.len(), init_struct_impl, into_token_impl)
}
Fields::Unit => return tokenize_unit_type(&input.ident),
},
Data::Enum(ref data) => {
return match tokenize_enum(name, data.variants.iter()) {
Ok(tokens) => tokens,
Err(err) => err.to_compile_error(),
}
}
Data::Union(_) => {
return Error::new(input.span(), "EthAbiType cannot be derived for unions")
.to_compile_error()
}
};
// there might be the case that the event has only 1 params, which is not a
// tuple
let (from_token_impl, into_token_impl) = match params_len {
0 => (
quote! {
Ok(#init_struct_impl)
},
// can't encode an empty struct
// TODO: panic instead?
quote! {
#core_crate::abi::Token::Tuple(Vec::new())
},
),
_ => {
let from_token = quote! {
if let #core_crate::abi::Token::Tuple(tokens) = token {
if tokens.len() != #params_len {
return Err(#core_crate::abi::InvalidOutputType(::std::format!(
"Expected {} tokens, got {}: {:?}",
#params_len,
tokens.len(),
tokens
)));
}
let mut iter = tokens.into_iter();
Ok(#init_struct_impl)
} else {
Err(#core_crate::abi::InvalidOutputType(::std::format!(
"Expected Tuple, got {:?}",
token
)))
}
};
let into_token = quote! {
#core_crate::abi::Token::Tuple(
::std::vec![
#into_token_impl
]
)
};
(from_token, into_token)
}
};
let params = match utils::derive_param_type_with_abi_type(input, "EthAbiType") {
Ok(params) => params,
Err(err) => return err.to_compile_error(),
};
quote! {
impl<#generic_params> #core_crate::abi::AbiType for #name<#generic_args> {
fn param_type() -> #core_crate::abi::ParamType {
#params
}
}
impl<#generic_params> #core_crate::abi::AbiArrayType for #name<#generic_args> {}
impl<#generic_params> #core_crate::abi::Tokenizable for #name<#generic_args>
where
#generic_predicates
#tokenize_predicates
{
fn from_token(token: #core_crate::abi::Token) -> Result<Self, #core_crate::abi::InvalidOutputType> where
Self: Sized {
#from_token_impl
}
fn into_token(self) -> #core_crate::abi::Token {
#into_token_impl
}
}
impl<#generic_params> #core_crate::abi::TokenizableItem for #name<#generic_args>
where
#generic_predicates
#tokenize_predicates
{ }
}
}
fn tokenize_unit_type(name: &Ident) -> TokenStream {
let ethers_core = ethers_core_crate();
quote! {
impl #ethers_core::abi::Tokenizable for #name {
fn from_token(token: #ethers_core::abi::Token) -> Result<Self, #ethers_core::abi::InvalidOutputType> where
Self: Sized {
if let #ethers_core::abi::Token::Tuple(tokens) = token {
if !tokens.is_empty() {
Err(#ethers_core::abi::InvalidOutputType(::std::format!(
"Expected empty tuple, got {:?}",
tokens
)))
} else {
Ok(#name{})
}
} else {
Err(#ethers_core::abi::InvalidOutputType(::std::format!(
"Expected Tuple, got {:?}",
token
)))
}
}
fn into_token(self) -> #ethers_core::abi::Token {
#ethers_core::abi::Token::Tuple(::std::vec::Vec::new())
}
}
impl #ethers_core::abi::TokenizableItem for #name { }
}
}
/// Derive for an enum
///
/// An enum can be a [solidity enum](https://docs.soliditylang.org/en/v0.5.3/types.html#enums) or a
/// bundled set of different types.
///
/// Decoding works like untagged decoding
fn tokenize_enum<'a>(
enum_name: &Ident,
variants: impl Iterator<Item = &'a Variant> + 'a,
) -> Result<TokenStream, Error> {
let ethers_core = ethers_core_crate();
let mut into_tokens = TokenStream::new();
let mut from_tokens = TokenStream::new();
for (idx, variant) in variants.into_iter().enumerate() {
let var_ident = &variant.ident;
if variant.fields.len() > 1 {
return Err(Error::new(
variant.span(),
"EthAbiType cannot be derived for enum variants with multiple fields",
))
} else if variant.fields.is_empty() {
let value = Literal::u8_unsuffixed(idx as u8);
from_tokens.extend(quote! {
if let Ok(#value) = u8::from_token(token.clone()) {
return Ok(#enum_name::#var_ident)
}
});
into_tokens.extend(quote! {
#enum_name::#var_ident => #value.into_token(),
});
} else if let Some(field) = variant.fields.iter().next() {
let ty = &field.ty;
from_tokens.extend(quote! {
if let Ok(decoded) = #ty::from_token(token.clone()) {
return Ok(#enum_name::#var_ident(decoded))
}
});
into_tokens.extend(quote! {
#enum_name::#var_ident(element) => element.into_token(),
});
} else {
into_tokens.extend(quote! {
#enum_name::#var_ident(element) => # ethers_core::abi::Token::Tuple(::std::vec::Vec::new()),
});
}
}
Ok(quote! {
impl #ethers_core::abi::Tokenizable for #enum_name {
fn from_token(token: #ethers_core::abi::Token) -> Result<Self, #ethers_core::abi::InvalidOutputType> where
Self: Sized {
#from_tokens
Err(#ethers_core::abi::InvalidOutputType("Failed to decode all type variants".to_string()))
}
fn into_token(self) -> #ethers_core::abi::Token {
match self {
#into_tokens
}
}
}
impl #ethers_core::abi::TokenizableItem for #enum_name { }
})
}
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