275 lines
9.9 KiB
Rust
275 lines
9.9 KiB
Rust
use ethers_core::{abi::ParamType, macros::ethers_core_crate, types::Selector};
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use proc_macro2::Literal;
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use quote::{quote, quote_spanned};
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use syn::{
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parse::Error, spanned::Spanned as _, Data, DeriveInput, Expr, Fields, GenericArgument, Lit,
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PathArguments, Type,
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};
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pub fn signature(hash: &[u8]) -> proc_macro2::TokenStream {
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let core_crate = ethers_core_crate();
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let bytes = hash.iter().copied().map(Literal::u8_unsuffixed);
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quote! {#core_crate::types::H256([#( #bytes ),*])}
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}
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pub fn selector(selector: Selector) -> proc_macro2::TokenStream {
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let bytes = selector.iter().copied().map(Literal::u8_unsuffixed);
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quote! {[#( #bytes ),*]}
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}
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/// Parses an int type from its string representation
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pub fn parse_int_param_type(s: &str) -> Option<ParamType> {
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let size = s.chars().skip(1).collect::<String>().parse::<usize>().ok()?;
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if s.starts_with('u') {
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Some(ParamType::Uint(size))
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} else if s.starts_with('i') {
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Some(ParamType::Int(size))
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} else {
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None
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}
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}
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// Converts param types for indexed parameters to bytes32 where appropriate
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// This applies to strings, arrays, structs and bytes to follow the encoding of
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// these indexed param types according to
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// https://solidity.readthedocs.io/en/develop/abi-spec.html#encoding-of-indexed-event-parameters
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pub fn topic_param_type_quote(kind: &ParamType) -> proc_macro2::TokenStream {
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let core_crate = ethers_core_crate();
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match kind {
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ParamType::String |
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ParamType::Bytes |
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ParamType::Array(_) |
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ParamType::FixedArray(_, _) |
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ParamType::Tuple(_) => quote! {#core_crate::abi::ParamType::FixedBytes(32)},
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ty => param_type_quote(ty),
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}
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}
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/// Returns the rust type for the given parameter
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pub fn param_type_quote(kind: &ParamType) -> proc_macro2::TokenStream {
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let core_crate = ethers_core_crate();
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match kind {
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ParamType::Address => {
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quote! {#core_crate::abi::ParamType::Address}
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}
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ParamType::Bytes => {
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quote! {#core_crate::abi::ParamType::Bytes}
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}
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ParamType::Int(size) => {
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let size = Literal::usize_suffixed(*size);
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quote! {#core_crate::abi::ParamType::Int(#size)}
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}
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ParamType::Uint(size) => {
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let size = Literal::usize_suffixed(*size);
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quote! {#core_crate::abi::ParamType::Uint(#size)}
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}
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ParamType::Bool => {
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quote! {#core_crate::abi::ParamType::Bool}
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}
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ParamType::String => {
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quote! {#core_crate::abi::ParamType::String}
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}
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ParamType::Array(ty) => {
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let ty = param_type_quote(&*ty);
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quote! {#core_crate::abi::ParamType::Array(Box::new(#ty))}
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}
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ParamType::FixedBytes(size) => {
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let size = Literal::usize_suffixed(*size);
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quote! {#core_crate::abi::ParamType::FixedBytes(#size)}
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}
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ParamType::FixedArray(ty, size) => {
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let ty = param_type_quote(&*ty);
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let size = Literal::usize_suffixed(*size);
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quote! {#core_crate::abi::ParamType::FixedArray(Box::new(#ty),#size)}
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}
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ParamType::Tuple(tuple) => {
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let elements = tuple.iter().map(param_type_quote);
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quote! {
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#core_crate::abi::ParamType::Tuple(
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::std::vec![
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#( #elements ),*
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]
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)
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}
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}
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}
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}
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/// Tries to find the corresponding `ParamType` used for tokenization for the
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/// given type
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pub fn find_parameter_type(ty: &Type) -> Result<ParamType, Error> {
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match ty {
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Type::Array(ty) => {
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let param = find_parameter_type(ty.elem.as_ref())?;
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if let Expr::Lit(ref expr) = ty.len {
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if let Lit::Int(ref len) = expr.lit {
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if let Ok(size) = len.base10_parse::<usize>() {
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return Ok(ParamType::FixedArray(Box::new(param), size))
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}
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}
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}
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Err(Error::new(ty.span(), "Failed to derive proper ABI from array field"))
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}
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Type::Path(ty) => {
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if let Some(ident) = ty.path.get_ident() {
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let ident = ident.to_string().to_lowercase();
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return match ident.as_str() {
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"address" => Ok(ParamType::Address),
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"string" => Ok(ParamType::String),
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"bool" => Ok(ParamType::Bool),
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"int" | "uint" => Ok(ParamType::Uint(256)),
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"h160" => Ok(ParamType::FixedBytes(20)),
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"h256" | "secret" | "hash" => Ok(ParamType::FixedBytes(32)),
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"h512" | "public" => Ok(ParamType::FixedBytes(64)),
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s => parse_int_param_type(s).ok_or_else(|| {
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Error::new(ty.span(), "Failed to derive proper ABI from fields")
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}),
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}
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}
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// check for `Vec`
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if ty.path.segments.len() == 1 && ty.path.segments[0].ident == "Vec" {
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if let PathArguments::AngleBracketed(ref args) = ty.path.segments[0].arguments {
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if args.args.len() == 1 {
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if let GenericArgument::Type(ref ty) = args.args.iter().next().unwrap() {
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let kind = find_parameter_type(ty)?;
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return Ok(ParamType::Array(Box::new(kind)))
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}
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}
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}
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}
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Err(Error::new(ty.span(), "Failed to derive proper ABI from fields"))
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}
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Type::Tuple(ty) => {
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let params = ty.elems.iter().map(find_parameter_type).collect::<Result<Vec<_>, _>>()?;
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Ok(ParamType::Tuple(params))
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}
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_ => Err(Error::new(ty.span(), "Failed to derive proper ABI from fields")),
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}
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}
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/// Attempts to determine the ABI Paramtypes from the type's AST
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pub fn derive_abi_inputs_from_fields(
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input: &DeriveInput,
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trait_name: &str,
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) -> Result<Vec<(String, ParamType)>, Error> {
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let fields: Vec<_> = match input.data {
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Data::Struct(ref data) => match data.fields {
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Fields::Named(ref fields) => fields.named.iter().collect(),
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Fields::Unnamed(ref fields) => fields.unnamed.iter().collect(),
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Fields::Unit => {
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return Err(Error::new(
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input.span(),
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format!("{} cannot be derived for empty structs and unit", trait_name),
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))
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}
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},
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Data::Enum(_) => {
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return Err(Error::new(
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input.span(),
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format!("{} cannot be derived for enums", trait_name),
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))
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}
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Data::Union(_) => {
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return Err(Error::new(
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input.span(),
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format!("{} cannot be derived for unions", trait_name),
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))
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}
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};
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fields
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.iter()
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.map(|f| {
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let name =
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f.ident.as_ref().map(|name| name.to_string()).unwrap_or_else(|| "".to_string());
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find_parameter_type(&f.ty).map(|ty| (name, ty))
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})
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.collect()
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}
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/// Use `AbiType::param_type` fo each field to construct the input types own param type
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pub fn derive_param_type_with_abi_type(
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input: &DeriveInput,
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trait_name: &str,
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) -> Result<proc_macro2::TokenStream, Error> {
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let core_crate = ethers_core_crate();
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let params = derive_abi_parameters_array(input, trait_name)?;
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Ok(quote! {
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#core_crate::abi::ParamType::Tuple(::std::vec!#params)
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})
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}
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/// Use `AbiType::param_type` fo each field to construct the whole signature `<name>(<params,>*)` as
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/// `String`
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pub fn derive_abi_signature_with_abi_type(
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input: &DeriveInput,
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function_name: &str,
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trait_name: &str,
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) -> Result<proc_macro2::TokenStream, Error> {
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let params = derive_abi_parameters_array(input, trait_name)?;
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Ok(quote! {
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{
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let params: String = #params
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.iter()
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.map(|p| p.to_string())
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.collect::<::std::vec::Vec<_>>()
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.join(",");
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let function_name = #function_name;
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format!("{}({})", function_name, params)
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}
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})
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}
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/// Use `AbiType::param_type` fo each field to construct the signature's parameters as runtime array
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/// `[param1, param2,...]`
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pub fn derive_abi_parameters_array(
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input: &DeriveInput,
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trait_name: &str,
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) -> Result<proc_macro2::TokenStream, Error> {
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let core_crate = ethers_core_crate();
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let param_types: Vec<_> = match input.data {
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Data::Struct(ref data) => match data.fields {
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Fields::Named(ref fields) => fields
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.named
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.iter()
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.map(|f| {
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let ty = &f.ty;
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quote_spanned! { f.span() => <#ty as #core_crate::abi::AbiType>::param_type() }
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})
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.collect(),
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Fields::Unnamed(ref fields) => fields
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.unnamed
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.iter()
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.map(|f| {
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let ty = &f.ty;
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quote_spanned! { f.span() => <#ty as #core_crate::abi::AbiType>::param_type() }
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})
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.collect(),
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Fields::Unit => {
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return Err(Error::new(
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input.span(),
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format!("{} cannot be derived for empty structs and unit", trait_name),
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))
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}
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},
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Data::Enum(_) => {
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return Err(Error::new(
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input.span(),
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format!("{} cannot be derived for enums", trait_name),
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))
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}
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Data::Union(_) => {
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return Err(Error::new(
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input.span(),
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format!("{} cannot be derived for unions", trait_name),
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))
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}
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};
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Ok(quote! {
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[#( #param_types ),*]
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})
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}
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