384 lines
13 KiB
Rust
384 lines
13 KiB
Rust
#![deny(missing_docs)]
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mod common;
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mod errors;
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mod events;
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mod methods;
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pub(crate) mod structs;
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mod types;
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use super::{util, Abigen};
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use crate::contract::{methods::MethodAlias, structs::InternalStructs};
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use ethers_core::{
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abi::{Abi, AbiParser, ErrorExt, EventExt, JsonAbi},
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macros::{ethers_contract_crate, ethers_core_crate, ethers_providers_crate},
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types::Bytes,
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};
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use eyre::{eyre, Context as _, Result};
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use proc_macro2::{Ident, Literal, TokenStream};
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use quote::quote;
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use serde::Deserialize;
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use std::collections::BTreeMap;
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use syn::Path;
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/// The result of `Context::expand`
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#[derive(Debug)]
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pub struct ExpandedContract {
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/// The name of the contract module
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pub module: Ident,
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/// The contract module's imports
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pub imports: TokenStream,
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/// Contract, Middle related implementations
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pub contract: TokenStream,
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/// All event impls of the contract
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pub events: TokenStream,
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/// All error impls of the contract
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pub errors: TokenStream,
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/// All contract call struct related types
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pub call_structs: TokenStream,
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/// The contract's internal structs
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pub abi_structs: TokenStream,
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}
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impl ExpandedContract {
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/// Merges everything into a single module
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pub fn into_tokens(self) -> TokenStream {
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let ExpandedContract {
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module,
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imports,
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contract,
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events,
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call_structs,
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abi_structs,
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errors,
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} = self;
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quote! {
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// export all the created data types
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pub use #module::*;
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#[allow(clippy::too_many_arguments, non_camel_case_types)]
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pub mod #module {
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#imports
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#contract
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#errors
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#events
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#call_structs
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#abi_structs
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}
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}
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}
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}
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/// Internal shared context for generating smart contract bindings.
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pub struct Context {
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/// The ABI string pre-parsing.
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abi_str: Literal,
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/// The parsed ABI.
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abi: Abi,
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/// The parser used for human readable format
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abi_parser: AbiParser,
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/// Contains all the solidity structs extracted from the JSON ABI.
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internal_structs: InternalStructs,
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/// Was the ABI in human readable format?
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human_readable: bool,
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/// The contract name as an identifier.
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contract_ident: Ident,
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/// The contract name as string
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contract_name: String,
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/// Manually specified method aliases.
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method_aliases: BTreeMap<String, MethodAlias>,
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/// Manually specified method aliases.
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error_aliases: BTreeMap<String, Ident>,
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/// Derives added to event structs and enums.
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event_derives: Vec<Path>,
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/// Manually specified event aliases.
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event_aliases: BTreeMap<String, Ident>,
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/// Bytecode extracted from the abi string input, if present.
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contract_bytecode: Option<Bytes>,
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}
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impl Context {
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/// Expands the whole rust contract
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pub fn expand(&self) -> Result<ExpandedContract> {
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let name = &self.contract_ident;
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let name_mod = util::ident(&util::safe_module_name(&self.contract_name));
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let abi_name = self.inline_abi_ident();
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// 0. Imports
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let imports = common::imports(&name.to_string());
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// 1. Declare Contract struct
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let struct_decl = common::struct_declaration(self);
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// 2. Declare events structs & impl FromTokens for each event
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let events_decl = self.events_declaration()?;
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// 3. impl block for the event functions
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let contract_events = self.event_methods()?;
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// 4. impl block for the contract methods and their corresponding types
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let (contract_methods, call_structs) = self.methods_and_call_structs()?;
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// 5. generate deploy function if
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let deployment_methods = self.deployment_methods();
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// 6. Declare the structs parsed from the human readable abi
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let abi_structs_decl = self.abi_structs()?;
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// 7. declare all error types
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let errors_decl = self.errors()?;
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let ethers_core = ethers_core_crate();
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let ethers_contract = ethers_contract_crate();
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let ethers_providers = ethers_providers_crate();
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let contract = quote! {
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#struct_decl
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impl<M: #ethers_providers::Middleware> #name<M> {
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/// Creates a new contract instance with the specified `ethers`
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/// client at the given `Address`. The contract derefs to a `ethers::Contract`
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/// object
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pub fn new<T: Into<#ethers_core::types::Address>>(address: T, client: ::std::sync::Arc<M>) -> Self {
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#ethers_contract::Contract::new(address.into(), #abi_name.clone(), client).into()
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}
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#deployment_methods
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#contract_methods
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#contract_events
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}
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impl<M : #ethers_providers::Middleware> From<#ethers_contract::Contract<M>> for #name<M> {
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fn from(contract: #ethers_contract::Contract<M>) -> Self {
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Self(contract)
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}
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}
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};
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Ok(ExpandedContract {
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module: name_mod,
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imports,
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contract,
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events: events_decl,
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errors: errors_decl,
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call_structs,
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abi_structs: abi_structs_decl,
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})
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}
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/// Create a context from the code generation arguments.
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pub fn from_abigen(args: Abigen) -> Result<Self> {
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// get the actual ABI string
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let mut abi_str =
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args.abi_source.get().map_err(|e| eyre!("failed to get ABI JSON: {}", e))?;
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// holds the bytecode parsed from the abi_str, if present
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let mut contract_bytecode = None;
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let (abi, human_readable, abi_parser) = parse_abi(&abi_str).wrap_err_with(|| {
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eyre::eyre!("error parsing abi for contract: {}", args.contract_name)
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})?;
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// try to extract all the solidity structs from the normal JSON ABI
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// we need to parse the json abi again because we need the internalType fields which are
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// omitted by ethabi. If the ABI was defined as human readable we use the `internal_structs`
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// from the Abi Parser
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let internal_structs = if human_readable {
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let mut internal_structs = InternalStructs::default();
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// the types in the abi_parser are already valid rust types so simply clone them to make
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// it consistent with the `RawAbi` variant
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internal_structs
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.rust_type_names
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.extend(abi_parser.function_params.values().map(|ty| (ty.clone(), ty.clone())));
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internal_structs.function_params = abi_parser.function_params.clone();
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internal_structs.event_params = abi_parser.event_params.clone();
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internal_structs.outputs = abi_parser.outputs.clone();
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internal_structs
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} else {
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match serde_json::from_str::<JsonAbi>(&abi_str)? {
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JsonAbi::Object(obj) => {
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// need to update the `abi_str` here because we only want the `"abi": [...]`
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// part of the json object in the contract binding
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abi_str = serde_json::to_string(&obj.abi)?;
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contract_bytecode = obj.bytecode;
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InternalStructs::new(obj.abi)
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}
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JsonAbi::Array(abi) => InternalStructs::new(abi),
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}
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};
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let contract_ident = util::ident(&args.contract_name);
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// NOTE: We only check for duplicate signatures here, since if there are
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// duplicate aliases, the compiler will produce a warning because a
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// method will be re-defined.
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let mut method_aliases = BTreeMap::new();
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for (signature, alias) in args.method_aliases.into_iter() {
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let alias = MethodAlias {
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function_name: util::safe_ident(&alias),
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struct_name: util::safe_pascal_case_ident(&alias),
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};
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if method_aliases.insert(signature.clone(), alias).is_some() {
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eyre::bail!("duplicate method signature '{}' in method aliases", signature)
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}
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}
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let mut event_aliases = BTreeMap::new();
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for (signature, alias) in args.event_aliases.into_iter() {
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let alias = syn::parse_str(&alias)?;
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event_aliases.insert(signature, alias);
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}
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// also check for overloaded events not covered by aliases, in which case we simply
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// numerate them
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for events in abi.events.values() {
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insert_alias_names(
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&mut event_aliases,
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events.iter().map(|e| (e.abi_signature(), e.name.as_str())),
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events::event_struct_alias,
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);
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}
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let mut error_aliases = BTreeMap::new();
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for (signature, alias) in args.error_aliases.into_iter() {
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let alias = syn::parse_str(&alias)?;
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error_aliases.insert(signature, alias);
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}
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// also check for overloaded errors not covered by aliases, in which case we simply
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// numerate them
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for errors in abi.errors.values() {
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insert_alias_names(
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&mut error_aliases,
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errors.iter().map(|e| (e.abi_signature(), e.name.as_str())),
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errors::error_struct_alias,
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);
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}
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let event_derives = args
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.event_derives
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.iter()
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.map(|derive| syn::parse_str::<Path>(derive))
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.collect::<Result<Vec<_>, _>>()
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.context("failed to parse event derives")?;
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Ok(Context {
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abi,
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human_readable,
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abi_str: Literal::string(&abi_str),
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abi_parser,
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internal_structs,
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contract_ident,
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contract_name: args.contract_name,
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contract_bytecode,
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method_aliases,
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error_aliases: Default::default(),
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event_derives,
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event_aliases,
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})
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}
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/// The initial name fo the contract
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pub(crate) fn contract_name(&self) -> &str {
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&self.contract_name
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}
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/// name of the `Lazy` that stores the ABI
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pub(crate) fn inline_abi_ident(&self) -> Ident {
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util::safe_ident(&format!("{}_ABI", self.contract_ident.to_string().to_uppercase()))
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}
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/// name of the `Lazy` that stores the Bytecode
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pub(crate) fn inline_bytecode_ident(&self) -> Ident {
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util::safe_ident(&format!("{}_BYTECODE", self.contract_ident.to_string().to_uppercase()))
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}
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/// The internal abi struct mapping table
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pub fn internal_structs(&self) -> &InternalStructs {
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&self.internal_structs
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}
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/// The internal mutable abi struct mapping table
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pub fn internal_structs_mut(&mut self) -> &mut InternalStructs {
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&mut self.internal_structs
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}
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}
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/// Solidity supports overloading as long as the signature of an event, error, function is unique,
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/// which results in a mapping `(name -> Vec<Element>)`
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///
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///
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/// This will populate the alias map for the value in the mapping (`Vec<Element>`) via `abi
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/// signature -> name` using the given aliases and merge it with all names not yet aliased.
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///
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/// If the iterator yields more than one element, this will simply numerate them
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fn insert_alias_names<'a, I, F>(aliases: &mut BTreeMap<String, Ident>, elements: I, get_ident: F)
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where
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I: IntoIterator<Item = (String, &'a str)>,
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F: Fn(&str) -> Ident,
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{
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let not_aliased =
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elements.into_iter().filter(|(sig, _name)| !aliases.contains_key(sig)).collect::<Vec<_>>();
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if not_aliased.len() > 1 {
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let mut overloaded_aliases = Vec::new();
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for (idx, (sig, name)) in not_aliased.into_iter().enumerate() {
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let unique_name = format!("{name}{}", idx + 1);
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overloaded_aliases.push((sig, get_ident(&unique_name)));
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}
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aliases.extend(overloaded_aliases);
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}
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}
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/// Parse the abi via `Source::parse` and return if the abi defined as human readable
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fn parse_abi(abi_str: &str) -> Result<(Abi, bool, AbiParser)> {
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let mut abi_parser = AbiParser::default();
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let res = if let Ok(abi) = abi_parser.parse_str(abi_str) {
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(abi, true, abi_parser)
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} else {
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// a best-effort coercion of an ABI or an artifact JSON into an artifact JSON.
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let contract: JsonContract = serde_json::from_str(abi_str)
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.wrap_err_with(|| eyre::eyre!("failed deserializing abi:\n{}", abi_str))?;
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(contract.into_abi(), false, abi_parser)
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};
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Ok(res)
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}
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#[derive(Deserialize)]
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struct ContractObject {
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abi: Abi,
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}
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#[derive(Deserialize)]
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#[serde(untagged)]
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enum JsonContract {
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/// json object input as `{"abi": [..], "bin": "..."}`
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Object(ContractObject),
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/// json array input as `[]`
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Array(Abi),
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}
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impl JsonContract {
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fn into_abi(self) -> Abi {
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match self {
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JsonContract::Object(o) => o.abi,
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JsonContract::Array(abi) => abi,
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}
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}
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}
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