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extern crate proc_macro;
use proc_macro::TokenStream;
use quote::ToTokens;
use syn::parse_macro_input;
/// Implements an [`Accounts`](./trait.Accounts.html) deserializer on the given
/// struct. Can provide further functionality through the use of attributes.
///
/// # Table of Contents
/// - [Instruction Attribute](#instruction-attribute)
/// - [Constraints](#constraints)
///
/// # Instruction Attribute
///
/// You can access the instruction's arguments with the
/// `#[instruction(..)]` attribute. You have to list them
/// in the same order as in the instruction but you can
/// omit all arguments after the last one you need.
///
/// # Example
///
/// ```ignore
/// ...
/// pub fn initialize(ctx: Context<Create>, bump: u8, authority: Pubkey, data: u64) -> anchor_lang::Result<()> {
/// ...
/// Ok(())
/// }
/// ...
/// #[derive(Accounts)]
/// #[instruction(bump: u8)]
/// pub struct Initialize<'info> {
/// ...
/// }
/// ```
///
/// # Constraints
///
/// There are different types of constraints that can be applied with the `#[account(..)]` attribute.
///
/// Attributes may reference other data structures. When `<expr>` is used in the tables below, an arbitrary expression
/// may be passed in as long as it evaluates to a value of the expected type, e.g. `owner = token_program.key()`. If `target_account`
/// used, the `target_account` must exist in the struct and the `.key()` is implicit, e.g. `payer = authority`.
///
/// - [Normal Constraints](#normal-constraints)
/// - [SPL Constraints](#spl-constraints)
///
/// # Normal Constraints
/// <table>
/// <thead>
/// <tr>
/// <th>Attribute</th>
/// <th>Description</th>
/// </tr>
/// </thead>
/// <tbody>
/// <tr>
/// <td>
/// <code>#[account(signer)]</code> <br><br><code>#[account(signer @ <custom_error>)]</code>
/// </td>
/// <td>
/// Checks the given account signed the transaction.<br>
/// Custom errors are supported via <code>@</code>.<br>
/// Consider using the <code>Signer</code> type if you would only have this constraint on the account.<br><br>
/// Example:
/// <pre><code>
/// #[account(signer)]
/// pub authority: AccountInfo<'info>,
/// #[account(signer @ MyError::MyErrorCode)]
/// pub payer: AccountInfo<'info>
/// </code></pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(mut)]</code> <br><br><code>#[account(mut @ <custom_error>)]</code>
/// </td>
/// <td>
/// Checks the given account is mutable.<br>
/// Makes anchor persist any state changes.<br>
/// Custom errors are supported via <code>@</code>.<br><br>
/// Example:
/// <pre><code>
/// #[account(mut)]
/// pub data_account: Account<'info, MyData>,
/// #[account(mut @ MyError::MyErrorCode)]
/// pub data_account_two: Account<'info, MyData>
/// </code></pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(init, payer = <target_account>, space = <num_bytes>)]</code>
/// </td>
/// <td>
/// Creates the account via a CPI to the system program and
/// initializes it (sets its account discriminator).<br>
/// Marks the account as mutable and is mutually exclusive with <code>mut</code>.<br>
/// Makes the account rent exempt unless skipped with <code>rent_exempt = skip</code>.<br><br>
/// Use <code>#[account(zero)]</code> for accounts larger than 10 Kibibyte.<br><br>
/// <code>init</code> has to be used with additional constraints:
/// <ul>
/// <li>
/// Requires the <code>payer</code> constraint to also be on the account.
/// The <code>payer</code> account pays for the
/// account creation.
/// </li>
/// <li>
/// Requires the system program to exist on the struct
/// and be called <code>system_program</code>.
/// </li>
/// <li>
/// Requires that the <code>space</code> constraint is specified.
/// When using the <code>space</code> constraint, one must remember to add 8 to it
/// which is the size of the account discriminator. This only has to be done
/// for accounts owned by anchor programs.<br>
/// The given space number is the size of the account in bytes, so accounts that hold
/// a variable number of items such as a <code>Vec</code> should allocate sufficient space for all items that may
/// be added to the data structure because account size is fixed.
/// Check out the <a href = "https://www.anchor-lang.com/docs/space" target = "_blank" rel = "noopener noreferrer">space reference</a>
/// and the <a href = "https://borsh.io/" target = "_blank" rel = "noopener noreferrer">borsh library</a>
/// (which anchor uses under the hood for serialization) specification to learn how much
/// space different data structures require.
/// </li>
/// <br>
/// Example:
/// <pre>
/// #[account]
/// pub struct MyData {
/// pub data: u64
/// }
/// #[derive(Accounts)]
/// pub struct Initialize<'info> {
/// #[account(init, payer = payer, space = 8 + 8)]
/// pub data_account_two: Account<'info, MyData>,
/// #[account(mut)]
/// pub payer: Signer<'info>,
/// pub system_program: Program<'info, System>,
/// }
/// </pre>
/// </ul>
/// <code>init</code> can be combined with other constraints (at the same time):
/// <ul>
/// <li>
/// By default <code>init</code> sets the owner field of the created account to the
/// currently executing program. Add the <code>owner</code> constraint to specify a
/// different program owner.
/// </li>
/// <li>
/// Use the <code>seeds</code> constraint together with <code>bump</code>to create PDAs.<br>
/// <code>init</code> uses <code>find_program_address</code> to calculate the pda so the
/// bump value can be left empty.<br>
/// However, if you want to use the bump in your instruction,
/// you can pass it in as instruction data and set the bump value like shown in the example,
/// using the <code>instruction_data</code> attribute.
/// Anchor will then check that the bump returned by <code>find_program_address</code> equals
/// the bump in the instruction data.<br>
/// <code>seeds::program</code> cannot be used together with init because the creation of an
/// account requires its signature which for PDAs only the currently executing program can provide.
/// </li>
/// </ul>
/// Example:
/// <pre>
/// #[derive(Accounts)]
/// #[instruction(bump: u8)]
/// pub struct Initialize<'info> {
/// #[account(
/// init, payer = payer, space = 8 + 8
/// seeds = [b"example_seed"], bump = bump
/// )]
/// pub pda_data_account: Account<'info, MyData>,
/// #[account(
/// init, payer = payer,
/// space = 8 + 8, owner = other_program.key()
/// )]
/// pub account_for_other_program: AccountInfo<'info>,
/// #[account(
/// init, payer = payer, space = 8 + 8,
/// owner = other_program.key(),
/// seeds = [b"other_seed"], bump
/// )]
/// pub pda_for_other_program: AccountInfo<'info>,
/// #[account(mut)]
/// pub payer: Signer<'info>,
/// pub system_program: Program<'info, System>,
/// pub other_program: Program<'info, OtherProgram>
/// }
/// </pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(init_if_needed, payer = <target_account>)]</code><br><br>
/// <code>#[account(init_if_needed, payer = <target_account>, space = <num_bytes>)]</code>
/// </td>
/// <td>
/// Exact same functionality as the <code>init</code> constraint but only runs if the account does not exist yet.<br>
/// If the account does exist, it still checks whether the given init constraints are correct,
/// e.g. that the account has the expected amount of space and, if it's a PDA, the correct seeds etc.<br><br>
/// This feature should be used with care and is therefore behind a feature flag.
/// You can enable it by importing <code>anchor-lang</code> with the <code>init-if-needed</code> cargo feature.<br>
/// When using <code>init_if_needed</code>, you need to make sure you properly protect yourself
/// against re-initialization attacks. You need to include checks in your code that check
/// that the initialized account cannot be reset to its initial settings after the first time it was
/// initialized (unless that it what you want).<br>
/// Because of the possibility of re-initialization attacks and the general guideline that instructions
/// should avoid having multiple execution flows (which is important so they remain easy to understand),
/// consider breaking up your instruction into two instructions - one for initializing and one for using
/// the account - unless you have a good reason not to do so.
/// <br><br>
/// Example:
/// <pre>
/// #[account]
/// #[derive(Default)]
/// pub struct MyData {
/// pub data: u64
/// }
/// #[account]
/// pub struct OtherData {
/// pub data: u64
/// }
/// #[derive(Accounts)]
/// pub struct Initialize<'info> {
/// #[account(init_if_needed, payer = payer)]
/// pub data_account: Account<'info, MyData>,
/// #[account(init_if_needed, payer = payer, space = 8 + 8)]
/// pub data_account_two: Account<'info, OtherData>,
/// #[account(mut)]
/// pub payer: Signer<'info>,
/// pub system_program: Program<'info, System>
/// }
/// </pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(seeds = <seeds>, bump)]</code><br><br>
/// <code>#[account(seeds = <seeds>, bump, seeds::program = <expr>)]<br><br>
/// <code>#[account(seeds = <seeds>, bump = <expr>)]</code><br><br>
/// <code>#[account(seeds = <seeds>, bump = <expr>, seeds::program = <expr>)]</code><br><br>
/// </td>
/// <td>
/// Checks that given account is a PDA derived from the currently executing program,
/// the seeds, and if provided, the bump. If not provided, anchor uses the canonical
/// bump. <br>
/// Add <code>seeds::program = <expr></code> to derive the PDA from a different
/// program than the currently executing one.<br>
/// This constraint behaves slightly differently when used with <code>init</code>.
/// See its description.
/// <br><br>
/// Example:
/// <pre><code>
/// #[derive(Accounts)]
/// #[instruction(first_bump: u8, second_bump: u8)]
/// pub struct Example {
/// #[account(seeds = [b"example_seed"], bump)]
/// pub canonical_pda: AccountInfo<'info>,
/// #[account(
/// seeds = [b"example_seed"],
/// bump,
/// seeds::program = other_program.key()
/// )]
/// pub canonical_pda_two: AccountInfo<'info>,
/// #[account(seeds = [b"other_seed"], bump = first_bump)]
/// pub arbitrary_pda: AccountInfo<'info>
/// #[account(
/// seeds = [b"other_seed"],
/// bump = second_bump,
/// seeds::program = other_program.key()
/// )]
/// pub arbitrary_pda_two: AccountInfo<'info>,
/// pub other_program: Program<'info, OtherProgram>
/// }
/// </code></pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(has_one = <target_account>)]</code><br><br>
/// <code>#[account(has_one = <target_account> @ <custom_error>)]</code>
/// </td>
/// <td>
/// Checks the <code>target_account</code> field on the account matches the
/// key of the <code>target_account</code> field in the Accounts struct.<br>
/// Custom errors are supported via <code>@</code>.<br><br>
/// Example:
/// <pre><code>
/// #[account(mut, has_one = authority)]
/// pub data: Account<'info, MyData>,
/// pub authority: Signer<'info>
/// </code></pre>
/// In this example <code>has_one</code> checks that <code>data.authority = authority.key()</code>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(address = <expr>)]</code><br><br>
/// <code>#[account(address = <expr> @ <custom_error>)]</code>
/// </td>
/// <td>
/// Checks the account key matches the pubkey.<br>
/// Custom errors are supported via <code>@</code>.<br><br>
/// Example:
/// <pre><code>
/// #[account(address = crate::ID)]
/// pub data: Account<'info, MyData>,
/// #[account(address = crate::ID @ MyError::MyErrorCode)]
/// pub data_two: Account<'info, MyData>
/// </code></pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(owner = <expr>)]</code><br><br>
/// <code>#[account(owner = <expr> @ <custom_error>)]</code>
/// </td>
/// <td>
/// Checks the account owner matches <code>expr</code>.<br>
/// Custom errors are supported via <code>@</code>.<br><br>
/// Example:
/// <pre><code>
/// #[account(owner = Token::ID @ MyError::MyErrorCode)]
/// pub data: Account<'info, MyData>,
/// #[account(owner = token_program.key())]
/// pub data_two: Account<'info, MyData>,
/// pub token_program: Program<'info, Token>
/// </code></pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(executable)]</code>
/// </td>
/// <td>
/// Checks the account is executable (i.e. the account is a program).<br>
/// You may want to use the <code>Program</code> type instead.<br><br>
/// Example:
/// <pre><code>
/// #[account(executable)]
/// pub my_program: AccountInfo<'info>
/// </code></pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(rent_exempt = skip)]</code><br><br>
/// <code>#[account(rent_exempt = enforce)]</code>
/// </td>
/// <td>
/// Enforces rent exemption with <code>= enforce</code>.<br>
/// Skips rent exemption check that would normally be done
/// through other constraints with <code>= skip</code>,
/// e.g. when used with the <code>zero</code> constraint<br><br>
/// Example:
/// <pre><code>
/// #[account(zero, rent_exempt = skip)]
/// pub skipped_account: Account<'info, MyData>,
/// #[account(rent_exempt = enforce)]
/// pub enforced_account: AccountInfo<'info>
/// </code></pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(zero)]</code>
/// </td>
/// <td>
/// Checks the account discriminator is zero.<br>
/// Enforces rent exemption unless skipped with <code>rent_exempt = skip</code>.<br><br>
/// Use this constraint if you want to create an account in a previous instruction
/// and then initialize it in your instruction instead of using <code>init</code>.
/// This is necessary for accounts that are larger than 10 Kibibyte because those
/// accounts cannot be created via a CPI (which is what <code>init</code> would do).<br><br>
/// Anchor adds internal data to the account when using <code>zero</code> just like it
/// does with <code>init</code> which is why <code>zero</code> implies <code>mut</code>.
/// <br><br>
/// Example:
/// <pre><code>
/// #[account(zero)]
/// pub my_account: Account<'info, MyData>
/// </code></pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(close = <target_account>)]</code>
/// </td>
/// <td>
/// Closes the account by:<br>
/// - Sending the lamports to the specified account<br>
/// - Assigning the owner to the System Program<br>
/// - Resetting the data of the account<br><br>
/// Requires <code>mut</code> to exist on the account.
/// <br><br>
/// Example:
/// <pre><code>
/// #[account(mut, close = receiver)]
/// pub data_account: Account<'info, MyData>,
/// #[account(mut)]
/// pub receiver: SystemAccount<'info>
/// </code></pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(constraint = <expr>)]</code><br><br><code>#[account(constraint = <expr> @ <custom_error>)]</code>
/// </td>
/// <td>
/// Constraint that checks whether the given expression evaluates to true.<br>
/// Use this when no other constraint fits your use case.
/// <br><br>
/// Example:
/// <pre><code>
/// #[account(constraint = one.keys[0].age == two.apple.age)]
/// pub one: Account<'info, MyData>,
/// pub two: Account<'info, OtherData>
/// </code></pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(realloc = <space>, realloc::payer = <target>, realloc::zero = <bool>)]</code>
/// </td>
/// <td>
/// Used to <a href="https://docs.rs/solana-program/latest/solana_program/account_info/struct.AccountInfo.html#method.realloc" target = "_blank" rel = "noopener noreferrer">realloc</a>
/// program account space at the beginning of an instruction.
/// <br><br>
/// The account must be marked as <code>mut</code> and applied to either <code>Account</code> or <code>AccountLoader</code> types.
/// <br><br>
/// If the change in account data length is additive, lamports will be transferred from the <code>realloc::payer</code> into the
/// program account in order to maintain rent exemption. Likewise, if the change is subtractive, lamports will be transferred from
/// the program account back into the <code>realloc::payer</code>.
/// <br><br>
/// The <code>realloc::zero</code> constraint is required in order to determine whether the new memory should be zero initialized after
/// reallocation. Please read the documentation on the <code>AccountInfo::realloc</code> function linked above to understand the
/// caveats regarding compute units when providing <code>true</code or <code>false</code> to this flag.
/// <br><br>
/// The manual use of `AccountInfo::realloc` is discouraged in favor of the `realloc` constraint group due to the lack of native runtime checks
/// to prevent reallocation over the `MAX_PERMITTED_DATA_INCREASE` limit (which can unintentionally cause account data overwrite other accounts).
/// The constraint group also ensure account reallocation idempotency but checking and restricting duplicate account reallocation within a single ix.
/// <br><br>
/// Example:
/// <pre>
/// #[derive(Accounts)]
/// pub struct Example {
/// #[account(mut)]
/// pub payer: Signer<'info>,
/// #[account(
/// mut,
/// seeds = [b"example"],
/// bump,
/// realloc = 8 + std::mem::size_of::<MyType>() + 100,
/// realloc::payer = payer,
/// realloc::zero = false,
/// )]
/// pub acc: Account<'info, MyType>,
/// pub system_program: Program<'info, System>,
/// }
/// </pre>
/// </td>
/// </tr>
/// </tbody>
/// </table>
///
/// # SPL Constraints
///
/// Anchor provides constraints that make verifying SPL accounts easier.
///
/// <table>
/// <thead>
/// <tr>
/// <th>Attribute</th>
/// <th>Description</th>
/// </tr>
/// </thead>
/// <tbody>
/// <tr>
/// <td>
/// <code>#[account(token::mint = <target_account>, token::authority = <target_account>)]</code>
/// <br><br>
/// <code>#[account(token::mint = <target_account>, token::authority = <target_account>, token::token_program = <target_account>)]</code>
/// </td>
/// <td>
/// Can be used as a check or with <code>init</code> to create a token
/// account with the given mint address and authority.<br>
/// When used as a check, it's possible to only specify a subset of the constraints.
/// <br><br>
/// Example:
/// <pre>
/// use anchor_spl::{mint, token::{TokenAccount, Mint, Token}};
/// ...
/// #[account(
/// init,
/// payer = payer,
/// token::mint = mint,
/// token::authority = payer,
/// )]
/// pub token: Account<'info, TokenAccount>,
/// #[account(address = mint::USDC)]
/// pub mint: Account<'info, Mint>,
/// #[account(mut)]
/// pub payer: Signer<'info>,
/// pub token_program: Program<'info, Token>,
/// pub system_program: Program<'info, System>
/// </pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(mint::authority = <target_account>, mint::decimals = <expr>)]</code>
/// <br><br>
/// <code>#[account(mint::authority = <target_account>, mint::decimals = <expr>, mint::freeze_authority = <target_account>)]</code>
/// </td>
/// <td>
/// Can be used as a check or with <code>init</code> to create a mint
/// account with the given mint decimals and mint authority.<br>
/// The freeze authority is optional when used with <code>init</code>.<br>
/// When used as a check, it's possible to only specify a subset of the constraints.
/// <br><br>
/// Example:
/// <pre>
/// use anchor_spl::token::{Mint, Token};
/// ...
/// #[account(
/// init,
/// payer = payer,
/// mint::decimals = 9,
/// mint::authority = payer,
/// )]
/// pub mint_one: Account<'info, Mint>,
/// #[account(
/// init,
/// payer = payer,
/// mint::decimals = 9,
/// mint::authority = payer,
/// mint::freeze_authority = payer
/// )]
/// pub mint_two: Account<'info, Mint>,
/// #[account(mut)]
/// pub payer: Signer<'info>,
/// pub token_program: Program<'info, Token>,
/// pub system_program: Program<'info, System>
/// </pre>
/// </td>
/// </tr>
/// <tr>
/// <td>
/// <code>#[account(associated_token::mint = <target_account>, associated_token::authority = <target_account>)]</code>
/// <br><br>
/// <code>#[account(associated_token::mint = <target_account>, associated_token::authority = <target_account>, associated_token::token_program = <target_account>)]</code>
/// </td>
/// <td>
/// Can be used as a standalone as a check or with <code>init</code> to create an associated token
/// account with the given mint address and authority.
/// <br><br>
/// Example:
/// <pre>
/// use anchor_spl::{
/// associated_token::AssociatedToken,
/// mint,
/// token::{TokenAccount, Mint, Token}
/// };
/// ...
/// #[account(
/// init,
/// payer = payer,
/// associated_token::mint = mint,
/// associated_token::authority = payer,
/// )]
/// pub token: Account<'info, TokenAccount>,
/// #[account(
/// associated_token::mint = mint,
/// associated_token::authority = payer,
/// )]
/// pub second_token: Account<'info, TokenAccount>,
/// #[account(address = mint::USDC)]
/// pub mint: Account<'info, Mint>,
/// #[account(mut)]
/// pub payer: Signer<'info>,
/// pub token_program: Program<'info, Token>,
/// pub associated_token_program: Program<'info, AssociatedToken>,
/// pub system_program: Program<'info, System>
/// </pre>
/// </td>
/// </tr><tr>
/// <td>
/// <code>#[account(*::token_program = <target_account>)]</code>
/// </td>
/// <td>
/// The <code>token_program</code> can optionally be overridden.
/// <br><br>
/// Example:
/// <pre>
/// use anchor_spl::token_interface::{TokenInterface, TokenAccount, Mint};
/// ...
/// #[account(
/// mint::token_program = token_a_token_program,
/// )]
/// pub token_a_mint: InterfaceAccount<'info, Mint>,
/// #[account(
/// mint::token_program = token_b_token_program,
/// )]
/// pub token_b_mint: InterfaceAccount<'info, Mint>,
/// #[account(
/// init,
/// payer = payer,
/// token::mint = token_a_mint,
/// token::authority = payer,
/// token::token_program = token_a_token_program,
/// )]
/// pub token_a_account: InterfaceAccount<'info, TokenAccount>,
/// #[account(
/// init,
/// payer = payer,
/// token::mint = token_b_mint,
/// token::authority = payer,
/// token::token_program = token_b_token_program,
/// )]
/// pub token_b_account: InterfaceAccount<'info, TokenAccount>,
/// pub token_a_token_program: Interface<'info, TokenInterface>,
/// pub token_b_token_program: Interface<'info, TokenInterface>,
/// #[account(mut)]
/// pub payer: Signer<'info>,
/// pub system_program: Program<'info, System>
/// </pre>
/// </td>
/// </tr>
/// <tbody>
/// </table>
#[proc_macro_derive(Accounts, attributes(account, instruction))]
pub fn derive_accounts(item: TokenStream) -> TokenStream {
parse_macro_input!(item as anchor_syn::AccountsStruct)
.to_token_stream()
.into()
}