logos-execution-zone/wallet/src/program_facades/amm.rs

use amm_core::{compute_liquidity_token_pda, compute_pool_pda, compute_vault_pda};
use common::HashType;
use nssa::{AccountId, program::Program};
use token_core::TokenHolding;

use crate::{ExecutionFailureKind, WalletCore, cli::CliAccountMention, signing::SigningGroups};
pub struct Amm<'wallet>(pub &'wallet WalletCore);

impl Amm<'_> {
    #[expect(clippy::too_many_arguments, reason = "each parameter is distinct")]
    pub async fn send_new_definition(
        &self,
        user_holding_a: AccountId,
        user_holding_b: AccountId,
        user_holding_lp: AccountId,
        balance_a: u128,
        balance_b: u128,
        a_mention: &CliAccountMention,
        b_mention: &CliAccountMention,
        lp_mention: &CliAccountMention,
    ) -> Result<HashType, ExecutionFailureKind> {
        let program = Program::amm();
        let amm_program_id = Program::amm().id();
        let instruction = amm_core::Instruction::NewDefinition {
            token_a_amount: balance_a,
            token_b_amount: balance_b,
            amm_program_id,
        };

        let user_a_acc = self
            .0
            .get_account_public(user_holding_a)
            .await
            .map_err(ExecutionFailureKind::SequencerError)?;
        let user_b_acc = self
            .0
            .get_account_public(user_holding_b)
            .await
            .map_err(ExecutionFailureKind::SequencerError)?;

        let definition_token_a_id = TokenHolding::try_from(&user_a_acc.data)
            .map_err(|_err| ExecutionFailureKind::AccountDataError(user_holding_a))?
            .definition_id();
        let definition_token_b_id = TokenHolding::try_from(&user_b_acc.data)
            .map_err(|_err| ExecutionFailureKind::AccountDataError(user_holding_b))?
            .definition_id();

        let amm_pool =
            compute_pool_pda(amm_program_id, definition_token_a_id, definition_token_b_id);
        let vault_holding_a = compute_vault_pda(amm_program_id, amm_pool, definition_token_a_id);
        let vault_holding_b = compute_vault_pda(amm_program_id, amm_pool, definition_token_b_id);
        let pool_lp = compute_liquidity_token_pda(amm_program_id, amm_pool);

        let account_ids = vec![
            amm_pool,
            vault_holding_a,
            vault_holding_b,
            pool_lp,
            user_holding_a,
            user_holding_b,
            user_holding_lp,
        ];

        let mut groups = SigningGroups::new();
        groups
            .add_required(a_mention, user_holding_a, self.0)
            .and_then(|()| groups.add_required(b_mention, user_holding_b, self.0))
            .and_then(|()| groups.add_optional(lp_mention, user_holding_lp, self.0))
            .map_err(ExecutionFailureKind::from_anyhow)?;

        self.0
            .send_public_tx(&program, account_ids, instruction, groups)
            .await
    }

    #[expect(clippy::too_many_arguments, reason = "each parameter is distinct")]
    pub async fn send_swap_exact_input(
        &self,
        user_holding_a: AccountId,
        user_holding_b: AccountId,
        swap_amount_in: u128,
        min_amount_out: u128,
        token_definition_id_in: AccountId,
        a_mention: &CliAccountMention,
        b_mention: &CliAccountMention,
    ) -> Result<HashType, ExecutionFailureKind> {
        let instruction = amm_core::Instruction::SwapExactInput {
            swap_amount_in,
            min_amount_out,
            token_definition_id_in,
        };
        let program = Program::amm();
        let amm_program_id = Program::amm().id();

        let user_a_acc = self
            .0
            .get_account_public(user_holding_a)
            .await
            .map_err(ExecutionFailureKind::SequencerError)?;
        let user_b_acc = self
            .0
            .get_account_public(user_holding_b)
            .await
            .map_err(ExecutionFailureKind::SequencerError)?;

        let definition_token_a_id = TokenHolding::try_from(&user_a_acc.data)
            .map_err(|_err| ExecutionFailureKind::AccountDataError(user_holding_a))?
            .definition_id();
        let definition_token_b_id = TokenHolding::try_from(&user_b_acc.data)
            .map_err(|_err| ExecutionFailureKind::AccountDataError(user_holding_b))?
            .definition_id();

        let amm_pool =
            compute_pool_pda(amm_program_id, definition_token_a_id, definition_token_b_id);
        let vault_holding_a = compute_vault_pda(amm_program_id, amm_pool, definition_token_a_id);
        let vault_holding_b = compute_vault_pda(amm_program_id, amm_pool, definition_token_b_id);

        let account_ids = vec![
            amm_pool,
            vault_holding_a,
            vault_holding_b,
            user_holding_a,
            user_holding_b,
        ];

        let (account_id_auth, seller_mention) = if definition_token_a_id == token_definition_id_in {
            (user_holding_a, a_mention)
        } else if definition_token_b_id == token_definition_id_in {
            (user_holding_b, b_mention)
        } else {
            return Err(ExecutionFailureKind::AccountDataError(
                token_definition_id_in,
            ));
        };

        let mut groups = SigningGroups::new();
        groups
            .add_required(seller_mention, account_id_auth, self.0)
            .map_err(ExecutionFailureKind::from_anyhow)?;
        self.0
            .send_public_tx(&program, account_ids, instruction, groups)
            .await
    }

    #[expect(clippy::too_many_arguments, reason = "each parameter is distinct")]
    pub async fn send_swap_exact_output(
        &self,
        user_holding_a: AccountId,
        user_holding_b: AccountId,
        exact_amount_out: u128,
        max_amount_in: u128,
        token_definition_id_in: AccountId,
        a_mention: &CliAccountMention,
        b_mention: &CliAccountMention,
    ) -> Result<HashType, ExecutionFailureKind> {
        let instruction = amm_core::Instruction::SwapExactOutput {
            exact_amount_out,
            max_amount_in,
            token_definition_id_in,
        };
        let program = Program::amm();
        let amm_program_id = Program::amm().id();

        let user_a_acc = self
            .0
            .get_account_public(user_holding_a)
            .await
            .map_err(ExecutionFailureKind::SequencerError)?;
        let user_b_acc = self
            .0
            .get_account_public(user_holding_b)
            .await
            .map_err(ExecutionFailureKind::SequencerError)?;

        let definition_token_a_id = TokenHolding::try_from(&user_a_acc.data)
            .map_err(|_err| ExecutionFailureKind::AccountDataError(user_holding_a))?
            .definition_id();
        let definition_token_b_id = TokenHolding::try_from(&user_b_acc.data)
            .map_err(|_err| ExecutionFailureKind::AccountDataError(user_holding_b))?
            .definition_id();

        let amm_pool =
            compute_pool_pda(amm_program_id, definition_token_a_id, definition_token_b_id);
        let vault_holding_a = compute_vault_pda(amm_program_id, amm_pool, definition_token_a_id);
        let vault_holding_b = compute_vault_pda(amm_program_id, amm_pool, definition_token_b_id);

        let account_ids = vec![
            amm_pool,
            vault_holding_a,
            vault_holding_b,
            user_holding_a,
            user_holding_b,
        ];

        let (account_id_auth, seller_mention) = if definition_token_a_id == token_definition_id_in {
            (user_holding_a, a_mention)
        } else if definition_token_b_id == token_definition_id_in {
            (user_holding_b, b_mention)
        } else {
            return Err(ExecutionFailureKind::AccountDataError(
                token_definition_id_in,
            ));
        };

        let mut groups = SigningGroups::new();
        groups
            .add_required(seller_mention, account_id_auth, self.0)
            .map_err(ExecutionFailureKind::from_anyhow)?;
        self.0
            .send_public_tx(&program, account_ids, instruction, groups)
            .await
    }

    #[expect(clippy::too_many_arguments, reason = "each parameter is distinct")]
    pub async fn send_add_liquidity(
        &self,
        user_holding_a: AccountId,
        user_holding_b: AccountId,
        user_holding_lp: AccountId,
        min_amount_liquidity: u128,
        max_amount_to_add_token_a: u128,
        max_amount_to_add_token_b: u128,
        a_mention: &CliAccountMention,
        b_mention: &CliAccountMention,
        lp_mention: &CliAccountMention,
    ) -> Result<HashType, ExecutionFailureKind> {
        let instruction = amm_core::Instruction::AddLiquidity {
            min_amount_liquidity,
            max_amount_to_add_token_a,
            max_amount_to_add_token_b,
        };
        let program = Program::amm();
        let amm_program_id = Program::amm().id();

        let user_a_acc = self
            .0
            .get_account_public(user_holding_a)
            .await
            .map_err(ExecutionFailureKind::SequencerError)?;
        let user_b_acc = self
            .0
            .get_account_public(user_holding_b)
            .await
            .map_err(ExecutionFailureKind::SequencerError)?;

        let definition_token_a_id = TokenHolding::try_from(&user_a_acc.data)
            .map_err(|_err| ExecutionFailureKind::AccountDataError(user_holding_a))?
            .definition_id();
        let definition_token_b_id = TokenHolding::try_from(&user_b_acc.data)
            .map_err(|_err| ExecutionFailureKind::AccountDataError(user_holding_b))?
            .definition_id();

        let amm_pool =
            compute_pool_pda(amm_program_id, definition_token_a_id, definition_token_b_id);
        let vault_holding_a = compute_vault_pda(amm_program_id, amm_pool, definition_token_a_id);
        let vault_holding_b = compute_vault_pda(amm_program_id, amm_pool, definition_token_b_id);
        let pool_lp = compute_liquidity_token_pda(amm_program_id, amm_pool);

        let account_ids = vec![
            amm_pool,
            vault_holding_a,
            vault_holding_b,
            pool_lp,
            user_holding_a,
            user_holding_b,
            user_holding_lp,
        ];

        let mut groups = SigningGroups::new();
        groups
            .add_required(a_mention, user_holding_a, self.0)
            .and_then(|()| groups.add_required(b_mention, user_holding_b, self.0))
            .and_then(|()| groups.add_optional(lp_mention, user_holding_lp, self.0))
            .map_err(ExecutionFailureKind::from_anyhow)?;

        self.0
            .send_public_tx(&program, account_ids, instruction, groups)
            .await
    }

    #[expect(clippy::too_many_arguments, reason = "each parameter is distinct")]
    pub async fn send_remove_liquidity(
        &self,
        user_holding_a: AccountId,
        user_holding_b: AccountId,
        user_holding_lp: AccountId,
        remove_liquidity_amount: u128,
        min_amount_to_remove_token_a: u128,
        min_amount_to_remove_token_b: u128,
        lp_mention: &CliAccountMention,
    ) -> Result<HashType, ExecutionFailureKind> {
        let instruction = amm_core::Instruction::RemoveLiquidity {
            remove_liquidity_amount,
            min_amount_to_remove_token_a,
            min_amount_to_remove_token_b,
        };
        let program = Program::amm();
        let amm_program_id = Program::amm().id();

        let user_a_acc = self
            .0
            .get_account_public(user_holding_a)
            .await
            .map_err(ExecutionFailureKind::SequencerError)?;
        let user_b_acc = self
            .0
            .get_account_public(user_holding_b)
            .await
            .map_err(ExecutionFailureKind::SequencerError)?;

        let definition_token_a_id = TokenHolding::try_from(&user_a_acc.data)
            .map_err(|_err| ExecutionFailureKind::AccountDataError(user_holding_a))?
            .definition_id();
        let definition_token_b_id = TokenHolding::try_from(&user_b_acc.data)
            .map_err(|_err| ExecutionFailureKind::AccountDataError(user_holding_b))?
            .definition_id();

        let amm_pool =
            compute_pool_pda(amm_program_id, definition_token_a_id, definition_token_b_id);
        let vault_holding_a = compute_vault_pda(amm_program_id, amm_pool, definition_token_a_id);
        let vault_holding_b = compute_vault_pda(amm_program_id, amm_pool, definition_token_b_id);
        let pool_lp = compute_liquidity_token_pda(amm_program_id, amm_pool);

        let account_ids = vec![
            amm_pool,
            vault_holding_a,
            vault_holding_b,
            pool_lp,
            user_holding_a,
            user_holding_b,
            user_holding_lp,
        ];

        let mut groups = SigningGroups::new();
        groups
            .add_required(lp_mention, user_holding_lp, self.0)
            .map_err(ExecutionFailureKind::from_anyhow)?;
        self.0
            .send_public_tx(&program, account_ids, instruction, groups)
            .await
    }
}
refactor AMM 2026-01-23 16:30:54 -05:00			`use amm_core::{compute_liquidity_token_pda, compute_pool_pda, compute_vault_pda};`
refactored 2026-05-17 12:32:43 -04:00			`use common::HashType;`
			`use nssa::{AccountId, program::Program};`
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`use token_core::TokenHolding;`
fix: public swaps 2025-12-17 14:21:36 +02:00
refactored 2026-05-17 12:32:43 -04:00			`use crate::{ExecutionFailureKind, WalletCore, cli::CliAccountMention, signing::SigningGroups};`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`pub struct Amm<'wallet>(pub &'wallet WalletCore);`
fix: suggestions fix 2025-12-22 04:42:32 +02:00
			`impl Amm<'_> {`
updating logic 2026-05-15 18:15:54 -04:00			`#[expect(clippy::too_many_arguments, reason = "each parameter is distinct")]`
fix: suggestions fix 2025-12-22 04:42:32 +02:00			`pub async fn send_new_definition(`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`&self,`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`user_holding_a: AccountId,`
			`user_holding_b: AccountId,`
			`user_holding_lp: AccountId,`
fix: intercommit 2025-12-17 11:44:52 +02:00			`balance_a: u128,`
			`balance_b: u128,`
updating logic 2026-05-15 18:15:54 -04:00			`a_mention: &CliAccountMention,`
			`b_mention: &CliAccountMention,`
			`lp_mention: &CliAccountMention,`
feat: refactor sequencer RPC client-side 2026-03-13 22:38:23 +03:00			`) -> Result<HashType, ExecutionFailureKind> {`
refactor AMM 2026-01-23 16:30:54 -05:00			`let program = Program::amm();`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`let amm_program_id = Program::amm().id();`
refactor AMM 2026-01-23 16:30:54 -05:00			`let instruction = amm_core::Instruction::NewDefinition {`
			`token_a_amount: balance_a,`
			`token_b_amount: balance_b,`
			`amm_program_id,`
			`};`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
fix: suggestions fix 2025-12-22 04:42:32 +02:00			`let user_a_acc = self`
			`.0`
			`.get_account_public(user_holding_a)`
			`.await`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(ExecutionFailureKind::SequencerError)?;`
fix: suggestions fix 2025-12-22 04:42:32 +02:00			`let user_b_acc = self`
			`.0`
			`.get_account_public(user_holding_b)`
			`.await`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(ExecutionFailureKind::SequencerError)?;`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`let definition_token_a_id = TokenHolding::try_from(&user_a_acc.data)`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(\|_err\| ExecutionFailureKind::AccountDataError(user_holding_a))?`
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`.definition_id();`
			`let definition_token_b_id = TokenHolding::try_from(&user_b_acc.data)`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(\|_err\| ExecutionFailureKind::AccountDataError(user_holding_b))?`
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`.definition_id();`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
			`let amm_pool =`
			`compute_pool_pda(amm_program_id, definition_token_a_id, definition_token_b_id);`
			`let vault_holding_a = compute_vault_pda(amm_program_id, amm_pool, definition_token_a_id);`
			`let vault_holding_b = compute_vault_pda(amm_program_id, amm_pool, definition_token_b_id);`
			`let pool_lp = compute_liquidity_token_pda(amm_program_id, amm_pool);`

			`let account_ids = vec![`
			`amm_pool,`
			`vault_holding_a,`
			`vault_holding_b,`
			`pool_lp,`
			`user_holding_a,`
			`user_holding_b,`
			`user_holding_lp,`
			`];`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00
updating logic 2026-05-15 18:15:54 -04:00			`let mut groups = SigningGroups::new();`
			`groups`
addressing comments 2026-05-18 15:33:26 -04:00			`.add_required(a_mention, user_holding_a, self.0)`
			`.and_then(\|()\| groups.add_required(b_mention, user_holding_b, self.0))`
			`.and_then(\|()\| groups.add_optional(lp_mention, user_holding_lp, self.0))`
refactored 2026-05-17 12:32:43 -04:00			`.map_err(ExecutionFailureKind::from_anyhow)?;`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
refactored 2026-05-17 12:32:43 -04:00			`self.0`
addressing comments 2026-05-18 15:33:26 -04:00			`.send_public_tx(&program, account_ids, instruction, groups)`
refactored 2026-05-17 12:32:43 -04:00			`.await`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`}`

updating logic 2026-05-15 18:15:54 -04:00			`#[expect(clippy::too_many_arguments, reason = "each parameter is distinct")]`
chore(programs/amm): rename Swap to SwapExactInput 2026-04-02 09:28:33 +02:00			`pub async fn send_swap_exact_input(`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`&self,`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`user_holding_a: AccountId,`
			`user_holding_b: AccountId,`
refactor AMM 2026-01-23 16:30:54 -05:00			`swap_amount_in: u128,`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`min_amount_out: u128,`
refactor AMM 2026-01-23 16:30:54 -05:00			`token_definition_id_in: AccountId,`
updating logic 2026-05-15 18:15:54 -04:00			`a_mention: &CliAccountMention,`
			`b_mention: &CliAccountMention,`
feat: refactor sequencer RPC client-side 2026-03-13 22:38:23 +03:00			`) -> Result<HashType, ExecutionFailureKind> {`
chore(programs/amm): rename Swap to SwapExactInput 2026-04-02 09:28:33 +02:00			`let instruction = amm_core::Instruction::SwapExactInput {`
refactor AMM 2026-01-23 16:30:54 -05:00			`swap_amount_in,`
			`min_amount_out,`
			`token_definition_id_in,`
			`};`
			`let program = Program::amm();`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`let amm_program_id = Program::amm().id();`

fix: suggestions fix 2025-12-22 04:42:32 +02:00			`let user_a_acc = self`
			`.0`
			`.get_account_public(user_holding_a)`
			`.await`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(ExecutionFailureKind::SequencerError)?;`
fix: suggestions fix 2025-12-22 04:42:32 +02:00			`let user_b_acc = self`
			`.0`
			`.get_account_public(user_holding_b)`
			`.await`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(ExecutionFailureKind::SequencerError)?;`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`let definition_token_a_id = TokenHolding::try_from(&user_a_acc.data)`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(\|_err\| ExecutionFailureKind::AccountDataError(user_holding_a))?`
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`.definition_id();`
			`let definition_token_b_id = TokenHolding::try_from(&user_b_acc.data)`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(\|_err\| ExecutionFailureKind::AccountDataError(user_holding_b))?`
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`.definition_id();`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
			`let amm_pool =`
			`compute_pool_pda(amm_program_id, definition_token_a_id, definition_token_b_id);`
			`let vault_holding_a = compute_vault_pda(amm_program_id, amm_pool, definition_token_a_id);`
			`let vault_holding_b = compute_vault_pda(amm_program_id, amm_pool, definition_token_b_id);`

			`let account_ids = vec![`
			`amm_pool,`
			`vault_holding_a,`
			`vault_holding_b,`
			`user_holding_a,`
			`user_holding_b,`
			`];`

updating logic 2026-05-15 18:15:54 -04:00			`let (account_id_auth, seller_mention) = if definition_token_a_id == token_definition_id_in {`
			`(user_holding_a, a_mention)`
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`} else if definition_token_b_id == token_definition_id_in {`
updating logic 2026-05-15 18:15:54 -04:00			`(user_holding_b, b_mention)`
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`} else {`
refactored 2026-05-17 12:32:43 -04:00			`return Err(ExecutionFailureKind::AccountDataError(`
			`token_definition_id_in,`
			`));`
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`};`

updating logic 2026-05-15 18:15:54 -04:00			`let mut groups = SigningGroups::new();`
			`groups`
addressing comments 2026-05-18 15:33:26 -04:00			`.add_required(seller_mention, account_id_auth, self.0)`
refactored 2026-05-17 12:32:43 -04:00			`.map_err(ExecutionFailureKind::from_anyhow)?;`
			`self.0`
			`.send_public_tx(&program, account_ids, instruction, groups)`
			`.await`
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`}`

updating logic 2026-05-15 18:15:54 -04:00			`#[expect(clippy::too_many_arguments, reason = "each parameter is distinct")]`
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`pub async fn send_swap_exact_output(`
			`&self,`
			`user_holding_a: AccountId,`
			`user_holding_b: AccountId,`
			`exact_amount_out: u128,`
			`max_amount_in: u128,`
			`token_definition_id_in: AccountId,`
updating logic 2026-05-15 18:15:54 -04:00			`a_mention: &CliAccountMention,`
			`b_mention: &CliAccountMention,`
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`) -> Result<HashType, ExecutionFailureKind> {`
			`let instruction = amm_core::Instruction::SwapExactOutput {`
			`exact_amount_out,`
			`max_amount_in,`
			`token_definition_id_in,`
			`};`
			`let program = Program::amm();`
			`let amm_program_id = Program::amm().id();`

			`let user_a_acc = self`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`.0`
			`.get_account_public(user_holding_a)`
			`.await`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(ExecutionFailureKind::SequencerError)?;`
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`let user_b_acc = self`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`.0`
			`.get_account_public(user_holding_b)`
			`.await`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(ExecutionFailureKind::SequencerError)?;`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`let definition_token_a_id = TokenHolding::try_from(&user_a_acc.data)`
			`.map_err(\|_err\| ExecutionFailureKind::AccountDataError(user_holding_a))?`
			`.definition_id();`
			`let definition_token_b_id = TokenHolding::try_from(&user_b_acc.data)`
			`.map_err(\|_err\| ExecutionFailureKind::AccountDataError(user_holding_b))?`
			`.definition_id();`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`let amm_pool =`
			`compute_pool_pda(amm_program_id, definition_token_a_id, definition_token_b_id);`
			`let vault_holding_a = compute_vault_pda(amm_program_id, amm_pool, definition_token_a_id);`
			`let vault_holding_b = compute_vault_pda(amm_program_id, amm_pool, definition_token_b_id);`

			`let account_ids = vec![`
			`amm_pool,`
			`vault_holding_a,`
			`vault_holding_b,`
			`user_holding_a,`
			`user_holding_b,`
			`];`

updating logic 2026-05-15 18:15:54 -04:00			`let (account_id_auth, seller_mention) = if definition_token_a_id == token_definition_id_in {`
			`(user_holding_a, a_mention)`
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`} else if definition_token_b_id == token_definition_id_in {`
updating logic 2026-05-15 18:15:54 -04:00			`(user_holding_b, b_mention)`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`} else {`
refactored 2026-05-17 12:32:43 -04:00			`return Err(ExecutionFailureKind::AccountDataError(`
			`token_definition_id_in,`
			`));`
feat(programs/amm): add swap exact output functionality 2026-02-25 13:11:54 +01:00			`};`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00
updating logic 2026-05-15 18:15:54 -04:00			`let mut groups = SigningGroups::new();`
			`groups`
addressing comments 2026-05-18 15:33:26 -04:00			`.add_required(seller_mention, account_id_auth, self.0)`
refactored 2026-05-17 12:32:43 -04:00			`.map_err(ExecutionFailureKind::from_anyhow)?;`
			`self.0`
			`.send_public_tx(&program, account_ids, instruction, groups)`
			`.await`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`}`

updating logic 2026-05-15 18:15:54 -04:00			`#[expect(clippy::too_many_arguments, reason = "each parameter is distinct")]`
fix: suggestions fix 2025-12-22 04:42:32 +02:00			`pub async fn send_add_liquidity(`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`&self,`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`user_holding_a: AccountId,`
			`user_holding_b: AccountId,`
			`user_holding_lp: AccountId,`
refactor AMM 2026-01-23 16:30:54 -05:00			`min_amount_liquidity: u128,`
			`max_amount_to_add_token_a: u128,`
			`max_amount_to_add_token_b: u128,`
updating logic 2026-05-15 18:15:54 -04:00			`a_mention: &CliAccountMention,`
			`b_mention: &CliAccountMention,`
refactored 2026-05-17 12:32:43 -04:00			`lp_mention: &CliAccountMention,`
feat: refactor sequencer RPC client-side 2026-03-13 22:38:23 +03:00			`) -> Result<HashType, ExecutionFailureKind> {`
refactor AMM 2026-01-23 16:30:54 -05:00			`let instruction = amm_core::Instruction::AddLiquidity {`
			`min_amount_liquidity,`
			`max_amount_to_add_token_a,`
			`max_amount_to_add_token_b,`
			`};`
			`let program = Program::amm();`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`let amm_program_id = Program::amm().id();`

fix: suggestions fix 2025-12-22 04:42:32 +02:00			`let user_a_acc = self`
			`.0`
			`.get_account_public(user_holding_a)`
			`.await`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(ExecutionFailureKind::SequencerError)?;`
fix: suggestions fix 2025-12-22 04:42:32 +02:00			`let user_b_acc = self`
			`.0`
			`.get_account_public(user_holding_b)`
			`.await`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(ExecutionFailureKind::SequencerError)?;`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`let definition_token_a_id = TokenHolding::try_from(&user_a_acc.data)`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(\|_err\| ExecutionFailureKind::AccountDataError(user_holding_a))?`
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`.definition_id();`
			`let definition_token_b_id = TokenHolding::try_from(&user_b_acc.data)`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(\|_err\| ExecutionFailureKind::AccountDataError(user_holding_b))?`
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`.definition_id();`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
			`let amm_pool =`
			`compute_pool_pda(amm_program_id, definition_token_a_id, definition_token_b_id);`
			`let vault_holding_a = compute_vault_pda(amm_program_id, amm_pool, definition_token_a_id);`
			`let vault_holding_b = compute_vault_pda(amm_program_id, amm_pool, definition_token_b_id);`
			`let pool_lp = compute_liquidity_token_pda(amm_program_id, amm_pool);`

			`let account_ids = vec![`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`amm_pool,`
			`vault_holding_a,`
			`vault_holding_b,`
			`pool_lp,`
			`user_holding_a,`
			`user_holding_b,`
			`user_holding_lp,`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`];`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00
updating logic 2026-05-15 18:15:54 -04:00			`let mut groups = SigningGroups::new();`
			`groups`
addressing comments 2026-05-18 15:33:26 -04:00			`.add_required(a_mention, user_holding_a, self.0)`
			`.and_then(\|()\| groups.add_required(b_mention, user_holding_b, self.0))`
			`.and_then(\|()\| groups.add_optional(lp_mention, user_holding_lp, self.0))`
refactored 2026-05-17 12:32:43 -04:00			`.map_err(ExecutionFailureKind::from_anyhow)?;`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
refactored 2026-05-17 12:32:43 -04:00			`self.0`
addressing comments 2026-05-18 15:33:26 -04:00			`.send_public_tx(&program, account_ids, instruction, groups)`
refactored 2026-05-17 12:32:43 -04:00			`.await`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`}`

updating logic 2026-05-15 18:15:54 -04:00			`#[expect(clippy::too_many_arguments, reason = "each parameter is distinct")]`
fix: suggestions fix 2025-12-22 04:42:32 +02:00			`pub async fn send_remove_liquidity(`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`&self,`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`user_holding_a: AccountId,`
			`user_holding_b: AccountId,`
			`user_holding_lp: AccountId,`
refactor AMM 2026-01-23 16:30:54 -05:00			`remove_liquidity_amount: u128,`
			`min_amount_to_remove_token_a: u128,`
			`min_amount_to_remove_token_b: u128,`
updating logic 2026-05-15 18:15:54 -04:00			`lp_mention: &CliAccountMention,`
feat: refactor sequencer RPC client-side 2026-03-13 22:38:23 +03:00			`) -> Result<HashType, ExecutionFailureKind> {`
refactor AMM 2026-01-23 16:30:54 -05:00			`let instruction = amm_core::Instruction::RemoveLiquidity {`
			`remove_liquidity_amount,`
			`min_amount_to_remove_token_a,`
			`min_amount_to_remove_token_b,`
			`};`
			`let program = Program::amm();`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`let amm_program_id = Program::amm().id();`

fix: suggestions fix 2025-12-22 04:42:32 +02:00			`let user_a_acc = self`
			`.0`
			`.get_account_public(user_holding_a)`
			`.await`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(ExecutionFailureKind::SequencerError)?;`
fix: suggestions fix 2025-12-22 04:42:32 +02:00			`let user_b_acc = self`
			`.0`
			`.get_account_public(user_holding_b)`
			`.await`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(ExecutionFailureKind::SequencerError)?;`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`let definition_token_a_id = TokenHolding::try_from(&user_a_acc.data)`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(\|_err\| ExecutionFailureKind::AccountDataError(user_holding_a))?`
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`.definition_id();`
			`let definition_token_b_id = TokenHolding::try_from(&user_b_acc.data)`
feat: add restriction clippy lints 2026-03-04 18:42:33 +03:00			`.map_err(\|_err\| ExecutionFailureKind::AccountDataError(user_holding_b))?`
refactor: split token program into crates 2026-01-16 04:11:33 +03:00			`.definition_id();`
fix: public execution finalized 2025-12-18 11:44:38 +02:00
			`let amm_pool =`
			`compute_pool_pda(amm_program_id, definition_token_a_id, definition_token_b_id);`
			`let vault_holding_a = compute_vault_pda(amm_program_id, amm_pool, definition_token_a_id);`
			`let vault_holding_b = compute_vault_pda(amm_program_id, amm_pool, definition_token_b_id);`
			`let pool_lp = compute_liquidity_token_pda(amm_program_id, amm_pool);`

			`let account_ids = vec![`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`amm_pool,`
			`vault_holding_a,`
			`vault_holding_b,`
			`pool_lp,`
			`user_holding_a,`
			`user_holding_b,`
			`user_holding_lp,`
fix: public execution finalized 2025-12-18 11:44:38 +02:00			`];`

updating logic 2026-05-15 18:15:54 -04:00			`let mut groups = SigningGroups::new();`
			`groups`
addressing comments 2026-05-18 15:33:26 -04:00			`.add_required(lp_mention, user_holding_lp, self.0)`
refactored 2026-05-17 12:32:43 -04:00			`.map_err(ExecutionFailureKind::from_anyhow)?;`
			`self.0`
			`.send_public_tx(&program, account_ids, instruction, groups)`
			`.await`
feat: swaps, add/rem liq 2025-12-16 14:05:34 +02:00			`}`
			`}`