Module orca_whirlpool.internal.anchor.instructions.close_position

Expand source code 
from __future__ import annotations
import typing
from solders.pubkey import Pubkey
from spl.token.constants import TOKEN_PROGRAM_ID
from solders.instruction import Instruction, AccountMeta
from ..program_id import PROGRAM_ID


class ClosePositionAccounts(typing.TypedDict):
    position_authority: Pubkey
    receiver: Pubkey
    position: Pubkey
    position_mint: Pubkey
    position_token_account: Pubkey


def close_position(
    accounts: ClosePositionAccounts,
    program_id: Pubkey = PROGRAM_ID,
    remaining_accounts: typing.Optional[typing.List[AccountMeta]] = None,
) -> Instruction:
    keys: list[AccountMeta] = [
        AccountMeta(
            pubkey=accounts["position_authority"], is_signer=True, is_writable=False
        ),
        AccountMeta(pubkey=accounts["receiver"], is_signer=False, is_writable=True),
        AccountMeta(pubkey=accounts["position"], is_signer=False, is_writable=True),
        AccountMeta(
            pubkey=accounts["position_mint"], is_signer=False, is_writable=True
        ),
        AccountMeta(
            pubkey=accounts["position_token_account"], is_signer=False, is_writable=True
        ),
        AccountMeta(pubkey=TOKEN_PROGRAM_ID, is_signer=False, is_writable=False),
    ]
    if remaining_accounts is not None:
        keys += remaining_accounts
    identifier = b"{\x86Q\x001Dbb"
    encoded_args = b""
    data = identifier + encoded_args
    return Instruction(program_id, data, keys)

Functions

def close_position(accounts: ClosePositionAccounts, program_id: Pubkey = Pubkey( whirLbMiicVdio4qvUfM5KAg6Ct8VwpYzGff3uctyCc, ), remaining_accounts: typing.Optional[typing.List[AccountMeta]] = None) ‑> solders.instruction.Instruction
Expand source code 
def close_position(
    accounts: ClosePositionAccounts,
    program_id: Pubkey = PROGRAM_ID,
    remaining_accounts: typing.Optional[typing.List[AccountMeta]] = None,
) -> Instruction:
    keys: list[AccountMeta] = [
        AccountMeta(
            pubkey=accounts["position_authority"], is_signer=True, is_writable=False
        ),
        AccountMeta(pubkey=accounts["receiver"], is_signer=False, is_writable=True),
        AccountMeta(pubkey=accounts["position"], is_signer=False, is_writable=True),
        AccountMeta(
            pubkey=accounts["position_mint"], is_signer=False, is_writable=True
        ),
        AccountMeta(
            pubkey=accounts["position_token_account"], is_signer=False, is_writable=True
        ),
        AccountMeta(pubkey=TOKEN_PROGRAM_ID, is_signer=False, is_writable=False),
    ]
    if remaining_accounts is not None:
        keys += remaining_accounts
    identifier = b"{\x86Q\x001Dbb"
    encoded_args = b""
    data = identifier + encoded_args
    return Instruction(program_id, data, keys)

Classes

class ClosePositionAccounts (*args, **kwargs)

dict() -> new empty dictionary dict(mapping) -> new dictionary initialized from a mapping object's (key, value) pairs dict(iterable) -> new dictionary initialized as if via: d = {} for k, v in iterable: d[k] = v dict(**kwargs) -> new dictionary initialized with the name=value pairs in the keyword argument list. For example: dict(one=1, two=2)

Expand source code 
class ClosePositionAccounts(typing.TypedDict):
    position_authority: Pubkey
    receiver: Pubkey
    position: Pubkey
    position_mint: Pubkey
    position_token_account: Pubkey

Ancestors

  • builtins.dict

Class variables

var position : solders.pubkey.Pubkey
var position_authority : solders.pubkey.Pubkey
var position_mint : solders.pubkey.Pubkey
var position_token_account : solders.pubkey.Pubkey
var receiver : solders.pubkey.Pubkey