Source code for stellar_sdk.asset

import re
from typing import Optional, Dict

from . import xdr as stellar_xdr
from .exceptions import AssetCodeInvalidError, AssetIssuerInvalidError, AttributeError
from .keypair import Keypair
from .strkey import StrKey

__all__ = ["Asset"]


[docs]class Asset: """The :class:`Asset` object, which represents an asset and its corresponding issuer on the Stellar network. For more information about the formats used for asset codes and how issuers work on Stellar's network, see `Stellar's guide on assets`_. :param code: The asset code, in the formats specified in `Stellar's guide on assets`_. :param issuer: The account ID of the issuer. Note if the currency is the native currency (XLM (Lumens)), no issuer is necessary. :raises: | :exc:`AssetCodeInvalidError <stellar_sdk.exceptions.AssetCodeInvalidError>`: if ``code`` is invalid. | :exc:`AssetIssuerInvalidError <stellar_sdk.exceptions.AssetIssuerInvalidError>`: if ``issuer`` is not a valid ed25519 public key. .. _Stellar's guide on assets: https://www.stellar.org/developers/guides/concepts/assets.html """ def __init__(self, code: str, issuer: Optional[str] = None) -> None: Asset.check_if_asset_code_is_valid(code) if code != "XLM" and issuer is None: raise AssetIssuerInvalidError( "The issuer cannot be `None` except for the native asset." ) if issuer is not None and not StrKey.is_valid_ed25519_public_key(issuer): raise AssetIssuerInvalidError("The issuer should be a correct public key.") self.code: str = code self.issuer: Optional[str] = issuer self._type: str = self.guess_asset_type() @staticmethod def check_if_asset_code_is_valid(code: str) -> None: asset_code_re = re.compile(r"^[a-zA-Z0-9]{1,12}$") if not asset_code_re.match(code): raise AssetCodeInvalidError( "Asset code is invalid (maximum alphanumeric, 12 characters at max)." ) @property def type(self) -> str: """Return the type of the asset, Can be one of following types: `native`, `credit_alphanum4` or `credit_alphanum12` :return: The type of the asset. """ return self._type @type.setter def type(self, v) -> None: raise AttributeError("Asset type is immutable.")
[docs] def guess_asset_type(self) -> str: """Return the type of the asset, Can be one of following types: `native`, `credit_alphanum4` or `credit_alphanum12` :return: The type of the asset. """ if self.code == "XLM" and self.issuer is None: asset_type = "native" elif len(self.code) > 4: asset_type = "credit_alphanum12" else: asset_type = "credit_alphanum4" return asset_type
[docs] def to_dict(self) -> dict: """Generate a dict for this object's attributes. :return: A dict representing an :class:`Asset` """ rv: Dict[str, Optional[str]] = {"type": self.type} if not self.is_native(): rv["code"] = self.code rv["issuer"] = self.issuer return rv
[docs] @staticmethod def native() -> "Asset": """Returns an asset object for the native asset. :return: An asset object for the native asset. """ return Asset("XLM")
[docs] def is_native(self) -> bool: """Return true if the :class:`Asset` is the native asset. :return: True if the Asset is native, False otherwise. """ return self.issuer is None
[docs] def to_xdr_object(self) -> stellar_xdr.Asset: """Returns the xdr object for this asset. :return: XDR Asset object """ if self.is_native(): asset_type = stellar_xdr.AssetType.ASSET_TYPE_NATIVE return stellar_xdr.Asset(type=asset_type) else: assert self.issuer is not None length = len(self.code) pad_length = 4 - length if length <= 4 else 12 - length asset_code = bytearray(self.code, "ascii") + b"\x00" * pad_length issuer = Keypair.from_public_key(self.issuer).xdr_account_id() if length <= 4: xdr_type = stellar_xdr.AssetType.ASSET_TYPE_CREDIT_ALPHANUM4 asset_code4 = stellar_xdr.AssetCode4(asset_code) alpha_num4 = stellar_xdr.AssetAlphaNum4(asset_code4, issuer) return stellar_xdr.Asset(type=xdr_type, alpha_num4=alpha_num4) else: xdr_type = stellar_xdr.AssetType.ASSET_TYPE_CREDIT_ALPHANUM12 asset_code12 = stellar_xdr.AssetCode12(asset_code) alpha_num12 = stellar_xdr.AssetAlphaNum12(asset_code12, issuer) return stellar_xdr.Asset(type=xdr_type, alpha_num12=alpha_num12)
[docs] @classmethod def from_xdr_object(cls, xdr_object: stellar_xdr.Asset) -> "Asset": """Create a :class:`Asset` from an XDR Asset object. :param xdr_object: The XDR Asset object. :return: A new :class:`Asset` object from the given XDR Asset object. """ if xdr_object.type == stellar_xdr.AssetType.ASSET_TYPE_NATIVE: return Asset.native() elif xdr_object.type == stellar_xdr.AssetType.ASSET_TYPE_CREDIT_ALPHANUM4: assert xdr_object.alpha_num4 is not None assert xdr_object.alpha_num4.issuer.account_id.ed25519 is not None issuer = StrKey.encode_ed25519_public_key( xdr_object.alpha_num4.issuer.account_id.ed25519.uint256 ) code = xdr_object.alpha_num4.asset_code.asset_code4.decode().rstrip("\x00") else: assert xdr_object.alpha_num12 is not None assert xdr_object.alpha_num12.issuer.account_id.ed25519 is not None issuer = StrKey.encode_ed25519_public_key( xdr_object.alpha_num12.issuer.account_id.ed25519.uint256 ) code = xdr_object.alpha_num12.asset_code.asset_code12.decode().rstrip( "\x00" ) return cls(code, issuer)
def __eq__(self, other: object) -> bool: if not isinstance(other, self.__class__): return NotImplemented # pragma: no cover return self.code == other.code and self.issuer == other.issuer def __str__(self): return f"<Asset [code={self.code}, issuer={self.issuer}, type={self.type}]>"