'''
Importer for Transferwise API transaction history.
'''
__copyright__ = 'Copyright (c) 2020 Kristóf Marussy <kristof@marussy.com>'
__license__ = 'GNU GPLv2'
from collections import defaultdict
import datetime as dt
import json
import logging
import re
from os import path
from typing import Any, Callable, Dict, Iterable, List, NamedTuple, Optional, Set
from beancount.core import account, data
import beancount.core.amount as am
from beancount.core.amount import Amount
from beancount.core.flags import FLAG_WARNING
from beancount.core.inventory import Inventory
from beancount.core.number import ZERO
from beancount.ingest.cache import _FileMemo as FileMemo
from beancount.ingest.importer import ImporterProtocol
import beancount_extras_kris7t.importers.utils as utils
from beancount_extras_kris7t.importers.utils import COMMENT_META, InvalidEntry, PAYEE_META
DATE_FORMAT = '%Y-%m-%dT%H:%M:%SZ'
DATE_FORMAT_FRACTIONAL = '%Y-%m-%dT%H:%M:%S.%fZ'
CATEGORY_META = 'transferwise-category'
ENTRY_TYPE_META = 'transferwise-entry-type'
TRANSFERWISE_JSON_TAG = 'transferwise-json'
CD_DEBIT = 'DEBIT'
CD_CREDIT = 'CREDIT'
MONEY_ADDED_TYPE = 'MONEY_ADDED'
CARD_TYPE = 'CARD'
CARD_REGEX = re.compile(r'^Card transaction of.*issued by', re.IGNORECASE)
def _parse_date(date_str: str) -> dt.date:
# TODO Handle time zones accurately
try:
return utils.parse_date(date_str, DATE_FORMAT)
except InvalidEntry:
return utils.parse_date(date_str, DATE_FORMAT_FRACTIONAL)
def _parse_json_amount(data: Any, cd: Optional[str] = None) -> Amount:
# TODO Handle precision better
amount = Amount(round(utils.parse_number(data['value']), 2), data['currency'])
if cd == CD_DEBIT:
return -amount
else:
return amount
def _validate_cd(amount: Amount, cd: str) -> None:
if cd == CD_DEBIT:
if amount.number >= ZERO:
raise InvalidEntry(f'Invalid debit amount: {amount}')
elif cd == CD_CREDIT:
if amount.number <= ZERO:
raise InvalidEntry(f'Invalid credit amount: {amount}')
else:
raise InvalidEntry(f'Invalid credit/debit type: {cd}')
class Reference(NamedTuple):
type: str
reference_number: str
class _ConversionResult(NamedTuple):
converted_fraction: Amount
price: Optional[Amount]
fudge: Optional[Amount]
class _Conversion(NamedTuple):
native_amount: Amount
converted_amount: Optional[Amount]
def get_fraction(self,
total_converted_amount: Amount,
assigned_amount: Amount,
diverted_fees: Inventory) -> _ConversionResult:
fees = diverted_fees.get_currency_units(self.native_amount.currency)
native_amount = am.add(self.native_amount, fees)
fraction = am.div(assigned_amount, total_converted_amount.number).number
if self.converted_amount:
converted_fraction = am.mul(self.converted_amount, fraction)
price = am.div(native_amount, self.converted_amount.number)
assert price.number is not None
price = price._replace(number=round(price.number, 4))
# TODO Do we have to calculate the fudge here?
return _ConversionResult(converted_fraction, price, None)
else:
return _ConversionResult(am.mul(native_amount, fraction), None, None)
class Accounts(NamedTuple):
borderless_root_asset: str
fees_expense: str
def get_borderless_account(self, currency: str) -> str:
return account.sep.join([self.borderless_root_asset, currency])
class Row(utils.Row):
cd: str
_transacted_amount: Amount
date: dt.date
_conversions: List[_Conversion]
_inputs: Inventory
_fees: Inventory
divert_fees: Optional[str]
def __init__(self, reference: Reference, transaction_list: List[Any]):
assert len(transaction_list) >= 1
first_transaction = transaction_list[0]
details = first_transaction['details']
entry_type = details.get('type', None)
merchant = details.get('merchant', None)
if merchant:
payee = merchant['name']
else:
payee = None
comment = details['description']
super().__init__('<transferwise>', 0, entry_type, payee, comment)
if entry_type:
self.meta[ENTRY_TYPE_META] = entry_type
category = details.get('category', None)
if category:
self.meta[CATEGORY_META] = category
if merchant:
if 'category' in merchant and merchant['category'] == category:
del merchant['category']
not_null_elements = [str(value).strip() for _, value in merchant.items() if value]
self.meta[PAYEE_META] = '; '.join(not_null_elements)
self.meta[COMMENT_META] = comment
self.tags.add(TRANSFERWISE_JSON_TAG)
self.links.add(f'transferwise_{reference.reference_number}')
self.date = _parse_date(first_transaction['date'])
self.cd = reference.type
self.divert_fees = None
self._conversions = []
self._inputs = Inventory()
self._fees = Inventory()
self._compute_transacted_amount(transaction_list)
for transaction in transaction_list:
self._add_json_transaction(transaction)
def _compute_transacted_amount(self, transaction_list: List[Any]) -> None:
first_transaction = transaction_list[0]
details = first_transaction['details']
transacted_json = details.get('amount', None)
if transacted_json:
self._transacted_amount = _parse_json_amount(transacted_json, self.cd)
else:
if len(transaction_list) != 1:
raise InvalidEntry('Cannot determine transaction amount')
if exchange_details := first_transaction.get('exchangeDetails', None):
self._transacted_amount = _parse_json_amount(exchange_details, self.cd)
else:
self._transacted_amount = _parse_json_amount(first_transaction['amount'])
_validate_cd(self._transacted_amount, self.cd)
def _add_json_transaction(self, transaction: Any) -> None:
if exchange := transaction.get('exchangeDetails', None):
native = _parse_json_amount(exchange['fromAmount'], self.cd)
converted = _parse_json_amount(exchange['toAmount'], self.cd)
_validate_cd(converted, self.cd)
else:
native = _parse_json_amount(transaction['amount'])
converted = None
_validate_cd(native, self.cd)
if total_fees := transaction.get('totalFees', None):
fee = -_parse_json_amount(total_fees)
if fee.number > ZERO:
raise InvalidEntry(f'Invalid transaction fee: {fee}')
if fee.number != ZERO:
self._fees.add_amount(fee)
native_after_fees = am.sub(native, fee)
else:
native_after_fees = native
self._conversions.append(_Conversion(native_after_fees, converted))
self._inputs.add_amount(native)
@property
def transacted_amount(self) -> Amount:
return self._transacted_amount
def _to_transaction(self, accounts: Accounts) -> data.Transaction:
postings = self._get_postings(accounts)
return data.Transaction(self.meta, self.date, self.flag, self.payee, self.comment,
self.tags, self.links, postings)
def _get_postings(self, accounts: Accounts) -> List[data.Posting]:
postings: List[data.Posting] = []
for units, cost in self._inputs:
assert cost is None
postings.append(data.Posting(
accounts.get_borderless_account(units.currency), units, None, None, None, None))
if self.divert_fees:
for units, cost in self._fees:
assert cost is None
postings.append(data.Posting(
self.divert_fees, units, None, None, None, None))
diverted_fees = self._fees
else:
diverted_fees = Inventory()
# Also add the "fudge" amounts to the fees generated by rounding currency conversions.
all_fees = Inventory()
all_fees.add_inventory(self._fees)
for acc, assigned_units in self.postings:
for conversion in self._conversions:
units, price, fudge = conversion.get_fraction(
self._transacted_amount, assigned_units, diverted_fees)
postings.append(data.Posting(acc, -units, None, price, None, None))
if fudge:
all_fees.add_amount(-fudge)
for units, cost in all_fees:
assert cost is None
postings.append(data.Posting(
accounts.fees_expense, -units, None, None, None, None))
return postings
Extractor = Callable[[Row], None]
def extract_card_transaction(payment_processors: Dict[str, Optional[str]] = {}) -> Extractor:
regexes = [(re.compile(f'^\\s*{key}\\s*\\*', re.IGNORECASE), value)
for key, value in payment_processors.items()]
def do_extract(row: Row) -> None:
if row.entry_type == CARD_TYPE and CARD_REGEX.search(row.comment):
if row.cd == CD_DEBIT:
row.comment = ''
else:
row.comment = 'Refund'
# Most manually add posting for refunded fees.
row.flag = FLAG_WARNING
if row.payee:
for key, value in regexes:
if match := key.search(row.payee):
if value:
row.tags.add(value)
row.payee = row.payee[match.end():].strip()
return do_extract
def extract_add_money(add_money_asset: str, add_money_fees_asset: str) -> Extractor:
def do_extract(row: Row) -> None:
if row.entry_type == MONEY_ADDED_TYPE:
row.payee = 'Transferwise'
row.divert_fees = add_money_fees_asset
row.assign_to_account(add_money_asset)
return do_extract
class Importer(ImporterProtocol):
_log: logging.Logger
profile_id: int
borderless_account_id: int
currencies: List[str]
accounts: Accounts
_extractors: List[Extractor]
def __init__(self,
profile_id: int,
borderless_account_id: int,
currencies: Iterable[str],
accounts: Accounts,
extractors: List[Extractor]):
self._log = logging.getLogger(type(self).__qualname__)
self.profile_id = profile_id
self.borderless_account_id = borderless_account_id
self.currencies = list(currencies)
self.accounts = accounts
self._extractors = extractors
def _parse_file(self, file: FileMemo) -> Any:
def parse_json(path: str) -> Any:
with open(path, 'r') as json_file:
try:
return json.load(json_file)
except json.JSONDecodeError as exc:
self._log.info('Invalid JSON: %s', path, exc_info=exc)
return None
return file.convert(parse_json)
def identify(self, file: FileMemo) -> bool:
_, extension = path.splitext(file.name)
if extension.lower() != '.json':
return False
contents = self._parse_file(file)
try:
query = contents['query']
return query['accountId'] == self.borderless_account_id and \
query['currency'] in self.currencies
except (KeyError, TypeError):
return False
def file_name(self, file: FileMemo) -> str:
return 'statement.json'
def file_account(self, file: FileMemo) -> str:
contents = self._parse_file(file)
try:
currency = contents['query']['currency']
except (KeyError, TypeError) as exc:
raise ValueError(f'Invalid account statement: {file.name}') from exc
if not isinstance(currency, str):
raise ValueError(f'Invalid account statement: {file.name}')
return self.accounts.get_borderless_account(currency)
def file_date(self, file: FileMemo) -> dt.date:
contents = self._parse_file(file)
try:
date_str = contents['query']['intervalEnd']
except (KeyError, TypeError) as exc:
raise ValueError(f'Invalid account statement: {file.name}') from exc
if not isinstance(date_str, str):
raise ValueError(f'Invalid account statement: {file.name}')
return _parse_date(date_str)
def extract(self, file: FileMemo) -> data.Entries:
contents = self._parse_file(file)
if contents:
return self.extract_objects([contents])
else:
return []
def extract_objects(self,
statements: Iterable[Any],
skip_references: Set[str] = set()) -> data.Entries:
transactions: Dict[Reference, List[Any]] = defaultdict(lambda: [])
for statement in statements:
for transaction in statement['transactions']:
reference_number = transaction['referenceNumber']
if reference_number in skip_references:
continue
reference = Reference(transaction['type'], reference_number)
transactions[reference].append(transaction)
entries: data.Entries = []
for reference, transaction_list in transactions.items():
if not transaction_list:
continue
try:
row = Row(reference, transaction_list)
except (TypeError, KeyError, InvalidEntry) as exc:
self._log.warn('Invalid entry: %s', reference, exc_info=exc)
continue
try:
utils.run_row_extractors(row, self._extractors)
except InvalidEntry as exc:
self._log.warn('Invalid entry: %s', reference, exc_info=exc)
continue
entries.append(row._to_transaction(self.accounts))
entries.sort(key=lambda entry: entry.date)
if entries:
self._extract_closing_balances(statements, entries)
return entries
def _extract_closing_balances(self,
statements: Iterable[Any],
entries: data.Entries) -> None:
for statement in statements:
query = statement['query']
end_date = _parse_date(query['intervalEnd']) + dt.timedelta(days=1)
currency = query['currency']
balance = statement['endOfStatementBalance']
amount = Amount(utils.parse_number(balance['value']), balance['currency'])
meta = data.new_metadata(f'<transferwise:{currency}>', 0)
account = self.accounts.get_borderless_account(currency)
entries.append(data.Balance(meta, end_date, account, amount, None, None))