Exemplo n.º 1
0
def _get_inflation_swap_data(
        asset: Asset,
        swap_tenor: str,
        index_type: str = None,
        forward_tenor: Optional[GENERIC_DATE] = None,
        clearing_house: tm_rates._ClearingHouse = None,
        source: str = None,
        real_time: bool = False,
        query_type: QueryType = QueryType.SWAP_RATE) -> pd.DataFrame:
    if real_time:
        raise NotImplementedError(
            'realtime inflation swap data not implemented')
    currency = CurrencyEnum(asset.get_identifier(AssetIdentifier.BLOOMBERG_ID))

    if currency.value not in CURRENCY_TO_INDEX_BENCHMARK.keys():
        raise NotImplementedError(
            'Data not available for {} inflation swap rates'.format(
                currency.value))
    index_type = _check_inflation_index_type(currency, index_type)

    clearing_house = tm_rates._check_clearing_house(clearing_house)

    defaults = _get_inflation_swap_leg_defaults(currency, index_type)

    if not (tm_rates._is_valid_relative_date_tenor(swap_tenor)):
        raise MqValueError('invalid swap tenor ' + swap_tenor)

    forward_tenor = tm_rates._check_forward_tenor(forward_tenor)

    fixed_rate = 'ATM'
    kwargs = dict(type='InflationSwap',
                  asset_parameters_termination_date=swap_tenor,
                  asset_parameters_index=defaults['index_type'],
                  asset_parameters_fixed_rate=fixed_rate,
                  asset_parameters_clearing_house=clearing_house.value,
                  asset_parameters_effective_date=forward_tenor,
                  asset_parameters_notional_currency=currency.name)

    rate_mqid = _get_tdapi_inflation_rates_assets(**kwargs)

    _logger.debug(
        f'where asset= {rate_mqid}, swap_tenor={swap_tenor}, index={defaults["index_type"]}, '
        f'forward_tenor={forward_tenor}, pricing_location={defaults["pricing_location"].value}, '
        f'clearing_house={clearing_house.value}, notional_currency={currency.name}'
    )
    q = GsDataApi.build_market_data_query([rate_mqid],
                                          query_type,
                                          source=source,
                                          real_time=real_time)
    _logger.debug('q %s', q)
    df = _market_data_timed(q)
    return df
Exemplo n.º 2
0
def _get_basis_swap_kwargs(asset: Asset,
                           spread_benchmark_type: str = None,
                           spread_tenor: str = None,
                           reference_benchmark_type: str = None,
                           reference_tenor: str = None,
                           forward_tenor: Optional[GENERIC_DATE] = None,
                           clearing_house: _ClearingHouse = None) -> dict:
    currency = CurrencyEnum(asset.get_identifier(AssetIdentifier.BLOOMBERG_ID))
    if currency.value not in ['JPY', 'EUR', 'USD', 'GBP']:
        raise NotImplementedError(
            'Data not available for {} basis swap rates'.format(
                currency.value))

    clearing_house = _check_clearing_house(clearing_house)
    spread_benchmark_type = _check_benchmark_type(currency,
                                                  spread_benchmark_type)
    reference_benchmark_type = _check_benchmark_type(currency,
                                                     reference_benchmark_type)

    # default benchmark types
    legs_w_defaults = dict()
    legs_w_defaults['spread'] = _get_swap_leg_defaults(currency,
                                                       spread_benchmark_type,
                                                       spread_tenor)
    legs_w_defaults['reference'] = _get_swap_leg_defaults(
        currency, reference_benchmark_type, reference_tenor)

    for key, leg in legs_w_defaults.items():
        if not re.fullmatch('(\\d+)([bdwmy])', leg['floating_rate_tenor']):
            raise MqValueError('invalid floating rate tenor ' +
                               leg['floating_rate_tenor'] + ' index: ' +
                               leg['benchmark_type'])

    forward_tenor = _check_forward_tenor(forward_tenor)
    kwargs = dict(
        type='BasisSwap',
        asset_parameters_payer_rate_option=legs_w_defaults['spread']
        ['benchmark_type'],
        asset_parameters_payer_designated_maturity=legs_w_defaults['spread']
        ['floating_rate_tenor'],
        asset_parameters_receiver_rate_option=legs_w_defaults['reference']
        ['benchmark_type'],
        asset_parameters_receiver_designated_maturity=legs_w_defaults[
            'reference']['floating_rate_tenor'],
        asset_parameters_clearing_house=clearing_house.value,
        asset_parameters_effective_date=forward_tenor,
        asset_parameters_notional_currency=currency.name,
        pricing_location=legs_w_defaults['spread']['pricing_location'].value)
    kwargs = _match_floating_tenors(kwargs)
    return kwargs
Exemplo n.º 3
0
def _get_swap_data(asset: Asset, swap_tenor: str, benchmark_type: BenchmarkType = None, floating_rate_tenor: str = None,
                   forward_tenor: Optional[GENERIC_DATE] = None, clearing_house: _ClearingHouse = None,
                   source: str = None, real_time: bool = False,
                   query_type: QueryType = QueryType.SWAP_RATE) -> pd.DataFrame:
    if real_time:
        raise NotImplementedError('realtime swap_rate not implemented')
    currency = CurrencyEnum(asset.get_identifier(AssetIdentifier.BLOOMBERG_ID))

    if currency.value not in ['JPY', 'EUR', 'USD', 'GBP', 'CHF', 'SEK']:
        raise NotImplementedError('Data not available for {} swap rates'.format(currency.value))

    _check_benchmark_type(currency, benchmark_type)
    clearing_house = _check_clearing_house(clearing_house)
    defaults = _get_swap_leg_defaults(currency, benchmark_type, floating_rate_tenor)

    if not (re.fullmatch('(\\d+)([bdwmy])', swap_tenor) or re.fullmatch('(frb[1-9])', forward_tenor)):
        raise MqValueError('invalid swap tenor ' + swap_tenor)

    if not re.fullmatch('(\\d+)([bdwmy])', defaults['floating_rate_tenor']):
        raise MqValueError('invalid floating rate tenor ' + defaults['floating_rate_tenor'] + ' for index: ' +
                           defaults['benchmark_type'])

    forward_tenor = check_forward_tenor(forward_tenor)
    csaTerms = currency.value + '-1'
    fixed_rate = 'ATM'
    kwargs = dict(type='Swap', asset_parameters_termination_date=swap_tenor,
                  asset_parameters_floating_rate_option=defaults['benchmark_type'],
                  asset_parameters_fixed_rate=fixed_rate, asset_parameters_clearing_house=clearing_house.value,
                  asset_parameters_floating_rate_designated_maturity=defaults['floating_rate_tenor'],
                  asset_parameters_effective_date=forward_tenor,
                  asset_parameters_notional_currency=currency.name, pricing_location=defaults['pricing_location'].value)

    rate_mqid = _convert_asset_for_mdapi_swap_rates(**kwargs)

    _logger.debug('where asset= %s, swap_tenor=%s, benchmark_type=%s, floating_rate_tenor=%s, forward_tenor=%s, '
                  'pricing_location=%s', rate_mqid, swap_tenor, defaults['benchmark_type'],
                  defaults['floating_rate_tenor'], forward_tenor, defaults['pricing_location'].value)
    where = dict(csaTerms=csaTerms)
    q = GsDataApi.build_market_data_query([rate_mqid], query_type, where=where, source=source,
                                          real_time=real_time)
    _logger.debug('q %s', q)
    df = _market_data_timed(q)
    return df
Exemplo n.º 4
0
def basis_swap_term_structure(asset: Asset, spread_benchmark_type: BenchmarkType = None, spread_tenor: str = None,
                              reference_benchmark_type: BenchmarkType = None, reference_tenor: str = None,
                              forward_tenor: Optional[GENERIC_DATE] = None,
                              clearing_house: _ClearingHouse = None,
                              pricing_date: Optional[GENERIC_DATE] = None,
                              *, source: str = None, real_time: bool = False, ) -> Series:
    """
    GS end-of-day Floating-Floating interest rate swap (IRS) term structure across major currencies.


    :param asset: asset object loaded from security master
    :param spread_benchmark_type: benchmark type of spread leg on which basis spread is added e.g. LIBOR
    :param spread_tenor: relative date representation of expiration date of spread leg e.g. 1m
    :param reference_benchmark_type: benchmark type of reference leg e.g. LIBOR
    :param reference_tenor: relative date representation of expiration date of reference leg e.g. 1m
    :param forward_tenor: absolute / relative date representation of forward starting point eg: '1y' or 'Spot' for
    spot starting swaps, 'imm1' or 'frb1'
    :param clearing_house: Example - "LCH", "EUREX", "JSCC", "CME"
    :param pricing_date: YYYY-MM-DD or relative date
    :param source: name of function caller
    :param real_time: whether to retrieve intraday data instead of EOD
    :return: swap rate curve
    """
    if real_time:
        raise NotImplementedError('realtime basis_swap_rate not implemented')

    currency = CurrencyEnum(asset.get_identifier(AssetIdentifier.BLOOMBERG_ID))
    if currency.value not in ['JPY', 'EUR', 'USD', 'GBP']:
        raise NotImplementedError('Data not available for {} basis swap rates'.format(currency.value))

    clearing_house = _check_clearing_house(clearing_house)

    for benchmark_type in [spread_benchmark_type, reference_benchmark_type]:
        _check_benchmark_type(currency, benchmark_type)

    # default benchmark types
    legs_w_defaults = dict()
    legs_w_defaults['spread'] = _get_swap_leg_defaults(currency, spread_benchmark_type, spread_tenor)
    legs_w_defaults['reference'] = _get_swap_leg_defaults(currency, reference_benchmark_type, reference_tenor)

    for key, leg in legs_w_defaults.items():
        if not re.fullmatch('(\\d+)([bdwmy])', leg['floating_rate_tenor']):
            raise MqValueError('invalid floating rate tenor ' + leg['floating_rate_tenor'] + ' index: ' +
                               leg['benchmark_type'])

    forward_tenor = check_forward_tenor(forward_tenor)

    calendar = legs_w_defaults['spread']['pricing_location'].value
    if pricing_date is not None and pricing_date in list(GsCalendar.get(calendar).holidays):
        raise MqValueError('Specified pricing date is a holiday in {} calendar'.format(calendar))

    csaTerms = currency.value + '-1'

    kwargs = dict(type='BasisSwap', asset_parameters_payer_rate_option=legs_w_defaults['spread']['benchmark_type'],
                  asset_parameters_payer_designated_maturity=legs_w_defaults['spread']['floating_rate_tenor'],
                  asset_parameters_receiver_rate_option=legs_w_defaults['reference']['benchmark_type'],
                  asset_parameters_receiver_designated_maturity=legs_w_defaults['reference']['floating_rate_tenor'],
                  asset_parameters_clearing_house=clearing_house.value, asset_parameters_effective_date=forward_tenor,
                  asset_parameters_notional_currency=currency.name,
                  pricing_location=legs_w_defaults['spread']['pricing_location'].value)

    assets = GsAssetApi.get_many_assets(**kwargs)
    if len(assets) == 0:
        raise MqValueError('Specified arguments did not match any asset in the dataset')
    else:
        rate_mqids = [asset.id for asset in assets]

    asset_string = ''
    for mqid in rate_mqids:
        asset_string = asset_string + ',' + mqid
    _logger.debug('assets returned %s', asset_string)

    _logger.debug('where spread_benchmark_type=%s, spread_tenor=%s,  reference_benchmark_type=%s, '
                  'reference_tenor=%s, forward_tenor=%s, pricing_location=%s ',
                  legs_w_defaults['spread']['benchmark_type'], legs_w_defaults['spread']['floating_rate_tenor'],
                  legs_w_defaults['reference']['benchmark_type'], legs_w_defaults['reference']['floating_rate_tenor'],
                  forward_tenor, legs_w_defaults['spread']['pricing_location'].value)

    start, end = _range_from_pricing_date(calendar, pricing_date)
    with DataContext(start, end):
        where = dict(csaTerms=csaTerms)
        q = GsDataApi.build_market_data_query(rate_mqids, QueryType.BASIS_SWAP_RATE, where=where,
                                              source=source, real_time=real_time)
        _logger.debug('q %s', q)
        df = _market_data_timed(q)

    if df.empty:
        series = ExtendedSeries()
    else:
        latest = df.index.max()
        _logger.info('selected pricing date %s', latest)
        df = df.loc[latest]
        business_day = _get_custom_bd(calendar)
        df = df.assign(expirationDate=df.index + df['terminationTenor'].map(_to_offset) + business_day - business_day)
        df = df.set_index('expirationDate')
        df.sort_index(inplace=True)
        df = df.loc[DataContext.current.start_date: DataContext.current.end_date]
        series = ExtendedSeries() if df.empty else ExtendedSeries(df['basisSwapRate'])
    series.dataset_ids = getattr(df, 'dataset_ids', ())
    return series
Exemplo n.º 5
0
def basis_swap_spread(asset: Asset, swap_tenor: str = '1y',
                      spread_benchmark_type: BenchmarkType = None, spread_tenor: str = None,
                      reference_benchmark_type: BenchmarkType = None, reference_tenor: str = None,
                      forward_tenor: Optional[GENERIC_DATE] = None, clearing_house: _ClearingHouse = None, *,
                      source: str = None, real_time: bool = False, ) -> Series:
    """
    GS end-of-day Floating-Floating interest rate swap (IRS) curves across major currencies.


    :param asset: asset object loaded from security master
    :param swap_tenor: relative date representation of expiration date e.g. 1m
    :param spread_benchmark_type: benchmark type of spread leg on which basis spread is added e.g. LIBOR
    :param spread_tenor: relative date representation of expiration date of paying leg e.g. 1m
    :param reference_benchmark_type: benchmark type of reference leg e.g. LIBOR
    :param reference_tenor: relative date representation of expiration date of reference leg e.g. 1m
    :param forward_tenor: absolute / relative date representation of forward starting point eg: '1y' or 'Spot' for
    spot starting swaps, 'imm1' or 'frb1'
    :param clearing_house: Example - "LCH", "EUREX", "JSCC", "CME"
    :param source: name of function caller
    :param real_time: whether to retrieve intraday data instead of EOD
    :return: swap rate curve
    """
    if real_time:
        raise NotImplementedError('realtime basis_swap_rate not implemented')

    currency = CurrencyEnum(asset.get_identifier(AssetIdentifier.BLOOMBERG_ID))
    if currency.value not in ['JPY', 'EUR', 'USD', 'GBP']:
        raise NotImplementedError('Data not available for {} basis swap rates'.format(currency.value))

    clearing_house = _check_clearing_house(clearing_house)

    for benchmark_type in [spread_benchmark_type, reference_benchmark_type]:
        _check_benchmark_type(currency, benchmark_type)

    if not (re.fullmatch('(\\d+)([bdwmy])', swap_tenor) or re.fullmatch('(frb[1-9])', forward_tenor)):
        raise MqValueError('invalid swap tenor ' + swap_tenor)

    # default benchmark types
    legs_w_defaults = dict()
    legs_w_defaults['spread'] = _get_swap_leg_defaults(currency, spread_benchmark_type, spread_tenor)
    legs_w_defaults['reference'] = _get_swap_leg_defaults(currency, reference_benchmark_type, reference_tenor)

    for key, leg in legs_w_defaults.items():
        if not re.fullmatch('(\\d+)([bdwmy])', leg['floating_rate_tenor']):
            raise MqValueError('invalid floating rate tenor ' + leg['floating_rate_tenor'] + ' index: ' +
                               leg['benchmark_type'])

    forward_tenor = check_forward_tenor(forward_tenor)
    csaTerms = currency.value + '-1'
    kwargs = dict(type='BasisSwap', asset_parameters_termination_date=swap_tenor,
                  asset_parameters_payer_rate_option=legs_w_defaults['spread']['benchmark_type'],
                  asset_parameters_payer_designated_maturity=legs_w_defaults['spread']['floating_rate_tenor'],
                  asset_parameters_receiver_rate_option=legs_w_defaults['reference']['benchmark_type'],
                  asset_parameters_receiver_designated_maturity=legs_w_defaults['reference']['floating_rate_tenor'],
                  asset_parameters_clearing_house=clearing_house.value, asset_parameters_effective_date=forward_tenor,
                  asset_parameters_notional_currency=currency.name,
                  pricing_location=legs_w_defaults['spread']['pricing_location'].value)

    rate_mqid = _convert_asset_for_mdapi_swap_rates(**kwargs)

    _logger.debug('where asset=%s, swap_tenor=%s, spread_benchmark_type=%s, spread_tenor=%s, '
                  'reference_benchmark_type=%s, reference_tenor=%s, forward_tenor=%s, pricing_location=%s ',
                  rate_mqid, swap_tenor, legs_w_defaults['spread']['benchmark_type'],
                  legs_w_defaults['spread']['floating_rate_tenor'],
                  legs_w_defaults['reference']['benchmark_type'], legs_w_defaults['reference']['floating_rate_tenor'],
                  forward_tenor, legs_w_defaults['spread']['pricing_location'].value)

    where = dict(csaTerms=csaTerms)
    q = GsDataApi.build_market_data_query([rate_mqid], QueryType.BASIS_SWAP_RATE, where=where, source=source,
                                          real_time=real_time)
    _logger.debug('q %s', q)
    df = _market_data_timed(q)

    series = ExtendedSeries() if df.empty else ExtendedSeries(df['basisSwapRate'])
    series.dataset_ids = getattr(df, 'dataset_ids', ())
    return series
Exemplo n.º 6
0
def basis_swap_term_structure(
    asset: Asset,
    spread_benchmark_type: BenchmarkType = None,
    spread_tenor: str = None,
    reference_benchmark_type: BenchmarkType = None,
    reference_tenor: str = None,
    forward_tenor: str = 'Spot',
    pricing_date: Optional[GENERIC_DATE] = None,
    *,
    source: str = None,
    real_time: bool = False,
) -> Series:
    """
    GS end-of-day Floating-Floating interest rate swap (IRS) term structure across major currencies.


    :param asset: asset object loaded from security master
    :param spread_benchmark_type: benchmark type of spread leg on which basis spread is added e.g. LIBOR
    :param spread_tenor: relative date representation of expiration date of spread leg e.g. 1m
    :param reference_benchmark_type: benchmark type of reference leg e.g. LIBOR
    :param reference_tenor: relative date representation of expiration date of reference leg e.g. 1m
    :param forward_tenor: relative date representation of forward starting point eg: '1y'  or 'Spot' for spot
           starting swaps
    :param pricing_date: YYYY-MM-DD or relative date
    :param source: name of function caller
    :param real_time: whether to retrieve intraday data instead of EOD
    :return: swap rate curve
    """
    if real_time:
        raise NotImplementedError('realtime basis_swap_rate not implemented')

    currency = CurrencyEnum(asset.get_identifier(AssetIdentifier.BLOOMBERG_ID))
    if currency.value not in ['JPY', 'EUR', 'USD', 'GBP']:
        raise NotImplementedError(
            'Data not available for {} basis swap rates'.format(
                currency.value))

    for benchmark_type in [spread_benchmark_type, reference_benchmark_type]:
        if benchmark_type is not None and \
                benchmark_type.value not in CURRENCY_TO_SWAP_RATE_BENCHMARK[currency.value].keys():
            raise MqValueError('%s is not supported for %s', benchmark_type,
                               currency.value)

    for floating_rate_tenor in [spread_tenor, reference_tenor]:
        if not re.fullmatch('(\\d+)([bdwmy])', floating_rate_tenor):
            raise MqValueError('invalid floating rate tenor ' +
                               floating_rate_tenor)

    if forward_tenor == '0b' or forward_tenor is None or forward_tenor == 'Spot':
        forward_tenor = '0d'
    elif not re.fullmatch('(\\d+)([bdwmy])', forward_tenor):
        raise MqValueError('invalid forward tenor ' + forward_tenor)

    # default benchmark types
    legs_w_defaults = dict()
    legs_w_defaults['spread'] = _get_swap_leg_defaults(currency,
                                                       spread_benchmark_type,
                                                       spread_tenor)
    legs_w_defaults['reference'] = _get_swap_leg_defaults(
        currency, reference_benchmark_type, reference_tenor)

    csaTerms = currency.value + '-1'
    clearing_house = 'LCH'

    kwargs = dict(
        type='BasisSwap',
        asset_parameters_payer_rate_option=legs_w_defaults['spread']
        ['benchmark_type'],
        asset_parameters_payer_designated_maturity=legs_w_defaults['spread']
        ['floating_rate_tenor'],
        asset_parameters_receiver_rate_option=legs_w_defaults['reference']
        ['benchmark_type'],
        asset_parameters_receiver_designated_maturity=legs_w_defaults[
            'reference']['floating_rate_tenor'],
        asset_parameters_clearing_house=clearing_house,
        asset_parameters_effective_date=forward_tenor,
        asset_parameters_notional_currency=currency.name,
        pricing_location=legs_w_defaults['spread']['pricing_location'])

    assets = GsAssetApi.get_many_assets(**kwargs)
    if len(assets) == 0:
        raise MqValueError(
            'Specified arguments did not match any asset in the dataset')
    else:
        rate_mqids = [asset.id for asset in assets]

    _logger.debug(
        'where spread_benchmark_type=%s, spread_tenor=%s,  reference_benchmark_type=%s, '
        'reference_tenor=%s, forward_tenor=%s, pricing_location=%s ',
        legs_w_defaults['spread']['benchmark_type'],
        legs_w_defaults['spread']['floating_rate_tenor'],
        legs_w_defaults['reference']['benchmark_type'],
        legs_w_defaults['reference']['floating_rate_tenor'], forward_tenor,
        legs_w_defaults['spread']['pricing_location'])

    start, end = _range_from_pricing_date(assets[0].exchange, pricing_date)
    with DataContext(start, end):
        where = FieldFilterMap(csaTerms=csaTerms)
        q = GsDataApi.build_market_data_query(rate_mqids,
                                              QueryType.BASIS_SWAP_RATE,
                                              where=where,
                                              source=source,
                                              real_time=real_time)
        _logger.debug('q %s', q)
        df = _market_data_timed(q)
    if df.empty:
        return pd.Series()
    latest = df.index.max()
    _logger.info('selected pricing date %s', latest)
    df = df.loc[latest]
    business_day = _get_custom_bd(asset.exchange)
    df = df.assign(expirationDate=df.index +
                   df['terminationTenor'].map(_to_offset) + business_day -
                   business_day)
    df = df.set_index('expirationDate')
    df.sort_index(inplace=True)
    df = df.loc[DataContext.current.start_date:DataContext.current.end_date]
    return df['basisSwapRate'] if not df.empty else pd.Series()
Exemplo n.º 7
0
def basis_swap_spread(
    asset: Asset,
    swap_tenor: str = '1y',
    spread_benchmark_type: BenchmarkType = None,
    spread_tenor: str = None,
    reference_benchmark_type: BenchmarkType = None,
    reference_tenor: str = None,
    forward_tenor: str = 'Spot',
    *,
    source: str = None,
    real_time: bool = False,
) -> Series:
    """
    GS end-of-day Floating-Floating interest rate swap (IRS) curves across major currencies.


    :param asset: asset object loaded from security master
    :param swap_tenor: relative date representation of expiration date e.g. 1m
    :param spread_benchmark_type: benchmark type of spread leg on which basis spread is added e.g. LIBOR
    :param spread_tenor: relative date representation of expiration date of paying leg e.g. 1m
    :param reference_benchmark_type: benchmark type of reference leg e.g. LIBOR
    :param reference_tenor: relative date representation of expiration date of reference leg e.g. 1m
    :param forward_tenor: relative date representation of forward starting point eg: '1y' or 'Spot' for Spot
            Starting swap
    :param source: name of function caller
    :param real_time: whether to retrieve intraday data instead of EOD
    :return: swap rate curve
    """
    if real_time:
        raise NotImplementedError('realtime basis_swap_rate not implemented')

    currency = CurrencyEnum(asset.get_identifier(AssetIdentifier.BLOOMBERG_ID))
    if currency.value not in ['JPY', 'EUR', 'USD', 'GBP']:
        raise NotImplementedError(
            'Data not available for {} basis swap rates'.format(
                currency.value))

    for benchmark_type in [spread_benchmark_type, reference_benchmark_type]:
        if benchmark_type is not None and \
                benchmark_type.value not in CURRENCY_TO_SWAP_RATE_BENCHMARK[currency.value].keys():
            raise MqValueError('%s is not supported for %s', benchmark_type,
                               currency.value)

    if not re.fullmatch('(\\d+)([bdwmy])', swap_tenor):
        raise MqValueError('invalid swap tenor ' + swap_tenor)

    for floating_rate_tenor in [spread_tenor, reference_tenor]:
        if not re.fullmatch('(\\d+)([bdwmy])', floating_rate_tenor):
            raise MqValueError('invalid floating rate tenor ' +
                               floating_rate_tenor)

    # default benchmark types
    legs_w_defaults = dict()
    legs_w_defaults['spread'] = _get_swap_leg_defaults(currency,
                                                       spread_benchmark_type,
                                                       spread_tenor)
    legs_w_defaults['reference'] = _get_swap_leg_defaults(
        currency, reference_benchmark_type, reference_tenor)

    if forward_tenor == '0b' or forward_tenor is None or forward_tenor == 'Spot':
        forward_tenor = '0d'
    elif not re.fullmatch('(\\d+)([bdwmy])', forward_tenor):
        raise MqValueError('invalid forward tenor ' + forward_tenor)

    csaTerms = currency.value + '-1'
    clearing_house = 'LCH'

    kwargs = dict(
        type='BasisSwap',
        asset_parameters_termination_date=swap_tenor,
        asset_parameters_payer_rate_option=legs_w_defaults['spread']
        ['benchmark_type'],
        asset_parameters_payer_designated_maturity=legs_w_defaults['spread']
        ['floating_rate_tenor'],
        asset_parameters_receiver_rate_option=legs_w_defaults['reference']
        ['benchmark_type'],
        asset_parameters_receiver_designated_maturity=legs_w_defaults[
            'reference']['floating_rate_tenor'],
        asset_parameters_clearing_house=clearing_house,
        asset_parameters_effective_date=forward_tenor,
        asset_parameters_notional_currency=currency.name,
        pricing_location=legs_w_defaults['spread']['pricing_location'])

    rate_mqid = _convert_asset_for_mdapi_swap_rates(**kwargs)

    _logger.debug(
        'where swap_tenor=%s, spread_benchmark_type=%s, spread_tenor=%s,  reference_benchmark_type=%s, '
        'reference_tenor=%s, forward_tenor=%s, pricing_location=%s ',
        swap_tenor, legs_w_defaults['spread']['benchmark_type'],
        legs_w_defaults['spread']['floating_rate_tenor'],
        legs_w_defaults['reference']['benchmark_type'],
        legs_w_defaults['reference']['floating_rate_tenor'], forward_tenor,
        legs_w_defaults['spread']['pricing_location'])

    where = FieldFilterMap(csaTerms=csaTerms)
    q = GsDataApi.build_market_data_query([rate_mqid],
                                          QueryType.BASIS_SWAP_RATE,
                                          where=where,
                                          source=source,
                                          real_time=real_time)
    _logger.debug('q %s', q)
    df = _market_data_timed(q)

    return Series() if df.empty else df['basisSwapRate']
Exemplo n.º 8
0
def swap_rate_2(asset: Asset,
                swap_tenor: str,
                benchmark_type: BenchmarkType = None,
                floating_rate_tenor: str = None,
                forward_tenor: str = 'Spot',
                *,
                source: str = None,
                real_time: bool = False) -> Series:
    """
    GS end-of-day Fixed-Floating interest rate swap (IRS) curves across major currencies.


    :param asset: asset object loaded from security master
    :param swap_tenor: relative date representation of expiration date e.g. 1m
    :param benchmark_type: benchmark type e.g. LIBOR
    :param floating_rate_tenor: floating index rate
    :param forward_tenor: relative date representation of forward starting point eg: '1y' or 'Spot' for
    spot starting swaps
    :param source: name of function caller
    :param real_time: whether to retrieve intraday data instead of EOD
    :return: swap rate curve
    """
    if real_time:
        raise NotImplementedError('realtime swap_rate not implemented')
    currency = CurrencyEnum(asset.get_identifier(AssetIdentifier.BLOOMBERG_ID))

    if currency.value not in ['JPY', 'EUR', 'USD', 'GBP', 'CHF', 'SEK']:
        raise NotImplementedError(
            'Data not available for {} swap rates'.format(currency.value))

    if benchmark_type is not None and \
            benchmark_type.value not in CURRENCY_TO_SWAP_RATE_BENCHMARK[currency.value].keys():
        raise MqValueError('%s is not supported for %s', benchmark_type,
                           currency.value)

    defaults = _get_swap_leg_defaults(currency, benchmark_type,
                                      floating_rate_tenor)

    if not re.fullmatch('(\\d+)([bdwmy])', swap_tenor):
        raise MqValueError('invalid swap tenor ' + swap_tenor)

    if not re.fullmatch('(\\d+)([bdwmy])', floating_rate_tenor):
        raise MqValueError('invalid floating rate tenor ' +
                           floating_rate_tenor)

    if forward_tenor is None or forward_tenor == 'Spot':
        forward_tenor = '0b'
    elif not re.fullmatch('(\\d+)([bdwmy])', forward_tenor):
        raise MqValueError('invalid forward tenor ' + forward_tenor)

    clearing_house = 'LCH'
    csaTerms = currency.value + '-1'
    fixed_rate = 'ATM'
    pay_or_receive = 'Receive'
    kwargs = dict(
        type='Swap',
        asset_parameters_termination_date=swap_tenor,
        asset_parameters_floating_rate_option=defaults['benchmark_type'],
        asset_parameters_fixed_rate=fixed_rate,
        asset_parameters_clearing_house=clearing_house,
        asset_parameters_floating_rate_designated_maturity=defaults[
            'floating_rate_tenor'],
        asset_parameters_effective_date=forward_tenor,
        asset_parameters_pay_or_receive=pay_or_receive,
        asset_parameters_notional_currency=currency.name,
        pricing_location=defaults['pricing_location'])

    rate_mqid = _convert_asset_for_mdapi_swap_rates(**kwargs)

    _logger.debug(
        'where swap_tenor=%s, benchmark_type=%s, floating_rate_tenor=%s, forward_tenor=%s, '
        'pricing_location=%s', swap_tenor, defaults['benchmark_type'],
        defaults['floating_rate_tenor'], forward_tenor,
        defaults['pricing_location'])
    where = FieldFilterMap(csaTerms=csaTerms)
    q = GsDataApi.build_market_data_query([rate_mqid],
                                          QueryType.SWAP_RATE,
                                          where=where,
                                          source=source,
                                          real_time=real_time)
    _logger.debug('q %s', q)
    df = _market_data_timed(q)

    return Series() if df.empty else df['swapRate']
Exemplo n.º 9
0
def _get_crosscurrency_swap_data(
        asset1: Asset,
        asset2: Asset,
        swap_tenor: str,
        rateoption_type: str = None,
        forward_tenor: Optional[GENERIC_DATE] = None,
        clearing_house: tm_rates._ClearingHouse = None,
        source: str = None,
        real_time: bool = False,
        query_type: QueryType = QueryType.SWAP_RATE,
        location: PricingLocation = None) -> pd.DataFrame:
    if real_time:
        raise NotImplementedError(
            'realtime swap_rate not implemented for anything but rates')

    currency1 = CurrencyEnum(
        asset1.get_identifier(AssetIdentifier.BLOOMBERG_ID))
    currency2 = CurrencyEnum(
        asset2.get_identifier(AssetIdentifier.BLOOMBERG_ID))

    if currency1.value not in CURRENCY_TO_XCCY_SWAP_RATE_BENCHMARK.keys():
        raise NotImplementedError(
            'Data not available for {} crosscurrency swap rates'.format(
                currency1.value))
    if currency2.value not in CURRENCY_TO_XCCY_SWAP_RATE_BENCHMARK.keys():
        raise NotImplementedError(
            'Data not available for {} crosscurrency swap rates'.format(
                currency2.value))

    rateoption_type1 = _check_crosscurrency_rateoption_type(
        currency1, rateoption_type)
    rateoption_type2 = _check_crosscurrency_rateoption_type(
        currency2, rateoption_type)

    if rateoption_type1 != rateoption_type2:
        raise MqValueError(
            'The two currencies do not both support the rate Option type ' +
            rateoption_type)
    rateoption_type = rateoption_type1

    clearing_house = tm_rates._check_clearing_house(clearing_house)

    defaults1 = _get_crosscurrency_swap_leg_defaults(currency1,
                                                     rateoption_type)
    defaults2 = _get_crosscurrency_swap_leg_defaults(currency2,
                                                     rateoption_type)

    if not (tm_rates._is_valid_relative_date_tenor(swap_tenor)):
        raise MqValueError('invalid swap tenor ' + swap_tenor)

    if defaults1["pricing_location"] == PricingLocation.NYC:
        default_location = defaults2["pricing_location"]
        currency = currency2
    else:
        default_location = defaults1["pricing_location"]
        currency = currency1

    if location is None:
        pricing_location = PricingLocation(default_location)
    else:
        pricing_location = PricingLocation(location)
    pricing_location = tm_rates._pricing_location_normalized(
        pricing_location, currency)
    where = dict(pricingLocation=pricing_location.value)

    forward_tenor = tm_rates._check_forward_tenor(forward_tenor)
    fixed_rate = 'ATM'
    kwargs = dict(
        asset_class='Rates',
        type='XccySwapMTM',
        asset_parameters_termination_date=swap_tenor,
        asset_parameters_effective_date=forward_tenor,
        asset_parameters_payer_spread=fixed_rate,
        # asset_parameters_payer_currency=defaults1['currency'].value,
        asset_parameters_payer_rate_option=defaults1['rateOption'],
        # asset_parameters_payer_designated_maturity=defaults1['designatedMaturity'],
        # asset_parameters_receiver_currency=defaults2['currency'].value,
        asset_parameters_receiver_rate_option=defaults2['rateOption'],
        # asset_parameters_receiver_designated_maturity=defaults2['designatedMaturity'],
        asset_parameters_clearing_house=clearing_house.value,
        pricing_location=pricing_location)

    rate_mqid = _get_tdapi_crosscurrency_rates_assets(**kwargs)

    _logger.debug(
        f'where asset= {rate_mqid}, swap_tenor={swap_tenor}, forward_tenor={forward_tenor}, '
        f'payer_currency={defaults1["currency"].value}, payer_rate_option={defaults1["rateOption"]}, '
        f'payer_designated_maturity={defaults1["designatedMaturity"]}, '
        f'receiver_currency={defaults2["currency"].value}, receiver_rate_option={defaults2["rateOption"]}, '
        f'receiver_designated_maturity={defaults2["designatedMaturity"]}, '
        f'clearing_house={clearing_house.value}, pricing_location={pricing_location.value}'
    )
    q = GsDataApi.build_market_data_query([rate_mqid],
                                          query_type,
                                          where=where,
                                          source=source,
                                          real_time=real_time)
    _logger.debug('q %s', q)
    df = _market_data_timed(q)
    return df
Exemplo n.º 10
0
def swap_term_structure(asset: Asset,
                        benchmark_type: BenchmarkType = None,
                        floating_rate_tenor: str = None,
                        forward_tenor: Optional[GENERIC_DATE] = None,
                        pricing_date: Optional[GENERIC_DATE] = None,
                        *,
                        source: str = None,
                        real_time: bool = False) -> Series:
    """
    GS end-of-day Fixed-Floating interest rate swap (IRS) term structure across major currencies.

    :param asset: asset object loaded from security master
    :param benchmark_type: benchmark type e.g. LIBOR
    :param floating_rate_tenor: floating index rate
    :param forward_tenor: absolute / relative date representation of forward starting point eg: '1y' or 'Spot' for
    spot starting swaps, 'imm1' or 'frb1'
    :param pricing_date: YYYY-MM-DD or relative date
    :param source: name of function caller
    :param real_time: whether to retrieve intraday data instead of EOD
    :return: swap rate term structure
    """
    if real_time:
        raise NotImplementedError('realtime swap_rate not implemented')

    currency = asset.get_identifier(AssetIdentifier.BLOOMBERG_ID)
    currency = CurrencyEnum(currency)
    if currency.value not in ['JPY', 'EUR', 'USD', 'GBP', 'CHF', 'SEK']:
        raise NotImplementedError(
            'Data not available for {} swap rates'.format(currency.value))
    clearing_house = 'LCH'

    _check_benchmark_type(currency, benchmark_type)

    forward_tenor = check_forward_tenor(forward_tenor)

    defaults = _get_swap_leg_defaults(currency, benchmark_type,
                                      floating_rate_tenor)

    if not re.fullmatch('(\\d+)([bdwmy])', defaults['floating_rate_tenor']):
        raise MqValueError('invalid floating rate tenor ' +
                           defaults['floating_rate_tenor'] + ' for index: ' +
                           defaults['benchmark_type'])

    calendar = defaults['pricing_location'].value
    if pricing_date is not None and pricing_date in list(
            GsCalendar.get(calendar).holidays):
        raise MqValueError(
            'Specified pricing date is a holiday in {} calendar'.format(
                calendar))

    csaTerms = currency.value + '-1'
    fixed_rate = 'ATM'
    kwargs = dict(
        type='Swap',
        asset_parameters_floating_rate_option=defaults['benchmark_type'],
        asset_parameters_fixed_rate=fixed_rate,
        asset_parameters_clearing_house=clearing_house,
        asset_parameters_floating_rate_designated_maturity=defaults[
            'floating_rate_tenor'],
        asset_parameters_effective_date=forward_tenor,
        asset_parameters_notional_currency=currency.name,
        pricing_location=defaults['pricing_location'].value)

    assets = GsAssetApi.get_many_assets(**kwargs)
    if len(assets) == 0:
        raise MqValueError(
            'Specified arguments did not match any asset in the dataset')
    else:
        rate_mqids = [asset.id for asset in assets]

    asset_string = ''
    for mqid in rate_mqids:
        asset_string = asset_string + ',' + mqid
    _logger.debug('assets returned %s', asset_string)

    _logger.debug(
        'where benchmark_type=%s, floating_rate_tenor=%s, forward_tenor=%s, '
        'pricing_location=%s', defaults['benchmark_type'],
        defaults['floating_rate_tenor'], forward_tenor,
        defaults['pricing_location'].value)

    start, end = _range_from_pricing_date(calendar, pricing_date)
    with DataContext(start, end):
        where = FieldFilterMap(csaTerms=csaTerms)
        q = GsDataApi.build_market_data_query(rate_mqids,
                                              QueryType.SWAP_RATE,
                                              where=where,
                                              source=source,
                                              real_time=real_time)
        _logger.debug('q %s', q)
        df = _market_data_timed(q)

    if df.empty:
        return pd.Series()
    latest = df.index.max()
    _logger.info('selected pricing date %s', latest)
    df = df.loc[latest]
    business_day = _get_custom_bd(calendar)
    df = df.assign(expirationDate=df.index +
                   df['terminationTenor'].map(_to_offset) + business_day -
                   business_day)
    df = df.set_index('expirationDate')
    df.sort_index(inplace=True)
    df = df.loc[DataContext.current.start_date:DataContext.current.end_date]
    return df['swapRate'] if not df.empty else pd.Series()
Exemplo n.º 11
0
def inflation_swap_term(asset: Asset,
                        index_type: str = None,
                        forward_tenor: Optional[GENERIC_DATE] = None,
                        pricing_date: Optional[GENERIC_DATE] = None,
                        clearing_house: tm_rates._ClearingHouse = None,
                        location: PricingLocation = None,
                        *,
                        source: str = None,
                        real_time: bool = False,
                        request_id: Optional[str] = None) -> Series:
    """
    Forward term structure of GS end-of-day inflation swaps.

    :param asset: asset object loaded from security master
    :param index_type: benchmark type e.g. UKRPI
    :param forward_tenor: absolute / relative date representation of forward starting point eg: '1y' or 'Spot' for
            spot starting swaps, 'imm1' or 'frb1'
    :param pricing_date: YYYY-MM-DD or relative date
    :param clearing_house: Example - "LCH", "EUREX", "JSCC", "CME"
    :param location: Example - "TKO", "LDN", "NYC"
    :param source: name of function caller
    :param real_time: whether to retrieve intraday data instead of EOD
    :param request_id: service request id, if any
    :return: inflation swap forward term curve
    """
    currency = CurrencyEnum(asset.get_identifier(AssetIdentifier.BLOOMBERG_ID))

    if currency.value not in CURRENCY_TO_INDEX_BENCHMARK.keys():
        raise NotImplementedError(
            'Data not available for {} inflation swap rates'.format(
                currency.value))
    if location is None:
        location = tm_rates._default_pricing_location(currency)
    else:
        location = PricingLocation(location)
    calendar = location.value
    if pricing_date is not None and pricing_date in list(
            GsCalendar.get(calendar).holidays):
        raise MqValueError(
            'Specified pricing date is a holiday in {} calendar'.format(
                calendar))
    start, end = _range_from_pricing_date(calendar, pricing_date)
    with DataContext(start, end):
        df = _get_inflation_swap_data(asset=asset,
                                      swap_tenor=None,
                                      index_type=index_type,
                                      forward_tenor=forward_tenor,
                                      clearing_house=clearing_house,
                                      source=source,
                                      real_time=real_time,
                                      query_type=QueryType.SWAP_RATE,
                                      location=location,
                                      allow_many=True,
                                      request_id=request_id)
    if df.empty:
        series = ExtendedSeries(dtype=float)
    else:
        latest = df.index.max()
        # TODO: add forward tenor to latest. Technically series index should be latest + forwardTenor + terminationTenor
        # TODO: but that would make it hard to compare term structure btwn different forwardTenors
        # TODO: may be implemented some day when plot can handle different x-axes
        # TODO: As-is, this is consistent with other swap term measures axis handling
        _logger.info('selected pricing date %s', latest)
        df = df.loc[latest]
        biz_day = _get_custom_bd(calendar)
        df['expirationDate'] = df['terminationTenor'].apply(
            _get_term_struct_date, args=(latest, biz_day))
        df = df.set_index('expirationDate')
        df.sort_index(inplace=True)
        df = df.loc[DataContext.current.start_date:DataContext.current.
                    end_date]
        series = ExtendedSeries(
            dtype=float) if df.empty else ExtendedSeries(df['swapRate'])
        series.dataset_ids = getattr(df, 'dataset_ids', ())
    if series.empty:  # Raise descriptive error if no data returned + historical date context
        check_forward_looking(None, source, 'inflation_swap_term')
    return series
Exemplo n.º 12
0
def _get_inflation_swap_data(asset: Asset,
                             swap_tenor: str,
                             index_type: str = None,
                             forward_tenor: Optional[GENERIC_DATE] = None,
                             clearing_house: tm_rates._ClearingHouse = None,
                             source: str = None,
                             real_time: bool = False,
                             query_type: QueryType = QueryType.SWAP_RATE,
                             location: PricingLocation = None,
                             allow_many=False,
                             request_id: Optional[str] = None) -> pd.DataFrame:
    if real_time:
        raise NotImplementedError(
            'realtime inflation swap data not implemented')
    currency = CurrencyEnum(asset.get_identifier(AssetIdentifier.BLOOMBERG_ID))

    if currency.value not in CURRENCY_TO_INDEX_BENCHMARK.keys():
        raise NotImplementedError(
            'Data not available for {} inflation swap rates'.format(
                currency.value))
    index_type = _check_inflation_index_type(currency, index_type)

    clearing_house = tm_rates._check_clearing_house(clearing_house)

    defaults = _get_inflation_swap_leg_defaults(currency, index_type)

    if not (tm_rates._is_valid_relative_date_tenor(swap_tenor)):
        raise MqValueError('invalid swap tenor ' + swap_tenor)

    forward_tenor = tm_rates._check_forward_tenor(forward_tenor)

    fixed_rate = 'ATM'
    kwargs = dict(asset_class='Rates',
                  type='InflationSwap',
                  asset_parameters_termination_date=swap_tenor,
                  asset_parameters_index=defaults['index_type'],
                  asset_parameters_fixed_rate=fixed_rate,
                  asset_parameters_clearing_house=clearing_house.value,
                  asset_parameters_effective_date=forward_tenor,
                  asset_parameters_notional_currency=currency.name)

    rate_mqids = _get_tdapi_inflation_rates_assets(allow_many=allow_many,
                                                   **kwargs)

    if location is None:
        pricing_location = tm_rates._default_pricing_location(currency)
    else:
        pricing_location = PricingLocation(location)
    pricing_location = tm_rates._pricing_location_normalized(
        pricing_location, currency)
    where = dict(pricingLocation=pricing_location.value)
    entity_ids = [rate_mqids
                  ] if not isinstance(rate_mqids, list) else rate_mqids

    _logger.debug(
        f'where asset= {rate_mqids}, swap_tenor={swap_tenor}, index={defaults["index_type"]}, '
        f'forward_tenor={forward_tenor}, pricing_location={pricing_location.value}, '
        f'clearing_house={clearing_house.value}, notional_currency={currency.name}, '
        f'request_id={request_id}')
    q = GsDataApi.build_market_data_query(entity_ids,
                                          query_type,
                                          where=where,
                                          source=source,
                                          real_time=real_time)
    _logger.debug(f'q: {q}, request_id: {request_id}')
    df = _market_data_timed(q)
    return df
Exemplo n.º 13
0
def swap_term_structure(asset: Asset,
                        benchmark_type: str = None,
                        floating_rate_tenor: str = None,
                        tenor_type: _SwapTenorType = None,
                        tenor: Optional[GENERIC_DATE] = None,
                        clearing_house: _ClearingHouse = None,
                        pricing_date: Optional[GENERIC_DATE] = None,
                        *,
                        source: str = None,
                        real_time: bool = False) -> Series:
    """
    GS end-of-day Fixed-Floating interest rate swap (IRS) term structure across major currencies.

    :param asset: asset object loaded from security master
    :param benchmark_type: benchmark type e.g. LIBOR
    :param floating_rate_tenor: floating index rate
    :param tenor_type: specify which tenor should be fixed, SWAP_TENOR or FORWARD_TENOR
    :param tenor: absolute / relative date representation of forward starting point or swap maturity
    :param clearing_house: Example - "LCH", "EUREX", "JSCC", "CME"
    :param pricing_date: YYYY-MM-DD or relative date
    :param source: name of function caller
    :param real_time: whether to retrieve intraday data instead of EOD
    :return: swap rate term structure
    """
    if real_time:
        raise NotImplementedError('realtime swap_rate not implemented')

    currency = asset.get_identifier(AssetIdentifier.BLOOMBERG_ID)
    currency = CurrencyEnum(currency)
    if currency.value not in ['JPY', 'EUR', 'USD', 'GBP', 'CHF', 'SEK']:
        raise NotImplementedError(
            'Data not available for {} swap rates'.format(currency.value))

    clearing_house = _check_clearing_house(clearing_house)
    benchmark_type = _check_benchmark_type(currency, benchmark_type)
    tenor_type = _check_tenor_type(tenor_type)
    tenor_dict = _check_term_structure_tenor(tenor_type=tenor_type,
                                             tenor=tenor)
    defaults = _get_swap_leg_defaults(currency, benchmark_type,
                                      floating_rate_tenor)

    if not re.fullmatch('(\\d+)([bdwmy])', defaults['floating_rate_tenor']):
        raise MqValueError('invalid floating rate tenor ' +
                           defaults['floating_rate_tenor'] + ' for index: ' +
                           defaults['benchmark_type'])

    calendar = defaults['pricing_location'].value
    if pricing_date is not None and pricing_date in list(
            GsCalendar.get(calendar).holidays):
        raise MqValueError(
            'Specified pricing date is a holiday in {} calendar'.format(
                calendar))

    fixed_rate = 'ATM'
    kwargs = dict(
        type='Swap',
        asset_parameters_floating_rate_option=defaults['benchmark_type'],
        asset_parameters_fixed_rate=fixed_rate,
        asset_parameters_clearing_house=clearing_house.value,
        asset_parameters_floating_rate_designated_maturity=defaults[
            'floating_rate_tenor'],
        asset_parameters_notional_currency=currency.name,
        pricing_location=defaults['pricing_location'].value)
    kwargs[tenor_dict['tenor_dataset_field']] = tenor_dict['tenor']
    rate_mqids = _get_mdapi_rates_assets(**kwargs)
    if isinstance(rate_mqids, str):
        rate_mqids = [rate_mqids]
    _logger.debug('assets returned %s', ', '.join(rate_mqids))
    _logger.debug(
        'where benchmark_type=%s, floating_rate_tenor=%s, %s=%s, '
        'pricing_location=%s', defaults['benchmark_type'],
        defaults['floating_rate_tenor'], tenor_type.value, tenor_dict['tenor'],
        defaults['pricing_location'].value)
    where = _get_swap_csa_terms(currency.value, defaults['benchmark_type'])
    start, end = _range_from_pricing_date(calendar, pricing_date)
    with DataContext(start, end):
        q = GsDataApi.build_market_data_query(rate_mqids,
                                              QueryType.SWAP_RATE,
                                              where=where,
                                              source=source,
                                              real_time=real_time)
        _logger.debug('q %s', q)
        df = _market_data_timed(q)

    if df.empty:
        series = ExtendedSeries()
    else:
        latest = df.index.max()
        _logger.info('selected pricing date %s', latest)
        df = df.loc[latest]
        biz_day = _get_custom_bd(calendar)
        col_to_plot = tenor_dict['tenor_to_plot']
        if isinstance(df, pd.Series):
            series = ExtendedSeries(
                pd.Series(df['swapRate'],
                          index=[
                              _get_term_struct_date(df[col_to_plot], latest,
                                                    biz_day)
                          ]))
            series = series.loc[DataContext.current.start_date:DataContext.
                                current.end_date]
        else:
            if col_to_plot == 'effectiveTenor':
                df = df[~df[col_to_plot].isin(['imm1', 'imm2', 'imm3', 'imm4']
                                              )]
            df['expirationDate'] = df[col_to_plot].apply(_get_term_struct_date,
                                                         args=(latest,
                                                               biz_day))
            df = df.set_index('expirationDate')
            df.sort_index(inplace=True)
            df = df.loc[DataContext.current.start_date:DataContext.current.
                        end_date]
            series = ExtendedSeries() if df.empty else ExtendedSeries(
                df['swapRate'])
    series.dataset_ids = getattr(df, 'dataset_ids', ())
    return series