def test_bond_schedule_anotherday(self): '''Test date calculations and role of settings when evaluation date set to arbitrary date. This test is known to fail with boost 1.42. ''' todays_date = Date(30, August, 2011) settings = Settings() settings.evaluation_date = todays_date calendar = TARGET() effective_date = Date(10, Jul, 2006) termination_date = calendar.advance( effective_date, 10, Years, convention=Unadjusted) settlement_days = 3 face_amount = 100.0 coupon_rate = 0.05 redemption = 100.0 fixed_bond_schedule = Schedule.from_rule( effective_date, termination_date, Period(Annual), calendar, ModifiedFollowing, ModifiedFollowing, Rule.Backward ) issue_date = effective_date bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(ISMA), Following, redemption, issue_date ) self.assertEqual( calendar.advance(todays_date, 3, Days), bond.settlement_date())
def test_bond_schedule_today(self): '''Test date calculations and role of settings when evaluation date set to current date. ''' todays_date = today() settings = Settings() settings.evaluation_date = todays_date calendar = TARGET() effective_date = Date(10, Jul, 2006) termination_date = calendar.advance( effective_date, 10, Years, convention=Unadjusted) settlement_days = 3 face_amount = 100.0 coupon_rate = 0.05 redemption = 100.0 fixed_bond_schedule = Schedule( effective_date, termination_date, Period(Annual), calendar, ModifiedFollowing, ModifiedFollowing, Backward ) issue_date = effective_date bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(ISMA), Following, redemption, issue_date ) self.assertEquals( calendar.advance(todays_date, 3, Days), bond.settlement_date())
def _cfamounts(coupon_rate, pricing_date, maturity_date, period, basis): """ cash flow schedule """ _period = str_to_frequency(period) evaluation_date = pydate_to_qldate(pricing_date) settings = Settings() settings.evaluation_date = evaluation_date calendar = TARGET() termination_date = pydate_to_qldate(maturity_date) # effective date must be before settlement date, but do not # care about exact issuance date of bond effective_date = Date(termination_date.day, termination_date.month, evaluation_date.year) effective_date = calendar.advance( effective_date, -1, Years, convention=Unadjusted) face_amount = 100.0 redemption = 100.0 fixed_bond_schedule = Schedule( effective_date, termination_date, Period(_period), calendar, ModifiedFollowing, ModifiedFollowing, Backward ) issue_date = effective_date cnt = DayCounter.from_name(basis) settlement_days = 2 bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], cnt, Following, redemption, issue_date) res = zip(*bond.cashflows) return(res)
def test_bond_schedule_today(self): '''Test date calculations and role of settings when evaluation date set to current date. ''' todays_date = today() settings = Settings() settings.evaluation_date = todays_date calendar = TARGET() effective_date = Date(10, Jul, 2006) termination_date = calendar.advance(effective_date, 10, Years, convention=Unadjusted) settlement_days = 3 face_amount = 100.0 coupon_rate = 0.05 redemption = 100.0 fixed_bond_schedule = Schedule(effective_date, termination_date, Period(Annual), calendar, ModifiedFollowing, ModifiedFollowing, Backward) issue_date = effective_date bond = FixedRateBond(settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(ISMA), Following, redemption, issue_date) self.assertEquals(calendar.advance(todays_date, 3, Days), bond.settlement_date())
def test_excel_example_with_fixed_rate_bond(self): '''Port the QuantLib Excel adding bond example to Python. ''' todays_date = Date(25, August, 2011) settings = Settings() settings.evaluation_date = todays_date calendar = TARGET() effective_date = Date(10, Jul, 2006) termination_date = calendar.advance(effective_date, 10, Years, convention=Unadjusted) settlement_days = 3 face_amount = 100.0 coupon_rate = 0.05 redemption = 100.0 fixed_bond_schedule = Schedule.from_rule(effective_date, termination_date, Period(Annual), calendar, ModifiedFollowing, ModifiedFollowing, Backward) issue_date = effective_date bond = FixedRateBond(settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(ISMA), Following, redemption, issue_date) discounting_term_structure = YieldTermStructure() flat_term_structure = FlatForward(settlement_days=1, forward=0.044, calendar=NullCalendar(), daycounter=Actual365Fixed(), compounding=Continuous, frequency=Annual) discounting_term_structure.link_to(flat_term_structure) engine = DiscountingBondEngine(discounting_term_structure) bond.set_pricing_engine(engine) self.assertEqual(Date(10, Jul, 2016), termination_date) self.assertEqual(calendar.advance(todays_date, 3, Days), bond.settlement_date()) self.assertEqual(Date(11, Jul, 2016), bond.maturity_date) self.assertAlmostEqual(0.6849, bond.accrued_amount(bond.settlement_date()), 4) self.assertAlmostEqual(102.1154, bond.clean_price, 4)
def test_excel_example_with_fixed_rate_bond(self): """Port the QuantLib Excel adding bond example to Python. """ todays_date = Date(25, August, 2011) settings = Settings() settings.evaluation_date = todays_date calendar = TARGET() effective_date = Date(10, Jul, 2006) termination_date = calendar.advance(effective_date, 10, Years, convention=Unadjusted) settlement_days = 3 face_amount = 100.0 coupon_rate = 0.05 redemption = 100.0 fixed_bond_schedule = Schedule( effective_date, termination_date, Period(Annual), calendar, ModifiedFollowing, ModifiedFollowing, Backward ) issue_date = effective_date bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(ISMA), Following, redemption, issue_date, ) discounting_term_structure = YieldTermStructure(relinkable=True) flat_term_structure = FlatForward( settlement_days=1, forward=0.044, calendar=NullCalendar(), daycounter=Actual365Fixed(), compounding=Continuous, frequency=Annual, ) discounting_term_structure.link_to(flat_term_structure) engine = DiscountingBondEngine(discounting_term_structure) bond.set_pricing_engine(engine) self.assertEquals(Date(10, Jul, 2016), termination_date) self.assertEquals(calendar.advance(todays_date, 3, Days), bond.settlement_date()) self.assertEquals(Date(11, Jul, 2016), bond.maturity_date) self.assertAlmostEqual(0.6849, bond.accrued_amount(bond.settlement_date()), 4) self.assertAlmostEqual(102.1154, bond.clean_price, 4)
10, Years, convention=Unadjusted) settlement_days = 3 face_amount = 100.0 coupon_rate = 0.05 redemption = 100.0 fixed_bond_schedule = Schedule(effective_date, termination_date, Period(Annual), calendar, ModifiedFollowing, ModifiedFollowing, Backward) issue_date = effective_date bond = FixedRateBond(settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(ISMA), Following, redemption, issue_date) discounting_term_structure = YieldTermStructure(relinkable=True) flat_term_structure = FlatForward(settlement_days=1, forward=0.044, calendar=NullCalendar(), daycounter=Actual365Fixed(), compounding=Continuous, frequency=Annual) discounting_term_structure.link_to(flat_term_structure) pricing_engine = DiscountingBondEngine(discounting_term_structure) bond.set_pricing_engine(pricing_engine) print('Settlement date: ', bond.settlement_date()) print('Maturity date:', bond.maturity_date)
def _bndprice(bond_yield, coupon_rate, pricing_date, maturity_date, period, basis, compounding_frequency): """ Clean price and accrued interest of a bond """ _period = str_to_frequency(period) evaluation_date = pydate_to_qldate(pricing_date) settings = Settings() settings.evaluation_date = evaluation_date calendar = TARGET() termination_date = pydate_to_qldate(maturity_date) # effective date must be before settlement date, but do not # care about exact issuance date of bond effective_date = Date(termination_date.day, termination_date.month, evaluation_date.year) effective_date = calendar.advance(effective_date, -1, Years, convention=Unadjusted) settlement_date = calendar.advance(evaluation_date, 2, Days, convention=ModifiedFollowing) face_amount = 100.0 redemption = 100.0 fixed_bond_schedule = Schedule(effective_date, termination_date, Period(_period), calendar, ModifiedFollowing, ModifiedFollowing, Backward) issue_date = effective_date cnt = DayCounter.from_name(basis) settlement_days = 2 bond = FixedRateBond(settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], cnt, Following, redemption, issue_date) discounting_term_structure = YieldTermStructure(relinkable=True) cnt_yield = DayCounter.from_name('Actual/Actual (Historical)') flat_term_structure = FlatForward(settlement_days=2, forward=bond_yield, calendar=NullCalendar(), daycounter=cnt_yield, compounding=Compounded, frequency=_period) discounting_term_structure.link_to(flat_term_structure) engine = DiscountingBondEngine(discounting_term_structure) bond.set_pricing_engine(engine) price = bond.clean_price ac = bond.accrued_amount(pydate_to_qldate(settlement_date)) return (price, ac)
def _bndprice(bond_yield, coupon_rate, pricing_date, maturity_date, period, basis, compounding_frequency): """ Clean price and accrued interest of a bond """ _period = str_to_frequency(period) evaluation_date = pydate_to_qldate(pricing_date) settings = Settings() settings.evaluation_date = evaluation_date calendar = TARGET() termination_date = pydate_to_qldate(maturity_date) # effective date must be before settlement date, but do not # care about exact issuance date of bond effective_date = Date(termination_date.day, termination_date.month, evaluation_date.year) effective_date = calendar.advance( effective_date, -1, Years, convention=Unadjusted) settlement_date = calendar.advance( evaluation_date, 2, Days, convention=ModifiedFollowing) face_amount = 100.0 redemption = 100.0 fixed_bond_schedule = Schedule( effective_date, termination_date, Period(_period), calendar, ModifiedFollowing, ModifiedFollowing, Backward ) issue_date = effective_date cnt = DayCounter.from_name(basis) settlement_days = 2 bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], cnt, Following, redemption, issue_date ) discounting_term_structure = YieldTermStructure(relinkable=True) cnt_yield = DayCounter.from_name('Actual/Actual (Historical)') flat_term_structure = FlatForward( settlement_days=2, forward=bond_yield, calendar=NullCalendar(), daycounter=cnt_yield, compounding=Compounded, frequency=_period) discounting_term_structure.link_to(flat_term_structure) engine = DiscountingBondEngine(discounting_term_structure) bond.set_pricing_engine(engine) price = bond.clean_price ac = bond.accrued_amount(pydate_to_qldate(settlement_date)) return (price, ac)
def test_pricing_bond(): '''Inspired by the C++ code from http://quantcorner.wordpress.com/.''' settings = Settings() # Date setup calendar = TARGET() # Settlement date settlement_date = calendar.adjust(Date(28, January, 2011)) # Evaluation date fixing_days = 1 settlement_days = 1 todays_date = calendar.advance( settlement_date, -fixing_days, Days ) settings.evaluation_date = todays_date # Bound attributes face_amount = 100.0 redemption = 100.0 issue_date = Date(27, January, 2011) maturity_date = Date(31, August, 2020) coupon_rate = 0.03625 bond_yield = 0.034921 discounting_term_structure = YieldTermStructure(relinkable=True) flat_term_structure = FlatForward( reference_date = settlement_date, forward = bond_yield, daycounter = Actual365Fixed(), #actual_actual.ActualActual(actual_actual.Bond), compounding = Compounded, frequency = Semiannual) # have a look at the FixedRateBondHelper to simplify this # construction discounting_term_structure.link_to(flat_term_structure) #Rate fixed_bond_schedule = Schedule( issue_date, maturity_date, Period(Semiannual), UnitedStates(market=GOVERNMENTBOND), Unadjusted, Unadjusted, Backward, False); bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(Bond), Unadjusted, redemption, issue_date ) bond.set_pricing_engine(discounting_term_structure) return bond
fixed_bond_schedule = Schedule( effective_date, termination_date, Period(Annual), calendar, ModifiedFollowing, ModifiedFollowing, Backward ) issue_date = effective_date bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(ISMA), Following, redemption, issue_date ) discounting_term_structure = YieldTermStructure(relinkable=True) flat_term_structure = FlatForward( settlement_days = 1, forward = 0.044, calendar = NullCalendar(), daycounter = Actual365Fixed(), compounding = Continuous, frequency = Annual) discounting_term_structure.link_to(flat_term_structure)
def test_pricing_bond(self): '''Inspired by the C++ code from http://quantcorner.wordpress.com/.''' settings = Settings() # Date setup calendar = TARGET() # Settlement date settlement_date = calendar.adjust(Date(28, January, 2011)) # Evaluation date fixing_days = 1 settlement_days = 1 todays_date = calendar.advance( settlement_date, -fixing_days, Days ) settings.evaluation_date = todays_date # Bound attributes face_amount = 100.0 redemption = 100.0 issue_date = Date(27, January, 2011) maturity_date = Date(31, August, 2020) coupon_rate = 0.03625 bond_yield = 0.034921 discounting_term_structure = YieldTermStructure(relinkable=True) flat_term_structure = FlatForward( reference_date = settlement_date, forward = bond_yield, daycounter = Actual365Fixed(), #actual_actual.ActualActual(actual_actual.Bond), compounding = Compounded, frequency = Semiannual) # have a look at the FixedRateBondHelper to simplify this # construction discounting_term_structure.link_to(flat_term_structure) #Rate fixed_bond_schedule = Schedule( issue_date, maturity_date, Period(Semiannual), UnitedStates(market=GOVERNMENTBOND), Unadjusted, Unadjusted, Backward, False); bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(Bond), Unadjusted, redemption, issue_date ) bond.set_pricing_engine(discounting_term_structure) # tests self.assertTrue(Date(27, January, 2011), bond.issue_date) self.assertTrue(Date(31, August, 2020), bond.maturity_date) self.assertTrue(settings.evaluation_date, bond.valuation_date) # the following assertion fails but must be verified self.assertAlmostEqual(101.1, bond.clean_price, 1) self.assertAlmostEqual(101.1, bond.net_present_value, 1) self.assertAlmostEqual(101.1, bond.dirty_price) self.assertAlmostEqual(0.009851, bond.accrued_amount()) print settings.evaluation_date print 'Principal: {}'.format(face_amount) print 'Issuing date: {} '.format(bond.issue_date) print 'Maturity: {}'.format(bond.maturity_date) print 'Coupon rate: {:.4%}'.format(coupon_rate) print 'Yield: {:.4%}'.format(bond_yield) print 'Net present value: {:.4f}'.format(bond.net_present_value) print 'Clean price: {:.4f}'.format(bond.clean_price) print 'Dirty price: {:.4f}'.format(bond.dirty_price) print 'Accrued coupon: {:.6f}'.format(bond.accrued_amount()) print 'Accrued coupon: {:.6f}'.format( bond.accrued_amount(Date(1, March, 2011)) )
def test_pricing_bond(self): '''Inspired by the C++ code from http://quantcorner.wordpress.com/.''' settings = Settings() # Date setup calendar = TARGET() # Settlement date settlement_date = calendar.adjust(Date(28, January, 2011)) # Evaluation date fixing_days = 1 settlement_days = 1 todays_date = calendar.advance(settlement_date, -fixing_days, Days) settings.evaluation_date = todays_date # Bound attributes face_amount = 100.0 redemption = 100.0 issue_date = Date(27, January, 2011) maturity_date = Date(31, August, 2020) coupon_rate = 0.03625 bond_yield = 0.034921 discounting_term_structure = YieldTermStructure(relinkable=True) flat_term_structure = FlatForward( reference_date=settlement_date, forward=bond_yield, daycounter=Actual365Fixed( ), #actual_actual.ActualActual(actual_actual.Bond), compounding=Compounded, frequency=Semiannual) # have a look at the FixedRateBondHelper to simplify this # construction discounting_term_structure.link_to(flat_term_structure) #Rate fixed_bond_schedule = Schedule(issue_date, maturity_date, Period(Semiannual), UnitedStates(market=GOVERNMENTBOND), Unadjusted, Unadjusted, Backward, False) bond = FixedRateBond(settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(Bond), Unadjusted, redemption, issue_date) bond.set_pricing_engine(discounting_term_structure) # tests self.assertTrue(Date(27, January, 2011), bond.issue_date) self.assertTrue(Date(31, August, 2020), bond.maturity_date) self.assertTrue(settings.evaluation_date, bond.valuation_date) # the following assertion fails but must be verified self.assertAlmostEqual(101.1, bond.clean_price, 1) self.assertAlmostEqual(101.1, bond.net_present_value, 1) self.assertAlmostEqual(101.1, bond.dirty_price) self.assertAlmostEqual(0.009851, bond.accrued_amount()) print(settings.evaluation_date) print('Principal: {}'.format(face_amount)) print('Issuing date: {} '.format(bond.issue_date)) print('Maturity: {}'.format(bond.maturity_date)) print('Coupon rate: {:.4%}'.format(coupon_rate)) print('Yield: {:.4%}'.format(bond_yield)) print('Net present value: {:.4f}'.format(bond.net_present_value)) print('Clean price: {:.4f}'.format(bond.clean_price)) print('Dirty price: {:.4f}'.format(bond.dirty_price)) print('Accrued coupon: {:.6f}'.format(bond.accrued_amount())) print('Accrued coupon: {:.6f}'.format( bond.accrued_amount(Date(1, March, 2011))))
def test_display(self): settings = Settings() # Date setup calendar = TARGET() # Settlement date settlement_date = calendar.adjust(Date(28, January, 2011)) # Evaluation date fixing_days = 1 settlement_days = 1 todays_date = calendar.advance( settlement_date, -fixing_days, Days ) settings.evaluation_date = todays_date # Bound attributes face_amount = 100.0 redemption = 100.0 issue_date = Date(27, January, 2011) maturity_date = Date(31, August, 2020) coupon_rate = 0.03625 bond_yield = 0.034921 flat_discounting_term_structure = YieldTermStructure() flat_term_structure = FlatForward( reference_date = settlement_date, forward = bond_yield, daycounter = Actual365Fixed(), #actual_actual.ActualActual(actual_actual.Bond), compounding = Compounded, frequency = Semiannual) # have a look at the FixedRateBondHelper to simplify this # construction flat_discounting_term_structure.link_to(flat_term_structure) #Rate fixed_bond_schedule = Schedule( issue_date, maturity_date, Period(Semiannual), UnitedStates(market=GOVERNMENTBOND), Unadjusted, Unadjusted, Backward, False); bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(Bond), Unadjusted, redemption, issue_date ) d=bf.startDate(bond) zspd=bf.zSpread(bond, 100.0, flat_term_structure, Actual365Fixed(), Compounded, Semiannual, settlement_date, 1e-6, 100, 0.5) #Also need a test case for a PiecewiseTermStructure... depositData = [[ 1, Months, 4.581 ], [ 2, Months, 4.573 ], [ 3, Months, 4.557 ], [ 6, Months, 4.496 ], [ 9, Months, 4.490 ]] swapData = [[ 1, Years, 4.54 ], [ 5, Years, 4.99 ], [ 10, Years, 5.47 ], [ 20, Years, 5.89 ], [ 30, Years, 5.96 ]] rate_helpers = [] end_of_month = True for m, period, rate in depositData: tenor = Period(m, Months) helper = DepositRateHelper(SimpleQuote(rate/100), tenor, settlement_days, calendar, ModifiedFollowing, end_of_month, Actual360()) rate_helpers.append(helper) liborIndex = Libor('USD Libor', Period(6, Months), settlement_days, USDCurrency(), calendar, Actual360(), YieldTermStructure(relinkable=False)) spread = SimpleQuote(0) fwdStart = Period(0, Days) for m, period, rate in swapData: helper = SwapRateHelper.from_tenor( SimpleQuote(rate/100), Period(m, Years), calendar, Annual, Unadjusted, Thirty360(), liborIndex, spread, fwdStart ) rate_helpers.append(helper) ts_day_counter = ActualActual(ISDA) tolerance = 1.0e-15 ts = PiecewiseYieldCurve.from_reference_date( BootstrapTrait.Discount, Interpolator.LogLinear, settlement_date, rate_helpers, ts_day_counter, tolerance) pyc_zspd=bf.zSpread(bond, 102.0, ts, ActualActual(ISDA), Compounded, Semiannual, Date(1, April, 2015), 1e-6, 100, 0.5) pyc_zspd_disco=bf.zSpread(bond, 95.0, ts, ActualActual(ISDA), Compounded, Semiannual, settlement_date, 1e-6, 100, 0.5) yld = bf.yld(bond, 102.0, ActualActual(ISDA), Compounded, Semiannual, settlement_date, 1e-6, 100, 0.5) dur = bf.duration(bond, yld, ActualActual(ISDA), Compounded, Semiannual, 2, settlement_date) yld_disco = bf.yld(bond, 95.0, ActualActual(ISDA), Compounded, Semiannual, settlement_date, 1e-6, 100, 0.5) dur_disco = bf.duration(bond, yld_disco, ActualActual(ISDA), Compounded, Semiannual, 2, settlement_date) self.assertEqual(round(zspd, 6), 0.001281) self.assertEqual(round(pyc_zspd, 4), -0.0264) self.assertEqual(round(pyc_zspd_disco, 4), -0.0114) self.assertEqual(round(yld, 4), 0.0338) self.assertEqual(round(yld_disco, 4), 0.0426) self.assertEqual(round(dur, 4), 8.0655) self.assertEqual(round(dur_disco, 4), 7.9702)
def test_bucketanalysis_bond(self): settings = Settings() calendar = TARGET() settlement_date = calendar.adjust(Date(28, January, 2011)) simple_quotes = [] fixing_days = 1 settlement_days = 1 todays_date = calendar.advance(settlement_date, -fixing_days, Days) settings.evaluation_date = todays_date face_amount = 100.0 redemption = 100.0 issue_date = Date(27, January, 2011) maturity_date = Date(1, January, 2021) coupon_rate = 0.055 bond_yield = 0.034921 flat_discounting_term_structure = YieldTermStructure() flat_term_structure = FlatForward(reference_date=settlement_date, forward=bond_yield, daycounter=Actual365Fixed(), compounding=Compounded, frequency=Semiannual) flat_discounting_term_structure.link_to(flat_term_structure) fixed_bond_schedule = Schedule.from_rule( issue_date, maturity_date, Period(Semiannual), UnitedStates(market=GovernmentBond), Unadjusted, Unadjusted, Backward, False) bond = FixedRateBond(settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(Bond), Unadjusted, redemption, issue_date) zspd = bf.zSpread(bond, 100.0, flat_term_structure, Actual365Fixed(), Compounded, Semiannual, settlement_date, 1e-6, 100, 0.5) depositData = [[1, Months, 4.581], [2, Months, 4.573], [3, Months, 4.557], [6, Months, 4.496], [9, Months, 4.490]] swapData = [[1, Years, 4.54], [5, Years, 4.99], [10, Years, 5.47], [20, Years, 5.89], [30, Years, 5.96]] rate_helpers = [] end_of_month = True for m, period, rate in depositData: tenor = Period(m, Months) sq_rate = SimpleQuote(rate / 100) helper = DepositRateHelper(sq_rate, tenor, settlement_days, calendar, ModifiedFollowing, end_of_month, Actual360()) simple_quotes.append(sq_rate) rate_helpers.append(helper) liborIndex = Libor('USD Libor', Period(6, Months), settlement_days, USDCurrency(), calendar, Actual360()) spread = SimpleQuote(0) fwdStart = Period(0, Days) for m, period, rate in swapData: sq_rate = SimpleQuote(rate / 100) helper = SwapRateHelper.from_tenor(sq_rate, Period(m, Years), calendar, Annual, Unadjusted, Thirty360(), liborIndex, spread, fwdStart) simple_quotes.append(sq_rate) rate_helpers.append(helper) ts_day_counter = ActualActual(ISDA) tolerance = 1.0e-15 ts = PiecewiseYieldCurve.from_reference_date(BootstrapTrait.Discount, Interpolator.LogLinear, settlement_date, rate_helpers, ts_day_counter, tolerance) discounting_term_structure = YieldTermStructure() discounting_term_structure.link_to(ts) pricing_engine = DiscountingBondEngine(discounting_term_structure) bond.set_pricing_engine(pricing_engine) self.assertAlmostEqual(bond.npv, 100.83702940160767) ba = bucket_analysis([simple_quotes], [bond], [1], 0.0001, 1) self.assertTrue(2, ba) self.assertTrue(type(tuple), ba) self.assertEqual(len(simple_quotes), len(ba[0][0])) self.assertEqual(0, ba[0][0][8])
fixed_bond_schedule = Schedule.from_rule( effective_date, termination_date, Period(Annual), calendar, ModifiedFollowing, ModifiedFollowing, Backward ) issue_date = effective_date bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(ISMA), Following, redemption, issue_date ) discounting_term_structure = YieldTermStructure(relinkable=True) flat_term_structure = FlatForward( settlement_days = 1, forward = 0.044, calendar = NullCalendar(), daycounter = Actual365Fixed(), compounding = Continuous, frequency = Annual) discounting_term_structure.link_to(flat_term_structure) pricing_engine = DiscountingBondEngine(discounting_term_structure)
def test_bucketanalysis_bond(self): settings = Settings() calendar = TARGET() settlement_date = calendar.adjust(Date(28, January, 2011)) simple_quotes = [] fixing_days = 1 settlement_days = 1 todays_date = calendar.advance( settlement_date, -fixing_days, Days ) settings.evaluation_date = todays_date face_amount = 100.0 redemption = 100.0 issue_date = Date(27, January, 2011) maturity_date = Date(1, January, 2021) coupon_rate = 0.055 bond_yield = 0.034921 flat_discounting_term_structure = YieldTermStructure(relinkable=True) flat_term_structure = FlatForward( reference_date = settlement_date, forward = bond_yield, daycounter = Actual365Fixed(), compounding = Compounded, frequency = Semiannual) flat_discounting_term_structure.link_to(flat_term_structure) fixed_bond_schedule = Schedule( issue_date, maturity_date, Period(Semiannual), UnitedStates(market=GOVERNMENTBOND), Unadjusted, Unadjusted, Backward, False); bond = FixedRateBond( settlement_days, face_amount, fixed_bond_schedule, [coupon_rate], ActualActual(Bond), Unadjusted, redemption, issue_date ) zspd=bf.zSpread(bond, 100.0, flat_term_structure, Actual365Fixed(), Compounded, Semiannual, settlement_date, 1e-6, 100, 0.5) depositData = [[ 1, Months, 4.581 ], [ 2, Months, 4.573 ], [ 3, Months, 4.557 ], [ 6, Months, 4.496 ], [ 9, Months, 4.490 ]] swapData = [[ 1, Years, 4.54 ], [ 5, Years, 4.99 ], [ 10, Years, 5.47 ], [ 20, Years, 5.89 ], [ 30, Years, 5.96 ]] rate_helpers = [] end_of_month = True for m, period, rate in depositData: tenor = Period(m, Months) sq_rate = SimpleQuote(rate/100) helper = DepositRateHelper(sq_rate, tenor, settlement_days, calendar, ModifiedFollowing, end_of_month, Actual360()) simple_quotes.append(sq_rate) rate_helpers.append(helper) liborIndex = Libor('USD Libor', Period(6, Months), settlement_days, USDCurrency(), calendar, Actual360(), YieldTermStructure(relinkable=False)) spread = SimpleQuote(0) fwdStart = Period(0, Days) for m, period, rate in swapData: sq_rate = SimpleQuote(rate/100) helper = SwapRateHelper.from_tenor( sq_rate, Period(m, Years), calendar, Annual, Unadjusted, Thirty360(), liborIndex, spread, fwdStart ) simple_quotes.append(sq_rate) rate_helpers.append(helper) ts_day_counter = ActualActual(ISDA) tolerance = 1.0e-15 ts = PiecewiseYieldCurve( 'discount', 'loglinear', settlement_date, rate_helpers, ts_day_counter, tolerance) discounting_term_structure = YieldTermStructure(relinkable=True) discounting_term_structure.link_to(ts) pricing_engine = DiscountingBondEngine(discounting_term_structure) bond.set_pricing_engine(pricing_engine) self.assertAlmostEqual(bond.npv, 100.83702940160767) ba = bucket_analysis([simple_quotes], [bond], [1], 0.0001, 1) self.assertTrue(2, ba) self.assertTrue(type(tuple), ba) self.assertEqual(len(simple_quotes), len(ba[0][0])) self.assertEqual(0, ba[0][0][8])