Bond: Base class for Bond price evalution
In RQuantLib: R Interface to the 'QuantLib' Library
Bond R Documentation
Base class for Bond price evalution
Description
This class forms the basis from which the more specific classes are
derived.
Usage
## S3 method for class 'Bond'
print(x, digits=5, ...)
## S3 method for class 'FixedRateBond'
print(x, digits=5, ...)
## S3 method for class 'Bond'
plot(x, ...)
## S3 method for class 'Bond'
summary(object, digits=5, ...)
Arguments
x
Any Bond object derived from this base class
object
Any Bond object derived from this base class
digits
Number of digits of precision shown
...
Further arguments
Details
Please see any decent Finance textbook for background reading, and the
QuantLib documentation for details on the QuantLib
implementation.
Value
None, but side effects of displaying content.
Note
The interface might change in future release as QuantLib
stabilises its own API.
Author(s)
Khanh Nguyen knguyen@cs.umb.edu; Dirk Eddelbuettel edd@debian.org for the R interface;
the QuantLib Group for QuantLib
References
https://www.quantlib.org/ for details on QuantLib.
Examples
## Not run:
## This data is taken from sample code shipped with QuantLib 0.9.7
## from the file Examples/Swap/swapvaluation
params <- list(tradeDate=as.Date('2004-09-20'),
settleDate=as.Date('2004-09-22'),
dt=.25,
interpWhat="discount",
interpHow="loglinear")
setEvaluationDate(as.Date("2004-09-20"))
## We got numerical issues for the spline interpolation if we add
## any on of these three extra futures, at least with QuantLib 0.9.7
## The curve data comes from QuantLib's Examples/Swap/swapvaluation.cpp
## Removing s2y helps, as kindly pointed out by Luigi Ballabio
tsQuotes <- list(d1w = 0.0382,
d1m = 0.0372,
fut1=96.2875,
fut2=96.7875,
fut3=96.9875,
fut4=96.6875,
fut5=96.4875,
fut6=96.3875,
fut7=96.2875,
fut8=96.0875,
# s2y = 0.037125, ## s2y perturbs
s3y = 0.0398,
s5y = 0.0443,
s10y = 0.05165,
s15y = 0.055175)
times <- seq(0,10,.1)
setEvaluationDate(params$tradeDate)
discountCurve <- DiscountCurve(params, tsQuotes, times)
# price a zero coupon bond
bondparams <- list(faceAmount=100, issueDate=as.Date("2004-11-30"),
maturityDate=as.Date("2008-11-30"), redemption=100 )
dateparams <-list(settlementDays=1,
calendar="UnitedStates/GovernmentBond",
businessDayConvention=4)
ZeroCouponBond(bondparams, discountCurve, dateparams)
# price a fixed rate coupon bond
bond <- list(settlementDays=1, issueDate=as.Date("2004-11-30"),
faceAmount=100, dayCounter='Thirty360',
paymentConvention='Unadjusted')
schedule <- list(effectiveDate=as.Date("2004-11-30"),
maturityDate=as.Date("2008-11-30"),
period='Semiannual',
calendar='UnitedStates/GovernmentBond',
businessDayConvention='Unadjusted',
terminationDateConvention='Unadjusted',
dateGeneration='Forward',
endOfMonth=1)
calc=list(dayCounter='Actual360', compounding='Compounded',
freq='Annual', durationType='Modified')
rates <- c(0.02875)
FixedRateBond(bond, rates, schedule, calc, discountCurve=discountCurve)
# price a fixed rate coupon bond from yield
yield <- 0.050517
FixedRateBond(bond, rates, schedule, calc, yield=yield)
# calculate the same bond from the clean price
price <- 92.167
FixedRateBond(bond, rates, schedule, calc, price=price)
# price a floating rate bond
bondparams <- list(faceAmount=100, issueDate=as.Date("2004-11-30"),
maturityDate=as.Date("2008-11-30"), redemption=100,
effectiveDate=as.Date("2004-12-01"))
dateparams <- list(settlementDays=1, calendar="UnitedStates/GovernmentBond",
dayCounter = 1, period=3, businessDayConvention = 1,
terminationDateConvention=1, dateGeneration=0, endOfMonth=0,
fixingDays = 1)
gearings <- spreads <- caps <- floors <- vector()
iborCurve <- DiscountCurve(params,list(flat=0.05), times)
ibor <- list(type="USDLibor", length=6, inTermOf="Month",
term=iborCurve)
FloatingRateBond(bondparams, gearings, spreads, caps, floors,
ibor, discountCurve, dateparams)
## End(Not run)
RQuantLib documentation built on Nov. 27, 2023, 1:07 a.m.
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| Bond | R Documentation |
Base class for Bond price evalution
Description
This class forms the basis from which the more specific classes are derived.
Usage
## S3 method for class 'Bond'
print(x, digits=5, ...)
## S3 method for class 'FixedRateBond'
print(x, digits=5, ...)
## S3 method for class 'Bond'
plot(x, ...)
## S3 method for class 'Bond'
summary(object, digits=5, ...)
Arguments
x |
Any Bond object derived from this base class |
object |
Any Bond object derived from this base class |
digits |
Number of digits of precision shown |
... |
Further arguments |
Details
Please see any decent Finance textbook for background reading, and the
QuantLib documentation for details on the QuantLib
implementation.
Value
None, but side effects of displaying content.
Note
The interface might change in future release as QuantLib
stabilises its own API.
Author(s)
Khanh Nguyen knguyen@cs.umb.edu; Dirk Eddelbuettel edd@debian.org for the R interface;
the QuantLib Group for QuantLib
References
https://www.quantlib.org/ for details on QuantLib.
Examples
## Not run:
## This data is taken from sample code shipped with QuantLib 0.9.7
## from the file Examples/Swap/swapvaluation
params <- list(tradeDate=as.Date('2004-09-20'),
settleDate=as.Date('2004-09-22'),
dt=.25,
interpWhat="discount",
interpHow="loglinear")
setEvaluationDate(as.Date("2004-09-20"))
## We got numerical issues for the spline interpolation if we add
## any on of these three extra futures, at least with QuantLib 0.9.7
## The curve data comes from QuantLib's Examples/Swap/swapvaluation.cpp
## Removing s2y helps, as kindly pointed out by Luigi Ballabio
tsQuotes <- list(d1w = 0.0382,
d1m = 0.0372,
fut1=96.2875,
fut2=96.7875,
fut3=96.9875,
fut4=96.6875,
fut5=96.4875,
fut6=96.3875,
fut7=96.2875,
fut8=96.0875,
# s2y = 0.037125, ## s2y perturbs
s3y = 0.0398,
s5y = 0.0443,
s10y = 0.05165,
s15y = 0.055175)
times <- seq(0,10,.1)
setEvaluationDate(params$tradeDate)
discountCurve <- DiscountCurve(params, tsQuotes, times)
# price a zero coupon bond
bondparams <- list(faceAmount=100, issueDate=as.Date("2004-11-30"),
maturityDate=as.Date("2008-11-30"), redemption=100 )
dateparams <-list(settlementDays=1,
calendar="UnitedStates/GovernmentBond",
businessDayConvention=4)
ZeroCouponBond(bondparams, discountCurve, dateparams)
# price a fixed rate coupon bond
bond <- list(settlementDays=1, issueDate=as.Date("2004-11-30"),
faceAmount=100, dayCounter='Thirty360',
paymentConvention='Unadjusted')
schedule <- list(effectiveDate=as.Date("2004-11-30"),
maturityDate=as.Date("2008-11-30"),
period='Semiannual',
calendar='UnitedStates/GovernmentBond',
businessDayConvention='Unadjusted',
terminationDateConvention='Unadjusted',
dateGeneration='Forward',
endOfMonth=1)
calc=list(dayCounter='Actual360', compounding='Compounded',
freq='Annual', durationType='Modified')
rates <- c(0.02875)
FixedRateBond(bond, rates, schedule, calc, discountCurve=discountCurve)
# price a fixed rate coupon bond from yield
yield <- 0.050517
FixedRateBond(bond, rates, schedule, calc, yield=yield)
# calculate the same bond from the clean price
price <- 92.167
FixedRateBond(bond, rates, schedule, calc, price=price)
# price a floating rate bond
bondparams <- list(faceAmount=100, issueDate=as.Date("2004-11-30"),
maturityDate=as.Date("2008-11-30"), redemption=100,
effectiveDate=as.Date("2004-12-01"))
dateparams <- list(settlementDays=1, calendar="UnitedStates/GovernmentBond",
dayCounter = 1, period=3, businessDayConvention = 1,
terminationDateConvention=1, dateGeneration=0, endOfMonth=0,
fixingDays = 1)
gearings <- spreads <- caps <- floors <- vector()
iborCurve <- DiscountCurve(params,list(flat=0.05), times)
ibor <- list(type="USDLibor", length=6, inTermOf="Month",
term=iborCurve)
FloatingRateBond(bondparams, gearings, spreads, caps, floors,
ibor, discountCurve, dateparams)
## End(Not run)
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