NPV: Short Selection of Financial Mathematical Functions
In DescTools: Tools for Descriptive Statistics
NPV R Documentation
Short Selection of Financial Mathematical Functions
Description
Calculate the one period returns, the net present value (NPV()), the internal rate of return (IRR()) of a sequence of payments. NPVFixBond() returns the netpresent value for a fixed-rate bond, YTM() the yield to maturity for a bond.
Usage
OPR(K, D = NULL, log = FALSE)
NPV(i, cf, t = seq(along = cf) - 1)
IRR(cf, t = seq(along = cf) - 1, interval = c(-1.5, 1.5), ...)
NPVFixBond(i, Co, RV, n)
YTM(Co, PP, RV, n)
Arguments
i
the interest rate
cf
numeric vector with the payments
t
periods
K
the capital at time t
D
dividend at time t
log
logical, determining if the simple returns (default) or log returns are to be calculated.
interval
a vector containing the end-points of the interval to
be searched for the root in the function IRR.
Co
coupon payments of a fixed-rate bond
PP
purchase price for a fixed-rate bond
RV
redemption value
n
the term of the bond, total number of periods
...
the dots are passed to the UnirootAll function in IRR
Details
The one period returns are calculated as
r_t = \frac{D_t+K_t-K_t-1}{K_t-1}
Value
a numeric value
Author(s)
Andri Signorell <andri@signorell.net>
See Also
Gmean
Examples
# one root
IRR(cf <- c(-900, -250+450-90, 460-100, 500-120, 550-140))
# several IRR solutions
IRR(cf = c(-100, 500, -600))
# no solution
IRR(cf = c(-100, 400, -600))
# negative and huge solution
IRR(cf = c(-100, 1000, -600), interval = c(-1.5, 1000))
DescTools documentation built on Sept. 26, 2024, 1:07 a.m.
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| NPV | R Documentation |
Short Selection of Financial Mathematical Functions
Description
Calculate the one period returns, the net present value (NPV()), the internal rate of return (IRR()) of a sequence of payments. NPVFixBond() returns the netpresent value for a fixed-rate bond, YTM() the yield to maturity for a bond.
Usage
OPR(K, D = NULL, log = FALSE)
NPV(i, cf, t = seq(along = cf) - 1)
IRR(cf, t = seq(along = cf) - 1, interval = c(-1.5, 1.5), ...)
NPVFixBond(i, Co, RV, n)
YTM(Co, PP, RV, n)
Arguments
i |
the interest rate |
cf |
numeric vector with the payments |
t |
periods |
K |
the capital at time t |
D |
dividend at time t |
log |
logical, determining if the simple returns (default) or log returns are to be calculated. |
interval |
a vector containing the end-points of the interval to
be searched for the root in the function |
Co |
coupon payments of a fixed-rate bond |
PP |
purchase price for a fixed-rate bond |
RV |
redemption value |
n |
the term of the bond, total number of periods |
... |
the dots are passed to the |
Details
The one period returns are calculated as
r_t = \frac{D_t+K_t-K_t-1}{K_t-1}
Value
a numeric value
Author(s)
Andri Signorell <andri@signorell.net>
See Also
Gmean
Examples
# one root
IRR(cf <- c(-900, -250+450-90, 460-100, 500-120, 550-140))
# several IRR solutions
IRR(cf = c(-100, 500, -600))
# no solution
IRR(cf = c(-100, 400, -600))
# negative and huge solution
IRR(cf = c(-100, 1000, -600), interval = c(-1.5, 1000))
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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