R package for financial functions for the Renjin implementation of R for the JVM.
To use it add the following dependency to your pom
<dependency>
<groupId>se.alipsa</groupId>
<artifactId>financials</artifactId>
<version>1.0.0</version>
</dependency>pmt <- function(interestRate, nper, pv, fv = 0, type = 0)
Equivalent to Excel/Calc's PMT(interest_rate, number_payments, PV, FV, Type) function, which calculates the payments for a loan or the future value of an investment
- interestRate periodic interest rate represented as a decimal.
- nper number of total payments / periods.
- pv present value -- borrowed or invested principal.
- fv future value of loan or annuity, default to 0 (which is what you want for loans)
- type when payment is made: beginning of period is 1; end is 0. Default is 0
returns A double representing the periodic payment amount.
Calulate payment for a loan
The following data:
| Item | amount |
|---|---|
| Loan Amount | 50000 |
| Interest rate | 3.50% |
| Periods | 60 |
| Monthly payment | 909.59 |
Then the Monthly payment can be calculated as
pmt(3.5/100/12, 60, -50000)
monthlyAnnuityAmount <- function(loanAmount, interestRate, tenureMonths, amortizationFreemonths = 0, type = 0)
Calculate the monthly annuity amount i.e. the amortization and interest amount each payment period (month)
- loanAmount the total loan amount including capitalized fees (e.g. startup fee)
- interestRate the annual nominal interest
- tenureMonths the tenure of the loan in number of months
- amortizationFreeMonths the number of initial amortization free months, default to 0
- type - when payment is made: beginning of period is 1; end is 0. Default is 0
returns the monthly annuity amount
Assuming the following:
| Item | amount |
|---|---|
| Loan Amount | 50000 |
| Interest rate | 3.50% |
| Tenure | 60 |
| Amortization Free months | 6 |
The monthly annuity amount would be
monthlyAnnuityAmount(50000, 3.5/100, 60, 6) = 1002.10
cashFlow <- function(loanAmount, interestRate, tenureMonths, amortizationFreeMonths, invoiceFee)
- loanAmount the total loan amount including capitalized fees (e.g. startup fee)
- interestRate the annual nominal interest
- tenureMonths the tenure of the loan in number of months
- amortizationFreeMonths the number of initial amortization free months, default to 0
- invoiceFee a fee for each statement invoiced, default to 0
returns a vector of cachFlow entries for each period
cf <- cashFlow(
loanAmount=50000,
interestRate=0.035,
tenureMonths=60,
amortizationFreeMonths=6,
invoiceFee=30
)paymentPlan <- function(loanAmount, interestRate, tenureMonths, amortizationFreeMonths = 0, invoiceFee = 0)
- loanAmount the total loan amount including capitalized fees (e.g. startup fee)
- interestRate the annual nominal interest
- tenureMonths the total tenure of the loan in number of months
- amortizationFreeMonths the number of initial amortization free months, default to 0
- invoiceFee a fee for each statement invoiced, default to 0
returns a dataframe with the initial payment plan based on the input, based on monthly payment periods
loanAmt <- 10000
tenureMonths <- 1.5 * 12
amortizationFreeMonths <- 6
interest <- 3.5 / 100
invoiceFee <- 30
ppdf <- paymentPlan(loanAmt, interest, tenureMonths, amortizationFreeMonths, invoiceFee)which will yield a data.frame (ppdf) as follows:
| month | costOfCredit | interestAmt | amortization | invoiceFee | outgoingBalance | cashFlow |
|---|---|---|---|---|---|---|
| 0 | 0 | 0 | 0 | 0 | 10000 | -10000 |
| 1 | 29.167 | 29.167 | 0 | 30 | 10000 | 59.167 |
| 2 | 29.167 | 29.167 | 0 | 30 | 10000 | 59.167 |
| 3 | 29.167 | 29.167 | 0 | 30 | 10000 | 59.167 |
| 4 | 29.167 | 29.167 | 0 | 30 | 10000 | 59.167 |
| 5 | 29.167 | 29.167 | 0 | 30 | 10000 | 59.167 |
| 6 | 849.216 | 29.167 | 820.05 | 30 | 9179.95 | 879.216 |
| 7 | 849.216 | 26.775 | 822.441 | 30 | 8357.509 | 879.216 |
| 8 | 849.216 | 24.376 | 824.84 | 30 | 7532.669 | 879.216 |
| 9 | 849.216 | 21.97 | 827.246 | 30 | 6705.423 | 879.216 |
| 10 | 849.216 | 19.557 | 829.659 | 30 | 5875.764 | 879.216 |
| 11 | 849.216 | 17.138 | 832.079 | 30 | 5043.685 | 879.216 |
| 12 | 849.216 | 14.711 | 834.506 | 30 | 4209.18 | 879.216 |
| 13 | 849.216 | 12.277 | 836.94 | 30 | 3372.24 | 879.216 |
| 14 | 849.216 | 9.836 | 839.381 | 30 | 2532.86 | 879.216 |
| 15 | 849.216 | 7.388 | 841.829 | 30 | 1691.031 | 879.216 |
| 16 | 849.216 | 4.932 | 844.284 | 30 | 846.747 | 879.216 |
| 17 | 849.216 | 2.47 | 846.747 | 30 | 0 | 879.216 |
| 18 | 849.216 | 0 | 849.216 | 30 | -849.216 | 879.216 |
totalPaymentAmount <- function(loanAmount, interestRate, tenureMonths, amortizationFreeMonths = 0, invoiceFee = 0)
Total Payment amount is the sum of all payments.
- loanAmount the total loan amount including capitalized fees (e.g. startup fee)
- interestRate the annual nominal interest
- tenureMonths the total tenure of the loan in number of months
- amortizationFreeMonths the number of initial amortization free months, default to 0
- invoiceFee a fee for each statement invoiced, default to 0
returns a double containing the sum of all payments
loanAmt <- 10000
tenureMonths <- 1.5 * 12
amortizationFreeMonths <- 6
interest <- 3.5 / 100
invoiceFee <- 30
totalAmt <- totalPaymentAmount(loanAmt, interest, tenureMonths, amortizationFreeMonths, invoiceFee)
print(totalAmt)[1] 11725.645213062116
irr <- function(cf, precision = 1e-6)
- cf a vector of the cash flow (see the cashFlow or paymentPlan functions)
- precision The desired accuracy to calculate the irr with (optional, default 1e-6) precision is used in the
unirootfunction and is assigned to thetolparameter of uniroot.
returns a double containing the internal return rate
Given the cache flow above
internalReturn <- irr(ppdf$cashFlow)
print(internalReturn)[1] 0.00291665871251
apr <- function(monthlyIrr)
- monthlyIrr the MONTHLY internal rate of return (monthly irr)
Returns a double with the annual percentage rate
annualPercentage <- apr(internalReturn)
print(annualPercentage)[1] 0.03556685438873
npv <- function(i, cf, t=seq(along=cf))
Net present value (NPV) is the difference between the present value of cash inflows and the present value of cash outflows over a period of time. This function produces the same results as Excel does which differs from packages such as FinCal.
- i interest rate
- cf cache flow e.g. the cashFlow vector of the payment plan
- t time series (optional)
Returns a double with the net present value
print(npv(cf = c(-123400, 36200, 54800, 48100), i = 0.035))[1] 5908.865636076123