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go-financial

This package is a go native port of the numpy-financial package with some additional helper
functions.

The functions in this package are a scalar version of their vectorised counterparts in
the numpy-financial library.

unit-tests status Go Report Card codecov GoDoc Release PRs Welcome

Currently, only some functions are ported,
which are as follows:

numpy-financial function go native function ported? info
fv Computes the future value
ipmt Computes interest payment for a loan
pmt Computes the fixed periodic payment(principal + interest) made against a loan amount
ppmt Computes principal payment for a loan
nper Computes the number of periodic payments
pv Computes the present value of a payment
rate Computes the rate of interest per period
irr Computes the internal rate of return
npv Computes the net present value of a series of cash flow
mirr Computes the modified internal rate of return

Index

While the numpy-financial package contains a set of elementary financial functions, this pkg also contains some helper functions on top of it. Their usage and description can be found below:

Detailed documentation is available at godoc.

Amortisation(Generate Table)

To generate the schedule for a loan of 20 lakhs over 15years at 12%p.a., you can do the following:

package main

import (
	"time"

	"github.com/shopspring/decimal"

	financial "github.com/razorpay/go-financial"
	"github.com/razorpay/go-financial/enums/frequency"
	"github.com/razorpay/go-financial/enums/interesttype"
	"github.com/razorpay/go-financial/enums/paymentperiod"
)

func main() {
	loc, err := time.LoadLocation("Asia/Kolkata")
	if err != nil {
		panic("location loading error")
	}
	currentDate := time.Date(2009, 11, 11, 4, 30, 0, 0, loc)
	config := financial.Config{

		// start date is inclusive
		StartDate: currentDate,

		// end date is inclusive.
		EndDate:   currentDate.AddDate(15, 0, 0).AddDate(0, 0, -1),
		Frequency: frequency.ANNUALLY,

		// AmountBorrowed is in paisa
		AmountBorrowed: decimal.NewFromInt(200000000),

		// InterestType can be flat or reducing
		InterestType: interesttype.REDUCING,

		// interest is in basis points
		Interest: decimal.NewFromInt(1200),

		// amount is paid at the end of the period
		PaymentPeriod: paymentperiod.ENDING,

		// all values will be rounded
		EnableRounding: true,

		// it will be rounded to nearest int
		RoundingPlaces: 0,

		// no error is tolerated
		RoundingErrorTolerance: decimal.Zero,
	}
	amortization, err := financial.NewAmortization(&config)
	if err != nil {
		panic(err)
	}

	rows, err := amortization.GenerateTable()
	if err != nil {
		panic(err)
	}
	// Generates json output of the data
	financial.PrintRows(rows)
	// Generates a html file with plots of the given data.
	financial.PlotRows(rows, "20lakh-loan-repayment-schedule")
} 
  

Generated plot

Fv

func Fv(rate decimal.Decimal, nper int64, pmt decimal.Decimal, pv decimal.Decimal, when paymentperiod.Type) decimal.Decimal 

Params:

 pv   : a present value 
rate  : an interest rate compounded once per period 
nper  : total number of periods 
pmt   : a (fixed) payment, paid either at the beginning (when =  1)
        or the end (when = 0) of each period 
when  : specification of whether payment is made at the beginning (when = 1)
        or the end (when = 0) of each period  

Fv computes future value at the end of some periods(nper).

Example(Fv)

If an investment has a 6% p.a. rate of return, compounded annually, and you are investing ₹ 10,000 at the end of each year with initial investment of ₹ 10,000, how much amount will you get at the end of 10 years ?

package main

import (
	"fmt"

	gofinancial "github.com/razorpay/go-financial"
	"github.com/razorpay/go-financial/enums/paymentperiod"
	"github.com/shopspring/decimal"
)

func main() {
	rate := decimal.NewFromFloat(0.06)
	nper := int64(10)
	payment := decimal.NewFromInt(-10000)
	pv := decimal.NewFromInt(-10000)
	when := paymentperiod.ENDING

	fv := gofinancial.Fv(rate, nper, payment, pv, when)
	fmt.Printf("fv:%v", fv.Round(0))
	// Output:
	// fv:149716
}

Run on go-playground

Pv

func Pv(rate decimal.Decimal, nper int64, pmt decimal.Decimal, fv decimal.Decimal, when paymentperiod.Type) decimal.Decimal 

Params:

 fv	: a future value
 rate	: an interest rate compounded once per period
 nper	: total number of periods
 pmt	: a (fixed) payment, paid either
	  at the beginning (when =  1) or the end (when = 0) of each period
 when	: specification of whether payment is made
	  at the beginning (when = 1) or the end
	  (when = 0) of each period

Pv computes present value some periods(nper) before the future value.

Example(Pv)

If an investment has a 6% p.a. rate of return, compounded annually, and you wish to possess ₹ 1,49,716 at the end of 10 peroids while providing ₹ 10,000 per period, how much should you put as your initial deposit ?

package main

import (
	"fmt"

	gofinancial "github.com/razorpay/go-financial"
	"github.com/razorpay/go-financial/enums/paymentperiod"
	"github.com/shopspring/decimal"
)

func main() {
	rate := decimal.NewFromFloat(0.06)
	nper := int64(10)
	payment := decimal.NewFromInt(-10000)
	fv := decimal.NewFromInt(149716)
	when := paymentperiod.ENDING

	pv := gofinancial.Pv(rate, nper, payment, fv, when)
	fmt.Printf("pv:%v", pv.Round(0))
	// Output:
	// pv:-10000	
}

Run on go-playground

Npv

func Npv(rate decimal.Decimal, values []decimal.Decimal) decimal.Decimal 

Params:

 rate	: a discount rate compounded once per period
 values	: the value of the cash flow for that time period. Values provided here must be an array of float64

Npv computes net present value based on the discount rate and the values of cash flow over the course of the cash flow period

Example(Npv)

Given a rate of 0.281 per period and initial deposit of 100 followed by withdrawls of 39, 59, 55, 20. What is the net present value of the cash flow ?

package main

import (
	"fmt"
	gofinancial "github.com/razorpay/go-financial"	
	"github.com/shopspring/decimal"
)

func main() {
	rate :=  decimal.NewFromFloat(0.281)
	values := []decimal.Decimal{decimal.NewFromInt(-100), decimal.NewFromInt(39), decimal.NewFromInt(59), decimal.NewFromInt(55), decimal.NewFromInt(20)}
	npv := gofinancial.Npv(rate, values)
	fmt.Printf("npv:%v", npv)
	// Output:
	// npv: -0.008478591638426
}

Run on go-playground

Pmt

func Pmt(rate decimal.Decimal, nper int64, pv decimal.Decimal, fv decimal.Decimal, when paymentperiod.Type) decimal.Decimal

Params:

rate  : rate of interest compounded once per period 
nper  : total number of periods to be compounded for 
pv    : present value (e.g., an amount borrowed) 
fv    : future value (e.g., 0) 
when  : specification of whether payment is made at the
        beginning (when = 1) or the end (when = 0) of each period  

Pmt compute the fixed payment(principal + interest) against a loan amount ( fv = 0).
It can also be used to calculate the recurring payments needed to achieve a certain future value given an initial deposit, a fixed periodically compounded interest rate, and the total number of periods.

Example(Pmt-Loan)

If you have a loan of 1,00,000 to be paid after 2 years, with 18% p.a. compounded annually, how much total payment will you have to do each month? This example generates the total monthly payment(principal plus interest) needed for a loan of 1,00,000 over 2 years with 18% rate of interest compounded monthly

package main

import (
	"fmt"
	gofinancial "github.com/razorpay/go-financial"
	"github.com/razorpay/go-financial/enums/paymentperiod"
	"github.com/shopspring/decimal"
)

func main() {
	rate := decimal.NewFromFloat(0.18 / 12)
	nper := int64(12 * 2)
	pv := decimal.NewFromInt(100000)
	fv := decimal.NewFromInt(0)
	when := paymentperiod.ENDING
	pmt := gofinancial.Pmt(rate, nper, pv, fv, when)
	fmt.Printf("payment:%v", pmt.Round(0))
        // Output:
        // payment:-4992
}

Run on go-playground

Example(Pmt-Investment)

If an investment gives 6% rate of return compounded annually, how much amount should you invest each month to get 10,00,000 amount after 10 years?

package main

import (
	"fmt"
	gofinancial "github.com/razorpay/go-financial"
	"github.com/razorpay/go-financial/enums/paymentperiod"
	"github.com/shopspring/decimal"
)

func main() {
	rate := decimal.NewFromFloat(0.06)
	nper := int64(10)
	pv := decimal.NewFromInt(0)
	fv := decimal.NewFromInt(1000000)
	when := paymentperiod.BEGINNING
	pmt := gofinancial.Pmt(rate, nper, pv, fv, when)
	fmt.Printf("payment each year:%v", pmt.Round(0))
        // Output:
        // payment each year:-71574
}

Run on go-playground

IPmt

func IPmt(rate decimal.Decimal, per int64, nper int64, pv decimal.Decimal, fv decimal.Decimal, when paymentperiod.Type) decimal.Decimal   

IPmt computes interest payment for a loan under a given period.

Params:

rate  : rate of interest compounded once per period 
per   : period under consideration 
nper  : total number of periods to be compounded for 
pv    : present value (e.g., an amount borrowed) 
fv    : future value (e.g., 0) 
when  : specification of whether payment is made at the
        beginning (when = 1) or the end (when = 0) of each period  

Example(IPmt-Loan)

If you have a loan of 1,00,000 to be paid after 2 years, with 18% p.a. compounded annually, how much of the total payment done each month will be interest ?

package main

import (
	"fmt"
	gofinancial "github.com/razorpay/go-financial"
	"github.com/razorpay/go-financial/enums/paymentperiod"
	"github.com/shopspring/decimal"
)

func main() {
	rate := decimal.NewFromFloat(0.18 / 12)
	nper := int64(12 * 2)
	pv := decimal.NewFromInt(100000)
	fv := decimal.NewFromInt(0)
	when := paymentperiod.ENDING

	for i := int64(0); i < nper; i++ {
		ipmt := gofinancial.IPmt(rate, i+1, nper, pv, fv, when)
		fmt.Printf("period:%d interest:%v\n", i+1, ipmt.Round(0))
	}
	// Output:
	// period:1 interest:-1500
	// period:2 interest:-1448
	// period:3 interest:-1394
	// period:4 interest:-1340
	// period:5 interest:-1286
	// period:6 interest:-1230
	// period:7 interest:-1174
	// period:8 interest:-1116
	// period:9 interest:-1058
	// period:10 interest:-999
	// period:11 interest:-939
	// period:12 interest:-879
	// period:13 interest:-817
	// period:14 interest:-754
	// period:15 interest:-691
	// period:16 interest:-626
	// period:17 interest:-561
	// period:18 interest:-494
	// period:19 interest:-427
	// period:20 interest:-358
	// period:21 interest:-289
	// period:22 interest:-218
	// period:23 interest:-146
	// period:24 interest:-74
}

Run on go-playground

Example(IPmt-Investment)

If an investment gives 6% rate of return compounded annually, how much interest will you earn each year against your yearly payments(71574) to get 10,00,000 amount after 10 years

package main

import (
	"fmt"
	gofinancial "github.com/razorpay/go-financial"
	"github.com/razorpay/go-financial/enums/paymentperiod"
	"github.com/shopspring/decimal"
)

func main() {
	rate := decimal.NewFromFloat(0.06)
	nper := int64(10)
	pv := decimal.NewFromInt(0)
	fv := decimal.NewFromInt(1000000)
	when := paymentperiod.BEGINNING

	for i := int64(1); i < nper+1; i++ {
		ipmt := gofinancial.IPmt(rate, i+1, nper, pv, fv, when)
		fmt.Printf("period:%d interest earned:%v\n", i, ipmt.Round(0))
	}
	// Output:
	// period:1 interest earned:4294
	// period:2 interest earned:8846
	// period:3 interest earned:13672
	// period:4 interest earned:18786
	// period:5 interest earned:24208
	// period:6 interest earned:29955
	// period:7 interest earned:36047
	// period:8 interest earned:42504
	// period:9 interest earned:49348
	// period:10 interest earned:56604
}

Run on go-playground

PPmt

func PPmt(rate decimal.Decimal, per int64, nper int64, pv decimal.Decimal, fv decimal.Decimal, when paymentperiod.Type) decimal.Decimal   

PPmt computes principal payment for a loan under a given period.

Params:

rate  : rate of interest compounded once per period 
per   : period under consideration 
nper  : total number of periods to be compounded for 
pv    : present value (e.g., an amount borrowed) 
fv    : future value (e.g., 0) 
when  : specification of whether payment is made at 
        the beginning (when = 1) or the end (when = 0) of each period  

Example(PPmt-Loan)

If you have a loan of 1,00,000 to be paid after 2 years, with 18% p.a. compounded annually, how much total payment done each month will be principal ?

package main

import (
	"fmt"
	gofinancial "github.com/razorpay/go-financial"
	"github.com/razorpay/go-financial/enums/paymentperiod"
	"github.com/shopspring/decimal"
)

func main() {
	rate := decimal.NewFromFloat(0.18 / 12)
	nper := int64(12 * 2)
	pv := decimal.NewFromInt(100000)
	fv := decimal.NewFromInt(0)
	when := paymentperiod.ENDING

	for i := int64(0); i < nper; i++ {
		ppmt := gofinancial.PPmt(rate, i+1, nper, pv, fv, when)
		fmt.Printf("period:%d principal:%v\n", i+1, ppmt.Round(0))
	}
	// Output:
	// period:1 principal:-3492
	// period:2 principal:-3545
	// period:3 principal:-3598
	// period:4 principal:-3652
	// period:5 principal:-3707
	// period:6 principal:-3762
	// period:7 principal:-3819
	// period:8 principal:-3876
	// period:9 principal:-3934
	// period:10 principal:-3993
	// period:11 principal:-4053
	// period:12 principal:-4114
	// period:13 principal:-4176
	// period:14 principal:-4238
	// period:15 principal:-4302
	// period:16 principal:-4366
	// period:17 principal:-4432
	// period:18 principal:-4498
	// period:19 principal:-4566
	// period:20 principal:-4634
	// period:21 principal:-4704
	// period:22 principal:-4774
	// period:23 principal:-4846
	// period:24 principal:-4919
}

Run on go-playground

Nper

func Nper(rate decimal.Decimal, pmt decimal.Decimal, pv decimal.Decimal, fv decimal.Decimal, when paymentperiod.Type) (result decimal.Decimal, err error)  

Params:

rate   : an interest rate compounded once per period
pmt    : a (fixed) payment, paid either at the beginning (when =  1)
         or the end (when = 0) of each period
pv     : a present value
fv     : a future value
when   : specification of whether payment is made at the beginning (when = 1)
         or the end (when = 0) of each period  

Nper computes the number of periodic payments.

Example(Nper-Loan)

If a loan has a 6% annual interest, compounded monthly, and you only have $200/month to pay towards the loan, how long would it take to pay-off the loan of $5,000?

package main

import (
	"fmt"

	gofinancial "github.com/razorpay/go-financial"
	"github.com/razorpay/go-financial/enums/paymentperiod"
	"github.com/shopspring/decimal"
)


func main() {
	rate := decimal.NewFromFloat(0.06 / 12)
	fv := decimal.NewFromFloat(0)
	payment := decimal.NewFromFloat(-200)
	pv := decimal.NewFromFloat(5000)
	when := paymentperiod.ENDING

	nper,err := gofinancial.Nper(rate, payment, pv, fv, when)
	if err != nil{
		fmt.Printf("error:%v\n", err)
	}
	fmt.Printf("nper:%v",nper.Ceil())
	// Output:
	// nper:27
}

Run on go-playground

Rate

func Rate(pv, fv, pmt decimal.Decimal, nper int64, when paymentperiod.Type, maxIter int64, tolerance, initialGuess decimal.Decimal) (decimal.Decimal, error) 

Params:

pv     : a present value
fv     : a future value
pmt    : a (fixed) payment, paid either at the beginning (when =  1)
         or the end (when = 0) of each period
nper   : total number of periods to be compounded for
when   : specification of whether payment is made at the beginning (when = 1)
         or the end (when = 0) of each period
maxIter	: total number of iterations for which function should run
tolerance : tolerance threshold for acceptable result
initialGuess : an initial guess amount to start from

Returns:

rate    : a value for the corresponding rate
error   : returns nil if rate difference is less than the threshold (returns an error conversely)

Rate computes the interest rate to ensure a balanced cashflow equation

Example(Rate-Investment)

If an investment of $2000 is done and an amount of $100 is added at the start of each period, for what periodic interest rate would the invester be able to withdraw $3000 after the end of 4 periods ? (assuming 100 iterations, 1e-6 threshold and 0.1 as initial guessing point)

package main

import (
	"fmt"
	gofinancial "github.com/razorpay/go-financial"
	"github.com/razorpay/go-financial/enums/paymentperiod"
	"github.com/shopspring/decimal"
)

func main() {
	fv := decimal.NewFromFloat(-3000)
	pmt := decimal.NewFromFloat(100)
	pv := decimal.NewFromFloat(2000)
	when := paymentperiod.BEGINNING
	nper := decimal.NewFromInt(4)
	maxIter := 100
	tolerance := decimal.NewFromFloat(1e-6)
	initialGuess := decimal.NewFromFloat(0.1),

	rate, err := gofinancial.Rate(pv, fv, pmt, nper, when, maxIter, tolerance, initialGuess)
	if err != nil {
		fmt.Printf(err)
	} else {
		fmt.Printf("rate: %v ", rate)
	}
	// Output:
	// rate: 0.06106257989825202
}

Run on go-playground