Currency
You are encouraged to solve this task according to the task description, using any language you may know.
- Task
Show how to represent currency in a simple example, using a data type that represent exact values of dollars and cents.
- Note
The IEEE 754 binary floating point representations of numbers like 2.86 and .0765 are not exact.
For this example, data will be two items with prices in dollars and cents, a quantity for each, and a tax rate.
Use the values:
- 4000000000000000 hamburgers at $5.50 each
- 2 milkshakes at $2.86 each, and
- a tax rate of 7.65%.
(That number of hamburgers is a 4 with 15 zeros after it. The number is contrived to exclude naïve task solutions using 64 bit floating point types.)
Compute and output (show results on this page):
- the total price before tax
- the tax
- the total with tax
The tax value must be computed by rounding to the nearest whole cent and this exact value must be added to the total price before tax.
The output must show dollars and cents with a decimal point.
The three results displayed should be:
- 22000000000000005.72
- 1683000000000000.44
- 23683000000000006.16
Dollar signs and thousands separators are optional.
ALGOL 68
<lang algol68>BEGIN
# currency calculations #
# simple fixed point type, LONG INT is 64-bit in Algol 68G #
MODE FIXED = STRUCT( LONG INT value
, INT decimals
, INT fraction modulus
);
# make CURRENCY a synonym for FIXED #
MODE CURRENCY = FIXED;
# dyadic operator so we can write e.g. 5 DOLLARS 50 to construct #
# a CURRENCY value with 2 decimal places #
PRIO DOLLARS = 9;
OP DOLLARS = ( LONG INT v, INT dp )CURRENCY: ( ( v * 100 ) + dp, 2, 100 );
OP DOLLARS = ( INT v, INT dp )CURRENCY: LENG v DOLLARS dp;
# issues an error message and stops the program if a has a different #
# number of decimal places to b #
PROC check compatible = ( CURRENCY a, b )VOID:
IF decimals OF a /= decimals OF b THEN print( ( "Incompatible CURRENCY values", newline ) ); stop FI;
# operators to multiply CURRENCY values by integers #
OP * = ( CURRENCY v, LONG INT m )CURRENCY: ( value OF v * m, decimals OF v, fraction modulus OF v );
OP * = ( CURRENCY v, INT m )CURRENCY: v * LENG m;
# returns the CURRENCY value a + b #
OP + = ( CURRENCY a, CURRENCY b )CURRENCY:
BEGIN
check compatible( a, b );
( value OF a + value OF b, decimals OF a, fraction modulus OF a )
END # + # ;
# multiplies the CURRENCY value a by the FIXED value b, #
# rounding the result to the decimal places of a #
OP * = ( CURRENCY a, FIXED b )CURRENCY:
BEGIN
LONG INT result := ( value OF a * value OF b );
IF decimals OF b > 0 THEN
INT d = fraction modulus OF b;
LONG INT abs result := ABS result;
INT extra places = SHORTEN ( abs result MOD d );
abs result OVERAB d;
IF extra places >= d OVER 2 THEN abs result +:= 1 FI;
IF result < 0 THEN result := - abs result ELSE result := abs result FI
FI;
( result, decimals OF a, fraction modulus OF a )
END # * # ;
# converts a FIXED value to a STRING with the appropriate number of #
# decimal places #
OP TOSTRING = ( FIXED v )STRING:
IF decimals OF v < 1 THEN
whole( value OF v, 0 )
ELSE
INT d = fraction modulus OF v;
STRING result := whole( value OF v OVER d, 0 );
STRING dp := whole( ( ABS value OF v ) MOD d, - decimals OF v );
FOR i FROM LWB dp TO UPB dp DO IF dp[ i ] = " " THEN dp[ i ] := "0" FI OD;
result + "." + dp
FI # TOSTRING # ;
# Task calculations #
CURRENCY hb = 5 DOLLARS 50 * LONG 4000000000000000;
CURRENCY ms = 2 DOLLARS 86 * 2;
FIXED rate = ( 765, 4, 10 000 ); # 0.0765 #
CURRENCY net = hb + ms;
CURRENCY tax = net * rate;
CURRENCY total = net + tax;
print( ( "before tax: ", TOSTRING net, newline ) );
print( ( "tax: ", TOSTRING tax, newline ) );
print( ( "total: ", TOSTRING total, newline ) )
END</lang>
- Output:
before tax: 22000000000000005.72 tax: 1683000000000000.44 total: 23683000000000006.16
AppleScript
The AppleScript core language doesn't recognise currency values specifically and its numbers don't have the precision required for this task, but through ASObjC, it's able to use Foundation classes which do.
<lang applescript>use AppleScript version "2.4" -- OS X 10.10 (Yosemite) or later use framework "Foundation"
-- Derive an NSDecimalNumber from an AppleScript number or numeric text. -- NSDecimalNumbers also allow arithmetic and have a far greater range than AS numbers. on decimalNumberFrom(n)
return current application's class "NSDecimalNumber"'s decimalNumberWithString:(n as text)
end decimalNumberFrom
-- Multiply two NSDecimalNumbers. on multiply(dn1, dn2)
return dn1's decimalNumberByMultiplyingBy:(dn2)
end multiply
-- Add two NSDecimalNumbers. on add(dn1, dn2)
return dn1's decimalNumberByAdding:(dn2)
end add
on billTotal(quantitiesAndPrices, taxRate, currencySymbol)
-- Set up an NSNumberFormatter for converting between currency strings and NSDecimalNumbers.
set currencyFormatter to current application's class "NSNumberFormatter"'s new()
tell currencyFormatter to setNumberStyle:(current application's NSNumberFormatterCurrencyStyle)
tell currencyFormatter to setCurrencySymbol:(currencySymbol)
tell currencyFormatter to setGeneratesDecimalNumbers:(true)
-- Tot up the bill from the list of quantities (numbers or numeric strings) and unit prices (currency strings with symbols).
set subtotal to decimalNumberFrom(0) -- or: current application's class "NSDecimalNumber"'s zero()
repeat with thisEntry in quantitiesAndPrices
set {quantity:quantity, unitPrice:unitPrice} to thisEntry
set entryTotal to multiply(decimalNumberFrom(quantity), currencyFormatter's numberFromString:(unitPrice))
set subtotal to add(subtotal, entryTotal)
end repeat
-- Work out the tax and add it to the subtotal.
set tax to multiply(subtotal, decimalNumberFrom(taxRate / 100))
set total to add(subtotal, tax)
-- Format and return the results.
return (current application's class "NSString"'s stringWithFormat_("Subtotal: %@
Tax: %@ Total: %@", ¬
currencyFormatter's stringFromNumber:(subtotal), ¬
currencyFormatter's stringFromNumber:(tax), ¬
currencyFormatter's stringFromNumber:(total))) ¬
as text
end billTotal
-- Demo code: set currencySymbol to "$" set quantitiesAndPrices to {{quantity:"4000000000000000", unitPrice:currencySymbol & "5.50"}, ¬
{quantity:2, unitPrice:currencySymbol & 2.86}}
set taxRate to 7.65 return billTotal(quantitiesAndPrices, taxRate, currencySymbol)</lang>
- Output:
<lang applescript>"Subtotal: $22,000,000,000,000,005.72 Tax: $1,683,000,000,000,000.44 Total: $23,683,000,000,000,006.16"</lang>
AWK
version 1
<lang AWK>
- syntax: GAWK -M -f CURRENCY.AWK
- using GNU Awk 4.1.1, API: 1.1 (GNU MPFR 3.1.2, GNU MP 5.1.2)
BEGIN {
PREC = 100
hamburger_p = 5.50
hamburger_q = 4000000000000000
hamburger_v = hamburger_p * hamburger_q
milkshake_p = 2.86
milkshake_q = 2
milkshake_v = milkshake_p * milkshake_q
subtotal = hamburger_v + milkshake_v
tax = subtotal * .0765
printf("%-9s %8s %18s %22s\n","item","price","quantity","value")
printf("hamburger %8.2f %18d %22.2f\n",hamburger_p,hamburger_q,hamburger_v)
printf("milkshake %8.2f %18d %22.2f\n\n",milkshake_p,milkshake_q,milkshake_v)
printf("%37s %22.2f\n","subtotal",subtotal)
printf("%37s %22.2f\n","tax",tax)
printf("%37s %22.2f\n","total",subtotal+tax)
exit(0)
} </lang>
Output:
item price quantity value
hamburger 5.50 4000000000000000 22000000000000000.00
milkshake 2.86 2 5.72
subtotal 22000000000000005.72
tax 1683000000000000.41
total 23683000000000006.13
version 2
<lang AWK>
- syntax: GAWK -M -f CURRENCY2.AWK
- using GNU Awk 4.1.1, API: 1.1 (GNU MPFR 3.1.2, GNU MP 5.1.2)
- INT is used to define values and do math; results then converted to FLOAT
BEGIN {
PREC = 100
hamburger_p = 550
hamburger_q = 4000000000000000
hamburger_v = hamburger_p * hamburger_q
milkshake_p = 286
milkshake_q = 2
milkshake_v = milkshake_p * milkshake_q
subtotal = hamburger_v + milkshake_v
tax = subtotal * 765
subtotal /= 100
tax /= 1000000
printf("%-9s %8s %18s %22s\n","item","price","quantity","value")
printf("hamburger %8.2f %18d %22.2f\n",hamburger_p/100,hamburger_q,hamburger_v/100)
printf("milkshake %8.2f %18d %22.2f\n\n",milkshake_p/100,milkshake_q,milkshake_v/100)
printf("%37s %22.2f\n","subtotal",subtotal)
printf("%37s %22.2f\n","tax",tax)
printf("%37s %22.2f\n","total",subtotal+tax)
exit(0)
} </lang>
Output:
item price quantity value
hamburger 5.50 4000000000000000 22000000000000000.00
milkshake 2.86 2 5.72
subtotal 22000000000000005.72
tax 1683000000000000.44
total 23683000000000006.16
C
This implementation uses the GMP library for arbitrary precision arithmetic. The only data type used here is mpf_t, the following text is from the GMP documentation :
Floating point number or Float for short, is an arbitrary precision mantissa with a limited precision exponent. The C data type for such objects is mpf_t. For example: mpf_t fp;
One remark about the code, notice that for setting all other variables the mpf_set_d function is used: <lang C> mpf_set_d(burgerUnitPrice,5.50); mpf_set_d(milkshakePrice,2 * 2.86); mpf_set_d(burgerNum,4000000000000000); mpf_set_d(milkshakeNum,2); </lang> But when it comes to the tax rate, it's mpf_set_str: <lang C> mpf_set_str(tax,"0.0765",10); </lang> The reason is a weird rounding off error which happens if the mpf_set_d function is used. Documentation and example usages of GMP are very rare on the net possibly because it is used almost exclusively by academia and high tech industries. The implementation below is the result of a lot of fiddling, gotchas and lessons learnt, just how good programming should always be :)
<lang C>
- include<stdio.h>
- include<gmp.h>
int main() { mpf_t burgerUnitPrice, milkshakePrice, burgerTotalPrice, totalPrice, tax, burgerNum, milkshakeNum;
mpf_inits(burgerUnitPrice, milkshakePrice, burgerTotalPrice, totalPrice, tax,burgerNum, milkshakeNum,NULL);
mpf_set_d(burgerUnitPrice,5.50); mpf_set_d(milkshakePrice,2 * 2.86); mpf_set_d(burgerNum,4000000000000000); mpf_set_d(milkshakeNum,2);
mpf_mul(burgerTotalPrice,burgerNum,burgerUnitPrice); mpf_add(totalPrice,burgerTotalPrice,milkshakePrice);
mpf_set_str(tax,"0.0765",10); mpf_mul(tax,totalPrice,tax);
gmp_printf("\nTotal price before tax : $ %.*Ff", 2, totalPrice); gmp_printf("\nTotal tax : $ %.*Ff", 2, tax);
mpf_add(totalPrice,totalPrice,tax);
gmp_printf("\nTotal price after tax : $ %.*Ff", 2, totalPrice);
return 0; } </lang> Output:
Total price before tax : $ 22000000000000005.72 Total tax : $ 1683000000000000.44 Total price after tax : $ 23683000000000006.16
C#
The built in C# type decimal has a max value of 79228162514264337593543950335. <lang csharp>using System; using System.Collections.Generic;
namespace Currency {
class Program
{
static void Main(string[] args)
{
MenuItem hamburger = new MenuItem() { Name = "Hamburger", Price = 5.5M };
MenuItem milkshake = new MenuItem() { Name = "Milkshake", Price = 2.86M };
IList<CartItem> cart = new List<CartItem>();
cart.Add(new CartItem() { item = hamburger, quantity = 4000000000000000 });
cart.Add(new CartItem() { item = milkshake, quantity = 2 });
decimal total = CalculateTotal(cart);
Console.WriteLine(string.Format("Total before tax: {0:C}", total));
// Add Tax
decimal tax = total * 0.0765M;
Console.WriteLine(string.Format("Tax: {0:C}", tax));
total += tax;
Console.WriteLine(string.Format("Total with tax: {0:C}", total));
}
private static decimal CalculateTotal(IList<CartItem> cart)
{
decimal total = 0M;
foreach (CartItem item in cart)
{
total += item.quantity * item.item.Price;
}
return total;
}
private struct MenuItem
{
public string Name { get; set; }
public decimal Price { get; set; }
}
private struct CartItem
{
public MenuItem item { get; set; }
public decimal quantity { get; set; }
}
}
}</lang>
- Output:
Total before tax: $22,000,000,000,000,005.72 Tax: $1,683,000,000,000,000.44 Total with tax: $23,683,000,000,000,006.16
Clojure
<lang clojure>(require '[clojurewerkz.money.amounts :as ma]) (require '[clojurewerkz.money.currencies :as mc]) (require '[clojurewerkz.money.format :as mf])
(let [burgers (ma/multiply (ma/amount-of mc/USD 5.50) 4000000000000000)
milkshakes (ma/multiply (ma/amount-of mc/USD 2.86) 2)
pre-tax (ma/plus burgers milkshakes)
tax (ma/multiply pre-tax 0.0765 :up)]
(println "Total before tax: " (mf/format pre-tax))
(println " Tax: " (mf/format tax))
(println " Total with tax: " (mf/format (ma/plus pre-tax tax))))</lang>
- Output:
Total before tax: $22,000,000,000,000,005.72
Tax: $1,683,000,000,000,000.44
Total with tax: $23,683,000,000,000,006.16
COBOL
COBOL supports up to 31 digits of decimal precision, so won't need any fancy currency/BigInteger types!
During calculations the default ROUNDED MODE IS clause, when specified, is NEAREST-AWAY-FROM-ZERO. When ROUNDED is not specified, the default mode is TRUNCATION. The term "banker's rounding" implies NEAREST-EVEN.
<lang cobol> >>SOURCE FREE IDENTIFICATION DIVISION. PROGRAM-ID. currency-example.
DATA DIVISION. WORKING-STORAGE SECTION. 01 Burger-Price CONSTANT 5.50. 01 Milkshake-Price CONSTANT 2.86. 01 num-burgers PIC 9(18) VALUE 4000000000000000. 01 num-milkshakes PIC 9(18) VALUE 2. 01 tax PIC 9(18)V99. 01 tax-edited PIC $(17)9.99. 01 Tax-Rate CONSTANT 7.65. 01 total PIC 9(18)V99. 01 total-edited PIC $(17)9.99.
PROCEDURE DIVISION.
COMPUTE total rounded, total-edited rounded =
num-burgers * Burger-Price + num-milkshakes * Milkshake-Price
DISPLAY "Total before tax: " total-edited
COMPUTE tax rounded, tax-edited rounded = total * (Tax-Rate / 100) DISPLAY " Tax: " tax-edited
ADD tax TO total GIVING total-edited rounded DISPLAY " Total with tax: " total-edited .
END PROGRAM currency-example.</lang>
- Output:
Total before tax: $22000000000000005.72
Tax: $1683000000000000.44
Total with tax: $23683000000000006.16
F#
<lang fsharp>open System
let hamburgers = 4000000000000000M let hamburgerPrice = 5.50M let milkshakes = 2M let milkshakePrice = 2.86M let taxRate = 0.0765M
let total = hamburgers * hamburgerPrice + milkshakes * milkshakePrice let tax = total * taxRate let totalWithTax = total + tax
printfn "Total before tax:\t$%M" <| Math.Round (total, 2) printfn " Tax:\t$%M" <| Math.Round (tax, 2) printfn " Total:\t$%M" <| Math.Round (totalWithTax, 2)</lang>
- Output:
Total before tax: $22000000000000005.72
Tax: $1683000000000000.44
Total with tax: $23683000000000006.16
Factor
Factor's ratio type can handle arbitrary-precision calculations with rational numbers. The money vocabulary implements convenience words for treating rationals as money. The DECIMAL: parsing word is used to convert the tax rate 0.0765 to a ratio 153/2000. The money. word is used to print the subtotal 22000000000000005+18/25, tax 1683000000000000+21879/50000, and total 23683000000000006+7879/50000 formatted as you would expect. <lang factor>USING: combinators.smart io kernel math math.functions money ;
10 15 ^ 4 * 5+50/100 * ! hamburger subtotal 2 2+86/100 * ! milkshake subtotal + ! subtotal dup DECIMAL: 0.0765 * ! tax [ + ] preserving ! total
"Total before tax: " write [ money. ] 2dip "Tax: " write [ money. ] dip "Total with tax: " write money.</lang>
- Output:
Total price before tax: $22,000,000,000,000,005.72 Tax: $1,683,000,000,000,000.44 Total with tax: $23,683,000,000,000,006.16
FreeBASIC
Pero el subtotal y el tax los muestra redondeados. Y no encuentro el porqué. <lang freebasic>Dim As Longint hamburger_p = 550 Dim As Longint hamburger_q = 4000000000000000 Dim As Longint hamburger_v = hamburger_p * hamburger_q Dim As Longint milkshake_p = 286 Dim As Longint milkshake_q = 2 Dim As Longint milkshake_v = milkshake_p * milkshake_q Dim As Longint subtotal = hamburger_v + milkshake_v Dim As Longint tax = subtotal * .765 Print Using "\ \ \ \ \ \ \ \";"item";"price";"quantity";"value" Print Using "hamburger ##.## ################ #####################.##";hamburger_p/100;hamburger_q;hamburger_v/100 Print Using "milkshake ##.## ################ #####################.##";milkshake_p/100;milkshake_q;milkshake_v/100 ? Print Using " subtotal #####################.##";subtotal/10 Print Using " tax #####################.##";tax/100 Print Using " total #####################.##";subtotal/10+tax/100 Sleep</lang>
Frink
Frink tracks units of measure through all calculations, so you can specify quantities as "dollar", "cent", etc.
<lang frink> st = 4000000000000000 * 5.50 dollars + 2 * 2.86 dollars tax = round[st * 7.65 percent, cent] total = st + tax println["Subtotal: " + format[st, "dollars", 2]] println["Tax: " + format[tax, "dollars", 2]] println["Total: " + format[total, "dollars", 2]] </lang>
- Output:
Subtotal: 22000000000000005.72 dollars Tax: 1683000000000000.44 dollars Total: 23683000000000006.16 dollars
Go
<lang go>package main
import (
"fmt" "log" "math/big"
)
// DC for dollars and cents. Value is an integer number of cents. type DC int64
func (dc DC) String() string {
d := dc / 100
if dc < 0 {
dc = -dc
}
return fmt.Sprintf("%d.%02d", d, dc%100)
}
// Extend returns extended price of a unit price. func (dc DC) Extend(n int) DC {
return dc * DC(n)
}
var one = big.NewInt(1) var hundred = big.NewRat(100, 1)
// ParseDC parses dollars and cents as a string into a DC. func ParseDC(s string) (DC, bool) {
r, ok := new(big.Rat).SetString(s)
if !ok {
return 0, false
}
r.Mul(r, hundred)
if r.Denom().Cmp(one) != 0 {
return 0, false
}
return DC(r.Num().Int64()), true
}
// TR for tax rate. Value is an an exact rational. type TR struct {
*big.Rat
} func NewTR() TR {
return TR{new(big.Rat)}
}
// SetString overrides Rat.SetString to return the TR type. func (tr TR) SetString(s string) (TR, bool) {
if _, ok := tr.Rat.SetString(s); !ok {
return TR{}, false
}
return tr, true
}
var half = big.NewRat(1, 2)
// Tax computes a tax amount, rounding to the nearest cent. func (tr TR) Tax(dc DC) DC {
r := big.NewRat(int64(dc), 1) r.Add(r.Mul(r, tr.Rat), half) return DC(new(big.Int).Div(r.Num(), r.Denom()).Int64())
}
func main() {
hamburgerPrice, ok := ParseDC("5.50")
if !ok {
log.Fatal("Invalid hamburger price")
}
milkshakePrice, ok := ParseDC("2.86")
if !ok {
log.Fatal("Invalid milkshake price")
}
taxRate, ok := NewTR().SetString("0.0765")
if !ok {
log.Fatal("Invalid tax rate")
}
totalBeforeTax := hamburgerPrice.Extend(4000000000000000) +
milkshakePrice.Extend(2)
tax := taxRate.Tax(totalBeforeTax)
total := totalBeforeTax + tax
fmt.Printf("Total before tax: %22s\n", totalBeforeTax)
fmt.Printf(" Tax: %22s\n", tax)
fmt.Printf(" Total: %22s\n", total)
}</lang>
- Output:
Total before tax: 22000000000000005.72
Tax: 1683000000000000.44
Total: 23683000000000006.16
Haskell
<lang haskell>import Data.Fixed import Text.Printf
type Percent = Centi type Dollars = Centi
tax :: Percent -> Dollars -> Dollars tax rate = MkFixed . round . (rate *)
printAmount :: String -> Dollars -> IO () printAmount name = printf "%-10s %20s\n" name . showFixed False
main :: IO () main = do
let subtotal = 4000000000000000 * 5.50 + 2 * 2.86
tx = tax 7.65 subtotal
total = subtotal + tx
printAmount "Subtotal" subtotal
printAmount "Tax" tx
printAmount "Total" total</lang>
- Output:
$ ./currency Subtotal 22000000000000005.72 Tax 1683000000000000.44 Total 23683000000000006.16
J
We use a naive implementation with arbitrary precision (rational) numbers:
<lang j>require 'format/printf' fmtD=: 0j2&": NB. format rational as decimal
Items=: ;: 'Hamburger Milkshake' Quantities=: x: 4000000000000000 2 Prices=: x: 5.50 2.86 Tax_rate=: x: 0.0765 Values=: Quantities * Prices Subtotal=: +/ Values Tax=: Tax_rate * Subtotal Total=: Subtotal + Tax
OutputTemplate=: noun define Item Price Quantity Value %9s %8s %20d %22s %9s %8s %20d %22s
-------------------------------
Subtotal: %20s
Tax: %20s
Total: %20s
)
Vals=: (,Items ,. (fmtD&.> Prices) ,. (<"0 Quantities) ,. (fmtD&.> Values)) , fmtD&.> Subtotal,Tax,Total OutputTemplate printf Vals</lang>
- Output:
Item Price Quantity Value
Hamburger 5.50 4000000000000000 22000000000000000.00
Milkshake 2.86 2 5.72
-------------------------------
Subtotal: 22000000000000005.72
Tax: 1683000000000000.44
Total: 23683000000000006.16
(Note that if you ever get a bill like this in real life, you should question the person who gave it to you. And, possibly consider legal action and/or patronizing a different establishment. This is because (a) you did not order that many hamburgers, and (b) they did not deliver that many hamburgers, and (c) that much hamburger probably does not exist, and ...)
Java
<lang java>import java.math.*; import java.util.*;
public class Currency {
final static String taxrate = "7.65";
enum MenuItem {
Hamburger("5.50"), Milkshake("2.86");
private MenuItem(String p) {
price = new BigDecimal(p);
}
public final BigDecimal price; }
public static void main(String[] args) {
Locale.setDefault(Locale.ENGLISH);
MathContext mc = MathContext.DECIMAL128;
Map<MenuItem, BigDecimal> order = new HashMap<>();
order.put(MenuItem.Hamburger, new BigDecimal("4000000000000000"));
order.put(MenuItem.Milkshake, new BigDecimal("2"));
BigDecimal subtotal = BigDecimal.ZERO;
for (MenuItem it : order.keySet())
subtotal = subtotal.add(it.price.multiply(order.get(it), mc));
BigDecimal tax = new BigDecimal(taxrate, mc);
tax = tax.divide(new BigDecimal("100"), mc);
tax = subtotal.multiply(tax, mc);
System.out.printf("Subtotal: %20.2f%n", subtotal);
System.out.printf(" Tax: %20.2f%n", tax);
System.out.printf(" Total: %20.2f%n", subtotal.add(tax));
}
}</lang>
Subtotal: 22000000000000005.72
Tax: 1683000000000000.44
Total: 23683000000000006.16
JavaScript
<lang javascript>const money = require('money-math')
let hamburgers = 4000000000000000 let hamburgerPrice = 5.50
let shakes = 2 let shakePrice = 2.86
let tax = 7.65
let hamburgerTotal = money.mul(hamburgers.toFixed(0), money.floatToAmount(hamburgerPrice)) let shakeTotal = money.mul(shakes.toFixed(0), money.floatToAmount(shakePrice))
let subTotal = money.add(hamburgerTotal, shakeTotal)
let taxTotal = money.percent(subTotal, tax)
let total = money.add(subTotal, taxTotal)
console.log('Hamburger Total:', hamburgerTotal) console.log('Shake Total:', shakeTotal) console.log('Sub Total:', subTotal) console.log('Tax:', taxTotal) console.log('Total:', total) </lang>
Julia
<lang julia>using Printf
p = [big"5.50", big"2.86"] q = [4000000000000000, 2] tr = big"0.0765"
beftax = p' * q tax = beftax * tr afttax = beftax + tax
@printf " - tot. before tax: %20.2f \$\n" beftax @printf " - tax: %20.2f \$\n" tax @printf " - tot. after tax: %20.2f \$\n" afttax</lang>
- Output:
- tot. before tax: 22000000000000005.72 $ - tax: 1683000000000000.44 $ - tot. after tax: 23683000000000006.16 $
Kotlin
<lang scala>// version 1.1.2
import java.math.BigDecimal import java.math.MathContext
fun main(args: Array<String>) {
val mc = MathContext.DECIMAL128
val nHamburger = BigDecimal("4000000000000000", mc)
val pHamburger = BigDecimal("5.50")
val nMilkshakes = BigDecimal("2", mc)
val pMilkshakes = BigDecimal("2.86")
val taxRate = BigDecimal("0.0765")
val price = nHamburger * pHamburger + nMilkshakes * pMilkshakes
val tax = price * taxRate
val fmt = "%20.2f"
println("Total price before tax : ${fmt.format(price)}")
println("Tax thereon @ 7.65% : ${fmt.format(tax)}")
println("Total price after tax : ${fmt.format(price + tax)}")
}</lang>
- Output:
Total price before tax : 22000000000000005.72 Tax thereon @ 7.65% : 1683000000000000.44 Total price after tax : 23683000000000006.16
M2000 Interpreter
This task written in M2000 Environment running on Wine 3.6, in a Linux Ubuntu Studio. M2000 environment is an ActiveX object, written with VB6, which use many types from COM Variant Type. <lang M2000 Interpreter> Module Currency_Task {
Locale 1033
Font "Courier New"
Form 80,32
\\Decimal type
hamburgers=4000000000000000@
\\ Currency type
hamburger_price=5.5#
milkshakes=2#
milkshake_price=2.86#
tax_rate=0.0765#
\\ Using Columns with variable width in console
PrHeadLine("Item","price","quantity", "value")
PrLine("hamburger",hamburger_price,hamburgers,hamburgers*hamburger_price)
PrLine("milkshake", milkshake_price,milkshakes,milkshakes*milkshake_price)
PrResults( "subtotal", hamburgers*hamburger_price+milkshakes*milkshake_price)
PrResults("tax", (hamburgers*hamburger_price+milkshakes*milkshake_price)*tax_rate)
\\ 1 is double by default we can use 1# or 1@
PrResults("total", (hamburgers*hamburger_price+milkshakes*milkshake_price)*(tax_rate+1))
\\ Using variables for partial calculations. They get type from expression result
h_p_q=hamburgers*hamburger_price
m_p_q=milkshakes*milkshake_price
\\ Using format$ to prepare final strings
Print format$("{0:15}{1:-8}{2:-25}{3:-25}","Item", "price", "quantity", "value")
Print format$("{0:15}{1:2:-8}{2:0:-25}{3:2:-25}","hamburger",hamburger_price,hamburgers, h_p_q)
Print format$("{0:15}{1:2:-8}{2:0:-25}{3:2:-25}","milkshake", milkshake_price,milkshakes,m_p_q)
Print format$("{0:-48}{1:2:-25}","subtotal", h_p_q+m_p_q)
Print format$("{0:-48}{1:2:-25}","tax", (h_p_q+m_p_q)*tax_rate)
Print format$("{0:-48}{1:2:-25}","total", (h_p_q+m_p_q)*(tax_rate+1))
\\ Another time to feed Document to export to clipboard
Document Doc$=format$("{0:15}{1:-8}{2:-25}{3:-25}","Item", "price", "quantity", "value")+{
}+format$("{0:15}{1:2:-8}{2:0:-25}{3:2:-25}","hamburger",hamburger_price,hamburgers, h_p_q)+{
}+format$("{0:15}{1:2:-8}{2:0:-25}{3:2:-25}","milkshake", milkshake_price,milkshakes,m_p_q)+{
}+format$("{0:-48}{1:2:-25}","subtotal", h_p_q+m_p_q)+{
}+format$("{0:-48}{1:2:-25}","tax", (h_p_q+m_p_q)*tax_rate)+{
}+format$("{0:-48}{1:2:-25}","total", (h_p_q+m_p_q)*(tax_rate+1))+{
}
clipboard Doc$
\\ one line user function definition
\\ x get type from passed value
Def ExpressionType$(x)=Type$(X)
\\ Check Expression final type
Print ExpressionType$(hamburgers)="Decimal"
Print ExpressionType$(milkshakes)="Currency"
Print ExpressionType$(h_p_q)="Decimal"
Print ExpressionType$(m_p_q)="Currency"
Print ExpressionType$((h_p_q+m_p_q)*tax_rate)="Decimal"
Print ExpressionType$((h_p_q+m_p_q)*(tax_rate+1))="Decimal"
Sub PrHeadLine(a$,b$,c$,d$)
Print Part $(1,15),a$,$(3,8),b$, $(3,25),c$, $(3,25),d$
Print
End Sub
Sub PrLine(a$,b,c,d)
Print Part $(1,15),a$,$("0.00"),$(3,8),b, $("0"),$(3,25),c,$("0.00"), $(3,25),d
Print
End Sub
Sub PrResults(a$,b)
Print Part $(3,48),a$,$("0.00"),$(3,25),b
Print
End Sub
} Currency_Task </lang> Optional with $ and thousands separator (a smaller version from above) <lang M2000 Interpreter> Module Currency_Task {
Locale 1033
Font "Courier New"
Form 80,32
hamburgers=4000000000000000@
hamburger_price=5.5#
milkshakes=2#
milkshake_price=2.86#
tax_rate=0.0765#
PrHeadLine("Item","price","quantity", "value")
PrLine("hamburger",hamburger_price,hamburgers,hamburgers*hamburger_price)
PrLine("milkshake", milkshake_price,milkshakes,milkshakes*milkshake_price)
PrResults( "subtotal", hamburgers*hamburger_price+milkshakes*milkshake_price)
PrResults("tax", (hamburgers*hamburger_price+milkshakes*milkshake_price)*tax_rate)
PrResults("total", (hamburgers*hamburger_price+milkshakes*milkshake_price)*(tax_rate+1))
h_p_q=hamburgers*hamburger_price
m_p_q=milkshakes*milkshake_price
Document Doc$=format$("{0:15}{1:-8}{2:-25}{3:-30}","Item", "price", "quantity", "value")+{
}+format$("{0:15}{1:-8}{2:-25}{3:-30}","hamburger",str$(hamburger_price,"$#,##0.00"),str$(hamburgers, "#,##0"), Str$(h_p_q,"$#,##0.00"))+{
}+format$("{0:15}{1:-8}{2:-25}{3:-30}","milkshake", str$(milkshake_price,"$#,##0.00"),Str$(milkshakes, "#,##0"), Str$(m_p_q,"$#,##0.00"))+{
}+format$("{0:-48}{1:-30}","subtotal", Str$(h_p_q+m_p_q,"$#,##0.00"))+{
}+format$("{0:-48}{1:-30}","tax", Str$((h_p_q+m_p_q)*tax_rate,"$#,##0.00"))+{
}+format$("{0:-48}{1:-30}","total", Str$((h_p_q+m_p_q)*(tax_rate+1),"$#,##0.00"))+{
}
clipboard Doc$
Sub PrHeadLine(a$,b$,c$,d$)
Print Part $(1,15),a$,$(3,8),b$, $(3,25),c$, $(3,30),d$
Print
End Sub
Sub PrLine(a$,b,c,d)
Print Part $(1,15),a$,$("$#,###.00"),$(3,8),b, $("#,##0"),$(3,25),c,$("$#,###.00"), $(3,30),d
Print
End Sub
Sub PrResults(a$,b)
Print Part $(3,48),a$,$("$#,###.00"),$(3,30),b
Print
End Sub
} Currency_Task </lang>
- Output:
Item price quantity value
hamburger 5.50 4000000000000000 22000000000000000.00
milkshake 2.86 2 5.72
subtotal 22000000000000005.72
tax 1683000000000000.44
total 23683000000000006.16
From Optional
Item price quantity value
hamburger $5.50 4,000,000,000,000,000 $22,000,000,000,000,000.00
milkshake $2.86 2 $5.72
subtotal $22,000,000,000,000,005.72
tax $1,683,000,000,000,000.44
total $23,683,000,000,000,006.16
Maple
<lang Maple>
Digits := 50; tax := .0765;
burgersquantity := 4000000000000000; burgersprice := 5.50; burgerscost := burgersquantity * burgersprice;
milkshakesquantity := 2; milkshakesprice := 2.86; milkshakescost := milkshakesquantity * milkshakesprice;
total := burgerscost + milkshakescost; printf("%.2f\n",total);
totaltax := total * tax; printf("%.2f\n",totaltax);
totalprice := totaltax + total; printf("%.2f\n",totalprice); </lang>
- Output:
22000000000000005.72 1683000000000000.44 23683000000000006.16
OCaml
Using the Bignum library.
<lang ocaml>#require "bignum" ;;
let p1 = Bignum.((of_string "4000000000000000") * (of_float_decimal 5.50)) ;; let p2 = Bignum.((of_int 2) * (of_float_decimal 2.86)) ;;
let r1 = Bignum.(p1 + p2) ;; let r2 = Bignum.(r1 * (of_float_decimal (7.65 /. 100.))) ;; let r3 = Bignum.(r1 + r2) ;;
let my_to_string v =
Bignum.(v |> round_decimal ~dir:`Nearest ~digits:2
|> to_string_hum ~decimals:2) ;;
let () =
Printf.printf "before tax: %s\n" (my_to_string r1); Printf.printf "tax: %s\n" (my_to_string r2); Printf.printf "total: %s\n" (my_to_string r3);
- </lang>
- Output:
$ opam install bignum $ opam install utop $ eval $(opam env) $ utop currency.ml before tax: 22000000000000005.72 tax: 1683000000000000.44 total: 23683000000000006.16
Perl
<lang perl>use Math::Decimal qw(dec_canonise dec_add dec_mul dec_rndiv_and_rem);
@check = (
[<Hamburger 5.50 4000000000000000>], [<Milkshake 2.86 2>]
);
my $fmt = "%-10s %8s %18s %22s\n"; printf $fmt, <Item Price Quantity Extension>;
my $subtotal = dec_canonise(0); for $line (@check) {
($item,$price,$quant) = @$line; $dp = dec_canonise($price); $dq = dec_canonise($quant); my $extension = dec_mul($dp,$dq); $subtotal = dec_add($subtotal, $extension); printf $fmt, $item, $price, $quant, rnd($extension);
}
my $rate = dec_canonise(0.0765); my $tax = dec_mul($subtotal,$rate); my $total = dec_add($subtotal,$tax);
printf $fmt, , , , '-----------------'; printf $fmt, , , 'Subtotal ', rnd($subtotal); printf $fmt, , , 'Tax ', rnd($tax); printf $fmt, , , 'Total ', rnd($total);
sub rnd {
($q, $r) = dec_rndiv_and_rem("FLR", @_[0], 1);
$q . substr((sprintf "%.2f", $r), 1, 3);
}</lang>
- Output:
Item Price Quantity Extension
Hamburger 5.50 4000000000000000 22000000000000000.00
Milkshake 2.86 2 5.72
-----------------
Subtotal 22000000000000005.72
Tax 1683000000000000.44
Total 23683000000000006.16
Phix
<lang Phix>include mpfr.e mpfr_set_default_prec(-20) -- ensure accuracy to at least 20 d.p.
mpfr total_price = mpfr_init("4000000000000000"),
tmp = mpfr_init("5.5"),
tax = mpfr_init("0.0765"),
total = mpfr_init()
mpfr_mul(total_price,total_price,tmp) mpfr_set_str(tmp,"2.86") mpfr_mul_si(tmp,tmp,2) mpfr_add(total_price,total_price,tmp) mpfr_mul(tax,total_price,tax) mpfr_add(total,total_price,tax) mpfr_printf(1,"Total before tax:%21.2Rf\n",total_price) mpfr_printf(1," Tax:%21.2Rf\n",tax) mpfr_printf(1," Total:%21.2Rf\n",total)</lang>
- Output:
Total before tax: 22000000000000005.72
Tax: 1683000000000000.44
Total: 23683000000000006.16
PicoLisp
<lang>(scl 2) (let
(Before
(+
(* 4000000000000000 5.50)
(* 2 2.86) )
Tax (*/ Before 7.65 100.00)
Total (+ Before Tax)
Fmt (17 27) )
(tab Fmt "Total before tax:" (format Before *Scl "." ","))
(tab Fmt "Tax:" (format Tax *Scl "." ","))
(tab Fmt "Total:" (format Total *Scl "." ",")) )</lang>
- Output:
Total before tax: 22,000,000,000,000,005.72
Tax: 1,683,000,000,000,000.44
Total: 23,683,000,000,000,006.16
Python
This uses Pythons decimal module, (and some copying of names from the Raku example).
<lang python>from decimal import Decimal as D from collections import namedtuple
Item = namedtuple('Item', 'price, quant')
items = dict( hamburger=Item(D('5.50'), D('4000000000000000')),
milkshake=Item(D('2.86'), D('2')) )
tax_rate = D('0.0765')
fmt = "%-10s %8s %18s %22s" print(fmt % tuple('Item Price Quantity Extension'.upper().split()))
total_before_tax = 0 for item, (price, quant) in sorted(items.items()):
ext = price * quant print(fmt % (item, price, quant, ext)) total_before_tax += ext
print(fmt % (, , , '--------------------')) print(fmt % (, , 'subtotal', total_before_tax))
tax = (tax_rate * total_before_tax).quantize(D('0.00')) print(fmt % (, , 'Tax', tax))
total = total_before_tax + tax print(fmt % (, , , '--------------------')) print(fmt % (, , 'Total', total))</lang>
- Output:
ITEM PRICE QUANTITY EXTENSION
hamburger 5.50 4000000000000000 22000000000000000.00
milkshake 2.86 2 5.72
--------------------
subtotal 22000000000000005.72
Tax 1683000000000000.44
--------------------
Total 23683000000000006.16
Racket
Racket can handle fractions. To read the decimals numbers as fractions instead of floating point numbers, they must start with #e. For example #e.3 -> 3/10 and .3 ->3E-1. The main problem is rounding correctly and this part is handled in cents-*, that implements a multiplication that rounds to the cents. The rest of the program is only formatting. <lang Racket>#lang racket (define (cents-* x y)
(/ (round (* 100 x y)) 100))
(struct item (name count price))
(define (string-pad-right len . strs)
(define all (apply string-append strs)) (string-append all (make-string (- len (string-length all)) #\space)))
(define (string-pad-left len . strs)
(define all (apply string-append strs)) (string-append (make-string (- len (string-length all)) #\space) all))
(define (show-formated name count price total)
(printf "~a ~a ~a -> ~a\n"
(string-pad-right 10 name)
(string-pad-left 18 count)
(string-pad-left 8 price)
(string-pad-left 23 total)
))
(define (show-item it)
(show-formated (item-name it)
(~r (item-count it))
(string-append "$" (~r (item-price it) #:precision '(= 2)))
(string-append "$" (~r (cents-* (item-count it) (item-price it)) #:precision '(= 2)))
))
(define (show-total all tax-rate)
(define net (for/sum ([it (in-list all)])
(cents-* (item-count it) (item-price it))))
(define tax (cents-* net tax-rate))
(show-formated "" "" "net" (string-append "$" (~r net #:precision '(= 2))))
(show-formated "" "" "tax" (string-append "$" (~r tax #:precision '(= 2))))
(show-formated "" "" "total" (string-append "$" (~r (+ net tax) #:precision '(= 2))))
)
(define hamburger (item "hamburger" 4000000000000000 #e5.50)) (define milkshake (item "milkshake" 2 #e2.86)) (define all (list hamburger milkshake))
(for-each show-item all) (newline) (show-total all (/ #e7.65 100))</lang>
- Output:
hamburger 4000000000000000 $5.50 -> $22000000000000000.00
milkshake 2 $2.86 -> $5.72
net -> $22000000000000005.72
tax -> $1683000000000000.44
total -> $23683000000000006.16
Raku
(formerly Perl 6)
No need for a special type in Raku, since the Rat type is used for normal fractions. (In order to achieve imprecision, you have to explicitly use scientific notation, or use the Num type, or calculate a result that requires a denominator in excess of 2 ** 64. (There's no limit on the numerator.)) <lang perl6>my @check = q:to/END/.lines.map: { [.split(/\s+/)] };
Hamburger 5.50 4000000000000000 Milkshake 2.86 2 END
my $tax-rate = 0.0765;
my $fmt = "%-10s %8s %18s %22s\n";
printf $fmt, <Item Price Quantity Extension>;
my $subtotal = [+] @check.map: -> [$item,$price,$quant] {
my $extension = $price * $quant; printf $fmt, $item, $price, $quant, fix2($extension); $extension;
}
printf $fmt, , , , '-----------------'; printf $fmt, , , 'Subtotal ', $subtotal;
my $tax = ($subtotal * $tax-rate).round(0.01); printf $fmt, , , 'Tax ', $tax;
my $total = $subtotal + $tax; printf $fmt, , , 'Total ', $total;
- make up for lack of a Rat fixed-point printf format
sub fix2($x) { ($x + 0.001).subst(/ <?after \.\d\d> .* $ /, ) }</lang>
- Output:
Item Price Quantity Extension
Hamburger 5.50 4000000000000000 22000000000000000.00
Milkshake 2.86 2 5.72
-----------------
Subtotal 22000000000000005.72
Tax 1683000000000000.44
Total 23683000000000006.16
REXX
REXX uses characters to represent everything, including all forms of numbers. So what is expressed as a literal (characters) is what REXX uses. Essentially, it can be thought of as decimal.
Programming note: the tax rate can be expressed with or without a percent (%) suffix.
without commas
<lang rexx>/*REXX program shows a method of computing the total price and tax for purchased items.*/ numeric digits 200 /*support for gihugic numbers.*/ taxRate= 7.65 /*number is: nn or nn% */ if right(taxRate, 1)\=='%' then taxRate= taxRate / 100 /*handle plain tax rate number*/ taxRate= strip(taxRate, , '%') /*strip the % (if present).*/ item. =; items= 0 /*zero out the register. */ item.1 = '4000000000000000 $5.50 hamburger' /*the first item purchased. */ item.2 = ' 2 $2.86 milkshake' /* " second " " */ say center('quantity', 22) center("item", 22) center('price', 22) hdr= center(, 27, "─") center(, 20, "─") center(, 27, "─") say hdr; total= 0
do j=1 while item.j\== /*calculate the total and tax.*/
parse var item.j quantity price thing /*ring up an item on register.*/
items = items + quantity /*tally the number of items. */
price = translate(price, , '$') /*maybe scrub out the $ symbol*/
subtotal = quantity * price /*calculate the sub-total.*/
total = total + subtotal /* " " running total.*/
say right(quantity, 27) left(thing, 20) show$(subtotal)
end /*j*/
say /*display a blank line for separator. */ say translate(hdr, '═', "─") /*display the separator part of the hdr*/ tax= format(total * taxRate, , 2) /*round the total tax for all the items*/ say right(items "(items)", 35) right('total=', 12) show$(total) say right('tax at' (taxRate * 100 / 1)"%=", 48) show$(tax) say say right('grand total=', 48) show$(total+tax) exit /*stick a fork in it, we're all done. */ /*──────────────────────────────────────────────────────────────────────────────────────*/ show$: return right( '$'arg(1), 27) /*right─justify and format a number. */</lang>
- output (attempting to mimic a check-out register to some degree):
quantity item price
────────────────────── ────────────────────── ──────────────────────
4000000000000000 hamburger $22000000000000000.00
2 milkshake $5.72
══════════════════════ ══════════════════════ ══════════════════════
4000000000000002 (items) total= $22000000000000005.72
tax at 7.65%= $1683000000000000.44
grand total= $23683000000000006.16
with commas
<lang rexx>/*REXX program shows a method of computing the total price and tax for purchased items.*/ numeric digits 200 /*support for gihugic numbers.*/ taxRate= 7.65 /*number is: nn or nn% */ if right(taxRate, 1)\=='%' then taxRate= taxRate / 100 /*handle plain tax rate number*/ taxRate=strip(taxRate, , '%') /*strip the % (if present).*/ item. =; items= 0 /*zero out the register. */ item.1 = '4000000000000000 $5.50 hamburger' /*the first item purchased. */ item.2 = ' 2 $2.86 milkshake' /* " second " " */ say center('quantity', 22) center("item", 22) center('price', 22) hdr= center(, 27 ,"─") center(, 20, "─") center(, 27, "─") say hdr; total=0
do j=1 while item.j\== /*calculate the total and tax.*/
parse var item.j quantity price thing /*ring up an item on register.*/
items = items + quantity /*tally the number of items. */
price = translate(price, , '$') /*maybe scrub out the $ symbol*/
subtotal = quantity * price /*calculate the sub-total.*/
total = total + subtotal /* " " running total.*/
say right(quantity, 27) left(thing, 20) show$(subtotal)
end /*j*/
say /*display a blank line for separator. */ say translate(hdr, '═', "─") /*display the separator part of the hdr*/ tax= format(total * taxRate, , 2) /*round the total tax for all the items*/ say right( commas(items "(items)"), 35) right('total=', 12) show$(total) say right('tax at' (taxRate * 100 / 1)"%=", 48) show$(tax) say say right('grand total=', 48) show$(total + tax) exit /*stick a fork in it, we're all done. */ /*──────────────────────────────────────────────────────────────────────────────────────*/ commas: procedure; parse arg _; n= _'.9'; #= 123456789; b= verify(n, #, "M")
e= verify(n, #'0', , verify(n, #"0.", 'M') ) - 4 /* [↓] commatize number*/
do j=e to b by -3; _= insert(',', _, j); end /*j*/; return _
/*──────────────────────────────────────────────────────────────────────────────────────*/ show$: return right( commas( '$'arg(1) ), 27) /*right─justify and format a number. */</lang>
- output with commas in the larger numbers:
quantity item price
─────────────────────────── ──────────────────── ───────────────────────────
4,000,000,000,000,000 hamburger $22,000,000,000,000,000.00
2 milkshake $5.72
═══════════════════════════ ════════════════════ ═══════════════════════════
4,000,000,000,000,002 (items) total= $22,000,000,000,000,005.72
tax at 7.65%= $1,683,000,000,000,000.44
grand total= $23,683,000,000,000,006.16
Ring
<lang ring>
- Project : Currency
nhamburger = "4000000000" phamburger = "5.50" nmilkshakes = "2" pmilkshakes = "2.86" taxrate = "0.0765" price = nhamburger * phamburger + nmilkshakes * pmilkshakes tax = price * taxrate see "total price before tax : " + price + nl see "tax thereon @ 7.65 : " + tax + nl see "total price after tax : " + (price + tax) + nl </lang> Output:
total price before tax : 22000000005.72 tax thereon @ 7.65 : 1683000000.44 total price after tax : 23683000006.16
Ruby
<lang ruby>require 'bigdecimal/util'
before_tax = 4000000000000000 * 5.50.to_d + 2 * 2.86.to_d tax = (before_tax * 0.0765.to_d).round(2) total = before_tax + tax
puts "Before tax: $#{before_tax.to_s('F')} Tax: $#{tax.to_s('F')} Total: $#{total.to_s('F')}" </lang>
- Output:
Before tax: $22000000000000005.72 Tax: $1683000000000000.44 Total: $23683000000000006.16
Rust
<lang rust>extern crate num_bigint; // 0.3.0 extern crate num_rational; // 0.3.0
use num_bigint::BigInt; use num_rational::BigRational;
use std::ops::{Add, Mul};
use std::fmt;
fn main() {
let hamburger = Currency::new(5.50);
let milkshake = Currency::new(2.86);
let pre_tax = hamburger * 4_000_000_000_000_000 + milkshake * 2;
println!("Price before tax: {}", pre_tax);
let tax = pre_tax.calculate_tax();
println!("Tax: {}", tax);
let post_tax = pre_tax + tax;
println!("Price after tax: {}", post_tax);
}
- [derive(Debug)]
struct Currency {
amount: BigRational,
}
impl Add for Currency {
type Output = Self;
fn add(self, other: Self) -> Self {
Self {
amount: self.amount + other.amount,
}
}
}
impl Mul<u64> for Currency {
type Output = Self;
fn mul(self, other: u64) -> Self {
Self {
amount: self.amount * BigInt::from(other),
}
}
}
impl fmt::Display for Currency {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
let cents = (&self.amount * BigInt::from(100)).to_integer();
write!(f, "${}.{}", ¢s / 100, ¢s % 100)
}
}
impl Currency {
fn new(num: f64) -> Self {
Self {
amount: BigRational::new(((num * 100.0) as i64).into(), 100.into())
}
}
fn calculate_tax(&self) -> Self {
let tax_val = BigRational::new(765.into(), 100.into());// 7,65 -> 0.0765 after the next line
let amount = (&self.amount * tax_val).ceil() / BigInt::from(100);
Self {
amount
}
}
}</lang>
- Output:
Price before tax: $22000000000000005.72 Tax: $1683000000000000.44 Price after tax: $23683000000000006.16
Scala
Locale is manipulated to demonstrate the behavior with other currencies.
<lang scala>import java.text.NumberFormat import java.util.Locale
object SizeMeUp extends App {
val menu: Map[String, (String, Double)] = Map("burg" ->("Hamburger XL", 5.50), "milk" ->("Milkshake", 2.86))
val order = List((4000000000000000L, "burg"), (2L, "milk"))
Locale.setDefault(new Locale("ru", "RU"))
val (currSymbol, tax) = (NumberFormat.getInstance().getCurrency.getSymbol, 0.0765)
def placeOrder(order: List[(Long, String)]) = {
val totals = for ((qty, article) <- order) yield {
val (desc, itemPrize) = menu(article)
val (items, post) = (qty, qty * BigDecimal(itemPrize))
println(f"$qty%16d\t$desc%-16s\t$currSymbol%4s$itemPrize%6.2f\t$post%,25.2f")
(items, post)
}
totals.foldLeft((0L, BigDecimal(0))) { (acc, n) => (acc._1 + n._1, acc._2 + n._2)}
}
val (items, beforeTax) = placeOrder(order)
println(f"$items%16d\t${"ordered items"}%-16s${'\t' + " Subtotal" + '\t'}$beforeTax%,25.2f")
val taxation = beforeTax * tax
println(f"${" " * 16 + '\t' + " " * 16 + '\t' + f"${tax * 100}%5.2f%% tax" + '\t'}$taxation%,25.2f")
println(f"${" " * 16 + '\t' + " " * 16 + '\t' + "Amount due" + '\t'}${beforeTax + taxation}%,25.2f")
}</lang>
- Output:
4000000000000000 Hamburger XL руб. 5,50 22 000 000 000 000 000,00
2 Milkshake руб. 2,86 5,72
4000000000000002 ordered items Subtotal 22 000 000 000 000 005,72
7,65% tax 1 683 000 000 000 000,44
Amount due 23 683 000 000 000 006,16
Process finished with exit code 0
Sidef
<lang ruby>struct Item {
name, price, quant
}
var check = %q{
Hamburger 5.50 4000000000000000 Milkshake 2.86 2
}.lines.grep(/\S/).map { Item(.words...) }
var tax_rate = 0.0765 var fmt = "%-10s %8s %18s %22s\n"
printf(fmt, %w(Item Price Quantity Extension)...)
var subtotal = check.map { |item|
var extension = Num(item.price)*Num(item.quant) printf(fmt, item.name, item.price, item.quant, extension.round(-2)) extension
}.sum(0)
printf(fmt, , , , '-----------------') printf(fmt, , , 'Subtotal ', subtotal)
var tax = (subtotal * tax_rate -> round(-2)) printf(fmt, , , 'Tax ', tax)
var total = subtotal+tax printf(fmt, , , 'Total ', total)</lang>
- Output:
Item Price Quantity Extension
Hamburger 5.50 4000000000000000 22000000000000000
Milkshake 2.86 2 5.72
-----------------
Subtotal 22000000000000005.72
Tax 1683000000000000.44
Total 23683000000000006.16
Swift
<lang swift>import Foundation
extension Decimal {
func rounded(_ scale: Int, _ roundingMode: NSDecimalNumber.RoundingMode) -> Decimal {
var result = Decimal()
var localCopy = self
NSDecimalRound(&result, &localCopy, scale, roundingMode)
return result
}
}
let costHamburgers = Decimal(4000000000000000) * Decimal(5.50) let costMilkshakes = Decimal(2) * Decimal(2.86) let totalBeforeTax = costMilkshakes + costHamburgers let taxesToBeCollected = (Decimal(string: "0.0765")! * totalBeforeTax).rounded(2, .bankers)
print("Price before tax: $\(totalBeforeTax)") print("Total tax to be collected: $\(taxesToBeCollected)") print("Total with taxes: $\(totalBeforeTax + taxesToBeCollected)")</lang>
- Output:
Price before tax: $22000000000000005.72 Total tax to be collected: $1683000000000000.44 Total with taxes: $23683000000000006.16
Tcl
<lang tcl>package require math::decimal
namespace import math::decimal::*
set hamburgerPrice [fromstr 5.50] set milkshakePrice [fromstr 2.86] set taxRate [/ [fromstr 7.65] [fromstr 100]]
set burgers 4000000000000000 set shakes 2 set net [+ [* [fromstr $burgers] $hamburgerPrice] [* [fromstr $shakes] $milkshakePrice]] set tax [round_up [* $net $taxRate] 2] set total [+ $net $tax]
puts "net=[tostr $net], tax=[tostr $tax], total=[tostr $total]"</lang>
- Output:
net=22000000000000005.72, tax=1683000000000000.44, total=23683000000000006.16
VBA
Used in locality Euroland. Formatting as currency shows € in stead of $, and thousand separators are "." in stead of "," and the decimail 'point' is "," in stead of "." When run in the USA it will be with dollar sign and so on. <lang vb>Public Sub currency_task()
'4000000000000000 hamburgers at $5.50 each Dim number_of_hamburgers As Variant number_of_hamburgers = CDec(4E+15) Dim price_of_hamburgers As Currency price_of_hamburgers = 5.5 '2 milkshakes at $2.86 each, and Dim number_of_milkshakes As Integer number_of_milkshakes = 2 Dim price_of_milkshakes As Currency price_of_milkshakes = 2.86 'a tax rate of 7.65%. Dim tax_rate As Single tax_rate = 0.0765 'the total price before tax Dim total_price_before_tax As Variant total_price_before_tax = number_of_hamburgers * price_of_hamburgers total_price_before_tax = total_price_before_tax + number_of_milkshakes * price_of_milkshakes Debug.Print "Total price before tax "; Format(total_price_before_tax, "Currency") 'the tax Dim tax As Variant tax = total_price_before_tax * tax_rate Debug.Print "Tax "; Format(tax, "Currency") 'the total with tax Debug.Print "Total with tax "; Format(total_price_before_tax + tax, "Currency")
End Sub</lang>
- Output:
Total price before tax € 22.000.000.000.000.005,72 Tax € 1.683.000.000.000.000,44 Total with tax € 23.683.000.000.000.006,16
Wren
<lang ecmascript>import "/big" for BigRat
var hamburgers = BigRat.new("4000000000000000") var milkshakes = BigRat.two var price1 = BigRat.fromFloat(5.5) var price2 = BigRat.fromFloat(2.86) var taxPc = BigRat.fromFloat(0.0765) var totalPc = BigRat.fromFloat(1.0765) var totalPreTax = hamburgers*price1 + milkshakes*price2 var totalTax = taxPc * totalPreTax var totalAfterTax = totalPreTax + totalTax System.print("Total price before tax : %((totalPreTax).toDecimal(2))") System.print("Tax : %((totalTax).toDecimal(2))") System.print("Total price after tax : %((totalAfterTax).toDecimal(2))")</lang>
- Output:
Total price before tax : 22000000000000005.72 Tax : 1683000000000000.44 Total price after tax : 23683000000000006.16
zkl
zkl Ints are 64 bits, so we have 18 digits to play with. So, just multiply bucks by 100 and be careful when doing tax calculations.
<lang zkl>var priceList=Dictionary("hamburger",550, "milkshake",286); var taxRate=765; // percent*M const M=0d10_000;
fcn toBucks(n){ "$%,d.%02d".fmt(n.divr(100).xplode()) } fcn taxIt(n) { d,c:=n.divr(M).apply('*(taxRate)); d + (c+5000)/M; } fcn calcTab(items){ // (hamburger,15), (milkshake,100) ...
items=vm.arglist;
fmt:="%-10s %8s %18s %26s";
fmt.fmt("Item Price Quantity Extension".split().xplode()).println();
totalBeforeTax:=0;
foreach item,n in (items.sort(fcn(a,b){ a[0]<b[0] })){
price:=priceList[item]; t:=price*n;
fmt.fmt(item,toBucks(price),n,toBucks(t)).println();
totalBeforeTax+=t;
}
fmt.fmt("","","","--------------------").println();
fmt.fmt("","","subtotal",toBucks(totalBeforeTax)).println();
tax:=taxIt(totalBeforeTax);
fmt.fmt("","","Tax",toBucks(tax)).println();
fmt.fmt("","","","--------------------").println();
fmt.fmt("","","Total",toBucks(totalBeforeTax + tax)).println();
}</lang> <lang zkl>calcTab(T("milkshake",2),T("hamburger",4000000000000000));</lang>
- Output:
Item Price Quantity Extension
hamburger $5.50 4000000000000000 $22,000,000,000,000,000.00
milkshake $2.86 2 $5.72
--------------------
subtotal $22,000,000,000,000,005.72
Tax $1,683,000,000,000,000.44
--------------------
Total $23,683,000,000,000,006.16