task_url stringlengths 30 116 | task_name stringlengths 2 86 | task_description stringlengths 0 14.4k | language_url stringlengths 2 53 | language_name stringlengths 1 52 | code stringlengths 0 61.9k |
|---|---|---|---|---|---|
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #FutureBasic | FutureBasic |
window 1, @"Integer Arithmetic", ( 0, 0, 400, 300 )
NSInteger a = 25
NSInteger b = 53
print "addition "a" + "b" = " (a + b)
print "subtraction "a" - "b" = " (a - b)
print "multiplication "a" * "b" = " (a * b)
print "division "a" / "b" = " (a / b)
printf @"float division %ld / %ld = %f", a, b, ... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Gambas | Gambas | Public Sub Main()
Dim a, b As String
Dim c, d As Integer
Print "Enter two integer numbers, separated by space:"
Input a, b
c = CInt(a)
d = CInt(b)
Print "Sum: " & (c + d)
Print "Difference:" & (c - d)
Print "Product: " & (c * d)
Print "Integer: " & (c Div d)
Print "Remainder: " & (c Mod d)
... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #GAP | GAP | run := function()
local a, b, f;
f := InputTextUser();
Print("a =\n");
a := Int(Chomp(ReadLine(f)));
Print("b =\n");
b := Int(Chomp(ReadLine(f)));
Display(Concatenation(String(a), " + ", String(b), " = ", String(a + b)));
Display(Concatenation(String(a), " - ", String(b), " = ", String(a - b)));
Displ... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Genie | Genie | [indent=4]
/*
Arithmethic/Integer, in Genie
valac arithmethic-integer.gs
*/
init:int
a:int = 0
b:int = 0
if args.length > 2 do b = int.parse(args[2])
if args.length > 1 do a = int.parse(args[1])
print @"a+b: $a plus $b is $(a+b)"
print @"a-b: $a minus $b is $(a-b)"
print @"a*b: $a... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #GEORGE | GEORGE | R (m) ;
R (n) ;
m n + P;
m n - P;
m n × P;
m n div P;
m n rem P; |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Go | Go | package main
import "fmt"
func main() {
var a, b int
fmt.Print("enter two integers: ")
fmt.Scanln(&a, &b)
fmt.Printf("%d + %d = %d\n", a, b, a+b)
fmt.Printf("%d - %d = %d\n", a, b, a-b)
fmt.Printf("%d * %d = %d\n", a, b, a*b)
fmt.Printf("%d / %d = %d\n", a, b, a/b) // truncates towards ... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Groovy | Groovy | def arithmetic = { a, b ->
println """
a + b = ${a} + ${b} = ${a + b}
a - b = ${a} - ${b} = ${a - b}
a * b = ${a} * ${b} = ${a * b}
a / b = ${a} / ${b} = ${a / b} !!! Converts to floating point!
(int)(a / b) = (int)(${a} / ${b}) = ${(int)(a / b)} ... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Harbour | Harbour | procedure Test( a, b )
? "a+b", a + b
? "a-b", a - b
? "a*b", a * b
// The quotient isn't integer, so we use the Int() function, which truncates it downward.
? "a/b", Int( a / b )
// Remainder:
? "a%b", a % b
// Exponentiation is also a base arithmetic operation
? "a**b", a ** b
return |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Haskell | Haskell | main = do
a <- readLn :: IO Integer
b <- readLn :: IO Integer
putStrLn $ "a + b = " ++ show (a + b)
putStrLn $ "a - b = " ++ show (a - b)
putStrLn $ "a * b = " ++ show (a * b)
putStrLn $ "a to the power of b = " ++ show (a ** b)
putStrLn $ "a to the power of b = " ++ show (a ^ b)
putStrLn $ "a to the po... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Haxe | Haxe | class BasicIntegerArithmetic {
public static function main() {
var args =Sys.args();
if (args.length < 2) return;
var a = Std.parseFloat(args[0]);
var b = Std.parseFloat(args[1]);
trace("a+b = " + (a+b));
trace("a-b = " + (a-b));
trace("a*b = " + (a*b));
... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #HicEst | HicEst | DLG(Edit=A, Edit=B, TItle='Enter numeric A and B')
WRITE(Name) A, B
WRITE() ' A + B = ', A + B
WRITE() ' A - B = ', A - B
WRITE() ' A * B = ', A * B
WRITE() ' A / B = ', A / B ! no truncation
WRITE() 'truncate A / B = ', INT(A / B) ! truncates toward... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #HolyC | HolyC | I64 *a, *b;
a = Str2I64(GetStr("Enter your first number: "));
b = Str2I64(GetStr("Enter your second number: "));
if (b == 0)
Print("Error: The second number must not be zero.\n");
else {
Print("a + b = %d\n", a + b);
Print("a - b = %d\n", a - b);
Print("a * b = %d\n", a * b);
Print("a / b = %d\n", a / b); /... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #i | i | main
a $= integer(in(' ')); ignore
b $= integer(in('\n')); ignore
print("Sum:" , a + b)
print("Difference:", a - b)
print("Product:" , a * b)
print("Quotient:" , a / b) // rounds towards zero
print("Modulus:" , a % b) // same sign as first operand
print("Exponent:" , a ^ b)
} |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Icon_and_Unicon | Icon and Unicon | procedure main()
writes("Input 1st integer a := ")
a := integer(read())
writes("Input 2nd integer b := ")
b := integer(read())
write(" a + b = ",a+b)
write(" a - b = ",a-b)
write(" a * b = ",a*b)
write(" a / b = ",a/b, " rounds toward 0")
write(" a % b = ",a%b, " remainder sign matches a")
write(" a ^ b = ",a^b)
end |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Ada | Ada | with Ada.Text_IO; use Ada.Text_IO;
with Ada.Integer_Text_IO; use Ada.Integer_Text_IO;
procedure Main is
procedure divisor_count_and_sum
(n : Positive; divisor_count : out Natural; divisor_sum : out Natural)
is
I : Positive := 1;
J : Natural;
begin
divisor_count := 0;
divi... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Inform_7 | Inform 7 | Enter Two Numbers is a room.
Numerically entering is an action applying to one number. Understand "[number]" as numerically entering.
The first number is a number that varies.
After numerically entering for the first time:
now the first number is the number understood.
After numerically entering for the second... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #J | J | calc =: + , - , * , <.@% , |~ , ^ |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #ALGOL_68 | ALGOL 68 | BEGIN # find arithmetic numbers - numbers whose average divisor is an integer #
# i.e. sum of divisors MOD count of divisors = 0 #
INT max number = 500 000; # maximum number we will consider #
[ 1 : max number ]INT d sum;
[ 1 : max number ]INT d count;
# all po... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Java | Java | import java.util.Scanner;
public class IntegerArithmetic {
public static void main(String[] args) {
// Get the 2 numbers from command line arguments
Scanner sc = new Scanner(System.in);
int a = sc.nextInt();
int b = sc.nextInt();
int sum = a + b; // The result of a... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #BASIC | BASIC | LET n = 1
DO
LET div = 1
LET divcnt = 0
LET sum = 0
DO
LET quot = n/div
IF quot < div THEN EXIT DO
IF REMAINDER(n, div) = 0 THEN
IF quot = div THEN !n IS a square
LET sum = sum+quot
LET divcnt = divcnt+1
EXIT DO
ELSE
... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #JavaScript | JavaScript | var a = parseInt(get_input("Enter an integer"), 10);
var b = parseInt(get_input("Enter an integer"), 10);
WScript.Echo("a = " + a);
WScript.Echo("b = " + b);
WScript.Echo("sum: a + b = " + (a + b));
WScript.Echo("difference: a - b = " + (a - b));
WScript.Echo("product: a * b = " + (a * b));
WScript.Echo("qu... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #C | C | #include <stdio.h>
void divisor_count_and_sum(unsigned int n, unsigned int* pcount,
unsigned int* psum) {
unsigned int divisor_count = 1;
unsigned int divisor_sum = 1;
unsigned int power = 2;
for (; (n & 1) == 0; power <<= 1, n >>= 1) {
++divisor_count;
divis... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #jq | jq | # Lines which do not have two integers are skipped:
def arithmetic:
split(" ") | select(length > 0) | map(tonumber)
| if length > 1 then
.[0] as $a | .[1] as $b
| "For a = \($a) and b = \($b):\n" +
"a + b = \($a + $b)\n" +
"a - b = \($a - $b)\n" +
"a * b = \($a * $b)\n" +
"a/b|floo... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Jsish | Jsish | "use strict";
/* Arthimetic/Integer, in Jsish */
var line = console.input();
var nums = line.match(/^\s*([+-]?[0-9]+)\s+([+-]?[0-9]+)\s*/);
var a = Number(nums[1]);
var b = Number(nums[2]);
puts("A is ", a, ", B is ", b);
puts("Sum A + B is ", a + b);
puts("Difference A - B is ", a - b);
puts("Pr... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #C.2B.2B | C++ | #include <cstdio>
void divisor_count_and_sum(unsigned int n,
unsigned int& divisor_count,
unsigned int& divisor_sum)
{
divisor_count = 0;
divisor_sum = 0;
for (unsigned int i = 1;; i++)
{
unsigned int j = n / i;
if (j < i)
break;
if (i * j != n)
continue;
divisor_sum +=... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Julia | Julia | function arithmetic (a = parse(Int, readline()), b = parse(Int, readline()))
for op in [+,-,*,div,rem]
println("a $op b = $(op(a,b))")
end
end |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Kotlin | Kotlin | // version 1.1
fun main(args: Array<String>) {
val r = Regex("""-?\d+[ ]+-?\d+""")
while(true) {
print("Enter two integers separated by space(s) or q to quit: ")
val input: String = readLine()!!.trim()
if (input == "q" || input == "Q") break
if (!input.matches(r)) {
... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Factor | Factor | USING: combinators formatting grouping io kernel lists
lists.lazy math math.functions math.primes math.primes.factors
math.statistics math.text.english prettyprint sequences
tools.memory.private ;
: arith? ( n -- ? ) divisors mean integer? ;
: larith ( -- list ) 1 lfrom [ arith? ] lfilter ;
: arith ( m -- seq ) larit... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #FreeBASIC | FreeBASIC | ' Rosetta Code problem: https://rosettacode.org/wiki/Arithmetic_numbers
' by Jjuanhdez, 06/2022
Dim As Double t0 = Timer
Dim As Integer N = 1, ArithCnt = 0, CompCnt = 0
Dim As Integer Div, DivCnt, Sum, Quot
Print "The first 100 arithmetic numbers are:"
Do
Div = 1 : DivCnt = 0 : Sum = 0
Do
Quot = N /... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #LabVIEW | LabVIEW |
{def arithmetic
{lambda {:x :y}
{S.map {{lambda {:x :y :op}
{br}applying :op on :x & :y returns {:op :x :y}} :x :y}
+ - * / % pow max min = > <}}}
-> arithmetic
{arithmetic 8 12}
->
applying + on 8 & 12 returns 20
applying - on 8 & 12 returns -4
applying * on 8 & 12 returns 96
ap... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Delphi | Delphi |
{{works with| Delphi-6 or better}}
program ArithmeiticNumbers;
{$APPTYPE CONSOLE}
procedure ArithmeticNumbers;
var N, ArithCnt, CompCnt, DDiv: integer;
var DivCnt, Sum, Quot, Rem: integer;
begin
N:= 1; ArithCnt:= 0; CompCnt:= 0;
repeat
begin
DDiv:= 1; DivCnt:= 0; Sum:= 0;
while true do
begin
Quot:= N d... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Lambdatalk | Lambdatalk |
{def arithmetic
{lambda {:x :y}
{S.map {{lambda {:x :y :op}
{br}applying :op on :x & :y returns {:op :x :y}} :x :y}
+ - * / % pow max min = > <}}}
-> arithmetic
{arithmetic 8 12}
->
applying + on 8 & 12 returns 20
applying - on 8 & 12 returns -4
applying * on 8 & 12 returns 96
ap... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Go | Go | package main
import (
"fmt"
"math"
"rcu"
"sort"
)
func main() {
arithmetic := []int{1}
primes := []int{}
limit := int(1e6)
for n := 3; len(arithmetic) < limit; n++ {
divs := rcu.Divisors(n)
if len(divs) == 2 {
primes = append(primes, n)
arithme... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Lasso | Lasso | local(a = 6, b = 4)
#a + #b // 10
#a - #b // 2
#a * #b // 24
#a / #b // 1
#a % #b // 2
math_pow(#a,#b) // 1296
math_pow(#b,#a) // 4096 |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #LFE | LFE |
(defmodule arith
(export all))
(defun demo-arith ()
(case (: io fread '"Please enter two integers: " '"~d~d")
((tuple 'ok (a b))
(: io format '"~p + ~p = ~p~n" (list a b (+ a b)))
(: io format '"~p - ~p = ~p~n" (list a b (- a b)))
(: io format '"~p * ~p = ~p~n" (list a b (* a b)))
(:... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #J | J | factors=: {{ */@>,{(^ [:i.1+])&.>/__ q:y}}
isArith=: {{ (= <.) (+/%#) factors|y}}"0 |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Julia | Julia | using Primes
function isarithmetic(n)
f = [one(n)]
for (p,e) in factor(n)
f = reduce(vcat, [f*p^j for j in 1:e], init=f)
end
return rem(sum(f), length(f)) == 0
end
function arithmetic(n)
i, arr = 1, Int[]
while length(arr) < n
isarithmetic(i) && push!(arr, i)
i += 1
... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Liberty_BASIC | Liberty BASIC |
input "Enter the first integer: "; first
input "Enter the second integer: "; second
print "The sum is " ; first + second
print "The difference is " ; first -second
print "The product is " ; first *second
if second <>0 then print "The integer quotient is " ; int( first /second); " (rounds towards 0)" else print "Di... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Pascal | Pascal |
program ArithmeiticNumbers;
procedure ArithmeticNumbers;
var N, ArithCnt, CompCnt, DDiv: longint;
var DivCnt, Sum, Quot, Rem: longint;
begin
N:= 1; ArithCnt:= 0; CompCnt:= 0;
repeat
begin
DDiv:= 1; DivCnt:= 0; Sum:= 0;
while true do
begin
Quot:= N div DDiv;
Rem:=N mod DDiv;
if Quot < DDiv then break;... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #LIL | LIL | # Arithmetic/Integer, in LIL
write "Enter two numbers separated by space: "
if {[canread]} {set line [readline]}
print
set a [index $line 0]
set b [index $line 1]
print "A is $a"", B is $b"
print "Sum A + B is [expr $a + $b]"
print "Difference A - B is [expr $a - $b]"
print "Product A *... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Perl | Perl | use strict;
use warnings;
use feature 'say';
use List::Util <max sum>;
use ntheory <is_prime divisors>;
use Lingua::EN::Numbers qw(num2en num2en_ordinal);
sub comma { reverse ((reverse shift) =~ s/(.{3})/$1,/gr) =~ s/^,//r }
sub table { my $t = 10 * (my $c = 1 + length max @_); ( sprintf( ('%'.$c.'d')x@_, @_) ) =~ ... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Lingo | Lingo | -- X, Y: 2 editable field members, shown as sprites in the current GUI
x = integer(member("X").text)
y = integer(member("Y").text)
put "Sum: " , x + y
put "Difference: ", x - y
put "Product: " , x * y
put "Quotient: " , x / y -- Truncated towards zero
put "Remainder: " , x mod y -- Result has sign of left ... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Little | Little | # Maybe you need to import the mathematical funcions
# from Tcl with:
# eval("namespace path ::tcl::mathfunc");
void main() {
int a, b;
puts("Enter two integers:");
a = (int)(gets(stdin));
b = (int)(gets(stdin));
puts("${a} + ${b} = ${a+b}");
puts("${a} - ${b} = ${a-b}");
puts("${a} * ... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Phix | Phix | with javascript_semantics
sequence arithmetic = {1}
integer composite = 0
function get_arithmetic(integer nth)
integer n = arithmetic[$]+1
while length(arithmetic)<nth do
sequence divs = factors(n,1)
if remainder(sum(divs),length(divs))=0 then
composite += length(divs)>2
... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Python | Python | def factors(n: int):
f = set([1, n])
i = 2
while True:
j = n // i
if j < i:
break
if i * j == n:
f.add(i)
f.add(j)
i += 1
return f
arithmetic_count = 0
composite_count = 0
n = 1
while arithmetic_count <= 1000000:
f = factors(n)
... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #LiveCode | LiveCode | ask "enter 2 numbers (comma separated)"
if it is not empty then
put item 1 of it into n1
put item 2 of it into n2
put sum(n1,n2) into ai["sum"]
put n1 * n2 into ai["product"]
put n1 div n2 into ai["quotient"] -- truncates
put n1 mod n2 into ai["remainder"]
put n1^n2 into ai["power"]
com... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Logo | Logo | to operate :a :b
(print [a =] :a)
(print [b =] :b)
(print [a + b =] :a + :b)
(print [a - b =] :a - :b)
(print [a * b =] :a * :b)
(print [a / b =] int :a / :b)
(print [a mod b =] modulo :a :b)
end |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Raku | Raku | use Prime::Factor;
use Lingua::EN::Numbers;
my @arithmetic = lazy (1..∞).hyper.grep: { my @div = .&divisors; (@div.sum / +@div).narrow ~~ Int }
say "The first { .Int.&cardinal } arithmetic numbers:\n", @arithmetic[^$_].batch(10)».fmt("%{.chars}d").join: "\n" given 1e2;
for 1e3, 1e4, 1e5, 1e6 {
say "\nThe { .I... |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Rust | Rust | fn divisor_count_and_sum(mut n: u32) -> (u32, u32) {
let mut divisor_count = 1;
let mut divisor_sum = 1;
let mut power = 2;
while (n & 1) == 0 {
divisor_count += 1;
divisor_sum += power;
power <<= 1;
n >>= 1;
}
let mut p = 3;
while p * p <= n {
let mut... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #LSE64 | LSE64 | over : 2 pick
2dup : over over
arithmetic : \
" A=" ,t over , sp " B=" ,t dup , nl \
" A+B=" ,t 2dup + , nl \
" A-B=" ,t 2dup - , nl \
" A*B=" ,t 2dup * , nl \
" A/B=" ,t 2dup / , nl \
" A%B=" ,t % , nl |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Lua | Lua | local x = io.read()
local y = io.read()
print ("Sum: " , (x + y))
print ("Difference: ", (x - y))
print ("Product: " , (x * y))
print ("Quotient: " , (x / y)) -- Does not truncate
print ("Remainder: " , (x % y)) -- Result has sign of right operand
print ("Exponent: " , (x ^ y)) |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #Wren | Wren | import "./math" for Int, Nums
import "./fmt" for Fmt
import "./sort" for Find
var arithmetic = [1]
var primes = []
var limit = 1e6
var n = 3
while (arithmetic.count < limit) {
var divs = Int.divisors(n)
if (divs.count == 2) {
primes.add(n)
arithmetic.add(n)
} else {
var mean = Nums... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #M2000_Interpreter | M2000 Interpreter |
MODULE LikeCommodoreBasic {
\\ ADDITION: EUCLIDEAN DIV# & MOD# AND ** FOR POWER INCLUDING ^
10 INPUT "ENTER A NUMBER:"; A%
20 INPUT "ENTER ANOTHER NUMBER:"; B%
30 PRINT "ADDITION:";A%;"+";B%;"=";A%+B%
40 PRINT "SUBTRACTION:";A%;"-";B%;"=";A%-B%
50 PRINT "MULTIPLICATION:";A%;"*";B%;... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #M4 | M4 | eval(A+B)
eval(A-B)
eval(A*B)
eval(A/B)
eval(A%B) |
http://rosettacode.org/wiki/Arithmetic_numbers | Arithmetic numbers | Definition
A positive integer n is an arithmetic number if the average of its positive divisors is also an integer.
Clearly all odd primes p must be arithmetic numbers because their only divisors are 1 and p whose sum is even and hence their average must be an integer. However, the prime number 2 is not an arithmetic ... | #XPL0 | XPL0 | int N, ArithCnt, CompCnt, Div, DivCnt, Sum, Quot;
[Format(4, 0);
N:= 1; ArithCnt:= 0; CompCnt:= 0;
repeat Div:= 1; DivCnt:= 0; Sum:= 0;
loop [Quot:= N/Div;
if Quot < Div then quit;
if Quot = Div and rem(0) = 0 then \N is a square
[Sum:= Sum+Quot; DivC... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Maple | Maple |
DoIt := proc()
local a := readstat( "Input an integer: " ):
local b := readstat( "Input another integer: " ):
printf( "Sum = %d\n", a + b ):
printf( "Difference = %d\n", a - b ):
printf( "Product = %d\n", a * b ):
printf( "Quotient = %d\n", iquo( a, b, 'c' ) ):
... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Mathematica.2FWolfram_Language | Mathematica/Wolfram Language | a = Input["Give me an integer please!"];
b = Input["Give me another integer please!"];
Print["You gave me ", a, " and ", b];
Print["sum: ", a + b];
Print["difference: ", a - b];
Print["product: ", a b];
Print["integer quotient: ", Quotient[a, b]];
Print["remainder: ", Mod[a, b]];
Print["exponentiation: ", a^b]; |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Mathcad | Mathcad | disp("integer a: "); a = scanf("%d", 1);
disp("integer b: "); b = scanf("%d", 1);
a+b
a-b
a*b
floor(a/b)
mod(a,b)
a^b |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #MATLAB_.2F_Octave | MATLAB / Octave | disp("integer a: "); a = scanf("%d", 1);
disp("integer b: "); b = scanf("%d", 1);
a+b
a-b
a*b
floor(a/b)
mod(a,b)
a^b |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Maxima | Maxima | block(
[a: read("a"), b: read("b")],
print(a + b),
print(a - b),
print(a * b),
print(a / b),
print(quotient(a, b)),
print(remainder(a, b)),
a^b
); |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #MAXScript | MAXScript | x = getKBValue prompt:"First number"
y = getKBValue prompt:"Second number:"
format "Sum: %\n" (x + y)
format "Difference: %\n" (x - y)
format "Product: %\n" (x * y)
format "Quotient: %\n" (x / y)
format "Remainder: %\n" (mod x y) |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Mercury | Mercury |
:- module arith_int.
:- interface.
:- import_module io.
:- pred main(io::di, io::uo) is det.
:- implementation.
:- import_module int, list, string.
main(!IO) :-
io.command_line_arguments(Args, !IO),
( if
Args = [AStr, BStr],
string.to_int(AStr, A),
string.to_int(BStr, B)
th... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Metafont | Metafont | string s[];
message "input number a: ";
s1 := readstring;
message "input number b: ";
s2 := readstring;
a := scantokens s1;
b := scantokens s2;
def outp(expr op) =
message "a " & op & " b = " & decimal(a scantokens(op) b) enddef;
outp("+");
outp("-");
outp("*");
outp("div");
outp("mod");
end |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #min | min | (concat dup -> ' prepend "$1 -> $2" swap % puts!) :show
("Enter an integer" ask int) 2 times ' prepend
('+ '- '* 'div 'mod) quote-map ('show concat) map cleave |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #.D0.9C.D0.9A-61.2F52 | МК-61/52 | П1 <-> П0
+ С/П
ИП0 ИП1 - С/П
ИП0 ИП1 * С/П
ИП0 ИП1 / [x] С/П
ИП0 ^ ИП1 / [x] ИП1 * - С/П
ИП1 ИП0 x^y С/П |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #ML.2FI | ML/I | MCSKIP "WITH" NL
"" Arithmetic/Integer
"" assumes macros on input stream 1, terminal on stream 2
MCSKIP MT,<>
MCINS %.
MCDEF SL SPACES NL AS <MCSET T1=%A1.
MCSET T2=%A2.
a + b = %%T1.+%T2..
a - b = %%T1.-%T2..
a * b = %%T1.*%T2..
a / b = %%T1./%T2..
a rem b = %%T1.-%%%T1./%T2..*%T2...
Division is truncated to t... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Modula-2 | Modula-2 | MODULE ints;
IMPORT InOut;
VAR a, b : INTEGER;
BEGIN
InOut.WriteString ("Enter two integer numbers : "); InOut.WriteBf;
InOut.ReadInt (a);
InOut.ReadInt (b);
InOut.WriteString ("a + b = "); InOut.WriteInt (a + b, 9); InOut.WriteLn;
InOut.WriteString ("a - b = "); InOut.WriteInt (a - b... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Modula-3 | Modula-3 | MODULE Arith EXPORTS Main;
IMPORT IO, Fmt;
VAR a, b: INTEGER;
BEGIN
a := IO.GetInt();
b := IO.GetInt();
IO.Put("a+b = " & Fmt.Int(a + b) & "\n");
IO.Put("a-b = " & Fmt.Int(a - b) & "\n");
IO.Put("a*b = " & Fmt.Int(a * b) & "\n");
IO.Put("a DIV b = " & Fmt.Int(a DIV b) & "\n");
IO.Put("a MOD b = " & ... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #MUMPS | MUMPS | Arith(first,second) ; Mathematical operators
Write "Plus",?12,first,"+",second,?25," = ",first+second,!
Write "Minus",?12,first,"-",second,?25," = ",first-second,!
Write "Multiply",?12,first,"*",second,?25," = ",first*second,!
Write "Divide",?12,first,"/",second,?25," = ",first/second,!
Write "Int Divide",?12,firs... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Nanoquery | Nanoquery | print "Number 1: "
x = int(input())
print "Number 2: "
y = int(input())
println format("Sum: %d", x + y)
println format("Difference: %d", x - y)
println format("Product: %d", x * y)
println format("Quotient: %f", x / y)
println format("Remainder: %d", x % y)
println format("Power: %d", x ^ y) |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Nemerle | Nemerle | using System;
class Program
{
static Main(args : array[string]) : void
{
def a = Convert.ToInt32(args[0]);
def b = Convert.ToInt32(args[1]);
Console.WriteLine("{0} + {1} = {2}", a, b, a + b);
Console.WriteLine("{0} - {1} = {2}", a, b, a - b);
Console.WriteLine("{0} * ... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #NetRexx | NetRexx | /* NetRexx */
options replace format comments java crossref symbols binary
say "enter 2 integer values separated by blanks"
parse ask a b
say a "+" b "=" a + b
say a "-" b "=" a - b
say a "*" b "=" a * b
say a "/" b "=" a % b "remaining" a // b "(sign from first operand)"
say a "^" b "=" a ** b
return
|
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #NewLISP | NewLISP | ; integer.lsp
; oofoe 2012-01-17
(define (aski msg) (print msg) (int (read-line)))
(setq x (aski "Please type in an integer and press [enter]: "))
(setq y (aski "Please type in another integer : "))
; Note that +, -, *, / and % are all integer operations.
(println)
(println "Sum: " (+ x y))
(println "Di... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Nial | Nial | arithmetic is OP A B{[first,last,+,-,*,quotient,mod,power] A B} |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Nim | Nim | import parseopt, strutils
var
opt: OptParser = initOptParser()
str = opt.cmdLineRest.split
a: int = 0
b: int = 0
try:
a = parseInt(str[0])
b = parseInt(str[1])
except ValueError:
quit("Invalid params. Two integers are expected.")
echo("a : " & $a)
echo("b : " & $b)
echo("a + b : " & $(... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #NSIS | NSIS | Function Arithmetic
Push $0
Push $1
Push $2
StrCpy $0 21
StrCpy $1 -2
IntOp $2 $0 + $1
DetailPrint "$0 + $1 = $2"
IntOp $2 $0 - $1
DetailPrint "$0 - $1 = $2"
IntOp $2 $0 * $1
DetailPrint "$0 * $1 = $2"
IntOp $2 $0 / $1
DetailPrint "$0 / $1 = $2"
DetailPrint "Rounding is toward negative infinity"
IntOp ... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Oberon-2 | Oberon-2 |
MODULE Arithmetic;
IMPORT In, Out;
VAR
x,y:INTEGER;
BEGIN
Out.String("Give two numbers: ");In.Int(x);In.Int(y);
Out.String("x + y >");Out.Int(x + y,6);Out.Ln;
Out.String("x - y >");Out.Int(x - y,6);Out.Ln;
Out.String("x * y >");Out.Int(x * y,6);Out.Ln;
Out.String("x / y... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Objeck | Objeck | bundle Default {
class Arithmetic {
function : Main(args : System.String[]) ~ Nil {
DoArithmetic();
}
function : native : DoArithmetic() ~ Nil {
a := IO.Console->GetInstance()->ReadString()->ToInt();
b := IO.Console->GetInstance()->ReadString()->ToInt();
IO.Console->GetInstance... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #OCaml | OCaml | let _ =
let a = read_int ()
and b = read_int () in
Printf.printf "a + b = %d\n" (a + b);
Printf.printf "a - b = %d\n" (a - b);
Printf.printf "a * b = %d\n" (a * b);
Printf.printf "a / b = %d\n" (a / b); (* truncates towards 0 *)
Printf.printf "a mod b = %d\n" (a mod b) (* same sign as first operand *... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Oforth | Oforth | : integers (a b -- )
"a + b =" . a b + .cr
"a - b =" . a b - .cr
"a * b =" . a b * .cr
"a / b =" . a b / .cr
"a mod b =" . a b mod .cr
"a pow b =" . a b pow .cr
; |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Ol | Ol |
(define a 8)
(define b 12)
(print "(+ " a " " b ") => " (+ a b))
(print "(- " a " " b ") => " (- a b))
(print "(* " a " " b ") => " (* a b))
(print "(/ " a " " b ") => " (/ a b))
(print "(quotient " a " " b ") => " (quot a b)) ; same as (quotient a b)
(print "(remainder " a " " b ") => " (rem a b)) ... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Onyx | Onyx | # Most of this long script is mere presentation.
# All you really need to do is push two integers onto the stack
# and then execute add, sub, mul, idiv, or pow.
$ClearScreen { # Using ANSI terminal control
`\e[2J\e[1;1H' print flush
} bind def
$Say { # string Say -
`\n' cat print flush
} bind def
$ShowPreambl... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Openscad | Openscad | echo (a+b); /* Sum */
echo (a-b); /* Difference */
echo (a*b); /* Product */
echo (a/b); /* Quotient */
echo (a%b); /* Modulus */ |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Oz | Oz | declare
StdIn = {New class $ from Open.file Open.text end init(name:stdin)}
fun {ReadInt}
{String.toInt {StdIn getS($)}}
end
A = {ReadInt}
B = {ReadInt}
in
{ForAll
["A+B = "#A+B
"A-B = "#A-B
"A*B = "#A*B
"A/B = "#A div B %% truncates towards 0
"remainder "#A mod B %% has the sa... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Panda | Panda | a=3 b=7 func:_bbf__number_number_number =>f.name.<b> '(' a b ')' ' => ' f(a b) nl |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #PARI.2FGP | PARI/GP | arith(a,b)={
print(a+b);
print(a-b);
print(a*b);
print(a\b);
print(a%b);
print(a^b);
}; |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Pascal | Pascal | program arithmetic(input, output)
var
a, b: integer;
begin
readln(a, b);
writeln('a+b = ', a+b);
writeln('a-b = ', a-b);
writeln('a*b = ', a*b);
writeln('a/b = ', a div b, ', remainder ', a mod b);
writeln('a^b = ',Power(a,b):4:2); {real power}
writeln('a^b = ',IntPower(a,b):4:2); {integer power}
end. |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Perl | Perl | my $a = <>;
my $b = <>;
print
"sum: ", $a + $b, "\n",
"difference: ", $a - $b, "\n",
"product: ", $a * $b, "\n",
"integer quotient: ", int($a / $b), "\n",
"remainder: ", $a % $b, "\n",
"exponent: ", $a ** $b, "\n"
; |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Phix | Phix | with javascript_semantics
include pGUI.e
Ihandle lab, tab, res, dlg
constant fmt = """
a = %d
b = %d
a + b = %d
a - b = %d
a * b = %d
a / b = %g (does not truncate)
remainder(a,b) = %d (same sign as first operand)
power(a,b) = %g
"""
function valuechanged_cb(Ihandle tab)
string s = IupGetAttribute(tab,"VALUE")
... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Phixmonti | Phixmonti | def printOp
swap print print nl
enddef
8 var a 3 var b
"a = " a printOp
"b = " b printOp
"a + b = " a b + printOp
"a - b = " a b - printOp
"a * b = " a b * printOp
"int(a / b) = " a b / int printOp
"a mod b = " a b mod printOp
"a ^ b = " a b power printOp |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #PHL | PHL | module arith;
extern printf;
extern scanf;
@Integer main [
@Pointer<@Integer> a = alloc(4);
@Pointer<@Integer> b = alloc(4);
scanf("%i %i", a, b);
printf("a + b = %i\n", a::get + b::get);
printf("a - b = %i\n", a::get - b::get);
printf("a * b = %i\n", a::get * b::get);
printf("a / b = %i\n", a::get / b::ge... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #PHP | PHP | <?php
$a = fgets(STDIN);
$b = fgets(STDIN);
echo
"sum: ", $a + $b, "\n",
"difference: ", $a - $b, "\n",
"product: ", $a * $b, "\n",
"truncating quotient: ", (int)($a / $b), "\n",
"flooring quotient: ", floor($a / $b), "\n",
"remainder: ", $a % $... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #PicoLisp | PicoLisp | (de math (A B)
(prinl "Add " (+ A B))
(prinl "Subtract " (- A B))
(prinl "Multiply " (* A B))
(prinl "Divide " (/ A B)) # Trucates towards zero
(prinl "Div/rnd " (*/ A B)) # Rounds to next integer
(prinl "Modulus " (% A B)) # Sign of the first operand
(prinl "Power "... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Piet | Piet |
command stack
in(int) A
duplicate AA
duplicate AAA
duplicate AAAA
duplicate AAAAA
in(int) BAAAAA
duplicate BBAAAAA
duplicate BBBAAAAA
duplicate BBBBAAAAA
duplicate BBBBBAAAAA
push 9 9BBBBBAAAAA
push 1 19BBBBBAAAAA
roll BBBBAAAABA
push 7 7BBBBAAAABA
push 1 17BBBBAAAABA
roll BBBAAABABA
push 5... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #PL.2FI | PL/I |
get list (a, b);
put skip list (a+b);
put skip list (a-b);
put skip list (a*b);
put skip list (trunc(a/b)); /* truncates towards zero. */
put skip list (mod(a, b)); /* Remainder is always positive. */
put skip list (rem(a, b)); /* Sign can be negative. */ |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Plain_English | Plain English | To run:
Start up.
Demonstrate integer arithmetic.
Wait for the escape key.
Shut down.
To demonstrate integer arithmetic:
Write "Enter a number: " to the console without advancing.
Read a number from the console.
Write "Enter another number: " to the console without advancing.
Read another number from the console.
Sho... |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #Pop11 | Pop11 | ;;; Setup token reader
vars itemrep;
incharitem(charin) -> itemrep;
;;; read the numbers
lvars a = itemrep(), b = itemrep();
;;; Print results
printf(a + b, 'a + b = %p\n');
printf(a - b, 'a - b = %p\n');
printf(a * b, 'a * b = %p\n');
printf(a div b, 'a div b = %p\n');
printf(a mod b, 'a mod b = %p\n'); |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #PostScript | PostScript | /arithInteger {
/x exch def
/y exch def
x y add =
x y sub =
x y mul =
x y idiv =
x y mod =
x y exp =
} def |
http://rosettacode.org/wiki/Arithmetic/Integer | Arithmetic/Integer |
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |... | #PowerShell | PowerShell | $a = [int] (Read-Host First Number)
$b = [int] (Read-Host Second Number)
Write-Host "Sum: $($a + $b)"
Write-Host "Difference: $($a - $b)"
Write-Host "Product: $($a * $b)"
Write-Host "Quotient: $($a / $b)"
Write-Host "Q... |
http://rosettacode.org/wiki/Arrays | Arrays | This task is about arrays.
For hashes or associative arrays, please see Creating an Associative Array.
For a definition and in-depth discussion of what an array is, see Array.
Task
Show basic array syntax in your language.
Basically, create an array, assign a value to it, and retrieve an element (if available,... | #11l | 11l | [Int] array
array.append(1)
array.append(3)
array[0] = 2
print(array[0]) // retrieve first element in an array
print(array.last) // retrieve last element in an array
print(array.pop()) // pop last item in an array
print(array.pop(0)) // pop first item in an array
V size = 10
V myArray = [0] * size // create single-... |
Subsets and Splits
Rosetta Code Task Comparisons
Identifies tasks common to both COBOL and Python languages that are described as having difficulty levels, revealing cross-language task similarities and providing useful comparative programming examples.
Select Specific Languages Codes
Retrieves specific programming language names and codes from training data, providing basic filtering but limited analytical value beyond identifying these particular languages.