# Display numbers from 1 to 100 without loops or conditions [closed]

Is there a way to print numbers from 1 to 100 without using any loops or conditions like "if"? We can easily do using recursion but that again has an if condition. Is there a way to do without using "if" as well? Also no repetitive print statements, or a single print statement containing all the numbers from 1 to 100.

A solution in Java is preferable.

-

## locked by Flexo♦Sep 3 '13 at 7:18

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## closed as off-topic by Flexo♦Sep 3 '13 at 7:16

This question appears to be off-topic. The users who voted to close gave this specific reason:

• "Questions asking for code must demonstrate a minimal understanding of the problem being solved. Include attempted solutions, why they didn't work, and the expected results. See also: Stack Overflow question checklist" – Flexo
If this question can be reworded to fit the rules in the help center, please edit the question.

Pseudo code. Uses an array to force an exception after 100 elements which is caught and does nothing.

``````function r(array a, int index){
a[index] = a[index-1]+1
print a[index]
r(a, index+1)
}

try{
array a;
a.resize(101)
r(a, 1)
}catch(OutOfBoundsException){
}
``````

EDIT
Java code:

``````public void printTo100(){
int[] array = new int[101];
try{
printToArrayLimit(array, 1);
}catch(ArrayIndexOutOfBoundsException e){
}
}
public void printToArrayLimit(int[] array, int index){
array[index] = array[index-1]+1;
System.out.println(array[index]);
printToArrayLimit(array, index+1);
}
``````
-
a.fill(101) is unecessary, just set a[index]=0 and print index. Of course, this still uses an 'if' statement internally in the JVM... – BlueRaja - Danny Pflughoeft Jan 11 '10 at 19:01
A recursive loop is still a loop... – Jorn Jan 11 '10 at 23:04
@Jorn no it isn't. They are two different things. – Yacoby Jan 12 '10 at 18:05
Does try/catch count as a conditional statement? It's like saying "if there was an exception..." – Dan Burton Dec 31 '10 at 20:53
``````public class Test {

static int x = 0;
public static void main(String[] args) {

printTo100();

}
public static void printTo100(){
if(x<=100)
{
System.out.println(x+"");
x++;
printTo100();
}

}

}
``````
-
``````public class nub
{

static int i=1;

public static void main(String...a)
{

if(i<=1000)//suppose my range is 10000
{
System.out.println(i);
i++;
main();
}

}

}
``````
-
``````List<Integer> list = new AbstractList<Integer>() {
public int size() { return 100; }
public Integer get(int i) { return i + 1; }
};
System.out.println( list.toString() );
``````
-
``````public class Run3
{
public static void number(int i)
{
if(i==100)
{
return;
}
else
{
i++;
System.out.println(i);
number(i);
}
}
public static void main(String[] args)
{
number(0);

}
}
``````
-
hmm .. is it just me or is there an if in your code? – kleopatra Apr 22 '13 at 19:27

//Descending Order

``````class Test {
int count = 101;

public void printNo() {
try {
count = count--;
int nw = count / count; // to prevent printing zero
int[] array = new int[count];
System.out.println(array.length);
printNo();
} catch (Exception e) {
System.out.println("DONE PRINTING");
}
}

public static void main(String[] args) {
Test objTest = new Test();
objTest.printNo();
}
}
``````
-
``````public class PrintUptoHundredWithoutIf {
public static void main(String[] args) {
t.setDaemon(true);
t.start();
sleep((NUMBERS_TO_PRINT * SLEEP_PERIOD_IN_MILLIS)
+ OS_SLEEP_RESPONSE_IN_MILLIS);
}

private static final int SLEEP_PERIOD_IN_MILLIS = 1000;
private static final int NUMBERS_TO_PRINT = 100;
private static final int OS_SLEEP_RESPONSE_IN_MILLIS = 110;

public void printUptoHundred(byte seq) {
int posVal = Math.abs(~seq);
System.out.println(posVal);
sleep(SLEEP_PERIOD_IN_MILLIS);
printUptoHundred((byte) posVal);
}

return new Runnable() {
@Override
public void run() {
new PrintUptoHundredWithoutIf().printUptoHundred((byte) 0);
}
};
}

private static void sleep(int millis) {
try {
} catch (Exception e) {
e.printStackTrace();
}
}
}
``````
-

You don't need array's. You can do that with recursion.
Try this:

``````public class TestFile {
/**
* @param args
*/
public static void main(String[] args) throws Exception {
TestFile f = new TestFile();
f.print(100);
}

public void print(int x) {
if (x > 0) {
System.out.println(x);
x--;
print(x);
}
}
}
``````
-

Check out the Divide + Conquer answer from the C# thread. It's evil, but brilliant:

How to print 1 to 100 without any looping using C#

Here is the Java version:

``````public class Application {

public static void main(String[] args) {
Print64Numbers();
Print32Numbers();
Print4Numbers();
}

private static int currentNumber = 0;

private static void Print1Number() { System.out.println(++currentNumber); }
private static void Print2Numbers() { Print1Number(); Print1Number(); }
private static void Print4Numbers() { Print2Numbers(); Print2Numbers(); }
private static void Print8Numbers() { Print4Numbers(); Print4Numbers(); }
private static void Print16Numbers() { Print8Numbers(); Print8Numbers(); }
private static void Print32Numbers() { Print16Numbers(); Print16Numbers(); }
private static void Print64Numbers() { Print32Numbers(); Print32Numbers(); }
}
``````
-

Here's a solution that seems very simple compared to what has been posted so far. It uses short-circuit evaluation to end recursion:

``````public class Foo {
static int x = 1;
public static void main(String[] args) {
foo();
}

private static boolean foo() {
System.out.println(x++);
return x > 100 || foo();
}
}
``````
-

As I said there: How to print 1 to 100 without any looping using C#

``````public static void f(int[] array, int n)
{
System.out.println(array[n] = n);
f(array, n + 1);
}
public static void main(String[] args) {
try { f(new int[101], 1); }
catch (Exception e) { }
}
``````
-

Does Clojure count because it runs on the JVM?

``````(range 1 101)
``````

or:

``````(take 100 (iterate inc 1))
``````

Both work directly at the REPL (which includes an implied print).

-
``````public class Main {
// prints 2 numbers starting from i
private static void print2(int i) {
System.out.println(i);
System.out.println(i+1);
}
// prints 10 numbers starting from i
private static void print10(int i) {
print2(i);
print2(i+2);
print2(i+4);
print2(i+6);
print2(i+8);
}
// prints 20 numbers starting from i
private static void print20(int i) {
print10(i);
print10(i+10);
}
// prints 100 numbers starting from i
private static void print100(int i) {
print20(i);
print20(i+20);
print20(i+40);
print20(i+60);
print20(i+80);
}

public static void main(String[] args)  {
print100(1);
}

}
``````

Or (among other many alternatives) :

``````public class Main {
private static void print1(int i) {
System.out.println(i);
}
private static void print4(int i) {
print1(i);
print1(i+1);
print1(i+2);
print1(i+3);
}
private static void print16(int i) {
print4(i);
print4(i+4);
print4(i+8);
print4(i+12);
}
private static void print64(int i) {
print16(i);
print16(i+16);
print16(i+32);
print16(i+48);
}

public static void main(String[] args) throws Exception {
print64(1);
print16(1+64);
print16(1+64+16);
print4(1+64+32);
}

}
``````
-
`````` system("seq 1 100");
``````

in C will give the desired result. Find the equivalent Java call to run a shell command.

-

This answer is perverse enough that it doesn't even look like it will run. ;)

It gets extra text at the end of the output, but it avoid loops, conditions, main() and println(). ;)

``````public class OneHundred {
private static int i = 1;
static {
OneHundred[] hundreds = new OneHundred[100];
Arrays.fill(hundreds, new OneHundred(););
clear("Exception in thread \""); clear("\" ");
}
private static void clear(String string) {
try {
Field f = String.class.getDeclaredField("count");
f.setAccessible(true);
f.set(string, 0);
} catch (Exception ignored) { }
}
public String toString() { return "" + i++; }
}
``````
-

In C++:

``````#include <iostream>

class a {
static unsigned i;

public:
a() {
std::cout << ++i << std::endl;
}
};

unsigned a::i = 0U;

int main() {
a array[100];
}
``````

This solution neither uses loops nor recursion for printing numbers from 1 to 100.

-

Didn't see this in here, using the termination order of the `&&` operator.

``````public class count100 {

public static boolean loop(int i) {
System.out.println(100-i);
return i > 0 && loop(i-1);
}

public static void main(String[] args) {
loop(99);
}
}
``````
-

``````public class To100 {
public static void main(String[] args) {
String set = new java.util.BitSet() {{ set(1, 100+1); }}.toString();
System.out.append(set, 1, set.length()-1);
}
}
``````

(You can use `String.replaceAll` to change the separator. For instance, `.replaceAll(", ", " ")` for space separation.)

Explanation:

• `java.util.BitSet` is a handy little class that represents an arbitrarily large (non-sparse) set of positive integers. (It does have so bad bits: not final, unnecessarily thread-safe, doesn't support building well, etc.)ta.
• Extends `BitSet` allows me to write `java.util` only once. The JDK7 "diamond operator" should help reduce duplication with generic types, but no help for the more common situation. :(
• The double braces are the Double Brace idiom - an anonymous inner class containing only an instance initialiser. It is a hack. It increase runtime size, and hence start-up time. Distribution size is negligible if you use pack200.gz. I think the modern world is ready for it. Your colleagues may not be. Perhaps start by using it for test da
• `BitSet.set` sets a bit in the set (two completely different meanings of the word "set" there - I like it). It's a half-open range - the top value exclusive; the bottom inclusive. Add 1 to the top to include 100.
• `BitSet.toString` is actually precisely defined by the API docs.
• `append` was added to `PrintStream` with the introduction of the `Appendable` interface in J2SE 5.0. It essentially does a substring and prints the result. (A little secret: this isn't actually guaranteed by the spec to flush the output, but implementations always will.)
• Starting the append at 1, and taking one off the length strips the braces from the string representation of `BitSet`.
• "Know your libraries." Taken from Josh Bloch. See Java Puzzlers, puzzle 94. It really is good to know what is in the libraries. At least know where to look. Save your time, save maintenance time and get it right first time.
-
I'd like to upvote this a few more times because other than truppo's ridiculous answer, it is the only one that doesn't use a control structure. Yes, try/catch is a control structure. – iandisme Jan 11 '10 at 19:21
Can someone explain how does the above code work? – Thunderhashy Jan 11 '10 at 22:04
It's relying on BitSet's toString() to iterate though all 100 values. While this is clever answer, I think truppo's is more straighforward and understandable. – Steve Kuo Jan 12 '10 at 0:21
it's a clever solution, although I'd say using a library that uses loops and/or conditionals to do the job might not be in the spirit of the question – Peter Becker Jan 12 '10 at 0:23
@Hashsha: Much better, I'll give you the docs: java.sun.com/javase/6/docs/api/java/util/… java.sun.com/javase/6/docs/api/java/util/… – OscarRyz Jan 12 '10 at 3:05

Ok, I'm late on this and an answer is already accepted, but I wonder why nobody has used a clean and simple counter yet?

``````public class Counter
{
static Counter[] vtab = new Counter[]
{
new Counter(),
new Counter() { public void print( int first, int last ) {} }
};

public void print( int first, int last )
{
vtab[ ( last - first - 1 ) >>> 31 ].print( first, last - 1 );
System.out.println( last );
}

public static void main( String[] args )
{
vtab[ 0 ].print( 1, 100 );
}
}
``````

Thread safe, configurable, no exceptions, no dependance on API side effects, just plain OOP and some trivial math.

For those not familiar with binary operators here is how it works:

• The `( x >>> n )` expression moves all bits of the integer value `x` to the right by `n` places. Lower bits simply fall off the right side by this operation and new bits that come in from the left side are always `0`.

• So the effect of `( x >>> 31 )` is to move the highest bit of `x` to the lowest place and to set all other bits of `x` to `0`. The result is now always either `0` or `1` for all possible values of `x`.

• As the highest bit of an `int` is the sign bit which is `0` for positive values and `1` for negative values, the expression `( x >>> 31 )` evaluates to `0` for all positve values of `x` and to `1` for all negative values of `x`.

• Now if both `first` and `last` are positive numbers and if `last` is greater than `first`, the result of `( last - first - 1 )` will be `>= 0` and if `last == first` it will be `-1`.

• So `( ( last - first - 1 ) >>> 31 )` evaluates to `0` if `last` is greater than `first` and becomes `1` if they are equal.

Now this value `0/1` is used to switch between the 2 implementations of `print( int first, int last )` based on the comparision of `first` and `last`. At first the recursion takes place without printing anything. `print( 1, 100 )` calls `print( 1, 99 )` and so on... until `last` equals `first` which causes a switch to the other implementation of `print` which in turn does nothing at all. So now the stack unwinds again and the values are printed on the way down in ascending order and the invocation of `vtab[ 0 ].print( 1, 100 )` finishes normally.

-

i would think there would be a java equivalent to something like the following php

``````\$my_numbers = range(0,100);
echo implode(\$my_numbers, ' ');
``````

this avoids recursion, loops, control statements, etc.

-

My solution without verbosity. It doesn't use any control structure other than function application. It also doesn't use library code to help out. My code is easily extensible to print out the range [a, b]. Just change `conts [n / 100]` to `conts [(n - a) / (b - a)]` and of course change `new Printable (1)` to `new Printable (a)`.

To100.java:

``````class Printable {
private static final Continuation[] conts = {new Next (), new Stop ()};

private final int n;
private final Continuation cont;

Printable (int n) {
this.n = n;
this.cont = conts [n / 100];
}

public void print () {
System.out.println (n);
cont.call (n);
}
}

interface Continuation {
public void call (int n);
}

class Next implements Continuation {
public void call (int n) {
new Printable (n + 1).print ();
}
}

class Stop implements Continuation {
public void call (int n) {
// intentionally empty
}
}

class To100 {
public static void main (String[] args) {
new Printable (1).print ();
}
}
``````

EDIT: Since this question was closed (why???) I'll post my second answer here. It is inspired by Tom Hawtin's notice that the program doesn't have to terminate. Also the question doesn't require that only the numbers 1-100 are printed (or even in order).

To100Again.java:

``````class To100Again extends Thread {
private static byte n;
public void run () {
System.out.println (n++);
new To100Again ().start ();
System.gc();
}
public static void main (String[] args) {
new To100Again ().start ();
}
}
``````
-

No conditions (no short-cut boolean operators, no ?-operator, no exceptions), no loops:

``````import java.util.Vector;

public class PrintOneToHundered {
static int i;
PrintOneToHundered() {}
public String toString() { return ++i+""; }
public static void main(String[] args) {
Vector v1  =new Vector(); v1  .add(new PrintOneToHundered());
System.out.println(v100);
}
}
``````

Explanation:

• define a class, whose toString-method returns consecutive ints at repeated calls
• create a vector with 100 elements, that are instances of the class
• print the vector (toString-method of a Vector returns a string of the toString-values of all its elements)
-

This example uses no conditions and no exceptions.
(There is a kind of hidden condition in the short-circuit OR).
Loops are avoided by using recursion.

``````public class OneToHundered {

public static boolean exit() {
System.exit(0);
return true;
}

public static boolean printToHundered(int i) {
boolean r;
System.out.println(i);
r = (i<100) || exit();
printToHundered(i+1);
return r;
}

public static void main(String[] args) {
printToHundered(1);
}
}
``````
-
This uses short circuit OR. I would prefer something without using any sort of conditional expressions. – Thunderhashy Jan 12 '10 at 0:18

Or if you like to use reflection :-)

``````public class Print100 {

public static void emit0(int index) throws Exception {
System.out.println(index);

String next = new StringBuilder()
.append("emit")
.append(index / 100)
.toString();

Print100.class.getMethod(next, Integer.TYPE)
.invoke(null, index+1);
}

public static void emit1(int index) {

}

public static void main(String[] args) throws Exception {
emit0(1);
}

}
``````
-
Nice one, although I don't think you need to print 0 and also note that StringBuilder is overkill here. – CurtainDog Jan 12 '10 at 2:02

And then God invented Perl (larry wall actually invented it.. :-)

``````#!/usr/bin/perl
@range = 1..100;
print @range;
``````
-
Do you mean "God invented Perl ... Larry Wall actually implemented it"? – Andrew Grimm Jan 12 '10 at 22:16
Also no repetitive print statements,or a single print statement containing all the numbers from 1 to 100. – Puppy May 15 '10 at 17:41

``````public class To100 {
public static void main(String[] args) {
final int max = 100;
new java.util.concurrent.Semaphore(max) {
void go() {
acquireUninterruptibly();
System.err.println(max-availablePermits());
go();
}
}.go();
}
}
``````

Explanation:

• `Semaphore` allows a specified number of permits to be acquired before blocking.
• I didn't want to write `java.util.concurrent` twice, so I opportunistically extended `Semaphore`.
• This uses an anonymous inner class. Anonymous does not mean it is not a type. I can therefore call a method on it that is not declared in a base type/implemented interface.
• `acquireUninterruptibly` means I don't have to declare pesky checked exceptions.
• Nobody said the program had to terminate.
-

Does it have to be Java? If ruby's allowed:

``````puts [*1..100].join("\n")
``````

I'd like to see anything this concise in Java.

-
Isn't ruby a higher level language than Java? – Andrew Grimm Jan 12 '10 at 0:35
Making the Java vs Ruby argument is comparing apples to oranges. – gpampara Jan 12 '10 at 5:37

Yes, it's possible, but it's terrible. There's any number of ways that will use either recursion or nested type creation, with exception handling for flow control. This has no real-world application IMO and should be avoided in real code at all costs.

Here's an example that uses recursive type instantiation with exception handling to control termination. It print the number is descending order, but that would be trivial to change to ascending, by just subtracting 99 (or whatever constant) from the value being printed.

``````class PrintVal
{
// called with a list containing as many items as you want, less one...
public PrintVal( List<int> items )
{
System.out.println(items.size()+1);  // print the size of the list
try {
items.remove( items.size()-1 );  // will throw when items is empty
new PrintVal( items );
}
catch( Exception ) { /* swallow and terminate */ }
}
}

// setup and invocation that performs the output
ArrayList<int> strList = new ArrayList<int>( new int[99] );
PrintVal instance = new PrintVal( strList );  // all output happens here
``````
-

This reminds me of programming my TI-55 years and years ago. It had 32 programmable instruction steps, and a RESET instruction that would jump to instruction zero, so simple looping could be implemented. The problem was getting it to stop, which boiled down to getting it to do an operation that caused an error, e.g., divide by zero.

Thus:

``````public static void main(String[] args)
{
printN(100);
}

private static void printN(int n)
{
try
{
int  t = 1/n;    // Exception when n is 0
printN(n-1);     // Recurse, down to 0
System.out.println(n);
}
catch (Exception ex)
{
// Stop recursing
}
}
``````

Note: Yes, I know this is similar to @Yacoby's solution.

-

I'm a .Net developer but I would guess there's a Java equivalent of this...

``````static int i = 1;
static System.Timers.Timer timer = new System.Timers.Timer();

static void Main(string[] args)
{
timer.Interval = 10;  //milliseconds
timer.Elapsed += new ElapsedEventHandler(timer_Elapsed);
timer.Enabled = true;
timer.Start();

//let the timer complete... (3000 to show the output stops)