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Question: input an int number ex: ABCD, verify that is ABCD = AB*CD or not

(note that we don't how many digits this number got, just know it is an positive integer

and yes, it the number of digits is odd we can conclude result is No, immediately by... eye lol)

for example:

    Enter a number: 88
    Output: No

    Enter a number: 12600
    Output: No

    Enter a number: 116725
    Output: Yes, 116 * 725 = 116725 (**this is just example, 

not actual result, just help to understand how output look like**)

Problem is that, you can't use array, jump and bitwise in order to solve this. Yes, if we can use array then not much to say, put input number in an array, check first half multiply other half....bla..bla... I need help with IDEA without using array to solve this problem, right now I'm stuck! Thank you guy very much!

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closed as too localized by Lundin, Daniel Daranas, Joni, K-ballo, Flexo May 8 '12 at 12:49

This question is unlikely to help any future visitors; it is only relevant to a small geographic area, a specific moment in time, or an extraordinarily narrow situation that is not generally applicable to the worldwide audience of the internet. For help making this question more broadly applicable, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

That last example doesn't work! – LaceySnr May 8 '12 at 7:29
116725 is not the the same as 161725! – LaceySnr May 8 '12 at 7:36
Just a warning: when the teacher tells you "you can't use feature x to solve this problem" is usually an indication of that the programming course is a bad one. Vote to close still "you can't use..." is a requirement that will not help any future readers of this post. – Lundin May 8 '12 at 8:35
-1 on the above comment. No doubt the teacher has also said, "you can't use Java" (or would if asked). Restrictions on the tools/techniques you can use do not "usually" indicate a bad course, they indicate a course that's about the tools and techniques you can use. In this case, I think the lesson is that you can manipulate digits in base 10 using arithmetic operations. Permitting students to not learn the lesson at hand, just because they've thought of some other way to do it, isn't universally a good idea. – Steve Jessop May 8 '12 at 8:44
LOL, my opinion is that nothing ridiculous or funny joke there, both question and answers could be right or not quite right or even wrong, who cares? question can given some thing that is wrong and ask you to prove that, what you mean by "wrong question"? – Ronaldinho Learn Coding May 8 '12 at 9:29
up vote 7 down vote accepted

A little hint to your 6 digits number:

  • to get last 3 digits use % 1000
  • to get first 3 digits use (int) X/1000.

Notice that 1000 == 10^3.

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And if it isn't always six digits you can multiply or divide by 10 until you get the correct number of digits. – dutt May 8 '12 at 7:34
You can determine number of digits using logarithm: (int)floor(log((double)n) / log(10.0) + 1.0); – demi May 8 '12 at 8:28
Good point @demi, +1 – IProblemFactory May 8 '12 at 8:32
Don't see how this is the accepted answer. It's more of a comment – keyser May 8 '12 at 9:50
+1. this is the correct answer because OP wants help with the IDEA ~any more than this would be doing the homework, duh – violet313 May 8 '12 at 14:29

Your program can safely output No for every input. Proof:

You are looking for integers A and B such that A*B = A*10^k + B, with A and B > 0 and B < 10^k.

If A*B = A*10^k + B, then B = 10^k + B/A > 10^k. But B had to be less than 10^k, so this is a contradiction. Therefore no such A and B exist.

A longer proof:

You are looking for integers A and B such that A*B = A*10^k + B, with A and B > 0 and B < 10^k.

Subtract B from both sides to get (A-1)*B = A*10^k.

Since A is a factor in the right hand side it is also a factor in the left hand side. But A and A-1 are coprime, so A must divide B. So, B = n*A for some integer n.

Now we have A*B = A*10^k + n*A, or A*B = (10^k + n)*A. Since A > 0 we can divide both sides by A to get B = 10^k+n. But this is impossible since B was supposed to be less than 10^k!

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+1. A shorter proof: you're looking for A and B positive integers such that A * 10^k + B == A * B, with 10^k > B. This is impossible since A * 10^k + B > A * 10^k > A * B. – Steve Jessop May 8 '12 at 8:41
@JoniSalonen However, since you omitted the word "positive", look out for inputs like 00. – Mr Lister May 8 '12 at 8:57
@MrLister: It's traditional when mathematicians do these puzzles, to say that all numbers must be written in their canonical form, no leading zeroes (unless the number is exactly 0). Hence A != 0, and the rest follows. But you're right, this question doesn't bother specifying the input format, so maybe 00 should be considered a pass, and for that matter maybe so should 0x0000 (with A == 0x0 and B == 000). – Steve Jessop May 8 '12 at 9:35
Well spotted, I'm getting rusty.. Going to update with a proof based on a similar argument. @MrLister by "A and B > 0" I mean both A > 0 and B > 0, maybe I should have spelled it out.. – Joni May 8 '12 at 10:47
Computer says No – wim May 9 '12 at 6:06

Write a program that asks for the input and then prints "No".


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hah :) not very constructive, but I like your attitude – keyser May 8 '12 at 9:27
It's true though. See Joni's answer for proof. – Mr Lister May 8 '12 at 9:35
Yeah, I know :p – keyser May 8 '12 at 9:49

It's not too clear what you're trying to do. ABCD == AB*CD suggests four digit numbers. For a four digit number x, a test for the above would be x == (x / 100) * (x % 100). For a six digit number, replace 100 with 1000, and more generally, for an n digit number, where n is even, use 10^(n/2). If n is odd, however, I'm not sure what you're looking for, and the last example you give doesn't meet the criteria you mention; if you can permutate the digits in each half, the problem then becomes more complex.

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"for a n digit number, where n is odd..." Did you mean "even"? – jrok May 8 '12 at 7:52
Yes. I'll correct it. – James Kanze May 8 '12 at 8:12
no permutation of digits in each half there – Ronaldinho Learn Coding May 8 '12 at 8:16
Hey James, if we can permutate the digits in each half, so you have any idea to solve that? Mine is use 4 link lists, 1-2 to store digits of each half and 3-4 to store permutation of them, then N divide each node of linked list 3 compare that result to every node of list 4 – Ronaldinho Learn Coding May 9 '12 at 3:31
@LongBodie In such a case, I'd use an array of the digits, for each side, and std::next_permutation. (I know that the original question said no arrays, but I suspect that any other solution will be significantly more complicated.) – James Kanze May 9 '12 at 7:23

You can read a string, split it in the middle and convert the both parts to an int.

You could also read an int, calculate the number of digits (writing your own loop or using the log function) and split the int after the calculated number of digits.

You can also write a loop that is taking an int ABCD, splitting it into ABC and D and moving the digits from ABC to D while the both have not the same number of digits (you do not need to calculate the number of digits here, there is a quite easy comparison you can do).

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To get the number of digits, count how many times you had to divide the number by 10 until it gets smaller than 1.

For 116725, you would need to divide by 10 six times. After that you can print no if the number is odd or calculate the result like James Kanze and ProblemFactory described.

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Here's a complete "C/C++" solution:

#include <stdio.h>

int main(void) {
    while (fgetc(stdin) != '\n');
    return puts("No.");
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@LongBodie ~i like to imagine you handing this in as your completed assignment; & to imagine the gritted-teeth smile the teacher flashes you when it gets handed back. heh. – violet313 May 8 '12 at 14:35

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