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int modx = 101;
int xy = -4/-3;
int answer = xy%modx;
System.out.println("answer= "+answer);

The program return me the answer 1 but when i check the answer in "PARI GP" the answer should be 35.

What should I do to get the answer 35 in java implementation?

using Extended Euclidean algorithm, (**3**,101) we get (101*1) + (3*34)
GCD = 1

-4/-3 = 4/3
34*4 = 136
136%101 = 35

that is the best I could explain this

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closed as not a real question by duffymo, EJP, antony.trupe, Jaguar, Andrew Barber May 1 '13 at 18:59

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

Best question is why should it return that value (35). If (int)-4/(int)-3 = 1 and 1%101 = 1. I wouldn't expect anything different from 1. –  skuntsel Apr 30 '13 at 8:06
You should explain why you think that (-4/-3) mod 101 ought to be 35. I can't think of any way that it could be ... –  Stephen C Apr 30 '13 at 8:07
If you want 35, do this - int xy = -105/-3; Otherwise, be happy with the ONE. –  R.J Apr 30 '13 at 8:10
if pari gp return 35 then stop using pari gp because that is very very wrong. Possibly pari gp uses % to mean something else? Or you put your brackets in the wrong place –  Richard Tingle Apr 30 '13 at 8:17
136%101 is not the same as 1%101 !!! –  NINCOMPOOP Apr 30 '13 at 8:20

4 Answers 4

According to the JLS ,

The remainder operation for operands that are integers after binary 
numeric promotion (§5.6.2) produces a result value such that 
(a/b)*b+(a%b) is equal to a.

So, your expression xy%modx(1%101) should obey the relationship stated above, if you substitute the values you will see that to obey this relationship , (1%101) has to be 1.

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PARI GP does not follow the convention of modular arithmetics. Modulus can only be used with integer values, that's why java will cast

-4/-3 to (int) 1

As you can see

1 % 101 = 1

So java is giving you back the correct answer...

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There is no way to get (-4/-3) mod 101 to be 35 in Java. Or in any sensible arithmetic system ... AFAIK.

If you want a better answer, please explain how it could be 35 ... or show us how you got "PARI GP" to give you that answer. (I suspect that what is really going on here is that you are using "PARI GP" incorrectly.)

You wrote:

I merely typed -4/-3%101 and the answer equal 35

In fact, the PARA/GP cheat-sheet says this:

"output previous line, the lines before:    %, %`, %``, etc."

So "%" in Para GP does not mean modulus / remainder at all. Basically, what you typed in means something completely different to what you think it means.

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I have edited the question to explain the 35 to the best i can think of –  newbieprogrammer Apr 30 '13 at 8:20
You have introduced a new expression now 136%101 !!! –  NINCOMPOOP Apr 30 '13 at 8:21
"Or in any sensible arithmetic system" Well, the modulo formulation is a bit icky, but in the field Z/(101) - where the arithmetic is arithmetic modulo 101 - you indeed have (-4)/(-3) = 35 [since (-3)*(-34) = 1 (mod 101), (-4)/(-3) = (-4)*(-34) = 136 = 35 (mod 101)]. Galois fields are sensible arithmetic systems. I find it not unbelievable (though surprising, admittedly) that a system for (among other things) symbolic computations would interpret it that way. –  Daniel Fischer Apr 30 '13 at 9:59
@DanielFischer - OK. But the point is that he has misunderstood the PARA/GP language. I admit that I was unable to read the PARA GP manuals ... due to the stupid way they are presented. (The font metrics are all wrong when displayed on my system, and that makes the text unreadable.) –  Stephen C Apr 30 '13 at 10:43
Oh, yes, I'm not denying that. Just that OP's attempt at explaining it makes sense. –  Daniel Fischer Apr 30 '13 at 10:47

I think this stems from not understanding the definition of modulus. In a deliberatly non mathematically rigerous way:

Modulus means how much is left after you take away as many whole amounts of a specified number, so:

No 5s go into 1 so answer is 1

1 lot of 5 goes into 7, so 7-1*5=2

5 lots of 5 go into 16, so 16-3*5=1

This is how modulus works, from this it is clear that:

No 101s go into 1.3333, so answer is 1.3333 (or 1 if you let java round to 1 first)
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