# Difference between int CompareTo method and ordinary If condition?

I have tried the comparison for two integer values by using two types

Type 1 :

int val1 = 1;
int val2 = 2;

var returnValue = val1.CompareTo(val2);//-1 for First int is smaller.
varreturnValue = val2.CompareTo(val1);// 1 for First int is larger
varreturnValue = val1.CompareTo(val1);//0 for Ints are equal.

If(varreturnValue ==1)
{
//Success
}
else
{
//Failure
}

Type 2:

int val1 = 1;
int val2 = 2;

if (val1 < val2)
{
//return -1 //Failure
}
else if (val2 < val1)
{
//return 2 //Success
}
else
{
// return 0  // Same
}
• What is the difference these methods?

• Which one(type) is better for standard coding .. ?

• Any difference for performance in the types ?

-
For your use case - there's no real difference. But CompareTo may be used via interface, IComparable<T>, which is useful when you have a constrained generic type and want do to comparisons (hint: ordered collections, e.g. binary trees etc.). < or > wouldn't work then. – Patryk Ćwiek Dec 14 '13 at 12:02

When I take a peek at the internals of int's CompareTo() method (using ReSharper), I see this:

public int CompareTo(int value)
{
if (this < value)
return -1;
return this > value ? 1 : 0;
}

So it would appear, in the case of an int anyway, that the CompareTo() function is doing exactly what your second example does.

If we remove the ternary operator, it looks identical to your example:

public int CompareTo(int value)
{
if (this < value)
return -1;

if (this > value)
return -1;

return 0;
}
-
But here we need another one condition for return value of comparto method. Is it good? – Ramesh Rajendran Dec 14 '13 at 12:02
I'm not sure what you mean by "condition" Ramesh. Do you mean the comparisons it's doing? It's doing the same number of comparisons as you're second example. – Grant Winney Dec 14 '13 at 12:07
I mean . If we used the comparto method, Then we need to check condition for -1 or 1 or 0 for find big and less values . – Ramesh Rajendran Dec 14 '13 at 12:09
It's doing the same amount of checks as yours. If the first comparison is true, it immediately returns -1 without further checks, just like the else if statements are doing in your code. – Grant Winney Dec 14 '13 at 12:13
+1 for shown the method , Nice one ! Thanks for your suggestion ;) – Ramesh Rajendran Dec 14 '13 at 12:18

In my opinion, the CompareTo method is good in case you need to separate the logic that checks for equality and another logic that uses the result from the comparison. In your example, when you do your code like:

int val1 = 1;
int val2 = 2;

if (val1 < val2)
{
//return -1 //Failure
}
else if (val2 < val1)
{
//return 2 //Success
}
else
{
// return 0  // Same
}

You cannot return to another function the comparison result. Here is the code extracted from msdn:

enum Comparison {
LessThan=-1, Equal=0, GreaterThan=1};

public class ValueComparison
{
public static void Main()
{
int mainValue = 16325;
int zeroValue = 0;
int negativeValue = -1934;
int positiveValue = 903624;
int sameValue = 16325;

Console.WriteLine("Comparing {0} and {1}: {2} ({3}).",
mainValue, zeroValue,
mainValue.CompareTo(zeroValue),
(Comparison) mainValue.CompareTo(zeroValue));
}
}

In this case, the comparison result is represented as an enum and can be passed between functions.

Another case is you could even serialize the comparison result over the wire as a numeric value (-1,0,1) (return value of an ajax call, for example)

There may be not much thing to do with numeric comparison like this, but as noted by Patryk Ćwiek in his comment. CompareTo may be used via interface, which can be implemented by other datatypes including your custom ones.

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Yup. You is good . But console window show 1 and -1. we need to show another condition for greater value. So is good? – Ramesh Rajendran Dec 14 '13 at 12:29
@Ramesh Rajendran: See my updated answer. This is helpful when you implement comparison for your custom datatypes and use the same interface for comparison. – Khanh TO Dec 14 '13 at 12:36