345

I have always wondered if, in general, declaring a throw-away variable before a loop, as opposed to repeatedly inside the loop, makes any (performance) difference? A (quite pointless) example in Java:

a) declaration before loop:

double intermediateResult;
for(int i=0; i < 1000; i++){
    intermediateResult = i;
    System.out.println(intermediateResult);
}

b) declaration (repeatedly) inside loop:

for(int i=0; i < 1000; i++){
    double intermediateResult = i;
    System.out.println(intermediateResult);
}

Which one is better, a or b?

I suspect that repeated variable declaration (example b) creates more overhead in theory, but that compilers are smart enough so that it doesn't matter. Example b has the advantage of being more compact and limiting the scope of the variable to where it is used. Still, I tend to code according example a.

Edit: I am especially interested in the Java case.

3
  • This matters when writing Java code for the Android platform. Google suggests that for time-critical code to declare incrementing variables outside of a for-loop, as if inside the for-loop, it re-declares it each time in that environment. The performance difference is very noticeable for expensive algorithms. Nov 18, 2015 at 6:03
  • 1
    @AaronCarson could you please provide link to this suggestion by Google Jun 2, 2016 at 13:09
  • [Related question] Same question in C++: c++ - Declaring variables inside loops, good practice or bad practice? - Stack Overflow
    – user202729
    Oct 17, 2022 at 14:05

26 Answers 26

273

Which is better, a or b?

From a performance perspective, you'd have to measure it. (And in my opinion, if you can measure a difference, the compiler isn't very good).

From a maintenance perspective, b is better. Declare and initialize variables in the same place, in the narrowest scope possible. Don't leave a gaping hole between the declaration and the initialization, and don't pollute namespaces you don't need to.

2
  • 5
    Instead of Double, if it deals with String, still the case "b" better? Feb 24, 2014 at 12:00
  • 5
    @Antoops - yes, b is better for reasons that have nothing to do with the data type of the variable being declared. Why would it be different for Strings? Feb 25, 2015 at 12:32
235

Well I ran your A and B examples 20 times each, looping 100 million times.(JVM - 1.5.0)

A: average execution time: .074 sec

B: average execution time : .067 sec

To my surprise B was slightly faster. As fast as computers are now its hard to say if you could accurately measure this. I would code it the A way as well but I would say it doesn't really matter.

14
  • 13
    You beat me I was just about to post my results for profiling, I got more or less the same and yes surprisingly B is faster really would have thought A if I had needed to bet on it. Jan 2, 2009 at 16:27
  • 17
    Not much surprise - when variable is local to the loop, it does not need to be preserved after each iteration, so it can stay in a register.
    – user3458
    Jan 2, 2009 at 16:47
  • 148
    +1 for actually testing it, not just an opinion/theory the OP could have made up himself.
    – MGOwen
    May 5, 2010 at 0:53
  • 3
    @GoodPerson to be honest, I'd like that to be done. I ran this test around 10 times on my machine for 50,000,000-100,000,000 iterations with almost an identical piece of code (that I would love to share with anyone who wants to run stats). The answers were split almost equally either way usually by a margin of 900ms (over 50M iterations) which isn't really much. Though my first thought is that it's going to be "noise", it might lean one by just a bit. This effort seems purely academic to me though (for most real life applications).. I'd love to see a result anyway ;) Anyone agree?
    – javatarz
    May 14, 2013 at 9:46
  • 5
    Showing test results without documenting the setup, is worthless. That’s especially true in this case, where both code fragments produce identical bytecode, so any measured difference is just a sign of insufficient test conditions.
    – Holger
    Feb 15, 2017 at 14:36
66

It depends on the language and the exact use. For instance, in C# 1 it made no difference. In C# 2, if the local variable is captured by an anonymous method (or lambda expression in C# 3) it can make a very signficant difference.

Example:

using System;
using System.Collections.Generic;

class Test
{
    static void Main()
    {
        List<Action> actions = new List<Action>();

        int outer;
        for (int i=0; i < 10; i++)
        {
            outer = i;
            int inner = i;
            actions.Add(() => Console.WriteLine("Inner={0}, Outer={1}", inner, outer));
        }

        foreach (Action action in actions)
        {
            action();
        }
    }
}

Output:

Inner=0, Outer=9
Inner=1, Outer=9
Inner=2, Outer=9
Inner=3, Outer=9
Inner=4, Outer=9
Inner=5, Outer=9
Inner=6, Outer=9
Inner=7, Outer=9
Inner=8, Outer=9
Inner=9, Outer=9

The difference is that all of the actions capture the same outer variable, but each has its own separate inner variable.

5
  • 3
    in example B (original question), does it actually creates a new variable each time ? what happening in the eyes of the stack ?
    – Royi Namir
    May 31, 2012 at 7:44
  • @Jon, was it a bug in C# 1.0? Shouldn't ideally Outer be 9?
    – nawfal
    Jul 8, 2014 at 18:10
  • @nawfal: I don't know what you mean. Lambda expressions weren't in 1.0... and Outer is 9. What bug do you mean?
    – Jon Skeet
    Jul 8, 2014 at 18:32
  • @nawfal: My point is that there weren't any language features in C# 1.0 where you could tell the difference between declaring a variable inside a loop and declaring it outside (assuming that both compiled). That changed in C# 2.0. No bug.
    – Jon Skeet
    Jul 8, 2014 at 18:40
  • @JonSkeet Oh yes, I get you now, I completely overlooked the fact that you cant close over variables like that in 1.0, my bad! :)
    – nawfal
    Jul 8, 2014 at 18:42
35

The following is what I wrote and compiled in .NET.

double r0;
for (int i = 0; i < 1000; i++) {
    r0 = i*i;
    Console.WriteLine(r0);
}

for (int j = 0; j < 1000; j++) {
    double r1 = j*j;
    Console.WriteLine(r1);
}

This is what I get from .NET Reflector when CIL is rendered back into code.

for (int i = 0; i < 0x3e8; i++)
{
    double r0 = i * i;
    Console.WriteLine(r0);
}
for (int j = 0; j < 0x3e8; j++)
{
    double r1 = j * j;
    Console.WriteLine(r1);
}

So both look exactly same after compilation. In managed languages code is converted into CL/byte code and at time of execution it's converted into machine language. So in machine language a double may not even be created on the stack. It may just be a register as code reflect that it is a temporary variable for WriteLine function. There are a whole set optimization rules just for loops. So the average guy shouldn't be worried about it, especially in managed languages. There are cases when you can optimize manage code, for example, if you have to concatenate a large number of strings using just string a; a+=anotherstring[i] vs using StringBuilder. There is very big difference in performance between both. There are a lot of such cases where the compiler cannot optimize your code, because it cannot figure out what is intended in a bigger scope. But it can pretty much optimize basic things for you.

1
  • int j = 0 for (; j < 0x3e8; j++) in this way declared once time both variable, and not each for cycle. 2) the assignment it's fatser thean all other option. 3) So the bestpractice rule is any declaration outside the iteration for.
    – luka
    Dec 7, 2017 at 14:24
23

This is a gotcha in VB.NET. The Visual Basic result won't reinitialize the variable in this example:

For i as Integer = 1 to 100
    Dim j as Integer
    Console.WriteLine(j)
    j = i
Next

' Output: 0 1 2 3 4...

This will print 0 the first time (Visual Basic variables have default values when declared!) but i each time after that.

If you add a = 0, though, you get what you might expect:

For i as Integer = 1 to 100
    Dim j as Integer = 0
    Console.WriteLine(j)
    j = i
Next

'Output: 0 0 0 0 0...
6
  • 1
    I've been using VB.NET for years and hadn't come across this!!
    – ChrisA
    Jan 2, 2009 at 17:33
  • 12
    Yes, it's unpleasant to figure this out in practice. Jan 2, 2009 at 17:59
  • Here is a reference about this from Paul Vick: panopticoncentral.net/archive/2006/03/28/11552.aspx Jan 2, 2009 at 19:05
  • 1
    @eschneider @ferventcoder Unfortunately @PaulV has decided to drop his old blog posts, so this is now a dead link.
    – Mark Hurd
    May 19, 2011 at 14:58
  • yea, just recently ran across this; was looking for some official docs on this...
    – user117499
    May 23, 2011 at 14:41
18

I made a simple test:

int b;
for (int i = 0; i < 10; i++) {
    b = i;
}

vs

for (int i = 0; i < 10; i++) {
    int b = i;
}

I compiled these codes with gcc - 5.2.0. And then I disassembled the main () of these two codes and that's the result:

1º:

   0x00000000004004b6 <+0>:     push   rbp
   0x00000000004004b7 <+1>:     mov    rbp,rsp
   0x00000000004004ba <+4>:     mov    DWORD PTR [rbp-0x4],0x0
   0x00000000004004c1 <+11>:    jmp    0x4004cd <main+23>
   0x00000000004004c3 <+13>:    mov    eax,DWORD PTR [rbp-0x4]
   0x00000000004004c6 <+16>:    mov    DWORD PTR [rbp-0x8],eax
   0x00000000004004c9 <+19>:    add    DWORD PTR [rbp-0x4],0x1
   0x00000000004004cd <+23>:    cmp    DWORD PTR [rbp-0x4],0x9
   0x00000000004004d1 <+27>:    jle    0x4004c3 <main+13>
   0x00000000004004d3 <+29>:    mov    eax,0x0
   0x00000000004004d8 <+34>:    pop    rbp
   0x00000000004004d9 <+35>:    ret

vs

   0x00000000004004b6 <+0>: push   rbp
   0x00000000004004b7 <+1>: mov    rbp,rsp
   0x00000000004004ba <+4>: mov    DWORD PTR [rbp-0x4],0x0
   0x00000000004004c1 <+11>:    jmp    0x4004cd <main+23>
   0x00000000004004c3 <+13>:    mov    eax,DWORD PTR [rbp-0x4]
   0x00000000004004c6 <+16>:    mov    DWORD PTR [rbp-0x8],eax
   0x00000000004004c9 <+19>:    add    DWORD PTR [rbp-0x4],0x1
   0x00000000004004cd <+23>:    cmp    DWORD PTR [rbp-0x4],0x9
   0x00000000004004d1 <+27>:    jle    0x4004c3 <main+13>
   0x00000000004004d3 <+29>:    mov    eax,0x0
   0x00000000004004d8 <+34>:    pop    rbp
   0x00000000004004d9 <+35>:    ret 

Which are exaclty the same asm result. isn't a proof that the two codes produce the same thing?

1
  • 3
    yea, and it's cool that you did this, but this comes back to what people were saying about the language / compiler dependence. I wonder how JIT or interpreted language performance would be affected.
    – user137717
    Apr 4, 2016 at 19:24
13

It is language dependent - IIRC C# optimises this, so there isn't any difference, but JavaScript (for example) will do the whole memory allocation shebang each time.

1
  • Yea, but that doesn't amount to much. I ran a simple test with a for loop executing 100 million times and I found that the biggest difference in favor of declaring outside the loop was 8 ms. It was usually more like 3-4 and occasionally declaring outside the loop performed WORSE (up to 4 ms), but that was not typical.
    – user137717
    Apr 4, 2016 at 19:29
11

I would always use A (rather than relying on the compiler) and might also rewrite to:

for(int i=0, double intermediateResult=0; i<1000; i++){
    intermediateResult = i;
    System.out.println(intermediateResult);
}

This still restricts intermediateResult to the loop's scope, but doesn't redeclare during each iteration.

3
  • 12
    Do you conceptually want the variable to live for the duration of the loop instead of separately per iteration? I rarely do. Write code which reveals your intention as clearly as possible, unless you've got a very, very good reason to do otherwise.
    – Jon Skeet
    Jan 2, 2009 at 16:21
  • 4
    Ah, nice compromise, I never thought of this! IMO, the code does become a bit less visually 'clear' though) Jan 2, 2009 at 16:25
  • 2
    @Jon - I have no idea what the OP is actually doing with the intermediate value. Just thought it was an option worth considering. Jan 2, 2009 at 17:44
6

In my opinion, b is the better structure. In a, the last value of intermediateResult sticks around after your loop is finished.

Edit: This doesn't make a lot of difference with value types, but reference types can be somewhat weighty. Personally, I like variables to be dereferenced as soon as possible for cleanup, and b does that for you,

3
  • sticks around after your loop is finished - although this doesn't matter in a language like Python, where bound names stick around until the function ends.
    – new123456
    Oct 8, 2011 at 3:24
  • @new123456: The OP asked for Java specifics, even if the question was asked somewhat generically. Many C-derived languages have block-level scoping: C, C++, Perl (with the my keyword), C#, and Java to name 5 I've used.
    – Powerlord
    Oct 8, 2011 at 15:42
  • I know - it was an observation, not a criticism.
    – new123456
    Oct 8, 2011 at 17:34
5

I suspect a few compilers could optimize both to be the same code, but certainly not all. So I'd say you're better off with the former. The only reason for the latter is if you want to ensure that the declared variable is used only within your loop.

5

As a general rule, I declare my variables in the inner-most possible scope. So, if you're not using intermediateResult outside of the loop, then I'd go with B.

5

A co-worker prefers the first form, telling it is an optimization, preferring to re-use a declaration.

I prefer the second one (and try to persuade my co-worker! ;-)), having read that:

  • It reduces scope of variables to where they are needed, which is a good thing.
  • Java optimizes enough to make no significant difference in performance. IIRC, perhaps the second form is even faster.

Anyway, it falls in the category of premature optimization that rely in quality of compiler and/or JVM.

5

There is a difference in C# if you are using the variable in a lambda, etc. But in general the compiler will basically do the same thing, assuming the variable is only used within the loop.

Given that they are basically the same: Note that version b makes it much more obvious to readers that the variable isn't, and can't, be used after the loop. Additionally, version b is much more easily refactored. It is more difficult to extract the loop body into its own method in version a. Moreover, version b assures you that there is no side effect to such a refactoring.

Hence, version a annoys me to no end, because there's no benefit to it and it makes it much more difficult to reason about the code...

5

Well, you could always make a scope for that:

{ //Or if(true) if the language doesn't support making scopes like this
    double intermediateResult;
    for (int i=0; i<1000; i++) {
        intermediateResult = i;
        System.out.println(intermediateResult);
    }
}

This way you only declare the variable once, and it'll die when you leave the loop.

4

I think it depends on the compiler and is hard to give a general answer.

4

I've always thought that if you declare your variables inside of your loop then you're wasting memory. If you have something like this:

for(;;) {
  Object o = new Object();
}

Then not only does the object need to be created for each iteration, but there needs to be a new reference allocated for each object. It seems that if the garbage collector is slow then you'll have a bunch of dangling references that need to be cleaned up.

However, if you have this:

Object o;
for(;;) {
  o = new Object();
}

Then you're only creating a single reference and assigning a new object to it each time. Sure, it might take a bit longer for it to go out of scope, but then there's only one dangling reference to deal with.

2
  • 3
    A new reference is not allocated for each object, even if the the reference is declared within the 'for'-loop. In BOTH cases: 1) 'o' is a local variable and stack space is allocated once for it at the start of the function. 2) There is a new Object created in each iteration. So there is no difference in performance. For code organization, readability and maintainability, declaring the reference within the loop is better. Nov 18, 2010 at 21:28
  • 1
    While I can't speak for Java, in .NET the reference is not 'allocated' for each object in the first example. There is a single entry on the stack for that local (to the method) variable. For your examples, the IL created is identical. Dec 17, 2010 at 16:53
4

I had this very same question for a long time. So I tested an even simpler piece of code.

Conclusion: For such cases there is NO performance difference.

Outside loop case

int intermediateResult;
for(int i=0; i < 1000; i++){
    intermediateResult = i+2;
    System.out.println(intermediateResult);
}

Inside loop case

for(int i=0; i < 1000; i++){
    int intermediateResult = i+2;
    System.out.println(intermediateResult);
}

I checked the compiled file on IntelliJ's decompiler and for both cases, I got the same Test.class

for(int i = 0; i < 1000; ++i) {
    int intermediateResult = i + 2;
    System.out.println(intermediateResult);
}

I also disassembled code for both the case using the method given in this answer. I'll show only the parts relevant to the answer

Outside loop case

Code:
  stack=2, locals=3, args_size=1
     0: iconst_0
     1: istore_2
     2: iload_2
     3: sipush        1000
     6: if_icmpge     26
     9: iload_2
    10: iconst_2
    11: iadd
    12: istore_1
    13: getstatic     #2                  // Field java/lang/System.out:Ljava/io/PrintStream;
    16: iload_1
    17: invokevirtual #3                  // Method java/io/PrintStream.println:(I)V
    20: iinc          2, 1
    23: goto          2
    26: return
LocalVariableTable:
        Start  Length  Slot  Name   Signature
           13      13     1 intermediateResult   I
            2      24     2     i   I
            0      27     0  args   [Ljava/lang/String;

Inside loop case

Code:
      stack=2, locals=3, args_size=1
         0: iconst_0
         1: istore_1
         2: iload_1
         3: sipush        1000
         6: if_icmpge     26
         9: iload_1
        10: iconst_2
        11: iadd
        12: istore_2
        13: getstatic     #2                  // Field java/lang/System.out:Ljava/io/PrintStream;
        16: iload_2
        17: invokevirtual #3                  // Method java/io/PrintStream.println:(I)V
        20: iinc          1, 1
        23: goto          2
        26: return
      LocalVariableTable:
        Start  Length  Slot  Name   Signature
           13       7     2 intermediateResult   I
            2      24     1     i   I
            0      27     0  args   [Ljava/lang/String;

If you pay close attention, only the Slot assigned to i and intermediateResult in LocalVariableTable is swapped as a product of their order of appearance. The same difference in slot is reflected in other lines of code.

  • No extra operation is being performed
  • intermediateResult is still a local variable in both cases, so there is no difference access time.

BONUS

Compilers do a ton of optimization, take a look at what happens in this case.

Zero work case

for(int i=0; i < 1000; i++){
    int intermediateResult = i;
    System.out.println(intermediateResult);
}

Zero work decompiled

for(int i = 0; i < 1000; ++i) {
    System.out.println(i);
}
3

My practice is following:

  • if type of variable is simple (int, double, ...) I prefer variant b (inside).
    Reason: reducing scope of variable.

  • if type of variable is not simple (some kind of class or struct) I prefer variant a (outside).
    Reason: reducing number of ctor-dtor calls.

1

From a performance perspective, outside is (much) better.

public static void outside() {
    double intermediateResult;
    for(int i=0; i < Integer.MAX_VALUE; i++){
        intermediateResult = i;
    }
}

public static void inside() {
    for(int i=0; i < Integer.MAX_VALUE; i++){
        double intermediateResult = i;
    }
}

I executed both functions 1 billion times each. outside() took 65 milliseconds. inside() took 1.5 seconds.

2
  • 2
    Must have been Debug unoptimized compilation then, huh? Feb 12, 2016 at 10:47
  • int j = 0 for (; j < 0x3e8; j++) in this way declared once time both variable, and not each for cycle. 2) the assignment it's fatser thean all other option. 3) So the bestpractice rule is any declaration outside the iteration for.
    – luka
    Dec 7, 2017 at 14:25
1

I tested for JS with Node 4.0.0 if anyone is interested. Declaring outside the loop resulted in a ~.5 ms performance improvement on average over 1000 trials with 100 million loop iterations per trial. So I'm gonna say go ahead and write it in the most readable / maintainable way which is B, imo. I would put my code in a fiddle, but I used the performance-now Node module. Here's the code:

var now = require("../node_modules/performance-now")

// declare vars inside loop
function varInside(){
    for(var i = 0; i < 100000000; i++){
        var temp = i;
        var temp2 = i + 1;
        var temp3 = i + 2;
    }
}

// declare vars outside loop
function varOutside(){
    var temp;
    var temp2;
    var temp3;
    for(var i = 0; i < 100000000; i++){
        temp = i
        temp2 = i + 1
        temp3 = i + 2
    }
}

// for computing average execution times
var insideAvg = 0;
var outsideAvg = 0;

// run varInside a million times and average execution times
for(var i = 0; i < 1000; i++){
    var start = now()
    varInside()
    var end = now()
    insideAvg = (insideAvg + (end-start)) / 2
}

// run varOutside a million times and average execution times
for(var i = 0; i < 1000; i++){
    var start = now()
    varOutside()
    var end = now()
    outsideAvg = (outsideAvg + (end-start)) / 2
}

console.log('declared inside loop', insideAvg)
console.log('declared outside loop', outsideAvg)
0

A) is a safe bet than B).........Imagine if you are initializing structure in loop rather than 'int' or 'float' then what?

like

typedef struct loop_example{

JXTZ hi; // where JXTZ could be another type...say closed source lib 
         // you include in Makefile

}loop_example_struct;

//then....

int j = 0; // declare here or face c99 error if in loop - depends on compiler setting

for ( ;j++; )
{
   loop_example loop_object; // guess the result in memory heap?
}

You are certainly bound to face problems with memory leaks!. Hence I believe 'A' is safer bet while 'B' is vulnerable to memory accumulation esp working close source libraries.You can check usinng 'Valgrind' Tool on Linux specifically sub tool 'Helgrind'.

0

It's an interesting question. From my experience there is an ultimate question to consider when you debate this matter for a code:

Is there any reason why the variable would need to be global?

It makes sense to only declare the variable once, globally, as opposed to many times locally, because it is better for organizing the code and requires less lines of code. However, if it only needs to be declared locally within one method, I would initialize it in that method so it is clear that the variable is exclusively relevant to that method. Be careful not to call this variable outside the method in which it is initialized if you choose the latter option--your code won't know what you're talking about and will report an error.

Also, as a side note, don't duplicate local variable names between different methods even if their purposes are near-identical; it just gets confusing.

1
  • 1
    lol I disagree for so many reasons...However, no down vote... I respect your right to choose
    – Grantly
    Dec 30, 2015 at 22:53
0

this is the better form

double intermediateResult;
int i = byte.MinValue;

for(; i < 1000; i++)
{
intermediateResult = i;
System.out.println(intermediateResult);
}

1) in this way declared once time both variable, and not each for cycle. 2) the assignment it's fatser thean all other option. 3) So the bestpractice rule is any declaration outside the iteration for.

0

Tried the same thing in Go, and compared the compiler output using go tool compile -S with go 1.9.4

Zero difference, as per the assembler output.

0

I use (A) when I want to see the contents of the variable after exiting the loop. It only matters for debugging. I use (B) when I want the code more compact, since it saves one line of code.

-1

Even if I know my compiler is smart enough, I won't like to rely on it, and will use the a) variant.

The b) variant makes sense to me only if you desperately need to make the intermediateResult unavailable after the loop body. But I can't imagine such desperate situation, anyway....

EDIT: Jon Skeet made a very good point, showing that variable declaration inside a loop can make an actual semantic difference.

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