I'm not sure if the following code can cause redundant calculations, or is it compiler-specific?

for (int i = 0; i < strlen(ss); ++i)
    // blabla

Will strlen() be calculated every time when i increases?

  • 14
    I'm going to guess that without a sophisticated optimization that can detect that 'ss' never changes in the loop, then yes. Best to compile, and look at the assembly to see. – MerickOWA Jul 6 '12 at 15:21
  • 6
    It depends on the compiler, on the optimisation level and on what you (might) do to ss inside the loop. – Hristo Iliev Jul 6 '12 at 15:21
  • 4
    If the compiler can prove that ss is never modified, it can hoist the computation out of the loop. – Daniel Fischer Jul 6 '12 at 15:22
  • 10
    @Mike: "require compile-time analysis of exactly what strlen does" - strlen is probably an intrinsic, in which case the optimizer knows what it does. – Steve Jessop Jul 6 '12 at 15:33
  • 3
    @MikeSeymour: There is no maybe, maybe not. strlen is defined by the C language standard, and its name is reserved for the use defined by the language, so a program is not free to supply a different definition. The compiler and optimizer are entitled to assume strlen depends solely on its input and does not modify it or any global state. The challenge to optimization here is determining that the memory pointed to by ss is not altered by any code inside the loop. That is entirely feasible with current compilers, depending on the specific code. – Eric Postpischil Jul 6 '12 at 15:41

18 Answers 18


Yes, strlen() will be evaluated on each iteration. It's possible that, under ideal circumstances, the optimiser might be able to deduce that the value won't change, but I personally wouldn't rely on that.

I'd do something like

for (int i = 0, n = strlen(ss); i < n; ++i)

or possibly

for (int i = 0; ss[i]; ++i)

as long as the string isn't going to change length during the iteration. If it might, then you'll need to either call strlen() each time, or handle it through more complicated logic.

  • 14
    If you know you're not manipulating the string, the second is far more preferable since that's essentially the loop that will be performed by strlen anyway. – mlibby Jul 6 '12 at 15:35
  • 25
    @alk: If the string might get shortened, then both of these are wrong. – Mike Seymour Jul 6 '12 at 15:36
  • 3
    @mcl: Sure, if ... ;-) – alk Jul 6 '12 at 15:37
  • 3
    @alk: if you're changing the string, a for loop is probably not the best way to iterate over each character. I'd think a while loop is more direct and easier to manage the index counter. – mlibby Jul 6 '12 at 15:40
  • 6
    The second version is the ideal and most idiomatic form. It allows you to pass over the string only once rather than twice, which will have much better performance (especially cache coherency) for long strings. – R.. Jul 6 '12 at 17:26

Yes, every time you use the loop. Then it will every time calculate the length of the string. so use it like this:

char str[30];
for ( int i = 0; str[i] != '\0'; i++)

In the above code str[i] only verifies one particular character in the string at location i each time the loop starts a cycle, thus it will take less memory and is more efficient.

See this Link for more information.

In the code below every time the loop runs strlen will count the length of the whole string which is less efficient, takes more time and takes more memory.

char str[];
for ( int i = 0; i < strlen(str); i++)
  • 3
    I can agree with "[it] is more efficient", but use less memory? The only memory usage difference I can think of would be in the call stack during the strlen call, and if you're running that tight, you probably should be thinking about eliding a few other function calls as well... – a CVn Jul 6 '12 at 20:17
  • @MichaelKjörling Well if you use "strlen" , then in a loop it has to scan the whole string every time the loop runs, whereas in the above code the "str[ix]", it only scans one element during each cycle of the loop whose location is represented by "ix". Thus it takes less memory than "strlen". – codeDEXTER Jul 6 '12 at 20:42
  • 1
    I'm not sure that makes a lot of sense, actually. A very naïve implementation of strlen would be something like int strlen(char *s) { int len = 0; while(s[len] != '\0') len++; return len; } which is pretty much exactly what you are doing in the code in your answer. I'm not arguing that iterating over the string once rather than twice is more time-efficient, but I don't see one or the other using more or less memory. Or are you referring to the variable used to hold the string length? – a CVn Jul 6 '12 at 20:49
  • @MichaelKjörling Please see the above edited code and the link. And as for the memory- every time the loop runs each and every value that iterates is stored in memory and in case of 'strlen' as it counts the whole string again and again it requires more memory to store. and also because unlike Java, C++ has no "Garbage Collector". Then i can be wrong also. see link regarding absence of "Garbage Collector" in C++. – codeDEXTER Jul 6 '12 at 21:55
  • 1
    @aashis2s The lack of a garbage collector only plays a role when creating objects on the heap. Objects on the stack get destroyed as soon as the scope and ends. – Ikke Jul 10 '12 at 19:32

A good compiler may not calculate it every time, but I don't think you can be sure, that every compiler does it.

In addition to that, the compiler has to know, that strlen(ss) does not change. This is only true if ss is not changed in for loop.

For example, if you use a read-only function on ss in for loop but don't declare the ss-parameter as const, the compiler cannot even know that ss is not changed in the loop and has to calculate strlen(ss) in every iteration.

  • 3
    +1: Not only must ss not be changed in the for loop; it must not be accessible from and changed by any function called in the loop (either because it is passed as an argument, or because it a global variable or a file-scope variable). Const-qualification may also be a factor, too. – Jonathan Leffler Jul 6 '12 at 15:25
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    I think it highly unlikely that the compiler could know that 'ss' doesn't change. There could be stray pointers that point to memory inside 'ss' which the compiler has no idea of that could change 'ss' – MerickOWA Jul 6 '12 at 15:25
  • Jonathan is right, a local const string might be the only way for the compiler to be assured there's no way for 'ss' to change. – MerickOWA Jul 6 '12 at 15:27
  • 2
    @MerickOWA: indeed, that's one of the things that restrict is for in C99. – Steve Jessop Jul 6 '12 at 15:27
  • 4
    Regarding your last para: if you call a read-only function on ss in the for-loop, then even if its parameter is declared const char*, the compiler still needs to recalculate the length unless either (a) it knows that ss points to a const object, as opposed to just being a pointer-to-const, or (b) it can inline the function or otherwise see that it is read-only. Taking a const char* parameter is not a promise not to modify the data pointed to, because it is valid to cast to char* and modify provided that the object modified isn't const and isn't a string literal. – Steve Jessop Jul 6 '12 at 15:31

If ss is of type const char * and you're not casting away the constness within the loop the compiler might only call strlen once, if optimizations are turned on. But this is certainly not behavior that can be counted upon.

You should save the strlen result in a variable and use this variable in the loop. If you don't want to create an additional variable, depending on what you're doing, you may be ale to get away with reversing the loop to iterate backwards.

for( auto i = strlen(s); i > 0; --i ) {
  // do whatever
  // remember value of s[strlen(s)] is the terminating NULL character
  • 1
    It's a mistake to call strlen at all. Just loop until you hit the end. – R.. Jul 6 '12 at 17:28
  • i > 0? Should that not be i >= 0 here? Personally, I would also start at strlen(s) - 1 if iterating over the string backwards, then the terminating \0 needs no special consideration. – a CVn Jul 6 '12 at 20:19
  • 2
    @MichaelKjörling i >= 0 works only if you initialize to strlen(s) - 1, but then if you have a string on zero length the initial value underflows – Praetorian Jul 6 '12 at 20:27
  • @Prætorian, good point on the zero length string. I didn't consider that case when I wrote my comment. Does C++ evaluate the i > 0 expression on initial loop entry? If it doesn't, then you're right, the zero length case will definitely break the loop. If it does, you "simply" get a signed i == -1 < 0 so no loop entry if the conditional is i >= 0. – a CVn Jul 6 '12 at 20:31
  • @MichaelKjörling Yes, the exit condition is evaluated prior to executing the loop for the first time. strlen's return type is unsigned, so (strlen(s)-1) >= 0 evaluates to true for zero length strings. – Praetorian Jul 6 '12 at 20:34

Formally yes, strlen() is expected to be called for every iteration.

Anyway I do not want to negate the possibility of the existance of some clever compiler optimisation, that will optimise away any successive call to strlen() after the first one.


The predicate code in it's entirety will be executed on every iteration of the for loop. In order to memoize the result of the strlen(ss) call the compiler would need to know that at least

  1. The function strlen was side effect free
  2. The memory pointed to by ss doesn't change for the duration of the loop

The compiler doesn't know either of these things and hence can't safely memoize the result of the first call

  • Well it could know those things with static analysis, but I think your point is that such analysis is currently not implemented in any C++ compilers, yes? – GManNickG Jul 6 '12 at 15:26
  • @GManNickG it could definitely prove #1 but #2 is harder. For a single thread yes it could definitely prove it but not for a multi-threaded environment. – JaredPar Jul 6 '12 at 15:28
  • 1
    Maybe I'm being stubborn but I think number two is possible in multithreaded environments too, but definitely not without a wildly strong inference system. Just musing here though; definitely beyond the scope of any current C++ compiler. – GManNickG Jul 6 '12 at 15:30
  • @GManNickG i don't think it's possible though in C / C++. I could very easily stash the address of ss into a size_t or divide it up amongst several byte values. My devious thread could then just write bytes into that address and the compiler would have know way of understanding that it related to ss. – JaredPar Jul 6 '12 at 15:32
  • 1
    @JaredPar: Sorry to bang on, you could claim that int a = 0; do_something(); printf("%d",a); cannot be optimized, on the basis that do_something() could do your uninitialized int thing, or could crawl back up the stack and modify a deliberately. In point of fact, gcc 4.5 does optimize it to do_something(); printf("%d",0); with -O3 – Steve Jessop Jul 6 '12 at 16:09

Yes, the strlen(ss) will calculate the length at each iteration. If you are increasing the ss by some way and also increasing the i; there would be infinite loop.


Yes, the strlen() function is called every time the loop is evaluated.

If you want to improve the efficiency then always remember to save everything in local variables... It will take time but it's very useful ..

You can use code like below:

String str="ss";
int l = strlen(str);

for ( int i = 0; i < l ; i++ )
    // blablabla

Yes, strlen(ss) will be calculated every time the code runs.


Not common nowadays but 20 years ago on 16 bit platforms, I'd recommend this:

for ( char* p = str; *p; p++ ) { /* ... */ }

Even if your compiler isn't very smart in optimization, the above code can result in good assembly code yet.


Yes. The test doesn't know that ss doesn't get changed inside the loop. If you know that it won't change then I would write:

int stringLength = strlen (ss); 
for ( int i = 0; i < stringLength; ++ i ) 
  // blabla 

Yes. strlen will be calculated everytime when i increases.

If you didn't change ss with in the loop means it won't affect logic otherwise it will affect.

It is safer to use following code.

int length = strlen(ss);

for ( int i = 0; i < length ; ++ i )
 // blabla

Arrgh, it will, even under ideal circumstances, dammit!

As of today (January 2018), and gcc 7.3 and clang 5.0, if you compile:

#include <string.h>

void bar(char c);

void foo(const char* __restrict__ ss) 
    for (int i = 0; i < strlen(ss); ++i) 

So, we have:

  • ss is a constant pointer.
  • ss is marked __restrict__
  • The loop body cannot in any way touch the memory pointed to by ss (well, unless it violates the __restrict__).

and still, both compilers execute strlen() every single iteration of that loop. Amazing.

This also means the allusions/wishful thinking of @Praetorian and @JaredPar doesn't pan out.


YES, in simple words. And there is small no in rare condition in which compiler is wishing to, as an optimization step if it finds that there is no changes made in ss at all. But in safe condition you should think it as YES. There are some situation like in multithreaded and event driven program, it may get buggy if you consider it a NO. Play safe as it is not going to improve the program complexity too much.



strlen() calculated everytime when i increases and does not optimized.

Below code shows why the compiler should not optimize strlen().

for ( int i = 0; i < strlen(ss); ++i )
   // Change ss string.
   ss[i] = 'a'; // Compiler should not optimize strlen().
  • I think doing that particular modification never alters the length of ss, just its contents, so (a really, really clever) compiler could still optimize strlen. – Darren Cook Jul 12 '12 at 0:25

We can easily test it :

char nums[] = "0123456789";
size_t end;
int i;
for( i=0, end=strlen(nums); i<strlen(nums); i++ ) {
    putchar( nums[i] );
    num[--end] = 0;

Loop condition evaluates after each repetition, before restarting the loop .

Also be careful about the type you use to handle length of strings . it should be size_t which has been defined as unsigned int in stdio. comparing and casting it to int might cause some serious vulnerability issue.


well, I noticed that someone is saying that it is optimized by default by any "clever" modern compiler. By the way look at results without optimization. I tried:
Minimal C code:

#include <stdio.h>
#include <string.h>

int main()
 char *s="aaaa";

 for (int i=0; i<strlen(s);i++)
  printf ("a");
 return 0;

My compiler: g++ (Ubuntu/Linaro 4.6.3-1ubuntu5) 4.6.3
Command for generation of assembly code: g++ -S -masm=intel test.cpp

Gotten assembly code at the output:
mov DWORD PTR [esp], 97
call    putchar
add DWORD PTR [esp+40], 1
    **<b>mov    ebx, DWORD PTR [esp+40]
mov eax, DWORD PTR [esp+44]
mov DWORD PTR [esp+28], -1
mov edx, eax
mov eax, 0
mov ecx, DWORD PTR [esp+28]
mov edi, edx
repnz scasb</b>**
     AS YOU CAN SEE it's done every time
mov eax, ecx
not eax
sub eax, 1
cmp ebx, eax
setb    al
test    al, al
jne .L3
mov eax, 0
  • I would be loath to trust any compiler that tried to optimize it unless the address of the string was restrict-qualified. While there are some cases where such optimization would be legitimate, the effort required to reliably identify such cases in the absence of restrict would, by any reasonable measure, almost certainly exceed the benefit. If the string's address had a const restrict qualifier, however, that would be sufficient in and of itself to justify the optimization without having to look at anything else. – supercat Jun 11 '17 at 17:50

Elaborating on Prætorian's answer I recommend the following:

for( auto i = strlen(s)-1; i > 0; --i ) {foo(s[i-1];}
  • auto because you don't want to care about which type strlen returns. A C++11 compiler (e.g. gcc -std=c++0x, not completely C++11 but auto types work) will do that for you.
  • i = strlen(s) becuase you want to compare to 0 (see below)
  • i > 0 because comparison to 0 is (slightly) faster that comparison to any other number.

disadvantage is that you have to use i-1 in order to access the string characters.

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