I was always unsure, what does the restrict keyword mean in C++?

Does it mean the two or more pointer given to the function does not overlap? What else does it mean?

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    restrict is a c99 keyword. Yes, Rpbert S. Barnes, I know that most compilers support __restrict__. You will note that anything with double underscores is, by definition, implementation specific and thus NOT C++, but a compiler specific version of it.
    – KitsuneYMG
    Jan 6, 2010 at 9:31
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    What? Just because it's implementation specific does not make it not C++; the C++ allows for implementation specific stuff explicitly, and does not disallow it or render it not C++.
    – Alice
    May 29, 2014 at 5:02
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    @Alice KitsuneYMG means that it's not part of ISO C++, and is instead considered a C++ extension. Compiler creators are allowed to make and distribute their own extensions, which coexist with ISO C++ and act as part of a usually-less-or-non-portable unofficial addition to C++. Examples would be MS's old Managed C++, and their more recent C++/CLI. Other examples would be preprocessor directives and macros supplied by some compilers, such as the common #warning directive, or the function signature macros (__PRETTY_FUNCTION__ on GCC, __FUNCSIG__ on MSVC, etc.). Mar 17, 2016 at 21:57
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    @Alice To my knowledge, C++11 doesn't mandate full support for all of C99, nor do C++14 or what I know of C++17. restrict isn't considered a C++ keyword (see en.cppreference.com/w/cpp/keyword ), and in fact, the only mention of restrict in the C++11 standard (see open-std.org/jtc1/sc22/wg21/docs/papers/2012/n3337.pdf , a copy of the FDIS with minor editorial changes, §17.2 [library.c], PDF page 413) states that: Mar 20, 2016 at 17:10
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    @Alice How so? I stated the part that says that restrict is to be omitted from (excluded from, left out of) C standard library function signatures and semantics when those functions are included in the C++ standard library. Or in other words, I stated the fact that says that if a C standard library function's signature contains restrict in C, the restrict keyword must be removed from the C++ equivalent's signature. Mar 22, 2016 at 21:15

7 Answers 7


In his paper, Memory Optimization, Christer Ericson says that while restrict is not part of the C++ standard yet, that it is supported by many compilers and he recommends it's usage when available:

restrict keyword

! New to 1999 ANSI/ISO C standard

! Not in C++ standard yet, but supported by many C++ compilers

! A hint only, so may do nothing and still be conforming

A restrict-qualified pointer (or reference)...

! ...is basically a promise to the compiler that for the scope of the pointer, the target of the pointer will only be accessed through that pointer (and pointers copied from it).

In C++ compilers that support it it should probably behave the same as in C.

See this SO post for details: Realistic usage of the C99 ‘restrict’ keyword?

Take half an hour to skim through Ericson's paper, it's interesting and worth the time.


I also found that IBM's AIX C/C++ compiler supports the __restrict__ keyword.

g++ also seems to support this as the following program compiles cleanly on g++:

#include <stdio.h>

int foo(int * __restrict__ a, int * __restrict__ b) {
    return *a + *b;

int main(void) {
    int a = 1, b = 1, c;
    c = foo(&a, &b);

    printf("c == %d\n", c);

    return 0;

I also found a nice article on the use of restrict:

Demystifying The Restrict Keyword


I ran across an article which specifically discusses the use of restrict in C++ programs:

Load-hit-stores and the __restrict keyword

Also, Microsoft Visual C++ also supports the __restrict keyword.


As others said, it means nothing as of C++14, so let's consider the __restrict__ GCC extension which does the same as the C99 restrict.


restrict says that two pointers cannot point to overlapping memory regions. The most common usage is for function arguments.

This restricts how the function can be called, but allows for more compile optimizations.

If the caller does not follow the restrict contract, undefined behavior can occur.

The C99 N1256 draft 6.7.3/7 "Type qualifiers" says:

The intended use of the restrict qualifier (like the register storage class) is to promote optimization, and deleting all instances of the qualifier from all preprocessing translation units composing a conforming program does not change its meaning (i.e., observable behavior).

and "Formal definition of restrict" gives the gory details.

A possible optimization

The Wikipedia example is very illuminating.

It clearly shows how as it allows to save one assembly instruction.

Without restrict:

void f(int *a, int *b, int *x) {
  *a += *x;
  *b += *x;

Pseudo assembly:

load R1 ← *x    ; Load the value of x pointer
load R2 ← *a    ; Load the value of a pointer
add R2 += R1    ; Perform Addition
set R2 → *a     ; Update the value of a pointer
; Similarly for b, note that x is loaded twice,
; because x may point to a (a aliased by x) thus 
; the value of x will change when the value of a
; changes.
load R1 ← *x
load R2 ← *b
add R2 += R1
set R2 → *b

With restrict:

void fr(int *restrict a, int *restrict b, int *restrict x);

Pseudo assembly:

load R1 ← *x
load R2 ← *a
add R2 += R1
set R2 → *a
; Note that x is not reloaded,
; because the compiler knows it is unchanged
; "load R1 ← *x" is no longer needed.
load R2 ← *b
add R2 += R1
set R2 → *b

Does GCC really do it?

g++ 4.8 Linux x86-64:

g++ -g -std=gnu++98 -O0 -c main.cpp
objdump -S main.o

With -O0, they are the same.

With -O3:

void f(int *a, int *b, int *x) {
    *a += *x;
   0:   8b 02                   mov    (%rdx),%eax
   2:   01 07                   add    %eax,(%rdi)
    *b += *x;
   4:   8b 02                   mov    (%rdx),%eax
   6:   01 06                   add    %eax,(%rsi)  

void fr(int *__restrict__ a, int *__restrict__ b, int *__restrict__ x) {
    *a += *x;
  10:   8b 02                   mov    (%rdx),%eax
  12:   01 07                   add    %eax,(%rdi)
    *b += *x;
  14:   01 06                   add    %eax,(%rsi) 

For the uninitiated, the calling convention is:

  • rdi = first parameter
  • rsi = second parameter
  • rdx = third parameter

GCC output was even clearer than the wiki article: 4 instructions vs 3 instructions.


So far we have single instruction savings, but if pointer represent arrays to be looped over, a common use case, then a bunch of instructions could be saved, as mentioned by supercat and michael.

Consider for example:

void f(char *restrict p1, char *restrict p2, size_t size) {
     for (size_t i = 0; i < size; i++) {
         p1[i] = 4;
         p2[i] = 9;

Because of restrict, a smart compiler (or human), could optimize that to:

memset(p1, 4, size);
memset(p2, 9, size);

Which is potentially much more efficient as it may be assembly optimized on a decent libc implementation (like glibc) Is it better to use std::memcpy() or std::copy() in terms to performance?, possibly with SIMD instructions.

Without, restrict, this optimization could not be done, e.g. consider:

char p1[4];
char *p2 = &p1[1];
f(p1, p2, 3);

Then for version makes:

p1 == {4, 4, 4, 9}

while the memset version makes:

p1 == {4, 9, 9, 9}

Does GCC really do it?

GCC 5.2.1.Linux x86-64 Ubuntu 15.10:

gcc -g -std=c99 -O0 -c main.c
objdump -dr main.o

With -O0, both are the same.

With -O3:

  • with restrict:

    3f0:   48 85 d2                test   %rdx,%rdx
    3f3:   74 33                   je     428 <fr+0x38>
    3f5:   55                      push   %rbp
    3f6:   53                      push   %rbx
    3f7:   48 89 f5                mov    %rsi,%rbp
    3fa:   be 04 00 00 00          mov    $0x4,%esi
    3ff:   48 89 d3                mov    %rdx,%rbx
    402:   48 83 ec 08             sub    $0x8,%rsp
    406:   e8 00 00 00 00          callq  40b <fr+0x1b>
                            407: R_X86_64_PC32      memset-0x4
    40b:   48 83 c4 08             add    $0x8,%rsp
    40f:   48 89 da                mov    %rbx,%rdx
    412:   48 89 ef                mov    %rbp,%rdi
    415:   5b                      pop    %rbx
    416:   5d                      pop    %rbp
    417:   be 09 00 00 00          mov    $0x9,%esi
    41c:   e9 00 00 00 00          jmpq   421 <fr+0x31>
                            41d: R_X86_64_PC32      memset-0x4
    421:   0f 1f 80 00 00 00 00    nopl   0x0(%rax)
    428:   f3 c3                   repz retq

    Two memset calls as expected.

  • without restrict: no stdlib calls, just a 16 iteration wide loop unrolling which I do not intend to reproduce here :-)

I haven't had the patience to benchmark them, but I believe that the restrict version will be faster.

Strict aliasing rule

The restrict keyword only affects pointers of compatible types (e.g. two int*) because the strict aliasing rules says that aliasing incompatible types is undefined behavior by default, and so compilers can assume it does not happen and optimize away.

See: What is the strict aliasing rule?

Does it work for references?

According to the GCC docs it does: https://gcc.gnu.org/onlinedocs/gcc-5.1.0/gcc/Restricted-Pointers.html with syntax:

int &__restrict__ rref

There is even a version for this of member functions:

void T::fn () __restrict__
  • nice asnwer. What if strict aliasing is disabled -fno-strict-aliasing, then restrict should make no difference between pointers of same type or different types, no? ( i am refering to "The restrict keyword only affects pointers of compatible types") Jun 9, 2017 at 15:46
  • @tobi303 I don't know! Let me know if you find out for sure ;-) Jun 9, 2017 at 15:56
  • @jww yes, that is a better way of phrasing it. Updated. Feb 25, 2018 at 20:38
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    Nice answer! But there is one subtle thing "restrict says that two pointers cannot point to overlapping memory regions." - it's not 100% true. If you open C99 standard and read the formal definition of restrict, it's only about lvalue expressions. The memory can overlap in the case of using pointed objects as rvalues. For that aspect, also see Harbison, Steele. C A Reference, page 95, (3). One more time - Nice answer! Jul 30, 2022 at 21:49
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    "...my C is not that good.." - no! it's good if you have created such post! :) Example: // valid since C89 void add(int n, int* restrict dest, const int * restrict op1, const int * restrict op2) { // 1 int i = 0; // 2 for (i = 0; i < n; ++i) // 3 { dest[i] = op1[i] + op2[i]; // 4 } // 5 } // it's absolutely valid to call add whatever compiler will do with lines 1-3 when "op1==op2" in that circumstances. Jul 31, 2022 at 17:58

Nothing. It was added to the C99 standard.

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    That's not completely true. Apparently it's supported by some C++ compilers and some people strongly recommend it's usage when it's available, see my answer below. Dec 27, 2009 at 8:23
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    @Robert S Barnes: The C++ standard does not recognize restrict as a keyword. Hence my answer stands correct. What you describe is implementation specific behavior and something that you should not really rely on.
    – dirkgently
    Dec 27, 2009 at 14:00
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    @dirkgently: With all due respect, why not? Many projects are tied to specific non-standard language extensions supported by only specific or very few compilers. The Linux Kernel and gcc comes to mind. It's not uncommon to stick with a specific compiler, or even a specific revision of a specific compiler for the entire useful lifetime of a project. Not every program needs to be strictly conforming. Dec 27, 2009 at 19:19
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    @Rpbert S. Barnes: I cannot possibly stress any further why you should not depend on implementation specific behavior. As for Linux and gcc -- think and you'll see why they are not a good example in your defense. I am yet to see even a moderately successful piece of software run on a single compiler version for its lifetime.
    – dirkgently
    Dec 28, 2009 at 7:02
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    @Rpbert S. Barnes: The question said c++. Not MSVC, not gcc, not AIX. If acidzombie24 wanted compiler specific extensions, s?he should have said/tagged so.
    – KitsuneYMG
    Jan 6, 2010 at 9:29

This is the original proposal to add this keyword. As dirkgently pointed out though, this is a C99 feature; it has nothing to do with C++.

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    Many C++ compilers support the __restrict__ keyword which is identical as far as I can tell. Dec 27, 2009 at 12:45
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    It has everything to do with C++, because C++ programs call C libraries, and C libraries use restrict. The behavior of the C++ program becomes undefined if it violates the restrictions implied by restrict.
    – Kaz
    Apr 17, 2020 at 17:38
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    @kaz Totally wrong. It has nothing to do with C++ because it's not a keyword or feature of C++, and if you use C header files in C++ you must remove the restrict keyword. Of course if you pass aliased pointers to a C function that declares them restricted (which you can do from either C++ or C) then it's undefined, but that's on you.
    – Jim Balter
    Jun 18, 2020 at 10:56
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    @JimBalter I see, so what you're saying is that C++ programs call C libraries, and C libraries use restrict. The behavior of the C++ program becomes undefined if it violates the restrictions implied by restrict. But this actually has nothing to do with C++, because it's "on you".
    – Kaz
    Jun 18, 2020 at 11:55

There's no such keyword in C++. List of C++ keywords can be found in section 2.11/1 of C++ language standard. restrict is a keyword in C99 version of C language and not in C++.

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    Many C++ compilers support the __restrict__ keyword which is identical as far as I can tell. Dec 27, 2009 at 12:45
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    @Robert: But there is no such keyword in C++. What individual compilers do is their own business, but it is not part of the C++ language.
    – jalf
    Dec 27, 2009 at 16:02
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    Answers like this are. It very helpful. This could be a comment to the original question, but if the question's true purpose is obvious enough (the purpose of the restrict keyword), then it's better to add the real answer after the factual nitpick.
    – nteissler
    Sep 25, 2020 at 20:08

Since header files from some C libraries use the keyword, the C++ language will have to do something about it.. at the minimum, ignoring the keyword, so we don't have to #define the keyword to a blank macro to suppress the keyword.

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    I would guess that's either handled by using an extern C declaration, or by it being silently dropped, as is the case with the AIX C/C++ compiler, which instead handles the __rerstrict__ keyword. That keyword is also supported under gcc so that code will compile the same under g++. Dec 27, 2009 at 12:44

With __restrict__, the compiler can do sophisticated optimizations, as programmer has guranteed the __restrict__ decorated pointers point to data ranges that will definetly not overlap each other.

This is usually the case, so for high performance goal, you can at most times put a __restrict__ decorator to the pointers in your code.

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