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Do the c/c++ compilers push structs by value onto the stack, memcopying hundreds of bytes onto the stack if the programmer specifies a large struct? Does returning structs incur the same penalty?

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BTW, if you defined the compiler & ABI, how would you pass large structures outside of the stack??? – Basile Starynkevitch Aug 3 '13 at 22:20
by reference .... – grunge fightr Aug 6 '13 at 11:20

2 Answers 2

up vote 1 down vote accepted

Yes, the compiler will almost certainly do something like a memcpy to copy the struct or class of hundreds of bytes onto the stack if that's what you asked for. If that wasn't the case something like this wouldn't work:

std::string s = "A large amount of text";

std::string r = rev(s);
std::cout << s << " reversed is " << r << std::endl; 

std::string rev(std::string s)
   std::string::size_type len = s.length();
   for(std::string::size_type i = 0; i < len / 2; i++)
      swap(s[i], s[len-i]);
   return s;

This is why it's nearly always recommended to use const references when possible, as it passes just a pointer to the object.

Since the above example got objected to, here's another example:

class mystring
    char s[200];
    size_t len;
    mystring(const char *aS)
       strcpy(s, aS);
       len = strlen(s);
    char& operator[](int index)
       return s[index];
    size_t length() 
       return len; 

mystring str("Some long string");
mystring rev = rev_my_str(s);

mystring rev_my_str(mystring s)
   size_t len = s.length();
   for(size_t i = 0; i < len / 2; i++)
      swap(s[i], s[len-i]);
   return s;

In fact, this will make space for TWO mystring objects on the stack, one for s going into rev_my_str, and one for the return value.


Assembler generated by g++ -O1 [1] for the call to rev_my_string as above. The interesting bit is the rep movsq along with the setup of %ecx, %rsi and %rdi (count, source and destination, respectively). $26 is the number of 8 byte units that it will copy. 26 * 8 = 208 bytes. %rsp is the stack pointer. This is almost exactly how a memcpy would look if it was inlined in a simple form [actual memcpy most likely has a whole bunch of extra work to deal with unaligned start/end and using SSE instructions, etc].

movl    $26, %ecx
movq    %rsp, %rdi
movq    %rbx, %rsi
rep movsq
leaq    416(%rsp), %rdi
call    _Z10rev_my_str8mystring

And rev_my_string itself looks like this. Note the rep movsq at the bottom of the function. That's where it stores back the resulting string.

movq    %rdi, %rax
movq    208(%rsp), %r9
movq    %r9, %r10
shrq    %r10
je  .L5
addq    $1, %r10
movl    $1, %edx
movl    %r9d, %ecx
subl    %edx, %ecx
leaq    7(%rsp), %rsi
addq    %rdx, %rsi
movzbl  (%rsi), %edi
movslq  %ecx, %rcx
movzbl  8(%rsp,%rcx), %r8d
movb    %r8b, (%rsi)
movb    %dil, 8(%rsp,%rcx)
addq    $1, %rdx
cmpq    %r10, %rdx
jne .L6
movl    $26, %ecx
movq    %rax, %rdi
leaq    8(%rsp), %rsi
rep movsq

[1] Using higher optimisation than that makes the compiler inline too much of the code (for example the rev_my_string function gets inlined), and it gets very hard to see what goes on.

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The example is not conclusive on Linux/X86-64 where std::string contains a single pointer so sizeof(std::string) == sizeof(void*) and copy-constructors (or assignment operator) for std::string are clever. – Basile Starynkevitch Aug 4 '13 at 7:17
Yes, the example may not be perfect, but it will create a COPY of the whole string - the string in rev is a complete new copy of s than the one in the other code. – Mats Petersson Aug 4 '13 at 7:19
Yes, but making a copy is the essence of value passing... – Basile Starynkevitch Aug 4 '13 at 7:20
@BasileStarynkevitch: Have made a more complex example as well now. – Mats Petersson Aug 4 '13 at 7:27
could maybe you show this two copies in assembly ? - I would be wery much intrested in that proof (!) – grunge fightr Aug 4 '13 at 8:06

Yes most compilers do push on stack, or copy to stack value-passed structures (and classes) . It is generally required by the ABI (application binary interface) specification relative to the compiler & processor & operating system.

See e.g. X86 calling conventions & System V ABI x86-64 for details (at least for Linux, x86-64).

Practically speaking, large structures are on the stack, passing (silently) a pointer to them thru registers.

The ABI defines if these structures are in the caller or callee call frame...

For two-word sized struct-s the Linux x86-64 ABI often passes them (both as argument & as result) thru a pair of registers.

With GCC, try compiling using gcc -O -S -fverbose-asm foo.c to get the assembly code foo.s; you could use also GCC MELT probe or gcc -fdump-tree-all to understand the internal (Gimple) representations.

Notice that some quite complex class in C++ may have a small value size, because internally a lot of pointers are involved. For instance, on Linux/AMD64 sizeof(std::string) is just one (8 byte) word (containing a pointer to some complex stuff), which is probably passed by register. Likewise many containers of the C++ standard library have a small value size (most of the real data being indirectly accessed thru pointers). Details are obviously implementation specific.

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do caller do that - (such pushlike memcopy) ? – grunge fightr Aug 4 '13 at 7:04
Details depend upon the ABI. – Basile Starynkevitch Aug 4 '13 at 7:10

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