Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

While playing around with template recursion in D, I found that the intermediate results of the classical factorial are still in the object file. I suppose they are also in the executable...?

I can see that the actually executed code contains only the value (or a pointer to it) but:

Shouldn't there be a single mov statement without the intermediate data being saved for no reason?

This is the code:

int main()
{
  static int x = factorial!(5);
  return x;//factorial!(5);
}

template factorial(int n)
{
  static if (n == 1)
    const factorial = 1;
  else
    const factorial = n * factorial!(n-1);
}

and this is the output of obj2asm test.o:

( for your convenience: 1! = 1h, 2! = 2h, 3! = 6h, 4! = 18h, 5! = 78h )

FLAT    group   
;File = test_fac_01.d
    extrn   _main
    public  _deh_beg
    public  _deh_end
    public  _tlsstart
    public  _tlsend
    public  _D11test_fac_014mainFZi1xi
    extrn   _GLOBAL_OFFSET_TABLE_
    public  _Dmain
    public  _D11test_fac_0112__ModuleInfoZ
    extrn   _Dmodule_ref
    public  _D11test_fac_017__arrayZ
    public  _D11test_fac_018__assertFiZv
    public  _D11test_fac_0115__unittest_failFiZv
    extrn   _d_array_bounds
    extrn   _d_unittestm
    extrn   _d_assertm
.text   segment
    assume  CS:.text
:
        mov EAX,offset FLAT:_D11test_fac_0112__ModuleInfoZ[018h]@32
        mov ECX,offset FLAT:_Dmodule_ref@32
        mov RDX,[RCX]
        mov [RAX],RDX
        mov [RCX],RAX
        ret
.text   ends
.data   segment
_D11test_fac_0112__ModuleInfoZ:
    db  004h,000h,000h,0ffffff80h,000h,000h,000h,000h   ;........
    db  074h,065h,073h,074h,05fh,066h,061h,063h ;test_fac
    db  05fh,030h,031h,000h,000h,000h,000h,000h ;_01.....
    db  000h,000h,000h,000h,000h,000h,000h,000h ;........
    dq  offset FLAT:_D11test_fac_0112__ModuleInfoZ@64
.data   ends
.bss    segment
.bss    ends
.rodata segment
.rodata ends
.tdata  segment
_tlsstart:
    db  000h,000h,000h,000h,000h,000h,000h,000h ;........
    db  000h,000h,000h,000h,000h,000h,000h,000h ;........
.tdata  ends
.tdata. segment
_D11test_fac_014mainFZi1xi:
    db  078h,000h,000h,000h ;x...
.tdata. ends
.text._Dmain    segment
    assume  CS:.text._Dmain
_Dmain:
        push    RBP
        mov RBP,RSP
        mov RAX,FS:[00h]
        mov RCX,_D11test_fac_014mainFZi1xi@GOTTPOFF[RIP]
        mov EAX,[RCX][RAX]
        pop RBP
        ret
        nop
        nop
        nop
.text._Dmain    ends
.data._D11test_fac_0117__T9factorialVi5Z9factorialxi    segment
_D11test_fac_0117__T9factorialVi5Z9factorialxi:
    db  078h,000h,000h,000h ;x...
.data._D11test_fac_0117__T9factorialVi5Z9factorialxi    ends
.data._D11test_fac_0117__T9factorialVi4Z9factorialxi    segment
_D11test_fac_0117__T9factorialVi4Z9factorialxi:
    db  018h,000h,000h,000h ;....
.data._D11test_fac_0117__T9factorialVi4Z9factorialxi    ends
.data._D11test_fac_0117__T9factorialVi3Z9factorialxi    segment
_D11test_fac_0117__T9factorialVi3Z9factorialxi:
    db  006h,000h,000h,000h ;....
.data._D11test_fac_0117__T9factorialVi3Z9factorialxi    ends
.data._D11test_fac_0117__T9factorialVi2Z9factorialxi    segment
_D11test_fac_0117__T9factorialVi2Z9factorialxi:
    db  002h,000h,000h,000h ;....
.data._D11test_fac_0117__T9factorialVi2Z9factorialxi    ends
.data._D11test_fac_0117__T9factorialVi1Z9factorialxi    segment
_D11test_fac_0117__T9factorialVi1Z9factorialxi:
    db  001h,000h,000h,000h ;....
.data._D11test_fac_0117__T9factorialVi1Z9factorialxi    ends
.ctors  segment
    dq  offset FLAT:@64
.ctors  ends
.text._D11test_fac_017__arrayZ  segment
    assume  CS:.text._D11test_fac_017__arrayZ
_D11test_fac_017__arrayZ:
        push    RBP
        mov RBP,RSP
        sub RSP,010h
        mov RSI,RDI
        mov RDI,offset FLAT:_D11test_fac_0112__ModuleInfoZ@64
        call      _d_array_bounds@PC32
        nop
        nop
.text._D11test_fac_017__arrayZ  ends
.text._D11test_fac_018__assertFiZv  segment
    assume  CS:.text._D11test_fac_018__assertFiZv
_D11test_fac_018__assertFiZv:
        push    RBP
        mov RBP,RSP
        sub RSP,010h
        mov RSI,RDI
        mov RDI,offset FLAT:_D11test_fac_0112__ModuleInfoZ@64
        call      _d_assertm@PC32
        nop
        nop
.text._D11test_fac_018__assertFiZv  ends
.text._D11test_fac_0115__unittest_failFiZv  segment
    assume  CS:.text._D11test_fac_0115__unittest_failFiZv
_D11test_fac_0115__unittest_failFiZv:
        push    RBP
        mov RBP,RSP
        sub RSP,010h
        mov RSI,RDI
        mov RDI,offset FLAT:_D11test_fac_0112__ModuleInfoZ@64
        call      _d_unittestm@PC32
        leave
        ret
.text._D11test_fac_0115__unittest_failFiZv  ends
    end
share|improve this question
    
did you check whether they are in the executable. also did you compile with debug on? –  ratchet freak Sep 21 '12 at 14:12
    
I compiled without debugging symbols (dmd without options). I tried with optimisation, the outcome is the same. How do I check the executable= –  steffen Sep 21 '12 at 14:27
    
It is a good question. I expected static int x = factorial!5 to be somewhat similar to enum fac5=58; static int x = fac5; but it is most likely that it is something different. –  DejanLekic Sep 21 '12 at 14:27
1  
static creates a variable with an address, whereas an enum is copy-pasted every place that it is used. It has no address, and the result is very different for stuff like array literals, since you'll get only one with a static variable, whereas with an enum, a new one will be instantiated every time that the enum is used. –  Jonathan M Davis Sep 21 '12 at 17:34

1 Answer 1

up vote 4 down vote accepted

You shouldn't use templates when what you want is compile-time function execution. Just write the function as you would and call it in a static context.

int main()
{
  static int x = factorial(5); // static causes CTFE
  return x;
}

int factorial(int n)
{
  if (n == 1)
    return 1;
  else
    return n * factorial(n-1);
}

This won't result in any extra symbols because factorial is evaluated at compile time. There are no symbols other than factorial itself. Your template trick instantiates symbols to achieve the same effect, but it's not symbols you want.

Alternatively, if you still want to use templates, but don't want symbols then you can use manifest constants via enum.

template factorial(int n)
{
  static if (n == 1)
    enum factorial = 1;
  else
    enum factorial = n * factorial!(n-1);
}

Notice the change from const to enum. enum values are purely compile-time, so they produce no symbols or data in the object files.

share|improve this answer
    
Out of curiosity, is there a reason to use static int rather than enum for something that might as well be immutable? –  YotaXP Sep 26 '12 at 22:53
1  
@YotaXP: Well, for immutable values, use immutable :) Anyway, the difference between static and enum is that enums are not symbols. You cannot take the address of an enum, enums occupy use zero memory, and you cannot examine the value of an enum in a debugger. Main reason to use static immutable is if you need to take the address, or if the object is so large that you don't want to replicate the data all over your code. An enum array for example will create copies of the array every time you use it. In a sense, enums are inline constants. –  Peter Alexander Sep 27 '12 at 6:37

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.