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It is awesome that ECL can calculate fac(1000) ! How can ECL do it ?

 >(defun fac (n) (if (= n 1) 1 (* n (fac (- n 1)))))
 >(disassemble #'fac)
 #(FAC N = - * #<bytecompiled-function FAC> SI:FSET)
 Name:           FAC                                                                 
    0    POP     REQ
    1    BIND    N
    3    NOMORE
    4    PUSHV   0
    6    PUSH    1
    8    CALLG   2,=
   11    JNIL    18
   13    QUOTE   1
   15    SET     VALUES(0),REG0
   16    JMP     35
   18    PUSHV   0
   20    PUSHV   0
   22    PUSH    1
   24    CALLG   2,-
   27    PUSH    VALUES(0)
   28    CALLG   1,FAC
   31    PUSH    VALUES(0)
   32    CALLG   2,*
   35    EXIT

I know few about ECL bytecode. It seems there is no tail recursive optimization. Can any expert explain it ?

Sincerely!

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This is the byte code, but probably the interpreter can do the optimization? And 1000 level of stack is not really a problem - the interpreter implementation should take care of this case already (if it really does recursion for this case). –  nhahtdh Sep 19 '12 at 1:22
    
1000 is indeed not a problem. (defun fac (n) (reduce #'* (loop for i from 1 to n collect i))) even calculate (fac 30000) or more. Wonderful (E)CL, thanks! –  z_axis Sep 19 '12 at 2:17
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If the interpreter really keeps a stack, it will be implemented as data structure to function like a stack so it can go arbitrarily many levels of stack (not sure about the internal implementation, but it may impose a limit, or the limit is the limit of the system). –  nhahtdh Sep 19 '12 at 7:13
2  
I don't see any tail recursion in the function (#'* is in the tail position), so tail call optimisation isn't relevant. –  Frank Shearar Sep 19 '12 at 9:50
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2 Answers

ECL's interpreter currently does not make tail call optimization. It could be easily implemented, but I do not have the time to do it: basically it amounts to adding one flag to the bytecodes compiler to signal tail calls. In any case, as pointed out here, the ECL interpreter uses a dynamically allocated stack, plus a C stack for interpreter recursion. This means you will get about 1000 C stack frames (small) and some consed lists to keep track of the environment. Currently it suffices, which is ok. On the C side, though, ECL does detect self tail calls and can optimize many of them, and in other cases GCC optimizes mutual tail calls (calls to other functions in tail position).

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I don't know anything about ECL, but what I see from the source code you compiled and then later in dis-assembly, the compiler did its work properly. The function is defined as a recursive call to itself. The same I see in the dis-assembly. Thus, the only problems that may arise during call to this function is a stack overflow and arithmetic overflow.

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Overflow occurs using newlisp to calculate fac(30), so what i really want to know is how (E)CL can do it without overflow. –  z_axis Sep 19 '12 at 2:20
    
btw, does it print out all 2568 digits of the result? –  Serge Sep 19 '12 at 2:40
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@z_axis Automatic promotion from fixnum to bignum, as the reult overflows the size of a fixnum. Relatively simple, in principle (but getting bignum math to be fast can be a bit tricky). –  Vatine Sep 19 '12 at 9:17
    
It print out all digits. –  z_axis Sep 19 '12 at 11:40
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