replacing a recursive call with a goto; saves lots of stack space.

2009-04-07 15:55:13 +00:00 · 2009-04-07 15:55:13 +00:00 · 43cb51f640
parent e119a66bcd
commit 43cb51f640
1 changed files with 69 additions and 60 deletions
--- a/femtolisp/flisp.c
+++ b/femtolisp/flisp.c
@ -660,8 +660,8 @@ static void list(value_t *pv, uint32_t nargs, value_t *plastcdr)

 #define eval(e)         (selfevaluating(e) ? (e) : eval_sexpr((e),penv,0))
 #define topeval(e, env) (selfevaluating(e) ? (e) : eval_sexpr((e),env,1))
-#define tail_eval(xpr) do { SP = saveSP;  \
-    if (selfevaluating(xpr)) { return (xpr); }  \
+#define tail_eval(xpr) do {  \
+    if (selfevaluating(xpr)) { SP=saveSP; return (xpr); }  \
    else { e=(xpr); goto eval_top; } } while (0)

 /* eval a list of expressions, giving a list of the results */
@ -767,24 +767,30 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
    value_t f, v, *pv, *lenv;
    cons_t *c;
    symbol_t *sym;
-    uint32_t saveSP, envsz, nargs;
+    uint32_t saveSP, bp, envsz, nargs;
    int i, noeval=0;
    fixnum_t s, lo, hi;
    cvalue_t *cv;
    int64_t accum;

+    /*
+    ios_printf(ios_stdout, "eval "); print(ios_stdout, e, 0);
+    ios_printf(ios_stdout, " in ");  print(ios_stdout, penv[0], 0);
+    ios_printf(ios_stdout, "\n");
+    */
+    saveSP = SP;
 eval_top:
    if (issymbol(e)) {
        sym = (symbol_t*)ptr(e);
-        if (sym->syntax == TAG_CONST) return sym->binding;
+        if (sym->syntax == TAG_CONST) { SP=saveSP; return sym->binding; }
        while (1) {
            v = *penv++;
            while (iscons(v)) {
-                if (car_(v)==e) return *penv;
+                if (car_(v)==e) { SP=saveSP; return *penv; }
                v = cdr_(v); penv++;
            }
            if (v != NIL) {
-                if (v == e) return *penv;  // dotted list
+                if (v == e) { SP=saveSP; return *penv; } // dotted list
                penv++;
            }
            if (*penv == NIL) break;
@ -792,11 +798,15 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
        }
        if (__unlikely((v = sym->binding) == UNBOUND))
            raise(list2(UnboundError, e));
+        SP = saveSP;
        return v;
    }
-    if (__unlikely(SP >= (N_STACK-MAX_ARGS-4)))
-        return new_stackseg(e, penv, tail);
-    saveSP = SP;
+    if (__unlikely(SP >= (N_STACK-MAX_ARGS-4))) {
+        v = new_stackseg(e, penv, tail);
+        SP = saveSP;
+        return v;
+    }
+    bp = SP;
    v = car_(e);
    PUSH(cdr_(e));
    if (selfevaluating(v)) f=v;
@ -809,40 +819,40 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
        else {
            noeval = 2;
            PUSH(f);
-            v = Stack[saveSP];
+            v = Stack[bp];
            goto move_args;
        }
    }
    else f = eval(v);
    PUSH(f);
-    v = Stack[saveSP];
+    v = Stack[bp];
    // evaluate argument list, placing arguments on stack
    while (iscons(v)) {
-        if (SP-saveSP-2 == MAX_ARGS) {
-            v = evlis(&Stack[saveSP], penv);
+        if (SP-bp-2 == MAX_ARGS) {
+            v = evlis(&Stack[bp], penv);
            PUSH(v);
            break;
        }
        v = car_(v);
        v = eval(v);
        PUSH(v);
-        v = Stack[saveSP] = cdr_(Stack[saveSP]);
+        v = Stack[bp] = cdr_(Stack[bp]);
    }
 do_apply:
-    nargs = SP - saveSP - 2;
+    nargs = SP - bp - 2;
    if (isbuiltinish(f)) {
        // handle builtin function
    apply_special:
        switch (uintval(f)) {
        // special forms
        case F_QUOTE:
-            if (__unlikely(!iscons(Stack[saveSP])))
+            if (__unlikely(!iscons(Stack[bp])))
                lerror(ArgError, "quote: expected argument");
-            v = car_(Stack[saveSP]);
+            v = car_(Stack[bp]);
            break;
        case F_SETQ:
-            e = car(Stack[saveSP]);
-            v = car(cdr_(Stack[saveSP]));
+            e = car(Stack[bp]);
+            v = car(cdr_(Stack[bp]));
            v = eval(v);
            while (1) {
                f = *penv++;
@ -890,7 +900,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
                PUSH(penv[1]); // env has already been captured; share
            }
            c = (cons_t*)ptr(v=cons_reserve(3));
-            e = Stack[saveSP];
+            e = Stack[bp];
            if (!iscons(e)) goto notpair;
            c->car = LAMBDA;
            c->cdr = tagptr(c+1, TAG_CONS); c++;
@ -901,15 +911,15 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            c->cdr = Stack[SP-1];  //env
            break;
        case F_IF:
-            if (!iscons(Stack[saveSP])) goto notpair;
-            v = car_(Stack[saveSP]);
+            if (!iscons(Stack[bp])) goto notpair;
+            v = car_(Stack[bp]);
            if (eval(v) != FL_F) {
-                v = cdr_(Stack[saveSP]);
+                v = cdr_(Stack[bp]);
                if (!iscons(v)) goto notpair;
                v = car_(v);
            }
            else {
-                v = cdr_(Stack[saveSP]);
+                v = cdr_(Stack[bp]);
                if (!iscons(v)) goto notpair;
                if (!iscons(v=cdr_(v))) v = FL_F;  // allow 2-arg form
                else v = car_(v);
@ -917,7 +927,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            tail_eval(v);
            break;
        case F_COND:
-            pv = &Stack[saveSP]; v = FL_F;
+            pv = &Stack[bp]; v = FL_F;
            while (iscons(*pv)) {
                c = tocons(car_(*pv), "cond");
                v = c->car;
@ -941,7 +951,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            }
            break;
        case F_AND:
-            pv = &Stack[saveSP]; v = FL_T;
+            pv = &Stack[bp]; v = FL_T;
            if (iscons(*pv)) {
                while (iscons(cdr_(*pv))) {
                    if ((v=eval(car_(*pv))) == FL_F) {
@ -953,7 +963,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            }
            break;
        case F_OR:
-            pv = &Stack[saveSP]; v = FL_F;
+            pv = &Stack[bp]; v = FL_F;
            if (iscons(*pv)) {
                while (iscons(cdr_(*pv))) {
                    if ((v=eval(car_(*pv))) != FL_F) {
@ -965,11 +975,11 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            }
            break;
        case F_WHILE:
-            PUSH(cdr(Stack[saveSP]));
+            PUSH(cdr(Stack[bp]));
            lenv = &Stack[SP-1];
            PUSH(*lenv);
-            Stack[saveSP] = car_(Stack[saveSP]);
-            value_t *cond = &Stack[saveSP];
+            Stack[bp] = car_(Stack[bp]);
+            value_t *cond = &Stack[bp];
            PUSH(FL_F);
            pv = &Stack[SP-1];
            while (eval(*cond) != FL_F) {
@ -983,7 +993,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            break;
        case F_BEGIN:
            // return last arg
-            pv = &Stack[saveSP];
+            pv = &Stack[bp];
            if (iscons(*pv)) {
                while (iscons(cdr_(*pv))) {
                    v = car_(*pv);
@ -996,7 +1006,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            break;
        case F_PROG1:
            // return first arg
-            pv = &Stack[saveSP];
+            pv = &Stack[bp];
            if (__unlikely(!iscons(*pv)))
                lerror(ArgError, "prog1: too few arguments");
            PUSH(eval(car_(*pv)));
@ -1008,7 +1018,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            v = POP();
            break;
        case F_TRYCATCH:
-            v = do_trycatch(car(Stack[saveSP]), penv);
+            v = do_trycatch(car(Stack[bp]), penv);
            break;

        // ordinary functions
@ -1033,8 +1043,8 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            break;
        case F_LIST:
            if (nargs) {
-                Stack[saveSP] = v;
-                list(&v, nargs, &Stack[saveSP]);
+                Stack[bp] = v;
+                list(&v, nargs, &Stack[bp]);
            }
            // else v is already set to the final cdr, which is the result
            break;
@ -1065,7 +1075,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            }
            else i = 0;
            v = alloc_vector(nargs+i, 0);
-            memcpy(&vector_elt(v,0), &Stack[saveSP+2], nargs*sizeof(value_t));
+            memcpy(&vector_elt(v,0), &Stack[bp+2], nargs*sizeof(value_t));
            if (i > 0) {
                e = Stack[SP-1];
                while (iscons(e)) {
@ -1185,7 +1195,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            break;
        case F_ADD:
            s = 0;
-            i = saveSP+2;
+            i = bp+2;
            if (nargs > MAX_ARGS) goto add_ovf;
            for (; i < (int)SP; i++) {
                if (__likely(isfixnum(Stack[i]))) {
@ -1206,7 +1216,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            break;
        case F_SUB:
            if (__unlikely(nargs < 1)) lerror(ArgError, "-: too few arguments");
-            i = saveSP+2;
+            i = bp+2;
            if (nargs == 1) {
                if (__likely(isfixnum(Stack[i])))
                    v = fixnum(-numval(Stack[i]));
@ -1239,7 +1249,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            break;
        case F_MUL:
            accum = 1;
-            i = saveSP+2;
+            i = bp+2;
            if (nargs > MAX_ARGS) goto mul_ovf;
            for (; i < (int)SP; i++) {
                if (__likely(isfixnum(Stack[i]))) {
@ -1259,7 +1269,7 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            break;
        case F_DIV:
            if (__unlikely(nargs < 1)) lerror(ArgError, "/: too few arguments");
-            i = saveSP+2;
+            i = bp+2;
            if (nargs == 1) {
                v = fl_div2(fixnum(1), Stack[i]);
            }
@ -1361,20 +1371,20 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            }
            break;
        case F_SPECIAL_APPLY:
-            f = Stack[saveSP-4];
-            v = Stack[saveSP-3];
+            f = Stack[bp-4];
+            v = Stack[bp-3];
            PUSH(f);
            PUSH(v);
            nargs = 2;
            // falls through!!
        case F_APPLY:
            argcount("apply", nargs, 2);
-            v = Stack[saveSP]   = Stack[SP-1]; // second arg is new arglist
-            f = Stack[saveSP+1] = Stack[SP-2]; // first arg is new function
+            v = Stack[bp]   = Stack[SP-1]; // second arg is new arglist
+            f = Stack[bp+1] = Stack[SP-2]; // first arg is new function
            POPN(2);                    // pop apply's args
        move_args:
            while (iscons(v)) {
-                if (SP-saveSP-2 == MAX_ARGS) {
+                if (SP-bp-2 == MAX_ARGS) {
                    PUSH(v);
                    break;
                }
@ -1388,15 +1398,15 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
            goto apply_type_error;
        default:
            // function pointer tagged as a builtin
-            v = ((builtin_t)ptr(f))(&Stack[saveSP+2], nargs);
+            v = ((builtin_t)ptr(f))(&Stack[bp+2], nargs);
        }
        SP = saveSP;
        return v;
    }
    if (__likely(iscons(f))) {
        // apply lambda expression
-        f = Stack[saveSP+1];
-        f = Stack[saveSP+1] = cdr_(f);
+        f = Stack[bp+1];
+        f = Stack[bp+1] = cdr_(f);
        if (!iscons(f)) goto notpair;
        v = car_(f); // arglist
        i = nargs;
@ -1424,20 +1434,19 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
                PUSH(NIL);
            }
        }
-        f = cdr_(Stack[saveSP+1]);
+        f = cdr_(Stack[bp+1]);
        if (!iscons(f)) goto notpair;
        e = car_(f);
        if (selfevaluating(e)) { SP=saveSP; return(e); }
        PUSH(cdr_(f));                     // add closed environment
-        Stack[saveSP+1] = car_(Stack[saveSP+1]);  // put lambda list
-        envsz = SP - saveSP - 1;
+        Stack[bp+1] = car_(Stack[bp+1]);  // put lambda list
+        envsz = SP - bp - 1;

        if (noeval == 2) {
            // macro: evaluate body in lambda environment
-            Stack[saveSP] = fixnum(envsz);
-            e = eval_sexpr(e, &Stack[saveSP+1], 1);
-            SP = saveSP;
-            if (selfevaluating(e)) return(e);
+            Stack[bp] = fixnum(envsz);
+            e = eval_sexpr(e, &Stack[bp+1], 1);
+            if (selfevaluating(e)) { SP=saveSP; return(e); }
            noeval = 0;
            // macro: evaluate expansion in calling environment
            goto eval_top;
@ -1447,15 +1456,15 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail)
                // ok to overwrite environment
                penv[-1] = fixnum(envsz);
                for(i=0; i < (int)envsz; i++)
-                    penv[i] = Stack[saveSP+1+i];
+                    penv[i] = Stack[bp+1+i];
                SP = (penv-Stack)+envsz;
                goto eval_top;
            }
            else {
-                Stack[saveSP] = fixnum(envsz);
-                v = eval_sexpr(e, &Stack[saveSP+1], 1);
-                SP = saveSP;
-                return v;
+                Stack[bp] = fixnum(envsz);
+                penv = &Stack[bp+1];
+                tail = 1;
+                goto eval_top;
            }
        }
        // not reached