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some optimizations

This commit is contained in:
JeffBezanson 2009-04-16 14:21:16 +00:00
parent ad4a086790
commit 0a3590aa01
1 changed files with 37 additions and 34 deletions
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71
femtolisp/flisp.c
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@ -771,6 +771,7 @@ static value_t do_trycatch(value_t expr, value_t *penv, uint32_t envsz)
static value_t do_trycatch2()
{
uint32_t saveSP = SP;
value_t v;
value_t thunk = Stack[SP-2];
Stack[SP-2] = Stack[SP-1];
@ -783,6 +784,7 @@ static value_t do_trycatch2()
Stack[SP-1] = lasterror;
v = apply_cl(1);
}
SP = saveSP;
return v;
}
@ -1426,7 +1428,9 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail, uint32_t envsz)
assert(SP > bp+1);
if (__likely(iscons(f))) {
if (car_(f) == COMPILEDLAMBDA) {
i = SP;
e = apply_cl(nargs);
SP = i;
if (noeval == 2) {
if (selfevaluating(e)) { SP=saveSP; return(e); }
noeval = 0;
@ -1510,12 +1514,12 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail, uint32_t envsz)
- provide arg count
- respect tail position
- call correct entry point (either eval_sexpr or apply_cl)
- restore SP
callee's responsibility:
- check arg counts
- allocate vararg array
- push closed env, set up new environment
- restore SP
** need 'copyenv' instruction that moves env to heap, installs
heap version as the current env, and pushes the result vector.
@ -1525,34 +1529,31 @@ static value_t eval_sexpr(value_t e, value_t *penv, int tail, uint32_t envsz)
*/
static value_t apply_cl(uint32_t nargs)
{
uint32_t i, n, ip, bp, envsz, saveSP=SP;
uint32_t i, n, ip, bp, envsz, captured;
fixnum_t s, lo, hi;
int64_t accum;
uint8_t op, *code;
value_t func, v, bcode, x, e, ftl;
value_t *penv, *pvals, *lenv, *pv;
value_t func, v, bcode, x, e;
value_t *pvals, *lenv, *pv;
symbol_t *sym;
cons_t *c;
apply_cl_top:
captured = 0;
func = Stack[SP-nargs-1];
assert(iscons(func));
assert(iscons(cdr_(func)));
assert(iscons(cdr_(cdr_(func))));
ftl = cdr_(cdr_(func));
bcode = car_(ftl);
x = cdr_(cdr_(func));
bcode = car_(x);
code = cv_data((cvalue_t*)ptr(car_(bcode)));
assert(!ismanaged((uptrint_t)code));
if (nargs < code[1])
lerror(ArgError, "apply: too few arguments");
bp = SP-nargs;
x = cdr_(ftl); // cloenv
Stack[bp-1] = car_(cdr_(func)); // lambda list
penv = &Stack[bp-1];
x = cdr_(x); // cloenv
PUSH(x);
// must keep a reference to the bcode object while executing it
PUSH(bcode);
PUSH(cdr_(bcode));
pvals = &Stack[SP-1];
@ -1579,15 +1580,13 @@ static value_t apply_cl(uint32_t nargs)
Stack[bp+i] = v;
Stack[bp+i+1] = Stack[bp+nargs];
Stack[bp+i+2] = Stack[bp+nargs+1];
Stack[bp+i+3] = Stack[bp+nargs+2];
pvals = &Stack[bp+nargs+2];
pvals = &Stack[bp+nargs+1];
}
else {
PUSH(NIL);
Stack[SP-1] = Stack[SP-2];
Stack[SP-2] = Stack[SP-3];
Stack[SP-3] = Stack[SP-4];
Stack[SP-4] = NIL;
Stack[SP-3] = NIL;
pvals = &Stack[SP-1];
}
nargs = i+1;
@ -1656,7 +1655,7 @@ static value_t apply_cl(uint32_t nargs)
if (v != FL_F) ip = *(uint32_t*)&code[ip];
else ip += 4;
break;
case OP_RET: v = POP(); SP = saveSP; return v;
case OP_RET: v = POP(); return v;
case OP_EQ:
Stack[SP-2] = ((Stack[SP-2] == Stack[SP-1]) ? FL_T : FL_F);
@ -1962,10 +1961,12 @@ static value_t apply_cl(uint32_t nargs)
//f = Stack[SP-1];
v = FL_F;
SP += 2;
i = SP;
for(s=lo; s <= hi; s++) {
Stack[SP-2] = Stack[SP-3];
Stack[SP-1] = fixnum(s);
v = apply_cl(1);
SP = i;
}
POPN(4);
Stack[SP-1] = v;
@ -2017,10 +2018,11 @@ static value_t apply_cl(uint32_t nargs)
case OP_LOADA:
assert(nargs > 0);
i = code[ip++];
if (penv[0] == NIL) {
assert(isvector(penv[1]));
assert(i+1 < vector_size(penv[1]));
v = vector_elt(penv[1], i+1);
if (captured) {
x = Stack[bp];
assert(isvector(x));
assert(i < vector_size(x));
v = vector_elt(x, i);
}
else {
assert(bp+i < SP);
@ -2032,10 +2034,11 @@ static value_t apply_cl(uint32_t nargs)
assert(nargs > 0);
v = Stack[SP-1];
i = code[ip++];
if (penv[0] == NIL) {
assert(isvector(penv[1]));
assert(i+1 < vector_size(penv[1]));
vector_elt(penv[1], i+1) = v;
if (captured) {
x = Stack[bp];
assert(isvector(x));
assert(i < vector_size(x));
vector_elt(x, i) = v;
}
else {
assert(bp+i < SP);
@ -2045,16 +2048,16 @@ static value_t apply_cl(uint32_t nargs)
case OP_LOADC:
case OP_SETC:
s = code[ip++];
i = code[ip++]+1;
if (penv[0]==NIL) {
i = code[ip++];
if (captured) {
if (nargs > 0) {
// current frame has been captured
s++;
}
v = penv[1];
v = Stack[bp];
}
else {
v = penv[nargs+1];
v = Stack[bp+nargs];
}
while (s--)
v = vector_elt(v, vector_size(v)-1);
@ -2068,10 +2071,10 @@ static value_t apply_cl(uint32_t nargs)
case OP_CLOSURE:
// build a closure (lambda args body . env)
if (penv[0] != NIL) {
if (nargs > 0 && !captured) {
// save temporary environment to the heap
lenv = penv;
envsz = nargs+2;
lenv = &Stack[bp];
envsz = nargs+1;
pv = alloc_words(envsz + 1);
PUSH(tagptr(pv, TAG_VECTOR));
pv[0] = fixnum(envsz);
@ -2080,11 +2083,11 @@ static value_t apply_cl(uint32_t nargs)
*pv++ = *lenv++;
// environment representation changed; install
// the new representation so everybody can see it
penv[0] = NIL;
penv[1] = Stack[SP-1];
captured = 1;
Stack[bp] = Stack[SP-1];
}
else {
PUSH(penv[1]); // env has already been captured; share
PUSH(Stack[bp]); // env has already been captured; share
}
c = (cons_t*)ptr(v=cons_reserve(3));
e = cdr_(Stack[SP-2]); // closure to copy