ref: ee58f398fec62d3096b0e01da51a3969ed37a32d
dir: /equal.c/
#include "llt.h"
#include "flisp.h"
#include "operators.h"
#include "opcodes.h"
#include "cvalues.h"
#include "equal.h"
#include "hashing.h"
#define BOUNDED_COMPARE_BOUND 128
#define BOUNDED_HASH_BOUND 16384
#ifdef BITS64
#define inthash int64hash
#else
#define inthash int32hash
#endif
// comparable tag
#define cmptag(v) (isfixnum(v) ? TAG_NUM : tag(v))
static value_t
eq_class(htable_t *table, value_t key)
{
value_t c = (value_t)ptrhash_get(table, (void*)key);
if(c == (value_t)HT_NOTFOUND)
return NIL;
if(c == key)
return c;
return eq_class(table, c);
}
static void
eq_union(htable_t *table, value_t a, value_t b, value_t c, value_t cb)
{
value_t ca = c == NIL ? a : c;
if(cb != NIL)
ptrhash_put(table, (void*)cb, (void*)ca);
ptrhash_put(table, (void*)a, (void*)ca);
ptrhash_put(table, (void*)b, (void*)ca);
}
static value_t bounded_compare(value_t a, value_t b, int bound, int eq);
static value_t cyc_compare(value_t a, value_t b, htable_t *table, int eq);
static value_t
bounded_vector_compare(value_t a, value_t b, int bound, int eq)
{
size_t la = vector_size(a);
size_t lb = vector_size(b);
size_t m, i;
if(eq && la != lb)
return fixnum(1);
m = la < lb ? la : lb;
for(i = 0; i < m; i++){
value_t d = bounded_compare(vector_elt(a, i), vector_elt(b, i), bound-1, eq);
if(d == NIL || numval(d) != 0)
return d;
}
if(la < lb)
return fixnum(-1);
if(la > lb)
return fixnum(1);
return fixnum(0);
}
// strange comparisons are resolved arbitrarily but consistently.
// ordering: number < cprim < function < vector < cvalue < symbol < cons
static value_t
bounded_compare(value_t a, value_t b, int bound, int eq)
{
value_t d;
cvalue_t *cv;
compare_top:
if(a == b)
return fixnum(0);
if(bound <= 0)
return NIL;
int taga = tag(a);
int tagb = cmptag(b);
int c;
switch(taga){
case TAG_NUM :
case TAG_NUM1:
if(isfixnum(b))
return (numval(a) < numval(b)) ? fixnum(-1) : fixnum(1);
if(iscprim(b)){
if(cp_class((cprim_t*)ptr(b)) == wchartype)
return fixnum(1);
return fixnum(numeric_compare(a, b, eq, 1, 0));
}
if(iscvalue(b)){
cv = ptr(b);
if(valid_numtype(cv_class(cv)->numtype))
return fixnum(numeric_compare(a, b, eq, 1, 0));
}
return fixnum(-1);
case TAG_SYM:
if(eq || tagb < TAG_SYM)
return fixnum(1);
if(tagb > TAG_SYM)
return fixnum(-1);
return fixnum(strcmp(symbol_name(a), symbol_name(b)));
case TAG_VECTOR:
if(isvector(b))
return bounded_vector_compare(a, b, bound, eq);
break;
case TAG_CPRIM:
if(cp_class((cprim_t*)ptr(a)) == wchartype){
if(!iscprim(b) || cp_class(ptr(b)) != wchartype)
return fixnum(-1);
}else if(iscprim(b) && cp_class(ptr(b)) == wchartype)
return fixnum(1);
c = numeric_compare(a, b, eq, 1, 0);
if(c != 2)
return fixnum(c);
break;
case TAG_CVALUE:
cv = ptr(a);
if(valid_numtype(cv_class(cv)->numtype)){
if((c = numeric_compare(a, b, eq, 1, 0)) != 2)
return fixnum(c);
}
if(iscvalue(b)){
if(cv_isPOD(ptr(a)) && cv_isPOD(ptr(b)))
return cvalue_compare(a, b);
return fixnum(1);
}
break;
case TAG_FUNCTION:
if(tagb == TAG_FUNCTION){
if(uintval(a) > N_BUILTINS && uintval(b) > N_BUILTINS){
function_t *fa = ptr(a);
function_t *fb = ptr(b);
d = bounded_compare(fa->bcode, fb->bcode, bound-1, eq);
if(d == NIL || numval(d) != 0)
return d;
d = bounded_compare(fa->vals, fb->vals, bound-1, eq);
if(d == NIL || numval(d) != 0)
return d;
d = bounded_compare(fa->env, fb->env, bound-1, eq);
if(d == NIL || numval(d) != 0)
return d;
return fixnum(0);
}
return uintval(a) < uintval(b) ? fixnum(-1) : fixnum(1);
}
break;
case TAG_CONS:
if(tagb < TAG_CONS)
return fixnum(1);
d = bounded_compare(car_(a), car_(b), bound-1, eq);
if(d == NIL || numval(d) != 0)
return d;
a = cdr_(a); b = cdr_(b);
bound--;
goto compare_top;
}
return taga < tagb ? fixnum(-1) : fixnum(1);
}
static value_t
cyc_vector_compare(value_t a, value_t b, htable_t *table, int eq)
{
size_t la = vector_size(a);
size_t lb = vector_size(b);
size_t m, i;
value_t d, xa, xb, ca, cb;
// first try to prove them different with no recursion
if(eq && la != lb)
return fixnum(1);
m = la < lb ? la : lb;
for(i = 0; i < m; i++){
xa = vector_elt(a, i);
xb = vector_elt(b, i);
if(leafp(xa) || leafp(xb)){
d = bounded_compare(xa, xb, 1, eq);
if(d != NIL && numval(d) != 0)
return d;
}else if(tag(xa) < tag(xb))
return fixnum(-1);
else if(tag(xa) > tag(xb))
return fixnum(1);
}
ca = eq_class(table, a);
cb = eq_class(table, b);
if(ca != NIL && ca == cb)
return fixnum(0);
eq_union(table, a, b, ca, cb);
for(i = 0; i < m; i++){
xa = vector_elt(a, i);
xb = vector_elt(b, i);
if(!leafp(xa) || tag(xa) == TAG_FUNCTION){
d = cyc_compare(xa, xb, table, eq);
if(numval(d) != 0)
return d;
}
}
if(la < lb)
return fixnum(-1);
if(la > lb)
return fixnum(1);
return fixnum(0);
}
static value_t
cyc_compare(value_t a, value_t b, htable_t *table, int eq)
{
value_t d, ca, cb;
cyc_compare_top:
if(a == b)
return fixnum(0);
if(iscons(a)){
if(iscons(b)){
value_t aa = car_(a);
value_t da = cdr_(a);
value_t ab = car_(b);
value_t db = cdr_(b);
int tagaa = tag(aa);
int tagda = tag(da);
int tagab = tag(ab);
int tagdb = tag(db);
if(leafp(aa) || leafp(ab)){
d = bounded_compare(aa, ab, 1, eq);
if(d != NIL && numval(d) != 0)
return d;
}
if(tagaa < tagab)
return fixnum(-1);
if(tagaa > tagab)
return fixnum(1);
if(leafp(da) || leafp(db)){
d = bounded_compare(da, db, 1, eq);
if(d != NIL && numval(d) != 0)
return d;
}
if(tagda < tagdb)
return fixnum(-1);
if(tagda > tagdb)
return fixnum(1);
ca = eq_class(table, a);
cb = eq_class(table, b);
if(ca != NIL && ca == cb)
return fixnum(0);
eq_union(table, a, b, ca, cb);
d = cyc_compare(aa, ab, table, eq);
if(numval(d) != 0)
return d;
a = da;
b = db;
goto cyc_compare_top;
}else{
return fixnum(1);
}
}
if(isvector(a) && isvector(b))
return cyc_vector_compare(a, b, table, eq);
if(isclosure(a) && isclosure(b)){
function_t *fa = (function_t*)ptr(a);
function_t *fb = (function_t*)ptr(b);
d = bounded_compare(fa->bcode, fb->bcode, 1, eq);
if(numval(d) != 0)
return d;
ca = eq_class(table, a);
cb = eq_class(table, b);
if(ca != NIL && ca == cb)
return fixnum(0);
eq_union(table, a, b, ca, cb);
d = cyc_compare(fa->vals, fb->vals, table, eq);
if(numval(d) != 0)
return d;
a = fa->env;
b = fb->env;
goto cyc_compare_top;
}
return bounded_compare(a, b, 1, eq);
}
static htable_t equal_eq_hashtable;
void
comparehash_init(void)
{
htable_new(&equal_eq_hashtable, 512);
}
// 'eq' means unordered comparison is sufficient
value_t
compare_(value_t a, value_t b, int eq)
{
value_t guess = bounded_compare(a, b, BOUNDED_COMPARE_BOUND, eq);
if(guess == NIL){
guess = cyc_compare(a, b, &equal_eq_hashtable, eq);
htable_reset(&equal_eq_hashtable, 512);
}
return guess;
}
value_t
fl_compare(value_t a, value_t b)
{
return compare_(a, b, 0);
}
value_t
fl_equal(value_t a, value_t b)
{
if(eq_comparable(a, b))
return a == b ? FL_T : FL_F;
return numval(compare_(a, b, 1)) == 0 ? FL_T : FL_F;
}
/*
optimizations:
- use hash updates instead of calling lookup then insert. i.e. get the
bp once and use it twice.
* preallocate hash table and call reset() instead of new/free
* less redundant tag checking, 3-bit tags
*/
#ifdef BITS64
#define MIX(a, b) int64hash((int64_t)(a) ^ (int64_t)(b));
#define doublehash(a) int64hash(a)
#else
#define MIX(a, b) int64to32hash(((int64_t)(a))<<32 | ((int64_t)(b)))
#define doublehash(a) int64to32hash(a)
#endif
// *oob: output argument, means we hit the limit specified by 'bound'
static uintptr_t
bounded_hash(value_t a, int bound, int *oob)
{
*oob = 0;
union {
double d;
int64_t i64;
}u;
numerictype_t nt;
size_t i, len;
cvalue_t *cv;
cprim_t *cp;
void *data;
uintptr_t h = 0;
int oob2, tg = tag(a);
switch(tg){
case TAG_NUM :
case TAG_NUM1:
u.d = (double)numval(a);
return doublehash(u.i64);
case TAG_FUNCTION:
if(uintval(a) > N_BUILTINS)
return bounded_hash(((function_t*)ptr(a))->bcode, bound, oob);
return inthash(a);
case TAG_SYM:
return ((symbol_t*)ptr(a))->hash;
case TAG_CPRIM:
cp = ptr(a);
data = cp_data(cp);
if(cp_class(cp) == wchartype)
return inthash(*(int32_t*)data);
nt = cp_numtype(cp);
u.d = conv_to_double(data, nt);
return doublehash(u.i64);
case TAG_CVALUE:
cv = (cvalue_t*)ptr(a);
data = cv_data(cv);
if(cv->type == mpinttype){
len = mptobe(*(mpint**)data, nil, 0, (uint8_t**)&data);
h = memhash(data, len);
free(data);
}else{
h = memhash(data, cv_len(cv));
}
return h;
case TAG_VECTOR:
if(bound <= 0){
*oob = 1;
return 1;
}
len = vector_size(a);
for(i = 0; i < len; i++){
h = MIX(h, bounded_hash(vector_elt(a, i), bound/2, &oob2)^1);
if(oob2)
bound /= 2;
*oob = *oob || oob2;
}
return h;
case TAG_CONS:
do{
if(bound <= 0){
*oob = 1;
return h;
}
h = MIX(h, bounded_hash(car_(a), bound/2, &oob2));
// bounds balancing: try to share the bounds efficiently
// so we can hash better when a list is cdr-deep (a common case)
if(oob2)
bound /= 2;
else
bound--;
// recursive OOB propagation. otherwise this case is slow:
// (hash '#2=((#0=(#1=(#1#) . #0#)) . #2#))
*oob = *oob || oob2;
a = cdr_(a);
}while(iscons(a));
h = MIX(h, bounded_hash(a, bound-1, &oob2)^2);
*oob = *oob || oob2;
return h;
}
return 0;
}
int
equal_lispvalue(value_t a, value_t b)
{
if(eq_comparable(a, b))
return a == b;
return numval(compare_(a, b, 1)) == 0;
}
uintptr_t
hash_lispvalue(value_t a)
{
int oob = 0;
return bounded_hash(a, BOUNDED_HASH_BOUND, &oob);
}
BUILTIN("hash", hash)
{
argcount(nargs, 1);
return fixnum(hash_lispvalue(args[0]));
}