/* internal constructor. NAME must be an immutable string. */
static ScmSymbol *make_sym(ScmClass *klass, ScmString *name, int interned)
{
if (interned) {
/* fast path */
SCM_INTERNAL_MUTEX_LOCK(obtable_mutex);
ScmObj e = Scm_HashTableRef(obtable, SCM_OBJ(name), SCM_FALSE);
SCM_INTERNAL_MUTEX_UNLOCK(obtable_mutex);
if (!SCM_FALSEP(e)) return SCM_SYMBOL(e);
}
ScmSymbol *sym = SCM_NEW(ScmSymbol);
SCM_SET_CLASS(sym, klass);
sym->name = name;
sym->flags = interned? SCM_SYMBOL_FLAG_INTERNED : 0;
if (!interned) {
return sym;
} else {
/* Using SCM_DICT_NO_OVERWRITE ensures that if another thread interns
the same name symbol between above HashTableRef and here, we'll
get the already interned symbol. */
SCM_INTERNAL_MUTEX_LOCK(obtable_mutex);
ScmObj e = Scm_HashTableSet(obtable, SCM_OBJ(name), SCM_OBJ(sym),
SCM_DICT_NO_OVERWRITE);
SCM_INTERNAL_MUTEX_UNLOCK(obtable_mutex);
return SCM_SYMBOL(e);
}
}
/*
* External entry to manage registering callbacks
* 'xtra1' and 'xtra2' are ignored by most callbacks; only the two callbacks
* use them:
* glutTimerFunc: xtra1 for millliseconds, xtra2 for value
* glutJoystickFunc: xtra1 for interval
*/
void Scm_GlutRegisterCallback(int type, ScmObj closure, int xtra1, int xtra2)
{
SCM_ASSERT(type >= 0 && type < SCM_GLUT_NUM_CBS);
if (type < SCM_GLUT_NUM_WINDOW_CBS) {
int win = glutGetWindow();
ScmObj entry = Scm_HashTableRef(SCM_HASH_TABLE(ScmGlutCallbackTable),
SCM_MAKE_INT(win), SCM_FALSE);
if (SCM_EQ(entry, SCM_FALSE)) {
entry = Scm_MakeVector(SCM_GLUT_NUM_WINDOW_CBS, SCM_FALSE);
Scm_HashTableSet(SCM_HASH_TABLE(ScmGlutCallbackTable),
SCM_MAKE_INT(win), entry, 0);
}
SCM_VECTOR_ELEMENT(entry, type) = closure;
registrars[type](!SCM_FALSEP(closure), xtra1);
} else if (type == SCM_GLUT_CB_IDLE) {
idle_closure = closure;
if (SCM_FALSEP(closure)) {
glutIdleFunc(NULL);
} else {
glutIdleFunc(idle_cb);
}
} else {
timer_closure = closure;
if (!SCM_FALSEP(closure)) {
glutTimerFunc(xtra1, timer_cb, xtra2);
}
}
}
/* In unified keyword, we include preceding ':' to the name. */
ScmObj Scm_MakeKeyword(ScmString *name)
{
#if GAUCHE_UNIFY_SYMBOL_KEYWORD
/* We could optimize this later. */
ScmObj prefix = Scm_MakeString(":", 1, 1, SCM_STRING_IMMUTABLE);
ScmObj sname = Scm_StringAppend2(SCM_STRING(prefix), name);
ScmSymbol *s = make_sym(SCM_CLASS_KEYWORD, SCM_STRING(sname), TRUE);
Scm_DefineConst(Scm_KeywordModule(), s, SCM_OBJ(s));
return SCM_OBJ(s);
#else /*!GAUCHE_UNIFY_SYMBOL_KEYWORD*/
(void)SCM_INTERNAL_MUTEX_LOCK(keywords.mutex);
ScmObj r = Scm_HashTableRef(keywords.table, SCM_OBJ(name), SCM_FALSE);
(void)SCM_INTERNAL_MUTEX_UNLOCK(keywords.mutex);
if (SCM_KEYWORDP(r)) return r;
ScmKeyword *k = SCM_NEW(ScmKeyword);
SCM_SET_CLASS(k, SCM_CLASS_KEYWORD);
k->name = SCM_STRING(Scm_CopyString(name));
(void)SCM_INTERNAL_MUTEX_LOCK(keywords.mutex);
r = Scm_HashTableSet(keywords.table, SCM_OBJ(name), SCM_OBJ(k),
SCM_DICT_NO_OVERWRITE);
(void)SCM_INTERNAL_MUTEX_UNLOCK(keywords.mutex);
return r;
#endif /*!GAUCHE_UNIFY_SYMBOL_KEYWORD*/
}
/* In unified keyword, we include preceding ':' to the name. */
ScmObj Scm_MakeKeyword(ScmString *name)
{
#if GAUCHE_KEEP_DISJOINT_KEYWORD_OPTION
if (keyword_disjoint_p) {
(void)SCM_INTERNAL_MUTEX_LOCK(keywords.mutex);
ScmObj r = Scm_HashTableRef(keywords.table, SCM_OBJ(name), SCM_FALSE);
(void)SCM_INTERNAL_MUTEX_UNLOCK(keywords.mutex);
if (SCM_KEYWORDP(r)) return r;
ScmKeyword *k = SCM_NEW(ScmKeyword);
SCM_SET_CLASS(k, SCM_CLASS_KEYWORD);
k->name = SCM_STRING(Scm_CopyString(name));
(void)SCM_INTERNAL_MUTEX_LOCK(keywords.mutex);
r = Scm_HashTableSet(keywords.table, SCM_OBJ(name), SCM_OBJ(k),
SCM_DICT_NO_OVERWRITE);
(void)SCM_INTERNAL_MUTEX_UNLOCK(keywords.mutex);
return r;
}
#endif /*GAUCHE_KEEP_DISJOINT_KEYWORD_OPTION*/
ScmObj sname = Scm_StringAppend2(&keyword_prefix, name);
ScmSymbol *s = make_sym(SCM_CLASS_KEYWORD, SCM_STRING(sname), TRUE);
Scm_DefineConst(Scm__GaucheKeywordModule(), s, SCM_OBJ(s));
return SCM_OBJ(s);
}
static ScmObj get_callback(int type)
{
int win = glutGetWindow();
ScmObj entry = Scm_HashTableRef(SCM_HASH_TABLE(ScmGlutCallbackTable),
SCM_MAKE_INT(win), SCM_FALSE);
SCM_ASSERT(type >= 0 && type < SCM_GLUT_NUM_WINDOW_CBS);
if (SCM_VECTORP(entry)) {
return SCM_VECTOR_ELEMENT(entry, type);
} else {
return SCM_FALSE;
}
}
/* register samples into the stat table. Called from Scm_ProfilerResult */
void collect_samples(ScmVMProfiler *prof)
{
for (int i=0; i<prof->currentSample; i++) {
ScmObj e = Scm_HashTableRef(prof->statHash,
prof->samples[i].func, SCM_UNBOUND);
if (SCM_UNBOUNDP(e)) {
/* NB: just for now */
Scm_Warn("profiler: uncounted object appeared in a sample: %p (%S)\n",
prof->samples[i].func, prof->samples[i].func);
} else {
SCM_ASSERT(SCM_PAIRP(e));
int cnt = SCM_INT_VALUE(SCM_CDR(e)) + 1;
SCM_SET_CDR(e, SCM_MAKE_INT(cnt));
}
}
}
/* Returns a keyword whose name is NAME. Note that preceding ':' is not
* a part of the keyword name.
*/
ScmObj Scm_MakeKeyword(ScmString *name)
{
ScmObj r;
ScmKeyword *k;
(void)SCM_INTERNAL_MUTEX_LOCK(keywords.mutex);
r = Scm_HashTableRef(keywords.table, SCM_OBJ(name), SCM_FALSE);
(void)SCM_INTERNAL_MUTEX_UNLOCK(keywords.mutex);
if (SCM_KEYWORDP(r)) return r;
k = SCM_NEW(ScmKeyword);
SCM_SET_CLASS(k, SCM_CLASS_KEYWORD);
k->name = SCM_STRING(Scm_CopyString(name));
(void)SCM_INTERNAL_MUTEX_LOCK(keywords.mutex);
r = Scm_HashTableSet(keywords.table, SCM_OBJ(name), SCM_OBJ(k),
SCM_DICT_NO_OVERWRITE);
(void)SCM_INTERNAL_MUTEX_UNLOCK(keywords.mutex);
return r;
}
/* Trick: The hashtable contains positive integer after the walk pass.
If we emit a reference tag N, we replace the entry's value to -N,
so that we can distinguish whether we've already emitted the object
or not. */
static void write_rec(ScmObj obj, ScmPort *port, ScmWriteContext *ctx)
{
char numbuf[50]; /* enough to contain long number */
ScmObj stack = SCM_NIL;
ScmWriteState *st = port->writeState;
ScmHashTable *ht = (st? st->sharedTable : NULL);
int stack_depth = 0;
#define PUSH(elt) \
do { \
stack = Scm_Cons(elt, stack); \
if (!ht && ++stack_depth > STACK_LIMIT) { \
Scm_Error("write recursed too deeply; " \
"maybe a circular structure?"); \
} \
} while (0)
#define POP() \
do { \
stack = SCM_CDR(stack); \
if (ht) stack_depth--; \
} while (0)
for (;;) {
write1:
if (ctx->flags & WRITE_LIMITED) {
if (port->src.ostr.length >= ctx->limit) return;
}
/* number may be heap allocated, but we don't use srfi-38 notation. */
if (!SCM_PTRP(obj) || SCM_NUMBERP(obj)) {
if (SCM_FALSEP(Scm__WritePrimitive(obj, port, ctx))) {
Scm_Panic("write: got a bogus object: %08x", SCM_WORD(obj));
}
goto next;
}
if ((SCM_STRINGP(obj) && SCM_STRING_SIZE(obj) == 0)
|| (SCM_VECTORP(obj) && SCM_VECTOR_SIZE(obj) == 0)) {
/* we don't put a reference tag for these */
write_general(obj, port, ctx);
goto next;
}
if (ht) {
ScmObj e = Scm_HashTableRef(ht, obj, SCM_MAKE_INT(1));
long k = SCM_INT_VALUE(e);
if (k <= 0) {
/* This object is already printed. */
snprintf(numbuf, 50, "#%ld#", -k);
Scm_PutzUnsafe(numbuf, -1, port);
goto next;
} else if (k > 1) {
/* This object will be seen again. Put a reference tag. */
ScmWriteState *s = port->writeState;
snprintf(numbuf, 50, "#%d=", s->sharedCounter);
Scm_HashTableSet(ht, obj, SCM_MAKE_INT(-s->sharedCounter), 0);
s->sharedCounter++;
Scm_PutzUnsafe(numbuf, -1, port);
}
}
/* Writes aggregates */
if (SCM_PAIRP(obj)) {
/* special case for quote etc.
NB: we need to check if we've seen SCM_CDR(obj), otherwise we'll
get infinite recursion for the case like (cdr '#1='#1#). */
if (SCM_PAIRP(SCM_CDR(obj)) && SCM_NULLP(SCM_CDDR(obj))
&& (!ht
|| SCM_FALSEP(Scm_HashTableRef(ht, SCM_CDR(obj), SCM_FALSE)))){
const char *prefix = NULL;
if (SCM_CAR(obj) == SCM_SYM_QUOTE) {
prefix = "'";
} else if (SCM_CAR(obj) == SCM_SYM_QUASIQUOTE) {
prefix = "`";
} else if (SCM_CAR(obj) == SCM_SYM_UNQUOTE) {
prefix = ",";
} else if (SCM_CAR(obj) == SCM_SYM_UNQUOTE_SPLICING) {
prefix = ",@";
}
if (prefix) {
Scm_PutzUnsafe(prefix, -1, port);
obj = SCM_CADR(obj);
goto write1;
}
}
/* normal case */
Scm_PutcUnsafe('(', port);
PUSH(Scm_Cons(SCM_TRUE, SCM_CDR(obj)));
obj = SCM_CAR(obj);
goto write1;
} else if (SCM_VECTORP(obj)) {
Scm_PutzUnsafe("#(", -1, port);
PUSH(Scm_Cons(SCM_MAKE_INT(1), obj));
obj = SCM_VECTOR_ELEMENT(obj, 0);
goto write1;
} else {
/* string or user-defined object */
write_general(obj, port, ctx);
goto next;
}
next:
while (SCM_PAIRP(stack)) {
ScmObj top = SCM_CAR(stack);
SCM_ASSERT(SCM_PAIRP(top));
if (SCM_INTP(SCM_CAR(top))) {
/* we're processing a vector */
ScmObj v = SCM_CDR(top);
int i = SCM_INT_VALUE(SCM_CAR(top));
int len = SCM_VECTOR_SIZE(v);
if (i == len) { /* we've done this vector */
Scm_PutcUnsafe(')', port);
POP();
} else {
Scm_PutcUnsafe(' ', port);
obj = SCM_VECTOR_ELEMENT(v, i);
SCM_SET_CAR(top, SCM_MAKE_INT(i+1));
goto write1;
}
} else {
/* we're processing a list */
ScmObj v = SCM_CDR(top);
if (SCM_NULLP(v)) { /* we've done with this list */
Scm_PutcUnsafe(')', port);
POP();
} else if (!SCM_PAIRP(v)) {
Scm_PutzUnsafe(" . ", -1, port);
obj = v;
SCM_SET_CDR(top, SCM_NIL);
goto write1;
} else if (ht && !SCM_EQ(Scm_HashTableRef(ht, v, SCM_MAKE_INT(1)), SCM_MAKE_INT(1))) {
/* cdr part is shared */
Scm_PutzUnsafe(" . ", -1, port);
obj = v;
SCM_SET_CDR(top, SCM_NIL);
goto write1;
} else {
Scm_PutcUnsafe(' ', port);
obj = SCM_CAR(v);
SCM_SET_CDR(top, SCM_CDR(v));
goto write1;
}
}
}
break;
}
#undef PUSH
#undef POP
}
/* Trick: The hashtable contains positive integer after the walk pass.
If we emit a reference tag N, we replace the entry's value to -N,
so that we can distinguish whether we've already emitted the object
or not. */
static void write_rec(ScmObj obj, ScmPort *port, ScmWriteContext *ctx)
{
char numbuf[50]; /* enough to contain long number */
ScmObj stack = SCM_NIL;
ScmWriteState *st = port->writeState;
ScmHashTable *ht = (st? st->sharedTable : NULL);
const ScmWriteControls *wp = Scm_GetWriteControls(ctx, st);
int stack_depth = 0; /* only used when !ht */
#define PUSH(elt) \
do { \
stack = Scm_Cons(elt, stack); \
if (!ht && ++stack_depth > STACK_LIMIT) { \
Scm_Error("write recursed too deeply; " \
"maybe a circular structure?"); \
} \
} while (0)
#define POP() \
do { \
stack = SCM_CDR(stack); \
if (!ht) stack_depth--; \
} while (0)
#define CHECK_LEVEL() \
do { \
if (st) { \
if (wp->printLevel >= 0 && st->currentLevel >= wp->printLevel) { \
Scm_PutcUnsafe('#', port); \
goto next; \
} else { \
if (st) st->currentLevel++; \
} \
} \
} while (0)
for (;;) {
write1:
if (ctx->flags & WRITE_LIMITED) {
if (port->src.ostr.length >= ctx->limit) return;
}
/* number may be heap allocated, but we don't use srfi-38 notation. */
if (!SCM_PTRP(obj) || SCM_NUMBERP(obj)) {
if (SCM_FALSEP(Scm__WritePrimitive(obj, port, ctx))) {
Scm_Panic("write: got a bogus object: %08x", SCM_WORD(obj));
}
goto next;
}
if ((SCM_STRINGP(obj) && SCM_STRING_SIZE(obj) == 0)
|| (SCM_VECTORP(obj) && SCM_VECTOR_SIZE(obj) == 0)) {
/* we don't put a reference tag for these */
write_general(obj, port, ctx);
goto next;
}
/* obj is heap allocated and we may use label notation. */
if (ht) {
ScmObj e = Scm_HashTableRef(ht, obj, SCM_MAKE_INT(1));
long k = SCM_INT_VALUE(e);
if (k <= 0) {
/* This object is already printed. */
snprintf(numbuf, 50, "#%ld#", -k);
Scm_PutzUnsafe(numbuf, -1, port);
goto next;
} else if (k > 1) {
/* This object will be seen again. Put a reference tag. */
ScmWriteState *s = port->writeState;
snprintf(numbuf, 50, "#%d=", s->sharedCounter);
Scm_HashTableSet(ht, obj, SCM_MAKE_INT(-s->sharedCounter), 0);
s->sharedCounter++;
Scm_PutzUnsafe(numbuf, -1, port);
}
}
/* Writes aggregates */
if (SCM_PAIRP(obj)) {
CHECK_LEVEL();
/* special case for quote etc.
NB: we need to check if we've seen SCM_CDR(obj), otherwise we'll
get infinite recursion for the case like (cdr '#1='#1#). */
if (SCM_PAIRP(SCM_CDR(obj)) && SCM_NULLP(SCM_CDDR(obj))
&& (!ht
|| SCM_FALSEP(Scm_HashTableRef(ht, SCM_CDR(obj), SCM_FALSE)))){
const char *prefix = NULL;
if (SCM_CAR(obj) == SCM_SYM_QUOTE) {
prefix = "'";
} else if (SCM_CAR(obj) == SCM_SYM_QUASIQUOTE) {
prefix = "`";
} else if (SCM_CAR(obj) == SCM_SYM_UNQUOTE) {
prefix = ",";
} else if (SCM_CAR(obj) == SCM_SYM_UNQUOTE_SPLICING) {
prefix = ",@";
}
if (prefix) {
Scm_PutzUnsafe(prefix, -1, port);
obj = SCM_CADR(obj);
goto write1;
}
}
if (wp->printLength == 0) {
/* in this case we don't print the elements at all, so we need
to treat this specially. */
Scm_PutzUnsafe("(...)", -1, port);
if (st) st->currentLevel--;
goto next;
}
/* normal case */
Scm_PutcUnsafe('(', port);
PUSH(Scm_Cons(SCM_TRUE, Scm_Cons(SCM_MAKE_INT(1), SCM_CDR(obj))));
obj = SCM_CAR(obj);
goto write1;
} else if (SCM_VECTORP(obj)) {
CHECK_LEVEL();
if (wp->printLength == 0) {
/* in this case we don't print the elements at all, so we need
to treat this specially. */
Scm_PutzUnsafe("#(...)", -1, port);
if (st) st->currentLevel--;
goto next;
}
Scm_PutzUnsafe("#(", -1, port);
PUSH(Scm_Cons(SCM_MAKE_INT(1), obj));
obj = SCM_VECTOR_ELEMENT(obj, 0);
goto write1;
} else if (Scm_ClassOf(obj)->flags & SCM_CLASS_AGGREGATE) {
CHECK_LEVEL();
write_general(obj, port, ctx);
if (st) st->currentLevel--;
goto next;
} else {
write_general(obj, port, ctx);
goto next;
}
next:
while (SCM_PAIRP(stack)) {
ScmObj top = SCM_CAR(stack);
SCM_ASSERT(SCM_PAIRP(top));
if (SCM_INTP(SCM_CAR(top))) {
/* we're processing a vector */
ScmObj v = SCM_CDR(top);
int i = SCM_INT_VALUE(SCM_CAR(top));
int len = SCM_VECTOR_SIZE(v);
if (i == len) { /* we've done this vector */
Scm_PutcUnsafe(')', port);
POP();
} else if (wp->printLength >= 0 && wp->printLength <= i) {
Scm_PutzUnsafe(" ...)", -1, port);
POP();
} else {
Scm_PutcUnsafe(' ', port);
obj = SCM_VECTOR_ELEMENT(v, i);
SCM_SET_CAR(top, SCM_MAKE_INT(i+1));
goto write1;
}
} else {
/* we're processing a list */
SCM_ASSERT(SCM_PAIRP(SCM_CDR(top)));
long count = SCM_INT_VALUE(SCM_CADR(top));
ScmObj v = SCM_CDDR(top);
if (SCM_NULLP(v)) { /* we've done with this list */
Scm_PutcUnsafe(')', port);
POP();
} else if (!SCM_PAIRP(v)) {
/* Improper list. We treat aggregate types specially,
since such object at this position shouldn't increment
"level" - its content is regarded as the same level of
the current list.
*/
Scm_PutzUnsafe(" . ", -1, port);
if (Scm_ClassOf(v)->flags & SCM_CLASS_AGGREGATE) {
if (st) st->currentLevel--;
write_rec(v, port, ctx);
if (st) st->currentLevel++;
Scm_PutcUnsafe(')', port);
POP();
} else {
obj = v;
SCM_SET_CAR(SCM_CDR(top), SCM_MAKE_INT(count+1));
SCM_SET_CDR(SCM_CDR(top), SCM_NIL);
goto write1;
}
} else if (wp->printLength >= 0 && wp->printLength <= count) {
/* print-length limit reached */
Scm_PutzUnsafe(" ...)", -1, port);
POP();
} else if (ht && !SCM_EQ(Scm_HashTableRef(ht, v, SCM_MAKE_INT(1)), SCM_MAKE_INT(1))) {
/* cdr part is shared */
Scm_PutzUnsafe(" . ", -1, port);
obj = v;
SCM_SET_CAR(SCM_CDR(top), SCM_MAKE_INT(count+1));
SCM_SET_CDR(SCM_CDR(top), SCM_NIL);
goto write1;
} else {
Scm_PutcUnsafe(' ', port);
obj = SCM_CAR(v);
SCM_SET_CAR(SCM_CDR(top), SCM_MAKE_INT(count+1));
SCM_SET_CDR(SCM_CDR(top), SCM_CDR(v));
goto write1;
}
}
if (st) st->currentLevel--;
}
break;
}
#undef PUSH
#undef POP
#undef CHECK_DEPTH
}
