const double*v2=_v2;
if(!v1 || !v2)
return v1==v2;
- return *v1==*v2;
+
+ if(*v1==*v2) return 1;
+ if(*v1!=*v1 && *v2!=*v2) return 1; //both values are NaN
+ return 0;
}
type_t float_type = {
return newstr;
}
-char* namespace_to_string(namespace_t*ns)
+char* namespace_tostring(namespace_t*ns)
{
if(!ns)
return strdup("NULL");
U8 type = ns->access;
access = access2str(type);
char*s = escape_string(ns->name);
- char*string = (char*)malloc(strlen(access)+strlen(s)+3);
- int l = sprintf(string, "[%s]%s", access, s);
+ char*string = (char*)malloc(strlen(access)+strlen(s)+7);
+ if(!s)
+ sprintf(string, "[%s]NULL", access, s);
+ else if(!*s)
+ sprintf(string, "[%s]\"\"", access, s);
+ else
+ sprintf(string, "[%s]", access, s);
+
free(s);
return string;
}
if(!strcmp(a, "")) access=0x16;
else if(!strcmp(a, "undefined")) access=0x08; // public??
else if(!strcmp(a, "package")) access=0x16;
+ else if(!strcmp(a, "public")) access=0x16;
else if(!strcmp(a, "packageinternal")) access=0x17;
else if(!strcmp(a, "protected")) access=0x18;
else if(!strcmp(a, "explicit")) access=0x19;
set->namespaces = list_new();
return set;
}
-char* namespace_set_to_string(namespace_set_t*set)
+char* namespace_set_tostring(namespace_set_t*set)
{
if(!set)
return strdup("NULL");
int l = 0;
namespace_list_t*lns = set->namespaces;
while(lns) {
- char*s = namespace_to_string(lns->namespace);
+ char*s = namespace_tostring(lns->namespace);
l += strlen(s)+1;
free(s);
lns = lns->next;
strcpy(desc, "{");
lns = set->namespaces;
while(lns) {
- char*s = namespace_to_string(lns->namespace);
+ char*s = namespace_tostring(lns->namespace);
strcat(desc, s);
free(s);
lns = lns->next;
{
NEW(multiname_t,m);
m->type = QNAME;
- m->ns = namespace_clone(ns);
+ if(!ns) {
+ m->ns = namespace_new_packageinternal("");
+ } else {
+ m->ns = namespace_clone(ns);
+ }
m->name = strdup(name);
return m;
}
char* access2str(int type)
{
- if(type==0x08) return "access08";
- else if(type==0x16) return "package";
+ if(type==0x08) return "namespace";
+ else if(type==0x16) return "public";
else if(type==0x17) return "packageinternal";
else if(type==0x18) return "protected";
else if(type==0x19) return "explicit";
m->type==MULTINAMEL || m->type==MULTINAMELA;
}
-char* multiname_to_string(multiname_t*m)
+char* multiname_tostring(multiname_t*m)
{
char*mname = 0;
if(!m)
} else if(m->type==RTQNAMELA) {
mname = strdup("<rt,l,attr>");
} else if(m->type==MULTINAME || m->type==MULTINAMEA) {
- char*s = namespace_set_to_string(m->namespace_set);
+ char*s = namespace_set_tostring(m->namespace_set);
mname = malloc(strlen(s)+namelen+16);
if(m->type == MULTINAME)
strcpy(mname,"<multi>");
strcat(mname, name);
free(s);
} else if(m->type==MULTINAMEL || m->type==MULTINAMELA) {
- char*s = namespace_set_to_string(m->namespace_set);
+ char*s = namespace_set_tostring(m->namespace_set);
mname = malloc(strlen(s)+16);
if(m->type == MULTINAMEL)
strcpy(mname,"<l,multi>");
} else {
fprintf(stderr, "Invalid multiname type: %02x\n", m->type);
}
+ free(name);
return mname;
}
if(m->namespace_set) {
namespace_set_destroy(m->namespace_set);m->namespace_set = 0;
}
+ m->type=0;
free(m);
}
}
equals: (equals_func)multiname_equals
};
+
+// ------------------------------- constants -------------------------------------
+
+#define NS_TYPE(x) ((x) == 0x08 || (x) == 0x16 || (x) == 0x17 || (x) == 0x18 || \
+ (x) == 0x19 || (x) == 0x1a || (x) == 0x05)
+
+#define UNIQUE_CONSTANT(x) ((x) == CONSTANT_TRUE || (x) == CONSTANT_FALSE || (x) == CONSTANT_NULL || (x) == CONSTANT_UNDEFINED)
+
+constant_t* constant_new_int(int i)
+{
+ NEW(constant_t,c);
+ c->i = i;
+ c->type = CONSTANT_INT;
+ return c;
+}
+constant_t* constant_new_uint(unsigned int u)
+{
+ NEW(constant_t,c);
+ c->u = u;
+ c->type = CONSTANT_UINT;
+ return c;
+}
+constant_t* constant_new_float(double f)
+{
+ NEW(constant_t,c);
+ c->f = f;
+ c->type = CONSTANT_FLOAT;
+ return c;
+}
+constant_t* constant_new_string(char*s)
+{
+ NEW(constant_t,c);
+ c->s = string_new4(s);
+ c->type = CONSTANT_STRING;
+ return c;
+}
+constant_t* constant_new_string2(const char*s, int len)
+{
+ NEW(constant_t,c);
+ c->s = string_new3(s, len);
+ c->type = CONSTANT_STRING;
+ return c;
+}
+constant_t* constant_new_namespace(namespace_t*ns)
+{
+ NEW(constant_t,c);
+ c->ns = namespace_clone(ns);
+ c->type = ns->access;
+ assert(NS_TYPE(c->type));
+ return c;
+}
+constant_t* constant_new_true()
+{
+ NEW(constant_t,c);
+ c->type = CONSTANT_TRUE;
+ return c;
+}
+constant_t* constant_new_false()
+{
+ NEW(constant_t,c);
+ c->type = CONSTANT_FALSE;
+ return c;
+}
+constant_t* constant_new_null()
+{
+ NEW(constant_t,c);
+ c->type = CONSTANT_NULL;
+ return c;
+}
+constant_t* constant_new_undefined()
+{
+ NEW(constant_t,c);
+ c->type = CONSTANT_UNDEFINED;
+ return c;
+}
+constant_t* constant_fromindex(pool_t*pool, int index, int type)
+{
+ if(!index) {
+ /* even for nonvalued constants (like TRUE/FALSE etc.), a nonzero
+ index is present to indicate that a type is coming */
+ return 0;
+ }
+ NEW(constant_t,c);
+ c->type = type;
+ if(NS_TYPE(c->type)) {
+ c->ns = namespace_clone(pool_lookup_namespace(pool, index));
+ } else if(c->type == CONSTANT_INT) {
+ c->i = pool_lookup_int(pool, index);
+ } else if(c->type == CONSTANT_UINT) {
+ c->u = pool_lookup_uint(pool, index);
+ } else if(c->type == CONSTANT_FLOAT) {
+ c->f = pool_lookup_float(pool, index);
+ } else if(c->type == CONSTANT_STRING) {
+ string_t s = pool_lookup_string2(pool, index);
+ c->s = string_dup3(&s);
+ } else if(UNIQUE_CONSTANT(c->type)) {
+ // ok
+ } else {
+ fprintf(stderr, "invalid constant type %02x\n", c->type);
+ }
+ return c;
+}
+char* constant_tostring(constant_t*c)
+{
+ if(!c)
+ return strdup("NULL");
+ char buf[32];
+ if(NS_TYPE(c->type)) {
+ return namespace_tostring(c->ns);
+ } else if(c->type == CONSTANT_INT) {
+ sprintf(buf, "%d", c->i);
+ return strdup(buf);
+ } else if(c->type == CONSTANT_UINT) {
+ sprintf(buf, "%u", c->u);
+ return strdup(buf);
+ } else if(c->type == CONSTANT_FLOAT) {
+ char buf[1024];
+ sprintf(buf, "%f", c->f);
+ return strdup(buf);
+ } else if(c->type == CONSTANT_STRING) {
+ /* should we escape the string? \0 bytes won't be printed */
+ return strdup_n(c->s->str,c->s->len);
+ } else if(c->type == CONSTANT_TRUE) {
+ return strdup("true");
+ } else if(c->type == CONSTANT_FALSE) {
+ return strdup("false");
+ } else if(c->type == CONSTANT_NULL) {
+ return strdup("null");
+ } else if(c->type == CONSTANT_UNDEFINED) {
+ return strdup("undefined");
+ } else {
+ fprintf(stderr, "invalid constant type %02x\n", c->type);
+ return 0;
+ }
+}
+char constant_has_index(constant_t*c)
+{
+ if(!c)
+ return 0;
+ return !UNIQUE_CONSTANT(c->type);
+}
+int constant_get_index(pool_t*pool, constant_t*c)
+{
+ if(!c)
+ return 0;
+ if(NS_TYPE(c->type)) {
+ assert(c->ns);
+ /*if(c->type!=c->ns->access) {
+ printf("%02x<->%02x\n", c->type, c->ns->access);
+ }*/
+ assert(c->type == c->ns->access);
+ return pool_register_namespace(pool, c->ns);
+ } else if(c->type == CONSTANT_INT) {
+ return pool_register_int(pool, c->i);
+ } else if(c->type == CONSTANT_UINT) {
+ return pool_register_uint(pool, c->u);
+ } else if(c->type == CONSTANT_FLOAT) {
+ return pool_register_float(pool, c->f);
+ } else if(c->type == CONSTANT_STRING) {
+ return pool_register_string2(pool, c->s);
+ } else if(!constant_has_index(c)) {
+ return 1;
+ } else {
+ fprintf(stderr, "invalid constant type %02x\n", c->type);
+ return 0;
+ }
+}
+void constant_free(constant_t*c)
+{
+ if(!c)
+ return;
+ if(c->type == CONSTANT_STRING) {
+ string_free(c->s);
+ } else if (NS_TYPE(c->type)) {
+ namespace_destroy(c->ns);c->ns=0;
+ }
+ free(c);
+}
+// --------------------------- optimizing -----------------------------------
+
+static int array_append_or_increase(array_t*array, void*key)
+{
+ int pos = array_find(array, key);
+ if(pos>=0) {
+ array->d[pos].data++;
+ return pos;
+ } else {
+ return array_append(array, key, 0);
+ }
+}
+static int compare_arrayentry(const void*_c1, const void*_c2)
+{
+ const array_entry_t*c1 = _c1;
+ const array_entry_t*c2 = _c2;
+ return c2->data - c1->data;
+}
+
+static void* nodup(const void*o) {return (void*)o;}
+
+static void reshuffle_array(array_t*array)
+{
+ qsort(array->d+1, array->num-1, sizeof(array->d[0]), compare_arrayentry);
+ type_t* old_type = array->entry2pos->key_type;
+ type_t old_type_nodup = *old_type;
+ old_type_nodup.dup = nodup;
+ dict_t*d = dict_new2(&old_type_nodup);
+ dict_destroy_shallow(array->entry2pos);
+ array->entry2pos = d;
+ int t;
+ for(t=0;t<array->num;t++) {
+ dict_put(array->entry2pos, array->d[t].name, (void*)(ptroff_t)(t+1));
+ }
+ d->key_type = old_type;
+
+}
+
// ------------------------------- pool -------------------------------------
int pool_register_uint(pool_t*p, unsigned int i)
{
- int pos = array_append_if_new(p->x_uints, &i, 0);
+ int pos = array_append_or_increase(p->x_uints, &i);
assert(pos!=0);
return pos;
}
int pool_register_int(pool_t*p, int i)
{
- int pos = array_append_if_new(p->x_ints, &i, 0);
+ int pos = array_append_or_increase(p->x_ints, &i);
assert(pos!=0);
return pos;
}
int pool_register_float(pool_t*p, double d)
{
- int pos = array_append_if_new(p->x_floats, &d, 0);
+ int pos = array_append_or_increase(p->x_floats, &d);
assert(pos!=0);
return pos;
}
-int pool_register_string(pool_t*pool, const char*s)
+int pool_register_string(pool_t*pool, const char*str)
{
- if(!s) return 0;
- int pos = array_append_if_new(pool->x_strings, s, 0);
+ if(!str) return 0;
+ string_t s = string_new2(str);
+ int pos = array_append_or_increase(pool->x_strings, &s);
+ assert(pos!=0);
+ return pos;
+}
+int pool_register_string2(pool_t*pool, string_t*s)
+{
+ if(!s || !s->str) return 0;
+ int pos = array_append_or_increase(pool->x_strings, s);
assert(pos!=0);
return pos;
}
int pool_register_namespace(pool_t*pool, namespace_t*ns)
{
if(!ns) return 0;
- int pos = array_append_if_new(pool->x_namespaces, ns, 0);
+ int pos = array_append_or_increase(pool->x_namespaces, ns);
assert(pos!=0);
return pos;
}
int pool_register_namespace_set(pool_t*pool, namespace_set_t*set)
{
if(!set) return 0;
- int pos = array_append_if_new(pool->x_namespace_sets, set, 0);
+ int pos = array_append_or_increase(pool->x_namespace_sets, set);
assert(pos!=0);
return pos;
}
int pool_register_multiname(pool_t*pool, multiname_t*n)
{
if(!n) return 0;
- int pos = array_append_if_new(pool->x_multinames, n, 0);
- if(pos==0) {
- *(int*)0=0xdead;
- }
+ int pos = array_append_or_increase(pool->x_multinames, n);
assert(pos!=0);
return pos;
}
{
if(!name) return 0;
multiname_t*n = multiname_fromstring(name);
- int pos = array_append_if_new(pool->x_multinames, n, 0);
+ int pos = array_append_or_increase(pool->x_multinames, n);
multiname_destroy(n);
assert(pos!=0);
return pos;
return 0;
int i = array_find(pool->x_namespaces, ns);
if(i<=0) {
- char*s = namespace_to_string(ns);
+ char*s = namespace_tostring(ns);
fprintf(stderr, "Couldn't find namespace \"%s\" %08x in constant pool\n", s, ns);
free(s);
return 0;
return 0;
int i = array_find(pool->x_namespace_sets, set);
if(i<=0) {
- char*s = namespace_set_to_string(set);
+ char*s = namespace_set_tostring(set);
fprintf(stderr, "Couldn't find namespace_set \"%s\" in constant pool\n", s);
free(s);
return 0;
}
return i;
}
-int pool_find_string(pool_t*pool, const char*s)
+int pool_find_string(pool_t*pool, const char*str)
{
- if(!s)
+ if(!str)
return 0;
- int i = array_find(pool->x_strings, s);
+ string_t s = string_new2(str);
+ int i = array_find(pool->x_strings, &s);
if(i<=0) {
fprintf(stderr, "Couldn't find string \"%s\" in constant pool\n", s);
return 0;
return 0;
int i = array_find(pool->x_multinames, name);
if(i<=0) {
- char*s = multiname_to_string(name);
+ char*s = multiname_tostring(name);
fprintf(stderr, "Couldn't find multiname \"%s\" in constant pool\n", s);
free(s);
return 0;
if(!i) return __builtin_nan("");
return *(double*)array_getkey(pool->x_floats, i);
}
-char*pool_lookup_string(pool_t*pool, int i)
+const char*pool_lookup_string(pool_t*pool, int i)
+{
+ string_t*s = array_getkey(pool->x_strings, i);
+ if(!s) return 0;
+ return s->str;
+}
+string_t pool_lookup_string2(pool_t*pool, int i)
{
- return (char*)array_getkey(pool->x_strings, i);
+ string_t*s = array_getkey(pool->x_strings, i);
+ return *s;
}
namespace_t*pool_lookup_namespace(pool_t*pool, int i)
{
p->x_ints = array_new2(&uint_type);
p->x_uints = array_new2(&uint_type);
p->x_floats = array_new2(&float_type);
- p->x_strings = array_new2(&charptr_type);
+ p->x_strings = array_new2(&stringstruct_type);
p->x_namespaces = array_new2(&namespace_type);
p->x_namespace_sets = array_new2(&namespace_set_type);
p->x_multinames = array_new2(&multiname_type);
return p;
}
+void pool_optimize(pool_t*p)
+{
+ reshuffle_array(p->x_ints);
+ reshuffle_array(p->x_uints);
+ reshuffle_array(p->x_floats);
+ reshuffle_array(p->x_strings);
+ reshuffle_array(p->x_namespaces);
+ reshuffle_array(p->x_namespace_sets);
+ reshuffle_array(p->x_multinames);
+}
+
#define DEBUG if(0)
//#define DEBUG
DEBUG printf("%d ints\n", num_ints);
int t;
for(t=1;t<num_ints;t++) {
- S32 v = swf_GetS30(tag);
+ S32 v = swf_GetABCS32(tag);
DEBUG printf("int %d) %d\n", t, v);
array_append(pool->x_ints, &v, 0);
}
int num_uints = swf_GetU30(tag);
DEBUG printf("%d uints\n", num_uints);
for(t=1;t<num_uints;t++) {
- U32 v = swf_GetU30(tag);
+ U32 v = swf_GetABCU32(tag);
DEBUG printf("uint %d) %d\n", t, v);
array_append(pool->x_uints, &v, 0);
}
DEBUG printf("%d strings\n", num_strings);
for(t=1;t<num_strings;t++) {
int len = swf_GetU30(tag);
- char*s = malloc(len+1);
- swf_GetBlock(tag, s, len);
- s[len] = 0;
- array_append(pool->x_strings, s, 0);
- free(s);
- DEBUG printf("%d) \"%s\"\n", t, pool->x_strings->d[t].name);
+ string_t s = string_new(&tag->data[tag->pos], len);
+ swf_GetBlock(tag, 0, len);
+ array_append(pool->x_strings, &s, 0);
+ DEBUG printf("%d) \"%s\"\n", t, ((string_t*)array_getkey(pool->x_strings, t))->str);
}
int num_namespaces = swf_GetU30(tag);
DEBUG printf("%d namespaces\n", num_namespaces);
for(t=1;t<num_namespaces;t++) {
U8 type = swf_GetU8(tag);
int namenr = swf_GetU30(tag);
- const char*name = "";
- if(namenr) //spec page 22: "a value of zero denotes an empty string"
- name = array_getkey(pool->x_strings, namenr);
+ const char*name = 0;
+ if(namenr)
+ name = pool_lookup_string(pool, namenr);
namespace_t*ns = namespace_new(type, name);
array_append(pool->x_namespaces, ns, 0);
- DEBUG printf("%d) %02x \"%s\"\n", t, type, namespace_to_string(ns));
+ DEBUG printf("%d) %02x \"%s\"\n", t, type, namespace_tostring(ns));
namespace_destroy(ns);
}
int num_sets = swf_GetU30(tag);
list_append(nsset->namespaces, namespace_clone(ns));
}
array_append(pool->x_namespace_sets, nsset, 0);
- DEBUG printf("set %d) %s\n", t, namespace_set_to_string(nsset));
+ DEBUG printf("set %d) %s\n", t, namespace_set_tostring(nsset));
namespace_set_destroy(nsset);
}
m.ns = (namespace_t*)array_getkey(pool->x_namespaces, namespace_index);
int name_index = swf_GetU30(tag);
if(name_index) // 0 = '*' (any)
- m.name = array_getkey(pool->x_strings, name_index);
+ m.name = pool_lookup_string(pool, name_index);
} else if(m.type==0x0f || m.type==0x10) {
int name_index = swf_GetU30(tag);
if(name_index) // 0 = '*' (any name)
- m.name = array_getkey(pool->x_strings, name_index);
+ m.name = pool_lookup_string(pool, name_index);
} else if(m.type==0x11 || m.type==0x12) {
} else if(m.type==0x09 || m.type==0x0e) {
int name_index = swf_GetU30(tag);
int namespace_set_index = swf_GetU30(tag);
if(name_index)
- m.name = array_getkey(pool->x_strings, name_index);
+ m.name = pool_lookup_string(pool, name_index);
m.namespace_set = (namespace_set_t*)array_getkey(pool->x_namespace_sets, namespace_set_index);
} else if(m.type==0x1b || m.type==0x1c) {
int namespace_set_index = swf_GetU30(tag);
} else {
printf("can't parse type %d multinames yet\n", m.type);
}
- DEBUG printf("multiname %d) %s\n", t, multiname_to_string(&m));
+ DEBUG printf("multiname %d) %s\n", t, multiname_tostring(&m));
array_append(pool->x_multinames, &m, 0);
}
- printf("%d ints\n", num_ints);
- printf("%d uints\n", num_uints);
- printf("%d strings\n", num_strings);
- printf("%d namespaces\n", num_namespaces);
- printf("%d namespace sets\n", num_sets);
- printf("%d multinames\n", num_multinames);
+}
+
+void pool_dump(pool_t*pool, FILE*fo, char flags)
+{
+ int t;
+ fprintf(fo, "%d integers\n", pool->x_ints->num);
+ for(t=1;t<pool->x_ints->num;t++) {
+ S32 val = *(int*)array_getkey(pool->x_ints, t);
+ int freq = (int)(ptroff_t)array_getvalue(pool->x_ints, t);
+ if(flags&1) fprintf(fo, "%5d %d) %d\n", freq, t, val);
+ }
+ fprintf(fo, "%d unsigned integers\n", pool->x_uints->num);
+ for(t=1;t<pool->x_uints->num;t++) {
+ U32 val = *(unsigned int*)array_getkey(pool->x_uints, t);
+ int freq = (int)(ptroff_t)array_getvalue(pool->x_uints, t);
+ if(flags&1) fprintf(fo, "%5d %d) %d\n", freq, t, val);
+ }
+ fprintf(fo, "%d floats\n", pool->x_floats->num);
+ for(t=1;t<pool->x_floats->num;t++) {
+ double d = pool_lookup_float(pool, t);
+ int freq = (int)(ptroff_t)array_getvalue(pool->x_floats, t);
+ if(flags&2) fprintf(fo, "%5d %d) %f\n", freq, t, d);
+ }
+ fprintf(fo, "%d strings\n", pool->x_strings->num);
+ for(t=1;t<pool->x_strings->num;t++) {
+ string_t str = pool_lookup_string2(pool, t);
+ int freq = (int)(ptroff_t)array_getvalue(pool->x_strings, t);
+ if(flags&1) fprintf(fo, "%5d %d) ", freq, t);
+ if(flags&1) fwrite(str.str, str.len, 1, fo);
+ if(flags&1) fprintf(fo, "\n", t);
+ }
+ fprintf(fo, "%d namespaces\n", pool->x_namespaces->num);
+ for(t=1;t<pool->x_namespaces->num;t++) {
+ namespace_t*ns= (namespace_t*)array_getkey(pool->x_namespaces, t);
+ char*s = namespace_tostring(ns);
+ int freq = (int)(ptroff_t)array_getvalue(pool->x_namespaces, t);
+ if(flags&1) fprintf(fo, "%5d %d) %s\n", freq, t, s);
+ free(s);
+ }
+ fprintf(fo, "%d namespace sets\n", pool->x_namespace_sets->num);
+ for(t=1;t<pool->x_namespace_sets->num;t++) {
+ namespace_set_t*set = (namespace_set_t*)array_getkey(pool->x_namespace_sets, t);
+ char*s = namespace_set_tostring(set);
+ int freq = (int)(ptroff_t)array_getvalue(pool->x_namespace_sets, t);
+ if(flags&1) fprintf(fo, "%5d %d) %s\n", freq, t, s);
+ free(s);
+ }
+
+ fprintf(fo, "%d multinames\n", pool->x_multinames->num);
+ for(t=1;t<pool->x_multinames->num;t++) {
+ multiname_t*m = (multiname_t*)array_getkey(pool->x_multinames, t);
+ char*s = multiname_tostring(m);
+ int freq = (int)(ptroff_t)array_getvalue(pool->x_multinames, t);
+ if(flags&1) fprintf(fo, "%5d %d) %s\n", freq, t, s);
+ free(s);
+ }
}
void pool_write(pool_t*pool, TAG*tag)
}
for(t=1;t<pool->x_namespaces->num;t++) {
namespace_t*ns= (namespace_t*)array_getkey(pool->x_namespaces, t);
- if(ns->name && ns->name[0])
- array_append_if_new(pool->x_strings, ns->name, 0);
+ /* The spec says (page 22): "a value of zero denotes an empty string".
+ However when actually using zero strings as empty namespaces, the
+ flash player breaks.*/
+ //if(ns->name && ns->name[0])
+ pool_register_string(pool, ns->name);
}
+ //pool_register_int(pool, 15);
+ //pool_register_int(pool, 1);
+ //pool_register_int(pool, 0);
+
/* write data */
swf_SetU30(tag, pool->x_ints->num>1?pool->x_ints->num:0);
for(t=1;t<pool->x_ints->num;t++) {
S32 val = *(int*)array_getkey(pool->x_ints, t);
- swf_SetS30(tag, val);
+ swf_SetABCS32(tag, val);
}
swf_SetU30(tag, pool->x_uints->num>1?pool->x_uints->num:0);
for(t=1;t<pool->x_uints->num;t++) {
- swf_SetU30(tag, *(unsigned int*)array_getkey(pool->x_uints, t));
+ swf_SetABCU32(tag, *(unsigned int*)array_getkey(pool->x_uints, t));
}
swf_SetU30(tag, pool->x_floats->num>1?pool->x_floats->num:0);
for(t=1;t<pool->x_floats->num;t++) {
- array_getvalue(pool->x_floats, t);
- swf_SetD64(tag, 0.0); // fixme
+ double d = pool_lookup_float(pool, t);
+ swf_SetD64(tag, d);
}
swf_SetU30(tag, pool->x_strings->num>1?pool->x_strings->num:0);
for(t=1;t<pool->x_strings->num;t++) {
- swf_SetU30String(tag, array_getkey(pool->x_strings, t));
+ string_t str = pool_lookup_string2(pool, t);
+ swf_SetU30String(tag, str.str, str.len);
}
swf_SetU30(tag, pool->x_namespaces->num>1?pool->x_namespaces->num:0);
for(t=1;t<pool->x_namespaces->num;t++) {
swf_SetU8(tag, ns->access);
const char*name = ns->name;
int i = 0;
- if(name && name[0])
- i = pool_find_string(pool, name);
+
+ //if(name && name[0])
+ i = pool_find_string(pool, name);
+
swf_SetU30(tag, i);
}
swf_SetU30(tag, pool->x_namespace_sets->num>1?pool->x_namespace_sets->num:0);