+ code_t*c = 0;
+
+ c = add_scope_code(c, m, 1);
+
+ methodstate_list_t*l = m->innerfunctions;
+ while(l) {
+ parserassert(l->methodstate->abc);
+ if(m->uses_slots && l->methodstate->is_a_slot) {
+ c = abc_getscopeobject(c, 1);
+ c = abc_newfunction(c, l->methodstate->abc);
+ c = abc_dup(c);
+ c = abc_setlocal(c, l->methodstate->var_index);
+ c = abc_setslot(c, l->methodstate->slot_index);
+ } else {
+ c = abc_newfunction(c, l->methodstate->abc);
+ c = abc_setlocal(c, l->methodstate->var_index);
+ }
+ free(l->methodstate);l->methodstate=0;
+ l = l->next;
+ }
+ if(m->header) {
+ c = code_append(c, m->header);
+ m->header = 0;
+ }
+ if(m->is_constructor && !m->has_super) {
+ // call default constructor
+ c = abc_getlocal_0(c);
+ c = abc_constructsuper(c, 0);
+ }
+
+ if(m->slots) {
+ /* all parameters that are used by inner functions
+ need to be copied from local to slot */
+ parserassert(m->activation_var);
+ DICT_ITERATE_ITEMS(m->slots,char*,name,variable_t*,v) {
+ if(v->is_parameter) {
+ c = abc_getlocal(c, m->activation_var);
+ c = abc_getlocal(c, v->index);
+ c = abc_setslot(c, v->index);
+ }
+ }
+ }
+ list_free(m->innerfunctions);
+ m->innerfunctions = 0;
+ return c;
+}
+
+
+static code_t* wrap_function(code_t*c,code_t*header, code_t*body)
+{
+ c = code_append(c, header);
+ c = code_append(c, var_block(body, state->method->no_variable_scoping?state->method->allvars:state->vars));
+ /* append return if necessary */
+ if(!c || (c->opcode != OPCODE_RETURNVOID &&
+ c->opcode != OPCODE_RETURNVALUE)) {
+ c = abc_returnvoid(c);
+ }
+ return c;
+}
+
+static void startpackage(char*name)
+{
+ new_state();
+ state->package = strdup(name);
+}
+static void endpackage()
+{
+ //used e.g. in classinfo_register:
+ //free(state->package);state->package=0;
+ old_state();
+}
+
+#define FLAG_PUBLIC 256
+#define FLAG_PROTECTED 512
+#define FLAG_PRIVATE 1024
+#define FLAG_PACKAGEINTERNAL 2048
+#define FLAG_NAMESPACE 4096
+
+static slotinfo_t* find_class(const char*name);
+
+const char* lookup_namespace(const char*name)
+{
+ state_t*s = state;
+ while(s) {
+ const char*url = dict_lookup(s->namespaces, name);
+ if(url)
+ return url;
+ s = s->old;
+ }
+ varinfo_t*a;
+ registry_find(state->package, name);
+ if(( a = (varinfo_t*)find_class(name) )) {
+ if(a->kind == INFOTYPE_VAR) {
+ if(!a->value || !NS_TYPE(a->value->type))
+ syntaxerror("%s.%s is not a namespace", a->package, a->name);
+ return a->value->ns->name;
+ }
+ }
+ return 0;
+}
+
+static namespace_t modifiers2access(modifiers_t*mod)
+{
+ namespace_t ns;
+ ns.access = 0;
+ ns.name = "";
+ if(mod->flags&FLAG_NAMESPACE) {
+ if(mod->flags&(FLAG_PRIVATE|FLAG_PROTECTED|FLAG_PACKAGEINTERNAL))
+ syntaxerror("invalid combination of access levels and namespaces");
+ ns.access = ACCESS_NAMESPACE;
+ const char*url = lookup_namespace(mod->ns);
+ if(!url) {
+ if(as3_pass>1) {
+ syntaxerror("unknown namespace: %s (pass %d)", mod->ns, as3_pass);
+ } else {
+ url = mod->ns;
+ }
+ }
+ ns.name = url;
+ } else if(mod->flags&FLAG_PUBLIC) {
+ if(mod->flags&(FLAG_PRIVATE|FLAG_PROTECTED|FLAG_PACKAGEINTERNAL))
+ syntaxerror("invalid combination of access levels");
+ ns.access = ACCESS_PACKAGE;
+ } else if(mod->flags&FLAG_PRIVATE) {
+ if(mod->flags&(FLAG_PUBLIC|FLAG_PROTECTED|FLAG_PACKAGEINTERNAL))
+ syntaxerror("invalid combination of access levels");
+ ns.access = ACCESS_PRIVATE;
+ } else if(mod->flags&FLAG_PROTECTED) {
+ if(mod->flags&(FLAG_PUBLIC|FLAG_PRIVATE|FLAG_PACKAGEINTERNAL))
+ syntaxerror("invalid combination of access levels");
+ ns.access = ACCESS_PROTECTED;
+ } else {
+ ns.access = ACCESS_PACKAGEINTERNAL;
+ }
+ return ns;
+}
+
+static memberinfo_t* findmember_nsset(classinfo_t*cls, const char*name, char recurse, char is_static)
+{
+ return registry_findmember_nsset(cls, state->active_namespace_urls, name, recurse, is_static);
+}
+
+static void innerfunctions2vars(methodstate_t*m)
+{
+ methodstate_list_t*l = m->innerfunctions;
+ while(l) {
+ methodstate_t*m = l->methodstate;
+
+ variable_t* v = new_variable2(state->method, m->info->name, TYPE_FUNCTION(m->info), 0, 0);
+ m->var_index = v->index;
+ if(m->is_a_slot)
+ m->slot_index = m->is_a_slot;
+ v->is_inner_method = m;
+ l = l->next;
+ }
+}
+
+static void function_initvars(methodstate_t*m, char has_params, params_t*params, int flags, char var0)
+{
+ if(var0) {
+ int index = -1;
+ if(m->inner)
+ index = new_variable(m, "this", 0, 0, 0);
+ else if(!m->is_global)
+ index = new_variable(m, (flags&FLAG_STATIC)?"class":"this", state->cls?state->cls->info:0, 0, 0);
+ else
+ index = new_variable(m, "globalscope", 0, 0, 0);
+ if(index) {
+ DICT_ITERATE_ITEMS(state->vars, char*, name, variable_t*, v) {
+ printf("%s %d\n", name, v->index);
+ }
+ }
+ parserassert(!index);
+ }
+
+ if(has_params) {
+ param_list_t*p=0;
+ for(p=params->list;p;p=p->next) {
+ variable_t*v = new_variable2(m, p->param->name, p->param->type, 0, 1);
+ v->is_parameter = 1;
+ }
+ if(as3_pass==2 && m->need_arguments) {
+ /* arguments can never be used by an innerfunction (the inner functions
+ have their own arguments var), so it's ok to not initialize this until
+ pass 2. (We don't know whether we need it before, anyway) */
+ variable_t*v = new_variable2(m, "arguments", TYPE_ARRAY, 0, 0);
+ m->need_arguments = v->index;
+ }
+ }
+
+ innerfunctions2vars(m);
+
+ if(as3_pass==2) {
+ m->scope_code = add_scope_code(m->scope_code, m, 0);
+ if(m->slots) {
+ /* exchange unresolved identifiers with the actual objects */
+ DICT_ITERATE_ITEMS(m->slots, char*, name, variable_t*, v1) {
+ if(v1->type && v1->type->kind == INFOTYPE_UNRESOLVED) {
+ classinfo_t*type = (classinfo_t*)registry_resolve((slotinfo_t*)v1->type);
+ if(!type || type->kind != INFOTYPE_CLASS) {
+ syntaxerror("Couldn't find class %s::%s (%s)", v1->type->package, v1->type->name, name);
+ }
+ v1->type = type;
+ }
+ }
+ }
+ if(m->allvars) {
+ DICT_ITERATE_ITEMS(m->allvars, char*, name2, variable_t*, v2) {
+ if(v2->type && v2->type->kind == INFOTYPE_UNRESOLVED) {
+ classinfo_t*type = (classinfo_t*)registry_resolve((slotinfo_t*)v2->type);
+ if(!type || type->kind != INFOTYPE_CLASS) {
+ syntaxerror("Couldn't find class %s::%s (%s)", v2->type->package, v2->type->name, name2);
+ }
+ v2->type = type;
+ }
+ }
+ }
+ }
+}
+
+
+char*as3_globalclass=0;
+static void startclass(modifiers_t* mod, char*classname, classinfo_t*extends, classinfo_list_t*implements)
+{
+ if(state->cls) {
+ syntaxerror("inner classes now allowed");
+ }
+
+ new_state();
+ token_list_t*t=0;
+ classinfo_list_t*mlist=0;
+
+ if(mod->flags&~(FLAG_PACKAGEINTERNAL|FLAG_PUBLIC|FLAG_FINAL|FLAG_DYNAMIC|FLAG_INTERFACE))
+ syntaxerror("invalid modifier(s)");
+
+ if((mod->flags&(FLAG_PUBLIC|FLAG_PACKAGEINTERNAL)) == (FLAG_PUBLIC|FLAG_PACKAGEINTERNAL))
+ syntaxerror("public and internal not supported at the same time.");
+
+ if((mod->flags&(FLAG_PROTECTED|FLAG_STATIC)) == (FLAG_PROTECTED|FLAG_STATIC))
+ syntaxerror("protected and static not supported at the same time.");
+
+ //if(!(mod->flags&FLAG_INTERFACE) && !extends) {
+ if(!(mod->flags&FLAG_INTERFACE) && !extends) {
+ // all classes extend object
+ extends = registry_getobjectclass();
+ }
+
+ /* create the class name, together with the proper attributes */
+ int access=0;
+ char*package=0;
+
+ if(!(mod->flags&FLAG_PUBLIC) && state->package==internal_filename_package) {
+ access = ACCESS_PRIVATE; package = internal_filename_package;
+ } else if(!(mod->flags&FLAG_PUBLIC) && state->package!=internal_filename_package) {
+ access = ACCESS_PACKAGEINTERNAL; package = state->package;
+ } else if(state->package!=internal_filename_package) {
+ access = ACCESS_PACKAGE; package = state->package;
+ } else {
+ syntaxerror("public classes only allowed inside a package");
+ }
+
+ if(as3_pass==1) {
+ state->cls = rfx_calloc(sizeof(classstate_t));
+ state->cls->init = methodstate_new();
+ state->cls->static_init = methodstate_new();
+ state->cls->static_init->is_static=FLAG_STATIC;
+ /* notice: we make no effort to initialize the top variable (local0) here,
+ even though it has special meaning. We just rely on the fact
+ that pass 1 won't do anything with variables */
+
+ dict_put(global->token2info, (void*)(ptroff_t)as3_tokencount, state->cls);
+
+ /* set current method to constructor- all code within the class-level (except
+ static variable initializations) will be executed during construction time */
+ state->method = state->cls->init;
+
+ if(registry_find(package, classname)) {
+ syntaxerror("Package \"%s\" already contains a class called \"%s\"", package, classname);
+ }
+ /* build info struct */
+ int num_interfaces = (list_length(implements));
+ state->cls->info = classinfo_register(access, package, classname, num_interfaces);
+ state->cls->info->flags |= mod->flags & (FLAG_DYNAMIC|FLAG_INTERFACE|FLAG_FINAL);
+ state->cls->info->superclass = extends;
+
+ int pos = 0;
+ classinfo_list_t*l = implements;
+ for(l=implements;l;l=l->next) {
+ state->cls->info->interfaces[pos++] = l->classinfo;
+ }
+ }
+
+ if(as3_pass == 2) {
+ state->cls = dict_lookup(global->token2info, (void*)(ptroff_t)as3_tokencount);
+
+ parserassert(state->cls && state->cls->info);
+
+ state->method = state->cls->static_init;
+
+ function_initvars(state->cls->init, 0, 0, 0, 1);
+ state->cls->static_init->variable_count=1;
+ function_initvars(state->cls->static_init, 0, 0, 0, 0);
+
+ if(extends && (extends->flags & FLAG_FINAL))
+ syntaxerror("Can't extend final class '%s'", extends->name);
+
+ int pos = 0;
+ while(state->cls->info->interfaces[pos]) {
+ if(!(state->cls->info->interfaces[pos]->flags & FLAG_INTERFACE))
+ syntaxerror("'%s' is not an interface",
+ state->cls->info->interfaces[pos]->name);
+ pos++;
+ }
+
+ /* generate the abc code for this class */
+ MULTINAME(classname2,state->cls->info);
+ multiname_t*extends2 = sig2mname(extends);
+
+ /* don't add the class to the class index just yet- that will be done later
+ by initscript */
+ state->cls->abc = abc_class_new(0, &classname2, extends2);
+ state->cls->abc->file = global->file;
+
+ multiname_destroy(extends2);
+ if(state->cls->info->flags&FLAG_FINAL) abc_class_final(state->cls->abc);
+ if(!(state->cls->info->flags&FLAG_DYNAMIC)) abc_class_sealed(state->cls->abc);
+ if(state->cls->info->flags&FLAG_INTERFACE) {
+ abc_class_interface(state->cls->abc);
+ }
+
+ for(mlist=implements;mlist;mlist=mlist->next) {
+ MULTINAME(m, mlist->classinfo);
+ abc_class_add_interface(state->cls->abc, &m);
+ }
+
+ state->cls->dependencies = parsedclass_new(state->cls->info, state->cls->abc);
+ list_append(global->classes, state->cls->dependencies);
+
+ /* flash.display.MovieClip handling */
+ if(!as3_globalclass && (mod->flags&FLAG_PUBLIC) && slotinfo_equals((slotinfo_t*)registry_getMovieClip(),(slotinfo_t*)extends)) {
+ if(state->package && state->package[0]) {
+ as3_globalclass = concat3(state->package, ".", classname);
+ } else {
+ as3_globalclass = strdup(classname);
+ }
+ }
+ }
+}
+
+static void endclass()
+{
+ if(as3_pass == 2) {
+ if(!state->cls->has_constructor && !(state->cls->info->flags&FLAG_INTERFACE)) {
+ code_t*c = 0;
+ c = abc_getlocal_0(c);
+ c = abc_constructsuper(c, 0);
+ state->cls->init->header = code_append(state->cls->init->header, c);
+ state->cls->has_constructor=1;
+ }
+ if(state->cls->init) {
+ if(state->cls->info->flags&FLAG_INTERFACE) {
+ if(state->cls->init->header)
+ syntaxerror("interface can not have class-level code");
+ } else {
+ abc_method_t*m = abc_class_getconstructor(state->cls->abc, 0);
+ code_t*c = method_header(state->cls->init);
+ m->body->code = wrap_function(c, 0, m->body->code);
+ }
+ }
+ if(state->cls->static_init) {
+ abc_method_t*m = abc_class_getstaticconstructor(state->cls->abc, 0);
+ code_t*c = method_header(state->cls->static_init);
+ m->body->code = wrap_function(c, 0, m->body->code);
+ }
+
+ trait_list_t*trait = state->cls->abc->traits;
+ /* switch all protected members to the protected ns of this class */
+ while(trait) {
+ trait_t*t = trait->trait;
+ if(t->name->ns->access == ACCESS_PROTECTED) {
+ if(!state->cls->abc->protectedNS) {
+ char*n = concat3(state->cls->info->package, ":", state->cls->info->name);
+ state->cls->abc->protectedNS = namespace_new_protected(n);
+ state->cls->abc->flags |= CLASS_PROTECTED_NS;
+ }
+ t->name->ns->name = strdup(state->cls->abc->protectedNS->name);
+ }
+ trait = trait->next;
+ }
+ }
+
+ old_state();
+}
+
+void check_code_for_break(code_t*c)
+{
+ while(c) {
+ if(c->opcode == OPCODE___BREAK__) {
+ char*name = string_cstr(c->data[0]);
+ syntaxerror("Unresolved \"break %s\"", name);
+ }
+ if(c->opcode == OPCODE___CONTINUE__) {
+ char*name = string_cstr(c->data[0]);
+ syntaxerror("Unresolved \"continue %s\"", name);
+ }
+ if(c->opcode == OPCODE___RETHROW__) {
+ syntaxerror("Unresolved \"rethrow\"");
+ }
+ if(c->opcode == OPCODE___FALLTHROUGH__) {
+ syntaxerror("Unresolved \"fallthrough\"");
+ }
+ if(c->opcode == OPCODE___PUSHPACKAGE__) {
+ char*name = string_cstr(c->data[0]);
+ syntaxerror("Can't reference a package (%s) as such", name);
+ }
+ c=c->prev;
+ }
+}
+
+static void check_constant_against_type(classinfo_t*t, constant_t*c)
+{
+#define xassert(b) if(!(b)) syntaxerror("Invalid default value %s for type '%s'", constant_tostring(c), t->name)
+ if(TYPE_IS_NUMBER(t)) {
+ xassert(c->type == CONSTANT_FLOAT
+ || c->type == CONSTANT_INT
+ || c->type == CONSTANT_UINT);
+ } else if(TYPE_IS_UINT(t)) {
+ xassert(c->type == CONSTANT_UINT ||
+ (c->type == CONSTANT_INT && c->i>=0));
+ } else if(TYPE_IS_INT(t)) {
+ xassert(c->type == CONSTANT_INT);
+ } else if(TYPE_IS_BOOLEAN(t)) {
+ xassert(c->type == CONSTANT_TRUE
+ || c->type == CONSTANT_FALSE);
+ }
+}
+
+static void check_override(memberinfo_t*m, int flags)
+{
+ if(!m)
+ return;
+ if(m->parent == state->cls->info && !((flags^m->flags)&FLAG_STATIC))
+ syntaxerror("class '%s' already contains a method/slot '%s'", m->parent->name, m->name);
+ if(!m->parent)
+ syntaxerror("internal error: overriding method %s, which doesn't have parent", m->name);
+ if(m->access==ACCESS_PRIVATE)
+ return;
+ if(m->flags & FLAG_FINAL)
+ syntaxerror("can't override final member %s", m->name);
+
+ /* allow this. it's no issue.
+ if((m->flags & FLAG_STATIC) && !(flags&FLAG_STATIC))
+ syntaxerror("can't override static member %s", m->name);*/
+
+ if(!(m->flags & FLAG_STATIC) && (flags&FLAG_STATIC))
+ syntaxerror("can't override non-static member %s with static declaration", m->name);
+
+ if(!(flags&FLAG_OVERRIDE) && !(flags&FLAG_STATIC) && !(m->flags&FLAG_STATIC)) {
+ if(m->parent && !(m->parent->flags&FLAG_INTERFACE)) {
+ if(m->kind == INFOTYPE_METHOD)
+ syntaxerror("can't override without explicit 'override' declaration");
+ else
+ syntaxerror("can't override '%s'", m->name);
+ }
+ }
+}
+
+static methodinfo_t*registerfunction(enum yytokentype getset, modifiers_t*mod, char*name, params_t*params, classinfo_t*return_type, int slot)
+{
+ methodinfo_t*minfo = 0;
+ namespace_t ns = modifiers2access(mod);
+ if(!state->cls) {
+ //package method
+ minfo = methodinfo_register_global(ns.access, state->package, name);
+ minfo->return_type = return_type;
+ } else if(getset != KW_GET && getset != KW_SET) {
+ //class method
+ memberinfo_t* m = registry_findmember(state->cls->info, ns.name, name, 0, mod->flags&FLAG_STATIC);
+ if(m) {
+ syntaxerror("class already contains a %s '%s'", infotypename((slotinfo_t*)m), m->name);
+ }
+ minfo = methodinfo_register_onclass(state->cls->info, ns.access, ns.name, name, mod->flags&FLAG_STATIC);
+ minfo->return_type = return_type;
+ // getslot on a member slot only returns "undefined", so no need
+ // to actually store these
+ //state->minfo->slot = state->method->abc->method->trait->slot_id;
+ } else {
+ //class getter/setter
+ int gs = getset==KW_GET?SUBTYPE_GET:SUBTYPE_SET;
+ classinfo_t*type=0;
+ if(getset == KW_GET) {
+ type = return_type;
+ } else if(params->list && params->list->param && !params->list->next) {
+ type = params->list->param->type;
+ } else
+ syntaxerror("setter function needs to take exactly one argument");
+ // not sure wether to look into superclasses here, too
+ minfo = (methodinfo_t*)registry_findmember(state->cls->info, ns.name, name, 1, mod->flags&FLAG_STATIC);
+ if(minfo) {
+ if(minfo->kind!=INFOTYPE_VAR)
+ syntaxerror("class already contains a method called '%s'", name);
+ if(!(minfo->subtype & (SUBTYPE_GETSET)))
+ syntaxerror("class already contains a field called '%s'", name);
+ if(minfo->subtype & gs)
+ syntaxerror("getter/setter for '%s' already defined", name);
+ /* make a setter or getter into a getset */
+ minfo->subtype |= gs;
+
+ /*
+ FIXME: this check needs to be done in pass 2
+
+ if((!minfo->return_type != !type) ||
+ (minfo->return_type && type &&
+ !strcmp(minfo->return_type->name, type->name))) {
+ syntaxerror("different type in getter and setter: %s and %s",
+ minfo->return_type?minfo->return_type->name:"*",
+ type?type->name:"*");
+ }*/
+ } else {
+ minfo = methodinfo_register_onclass(state->cls->info, ns.access, ns.name, name, mod->flags&FLAG_STATIC);
+ minfo->kind = INFOTYPE_VAR; //hack
+ minfo->subtype = gs;
+ minfo->return_type = type;
+ }
+
+ /* can't assign a slot as getter and setter might have different slots */
+ //minfo->slot = slot;
+ }
+ if(mod->flags&FLAG_FINAL) minfo->flags |= FLAG_FINAL;
+ if(mod->flags&FLAG_STATIC) minfo->flags |= FLAG_STATIC;
+ if(mod->flags&FLAG_OVERRIDE) minfo->flags |= FLAG_OVERRIDE;
+
+ return minfo;
+}
+
+static void innerfunction(char*name, params_t*params, classinfo_t*return_type)
+{
+ //parserassert(state->method && state->method->info);
+
+ methodstate_t*parent_method = state->method;
+ variable_t*v = 0;
+
+ if(as3_pass==1) {
+ return_type = 0; // not valid in pass 1
+ if(name) {
+ v = new_variable2(parent_method, name, 0, 0, 0);
+ }
+ }
+
+ new_state();
+ state->new_vars = 1;
+
+ if(as3_pass == 1) {
+ state->method = methodstate_new();
+ state->method->inner = 1;
+ state->method->is_static = parent_method->is_static;
+ state->method->variable_count = 0;
+ state->method->abc = rfx_calloc(sizeof(abc_method_t));
+ if(v) {
+ v->is_inner_method = state->method;
+ }
+
+ NEW(methodinfo_t,minfo);
+ minfo->kind = INFOTYPE_METHOD;
+ minfo->access = ACCESS_PACKAGEINTERNAL;
+ minfo->name = name;
+ state->method->info = minfo;
+
+ if(parent_method)
+ list_append(parent_method->innerfunctions, state->method);
+
+ dict_put(global->token2info, (void*)(ptroff_t)as3_tokencount, state->method);
+
+ function_initvars(state->method, 1, params, 0, 1);
+ }
+
+ if(as3_pass == 2) {
+ state->method = dict_lookup(global->token2info, (void*)(ptroff_t)as3_tokencount);
+ state->method->variable_count = 0;
+ parserassert(state->method);
+
+ state->method->info->return_type = return_type;
+ function_initvars(state->method, 1, params, 0, 1);
+ }
+}
+
+static void startfunction(modifiers_t*mod, enum yytokentype getset, char*name,
+ params_t*params, classinfo_t*return_type)
+{
+ if(state->method && state->method->info) {
+ syntaxerror("not able to start another method scope");
+ }
+ new_state();
+ state->new_vars = 1;
+
+ if(as3_pass == 1) {
+ state->method = methodstate_new();
+ state->method->has_super = 0;
+ state->method->is_static = mod->flags&FLAG_STATIC;
+
+ if(state->cls) {
+ state->method->is_constructor = !strcmp(state->cls->info->name,name);
+ } else {
+ state->method->is_global = 1;
+ state->method->late_binding = 1; // for global methods, always push local_0 on the scope stack
+ }
+ if(state->method->is_constructor)
+ name = "__as3_constructor__";
+
+ state->method->info = registerfunction(getset, mod, name, params, return_type, 0);
+
+ function_initvars(state->method, 1, params, mod->flags, 1);
+
+ dict_put(global->token2info, (void*)(ptroff_t)as3_tokencount, state->method);
+ }
+
+ if(as3_pass == 2) {
+ state->method = dict_lookup(global->token2info, (void*)(ptroff_t)as3_tokencount);
+ state->method->variable_count = 0;
+ parserassert(state->method);
+
+ if(state->cls) {
+ memberinfo_t*m = registry_findmember(state->cls->info, mod->ns, name, 2, mod->flags&FLAG_STATIC);
+ check_override(m, mod->flags);
+ }
+
+ if(state->cls) {
+ state->cls->has_constructor |= state->method->is_constructor;
+ }
+
+ function_initvars(state->method, 1, params, mod->flags, 1);
+ }
+}
+
+static void insert_unresolved(methodstate_t*m, dict_t*xvars, dict_t*allvars)
+{
+ parserassert(m->inner);
+ if(m->unresolved_variables) {
+ dict_t*d = m->unresolved_variables;
+ int t;
+ DICT_ITERATE_KEY(d, char*, id) {
+ /* check parent method's variables */
+ variable_t*v;
+ if(dict_contains(allvars, id)) {
+ m->uses_parent_function = 1;
+ state->method->uses_slots = 1;
+ dict_put(xvars, id, 0);
+ }
+ }
+ }
+ methodstate_list_t*ml = m->innerfunctions;
+ while(ml) {
+ insert_unresolved(ml->methodstate, xvars, allvars);
+ ml = ml->next;
+ }
+}
+
+static abc_method_t* endfunction(modifiers_t*mod, enum yytokentype getset, char*name,
+ params_t*params, classinfo_t*return_type, code_t*body)
+{
+ if(as3_pass==1) {
+ dict_t*xvars = dict_new();
+
+ if(state->method->unresolved_variables) {
+ DICT_ITERATE_KEY(state->method->unresolved_variables, char*, vname) {
+ if(!state->method->no_variable_scoping && dict_contains(state->method->allvars, vname)) {
+ variable_t*v = dict_lookup(state->method->allvars, vname);
+ if(!v->is_inner_method) {
+ state->method->no_variable_scoping = 1;
+ as3_warning("function %s uses forward or outer block variable references (%s): switching into compatibility mode", name, vname);
+ }
+ }
+ }
+ }
+
+ methodstate_list_t*ml = state->method->innerfunctions;
+ while(ml) {
+ insert_unresolved(ml->methodstate, xvars, state->method->allvars);
+ ml = ml->next;
+ }
+
+ if(state->method->uses_slots) {
+ state->method->slots = dict_new();
+ int i = 1;
+ DICT_ITERATE_ITEMS(state->method->allvars, char*, name, variable_t*, v) {
+ if(!name) syntaxerror("internal error");
+ if(v->index && dict_contains(xvars, name)) {
+ v->init = v->kill = 0;
+ v->index = i;
+ if(v->is_inner_method) {
+ v->is_inner_method->is_a_slot = i;
+ }
+ i++;
+ dict_put(state->method->slots, name, v);
+ }
+ }
+ state->method->uses_slots = i;
+ dict_destroy(state->vars);state->vars = 0;
+ parserassert(state->new_vars);
+ }
+ old_state();
+ return 0;
+ }
+
+ if(as3_pass==2) {
+ /*if(state->method->uses_parent_function){
+ syntaxerror("accessing variables of parent function from inner functions not supported yet");
+ }*/
+
+ abc_method_t*f = 0;
+
+ multiname_t*type2 = sig2mname(return_type);
+ int slot = 0;
+ if(state->method->inner) {
+ f = state->method->abc;
+ abc_method_init(f, global->file, type2, 1);
+ } else if(state->method->is_constructor) {
+ f = abc_class_getconstructor(state->cls->abc, type2);
+ } else if(!state->method->is_global) {
+ namespace_t ns = modifiers2access(mod);
+ multiname_t mname = {QNAME, &ns, 0, name};
+ if(mod->flags&FLAG_STATIC)
+ f = abc_class_staticmethod(state->cls->abc, type2, &mname);
+ else
+ f = abc_class_method(state->cls->abc, type2, &mname);
+ slot = f->trait->slot_id;
+ } else {
+ namespace_t mname_ns = {state->method->info->access, state->package};
+ multiname_t mname = {QNAME, &mname_ns, 0, name};
+
+ f = abc_method_new(global->file, type2, 1);
+ if(!global->init) global->init = abc_initscript(global->file);
+ trait_t*t = trait_new_method(&global->init->traits, multiname_clone(&mname), f);
+ //abc_code_t*c = global->init->method->body->code;
+ }
+ //flash doesn't seem to allow us to access function slots
+ //state->method->info->slot = slot;
+
+ if(mod && mod->flags&FLAG_OVERRIDE) f->trait->attributes |= TRAIT_ATTR_OVERRIDE;
+ if(getset == KW_GET) f->trait->kind = TRAIT_GETTER;
+ if(getset == KW_SET) f->trait->kind = TRAIT_SETTER;
+ if(params->varargs) f->flags |= METHOD_NEED_REST;
+ if(state->method->need_arguments) f->flags |= METHOD_NEED_ARGUMENTS;
+
+ char opt=0;
+ param_list_t*p=0;
+ for(p=params->list;p;p=p->next) {
+ if(params->varargs && !p->next) {
+ break; //varargs: omit last parameter in function signature
+ }
+ multiname_t*m = sig2mname(p->param->type);
+ list_append(f->parameters, m);
+ if(p->param->value) {
+ check_constant_against_type(p->param->type, p->param->value);
+ opt=1;list_append(f->optional_parameters, p->param->value);
+ } else if(opt) {
+ syntaxerror("function %s: non-optional parameter not allowed after optional parameters", name);
+ }
+ }
+ if(state->method->slots) {
+ DICT_ITERATE_ITEMS(state->method->slots, char*, name, variable_t*, v) {
+ if(v->index) {
+ multiname_t*mname = multiname_new(namespace_new(ACCESS_PACKAGE, ""), name);
+ multiname_t*type = sig2mname(v->type);
+ trait_t*t = trait_new_member(&f->body->traits, type, mname, 0);
+ t->slot_id = v->index;
+ }
+ }
+ }
+
+ check_code_for_break(body);
+
+ /* Seems this works now.
+ if(state->method->exceptions && state->method->uses_slots) {
+ as3_warning("try/catch and activation not supported yet within the same method");
+ }*/
+
+ if(f->body) {
+ f->body->code = body;
+ f->body->exceptions = state->method->exceptions;
+ } else { //interface
+ if(body)
+ syntaxerror("interface methods can't have a method body");
+ }
+
+ old_state();
+ return f;
+ }
+
+ return 0;
+}
+
+void breakjumpsto(code_t*c, char*name, code_t*jump)
+{
+ while(c) {
+ if(c->opcode == OPCODE___BREAK__) {
+ string_t*name2 = c->data[0];
+ if(!name2->len || !strncmp(name2->str, name, name2->len)) {
+ c->opcode = OPCODE_JUMP;
+ c->branch = jump;
+ }
+ }
+ c=c->prev;
+ }
+}
+void continuejumpsto(code_t*c, char*name, code_t*jump)
+{
+ while(c) {
+ if(c->opcode == OPCODE___CONTINUE__) {
+ string_t*name2 = c->data[0];
+ if(!name2->len || !strncmp(name2->str, name, name2->len)) {
+ c->opcode = OPCODE_JUMP;
+ c->branch = jump;
+ }
+ }
+ c = c->prev;
+ }
+}
+
+code_t*converttype(code_t*c, classinfo_t*from, classinfo_t*to)
+{
+ if(from==to)