source: cpp/frams/vm/classes/collectionobj.cpp @ 1158

// This file is a part of Framsticks SDK.  http://www.framsticks.com/
// Copyright (C) 1999-2021  Maciej Komosinski and Szymon Ulatowski.
// See LICENSE.txt for details.

#include "collectionobj.h"
#include <common/nonstd_math.h> //sqrt in borland
#include <frams/util/validitychecks.h>
#include <algorithm>
#include <frams/util/sstringutils.h>
#ifndef NO_VMACHINE
#include <frams/vm/vmachine.h>
#endif

#define FIELDSTRUCT VectorObject
ParamEntry vector_paramtab[] =
{
        { "Vector", 1, 15, "Vector", "Vector is a 1-dimensional array indexed by an integer value (starting from 0). "
        "Multidimensional arrays can be simulated by putting other Vector objects into a Vector.\n"
        "Examples:\n"
        "\tvar v1=Vector.new();\n"
        "\tv1.add(123);\n"
        "\tv1.add(\"string\");\n"
        "A short way of doing the same (square brackets create a vector):\n"
        "\tvar v2=[123,\"string\"];\n"
        "Simulate a 2D array:\n"
        "\tvar v3=[[1,2,3],[4,5],[6]];\n"
        "You can iterate directly over values of a Vector using for(...in...) loops:\n"
        "\tfor(var element in v3) Simulator.print(element);"
        },
        { "clear", 0, PARAM_NOSTATIC, "Clear data", "p()", PROCEDURE(p_clear), },
        { "size", 0, PARAM_READONLY | PARAM_NOSTATIC, "Element count", "d", GETONLY(size), },
        { "remove", 0, PARAM_NOSTATIC, "Remove at position", "p(d position)", PROCEDURE(p_remove), },
        { "get", 0, PARAM_READONLY | PARAM_NOSTATIC, "Get value at position", "p x(d position)", PROCEDURE(p_get), "object[position] can be always used instead of object.get(position)" },
        { "set", 0, PARAM_NOSTATIC, "Set value at position", "p(d position,x value)", PROCEDURE(p_set), "object[position]=value can be always used instead of object.set(position,value)" },
        { "insert", 0, PARAM_NOSTATIC, "Insert value at position", "p(d position,x value)", PROCEDURE(p_insert), },
        { "add", 0, PARAM_NOSTATIC, "Append at the end", "p(x value)", PROCEDURE(p_add), },
        { "find", 0, PARAM_READONLY | PARAM_NOSTATIC, "Find", "p d(x value)", PROCEDURE(p_find), "returns the element index or -1 if not found" },
        { "avg", 0, PARAM_READONLY | PARAM_NOSTATIC, "Average", "x", GETONLY(avg) },
        { "stdev", 0, PARAM_READONLY | PARAM_NOSTATIC, "Standard deviation", "x", GETONLY(stdev), "=sqrt(sum((element[i]-avg)^2)/(size-1)) which is estimated population std.dev. from sample std.dev." },
        { "toString", 0, PARAM_READONLY | PARAM_NOSTATIC, "Textual form", "s", GETONLY(toString), },
        { "new", 0, 0, "Create new Vector", "p oVector()", STATICPROCEDURE(p_new), },
        { "sort", 0, PARAM_NOSTATIC, "Sort elements (in place)", "p(oFunctionReference comparator)", PROCEDURE(p_sort), "comparator can be null, giving the \"natural\" sorting order (depending on element type), otherwise it must be a function reference obtained from the 'function' operator.\n\nExample:\nfunction compareLastDigit(a,b) {return (a%10)<(b%10);}\nvar v=[16,23,35,42,54,61];\nv.sort(function compareLastDigit);" },
        { "iterator", 0, PARAM_NOSTATIC | PARAM_READONLY, "Iterator", "o", GETONLY(iterator), },
        { "clone", 0, PARAM_READONLY | PARAM_NOSTATIC, "Create a clone", "p oVector()", PROCEDURE(p_clone), "The resulting clone is a shallow copy (contains the same object references as the original). A deep copy can be obtained through serialization: String.deserialize(String.serialize(object));" },
        { 0, 0, 0, },
};
#undef FIELDSTRUCT

#define FIELDSTRUCT DictionaryObject
ParamEntry dictionary_paramtab[] =
{
        { "Dictionary", 1, 14, "Dictionary", "Dictionary associates stored values with string keys "
        "(\"key\" is the first argument in get/set/remove functions). Integer key can be "
        "used to enumerate all elements (note that while iterating, the elements are returned in no particular order).\n"
        "Examples:\n"
        "\tvar d;\n"
        "\td=Dictionary.new();\n"
        "\td.set(\"name\",\"John\");\n"
        "\td.set(\"age\",44);\n"
        "Another way of doing the same:\n"
        "\td={};\n"
        "\td[\"name\"]=\"John\";\n"
        "\td[\"age\"]=44;\n"
        "And the most concise way:\n"
        "\td={ \"name\":\"John\", \"age\":44 };\n"
        "Iterating:\n"
        "\tfor(var v in d) Simulator.print(v); //values\n"
        "\tfor(var k in d.keys) Simulator.print(k+\" is \"+d[k]); //keys\n"
        "\tfor(var i=0;i<d.size;i++) Simulator.print(d.getKey(i)+\" is \"+d.get(i)); //by index",
        },
        { "clear", 0, PARAM_NOSTATIC, "Clear data", "p()", PROCEDURE(p_clear), },
        { "size", 0, PARAM_NOSTATIC | PARAM_READONLY, "Element count", "d", GETONLY(size), },
        { "remove", 0, PARAM_NOSTATIC, "Remove", "p(x key)", PROCEDURE(p_remove), "Removes the named or indexed element (depending on the argument type: string or int)." },
        { "get", 0, PARAM_READONLY | PARAM_NOSTATIC, "Get element", "p x(x key)", PROCEDURE(p_get), "Retrieves the named or indexed element (depending on the argument type: string or int). Accessing nonexistent keys is an error (use hasKey() if necessary).\nobject.get(key) can be shortened to object[key]." },
        { "getKey", 0, PARAM_READONLY | PARAM_NOSTATIC, "Get a key", "p s(d index)", PROCEDURE(p_getKey), "Returns the key of the indexed element (0 <= index < size)." },
        { "hasKey", 0, PARAM_READONLY | PARAM_NOSTATIC, "Check if key exists", "p d(s key)", PROCEDURE(p_hasKey), "Returns 1 (interpreted as true) if dictionary contains the supplied key, or 0 (false) otherwise.\nExample:\n   if (obj.hasKey(\"a\"))\n      x = obj->a;" },
        { "set", 0, PARAM_NOSTATIC, "Set element", "p x(x key,x value)", PROCEDURE(p_set), "Set element value for the specified key or index (depending on the argument type: string or int).\n"
        "Returns the value previously associated with the given key (or index).\n"
        "object.set(key,value) can be shortened to object[key]=value. Literal string keys can use even shorter notation: object->key=value instead of object.set(\"key\",value)\n"
        "Note the difference in the returned value:\n"
        "  var old_value=object.set(\"key\",new_value); //'old_value' gets the value previously associated with \"key\"\n"
        "  var x=object[\"key\"]=new_value; //'x' becomes 'new_value', consistently with the semantics of the assignment operator. The value previously associated with \"key\" is lost." },
        { "find", 0, PARAM_READONLY | PARAM_NOSTATIC, "Find", "p x(x value)", PROCEDURE(p_find), "Returns the element key or null if not found." },
        { "new", 0, 0, "Create a Dictionary", "p oDictionary()", STATICPROCEDURE(p_new), "Empty directory can be also created using the {} expression." },
        { "toString", 0, PARAM_READONLY | PARAM_NOSTATIC, "Textual form", "s", GETONLY(toString), },
        { "clone", 0, PARAM_READONLY | PARAM_NOSTATIC, "Create a clone", "p oDictionary()", PROCEDURE(p_clone), "The resulting clone is a shallow copy (contains the same object references as the original). A deep copy can be obtained through serialization: String.deserialize(String.serialize(object));" },
        { "assign", 0, PARAM_NOSTATIC, "Assign from another object", "p(x)", PROCEDURE(p_assign), "Replaces current dictionary with dictionary contents from another object." },
        { "iterator", 0, PARAM_NOSTATIC | PARAM_READONLY, "Iterator", "o", GETONLY(iterator), },
        { "keys", 0, PARAM_NOSTATIC | PARAM_READONLY, "Keys", "o", GETONLY(keys), "Iterate over this object to get all keys: for(k in dict.keys) ..." },

        { 0, 0, 0, },
};
#undef FIELDSTRUCT

Param VectorObject::par(vector_paramtab);
Param DictionaryObject::par(dictionary_paramtab);

/////////////////////////////////////////

VectorObject::VectorObject(Pt3D &pt)
        :owndata(1)
{
        set_or_insert(0, ExtValue(pt.x), false);
        set_or_insert(1, ExtValue(pt.y), false);
        set_or_insert(2, ExtValue(pt.z), false);
}

void VectorObject::clear()
{
        if (owndata)
                for (int i = data.size() - 1; i >= 0; i--)
                {
                        ExtValue *v = (ExtValue*)data.get(i);
                        if (v) delete v;
                }
        data.clear();
}

void VectorObject::p_remove(PARAMPROCARGS)
{
        int i = args->getInt();
        if (!listIndexCheck(&data, i, "VectorObject", "remove")) return;
        ExtValue *v = (ExtValue*)data.get(i);
        if (v) delete v;
        data -= i;
}

void VectorObject::set_or_insert(int i, const ExtValue& val, bool insert)
{
        if (i < 0) return;
        int oldsize = data.size();
        if (i > oldsize)
        {
                data.setSize(i);
                while (i > oldsize)
                        data.set(oldsize++, 0);
        }
        if (insert)
                data.insert(i, new ExtValue(val));
        else
        {
                ExtValue *v = (ExtValue*)data.get(i);
                if (v) delete v;
                data.set(i, new ExtValue(val));
        }
}

void VectorObject::p_get(PARAMPROCARGS)
{
        int i = args->getInt();
        if (listIndexCheck(&data, i, "VectorObject", "get"))
        {
                ExtValue *v = get(i);
                if (v)
                {
                        *ret = *v;
                        return;
                }
        }
        *ret = ExtValue();
}

void VectorObject::get_avg(ExtValue* ret)
{
        if (!data.size()) { ret->setEmpty(); return; }
        double s = 0.0;
        for (int i = data.size() - 1; i >= 0; i--)
                s += ((ExtValue*)data.get(i))->getDouble();
        s /= data.size();
        ret->setDouble(s);
}

SString VectorObject::serialize(SerializationFormat format) const
{
        SString out = "[";
        {
                for (int i = 0; i < data.size(); i++)
                {
                        ExtValue* v = (ExtValue*)data.get(i);
                        if (i) out += ",";
                        if (v)
                                out += v->serialize(format);
                        else
                                out += "null";
                }
        }
        out += "]";
        //sprintf(out.directAppend(20),"<Vector@%p>",this);out.endAppend();
        return out;
}

static THREAD_LOCAL_DEF(SList, VectorObject_tostring_trace);

void VectorObject::get_toString(ExtValue* ret)
{
        SString out = "[";
        //static SListTempl<VectorObject*> trace;
        if (tlsGetRef(VectorObject_tostring_trace).find(this) >= 0)
                out += "...";
        else
        {
                tlsGetRef(VectorObject_tostring_trace) += this;
                for (int i = 0; i < data.size(); i++)
                {
                        ExtValue* v = (ExtValue*)data.get(i);
                        if (i) out += ",";
                        if (v)
                                out += v->getString();
                        else
                                out += "null";
                }
                tlsGetRef(VectorObject_tostring_trace) -= this;
        }
        out += "]";
        ret->setString(out);
}

void VectorObject::get_stdev(ExtValue* ret)
{
        if (!data.size()) { ret->setEmpty(); return; }
        get_avg(ret);
        double a = ret->getDouble();
        double s = 0.0;
        for (int i = data.size() - 1; i >= 0; i--)
        {
                double d = a - ((ExtValue*)data.get(i))->getDouble();
                s += d * d;
        }
        ret->setDouble(sqrt(s / std::max(1, data.size() - 1)));
}

void VectorObject::p_find(PARAMPROCARGS)
{
        short i;
        for (i = 0; i < data.size(); i++)
        {
                if ((*args) == (*get(i)))
                {
                        ret->setInt(i); return;
                }
        }
        ret->setInt(-1);
}

void VectorObject::p_clone(PARAMPROCARGS)
{
        VectorObject *c = new VectorObject;
        c->data.setSize(data.size());
        for (int i = 0; i < data.size(); i++)
        {
                ExtValue *v = (ExtValue*)get(i);
                if (v)
                        c->data.set(i, new ExtValue(*v));
        }
        ret->setObject(ExtObject(&par, c));
}

class VEComparator
{
public:
        bool operator()(const ExtValue *a, const ExtValue *b) { return a->compare(*b) == ExtValue::ResultLower; }
};

#ifndef NO_VMACHINE
class VMVEComparator
{
public:
        VMachine::JumpTargetObject *jto;
        VMachine *vm;
        VMVEComparator(VMachine::JumpTargetObject *_jto) :jto(_jto), vm(jto->vm) {}
#ifdef QSORT_R_THIS_FIRST
        static int compare(void* _this, const void *a, const void *b);
        bool operator()(const ExtValue *a, const ExtValue *b) { return compare(this,&a,&b) == ExtValue::ResultLower; }
#else
        static int compare(const void *a, const void *b, void* _this);
        bool operator()(const ExtValue *a, const ExtValue *b) { return compare(&a,&b,this) == ExtValue::ResultLower; }
#endif
};

#ifdef QSORT_R_THIS_FIRST
int VMVEComparator::compare(void* _this, const void *a, const void *b)
#else
int VMVEComparator::compare(const void *a, const void *b, void* _this)
#endif
{
        VMachine *vm = ((VMVEComparator*)_this)->vm;
        VMachine::JumpTargetObject *jto = ((VMVEComparator*)_this)->jto;
        if (!VMCode::prepareDynamicJumpTarget(jto->pc, jto->code))
                return false;

        vm->push(**(const ExtValue **)a);
        vm->push(**(const ExtValue **)b);
        vm->pushNewCallState();
        vm->jumpDynamicJumpTarget(jto->pc);
        vm->run();
        vm->popCallState();
        int ret;
        ExtValue& retval = vm->getValue();
        if (retval.type == TInvalid)
        {
                ret = 0;
                logPrintf("VectorElementComparator", "", LOG_ERROR, "Comparison function returned no value");
        }
        else
                ret = (retval.getInt() != 0) ? -1 : 1;
        vm->drop(2);
        return ret;
}
#endif

void VectorObject::p_sort(PARAMPROCARGS)
{
#ifndef NO_VMACHINE
        VMachine::JumpTargetObject *jto = VMachine::JumpTargetObject::fromObject(args->getObject(), false);
        if (jto)
        {
                VMVEComparator cmp(jto);
                ExtValue **first = (ExtValue**)&data.getref(0);
                //Originally was the same as below: std::sort(first, first + data.size(), cmp);
                //However, std::sort() requires "strict weak ordering" and may crash (and indeed crashes, "undefined behavior") when given a non-compliant comparator.
                //We use qsort() instead because we can't control what kind of user script comparator function will be passed to Vector.sort(), and qsort() seems to behave safely for every function.
#ifdef __ANDROID__
                std::sort(first, first + data.size(), cmp); //no qsort_r() or equivalent on Android (yet)
#else
                CALL_QSORT_R(first, data.size(), sizeof(ExtValue*), cmp.compare, &cmp);
#endif
        }
        else
#endif
        {
                VEComparator cmp;
                ExtValue **first = (ExtValue**)&data.getref(0);
                std::sort(first, first + data.size(), cmp);
        }
        ret->setEmpty();
}

void VectorObject::get_iterator(ExtValue* ret)
{
        ret->setObject(VectorIterator::makeFrom(this));
}

VectorObject* VectorObject::fromObject(const ExtObject& o, bool warn)
{
        return (VectorObject*)o.getTarget(par.getName(), true, warn);
}

/////////////////////////////

void DictionaryObject::clear()
{
        for (HashEntryIterator it(hash); it.isValid();)
        {
                ExtValue *v = (ExtValue*)hash.remove(it);
                if (v) delete v;
        }
        hash.clear();
        hash.init();
}

void DictionaryObject::p_find(PARAMPROCARGS)
{
        for (HashEntryIterator it(hash); it.isValid(); it++)
        {
                if (((ExtValue*)it->value) == NULL)
                {
                        if (args->getType() != TUnknown) continue;
                        ret->setString(it->key);
                        return;
                }
                if ((*args) == (*((ExtValue*)it->value)))
                {
                        ret->setString(it->key);
                        return;
                }
        }
        ret->setEmpty();
}

HashEntryIterator* DictionaryObject::getIndexIterator(int i)
{
        if (i < 0) return 0;
        if (i >= hash.getSize()) return 0;

        if ((!it.isValid()) || (it_index > i))
        {
                it = HashEntryIterator(hash);
                it_index = 0;
        }
        while (it.isValid())
        {
                if (it_index == i)
                        return &it;
                it_index++;
                it++;
        }
        return 0;
}

void DictionaryObject::p_remove(PARAMPROCARGS)
{
        if ((args->type == TInt) || (args->type == TDouble))
        {
                HashEntryIterator* iter = getIndexIterator(args->getInt());
                if (iter)
                {
                        ExtValue *oldval = (ExtValue*)hash.remove(*iter);
                        if (oldval) { *ret = *oldval; delete oldval; }
                        else *ret = ExtValue();
                }
        }
        else
        {
                ExtValue *oldval = (ExtValue*)hash.remove(args[0].getString());
                if (oldval) { *ret = *oldval; delete oldval; }
                else *ret = ExtValue();
        }
}

ExtValue DictionaryObject::get(SString key)
{
        int found = 0;
        ExtValue *val = (ExtValue*)hash.get(key, &found);
        if (found == 0)
        {
                logPrintf("Dictionary", "get", LOG_ERROR, "Key '%s' not found", key.c_str());
                return ExtValue::invalid();
        }
        else
        {
                if (val)
                        return *val;
                return ExtValue::empty();
        }
}

ExtValue DictionaryObject::get(int index)
{
        HashEntryIterator* iter = getIndexIterator(index);
        if (iter && (*iter)->value)
                return *((ExtValue*)(*iter)->value);
        return ExtValue::empty();
}

void DictionaryObject::p_get(PARAMPROCARGS)
{
        if ((args->type == TInt) || (args->type == TDouble))
                *ret = get(args->getInt());
        else
                *ret = get(args[0].getString());
}

void DictionaryObject::p_getKey(PARAMPROCARGS)
{
        HashEntryIterator* iter = getIndexIterator(args->getInt());
        if (iter)
        {
                *ret = (*iter)->key;
                return;
        }
        *ret = ExtValue();
}

void DictionaryObject::p_hasKey(PARAMPROCARGS)
{
        int found = 0;
        hash.get(args->getString(), &found);
        ret->setInt(found);
}

ExtValue DictionaryObject::set(SString key, ExtValue new_value)
{
        ExtValue ret;
        ExtValue *new_ext = (new_value.getType() == TUnknown) ? NULL : new ExtValue(new_value);
        ExtValue *old_ext = (ExtValue*)hash.put(key, new_ext);
        if (old_ext) { ret = *old_ext; delete old_ext; }
        return ret;
}

void DictionaryObject::p_set(PARAMPROCARGS)
{
        *ret = set(args[1].getString(), args[0]);
}

SString DictionaryObject::serialize(SerializationFormat format) const
{
        SString out = "{";
        {
                for (HashEntryIterator it(hash); it.isValid();)
                {
                        out += "\"";
                        SString q = it->key; sstringQuote(q);
                        out += q;
                        out += "\":";
                        if (it->value != NULL)
                                out += ((ExtValue*)it->value)->serialize(format);
                        else
                                out += "null";
                        it++;
                        if (it.isValid()) out += ",";
                }
        }
        out += "}";
        return out;
}

void DictionaryObject::get_toString(ExtValue* ret)
{
        SString out = "{";
        //static SListTempl<DictionaryObject*> trace;
        if (tlsGetRef(VectorObject_tostring_trace).find(this) >= 0)
                out += "...";
        else
        {
                tlsGetRef(VectorObject_tostring_trace) += this;
                for (HashEntryIterator it(hash); it.isValid();)
                {
                        out += it->key;
                        out += ":";
                        if (it->value != NULL)
                                out += ((ExtValue*)it->value)->getString();
                        else
                                out += "null";
                        it++;
                        if (it.isValid()) out += ",";
                }
                tlsGetRef(VectorObject_tostring_trace) -= this;
        }
        out += "}";
        ret->setString(out);
}

void DictionaryObject::copyFrom(DictionaryObject *other)
{
        for (HashEntryIterator it(other->hash); it.isValid(); it++)
        {
                ExtValue *v = (ExtValue*)it->value;
                hash.put(it->key, v ? new ExtValue(*v) : NULL);
        }
}

void DictionaryObject::p_clone(PARAMPROCARGS)
{
        DictionaryObject *c = new DictionaryObject;
        c->copyFrom(this);
        ret->setObject(ExtObject(&par, c));
}

void DictionaryObject::p_assign(PARAMPROCARGS)
{
        clear();
        DictionaryObject *other = DictionaryObject::fromObject(args[0].getObject(), false);
        if (other)
                copyFrom(other);
        ret->setEmpty();
}

DictionaryObject* DictionaryObject::fromObject(const ExtObject& o, bool warn)
{
        return (DictionaryObject*)o.getTarget(par.getName(), true, warn);
}

void DictionaryObject::get_iterator(ExtValue* ret)
{
        ret->setObject(DictionaryIterator::makeFrom(this));
}

void DictionaryObject::get_keys(ExtValue* ret)
{
        ret->setObject(DictionaryIterator::makeFrom(this));
}

////////////////

VectorIterator::VectorIterator(VectorObject* v)
{
        vec = v;
        vec->incref();
        pos = -1;
}

#define FIELDSTRUCT VectorIterator
ParamEntry vectoriterator_paramtab[] =
{
        { "VectorIterator", 1, 2, "VectorIterator", "VectorIterator" },
        { "next", 0, PARAM_READONLY | PARAM_NOSTATIC, "next", "d 0 1", GETONLY(next), },
        { "value", 0, PARAM_READONLY | PARAM_NOSTATIC, "value", "x", GETONLY(value), },
        { 0, 0, 0, },
};
#undef FIELDSTRUCT

ExtObject VectorIterator::makeFrom(VectorObject *v)
{
        static Param par(vectoriterator_paramtab);
        return ExtObject(&par, new VectorIterator(v));
}

VectorIterator::~VectorIterator()
{
        vec->decref();
}

void VectorIterator::get_next(ExtValue* ret)
{
        pos++;
        ret->setInt((pos < vec->data.size()) ? 1 : 0);
}

void VectorIterator::get_value(ExtValue* ret)
{
        ExtValue *v = (ExtValue*)(((pos >= 0) && (pos < vec->data.size())) ? vec->data(pos) : NULL);
        if (v)
                *ret = *v;
        else
                ret->setEmpty();
}

/////////////////

#define FIELDSTRUCT DictionaryIterator
ParamEntry dictionaryiterator_paramtab[] =
{
        { "DictionaryIterator", 1, 3, "DictionaryIterator", "DictionaryIterator" },
        { "next", 0, PARAM_READONLY | PARAM_NOSTATIC, "next", "d 0 1", GETONLY(next), },
        { "value", 0, PARAM_READONLY | PARAM_NOSTATIC, "value", "x", GETONLY(value), },
        { "iterator", 0, PARAM_READONLY | PARAM_NOSTATIC, "keys iterator", "x", GETONLY(iterator), },
        { 0, 0, 0, },
};
#undef FIELDSTRUCT

DictionaryIterator::DictionaryIterator(DictionaryObject* d, bool _keys)
        :it(d->hash)
{
        dic = d;
        dic->incref();
        initial = true;
        keys = _keys;
}

ExtObject DictionaryIterator::makeFrom(DictionaryObject *d, bool _keys)
{
        static Param par(dictionaryiterator_paramtab);
        return ExtObject(&par, new DictionaryIterator(d, _keys));
}

DictionaryIterator::~DictionaryIterator()
{
        dic->decref();
}

void DictionaryIterator::get_next(ExtValue* ret)
{
        if (initial)
                initial = false;
        else
                it++;
        ret->setInt(it.isValid());
}

void DictionaryIterator::get_value(ExtValue* ret)
{
        if ((!initial) && it.isValid())
        {
                if (keys)
                {
                        ret->setString(it->key);
                }
                else
                {
                        ExtValue *v = (ExtValue*)it->value;
                        if (v == NULL)
                                ret->setEmpty();
                        else
                                *ret = *v;
                }
        }
        else
                ret->setEmpty();
}

void DictionaryIterator::get_iterator(ExtValue* ret)
{
        ret->setObject(makeFrom(dic, true));
}

//////////////

// not actually needed for deserialization (vector and dict are special cases) but findDeserializableClass can be also used in other contexts
REGISTER_DESERIALIZABLE(VectorObject)
REGISTER_DESERIALIZABLE(DictionaryObject)