#include "tproperty.h"
#include "tstream.h"
#include "texception.h"
// #include "tconvert.h"
void TProperty::addListener(Listener *listener) {
if (std::find(m_listeners.begin(), m_listeners.end(), listener) ==
m_listeners.end())
m_listeners.push_back(listener);
}
void TProperty::removeListener(Listener *listener) {
m_listeners.erase(
std::remove(m_listeners.begin(), m_listeners.end(), listener),
m_listeners.end());
}
void TProperty::notifyListeners() const {
std::vector<Listener *>::const_iterator it;
for (it = m_listeners.begin(); it != m_listeners.end(); ++it)
(*it)->onPropertyChanged();
}
void TProperty::assignUIName(TProperty *refP) {
m_qstringName = refP->getQStringName();
}
//=============================================================================
TPropertyGroup::TPropertyGroup() {}
TPropertyGroup::~TPropertyGroup() {
for (PropertyVector::iterator it = m_properties.begin();
it != m_properties.end(); ++it)
if (it->second) delete it->first;
}
void TPropertyGroup::clear() {
m_properties.clear();
m_table.clear();
}
TPropertyGroup *TPropertyGroup::clone() const {
TPropertyGroup *g = new TPropertyGroup();
for (PropertyVector::const_iterator i = m_properties.begin();
i != m_properties.end(); ++i)
g->add(i->first->clone());
return g;
}
void TPropertyGroup::add(TProperty *p) {
std::string name = p->getName();
assert(m_table.find(name) == m_table.end());
m_properties.push_back(std::make_pair(p, true));
m_table[name] = p;
}
void TPropertyGroup::bind(TProperty &p) {
std::string name = p.getName();
assert(m_table.find(name) == m_table.end());
m_properties.push_back(std::make_pair(&p, false));
m_table[name] = &p;
}
TProperty *TPropertyGroup::getProperty(std::string name) {
PropertyTable::iterator i = m_table.find(name);
if (i == m_table.end())
return 0;
else
return i->second;
}
template <class Property>
void assign(Property *dst, TProperty *src) {
Property *s = dynamic_cast<Property *>(src);
if (!s) throw TProperty::TypeError();
dst->setValue(s->getValue());
}
class Setter final : public TProperty::Visitor {
TProperty *m_src;
public:
Setter(TProperty *src) : m_src(src) {}
void visit(TDoubleProperty *dst) override { assign(dst, m_src); }
void visit(TIntProperty *dst) override { assign(dst, m_src); }
void visit(TStringProperty *dst) override { assign(dst, m_src); }
void visit(TBoolProperty *dst) override { assign(dst, m_src); }
void visit(TEnumProperty *dst) override { assign(dst, m_src); }
void visit(TDoublePairProperty *dst) override { assign(dst, m_src); }
void visit(TIntPairProperty *dst) override { assign(dst, m_src); }
void visit(TStyleIndexProperty *dst) override { assign(dst, m_src); }
void visit(TPointerProperty *dst) override { assign(dst, m_src); }
};
void TPropertyGroup::setProperties(TPropertyGroup *g) {
for (PropertyVector::const_iterator i = g->m_properties.begin();
i != g->m_properties.end(); ++i) {
TProperty *src = i->first;
TProperty *dst = getProperty(src->getName());
if (dst) {
Setter setter(src);
TProperty::Visitor *visitor = &setter;
dst->accept(*visitor);
}
}
}
void TPropertyGroup::accept(TProperty::Visitor &v) {
for (PropertyVector::const_iterator i = m_properties.begin();
i != m_properties.end(); ++i)
i->first->accept(v);
}
class PropertyWriter final : public TProperty::Visitor {
TOStream &m_os;
public:
PropertyWriter(TOStream &os) : m_os(os) {}
void visit(TDoubleProperty *p) override {
std::map<std::string, std::string> attr;
attr["type"] = "double";
attr["name"] = p->getName();
attr["min"] = std::to_string(p->getRange().first);
attr["max"] = std::to_string(p->getRange().second);
attr["value"] = std::to_string(p->getValue());
m_os.openCloseChild("property", attr);
}
void visit(TDoublePairProperty *p) override {
std::map<std::string, std::string> attr;
attr["type"] = "pair";
attr["name"] = p->getName();
attr["min"] = std::to_string(p->getRange().first);
attr["max"] = std::to_string(p->getRange().second);
TDoublePairProperty::Value value = p->getValue();
attr["value"] =
std::to_string(value.first) + " " + std::to_string(value.second);
m_os.openCloseChild("property", attr);
}
void visit(TIntPairProperty *p) override {
std::map<std::string, std::string> attr;
attr["type"] = "pair";
attr["name"] = p->getName();
attr["min"] = std::to_string(p->getRange().first);
attr["max"] = std::to_string(p->getRange().second);
TIntPairProperty::Value value = p->getValue();
attr["value"] =
std::to_string(value.first) + " " + std::to_string(value.second);
m_os.openCloseChild("property", attr);
}
void visit(TIntProperty *p) override {
std::map<std::string, std::string> attr;
attr["type"] = "int";
attr["name"] = p->getName();
attr["min"] = std::to_string(p->getRange().first);
attr["max"] = std::to_string(p->getRange().second);
attr["value"] = std::to_string(p->getValue());
m_os.openCloseChild("property", attr);
}
void visit(TBoolProperty *p) override {
std::map<std::string, std::string> attr;
attr["type"] = "bool";
attr["name"] = p->getName();
attr["value"] = p->getValue() ? "true" : "false";
m_os.openCloseChild("property", attr);
}
void visit(TStringProperty *p) override {
std::map<std::string, std::string> attr;
attr["type"] = "string";
attr["name"] = p->getName();
attr["value"] = ::to_string(p->getValue());
m_os.openCloseChild("property", attr);
}
void visit(TStyleIndexProperty *p) override {
std::map<std::string, std::string> attr;
attr["type"] = "string";
attr["name"] = p->getName();
attr["value"] = p->getValueAsString();
m_os.openCloseChild("property", attr);
}
void visit(TEnumProperty *p) override {
std::map<std::string, std::string> attr;
attr["type"] = "enum";
attr["name"] = p->getName();
attr["value"] = ::to_string(p->getValue());
if (TEnumProperty::isRangeSavingEnabled()) {
m_os.openChild("property", attr);
std::vector<std::wstring> range = p->getRange();
for (int i = 0; i < (int)range.size(); i++) {
attr.clear();
attr["value"] = ::to_string(range[i]);
m_os.openCloseChild("item", attr);
}
m_os.closeChild();
} else
m_os.openCloseChild("property", attr);
}
void visit(TPointerProperty *p) override {
std::map<std::string, std::string> attr;
attr["type"] = "pointer";
attr["name"] = p->getName();
attr["value"] = p->getValueAsString();
m_os.openCloseChild("property", attr);
}
};
void TPropertyGroup::loadData(TIStream &is) {
for (PropertyVector::iterator it = m_properties.begin();
it != m_properties.end(); ++it)
if (it->second) delete it->first;
m_properties.clear();
m_table.clear();
std::string tagName;
while (is.matchTag(tagName)) {
if (tagName == "property") {
std::string name = is.getTagAttribute("name");
std::string type = is.getTagAttribute("type");
std::string svalue = is.getTagAttribute("value");
if (name == "") throw TException("missing property name");
if (type == "") throw TException("missing property type");
if (type != "string" && svalue == "")
throw TException("missing property value");
if (type == "double") {
double min = std::stod(is.getTagAttribute("min"));
double max = std::stod(is.getTagAttribute("max"));
add(new TDoubleProperty(name, min, max, std::stod(svalue)));
} else if (type == "pair") {
double min = std::stod(is.getTagAttribute("min"));
double max = std::stod(is.getTagAttribute("max"));
TDoublePairProperty::Value v(0, 0);
int i = svalue.find(' ');
if (i != (int)std::string::npos) {
v.first = std::stod(svalue.substr(0, i));
v.second = std::stod(svalue.substr(i + 1));
}
add(new TDoublePairProperty(name, min, max, v.first, v.second));
} else if (type == "int") {
int min = std::stoi(is.getTagAttribute("min"));
int max = std::stoi(is.getTagAttribute("max"));
add(new TIntProperty(name, min, max, std::stoi(svalue)));
} else if (type == "bool") {
if (svalue != "true" && svalue != "false")
throw TException("bad boolean property value");
add(new TBoolProperty(name, svalue == "true" ? true : false));
} else if (type == "string") {
add(new TStringProperty(name, ::to_wstring(svalue)));
} else if (type == "enum") {
TEnumProperty *p = new TEnumProperty(name);
if (is.isBeginEndTag())
p->addValue(::to_wstring(svalue));
else {
while (is.matchTag(tagName)) {
if (tagName == "item") {
std::string item = is.getTagAttribute("value");
p->addValue(::to_wstring(item));
} else
throw TException("expected range property <item>");
}
is.closeChild();
}
p->setValue(::to_wstring(svalue));
add(p);
} else
throw TException("unrecognized property type : " + type);
} else
throw TException("expected <property>");
// is.closeChild();
}
}
void TPropertyGroup::saveData(TOStream &os) const {
PropertyWriter writer(os);
const_cast<TPropertyGroup *>(this)->accept(writer);
}
void TPropertyGroup::assignUINames(TPropertyGroup *refPg) {
for (PropertyVector::const_iterator i = m_properties.begin();
i != m_properties.end(); ++i) {
TProperty *refP = refPg->getProperty(i->first->getName());
if (refP) i->first->assignUIName(refP);
}
}
namespace {
bool EnumRangeSavingEnabled = true;
}
void TEnumProperty::enableRangeSaving(bool on) { EnumRangeSavingEnabled = on; }
bool TEnumProperty::isRangeSavingEnabled() { return EnumRangeSavingEnabled; }
void TEnumProperty::assignUIName(TProperty *refP) {
setQStringName(refP->getQStringName());
TEnumProperty *enumRefP = dynamic_cast<TEnumProperty *>(refP);
if (!enumRefP) return;
Items refItems = enumRefP->getItems();
for (int i = 0; i < m_range.size(); i++) {
int refIndex = enumRefP->indexOf(m_range[i]);
if (0 <= refIndex) m_items[i].UIName = refItems[refIndex].UIName;
}
}