geode/loader/src/hooks/GeodeNodeMetadata.cpp

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#include <Geode/modify/Field.hpp>
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#include <Geode/utils/cocos.hpp>
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#include <Geode/modify/Field.hpp>
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#include <Geode/modify/CCNode.hpp>
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#include <cocos2d.h>
using namespace geode::prelude;
using namespace geode::modifier;
#pragma warning(push)
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#pragma warning(disable : 4273)
constexpr auto METADATA_TAG = 0xB324ABC;
struct ProxyCCNode;
class GeodeNodeMetadata final : public cocos2d::CCObject {
private:
FieldContainer* m_fieldContainer;
std::unordered_map<std::string, FieldContainer*> m_classFieldContainers;
std::string m_id = "";
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Ref<Layout> m_layout = nullptr;
Ref<LayoutOptions> m_layoutOptions = nullptr;
std::unordered_map<std::string, Ref<CCObject>> m_userObjects;
std::unordered_set<std::unique_ptr<EventListenerProtocol>> m_eventListeners;
std::unordered_map<std::string, std::unique_ptr<EventListenerProtocol>> m_idEventListeners;
friend class ProxyCCNode;
friend class cocos2d::CCNode;
GeodeNodeMetadata() : m_fieldContainer(new FieldContainer()) {}
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virtual ~GeodeNodeMetadata() {
delete m_fieldContainer;
}
public:
static GeodeNodeMetadata* set(CCNode* target) {
if (!target) return nullptr;
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auto old = target->m_pUserObject;
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// faster than dynamic_cast, technically can
// but extremely unlikely to fail
if (old && old->getTag() == METADATA_TAG) {
return static_cast<GeodeNodeMetadata*>(old);
}
auto meta = new GeodeNodeMetadata();
meta->autorelease();
meta->setTag(METADATA_TAG);
// set user object
target->m_pUserObject = meta;
meta->retain();
if (old) {
meta->m_userObjects.insert({ "", old });
// the old user object is now managed by Ref
old->release();
}
return meta;
}
FieldContainer* getFieldContainer() {
return m_fieldContainer;
}
FieldContainer* getFieldContainer(char const* forClass) {
if (!m_classFieldContainers.count(forClass)) {
m_classFieldContainers[forClass] = new FieldContainer();
}
return m_classFieldContainers[forClass];
}
};
// proxy forwards
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#include <Geode/modify/CCNode.hpp>
struct ProxyCCNode : Modify<ProxyCCNode, CCNode> {
virtual CCObject* getUserObject() {
if (auto asNode = typeinfo_cast<CCNode*>(this)) {
return asNode->getUserObject("");
}
else {
// apparently this function is the same as
// CCDirector::getNextScene so yeah
return m_pUserObject;
}
}
virtual void setUserObject(CCObject* obj) {
if (auto asNode = typeinfo_cast<CCNode*>(this)) {
asNode->setUserObject("", obj);
}
else {
CC_SAFE_RELEASE(m_pUserObject);
m_pUserObject = obj;
CC_SAFE_RETAIN(m_pUserObject);
}
}
};
static inline std::unordered_map<std::string, size_t> s_nextIndex;
size_t modifier::getFieldIndexForClass(char const* name) {
return s_nextIndex[name]++;
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}
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// not const because might modify contents
FieldContainer* CCNode::getFieldContainer() {
return GeodeNodeMetadata::set(this)->getFieldContainer();
}
FieldContainer* CCNode::getFieldContainer(char const* forClass) {
return GeodeNodeMetadata::set(this)->getFieldContainer(forClass);
}
std::string CCNode::getID() {
return GeodeNodeMetadata::set(this)->m_id;
}
void CCNode::setID(std::string const& id) {
GeodeNodeMetadata::set(this)->m_id = id;
}
CCNode* CCNode::getChildByID(std::string const& id) {
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for (auto child : CCArrayExt<CCNode*>(m_pChildren)) {
if (child->getID() == id) {
return child;
}
}
return nullptr;
}
CCNode* CCNode::getChildByIDRecursive(std::string const& id) {
if (auto child = this->getChildByID(id)) {
return child;
}
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for (auto child : CCArrayExt<CCNode*>(m_pChildren)) {
if ((child = child->getChildByIDRecursive(id))) {
return child;
}
}
return nullptr;
}
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void CCNode::removeChildByID(std::string const& id) {
if (auto child = this->getChildByID(id)) {
this->removeChild(child);
}
}
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void CCNode::setLayout(Layout* layout, bool apply, bool respectAnchor) {
if (respectAnchor && this->isIgnoreAnchorPointForPosition()) {
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for (auto child : CCArrayExt<CCNode*>(m_pChildren)) {
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child->setPosition(child->getPosition() + this->getScaledContentSize());
}
this->ignoreAnchorPointForPosition(false);
}
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GeodeNodeMetadata::set(this)->m_layout = layout;
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if (apply) {
this->updateLayout();
}
}
Layout* CCNode::getLayout() {
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return GeodeNodeMetadata::set(this)->m_layout.data();
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}
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void CCNode::setLayoutOptions(LayoutOptions* options, bool apply) {
GeodeNodeMetadata::set(this)->m_layoutOptions = options;
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if (apply && m_pParent) {
m_pParent->updateLayout();
}
}
LayoutOptions* CCNode::getLayoutOptions() {
return GeodeNodeMetadata::set(this)->m_layoutOptions.data();
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}
void CCNode::updateLayout(bool updateChildOrder) {
if (updateChildOrder) {
this->sortAllChildren();
}
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if (auto layout = GeodeNodeMetadata::set(this)->m_layout.data()) {
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layout->apply(this);
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}
}
UserObjectSetEvent::UserObjectSetEvent(CCNode* node, std::string const& id, CCObject* value)
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: node(node), id(id), value(value) {}
ListenerResult AttributeSetFilter::handle(MiniFunction<Callback> fn, UserObjectSetEvent* event) {
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if (event->id == m_targetID) {
fn(event);
}
return ListenerResult::Propagate;
}
AttributeSetFilter::AttributeSetFilter(std::string const& id) : m_targetID(id) {}
void CCNode::setUserObject(std::string const& id, CCObject* value) {
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auto meta = GeodeNodeMetadata::set(this);
if (value) {
meta->m_userObjects[id] = value;
}
else {
meta->m_userObjects.erase(id);
}
UserObjectSetEvent(this, id, value).post();
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}
CCObject* CCNode::getUserObject(std::string const& id) {
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auto meta = GeodeNodeMetadata::set(this);
if (meta->m_userObjects.count(id)) {
return meta->m_userObjects.at(id);
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}
return nullptr;
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}
void CCNode::addEventListenerInternal(std::string const& id, EventListenerProtocol* listener) {
auto meta = GeodeNodeMetadata::set(this);
if (id.size()) {
if (meta->m_idEventListeners.contains(id)) {
meta->m_idEventListeners.at(id).reset(listener);
}
else {
meta->m_idEventListeners.emplace(id, listener);
}
}
else {
std::erase_if(meta->m_eventListeners, [=](auto& l) {
return l.get() == listener;
});
meta->m_eventListeners.emplace(listener);
}
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}
void CCNode::removeEventListener(EventListenerProtocol* listener) {
auto meta = GeodeNodeMetadata::set(this);
std::erase_if(meta->m_eventListeners, [=](auto& l) {
return l.get() == listener;
});
std::erase_if(meta->m_idEventListeners, [=](auto& l) {
return l.second.get() == listener;
});
}
void CCNode::removeEventListener(std::string const& id) {
GeodeNodeMetadata::set(this)->m_idEventListeners.erase(id);
}
EventListenerProtocol* CCNode::getEventListener(std::string const& id) {
auto meta = GeodeNodeMetadata::set(this);
if (meta->m_idEventListeners.contains(id)) {
return meta->m_idEventListeners.at(id).get();
}
return nullptr;
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}
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size_t CCNode::getEventListenerCount() {
return GeodeNodeMetadata::set(this)->m_idEventListeners.size() +
GeodeNodeMetadata::set(this)->m_eventListeners.size();
}
void CCNode::addChildAtPosition(CCNode* child, Anchor anchor, CCPoint const& offset, bool useAnchorLayout) {
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auto layout = this->getLayout();
if (!layout && useAnchorLayout) {
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this->setLayout(AnchorLayout::create());
}
child->setPosition(AnchorLayout::getAnchoredPosition(this, anchor, offset));
if (useAnchorLayout) {
child->setLayoutOptions(AnchorLayoutOptions::create()->setAnchor(anchor)->setOffset(offset));
}
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this->addChild(child);
}
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#ifdef GEODE_EXPORTING
void CCNode::setAttribute(std::string const& attr, matjson::Value const& value) {}
std::optional<matjson::Value> CCNode::getAttributeInternal(std::string const& attr) {
return std::nullopt;
}
#endif
#pragma warning(pop)