geode/loader/include/Geode/utils/cocos.hpp

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#pragma once
#include <matjson.hpp>
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#include "casts.hpp"
#include "general.hpp"
#include "../DefaultInclude.hpp"
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#include <cocos2d.h>
#include <functional>
#include <type_traits>
#include "../loader/Event.hpp"
#include <Geode/binding/CCMenuItemSpriteExtra.hpp>
#include <Geode/binding/CCMenuItemToggler.hpp>
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#include "MiniFunction.hpp"
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// support converting ccColor3B / ccColor4B to / from json
template <>
struct matjson::Serialize<cocos2d::ccColor3B> {
static matjson::Value GEODE_DLL to_json(cocos2d::ccColor3B const& color);
static cocos2d::ccColor3B GEODE_DLL from_json(matjson::Value const& color);
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static bool GEODE_DLL is_json(matjson::Value const& json);
};
template <>
struct matjson::Serialize<cocos2d::ccColor4B> {
static matjson::Value GEODE_DLL to_json(cocos2d::ccColor4B const& color);
static cocos2d::ccColor4B GEODE_DLL from_json(matjson::Value const& color);
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static bool GEODE_DLL is_json(matjson::Value const& json);
};
// operators for CC geometry
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namespace cocos2d {
static cocos2d::CCPoint& operator*=(cocos2d::CCPoint& pos, float mul) {
pos.x *= mul;
pos.y *= mul;
return pos;
}
static cocos2d::CCSize& operator*=(cocos2d::CCSize& size, float mul) {
size.width *= mul;
size.height *= mul;
return size;
}
static cocos2d::CCSize operator*(cocos2d::CCSize const& size, cocos2d::CCPoint const& point) {
return {
size.width * point.x,
size.height * point.y,
};
}
static cocos2d::CCRect operator*=(cocos2d::CCRect& rect, float mul) {
rect.origin *= mul;
rect.size *= mul;
return rect;
}
static cocos2d::CCRect operator*(cocos2d::CCRect const& rect, float mul) {
return {
rect.origin.x * mul,
rect.origin.y * mul,
rect.size.width * mul,
rect.size.height * mul,
};
}
static cocos2d::CCPoint operator/=(cocos2d::CCPoint& pos, float div) {
pos.x /= div;
pos.y /= div;
return pos;
}
static cocos2d::CCSize operator/=(cocos2d::CCSize& size, float div) {
size.width /= div;
size.height /= div;
return size;
}
static cocos2d::CCRect operator/=(cocos2d::CCRect& rect, float div) {
rect.origin /= div;
rect.size /= div;
return rect;
}
static cocos2d::CCPoint operator+=(cocos2d::CCPoint& pos, cocos2d::CCPoint const& add) {
pos.x += add.x;
pos.y += add.y;
return pos;
}
static cocos2d::CCSize operator+=(cocos2d::CCSize& size, cocos2d::CCPoint const& add) {
size.width += add.x;
size.height += add.y;
return size;
}
static cocos2d::CCSize operator+=(cocos2d::CCSize& size, cocos2d::CCSize const& add) {
size.width += add.width;
size.height += add.height;
return size;
}
static cocos2d::CCRect operator+=(cocos2d::CCRect& rect, cocos2d::CCPoint const& add) {
rect.origin += add;
return rect;
}
static cocos2d::CCRect operator+=(cocos2d::CCRect& rect, cocos2d::CCSize const& add) {
rect.size += add;
return rect;
}
static cocos2d::CCRect operator+=(cocos2d::CCRect& rect, cocos2d::CCRect const& add) {
rect.origin += add.origin;
rect.size += add.size;
return rect;
}
static cocos2d::CCPoint operator-=(cocos2d::CCPoint& pos, cocos2d::CCPoint const& add) {
pos.x -= add.x;
pos.y -= add.y;
return pos;
}
static cocos2d::CCSize operator-=(cocos2d::CCSize& size, cocos2d::CCPoint const& add) {
size.width -= add.x;
size.height -= add.y;
return size;
}
static cocos2d::CCSize operator-=(cocos2d::CCSize& size, cocos2d::CCSize const& add) {
size.width -= add.width;
size.height -= add.height;
return size;
}
static cocos2d::CCRect operator-=(cocos2d::CCRect& rect, cocos2d::CCPoint const& add) {
rect.origin -= add;
return rect;
}
static cocos2d::CCRect operator-=(cocos2d::CCRect& rect, cocos2d::CCSize const& add) {
rect.size -= add;
return rect;
}
static cocos2d::CCRect operator-=(cocos2d::CCRect& rect, cocos2d::CCRect const& add) {
rect.origin -= add.origin;
rect.size -= add.size;
return rect;
}
static cocos2d::CCSize operator-(cocos2d::CCSize const& size, float f) {
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return {size.width - f, size.height - f};
}
static cocos2d::CCSize operator-(cocos2d::CCSize const& size) {
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return {-size.width, -size.height};
}
static bool operator==(cocos2d::CCPoint const& p1, cocos2d::CCPoint const& p2) {
return p1.x == p2.x && p1.y == p2.y;
}
static bool operator!=(cocos2d::CCPoint const& p1, cocos2d::CCPoint const& p2) {
return p1.x != p2.x || p1.y != p2.y;
}
static bool operator==(cocos2d::CCSize const& s1, cocos2d::CCSize const& s2) {
return s1.width == s2.width && s1.height == s2.height;
}
static bool operator!=(cocos2d::CCSize const& s1, cocos2d::CCSize const& s2) {
return s1.width != s2.width || s1.height != s2.height;
}
static bool operator<(cocos2d::CCSize const& s1, cocos2d::CCSize const& s2) {
return s1.width < s2.width || s1.height < s2.height;
}
static bool operator<=(cocos2d::CCSize const& s1, cocos2d::CCSize const& s2) {
return s1.width <= s2.width || s1.height <= s2.height;
}
static bool operator>(cocos2d::CCSize const& s1, cocos2d::CCSize const& s2) {
return s1.width > s2.width || s1.height > s2.height;
}
static bool operator>=(cocos2d::CCSize const& s1, cocos2d::CCSize const& s2) {
return s1.width >= s2.width || s1.height >= s2.height;
}
static bool operator==(cocos2d::CCRect const& r1, cocos2d::CCRect const& r2) {
return r1.origin == r2.origin && r1.size == r2.size;
}
static bool operator!=(cocos2d::CCRect const& r1, cocos2d::CCRect const& r2) {
return r1.origin != r2.origin || r1.size != r2.size;
}
static bool operator==(cocos2d::ccColor4B const& c1, cocos2d::ccColor4B const& c2) {
return c1.r == c2.r && c1.g == c2.g && c1.b == c2.b && c1.a == c2.a;
}
static bool operator!=(cocos2d::ccColor4B const& c1, cocos2d::ccColor4B const& c2) {
return c1.r != c2.r || c1.g != c2.g || c1.b != c2.b || c1.a != c2.a;
}
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static bool operator==(cocos2d::ccColor3B const& c1, cocos2d::ccColor3B const& c2) {
return c1.r == c2.r && c1.g == c2.g && c1.b == c2.b;
}
static bool operator!=(cocos2d::ccColor3B const& c1, cocos2d::ccColor3B const& c2) {
return c1.r != c2.r || c1.g != c2.g || c1.b != c2.b;
}
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static bool operator==(cocos2d::ccHSVValue const& c1, cocos2d::ccHSVValue const& c2) {
return c1.h == c2.h && c1.s == c2.s && c1.v == c2.v &&
c1.absoluteSaturation == c2.absoluteSaturation &&
c1.absoluteBrightness == c2.absoluteBrightness;
}
static bool operator!=(cocos2d::ccHSVValue const& c1, cocos2d::ccHSVValue const& c2) {
return !(c1 == c2);
}
}
// Ref & Bug
namespace geode {
/**
* A smart pointer to a managed CCObject-deriving class. Retains shared
* ownership over the managed instance. Releases the object when the Ref
* is destroyed, or assigned another object or nullptr.
*
* Use-cases include, for example, non-CCNode class members, or nodes that
* are not always in the scene tree.
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*
* @tparam T A type that inherits from CCObject.
*
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* @example
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* class MyNode : public CCNode {
* protected:
* // no need to manually call retain or
* // release on this array; Ref manages it
* // for you :3
* Ref<CCArray> m_list = CCArray::create();
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*
* bool init() {
* if (!CCNode::init())
* return false;
*
* // No need to do m_list = CCArray::create()
* // or m_list->retain() :3
*
* return true;
* }
* };
*
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* @example
* // Save a child from the current layer into a menu
* Ref<CCMenu> menu = static_cast<CCMenu*>(this->getChildByID("main-menu"));
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*
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* // Remove the menu from its parent
* menu->removeFromParent();
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*
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* // Menu will still point to a valid CCMenu as long as the menu variable exist
*/
template <class T>
class Ref final {
static_assert(
std::is_base_of_v<cocos2d::CCObject, T>,
"Ref can only be used with a CCObject-inheriting class!"
);
T* m_obj = nullptr;
public:
/**
* Construct a Ref of an object. The object will be retained and
* managed until Ref goes out of scope
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* @param obj Object to construct the Ref from
*/
Ref(T* obj) : m_obj(obj) {
CC_SAFE_RETAIN(obj);
}
Ref(Ref<T> const& other) : Ref(other.data()) {}
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Ref(Ref<T>&& other) noexcept : m_obj(other.m_obj) {
other.m_obj = nullptr;
}
/**
* Construct an empty Ref (the managed object will be null)
*/
Ref() = default;
~Ref() {
CC_SAFE_RELEASE(m_obj);
}
/**
* Swap the managed object with another object. The managed object
* will be released, and the new object retained
* @param other The new object to swap to
*/
void swap(T* other) {
CC_SAFE_RELEASE(m_obj);
m_obj = other;
CC_SAFE_RETAIN(other);
}
/**
* Return the managed object
* @returns The managed object
*/
T* data() const {
return m_obj;
}
operator T*() const {
return m_obj;
}
T* operator*() const {
return m_obj;
}
T* operator->() const {
return m_obj;
}
T* operator=(T* obj) {
this->swap(obj);
return obj;
}
Ref<T>& operator=(Ref<T> const& other) {
this->swap(other.data());
return *this;
}
Ref<T>& operator=(Ref<T>&& other) {
this->swap(other.data());
return *this;
}
bool operator==(T* other) const {
return m_obj == other;
}
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bool operator==(Ref<T> const& other) const {
return m_obj == other.m_obj;
}
bool operator!=(T* other) const {
return m_obj != other;
}
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bool operator!=(Ref<T> const& other) const {
return m_obj != other.m_obj;
}
// for containers
bool operator<(Ref<T> const& other) const {
return m_obj < other.m_obj;
}
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bool operator<=(Ref<T> const& other) const {
return m_obj <= other.m_obj;
}
bool operator>(Ref<T> const& other) const {
return m_obj > other.m_obj;
}
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bool operator>=(Ref<T> const& other) const {
return m_obj >= other.m_obj;
}
};
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class WeakRefPool;
class GEODE_DLL WeakRefController final {
private:
cocos2d::CCObject* m_obj;
WeakRefController(WeakRefController const&) = delete;
WeakRefController(WeakRefController&&) = delete;
friend class WeakRefPool;
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public:
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WeakRefController() = default;
bool isManaged();
void swap(cocos2d::CCObject* other);
cocos2d::CCObject* get() const;
};
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class GEODE_DLL WeakRefPool final {
std::unordered_map<cocos2d::CCObject*, std::shared_ptr<WeakRefController>> m_pool;
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void check(cocos2d::CCObject* obj);
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friend class WeakRefController;
public:
static WeakRefPool* get();
std::shared_ptr<WeakRefController> manage(cocos2d::CCObject* obj);
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};
/**
* A smart pointer to a managed CCObject-deriving class. Like Ref, except
* only holds a weak reference to the targeted object. When all non-weak
* references (Refs, manual retain() calls) to the object are dropped, so
* are all weak references.
*
* In essence, WeakRef is like a raw pointer, except that you can know if
* the pointer is still valid or not, as WeakRef::lock() returns nullptr if
* the pointed-to-object has already been freed.
*
* Note that an object pointed to by WeakRef is only released once some
* WeakRef pointing to it checks for it after all other references to the
* object have been dropped. If you store WeakRefs in a global map, you may
* want to periodically lock all of them to make sure any memory that should
* be freed is freed.
*
* @tparam T A type that inherits from CCObject.
*/
template <class T>
class WeakRef final {
static_assert(
std::is_base_of_v<cocos2d::CCObject, T>,
"WeakRef can only be used with a CCObject-inheriting class!"
);
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std::shared_ptr<WeakRefController> m_controller;
WeakRef(std::shared_ptr<WeakRefController> obj) : m_controller(obj) {}
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public:
/**
* Construct a WeakRef of an object. A weak reference is one that will
* be valid as long as the object is referenced by other strong
* references (such as Ref or manual retain calls), but once all strong
* references are dropped, so are all weak references. The object is
* freed once no strong references exist to it, and any WeakRef pointing
* to it is freed or locked
* @param obj Object to construct the WeakRef from
*/
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WeakRef(T* obj) : m_controller(WeakRefPool::get()->manage(obj)) {}
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WeakRef(WeakRef<T> const& other) : WeakRef(other.m_controller) {}
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WeakRef(WeakRef<T>&& other) : m_controller(std::move(other.m_controller)) {
other.m_controller = nullptr;
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}
/**
* Construct an empty WeakRef (the object will be null)
*/
WeakRef() = default;
~WeakRef() {
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// If the WeakRef is moved, m_controller is null
if (m_controller) {
m_controller->isManaged();
}
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}
/**
* Lock the WeakRef, returning a Ref if the pointed object is valid or
* a null Ref if the object has been freed
*/
Ref<T> lock() const {
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if (m_controller->isManaged()) {
return Ref(static_cast<T*>(m_controller->get()));
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}
return Ref<T>(nullptr);
}
/**
* Check if the WeakRef points to a valid object
*/
bool valid() const {
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return m_controller->isManaged();
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}
/**
* Swap the managed object with another object. The managed object
* will be released, and the new object retained
* @param other The new object to swap to
*/
void swap(T* other) {
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m_controller->swap(other);
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}
Ref<T> operator=(T* obj) {
this->swap(obj);
return this->lock();
}
WeakRef<T>& operator=(WeakRef<T> const& other) {
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this->swap(static_cast<T*>(other.m_controller->get()));
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return *this;
}
WeakRef<T>& operator=(WeakRef<T>&& other) {
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this->swap(static_cast<T*>(other.m_controller->get()));
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return *this;
}
explicit operator bool() const noexcept {
return this->valid();
}
bool operator==(T* other) const {
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return m_controller->get() == other;
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}
bool operator==(WeakRef<T> const& other) const {
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return m_controller->get() == other.m_controller->get();
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}
bool operator!=(T* other) const {
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return m_controller->get() != other;
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}
bool operator!=(WeakRef<T> const& other) const {
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return m_controller->get() != other.m_controller->get();
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}
// for containers
bool operator<(WeakRef<T> const& other) const {
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return m_controller->get() < other.m_controller->get();
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}
bool operator<=(WeakRef<T> const& other) const {
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return m_controller->get() <= other.m_controller->get();
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}
bool operator>(WeakRef<T> const& other) const {
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return m_controller->get() > other.m_controller->get();
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}
bool operator>=(WeakRef<T> const& other) const {
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return m_controller->get() >= other.m_controller->get();
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}
};
template <class Filter>
class EventListenerNode : public cocos2d::CCNode {
protected:
EventListener<Filter> m_listener;
EventListenerNode(EventListener<Filter>&& listener)
: m_listener(std::move(listener)) {}
public:
static EventListenerNode* create(EventListener<Filter> listener) {
auto ret = new EventListenerNode(std::move(listener));
if (ret && ret->init()) {
ret->autorelease();
return ret;
}
CC_SAFE_DELETE(ret);
return nullptr;
}
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static EventListenerNode* create(typename Filter::Callback callback, Filter filter = Filter()) {
auto ret = new EventListenerNode(EventListener<Filter>(callback, filter));
if (ret && ret->init()) {
ret->autorelease();
return ret;
}
CC_SAFE_DELETE(ret);
return nullptr;
}
template <class C>
static EventListenerNode* create(
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C* cls, typename EventListener<Filter>::template MemberFn<C> callback
) {
// for some reason msvc won't let me just call EventListenerNode::create...
// it claims no return value...
// despite me writing return EventListenerNode::create()......
auto ret = new EventListenerNode(EventListener<Filter>(cls, callback));
if (ret && ret->init()) {
ret->autorelease();
return ret;
}
CC_SAFE_DELETE(ret);
return nullptr;
}
};
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/**
* A simple `CCObject` wrapper for a non-`CCObject` type
*/
template <class T>
requires (!std::is_base_of_v<T, cocos2d::CCObject>)
class ObjWrapper : public cocos2d::CCObject {
protected:
T m_value;
ObjWrapper(T&& value) : m_value(std::forward<T>(value)) {
this->autorelease();
}
ObjWrapper(T const& value) : m_value(value) {
this->autorelease();
}
public:
/**
* Construct an object wrapper
*/
static ObjWrapper* create(T&& value) {
return new ObjWrapper(std::forward<T>(value));
}
/**
* Construct an object wrapper
*/
static ObjWrapper* create(T const& value) {
return new ObjWrapper(value);
}
// @note This returns a const& to allow move-only types to be returned!
T const& getValue() const& {
return m_value;
}
void setValue(T&& value) {
m_value = std::forward<T>(value);
}
};
}
// Cocos2d utils
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namespace geode::cocos {
/**
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* Get child at index. Checks bounds. A negative
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* index will get the child starting from the end
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* @returns Child at index cast to the given type,
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* or nullptr if index exceeds bounds
*/
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template <class T = cocos2d::CCNode>
static T* getChild(cocos2d::CCNode* x, int i) {
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// start from end for negative index
if (i < 0) i = x->getChildrenCount() + i;
// check if backwards index is out of bounds
if (i < 0) return nullptr;
// check if forwards index is out of bounds
if (static_cast<int>(x->getChildrenCount()) <= i) return nullptr;
return static_cast<T*>(x->getChildren()->objectAtIndex(i));
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}
/**
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* Get nth child that is a given type. Checks bounds.
* @returns Child at index cast to the given type,
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* or nullptr if index exceeds bounds
*/
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template <class Type = cocos2d::CCNode>
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static Type* getChildOfType(cocos2d::CCNode* node, int index) {
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size_t indexCounter = 0;
if (node->getChildrenCount() == 0) return nullptr;
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// start from end for negative index
if (index < 0) {
index = -index - 1;
for (size_t i = node->getChildrenCount() - 1; i >= 0; i--) {
auto obj = cast::typeinfo_cast<Type*>(node->getChildren()->objectAtIndex(i));
if (obj != nullptr) {
if (indexCounter == index) {
return obj;
}
++indexCounter;
}
if (i == 0) break;
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}
}
else {
for (size_t i = 0; i < node->getChildrenCount(); i++) {
auto obj = cast::typeinfo_cast<Type*>(node->getChildren()->objectAtIndex(i));
if (obj != nullptr) {
if (indexCounter == index) {
return obj;
}
++indexCounter;
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}
}
}
return nullptr;
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}
/**
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* Return a node, or create a default one if it's
* nullptr. Syntactic sugar function
*/
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template <class T, class... Args>
static T* nodeOrDefault(T* node, Args... args) {
return node ? node : T::create(args...);
}
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/**
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* Get bounds for a set of nodes. Based on content
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* size
* @param nodes Nodes to calculate coverage of
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* @returns Rectangle fitting all nodes. Origin
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* will be <= 0 and size will be >= 0
*/
GEODE_DLL cocos2d::CCRect calculateNodeCoverage(std::vector<cocos2d::CCNode*> const& nodes);
/**
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* Get bounds for a set of nodes. Based on content
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* size
* @param nodes Nodes to calculate coverage of
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* @returns Rectangle fitting all nodes. Origin
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* will be <= 0 and size will be >= 0
*/
GEODE_DLL cocos2d::CCRect calculateNodeCoverage(cocos2d::CCArray* nodes);
/**
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* Get bounds for a set of nodes. Based on content
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* size
* @param parent Parent whose children to calculate
* coverage of
* @returns Rectangle fitting all the parent's children.
* Origin will be <= 0 and size will be >= 0
*/
GEODE_DLL cocos2d::CCRect calculateChildCoverage(cocos2d::CCNode* parent);
/**
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* Create a CCScene from a layer and switch to it with the default fade
* transition
* @param layer Layer to create a scene from
* @returns Created scene (not the fade transition)
*/
GEODE_DLL cocos2d::CCScene* switchToScene(cocos2d::CCLayer* layer);
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using CreateLayerFunc = utils::MiniFunction<cocos2d::CCLayer*()>;
/**
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* Reload textures, overwriting the scene to return to after the loading
* screen is finished
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* @param returnTo A function that returns a new layer. After loading is
* finished, the game switches to the given layer instead of MenuLayer.
* Leave nullptr to enable default behaviour
*/
GEODE_DLL void reloadTextures(CreateLayerFunc returnTo = nullptr);
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/**
* Rescale node to fit inside given size
* @param node Node to rescale
* @param size Size to fit inside
* @param def Default size
* @param min Minimum size
*/
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GEODE_DLL void limitNodeSize(cocos2d::CCNode* node, cocos2d::CCSize const& size, float def, float min);
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/**
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* Checks if a node is visible (recursively
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* checks parent visibility)
* @param node Node to check if visible
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* @returns True if node is visibile. Does
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* not take into account if node is off-screen
*/
GEODE_DLL bool nodeIsVisible(cocos2d::CCNode* node);
/**
* Gets a node by tag by traversing
* children recursively
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*
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* @param node Parent node
* @param tag Target tag
* @return Child node with specified tag, or
* null if there is none
*/
GEODE_DLL cocos2d::CCNode* getChildByTagRecursive(cocos2d::CCNode* node, int tag);
/**
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* Get first node that conforms to the predicate
* by traversing children recursively
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*
* @param node Parent node
* @param predicate Predicate used to evaluate nodes
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* @return Child node if one is found, or null if
* there is none
*/
template <class Type = cocos2d::CCNode>
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Type* findFirstChildRecursive(cocos2d::CCNode* node, utils::MiniFunction<bool(Type*)> predicate) {
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if (cast::typeinfo_cast<Type*>(node) && predicate(static_cast<Type*>(node)))
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return static_cast<Type*>(node);
auto children = node->getChildren();
if (!children) return nullptr;
for (int i = 0; i < children->count(); ++i) {
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auto newParent = static_cast<cocos2d::CCNode*>(children->objectAtIndex(i));
auto child = findFirstChildRecursive(newParent, predicate);
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if (child) return child;
}
return nullptr;
}
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/**
* Checks if a node has the given sprite frame
* name either in the sprite or in the sprite inside
* the button.
*
* @param node Node to check
* @param name Name of the sprite frame to search for
* @returns True if the node has the given sprite frame
* name
*/
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GEODE_DLL bool isSpriteFrameName(cocos2d::CCNode* node, const char* name);
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/**
* Get the first child that has the given sprite frame
* name either in the sprite or in the sprite inside
* the button.
*
* @param parent Parent node to search in
* @param name Name of the sprite frame to search for
* @returns Child with the given sprite frame name, or
* nullptr if there is none
*/
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GEODE_DLL cocos2d::CCNode* getChildBySpriteFrameName(cocos2d::CCNode* parent, const char* name);
/**
* Checks if a node has the given sprite name either
* in the sprite or in the sprite inside the button.
*
* @param node Node to check
* @param name Name of the sprite to search for
* @returns True if the node has the given sprite name
*/
GEODE_DLL bool isSpriteName(cocos2d::CCNode* node, const char* name);
/**
* Get the first child that has the given sprite name
* either in the sprite or in the sprite inside the
* button.
*
* @param parent Parent node to search in
* @param name Name of the sprite to search for
* @returns Child with the given sprite name, or
* nullptr if there is none
*/
GEODE_DLL cocos2d::CCNode* getChildBySpriteName(cocos2d::CCNode* parent, const char* name);
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/**
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* Checks if a given file exists in CCFileUtils
* search paths.
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* @param filename File to check
* @returns True if file exists
* @example if (fileExistsInSearchPaths("mySprite.png"_spr)) {
* CCSprite::create("mySprite.png"_spr);
* } else {
* CCSprite::create("fallback.png");
* }
*/
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GEODE_DLL bool fileExistsInSearchPaths(char const* filename);
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inline void ccDrawColor4B(cocos2d::ccColor4B const& color) {
cocos2d::ccDrawColor4B(color.r, color.g, color.b, color.a);
}
inline cocos2d::ccColor4B invert4B(cocos2d::ccColor4B const& color) {
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return {
static_cast<GLubyte>(255 - color.r),
static_cast<GLubyte>(255 - color.g),
static_cast<GLubyte>(255 - color.b),
color.a};
}
inline cocos2d::ccColor3B invert3B(cocos2d::ccColor3B const& color) {
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return {
static_cast<GLubyte>(255 - color.r),
static_cast<GLubyte>(255 - color.g),
static_cast<GLubyte>(255 - color.b)};
}
inline cocos2d::ccColor3B lighten3B(cocos2d::ccColor3B const& color, int amount) {
return {
static_cast<GLubyte>(utils::clamp(color.r + amount, 0, 255)),
static_cast<GLubyte>(utils::clamp(color.g + amount, 0, 255)),
static_cast<GLubyte>(utils::clamp(color.b + amount, 0, 255)),
};
}
inline cocos2d::ccColor3B darken3B(cocos2d::ccColor3B const& color, int amount) {
return lighten3B(color, -amount);
}
inline cocos2d::ccColor3B to3B(cocos2d::ccColor4B const& color) {
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return {color.r, color.g, color.b};
}
inline cocos2d::ccColor4B to4B(cocos2d::ccColor3B const& color, GLubyte alpha = 255) {
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return {color.r, color.g, color.b, alpha};
}
inline cocos2d::ccColor4F to4F(cocos2d::ccColor4B const& color) {
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return {color.r / 255.f, color.g / 255.f, color.b / 255.f, color.a / 255.f};
}
constexpr cocos2d::ccColor3B cc3x(int hexValue) {
if (hexValue <= 0xf)
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return cocos2d::ccColor3B{
static_cast<GLubyte>(hexValue * 17),
static_cast<GLubyte>(hexValue * 17),
static_cast<GLubyte>(hexValue * 17)};
if (hexValue <= 0xff)
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return cocos2d::ccColor3B{
static_cast<GLubyte>(hexValue),
static_cast<GLubyte>(hexValue),
static_cast<GLubyte>(hexValue)};
if (hexValue <= 0xfff)
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return cocos2d::ccColor3B{
static_cast<GLubyte>((hexValue >> 8 & 0xf) * 17),
static_cast<GLubyte>((hexValue >> 4 & 0xf) * 17),
static_cast<GLubyte>((hexValue >> 0 & 0xf) * 17)};
else
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return cocos2d::ccColor3B{
static_cast<GLubyte>(hexValue >> 16 & 0xff),
static_cast<GLubyte>(hexValue >> 8 & 0xff),
static_cast<GLubyte>(hexValue >> 0 & 0xff)};
}
/**
* Parse a ccColor3B from a hexadecimal string. The string may contain
* a leading '#'
* @param hexValue The string to parse into a color
* @param permissive If true, strings like "f" are considered valid
* representations of the color white. Useful for UIs that allow entering
* a hex color. Empty strings evaluate to pure white
* @returns A ccColor3B if it could be succesfully parsed, or an error
* indicating the failure reason
*/
GEODE_DLL Result<cocos2d::ccColor3B> cc3bFromHexString(std::string const& hexValue, bool permissive = false);
/**
* Parse a ccColor4B from a hexadecimal string. The string may contain
* a leading '#'
* @param hexValue The string to parse into a color
* @param requireAlpha Require the alpha component to be passed. If false,
* alpha defaults to 255
* @param permissive If true, strings like "f" are considered valid
* representations of the color white. Useful for UIs that allow entering
* a hex color. Empty strings evaluate to pure white
* @returns A ccColor4B if it could be succesfully parsed, or an error
* indicating the failure reason
*/
GEODE_DLL Result<cocos2d::ccColor4B> cc4bFromHexString(std::string const& hexValue, bool requireAlpha = false, bool permissive = false);
GEODE_DLL std::string cc3bToHexString(cocos2d::ccColor3B const& color);
GEODE_DLL std::string cc4bToHexString(cocos2d::ccColor4B const& color);
template <typename T, typename = std::enable_if_t<std::is_pointer_v<T>>>
static cocos2d::CCArray* vectorToCCArray(std::vector<T> const& vec) {
auto res = cocos2d::CCArray::createWithCapacity(vec.size());
for (auto const& item : vec)
res->addObject(item);
return res;
}
template <typename T, typename C, typename = std::enable_if_t<std::is_pointer_v<C>>>
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static cocos2d::CCArray* vectorToCCArray(std::vector<T> const& vec, utils::MiniFunction<C(T)> convFunc) {
auto res = cocos2d::CCArray::createWithCapacity(vec.size());
for (auto const& item : vec)
res->addObject(convFunc(item));
return res;
}
template <typename T, typename = std::enable_if_t<std::is_pointer_v<T>>>
std::vector<T> ccArrayToVector(cocos2d::CCArray* arr) {
return std::vector<T>(
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reinterpret_cast<T*>(arr->data->arr), reinterpret_cast<T*>(arr->data->arr) + arr->data->num
);
}
template <
typename K, typename V,
typename = std::enable_if_t<std::is_same_v<K, std::string> || std::is_same_v<K, intptr_t>>>
static cocos2d::CCDictionary* mapToCCDict(std::map<K, V> const& map) {
auto res = cocos2d::CCDictionary::create();
for (auto const& [key, value] : map)
res->setObject(value, key);
return res;
}
template <
typename K, typename V, typename C,
typename = std::enable_if_t<std::is_same_v<C, std::string> || std::is_same_v<C, intptr_t>>>
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static cocos2d::CCDictionary* mapToCCDict(std::map<K, V> const& map, utils::MiniFunction<C(K)> convFunc) {
auto res = cocos2d::CCDictionary::create();
for (auto const& [key, value] : map)
res->setObject(value, convFunc(key));
return res;
}
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/**
* Gets the mouse position in cocos2d coordinates.
* On mobile platforms this will probably return (0, 0)
* @returns The mouse position
*/
GEODE_DLL cocos2d::CCPoint getMousePos();
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}
// std specializations
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namespace std {
// enables using Ref as the key in unordered_map etc.
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template <class T>
struct hash<geode::Ref<T>> {
size_t operator()(geode::Ref<T> const& ref) const {
return std::hash<T*>()(ref.data());
}
};
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}
// more utils
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namespace geode::cocos {
struct GEODE_DLL CCArrayInserter {
public:
CCArrayInserter(cocos2d::CCArray* p) : m_array(p) {}
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cocos2d::CCArray* m_array;
auto& operator=(cocos2d::CCObject* value) {
m_array->addObject(value);
return *this;
}
auto& operator*() {
return *this;
}
auto& operator++() {
return *this;
}
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};
template <class T>
concept CocosObjectPtr = std::is_pointer_v<T> && std::is_convertible_v<T, cocos2d::CCObject const*>;
template <class K>
concept CocosDictionaryKey = std::same_as<K, int> || std::same_as<K, intptr_t> || std::same_as<K, gd::string> || std::same_as<K, std::string>;
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/**
* A templated wrapper over CCArray, providing easy iteration and indexing.
* This will keep ownership of the given CCArray*.
*
* @tparam Type Pointer to a type that inherits CCObject.
*
* @example
* CCArrayExt<GameObject*> objects = PlayLayer::get()->m_objects;
* // Easy indexing, giving you the type you assigned
* GameObject* myObj = objects[2];
*
* // Easy iteration using C++ range-based for loops
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* for (auto* obj : objects) {
* log::info("{}", obj->m_objectID);
* }
*/
template <CocosObjectPtr Type>
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class CCArrayExt {
protected:
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Ref<cocos2d::CCArray> m_arr;
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using T = std::remove_pointer_t<Type>;
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public:
using value_type = T;
using iterator = T**;
using const_iterator = const T**;
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CCArrayExt() : m_arr(cocos2d::CCArray::create()) {}
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CCArrayExt(cocos2d::CCArray* arr)
: m_arr(arr) {}
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CCArrayExt(CCArrayExt const& a) : m_arr(a.m_arr) {}
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CCArrayExt(CCArrayExt&& a) : m_arr(a.m_arr) {
a.m_arr = nullptr;
}
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~CCArrayExt() {}
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T** begin() const {
if (!m_arr) {
return nullptr;
}
return reinterpret_cast<T**>(m_arr->data->arr);
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}
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T** end() const {
if (!m_arr) {
return nullptr;
}
return reinterpret_cast<T**>(m_arr->data->arr) + m_arr->count();
}
auto rbegin() const {
return std::reverse_iterator(this->end());
}
auto rend() const {
return std::reverse_iterator(this->begin());
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}
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size_t size() const {
return m_arr ? m_arr->count() : 0;
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}
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T* operator[](size_t index) {
return static_cast<T*>(m_arr->objectAtIndex(index));
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}
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void push_back(T* item) {
m_arr->addObject(item);
}
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T* pop_back() {
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T ret = m_arr->lastObject();
m_arr->removeLastObject();
return ret;
}
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cocos2d::CCArray* inner() {
return m_arr;
}
};
template <typename K, typename T>
struct CCDictIterator {
public:
CCDictIterator(cocos2d::CCDictElement* p) : m_ptr(p) {}
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cocos2d::CCDictElement* m_ptr;
std::pair<K, T> operator*() {
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if constexpr (std::is_same_v<K, std::string> || std::is_same_v<K, gd::string>) {
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return {m_ptr->getStrKey(), static_cast<T>(m_ptr->getObject())};
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}
else {
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return {m_ptr->getIntKey(), static_cast<T>(m_ptr->getObject())};
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}
}
auto& operator++() {
m_ptr = static_cast<decltype(m_ptr)>(m_ptr->hh.next);
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return *this;
}
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friend bool operator==(CCDictIterator<K, T> const& a, CCDictIterator<K, T> const& b) {
return a.m_ptr == b.m_ptr;
};
friend bool operator!=(CCDictIterator<K, T> const& a, CCDictIterator<K, T> const& b) {
return a.m_ptr != b.m_ptr;
};
bool operator!=(int b) {
return m_ptr != nullptr;
}
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};
template <typename K, typename T>
struct CCDictEntry {
K m_key;
cocos2d::CCDictionary* m_dict;
CCDictEntry(K key, cocos2d::CCDictionary* dict) : m_key(key), m_dict(dict) {}
T operator->() {
return static_cast<T>(m_dict->objectForKey(m_key));
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}
operator T() {
return static_cast<T>(m_dict->objectForKey(m_key));
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}
CCDictEntry& operator=(T f) {
m_dict->setObject(f, m_key);
return *this;
}
};
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/**
* A templated wrapper over CCDictionary, providing easy iteration and indexing.
* This will keep ownership of the given CCDictionary*.
*
* @tparam Key Type of the key. MUST only be int or gd::string or std::string.
* @tparam ValuePtr Pointer to a type that inherits CCObject.
*
* @example
* CCDictionaryExt<std::string, GJGameLevel*> levels = getSomeDict();
* // Easy indexing, giving you the type you assigned
* GJGameLevel* myLvl = levels["Cube Adventures"];
*
* // Easy iteration using C++ range-based for loops
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* for (auto [name, level] : levels) {
* log::info("{}: {}", name, level->m_levelID);
* }
*/
template <CocosDictionaryKey Key, CocosObjectPtr ValuePtr>
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struct CCDictionaryExt {
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protected:
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Ref<cocos2d::CCDictionary> m_dict;
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public:
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CCDictionaryExt() : m_dict(cocos2d::CCDictionary::create()) {}
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CCDictionaryExt(cocos2d::CCDictionary* dict) : m_dict(dict) {}
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CCDictionaryExt(CCDictionaryExt const& d) : m_dict(d.m_dict) {}
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CCDictionaryExt(CCDictionaryExt&& d) : m_dict(d.m_dict) {
d.m_dict = nullptr;
}
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auto begin() {
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return CCDictIterator<Key, ValuePtr>(m_dict->m_pElements);
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}
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// do not use this
auto end() {
return nullptr;
}
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size_t size() {
return m_dict->count();
}
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auto operator[](const Key& key) {
auto ret = static_cast<ValuePtr>(m_dict->objectForKey(key));
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if (!ret) m_dict->setObject(cocos2d::CCNode::create(), key);
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return CCDictEntry<Key, ValuePtr>(key, m_dict);
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}
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bool contains(const Key& key) {
return m_dict->objectForKey(key) != nullptr;
}
size_t count(const Key& key) {
return this->contains(key) ? 1 : 0;
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}
cocos2d::CCDictionary* inner() {
return m_dict;
}
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};
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struct CCMenuItemExt {
private:
template <class Node>
class LambdaCallback : public cocos2d::CCObject {
public:
utils::MiniFunction<void(Node*)> m_callback;
static LambdaCallback* create(utils::MiniFunction<void(Node*)>&& callback) {
auto ret = new (std::nothrow) LambdaCallback();
if (ret && ret->init(std::forward<std::remove_reference_t<decltype(callback)>>(callback))) {
ret->autorelease();
return ret;
}
delete ret;
return nullptr;
}
bool init(utils::MiniFunction<void(Node*)>&& callback) {
m_callback = std::forward<std::remove_reference_t<decltype(callback)>>(callback);
return true;
}
void execute(cocos2d::CCNode* node) {
m_callback(static_cast<Node*>(node));
}
};
public:
static cocos2d::CCMenuItem* create(
utils::MiniFunction<void(cocos2d::CCMenuItem*)>&& callback
) {
auto item = cocos2d::CCMenuItem::create();
assignCallback(item, std::forward<std::remove_reference_t<decltype(callback)>>(callback));
return item;
}
static cocos2d::CCMenuItemSprite* createSprite(
cocos2d::CCNode* normalSprite,
cocos2d::CCNode* selectedSprite,
utils::MiniFunction<void(cocos2d::CCMenuItemSprite*)>&& callback
) {
auto item = cocos2d::CCMenuItemSprite::create(normalSprite, selectedSprite);
assignCallback(item, std::forward<std::remove_reference_t<decltype(callback)>>(callback));
return item;
}
static cocos2d::CCMenuItemSprite* createSprite(
cocos2d::CCNode* normalSprite,
cocos2d::CCNode* selectedSprite,
cocos2d::CCNode* disabledSprite,
utils::MiniFunction<void(cocos2d::CCMenuItemSprite*)>&& callback
) {
auto item = cocos2d::CCMenuItemSprite::create(normalSprite, selectedSprite, disabledSprite);
assignCallback(item, std::forward<std::remove_reference_t<decltype(callback)>>(callback));
return item;
}
static CCMenuItemSpriteExtra* createSpriteExtra(
cocos2d::CCNode* normalSprite,
utils::MiniFunction<void(CCMenuItemSpriteExtra*)>&& callback
) {
auto item = CCMenuItemSpriteExtra::create(normalSprite, nullptr, nullptr);
assignCallback(item, std::forward<std::remove_reference_t<decltype(callback)>>(callback));
return item;
}
static CCMenuItemSpriteExtra* createSpriteExtraWithFilename(
std::string_view normalSpriteName,
float scale,
utils::MiniFunction<void(CCMenuItemSpriteExtra*)>&& callback
) {
auto sprite = cocos2d::CCSprite::create(normalSpriteName.data());
sprite->setScale(scale);
return createSpriteExtra(sprite, std::forward<std::remove_reference_t<decltype(callback)>>(callback));
}
static CCMenuItemSpriteExtra* createSpriteExtraWithFrameName(
std::string_view normalSpriteName,
float scale,
utils::MiniFunction<void(CCMenuItemSpriteExtra*)>&& callback
) {
auto sprite = cocos2d::CCSprite::createWithSpriteFrameName(normalSpriteName.data());
sprite->setScale(scale);
return createSpriteExtra(sprite, std::forward<std::remove_reference_t<decltype(callback)>>(callback));
}
static CCMenuItemToggler* createToggler(
cocos2d::CCNode* onSprite,
cocos2d::CCNode* offSprite,
utils::MiniFunction<void(CCMenuItemToggler*)>&& callback
) {
auto item = CCMenuItemToggler::create(onSprite, offSprite, nullptr, nullptr);
assignCallback(item, std::forward<std::remove_reference_t<decltype(callback)>>(callback));
return item;
}
static CCMenuItemToggler* createTogglerWithStandardSprites(
float scale,
utils::MiniFunction<void(CCMenuItemToggler*)>&& callback
) {
auto offSprite = cocos2d::CCSprite::createWithSpriteFrameName("GJ_checkOff_001.png");
auto onSprite = cocos2d::CCSprite::createWithSpriteFrameName("GJ_checkOn_001.png");
offSprite->setScale(scale);
onSprite->setScale(scale);
return createToggler(offSprite, onSprite, std::forward<std::remove_reference_t<decltype(callback)>>(callback));
}
static CCMenuItemToggler* createTogglerWithFilename(
std::string_view onSpriteName,
std::string_view offSpriteName,
float scale,
utils::MiniFunction<void(CCMenuItemToggler*)>&& callback
) {
auto offSprite = cocos2d::CCSprite::create(offSpriteName.data());
auto onSprite = cocos2d::CCSprite::create(onSpriteName.data());
offSprite->setScale(scale);
onSprite->setScale(scale);
return createToggler(offSprite, onSprite, std::forward<std::remove_reference_t<decltype(callback)>>(callback));
}
static CCMenuItemToggler* createTogglerWithFrameName(
std::string_view onSpriteName,
std::string_view offSpriteName,
float scale,
utils::MiniFunction<void(CCMenuItemToggler*)>&& callback
) {
auto offSprite = cocos2d::CCSprite::createWithSpriteFrameName(offSpriteName.data());
auto onSprite = cocos2d::CCSprite::createWithSpriteFrameName(onSpriteName.data());
offSprite->setScale(scale);
onSprite->setScale(scale);
return createToggler(offSprite, onSprite, std::forward<std::remove_reference_t<decltype(callback)>>(callback));
}
template <class Node>
static void assignCallback(
cocos2d::CCMenuItem* item,
utils::MiniFunction<void(Node*)>&& callback
) {
auto lambda = LambdaCallback<Node>::create(std::forward<std::remove_reference_t<decltype(callback)>>(callback));
item->setTarget(lambda, menu_selector(LambdaCallback<Node>::execute));
item->setUserObject("lambda-callback", lambda);
}
};
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void GEODE_DLL handleTouchPriorityWith(cocos2d::CCNode* node, int priority, bool force = false);
void GEODE_DLL handleTouchPriority(cocos2d::CCNode* node, bool force = false);
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}