axmol/extensions/fairygui/GObject.cpp

1027 lines
25 KiB
C++

#include "GObject.h"
#include "GGroup.h"
#include "GList.h"
#include "GRoot.h"
#include "UIConfig.h"
#include "UIPackage.h"
#include "display/FUISprite.h"
#include "gears/GearDisplay.h"
#include "gears/GearDisplay2.h"
#include "utils/ByteBuffer.h"
#include "utils/WeakPtr.h"
NS_FGUI_BEGIN
USING_NS_AX;
GObject* GObject::_draggingObject = nullptr;
static Vec2 sGlobalDragStart;
static Rect sGlobalRect;
static bool sUpdateInDragging;
GObject::GObject() : _scale{1, 1},
_sizePercentInGroup(0.0f),
_pivotAsAnchor(false),
_alpha(1.0f),
_rotation(0.0f),
_visible(true),
_internalVisible(true),
_handlingController(false),
_touchable(true),
_grayed(false),
_finalGrayed(false),
_draggable(false),
_dragBounds(nullptr),
_dragTesting(false),
_sortingOrder(0),
_focusable(false),
_pixelSnapping(false),
_group(nullptr),
_parent(nullptr),
_displayObject(nullptr),
_sizeImplType(0),
_underConstruct(false),
_gearLocked(false),
_packageItem(nullptr),
_data(nullptr),
_touchDisabled(false),
_alignToBL(false),
_weakPtrRef(0)
{
static uint64_t _gInstanceCounter = 1;
_uid = _gInstanceCounter++;
std::stringstream ss;
ss << _uid;
id = ss.str();
_relations = new Relations(this);
for (int i = 0; i < 10; i++)
_gears[i] = nullptr;
}
GObject::~GObject()
{
removeFromParent();
if (_displayObject)
{
_displayObject->removeFromParent();
AX_SAFE_RELEASE(_displayObject);
}
for (int i = 0; i < 10; i++)
AX_SAFE_DELETE(_gears[i]);
AX_SAFE_DELETE(_relations);
AX_SAFE_DELETE(_dragBounds);
if (_weakPtrRef > 0)
WeakPtr::markDisposed(this);
}
bool GObject::init()
{
handleInit();
if (_displayObject != nullptr)
{
_displayObject->setAnchorPoint(Vec2(0, 1));
_displayObject->setCascadeOpacityEnabled(true);
_displayObject->setOnEnterCallback(AX_CALLBACK_0(GObject::onEnter, this));
_displayObject->setOnExitCallback(AX_CALLBACK_0(GObject::onExit, this));
}
return true;
}
void GObject::setX(float value)
{
setPosition(value, _position.y);
}
void GObject::setY(float value)
{
setPosition(_position.x, value);
}
void GObject::setPosition(float xv, float yv)
{
if (_position.x != xv || _position.y != yv)
{
float dx = xv - _position.x;
float dy = yv - _position.y;
_position.x = xv;
_position.y = yv;
handlePositionChanged();
GGroup* g = dynamic_cast<GGroup*>(this);
if (g != nullptr)
g->moveChildren(dx, dy);
updateGear(1);
if (_parent != nullptr && dynamic_cast<GList*>(_parent) == nullptr)
{
_parent->setBoundsChangedFlag();
if (_group != nullptr)
_group->setBoundsChangedFlag(true);
dispatchEvent(UIEventType::PositionChange);
}
if (_draggingObject == this && !sUpdateInDragging)
sGlobalRect = localToGlobal(Rect(Vec2::ZERO, _size));
}
}
float GObject::getXMin() const
{
return _pivotAsAnchor ? (_position.x - _size.width * _pivot.x) : _position.x;
}
void GObject::setXMin(float value)
{
if (_pivotAsAnchor)
setPosition(value + _size.width * _pivot.x, _position.y);
else
setPosition(value, _position.y);
}
float GObject::getYMin() const
{
return _pivotAsAnchor ? (_position.y - _size.height * _pivot.y) : _position.y;
}
void GObject::setYMin(float value)
{
if (_pivotAsAnchor)
setPosition(_position.x, value + _size.height * _pivot.y);
else
setPosition(_position.x, value);
}
void GObject::setPixelSnapping(bool value)
{
if (_pixelSnapping != value)
{
_pixelSnapping = value;
handlePositionChanged();
}
}
void GObject::setSize(float wv, float hv, bool ignorePivot /*= false*/)
{
if (_rawSize.width != wv || _rawSize.height != hv)
{
_rawSize.width = wv;
_rawSize.height = hv;
if (wv < minSize.width)
wv = minSize.width;
else if (maxSize.width > 0 && wv > maxSize.width)
wv = maxSize.width;
if (hv < minSize.height)
hv = minSize.height;
else if (maxSize.height > 0 && hv > maxSize.height)
hv = maxSize.height;
float dWidth = wv - _size.width;
float dHeight = hv - _size.height;
_size.width = wv;
_size.height = hv;
handleSizeChanged();
if (_pivot.x != 0 || _pivot.y != 0)
{
if (!_pivotAsAnchor)
{
if (!ignorePivot)
setPosition(_position.x - _pivot.x * dWidth, _position.y - _pivot.y * dHeight);
else
handlePositionChanged();
}
else
handlePositionChanged();
}
else
handlePositionChanged();
GGroup* g = dynamic_cast<GGroup*>(this);
if (g != nullptr)
g->resizeChildren(dWidth, dHeight);
updateGear(2);
if (_parent != nullptr)
{
_relations->onOwnerSizeChanged(dWidth, dHeight, _pivotAsAnchor || !ignorePivot);
_parent->setBoundsChangedFlag();
if (_group != nullptr)
_group->setBoundsChangedFlag();
}
dispatchEvent(UIEventType::SizeChange);
}
}
void GObject::setSizeDirectly(float wv, float hv)
{
_rawSize.width = wv;
_rawSize.height = hv;
if (wv < 0)
wv = 0;
if (hv < 0)
hv = 0;
_size.width = wv;
_size.height = hv;
}
void GObject::center(bool restraint /*= false*/)
{
GComponent* r;
if (_parent != nullptr)
r = _parent;
else
r = UIRoot;
setPosition((int)((r->_size.width - _size.width) / 2), (int)((r->_size.height - _size.height) / 2));
if (restraint)
{
addRelation(r, RelationType::Center_Center);
addRelation(r, RelationType::Middle_Middle);
}
}
void GObject::makeFullScreen()
{
setSize(UIRoot->getWidth(), UIRoot->getHeight());
}
void GObject::setPivot(float xv, float yv, bool asAnchor)
{
if (_pivot.x != xv || _pivot.y != yv || _pivotAsAnchor != asAnchor)
{
_pivot.set(xv, yv);
_pivotAsAnchor = asAnchor;
if (_displayObject != nullptr)
_displayObject->setAnchorPoint(Vec2(_pivot.x, 1 - _pivot.y));
handlePositionChanged();
}
}
void GObject::setScale(float xv, float yv)
{
if (_scale.x != xv || _scale.y != yv)
{
_scale.x = xv;
_scale.y = yv;
handleScaleChanged();
updateGear(2);
}
}
void GObject::setSkewX(float value)
{
_displayObject->setRotationSkewX(value);
}
void GObject::setSkewY(float value)
{
_displayObject->setRotationSkewY(value);
}
void GObject::setRotation(float value)
{
if (_rotation != value)
{
_rotation = value;
_displayObject->setRotation(_rotation);
updateGear(3);
}
}
void GObject::setAlpha(float value)
{
if (_alpha != value)
{
_alpha = value;
handleAlphaChanged();
updateGear(3);
}
}
void GObject::setGrayed(bool value)
{
if (_grayed != value || _finalGrayed != value)
{
_grayed = value;
handleGrayedChanged();
updateGear(3);
}
}
void GObject::setVisible(bool value)
{
if (_visible != value)
{
_visible = value;
handleVisibleChanged();
if (_parent != nullptr)
_parent->setBoundsChangedFlag();
if (_group != nullptr && _group->isExcludeInvisibles())
_group->setBoundsChangedFlag();
}
}
bool GObject::internalVisible() const
{
return _internalVisible && (_group == nullptr || _group->internalVisible());
}
bool GObject::internalVisible2() const
{
return _visible && (_group == nullptr || _group->internalVisible2());
}
bool GObject::internalVisible3() const
{
return _visible && _internalVisible;
}
void GObject::setTouchable(bool value)
{
_touchable = value;
}
void GObject::setSortingOrder(int value)
{
if (value < 0)
value = 0;
if (_sortingOrder != value)
{
int old = _sortingOrder;
_sortingOrder = value;
if (_parent != nullptr)
_parent->childSortingOrderChanged(this, old, _sortingOrder);
}
}
void GObject::setGroup(GGroup* value)
{
if (_group != value)
{
if (_group != nullptr)
_group->setBoundsChangedFlag();
_group = value;
if (_group != nullptr)
_group->setBoundsChangedFlag();
handleVisibleChanged();
if (_parent)
_parent->childStateChanged(this);
}
}
const std::string& GObject::getText() const
{
return STD_STRING_EMPTY;
}
void GObject::setText(const std::string& text)
{
}
const std::string& GObject::getIcon() const
{
return STD_STRING_EMPTY;
}
void GObject::setIcon(const std::string& text)
{
}
void GObject::setTooltips(const std::string& value)
{
_tooltips = value;
if (!_tooltips.empty())
{
addEventListener(UIEventType::RollOver, AX_CALLBACK_1(GObject::onRollOver, this), EventTag(this));
addEventListener(UIEventType::RollOut, AX_CALLBACK_1(GObject::onRollOut, this), EventTag(this));
}
}
void GObject::onRollOver(EventContext* context)
{
getRoot()->showTooltips(_tooltips);
}
void GObject::onRollOut(EventContext* context)
{
getRoot()->hideTooltips();
}
void GObject::setDraggable(bool value)
{
if (_draggable != value)
{
_draggable = value;
initDrag();
}
}
void GObject::setDragBounds(const ax::Rect& value)
{
if (_dragBounds == nullptr)
_dragBounds = new Rect();
*_dragBounds = value;
}
void GObject::startDrag(int touchId)
{
dragBegin(touchId);
}
void GObject::stopDrag()
{
dragEnd();
}
std::string GObject::getResourceURL() const
{
if (_packageItem != nullptr)
return "ui://" + _packageItem->owner->getId() + _packageItem->id;
else
return STD_STRING_EMPTY;
}
Vec2 GObject::localToGlobal(const Vec2& pt)
{
Vec2 pt2 = pt;
if (_pivotAsAnchor)
{
pt2.x += _size.width * _pivot.x;
pt2.y += _size.height * _pivot.y;
}
pt2.y = _size.height - pt2.y;
pt2 = _displayObject->convertToWorldSpace(pt2);
return UIRoot->worldToRoot(pt2);
}
ax::Rect GObject::localToGlobal(const ax::Rect& rect)
{
Rect ret;
Vec2 v = localToGlobal(rect.origin);
ret.origin.x = v.x;
ret.origin.y = v.y;
v = localToGlobal(Vec2(rect.getMaxX(), rect.getMaxY()));
ret.size.width = v.x - ret.origin.x;
ret.size.height = v.y - ret.origin.y;
return ret;
}
Vec2 GObject::globalToLocal(const Vec2& pt)
{
Vec2 pt2 = UIRoot->rootToWorld(pt);
pt2 = _displayObject->convertToNodeSpace(pt2);
pt2.y = _size.height - pt2.y;
if (_pivotAsAnchor)
{
pt2.x -= _size.width * _pivot.x;
pt2.y -= _size.height * _pivot.y;
}
return pt2;
}
ax::Rect GObject::globalToLocal(const ax::Rect& rect)
{
Rect ret;
Vec2 v = globalToLocal(rect.origin);
ret.origin.x = v.x;
ret.origin.y = v.y;
v = globalToLocal(Vec2(rect.getMaxX(), rect.getMaxY()));
ret.size.width = v.x - ret.origin.x;
ret.size.height = v.y - ret.origin.y;
return ret;
}
ax::Rect GObject::transformRect(const ax::Rect& rect, GObject* targetSpace)
{
if (targetSpace == this)
return rect;
if (targetSpace == _parent) // optimization
{
return Rect((_position.x + rect.origin.x) * _scale.x,
(_position.y + rect.origin.y) * _scale.y,
rect.size.width * _scale.x,
rect.size.height * _scale.y);
}
else
{
float result[4]{FLT_MAX, FLT_MAX, -FLT_MAX, -FLT_MAX};
transformRectPoint(rect.origin, result, targetSpace);
transformRectPoint(Vec2(rect.getMaxX(), rect.origin.y), result, targetSpace);
transformRectPoint(Vec2(rect.origin.x, rect.getMaxY()), result, targetSpace);
transformRectPoint(Vec2(rect.getMaxX(), rect.getMaxY()), result, targetSpace);
return Rect(result[0], result[1], result[2] - result[0], result[3] - result[1]);
}
}
void GObject::transformRectPoint(const Vec2& pt, float rect[], GObject* targetSpace)
{
Vec2 v = localToGlobal(pt);
if (targetSpace != nullptr)
v = targetSpace->globalToLocal(v);
if (rect[0] > v.x)
rect[0] = v.x;
if (rect[2] < v.x)
rect[2] = v.x;
if (rect[1] > v.y)
rect[1] = v.y;
if (rect[3] < v.y)
rect[3] = v.y;
}
void GObject::addRelation(GObject* target, RelationType relationType, bool usePercent)
{
_relations->add(target, relationType, usePercent);
}
void GObject::removeRelation(GObject* target, RelationType relationType)
{
_relations->remove(target, relationType);
}
GearBase* GObject::getGear(int index)
{
GearBase* gear = _gears[index];
if (gear == nullptr)
{
gear = GearBase::create(this, index);
_gears[index] = gear;
}
return gear;
}
void GObject::updateGear(int index)
{
if (_underConstruct || _gearLocked)
return;
GearBase* gear = _gears[index];
if (gear != nullptr && gear->getController() != nullptr)
gear->updateState();
}
bool GObject::checkGearController(int index, GController* c)
{
return _gears[index] != nullptr && _gears[index]->getController() == c;
}
void GObject::updateGearFromRelations(int index, float dx, float dy)
{
if (_gears[index] != nullptr)
_gears[index]->updateFromRelations(dx, dy);
}
uint32_t GObject::addDisplayLock()
{
GearDisplay* gearDisplay = (GearDisplay*)_gears[0];
if (gearDisplay != nullptr && gearDisplay->getController() != nullptr)
{
uint32_t ret = gearDisplay->addLock();
checkGearDisplay();
return ret;
}
else
return 0;
}
void GObject::releaseDisplayLock(uint32_t token)
{
GearDisplay* gearDisplay = (GearDisplay*)_gears[0];
if (gearDisplay != nullptr && gearDisplay->getController() != nullptr)
{
gearDisplay->releaseLock(token);
checkGearDisplay();
}
}
void GObject::checkGearDisplay()
{
if (_handlingController)
return;
bool connected = _gears[0] == nullptr || ((GearDisplay*)_gears[0])->isConnected();
if (_gears[8] != nullptr)
connected = dynamic_cast<GearDisplay2*>(_gears[8])->evaluate(connected);
if (connected != _internalVisible)
{
_internalVisible = connected;
if (_parent != nullptr)
_parent->childStateChanged(this);
if (_group != nullptr && _group->isExcludeInvisibles())
_group->setBoundsChangedFlag();
}
}
bool GObject::onStage() const
{
return _displayObject->getScene() != nullptr;
}
GObject* GObject::findParent() const
{
if (_parent != nullptr)
return _parent;
Node* pn = _displayObject->getParent();
if (pn == nullptr)
return nullptr;
while (pn != nullptr)
{
FUIContainer* fc = dynamic_cast<FUIContainer*>(pn);
if (fc != nullptr && fc->gOwner)
return fc->gOwner;
pn = pn->getParent();
}
return nullptr;
}
GRoot* GObject::getRoot() const
{
GObject* p = (GObject*)this;
while (p->_parent != nullptr)
p = p->_parent;
GRoot* root = dynamic_cast<GRoot*>(p);
if (root != nullptr)
return root;
else
return UIRoot;
}
void GObject::removeFromParent()
{
if (_parent != nullptr)
_parent->removeChild(this);
}
ax::Value GObject::getProp(ObjectPropID propId)
{
switch (propId)
{
case ObjectPropID::Text:
return Value(getText());
case ObjectPropID::Icon:
return Value(getIcon());
default:
return Value::Null;
}
}
void GObject::setProp(ObjectPropID propId, const ax::Value& value)
{
switch (propId)
{
case ObjectPropID::Text:
return setText(value.asString());
case ObjectPropID::Icon:
return setIcon(value.asString());
default:
break;
}
}
void GObject::constructFromResource()
{
}
GObject* GObject::hitTest(const Vec2& worldPoint, const Camera* camera)
{
if (_touchDisabled || !_touchable || !_displayObject->isVisible() || !_displayObject->getParent())
return nullptr;
Rect rect;
rect.size = _size;
//if (isScreenPointInRect(worldPoint, camera, _displayObject->getWorldToNodeTransform(), rect, nullptr))
if (rect.containsPoint(_displayObject->convertToNodeSpace(worldPoint)))
return this;
else
return nullptr;
}
void GObject::handleInit()
{
_displayObject = Node::create();
_displayObject->retain();
}
void GObject::onEnter()
{
dispatchEvent(UIEventType::Enter);
}
void GObject::onExit()
{
dispatchEvent(UIEventType::Exit);
}
void GObject::handlePositionChanged()
{
if (_displayObject)
{
Vec2 pt = _position;
pt.y = -pt.y;
if (!_pivotAsAnchor)
{
pt.x += _size.width * _pivot.x;
pt.y -= _size.height * _pivot.y;
}
if (_alignToBL)
{
if (_displayObject->getParent())
pt.y += _displayObject->getParent()->getContentSize().height;
else if (_parent != nullptr)
pt.y += _parent->_displayObject->getContentSize().height;
}
if (_pixelSnapping)
{
pt.x = (int)pt.x;
pt.y = (int)pt.y;
}
_displayObject->setPosition(pt);
}
}
void GObject::handleSizeChanged()
{
if (_displayObject)
{
if (_sizeImplType == 0 || sourceSize.width == 0 || sourceSize.height == 0)
_displayObject->setContentSize(_size);
else
_displayObject->setScale(_scale.x * _size.width / sourceSize.width, _scale.y * _size.height / sourceSize.height);
}
}
void GObject::handleScaleChanged()
{
if (_sizeImplType == 0 || sourceSize.width == 0 || sourceSize.height == 0)
_displayObject->setScale(_scale.x, _scale.y);
else
_displayObject->setScale(_scale.x * _size.width / sourceSize.width, _scale.y * _size.height / sourceSize.height);
}
void GObject::handleAlphaChanged()
{
_displayObject->setOpacity(_alpha * 255);
}
void GObject::handleGrayedChanged()
{
_finalGrayed = (_parent && _parent->_finalGrayed) || _grayed;
}
void GObject::handleVisibleChanged()
{
_displayObject->setVisible(internalVisible2());
}
void GObject::handleControllerChanged(GController* c)
{
_handlingController = true;
for (int i = 0; i < 10; i++)
{
GearBase* gear = _gears[i];
if (gear != nullptr && gear->getController() == c)
gear->apply();
}
_handlingController = false;
checkGearDisplay();
}
void GObject::setup_beforeAdd(ByteBuffer* buffer, int beginPos)
{
buffer->seek(beginPos, 0);
buffer->skip(5);
id = buffer->readS();
name = buffer->readS();
float f1 = buffer->readInt();
float f2 = buffer->readInt();
setPosition(f1, f2);
if (buffer->readBool())
{
initSize.width = buffer->readInt();
initSize.height = buffer->readInt();
setSize(initSize.width, initSize.height, true);
}
if (buffer->readBool())
{
minSize.width = buffer->readInt();
maxSize.width = buffer->readInt();
minSize.height = buffer->readInt();
maxSize.height = buffer->readInt();
}
if (buffer->readBool())
{
f1 = buffer->readFloat();
f2 = buffer->readFloat();
setScale(f1, f2);
}
if (buffer->readBool())
{
f1 = buffer->readFloat();
f2 = buffer->readFloat();
setSkewX(f1);
setSkewY(f2);
}
if (buffer->readBool())
{
f1 = buffer->readFloat();
f2 = buffer->readFloat();
setPivot(f1, f2, buffer->readBool());
}
f1 = buffer->readFloat();
if (f1 != 1)
setAlpha(f1);
f1 = buffer->readFloat();
if (f1 != 0)
setRotation(f1);
if (!buffer->readBool())
setVisible(false);
if (!buffer->readBool())
setTouchable(false);
if (buffer->readBool())
setGrayed(true);
buffer->readByte(); //blendMode
buffer->readByte(); //filter
const std::string& str = buffer->readS();
if (!str.empty())
_customData = Value(str);
}
void GObject::setup_afterAdd(ByteBuffer* buffer, int beginPos)
{
buffer->seek(beginPos, 1);
const std::string& str = buffer->readS();
if (!str.empty())
setTooltips(str);
int groupId = buffer->readShort();
if (groupId >= 0)
_group = dynamic_cast<GGroup*>(_parent->getChildAt(groupId));
buffer->seek(beginPos, 2);
int cnt = buffer->readShort();
for (int i = 0; i < cnt; i++)
{
int nextPos = buffer->readUshort();
nextPos += buffer->getPos();
GearBase* gear = getGear(buffer->readByte());
gear->setup(buffer);
buffer->setPos(nextPos);
}
}
void GObject::initDrag()
{
if (_draggable)
{
addEventListener(UIEventType::TouchBegin, AX_CALLBACK_1(GObject::onTouchBegin, this), EventTag(this));
addEventListener(UIEventType::TouchMove, AX_CALLBACK_1(GObject::onTouchMove, this), EventTag(this));
addEventListener(UIEventType::TouchEnd, AX_CALLBACK_1(GObject::onTouchEnd, this), EventTag(this));
}
else
{
removeEventListener(UIEventType::TouchBegin, EventTag(this));
removeEventListener(UIEventType::TouchMove, EventTag(this));
removeEventListener(UIEventType::TouchEnd, EventTag(this));
}
}
void GObject::dragBegin(int touchId)
{
if (_draggingObject != nullptr)
{
GObject* tmp = _draggingObject;
_draggingObject->stopDrag();
_draggingObject = nullptr;
tmp->dispatchEvent(UIEventType::DragEnd);
}
sGlobalDragStart = UIRoot->getTouchPosition(touchId);
sGlobalRect = localToGlobal(Rect(Vec2::ZERO, _size));
_draggingObject = this;
_dragTesting = true;
UIRoot->getInputProcessor()->addTouchMonitor(touchId, this);
addEventListener(UIEventType::TouchMove, AX_CALLBACK_1(GObject::onTouchMove, this), EventTag(this));
addEventListener(UIEventType::TouchEnd, AX_CALLBACK_1(GObject::onTouchEnd, this), EventTag(this));
}
void GObject::dragEnd()
{
if (_draggingObject == this)
{
_dragTesting = false;
_draggingObject = nullptr;
}
}
void GObject::onTouchBegin(EventContext* context)
{
_dragTouchStartPos = context->getInput()->getPosition();
_dragTesting = true;
context->captureTouch();
}
void GObject::onTouchMove(EventContext* context)
{
InputEvent* evt = context->getInput();
if (_draggingObject != this && _draggable && _dragTesting)
{
int sensitivity;
#ifdef AX_PLATFORM_PC
sensitivity = UIConfig::clickDragSensitivity;
#else
sensitivity = UIConfig::touchDragSensitivity;
#endif
if (std::abs(_dragTouchStartPos.x - evt->getPosition().x) < sensitivity && std::abs(_dragTouchStartPos.y - evt->getPosition().y) < sensitivity)
return;
_dragTesting = false;
if (!dispatchEvent(UIEventType::DragStart))
dragBegin(evt->getTouchId());
}
if (_draggingObject == this)
{
float xx = evt->getPosition().x - sGlobalDragStart.x + sGlobalRect.origin.x;
float yy = evt->getPosition().y - sGlobalDragStart.y + sGlobalRect.origin.y;
if (_dragBounds != nullptr)
{
Rect rect = UIRoot->localToGlobal(*_dragBounds);
if (xx < rect.origin.x)
xx = rect.origin.x;
else if (xx + sGlobalRect.size.width > rect.getMaxX())
{
xx = rect.getMaxX() - sGlobalRect.size.width;
if (xx < rect.origin.x)
xx = rect.origin.x;
}
if (yy < rect.origin.y)
yy = rect.origin.y;
else if (yy + sGlobalRect.size.height > rect.getMaxY())
{
yy = rect.getMaxY() - sGlobalRect.size.height;
if (yy < rect.origin.y)
yy = rect.origin.y;
}
}
Vec2 pt = _parent->globalToLocal(Vec2(xx, yy));
sUpdateInDragging = true;
setPosition(round(pt.x), round(pt.y));
sUpdateInDragging = false;
dispatchEvent(UIEventType::DragMove);
}
}
void GObject::onTouchEnd(EventContext* context)
{
if (_draggingObject == this)
{
_draggingObject = nullptr;
dispatchEvent(UIEventType::DragEnd);
}
}
NS_FGUI_END