axmol/extensions/cocostudio/WidgetReader/WidgetReader.cpp

966 lines
32 KiB
C++

#include "WidgetReader/WidgetReader.h"
#include "CocoLoader.h"
#include "ui/UIButton.h"
#include "ActionTimeline/CCActionTimeline.h"
#include "CCComExtensionData.h"
#include "CSParseBinary_generated.h"
#include "flatbuffers/flatbuffers.h"
#include "ui/UILayoutComponent.h"
#include "ActionTimeline/CSLoader.h"
#include "base/ccUtils.h"
#include "base/CCDirector.h"
USING_NS_AX;
using namespace ui;
using namespace flatbuffers;
/**/
namespace cocostudio
{
const char* P_IgnoreSize = "ignoreSize";
const char* P_SizeType = "sizeType";
const char* P_PositionType = "positionType";
const char* P_SizePercentX = "sizePercentX";
const char* P_SizePercentY = "sizePercentY";
const char* P_PositionPercentX = "positionPercentX";
const char* P_PositionPercentY = "positionPercentY";
const char* P_AdaptScreen = "adaptScreen";
const char* P_Width = "width";
const char* P_Height = "height";
const char* P_Tag = "tag";
const char* P_ActionTag = "actiontag";
const char* P_TouchAble = "touchAble";
const char* P_Name = "name";
const char* P_X = "x";
const char* P_Y = "y";
const char* P_ScaleX = "scaleX";
const char* P_ScaleY = "scaleY";
const char* P_Rotation = "rotation";
const char* P_Visbile = "visible";
const char* P_ZOrder = "ZOrder";
const char* P_LayoutParameter = "layoutParameter";
const char* P_Type = "type";
const char* P_Gravity = "gravity";
const char* P_RelativeName = "relativeName";
const char* P_RelativeToName = "relativeToName";
const char* P_Align = "align";
const char* P_MarginLeft = "marginLeft";
const char* P_MarginRight = "marginRight";
const char* P_MarginTop = "marginTop";
const char* P_MarginDown = "marginDown";
const char* P_Opacity = "opacity";
const char* P_ColorR = "colorR";
const char* P_ColorG = "colorG";
const char* P_ColorB = "colorB";
const char* P_FlipX = "flipX";
const char* P_FlipY = "flipY";
const char* P_AnchorPointX = "anchorPointX";
const char* P_AnchorPointY = "anchorPointY";
const char* P_ResourceType = "resourceType";
const char* P_Path = "path";
const char* P_Layout_PositionPercentXEnabled = "PositionPercentXEnabled";
const char* P_Layout_PositionPercentYEnabled = "PositionPercentYEnabled";
const char* P_Layout_PercentWidthEnable = "PercentWidthEnabled";
const char* P_Layout_PercentHeightEnable = "PercentHeightEnabled";
const char* P_Layout_StretchWidthEnable = "StretchWidthEnable";
const char* P_Layout_StretchHeightEnable = "StretchHeightEnable";
const char* P_Layout_HorizontalEdge = "HorizontalEdge";
const char* P_Layout_VerticalEdge = "VerticalEdge";
const char* P_Layout_LeftMargin = "LeftMargin";
const char* P_Layout_RightMargin = "RightMargin";
const char* P_Layout_TopMargin = "TopMargin";
const char* P_Layout_BottomMargin = "BottomMargin";
const char* P_Layout_BothEdge = "BothEdge";
const char* P_Layout_LeftEdge = "LeftEdge";
const char* P_Layout_RightEdge = "RightEdge";
const char* P_Layout_TopEdge = "TopEdge";
const char* P_Layout_BottomEdge = "BottomEdge";
static WidgetReader* instanceWidgetReader = nullptr;
IMPLEMENT_CLASS_NODE_READER_INFO(WidgetReader)
WidgetReader::WidgetReader()
: _sizePercentX(0.0f)
, _sizePercentY(0.0f)
, _positionPercentX(0.0f)
, _positionPercentY(0.0f)
, _width(0.0f)
, _height(0.0f)
, _opacity(255)
, _isAdaptScreen(false)
{
valueToInt = [=](std::string_view str) -> int { return atoi(str.data()); };
valueToBool = [=](std::string_view str) -> bool {
int intValue = valueToInt(str);
if (1 == intValue)
{
return true;
}
else
{
return false;
}
};
valueToFloat = [=](std::string_view str) -> float { return utils::atof(str.data()); };
}
WidgetReader::~WidgetReader() {}
WidgetReader* WidgetReader::getInstance()
{
if (!instanceWidgetReader)
{
instanceWidgetReader = new WidgetReader();
}
return instanceWidgetReader;
}
void WidgetReader::purge()
{
AX_SAFE_DELETE(instanceWidgetReader);
}
void WidgetReader::destroyInstance()
{
AX_SAFE_DELETE(instanceWidgetReader);
}
void WidgetReader::setPropsFromJsonDictionary(Widget* widget, const rapidjson::Value& options)
{
bool ignoreSizeExsit = DICTOOL->checkObjectExist_json(options, P_IgnoreSize);
if (ignoreSizeExsit)
{
widget->ignoreContentAdaptWithSize(DICTOOL->getBooleanValue_json(options, P_IgnoreSize));
}
widget->setSizeType((Widget::SizeType)DICTOOL->getIntValue_json(options, P_SizeType));
widget->setPositionType((Widget::PositionType)DICTOOL->getIntValue_json(options, P_PositionType));
widget->setSizePercent(Vec2(DICTOOL->getFloatValue_json(options, P_SizePercentX),
DICTOOL->getFloatValue_json(options, P_SizePercentY)));
widget->setPositionPercent(Vec2(DICTOOL->getFloatValue_json(options, P_PositionPercentX),
DICTOOL->getFloatValue_json(options, P_PositionPercentY)));
/* adapt screen */
float w = 0, h = 0;
bool adaptScrennExsit = DICTOOL->checkObjectExist_json(options, P_AdaptScreen);
if (adaptScrennExsit)
{
bool adaptScrenn = DICTOOL->getBooleanValue_json(options, P_AdaptScreen);
if (adaptScrenn)
{
Size screenSize = Director::getInstance()->getWinSize();
w = screenSize.width;
h = screenSize.height;
}
else
{
w = DICTOOL->getFloatValue_json(options, P_Width);
h = DICTOOL->getFloatValue_json(options, P_Height);
}
}
else
{
w = DICTOOL->getFloatValue_json(options, P_Width);
h = DICTOOL->getFloatValue_json(options, P_Height);
}
widget->setContentSize(Size(w, h));
widget->setTag(DICTOOL->getIntValue_json(options, P_Tag));
widget->setActionTag(DICTOOL->getIntValue_json(options, P_ActionTag));
widget->setTouchEnabled(DICTOOL->getBooleanValue_json(options, P_TouchAble));
const char* name = DICTOOL->getStringValue_json(options, P_Name);
const char* widgetName = name ? name : "default";
widget->setName(widgetName);
float x = DICTOOL->getFloatValue_json(options, P_X);
float y = DICTOOL->getFloatValue_json(options, P_Y);
widget->setPosition(Vec2(x, y));
widget->setScaleX(DICTOOL->getFloatValue_json(options, P_ScaleX, 1.0));
widget->setScaleY(DICTOOL->getFloatValue_json(options, P_ScaleY, 1.0));
widget->setRotation(DICTOOL->getFloatValue_json(options, P_Rotation, 0));
bool vb = DICTOOL->checkObjectExist_json(options, P_Visbile);
if (vb)
{
widget->setVisible(DICTOOL->getBooleanValue_json(options, P_Visbile));
}
int z = DICTOOL->getIntValue_json(options, P_ZOrder);
widget->setLocalZOrder(z);
bool layout = DICTOOL->checkObjectExist_json(options, P_LayoutParameter);
if (layout)
{
const rapidjson::Value& layoutParameterDic = DICTOOL->getSubDictionary_json(options, P_LayoutParameter);
int paramType = DICTOOL->getIntValue_json(layoutParameterDic, P_Type);
LayoutParameter* parameter = nullptr;
switch (paramType)
{
case 0:
break;
case 1:
{
parameter = LinearLayoutParameter::create();
int gravity = DICTOOL->getIntValue_json(layoutParameterDic, P_Gravity);
((LinearLayoutParameter*)parameter)->setGravity((axis::ui::LinearLayoutParameter::LinearGravity)gravity);
break;
}
case 2:
{
parameter = RelativeLayoutParameter::create();
RelativeLayoutParameter* rParameter = (RelativeLayoutParameter*)parameter;
const char* relativeName = DICTOOL->getStringValue_json(layoutParameterDic, P_RelativeName);
rParameter->setRelativeName(relativeName);
const char* relativeToName = DICTOOL->getStringValue_json(layoutParameterDic, P_RelativeToName);
rParameter->setRelativeToWidgetName(relativeToName);
int align = DICTOOL->getIntValue_json(layoutParameterDic, P_Align);
rParameter->setAlign((axis::ui::RelativeLayoutParameter::RelativeAlign)align);
break;
}
default:
break;
}
if (parameter)
{
float mgl = DICTOOL->getFloatValue_json(layoutParameterDic, P_MarginLeft);
float mgt = DICTOOL->getFloatValue_json(layoutParameterDic, P_MarginTop);
float mgr = DICTOOL->getFloatValue_json(layoutParameterDic, P_MarginRight);
float mgb = DICTOOL->getFloatValue_json(layoutParameterDic, P_MarginDown);
parameter->setMargin(Margin(mgl, mgt, mgr, mgb));
widget->setLayoutParameter(parameter);
}
}
}
void WidgetReader::setColorPropsFromJsonDictionary(Widget* widget, const rapidjson::Value& options)
{
bool op = DICTOOL->checkObjectExist_json(options, P_Opacity);
if (op)
{
widget->setOpacity(DICTOOL->getIntValue_json(options, P_Opacity));
}
bool cr = DICTOOL->checkObjectExist_json(options, P_ColorR);
bool cg = DICTOOL->checkObjectExist_json(options, P_ColorG);
bool cb = DICTOOL->checkObjectExist_json(options, P_ColorB);
int colorR = cr ? DICTOOL->getIntValue_json(options, P_ColorR) : 255;
int colorG = cg ? DICTOOL->getIntValue_json(options, P_ColorG) : 255;
int colorB = cb ? DICTOOL->getIntValue_json(options, P_ColorB) : 255;
widget->setColor(Color3B(colorR, colorG, colorB));
this->setAnchorPointForWidget(widget, options);
bool flipX = DICTOOL->getBooleanValue_json(options, P_FlipX);
bool flipY = DICTOOL->getBooleanValue_json(options, P_FlipY);
widget->setFlippedX(flipX);
widget->setFlippedY(flipY);
}
void WidgetReader::beginSetBasicProperties(axis::ui::Widget* widget)
{
_position = widget->getPosition();
// set default color
_color = Color3B(255, 255, 255);
widget->setColor(_color);
_opacity = widget->getOpacity();
_originalAnchorPoint = widget->getAnchorPoint();
}
void WidgetReader::endSetBasicProperties(Widget* widget)
{
Size screenSize = Director::getInstance()->getWinSize();
widget->setPositionPercent(Vec2(_positionPercentX, _positionPercentY));
widget->setSizePercent(Vec2(_sizePercentX, _sizePercentY));
if (_isAdaptScreen)
{
_width = screenSize.width;
_height = screenSize.height;
}
widget->setColor(_color);
widget->setOpacity(_opacity);
// the setSize method will be conflict with scale9Width & scale9Height
if (!widget->isIgnoreContentAdaptWithSize())
{
widget->setContentSize(Size(_width, _height));
}
widget->setPosition(_position);
widget->setAnchorPoint(_originalAnchorPoint);
}
std::string WidgetReader::getResourcePath(const rapidjson::Value& dict,
std::string_view key,
axis::ui::Widget::TextureResType texType)
{
std::string_view jsonPath = GUIReader::getInstance()->getFilePath();
const char* imageFileName = DICTOOL->getStringValue_json(dict, key.data());
std::string imageFileName_tp;
if (nullptr != imageFileName)
{
if (texType == ui::Widget::TextureResType::LOCAL)
{
imageFileName_tp.append(jsonPath).append(imageFileName);
}
else if (texType == ui::Widget::TextureResType::PLIST)
{
imageFileName_tp = imageFileName;
}
else
{
CCASSERT(0, "invalid TextureResType!!!");
}
}
return imageFileName_tp;
}
std::string WidgetReader::getResourcePath(CocoLoader* cocoLoader,
stExpCocoNode* cocoNode,
axis::ui::Widget::TextureResType texType)
{
stExpCocoNode* backGroundChildren = cocoNode->GetChildArray(cocoLoader);
std::string backgroundValue = backGroundChildren[0].GetValue(cocoLoader);
if (backgroundValue.size() < 3)
{
return "";
}
std::string_view binaryPath = GUIReader::getInstance()->getFilePath();
std::string imageFileName_tp;
if (!backgroundValue.empty())
{
if (texType == ui::Widget::TextureResType::LOCAL)
{
imageFileName_tp.append(binaryPath).append(backgroundValue);
}
else if (texType == ui::Widget::TextureResType::PLIST)
{
imageFileName_tp = backgroundValue;
}
else
{
CCASSERT(0, "invalid TextureResType!!!");
}
}
return imageFileName_tp;
}
void WidgetReader::setAnchorPointForWidget(axis::ui::Widget* widget, const rapidjson::Value& options)
{
bool isAnchorPointXExists = DICTOOL->checkObjectExist_json(options, P_AnchorPointX);
float anchorPointXInFile;
if (isAnchorPointXExists)
{
anchorPointXInFile = DICTOOL->getFloatValue_json(options, P_AnchorPointX);
}
else
{
anchorPointXInFile = widget->getAnchorPoint().x;
}
bool isAnchorPointYExists = DICTOOL->checkObjectExist_json(options, P_AnchorPointY);
float anchorPointYInFile;
if (isAnchorPointYExists)
{
anchorPointYInFile = DICTOOL->getFloatValue_json(options, P_AnchorPointY);
}
else
{
anchorPointYInFile = widget->getAnchorPoint().y;
}
if (isAnchorPointXExists || isAnchorPointYExists)
{
widget->setAnchorPoint(Vec2(anchorPointXInFile, anchorPointYInFile));
}
}
void WidgetReader::setPropsFromBinary(axis::ui::Widget* widget,
cocostudio::CocoLoader* cocoLoader,
cocostudio::stExpCocoNode* cocoNode)
{
stExpCocoNode* stChildArray = cocoNode->GetChildArray(cocoLoader);
this->beginSetBasicProperties(widget);
for (int i = 0; i < cocoNode->GetChildNum(); ++i)
{
std::string key = stChildArray[i].GetName(cocoLoader);
std::string value = stChildArray[i].GetValue(cocoLoader);
AX_BASIC_PROPERTY_BINARY_READER
}
this->endSetBasicProperties(widget);
}
Offset<Table> WidgetReader::createOptionsWithFlatBuffers(pugi::xml_node objectData,
flatbuffers::FlatBufferBuilder* builder)
{
std::string name;
long actionTag = 0;
Vec2 rotationSkew;
int zOrder = 0;
bool visible = true;
uint8_t alpha = 255;
int tag = 0;
Vec2 position;
Vec2 scale(1.0f, 1.0f);
Vec2 anchorPoint;
Color4B color(255, 255, 255, 255);
Vec2 size;
bool flipX = false;
bool flipY = false;
bool ignoreSize = false;
bool touchEnabled = false;
std::string frameEvent;
std::string customProperty;
std::string callbackType;
std::string callbackName;
bool positionXPercentEnabled = false;
bool positionYPercentEnabled = false;
float positionXPercent = 0;
float positionYPercent = 0;
bool sizeXPercentEnable = false;
bool sizeYPercentEnable = false;
float sizeXPercent = 0;
float sizeYPercent = 0;
bool stretchHorizontalEnabled = false;
bool stretchVerticalEnabled = false;
std::string horizontalEdge;
std::string verticalEdge;
float leftMargin = 0;
float rightMargin = 0;
float topMargin = 0;
float bottomMargin = 0;
// x-studio 10.0.593.0: read from .csb.
bool cascadeColorEnabled = false;
bool cascadeOpacityEnabled = false;
// attributes
pugi::xml_attribute attribute = objectData.first_attribute();
while (attribute)
{
std::string_view attriname = attribute.name();
std::string_view value = attribute.value();
if (attriname == "Name")
{
name = value;
}
else if (attriname == "ActionTag")
{
actionTag = atol(value.data());
}
else if (attriname == "RotationSkewX")
{
rotationSkew.x = atof(value.data());
}
else if (attriname == "RotationSkewY")
{
rotationSkew.y = atof(value.data());
}
else if (attriname == "Rotation")
{
// rotation = atoi(value.data());
}
else if (attriname == "FlipX")
{
flipX = (value == "True") ? true : false;
}
else if (attriname == "FlipY")
{
flipY = (value == "True") ? true : false;
}
else if (attriname == "ZOrder")
{
zOrder = atoi(value.data());
}
else if (attriname == "Visible")
{
// visible = (value == "True") ? true : false;
}
else if (attriname == "VisibleForFrame")
{
visible = (value == "True") ? true : false;
}
else if (attriname == "Alpha")
{
alpha = atoi(value.data());
}
else if (attriname == "Tag")
{
tag = atoi(value.data());
}
else if (attriname == "TouchEnable")
{
touchEnabled = (value == "True") ? true : false;
}
else if (attriname == "CascadeColorEnabled")
{
cascadeColorEnabled = (value == "True") ? true : false;
}
else if (attriname == "CascadeOpacityEnabled")
{
cascadeOpacityEnabled = (value == "True") ? true : false;
}
else if (attriname == "UserData")
{
customProperty = value;
}
else if (attriname == "FrameEvent")
{
frameEvent = value;
}
else if (attriname == "CallBackType")
{
callbackType = value;
}
else if (attriname == "CallBackName")
{
callbackName = value;
}
else if (attriname == P_Layout_PositionPercentXEnabled)
{
positionXPercentEnabled = value == "True";
}
else if (attriname == P_Layout_PositionPercentYEnabled)
{
positionYPercentEnabled = value == "True";
}
else if (attriname == P_Layout_PercentWidthEnable)
{
sizeXPercentEnable = value == "True";
}
else if (attriname == P_Layout_PercentHeightEnable)
{
sizeYPercentEnable = value == "True";
}
else if (attriname == P_Layout_StretchWidthEnable)
{
stretchHorizontalEnabled = value == "True";
}
else if (attriname == P_Layout_StretchHeightEnable)
{
stretchVerticalEnabled = value == "True";
}
else if (attriname == P_Layout_HorizontalEdge)
{
horizontalEdge = value;
}
else if (attriname == P_Layout_VerticalEdge)
{
verticalEdge = value;
}
else if (attriname == P_Layout_LeftMargin)
{
leftMargin = atof(value.data());
}
else if (attriname == P_Layout_RightMargin)
{
rightMargin = atof(value.data());
}
else if (attriname == P_Layout_TopMargin)
{
topMargin = atof(value.data());
}
else if (attriname == P_Layout_BottomMargin)
{
bottomMargin = atof(value.data());
}
attribute = attribute.next_attribute();
}
auto child = objectData.first_child();
while (child)
{
std::string_view attriname = child.name();
if (attriname == "Position")
{
attribute = child.first_attribute();
while (attribute)
{
attriname = attribute.name();
std::string_view value = attribute.value();
if (attriname == "X")
{
position.x = atof(value.data());
}
else if (attriname == "Y")
{
position.y = atof(value.data());
}
attribute = attribute.next_attribute();
}
}
else if (attriname == "Scale")
{
attribute = child.first_attribute();
while (attribute)
{
attriname = attribute.name();
std::string_view value = attribute.value();
if (attriname == "ScaleX")
{
scale.x = atof(value.data());
}
else if (attriname == "ScaleY")
{
scale.y = atof(value.data());
}
attribute = attribute.next_attribute();
}
}
else if (attriname == "AnchorPoint")
{
attribute = child.first_attribute();
while (attribute)
{
attriname = attribute.name();
std::string_view value = attribute.value();
if (attriname == "ScaleX")
{
anchorPoint.x = atof(value.data());
}
else if (attriname == "ScaleY")
{
anchorPoint.y = atof(value.data());
}
attribute = attribute.next_attribute();
}
}
else if (attriname == "CColor")
{
attribute = child.first_attribute();
while (attribute)
{
attriname = attribute.name();
std::string_view value = attribute.value();
if (attriname == "A")
{
color.a = atoi(value.data());
}
else if (attriname == "R")
{
color.r = atoi(value.data());
}
else if (attriname == "G")
{
color.g = atoi(value.data());
}
else if (attriname == "B")
{
color.b = atoi(value.data());
}
attribute = attribute.next_attribute();
}
}
else if (attriname == "Size")
{
attribute = child.first_attribute();
while (attribute)
{
attriname = attribute.name();
std::string_view value = attribute.value();
if (attriname == "X")
{
size.x = atof(value.data());
}
else if (attriname == "Y")
{
size.y = atof(value.data());
}
attribute = attribute.next_attribute();
}
}
else if (attriname == "PrePosition")
{
attribute = child.first_attribute();
while (attribute)
{
attriname = attribute.name();
std::string_view value = attribute.value();
if (attriname == "X")
{
positionXPercent = atof(value.data());
}
else if (attriname == "Y")
{
positionYPercent = atof(value.data());
}
attribute = attribute.next_attribute();
}
}
else if (attriname == "PreSize")
{
attribute = child.first_attribute();
while (attribute)
{
attriname = attribute.name();
std::string_view value = attribute.value();
if (attriname == "X")
{
sizeXPercent = atof(value.data());
}
else if (attriname == "Y")
{
sizeYPercent = atof(value.data());
}
attribute = attribute.next_attribute();
}
}
child = child.next_sibling();
}
RotationSkew f_rotationskew(rotationSkew.x, rotationSkew.y);
FVec2 f_position(position.x, position.y);
Scale f_scale(scale.x, scale.y);
AnchorPoint f_anchortpoint(anchorPoint.x, anchorPoint.y);
Color f_color(color.a, color.r, color.g, color.b);
FlatSize f_size(size.x, size.y);
auto f_layoutComponent = CreateLayoutComponentTable(
*builder, positionXPercentEnabled, positionYPercentEnabled, positionXPercent, positionYPercent,
sizeXPercentEnable, sizeYPercentEnable, sizeXPercent, sizeYPercent, stretchHorizontalEnabled,
stretchVerticalEnabled, builder->CreateString(horizontalEdge), builder->CreateString(verticalEdge), leftMargin,
rightMargin, topMargin, bottomMargin);
auto options = CreateWidgetOptions(
*builder, builder->CreateString(name), (int32_t)actionTag, &f_rotationskew, zOrder, visible, alpha, tag,
&f_position, &f_scale, &f_anchortpoint, &f_color, &f_size, flipX, flipY, ignoreSize, touchEnabled,
builder->CreateString(frameEvent), builder->CreateString(customProperty), builder->CreateString(callbackType),
builder->CreateString(callbackName), f_layoutComponent, cascadeColorEnabled, cascadeOpacityEnabled);
return *(Offset<Table>*)(&options);
}
void WidgetReader::setPropsWithFlatBuffers(axis::Node* node, const flatbuffers::Table* widgetOptions)
{
Widget* widget = static_cast<Widget*>(node);
auto options = (WidgetOptions*)widgetOptions;
// x-studio 10.0.593.0: read from .csb
node->setCascadeColorEnabled(options->cascadeColorEnabled());
node->setCascadeOpacityEnabled(options->cascadeOpacityEnabled());
widget->setAnchorPoint(Vec2::ZERO);
widget->setUnifySizeEnabled(true);
bool ignoreSize = options->ignoreSize() != 0;
widget->ignoreContentAdaptWithSize(ignoreSize);
widget->setUnifySizeEnabled(false);
widget->setLayoutComponentEnabled(true);
widget->ignoreContentAdaptWithSize(false);
Size contentSize(options->size()->width(), options->size()->height());
widget->setContentSize(contentSize);
int tag = options->tag();
widget->setTag(tag);
int actionTag = options->actionTag();
widget->setActionTag(actionTag);
std::string customProperty = options->customProperty()->c_str();
ComExtensionData* extensionData = ComExtensionData::create();
extensionData->setCustomProperty(customProperty);
extensionData->setActionTag(actionTag);
if (node->getComponent(ComExtensionData::COMPONENT_NAME))
{
node->removeComponent(ComExtensionData::COMPONENT_NAME);
}
node->addComponent(extensionData);
bool touchEnabled = options->touchEnabled() != 0;
widget->setTouchEnabled(touchEnabled);
std::string name = options->name()->c_str();
widget->setName(name);
Vec2 position(options->position()->x(), options->position()->y());
widget->setPosition(position);
float scaleX = options->scale()->scaleX();
widget->setScaleX(scaleX);
float scaleY = options->scale()->scaleY();
widget->setScaleY(scaleY);
float rotationSkewX = options->rotationSkew()->rotationSkewX();
widget->setRotationSkewX(rotationSkewX);
float rotationSkewY = options->rotationSkew()->rotationSkewY();
widget->setRotationSkewY(rotationSkewY);
bool visible = options->visible() != 0;
widget->setVisible(visible);
int zOrder = options->zOrder();
widget->setLocalZOrder(zOrder);
auto f_color = options->color();
Color3B color(f_color->r(), f_color->g(), f_color->b());
widget->setColor(color);
int alpha = options->alpha();
widget->setOpacity(alpha);
auto f_anchorPoint = options->anchorPoint();
Vec2 anchorPoint(f_anchorPoint->scaleX(), f_anchorPoint->scaleY());
widget->setAnchorPoint(anchorPoint);
bool flippedX = options->flipX() != 0;
widget->setFlippedX(flippedX);
bool flippedY = options->flipY() != 0;
widget->setFlippedY(flippedY);
std::string callbackType = options->callBackType()->c_str();
widget->setCallbackType(callbackType);
std::string callbackName = options->callBackName()->c_str();
widget->setCallbackName(callbackName);
setLayoutComponentPropsWithFlatBuffers(widget, widgetOptions);
}
void WidgetReader::setLayoutComponentPropsWithFlatBuffers(axis::Node* node, const flatbuffers::Table* nodeOptions)
{
auto layoutComponentTable = ((WidgetOptions*)nodeOptions)->layoutComponent();
if (!layoutComponentTable)
return;
auto layoutComponent = ui::LayoutComponent::bindLayoutComponent(node);
bool positionXPercentEnabled = layoutComponentTable->positionXPercentEnabled() != 0;
bool positionYPercentEnabled = layoutComponentTable->positionYPercentEnabled() != 0;
float positionXPercent = layoutComponentTable->positionXPercent();
float positionYPercent = layoutComponentTable->positionYPercent();
bool sizeXPercentEnable = layoutComponentTable->sizeXPercentEnable() != 0;
bool sizeYPercentEnable = layoutComponentTable->sizeYPercentEnable() != 0;
float sizeXPercent = layoutComponentTable->sizeXPercent();
float sizeYPercent = layoutComponentTable->sizeYPercent();
bool stretchHorizontalEnabled = layoutComponentTable->stretchHorizontalEnabled() != 0;
bool stretchVerticalEnabled = layoutComponentTable->stretchVerticalEnabled() != 0;
std::string horizontalEdge = layoutComponentTable->horizontalEdge()->c_str();
std::string verticalEdge = layoutComponentTable->verticalEdge()->c_str();
float leftMargin = layoutComponentTable->leftMargin();
float rightMargin = layoutComponentTable->rightMargin();
float topMargin = layoutComponentTable->topMargin();
float bottomMargin = layoutComponentTable->bottomMargin();
layoutComponent->setPositionPercentXEnabled(positionXPercentEnabled);
layoutComponent->setPositionPercentYEnabled(positionYPercentEnabled);
layoutComponent->setPositionPercentX(positionXPercent);
layoutComponent->setPositionPercentY(positionYPercent);
layoutComponent->setPercentWidthEnabled(sizeXPercentEnable);
layoutComponent->setPercentHeightEnabled(sizeYPercentEnable);
layoutComponent->setPercentWidth(sizeXPercent);
layoutComponent->setPercentHeight(sizeYPercent);
layoutComponent->setStretchWidthEnabled(stretchHorizontalEnabled);
layoutComponent->setStretchHeightEnabled(stretchVerticalEnabled);
ui::LayoutComponent::HorizontalEdge horizontalEdgeType = ui::LayoutComponent::HorizontalEdge::None;
if (horizontalEdge == P_Layout_LeftEdge)
{
horizontalEdgeType = ui::LayoutComponent::HorizontalEdge::Left;
}
else if (horizontalEdge == P_Layout_RightEdge)
{
horizontalEdgeType = ui::LayoutComponent::HorizontalEdge::Right;
}
else if (horizontalEdge == P_Layout_BothEdge)
{
horizontalEdgeType = ui::LayoutComponent::HorizontalEdge::Center;
}
layoutComponent->setHorizontalEdge(horizontalEdgeType);
ui::LayoutComponent::VerticalEdge verticalEdgeType = ui::LayoutComponent::VerticalEdge::None;
if (verticalEdge == P_Layout_TopEdge)
{
verticalEdgeType = ui::LayoutComponent::VerticalEdge::Top;
}
else if (verticalEdge == P_Layout_BottomEdge)
{
verticalEdgeType = ui::LayoutComponent::VerticalEdge::Bottom;
}
else if (verticalEdge == P_Layout_BothEdge)
{
verticalEdgeType = ui::LayoutComponent::VerticalEdge::Center;
}
layoutComponent->setVerticalEdge(verticalEdgeType);
layoutComponent->setTopMargin(topMargin);
layoutComponent->setBottomMargin(bottomMargin);
layoutComponent->setLeftMargin(leftMargin);
layoutComponent->setRightMargin(rightMargin);
}
Node* WidgetReader::createNodeWithFlatBuffers(const flatbuffers::Table* widgetOptions)
{
Widget* widget = Widget::create();
setPropsWithFlatBuffers(widget, (Table*)widgetOptions);
return widget;
}
std::string WidgetReader::getResourcePath(std::string_view path, axis::ui::Widget::TextureResType texType)
{
std::string_view filePath = GUIReader::getInstance()->getFilePath();
std::string imageFileName_tp;
if (!path.empty())
{
if (texType == ui::Widget::TextureResType::LOCAL)
{
imageFileName_tp.append(filePath).append(path);
}
else if (texType == ui::Widget::TextureResType::PLIST)
{
imageFileName_tp.assign(path);
}
else
{
CCASSERT(0, "invalid TextureResType!!!");
}
}
return imageFileName_tp;
}
} // namespace cocostudio