LabelPtr Label::create(const std::string& font, const std::string& text, const Vector2& textAnchor)
{
LabelPtr result = std::make_shared<Label>();
result->init(font, text, textAnchor);
return result;
}
Label* Interpreter::AddLabel(const tstring& name)
{
LabelPtr control = new Label ();
control->Bind( new StringFormatter<tstring>( new tstring( name ), true ) );
m_ContainerStack.Get().top()->AddChild(control);
return control;
}
PanelPtr SceneEditor::createEditorTab(SceneComponentEditorPtr Editor, IconManagerPtr TheIconManager) const
{
//Editor Icon
ImageComponentPtr EditorIcon = TheIconManager->createIconImageComponent(Editor->getPresentationIconName());
if(EditorIcon == NullFC)
{
EditorIcon = ImageComponent::create();
}
beginEditCP(EditorIcon, ImageComponent::ScaleFieldMask | ImageComponent::AlignmentFieldMask);
EditorIcon->setAlignment(Vec2f(0.5f,0.5f));
EditorIcon->setScale(ImageComponent::SCALE_MIN_AXIS);
endEditCP(EditorIcon, ImageComponent::ScaleFieldMask | ImageComponent::AlignmentFieldMask);
//Editor Label
LabelPtr TabLabel = Label::create();
beginEditCP(TabLabel, Label::TextFieldMask | Label::BordersFieldMask | Label::BackgroundsFieldMask | Label::AlignmentFieldMask);
TabLabel->setBorders(NullFC);
TabLabel->setBackgrounds(NullFC);
TabLabel->setText(Editor->getPresentationName());
TabLabel->setAlignment(Vec2f(0.5f,0.5f));
endEditCP(TabLabel, Label::TextFieldMask | Label::BordersFieldMask | Label::BackgroundsFieldMask | Label::AlignmentFieldMask);
//Tab
PanelPtr Tab = Panel::createEmpty();
//Layout
SpringLayoutPtr TabLayout = SpringLayout::create();
//Editor Icon
TabLayout->putConstraint(SpringLayoutConstraints::WEST_EDGE, EditorIcon, 0, SpringLayoutConstraints::WEST_EDGE, Tab);
TabLayout->putConstraint(SpringLayoutConstraints::EAST_EDGE, EditorIcon, 0, SpringLayoutConstraints::EAST_EDGE, Tab);
TabLayout->putConstraint(SpringLayoutConstraints::NORTH_EDGE, EditorIcon, 0, SpringLayoutConstraints::NORTH_EDGE, Tab);
TabLayout->putConstraint(SpringLayoutConstraints::SOUTH_EDGE, EditorIcon, -1, SpringLayoutConstraints::NORTH_EDGE, TabLabel);
//Editor Label
TabLayout->putConstraint(SpringLayoutConstraints::WEST_EDGE, TabLabel, 0, SpringLayoutConstraints::WEST_EDGE, Tab);
TabLayout->putConstraint(SpringLayoutConstraints::EAST_EDGE, TabLabel, 0, SpringLayoutConstraints::EAST_EDGE, Tab);
TabLayout->putConstraint(SpringLayoutConstraints::SOUTH_EDGE, TabLabel, 0, SpringLayoutConstraints::SOUTH_EDGE, Tab);
TabLayout->putConstraint(SpringLayoutConstraints::HEIGHT_EDGE, TabLabel, LayoutSpring::height(TabLabel));
//Tab Layout
//TabLayout->putConstraint(SpringLayoutConstraints::WIDTH_EDGE, Tab, LayoutSpring::max(TabLayout->getConstraint(SpringLayoutConstraints::WIDTH_EDGE,TabLabel),TabLayout->getConstraint(SpringLayoutConstraints::WIDTH_EDGE,EditorIcon)));
//TabLayout->putConstraint(SpringLayoutConstraints::HEIGHT_EDGE, Tab, LayoutSpring::sum(TabLayout->getConstraint(SpringLayoutConstraints::HEIGHT_EDGE,TabLabel),TabLayout->getConstraint(SpringLayoutConstraints::HEIGHT_EDGE,EditorIcon)));
TabLayout->putConstraint(SpringLayoutConstraints::WIDTH_EDGE, Tab, LayoutSpring::width(Tab));
TabLayout->putConstraint(SpringLayoutConstraints::HEIGHT_EDGE, Tab, LayoutSpring::height(Tab));
beginEditCP(Tab, Panel::ChildrenFieldMask | Panel::LayoutFieldMask | Panel::PreferredSizeFieldMask);
Tab->getChildren().push_back(EditorIcon);
Tab->getChildren().push_back(TabLabel);
Tab->setLayout(TabLayout);
Tab->setPreferredSize(Vec2f(70.0f,50.0f));
endEditCP(Tab, Panel::ChildrenFieldMask | Panel::LayoutFieldMask | Panel::PreferredSizeFieldMask);
return Tab;
}
LabelPtr toLabel(char* key,
int keyLen,
char* value,
int valueLen)
{
LabelPtr label = new Label();
if (key != NULL)
label->set_key(key, keyLen);
if (value != NULL)
label->set_value(value, valueLen);
return label;
}
ComponentPtr DefaultDialogComponentGenerator::getQuestionComponent(DialogInterfacePtr Parent, const boost::any& Value)
{
std::string questionString("");
try
{
questionString = lexical_cast(Value);
}
catch (boost::bad_lexical_cast &)
{
std::cout<<"Unable to display question"<<std::endl;
}
LabelPtr TheQuestionString = Label::Ptr::dcast(getQuestionPrototype()->shallowCopy());
beginEditCP(TheQuestionString, Label::TextFieldMask);
TheQuestionString->setText(questionString);
endEditCP(TheQuestionString, Label::TextFieldMask);
return TheQuestionString;
}
/***************************************************************************\
* Instance methods *
\***************************************************************************/
ComponentPtr DefaultCaptionComponentGenerator::getCaptionComponent(CaptionPtr Parent, const boost::any& Value)
{
std::string CaptionSegment("");
try
{
CaptionSegment = lexical_cast(Value);
}
catch (boost::bad_lexical_cast &)
{
std::cout<<"Unable to display segment"<<std::endl;
}
LabelPtr TheCaptionSegment = Label::Ptr::dcast(getCaptionSegmentPrototype()->shallowCopy());
beginEditCP(TheCaptionSegment, Label::TextFieldMask);
TheCaptionSegment->setText(CaptionSegment);
endEditCP(TheCaptionSegment, Label::TextFieldMask);
return TheCaptionSegment;
}
void fromLabel(LabelPtr l,
char** key,
int* keyLen,
char** value,
int* valueLen)
{
if (l->has_key())
{
std::string* k = l->mutable_key();
*key = (char*) k->data();
*keyLen = k->size();
}
if (l->has_value())
{
std::string* v = l->mutable_value();
*value = (char*) v->data();
*valueLen = v->size();
}
}
void
NepomukTrack::removeLabel( const LabelPtr &label )
{
const NepomukLabel *nlabel = dynamic_cast<const NepomukLabel*>(label.data());
if( !nlabel ) return;
resource()->removeProperty( Soprano::Vocabulary::NAO::hasTag(), nlabel->tag() );
notifyObservers();
}
void ReflectInterpreter::InterpretValueField( const std::vector< Reflect::Pointer >& pointers, Reflect::Translator* translator, const Field* field, Container* parent )
{
if (field->m_Flags & FieldFlags::Hide)
{
return;
}
//
// Create the ui we are generating
//
ContainerPtr container = CreateControl<Container>();
bool readOnly = ( field->m_Flags & FieldFlags::ReadOnly ) == FieldFlags::ReadOnly;
if ( field->m_ValueType && field->m_ValueType->IsA( MetaIds::MetaEnum ) )
{
const Reflect::MetaEnum* enumeration = Reflect::ReflectionCast< MetaEnum >( field->m_ValueType );
ChoicePtr choice = CreateControl<Choice>();
std::vector< ChoiceItem > items;
items.resize( enumeration->m_Elements.GetSize() );
DynamicArray< MetaEnum::Element >::ConstIterator itr = enumeration->m_Elements.Begin();
DynamicArray< MetaEnum::Element >::ConstIterator end = enumeration->m_Elements.End();
for ( size_t index=0; itr != end; ++itr, ++index )
{
ChoiceItem& item = items[index];
item.m_Key = itr->m_Name;
item.m_Data = itr->m_Name;
}
choice->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
choice->a_Items.Set( items );
choice->a_IsDropDown.Set( true );
choice->a_IsReadOnly.Set( readOnly );
container->AddChild(choice);
}
else
{
ScalarTranslator* scalar = ReflectionCast< ScalarTranslator >( field->m_Translator );
if ( scalar && scalar->m_Type == ScalarTypes::Boolean )
{
CheckBoxPtr checkBox = CreateControl<CheckBox>();
checkBox->a_IsReadOnly.Set( readOnly );
checkBox->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
container->AddChild( checkBox );
}
else
{
ValuePtr value = CreateControl<Value>();
value->a_IsReadOnly.Set( readOnly );
value->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
container->AddChild( value );
}
}
//
// Setup label
//
LabelPtr label = NULL;
{
std::vector< ControlPtr >::const_iterator itr = container->GetChildren().begin();
std::vector< ControlPtr >::const_iterator end = container->GetChildren().end();
for( ; itr != end; ++itr )
{
Label* label = Reflect::SafeCast<Label>( *itr );
if (label)
{
break;
}
}
}
if (!label.ReferencesObject())
{
label = CreateControl<Label>();
std::string temp;
field->GetProperty( TXT( "UIName" ), temp );
if ( temp.empty() )
{
bool converted = Helium::ConvertString( field->m_Name, temp );
HELIUM_ASSERT( converted );
}
label->BindText( temp );
label->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
container->InsertChild(0, label);
}
//
// Bind data
//
std::vector<Data*> datas;
for ( std::vector< Reflect::Pointer >::const_iterator itr = pointers.begin(), end = pointers.end(); itr != end; ++itr )
{
datas.push_back( new Data ( *itr, translator ) );
}
Helium::SmartPtr< MultiStringFormatter<Data> > data = new MultiStringFormatter<Data>( datas, true );
container->Bind( data );
//
// Set default
//
String defaultStr;
Pointer defaultPtr ( field, field->m_Structure->m_Default, NULL );
ScalarTranslator* scalar = Reflect::ReflectionCast< ScalarTranslator >( field->m_Translator );
if ( scalar )
{
scalar->Print( defaultPtr, defaultStr );
}
container->a_Default.Set( defaultStr.GetData() );
//
// Close
//
parent->AddChild(container);
}
void ReflectValueInterpreter::InterpretField(const Field* field, const std::vector<Reflect::Object*>& instances, Container* parent)
{
if (field->m_Flags & FieldFlags::Hide)
{
return;
}
//
// Create the ui we are generating
//
ContainerPtr container = CreateControl<Container>();
bool readOnly = ( field->m_Flags & FieldFlags::ReadOnly ) == FieldFlags::ReadOnly;
//
// Parse
//
tstring fieldUI;
field->GetProperty( TXT( "UIScript" ), fieldUI );
bool result = Script::Parse(fieldUI, this, parent->GetCanvas(), container, field->m_Flags);
if (!result)
{
if ( field->m_DataClass == Reflect::GetClass<EnumerationData>() )
{
ChoicePtr choice = CreateControl<Choice>();
const Reflect::Enumeration* enumeration = Reflect::ReflectionCast< Enumeration >( field->m_Type );
std::vector< ChoiceItem > items;
items.resize( enumeration->m_Elements.GetSize() );
DynArray< EnumerationElement >::ConstIterator itr = enumeration->m_Elements.Begin();
DynArray< EnumerationElement >::ConstIterator end = enumeration->m_Elements.End();
for ( size_t index=0; itr != end; ++itr, ++index )
{
ChoiceItem& item = items[index];
item.m_Key = itr->m_Name;
item.m_Data = itr->m_Name;
}
choice->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
choice->a_Items.Set( items );
choice->a_IsDropDown.Set( true );
choice->a_IsReadOnly.Set( readOnly );
container->AddChild(choice);
}
else
{
if ( field->m_DataClass == Reflect::GetClass<BoolData>() )
{
CheckBoxPtr checkBox = CreateControl<CheckBox>();
checkBox->a_IsReadOnly.Set( readOnly );
checkBox->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
container->AddChild( checkBox );
}
else
{
ValuePtr value = CreateControl<Value>();
value->a_IsReadOnly.Set( readOnly );
value->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
container->AddChild( value );
}
}
}
//
// Setup label
//
LabelPtr label = NULL;
{
V_Control::const_iterator itr = container->GetChildren().begin();
V_Control::const_iterator end = container->GetChildren().end();
for( ; itr != end; ++itr )
{
Label* label = Reflect::SafeCast<Label>( *itr );
if (label)
{
break;
}
}
}
if (!label.ReferencesObject())
{
label = CreateControl<Label>();
tstring temp;
field->GetProperty( TXT( "UIName" ), temp );
if ( temp.empty() )
{
bool converted = Helium::ConvertString( field->m_Name, temp );
HELIUM_ASSERT( converted );
}
label->BindText( temp );
label->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
container->InsertChild(0, label);
}
//
// Bind data
//
std::vector<Data*> ser;
{
std::vector<Reflect::Object*>::const_iterator itr = instances.begin();
std::vector<Reflect::Object*>::const_iterator end = instances.end();
for ( ; itr != end; ++itr )
{
DataPtr s = field->CreateData();
if (!s->IsClass(Reflect::GetClass<ContainerData>()))
{
s->ConnectField(*itr, field);
ser.push_back(s);
m_Datas.push_back(s);
}
}
}
Helium::SmartPtr< MultiStringFormatter<Data> > data = new MultiStringFormatter<Data>( ser );
container->Bind( data );
//
// Set default
//
DataPtr defaultData = field->CreateDefaultData();
if (defaultData.ReferencesObject())
{
tstringstream defaultStream;
*defaultData >> defaultStream;
container->a_Default.Set( defaultStream.str() );
}
void ReflectVectorInterpreter::InterpretField(const Field* field, const std::vector<Reflect::Element*>& instances, Container* parent)
{
if ( field->m_Flags & FieldFlags::Hide )
{
return;
}
// create the container
ContainerPtr container = CreateControl< Container >();
parent->AddChild( container );
// create the label
LabelPtr label = CreateControl< Label >();
container->AddChild( label );
label->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
tstring temp;
bool converted = Helium::ConvertString( field->m_UIName, temp );
HELIUM_ASSERT( converted );
label->BindText( temp );
// compute dimensions
int dimensions = 2;
if ( field->m_SerializerID == Reflect::GetType<Vector3Serializer>() )
{
dimensions += 1;
}
if ( field->m_SerializerID == Reflect::GetType<Vector4Serializer>() )
{
dimensions += 2;
}
// create the dimension ui
for ( int offset = 0; offset < dimensions*4; offset += 4 )
{
// create the serializers
std::vector<Reflect::Serializer*> data;
std::vector<Reflect::Element*>::const_iterator itr = instances.begin();
std::vector<Reflect::Element*>::const_iterator end = instances.end();
for ( ; itr != end; ++itr )
{
SerializerPtr s = new F32Serializer ();
s->ConnectField(*itr, field, offset);
m_Serializers.push_back(s);
data.push_back(s);
}
// create the text box
ValuePtr value = CreateControl< Value >();
container->AddChild( value );
value->a_IsReadOnly.Set( ( field->m_Flags & FieldFlags::ReadOnly ) == FieldFlags::ReadOnly );
value->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
// bind the ui to the serializers
value->Bind( new MultiStringFormatter<Serializer>( data ) );
}
}
void ReflectStlVectorInterpreter::InterpretField(const Field* field, const std::vector<Reflect::Object*>& instances, Container* parent)
{
if (field->m_Flags & FieldFlags::Hide)
{
return;
}
// create the label
ContainerPtr labelContainer = CreateControl<Container>();
parent->AddChild( labelContainer );
LabelPtr label = CreateControl< Label >();
label->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
labelContainer->AddChild( label );
tstring temp;
field->GetProperty( TXT( "UIName" ), temp );
if ( temp.empty() )
{
bool converted = Helium::ConvertString( field->m_Name, temp );
HELIUM_ASSERT( converted );
}
label->BindText( temp );
// create the list view
ContainerPtr listContainer = CreateControl<Container>();
parent->AddChild( listContainer );
ListPtr list = CreateControl<List>();
list->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
listContainer->AddChild( list );
// create the buttons
ButtonPtr addButton;
ButtonPtr removeButton;
ButtonPtr upButton;
ButtonPtr downButton;
if ( !(field->m_Flags & FieldFlags::ReadOnly) )
{
addButton = AddAddButton( list );
removeButton = AddRemoveButton( list );
upButton = AddMoveUpButton( list );
downButton = AddMoveDownButton( list );
}
// add the buttons to the container
ContainerPtr buttonContainer = CreateControl<Container>();
parent->AddChild( buttonContainer );
if ( addButton )
{
buttonContainer->AddChild( addButton );
}
if ( removeButton )
{
buttonContainer->AddChild( removeButton );
}
if ( upButton )
{
buttonContainer->AddChild( upButton );
}
if ( downButton )
{
buttonContainer->AddChild( downButton );
}
// create the data objects
std::vector<Reflect::Object*>::const_iterator itr = instances.begin();
std::vector<Reflect::Object*>::const_iterator end = instances.end();
for ( ; itr != end; ++itr )
{
DataPtr s = field->CreateData();
OnCreateFieldData( s );
s->ConnectField(*itr, field);
m_Datas.push_back(s);
}
// bind the ui to the data objects
Helium::SmartPtr< MultiStringFormatter<Data> > data = new MultiStringFormatter<Reflect::Data>( (std::vector<Reflect::Data*>&)m_Datas );
list->Bind( data );
// setup the default value
DataPtr defaultData = field->CreateDefaultData();
if (defaultData)
{
tstringstream defaultStream;
*defaultData >> defaultStream;
list->a_Default.Set( defaultStream.str() );
}
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialUpdateListener TheTutorialUpdateListener;
TutorialWindowEventProducer->addUpdateListener(&TheTutorialUpdateListener);
//Create Start and stop buttons for the caption
ButtonPtr StartButton = osg::Button::create();
ButtonPtr StopButton = osg::Button::create();
ButtonPtr PauseButton = osg::Button::create();
UIFontPtr ButtonFont = osg::UIFont::create();
beginEditCP(ButtonFont, UIFont::SizeFieldMask);
ButtonFont->setSize(16);
endEditCP(ButtonFont, UIFont::SizeFieldMask);
beginEditCP(StartButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
StartButton->setMinSize(Vec2f(50, 25));
StartButton->setMaxSize(Vec2f(200, 100));
StartButton->setPreferredSize(Vec2f(100, 50));
StartButton->setToolTipText("This will start playing the caption!");
StartButton->setText("START");
StartButton->setFont(ButtonFont);
StartButton->setTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
StartButton->setRolloverTextColor(Color4f(1.0, 0.0, 1.0, 1.0));
StartButton->setActiveTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
StartButton->setAlignment(Vec2f(0.25,0.5));
endEditCP(StartButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
beginEditCP(StopButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
StopButton->setMinSize(Vec2f(50, 25));
StopButton->setMaxSize(Vec2f(200, 100));
StopButton->setPreferredSize(Vec2f(100, 50));
StopButton->setToolTipText("This will stop the caption and reset it!");
StopButton->setText("STOP");
StopButton->setFont(ButtonFont);
StopButton->setTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
StopButton->setRolloverTextColor(Color4f(1.0, 0.0, 1.0, 1.0));
StopButton->setActiveTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
StopButton->setAlignment(Vec2f(0.75,0.5));
endEditCP(StopButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
beginEditCP(PauseButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
PauseButton->setMinSize(Vec2f(50, 25));
PauseButton->setMaxSize(Vec2f(200, 100));
PauseButton->setPreferredSize(Vec2f(100, 50));
PauseButton->setToolTipText("This will Pause the caption!");
PauseButton->setText("PAUSE");
PauseButton->setFont(ButtonFont);
PauseButton->setTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
PauseButton->setRolloverTextColor(Color4f(1.0, 0.0, 1.0, 1.0));
PauseButton->setActiveTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
PauseButton->setAlignment(Vec2f(0.5,0.5));
endEditCP(PauseButton, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask | Button::AlignmentFieldMask);
StartButtonActionListener TheStartButtonActionListener;
StartButton->addActionListener(&TheStartButtonActionListener);
StopButtonActionListener TheStopButtonActionListener;
StopButton->addActionListener(&TheStopButtonActionListener);
PauseButtonActionListener ThePauseButtonActionListener;
PauseButton->addActionListener(&ThePauseButtonActionListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
// Make Torus Node (creates Torus in background of scene)
NodePtr TorusGeometryNode = makeTorus(.5, 2, 16, 16);
// Make Main Scene Node and add the Torus
scene = osg::Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(osg::Group::create());
scene->addChild(TorusGeometryNode);
endEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
// Create the Graphics
GraphicsPtr TutorialGraphics = osg::Graphics2D::create();
// Initialize the LookAndFeelManager to enable default settings
LookAndFeelManager::the()->getLookAndFeel()->init();
LayoutPtr MainInternalWindowLayout = osg::FlowLayout::create();
PanelPtr CaptionContainer = osg::Panel::create();
beginEditCP(CaptionContainer, Panel::PreferredSizeFieldMask | Panel::LayoutFieldMask);
CaptionContainer->setPreferredSize(Pnt2f(250.0,30.0));
CaptionContainer->setLayout(MainInternalWindowLayout);
endEditCP(CaptionContainer, Panel::PreferredSizeFieldMask | Panel::LayoutFieldMask);
//Initialize the Sound Manager
SoundManager::the()->attachUpdateProducer(TutorialWindowEventProducer);
TutorialSound = SoundManager::the()->createSound();
beginEditCP(TutorialSound, Sound::FileFieldMask | Sound::VolumeFieldMask | Sound::StreamingFieldMask | Sound::LoopingFieldMask);
TutorialSound->setFile(Path("./Data/captionSoundFile.ogg"));
TutorialSound->setVolume(1.0);
TutorialSound->setStreaming(true);
TutorialSound->setLooping(0);
endEditCP(TutorialSound, Sound::FileFieldMask | Sound::VolumeFieldMask | Sound::StreamingFieldMask | Sound::LoopingFieldMask);
// Create the Caption
TutorialCaption = osg::Caption::create();
//Add the segments of text to be displayed
TutorialCaption->captionSegment("Listeners can be used for a variety",1.7,3.4);
TutorialCaption->captionSegment("of different applications.",3.4,4.7);
TutorialCaption->captionSegment("In this tutorial we will",5.0,6.35);
TutorialCaption->captionSegment("simply be changing the background though.",6.35,8.0);
TutorialCaption->captionSegment("First we will change the",8.8,10.2);
TutorialCaption->captionSegment("torus on screen to a sphere.",10.2,11.75);
TutorialCaption->captionSegment("By timing things correctly we can make",12.7,14.6);
TutorialCaption->captionSegment("the changes right as the word is spoken.",14.6,16.75);
TutorialCaption->captionSegment("Such as changing the sphere to a cube",17.3,20.0);
TutorialCaption->captionSegment("but personally I would prefer",20.33,21.65);
TutorialCaption->captionSegment("the background to be blank.",21.65,22.8);
TutorialCaption->captionSegment("Much better!",23.8,25.0);
//Add the tutorial Caption Listener to the Caption that was set up for the tutorial
TutorialCaptionListener TheCaptionListener;
TutorialCaption->addCaptionListener(&TheCaptionListener);
//Create the Caption component Generator
TutorialCapGen = DefaultCaptionComponentGenerator::create();
TutorialCaption->attachWindowEventProducer(TutorialWindowEventProducer);
beginEditCP(TutorialCaption, Caption::ParentContainerFieldMask | Caption::ComponentGeneratorFieldMask | Caption::CaptionDialogSoundFieldMask);
TutorialCaption->setParentContainer(CaptionContainer);
TutorialCaption->setComponentGenerator(TutorialCapGen);
TutorialCaption->setCaptionDialogSound(TutorialSound);
endEditCP(TutorialCaption, Caption::ParentContainerFieldMask | Caption::ComponentGeneratorFieldMask | Caption::CaptionDialogSoundFieldMask);
//Create and modify the Label prototype that will be used for the caption
LabelPtr LabelPrototype = Label::create();
LabelPrototype->setAlignment(Pnt2f(0.5f,0.5f));
LabelPrototype->setPreferredSize(Pnt2f(250.0,30.0));
//Add the prototype to the Generator for use
beginEditCP(TutorialCapGen, DefaultCaptionComponentGenerator::CaptionSegmentPrototypeFieldMask);
TutorialCapGen->setCaptionSegmentPrototype(LabelPrototype);
endEditCP(TutorialCapGen, DefaultCaptionComponentGenerator::CaptionSegmentPrototypeFieldMask);
// Create The Main InternalWindow
// Create Background to be used with the Main InternalWindow
ColorLayerPtr MainInternalWindowBackground = osg::ColorLayer::create();
MainInternalWindow = osg::InternalWindow::create();
beginEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
MainInternalWindowBackground->setColor(Color4f(1.0,1.0,1.0,0.5));
endEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
beginEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
MainInternalWindow->setLayout(MainInternalWindowLayout);
MainInternalWindow->setBackgrounds(MainInternalWindowBackground);
MainInternalWindow->setAlignmentInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setScalingInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setDrawTitlebar(false);
MainInternalWindow->setResizable(false);
MainInternalWindow->getChildren().push_back(CaptionContainer);
MainInternalWindow->getChildren().push_back(StartButton);
MainInternalWindow->getChildren().push_back(StopButton);
MainInternalWindow->getChildren().push_back(PauseButton);
endEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
// Create the Drawing Surface
UIDrawingSurfacePtr TutorialDrawingSurface = UIDrawingSurface::create();
beginEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->setGraphics(TutorialGraphics);
TutorialDrawingSurface->setEventProducer(TutorialWindowEventProducer);
endEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->openWindow(MainInternalWindow);
// Create the UI Foreground Object
UIForegroundPtr TutorialUIForeground = osg::UIForeground::create();
beginEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
TutorialUIForeground->setDrawingSurface(TutorialDrawingSurface);
endEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
mgr->setRoot(scene);
// Add the UI Foreground Object to the Scene
ViewportPtr TutorialViewport = mgr->getWindow()->getPort(0);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
TutorialViewport->getForegrounds().push_back(TutorialUIForeground);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
// Show the whole Scene
mgr->showAll();
SoundManager::the()->setCamera(mgr->getCamera());
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"05Caption");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialUpdateListener TheTutorialUpdateListener;
TutorialWindowEventProducer->addUpdateListener(&TheTutorialUpdateListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
// Make Torus Node (creates Torus in background of scene)
NodePtr TorusGeometryNode = makeTorus(.5, 2, 16, 16);
// Make Main Scene Node and add the Torus
scene = osg::Node::create();
beginEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
scene->setCore(osg::Group::create());
scene->addChild(TorusGeometryNode);
endEditCP(scene, Node::CoreFieldMask | Node::ChildrenFieldMask);
// Create the Graphics
GraphicsPtr TutorialGraphics = osg::Graphics2D::create();
// Initialize the LookAndFeelManager to enable default settings
LookAndFeelManager::the()->getLookAndFeel()->init();
DefaultDialogComponentGeneratorPtr TutorialDialogGenerator = DefaultDialogComponentGenerator::create();
ButtonFont = osg::UIFont::create();
beginEditCP(ButtonFont, UIFont::SizeFieldMask);
ButtonFont->setSize(16);
endEditCP(ButtonFont, UIFont::SizeFieldMask);
ButtonPtr Response = osg::Button::create();
beginEditCP(Response, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask );
Response->setMinSize(Vec2f(50, 25));
Response->setMaxSize(Vec2f(200, 100));
Response->setPreferredSize(Vec2f(100, 50));
Response->setToolTipText("These buttons are for selecting a response!");
Response->setFont(ButtonFont);
Response->setTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
Response->setRolloverTextColor(Color4f(1.0, 0.0, 1.0, 1.0));
Response->setActiveTextColor(Color4f(1.0, 0.0, 0.0, 1.0));
endEditCP(Response, Button::MinSizeFieldMask | Button::MaxSizeFieldMask | Button::PreferredSizeFieldMask | Button::ToolTipTextFieldMask | Button::TextFieldMask |
Button::FontFieldMask | Button::TextColorFieldMask | Button::RolloverTextColorFieldMask | Button::ActiveTextColorFieldMask );
LabelPtr LabelPrototype = Label::create();
LabelPrototype->setAlignment(Pnt2f(0.5f,0.5f));
LabelPrototype->setPreferredSize(Pnt2f(250.0,30.0));
DialogInterfacePtr TutorialDialogInterface = osg::DialogInterface::create();
beginEditCP(TutorialDialogGenerator, DefaultDialogComponentGenerator::ResponseButtonPrototypeFieldMask | DefaultDialogComponentGenerator::QuestionPrototypeFieldMask);
TutorialDialogGenerator->setResponseButtonPrototype(Response);
TutorialDialogGenerator->setQuestionPrototype(LabelPrototype);
endEditCP(TutorialDialogGenerator, DefaultDialogComponentGenerator::ResponseButtonPrototypeFieldMask | DefaultDialogComponentGenerator::QuestionPrototypeFieldMask);
TutorialDialog = osg::DialogHierarchy::create();
beginEditCP(TutorialDialog, DialogHierarchy::DualNodeStyleFieldMask);
TutorialDialog->setDualNodeStyle(true);
endEditCP(TutorialDialog, DialogHierarchy::DualNodeStyleFieldMask);
DialogPtr rootDialog = TutorialDialog->addDialog("Which do you prefer?", 0.0, NullFC, true, NullFC);
DialogPtr RootDialogChildA = TutorialDialog->addDialog("Foreground", 0.0, NullFC, false, rootDialog);
DialogPtr RootDialogChildB = TutorialDialog->addDialog("Background", 0.0, NullFC, false, rootDialog);
DialogPtr SelectableDialogChildA = TutorialDialog->addDialog("What color would you like the forground to be?", 0.0, NullFC, true, RootDialogChildA);
DialogPtr SelectableDialogChildB = TutorialDialog->addDialog("What object do you want to be in the background?", 0.0, NullFC, true, RootDialogChildB);
ADialogChildA = TutorialDialog->addDialog("Blue", 0.0, NullFC, false, SelectableDialogChildA);
ADialogChildB = TutorialDialog->addDialog("Red", 0.0, NullFC, false, SelectableDialogChildA);
BDialogChildA = TutorialDialog->addDialog("Square", 0.0, NullFC, false, SelectableDialogChildB);
BDialogChildB = TutorialDialog->addDialog("Sphere", 0.0, NullFC, false, SelectableDialogChildB);
DialogPtr RestartEnd1 = TutorialDialog->addDialog("What would you like to do?", 0.0, NullFC, true, ADialogChildA);
DialogPtr RestartEnd2 = TutorialDialog->addDialog("What would you like to do?", 0.0, NullFC, true, ADialogChildB);
DialogPtr RestartEnd3 = TutorialDialog->addDialog("What would you like to do?", 0.0, NullFC, true, BDialogChildA);
DialogPtr RestartEnd4 = TutorialDialog->addDialog("What would you like to do?", 0.0, NullFC, true, BDialogChildB);
Restart1 = TutorialDialog->addDialog("Restart", 0.0, NullFC, false, RestartEnd1);
End1 = TutorialDialog->addDialog("End", 0.0, NullFC, false, RestartEnd1);
Restart2 = TutorialDialog->addDialog("Restart", 0.0, NullFC, false, RestartEnd2);
End2 = TutorialDialog->addDialog("End", 0.0, NullFC, false, RestartEnd2);
Restart3 = TutorialDialog->addDialog("Restart", 0.0, NullFC, false, RestartEnd3);
End3 = TutorialDialog->addDialog("End", 0.0, NullFC, false, RestartEnd3);
Restart4 = TutorialDialog->addDialog("Restart", 0.0, NullFC, false, RestartEnd4);
End4 = TutorialDialog->addDialog("End", 0.0, NullFC, false, RestartEnd4);
TutorialDialogListener TheTutorialDialogListener;
rootDialog->addDialogListener(&TheTutorialDialogListener);
RootDialogChildA->addDialogListener(&TheTutorialDialogListener);
RootDialogChildB->addDialogListener(&TheTutorialDialogListener);
ADialogChildA->addDialogListener(&TheTutorialDialogListener);
ADialogChildB->addDialogListener(&TheTutorialDialogListener);
BDialogChildA->addDialogListener(&TheTutorialDialogListener);
BDialogChildB->addDialogListener(&TheTutorialDialogListener);
Restart1->addDialogListener(&TheTutorialDialogListener);
End1->addDialogListener(&TheTutorialDialogListener);
Restart2->addDialogListener(&TheTutorialDialogListener);
End2->addDialogListener(&TheTutorialDialogListener);
Restart3->addDialogListener(&TheTutorialDialogListener);
End3->addDialogListener(&TheTutorialDialogListener);
Restart4->addDialogListener(&TheTutorialDialogListener);
End4->addDialogListener(&TheTutorialDialogListener);
SelectableDialogChildA->addDialogListener(&TheTutorialDialogListener);
SelectableDialogChildB->addDialogListener(&TheTutorialDialogListener);
RestartEnd1->addDialogListener(&TheTutorialDialogListener);
RestartEnd2->addDialogListener(&TheTutorialDialogListener);
RestartEnd3->addDialogListener(&TheTutorialDialogListener);
RestartEnd4->addDialogListener(&TheTutorialDialogListener);
LayoutPtr MainInternalWindowLayout = osg::FlowLayout::create();
// Create The Main InternalWindow
// Create Background to be used with the Main InternalWindow
MainInternalWindowBackground = osg::ColorLayer::create();
MainInternalWindow = osg::InternalWindow::create();
beginEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
MainInternalWindowBackground->setColor(Color4f(1.0,1.0,1.0,0.5));
endEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
beginEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
MainInternalWindow->setLayout(MainInternalWindowLayout);
MainInternalWindow->setBackgrounds(MainInternalWindowBackground);
MainInternalWindow->setAlignmentInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setScalingInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setDrawTitlebar(false);
MainInternalWindow->setResizable(false);
endEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
beginEditCP(TutorialDialogInterface, DialogInterface::ComponentGeneratorFieldMask | DialogInterface::ParentContainerFieldMask | DialogInterface::SourceDialogHierarchyFieldMask);
TutorialDialogInterface->setComponentGenerator(TutorialDialogGenerator);
TutorialDialogInterface->setParentContainer(MainInternalWindow);
TutorialDialogInterface->setSourceDialogHierarchy(TutorialDialog);
endEditCP(TutorialDialogInterface, DialogInterface::ComponentGeneratorFieldMask | DialogInterface::ParentContainerFieldMask | DialogInterface::SourceDialogHierarchyFieldMask);
// Create the Drawing Surface
UIDrawingSurfacePtr TutorialDrawingSurface = UIDrawingSurface::create();
beginEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->setGraphics(TutorialGraphics);
TutorialDrawingSurface->setEventProducer(TutorialWindowEventProducer);
endEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->openWindow(MainInternalWindow);
// Create the UI Foreground Object
UIForegroundPtr TutorialUIForeground = osg::UIForeground::create();
beginEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
TutorialUIForeground->setDrawingSurface(TutorialDrawingSurface);
endEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
mgr->setRoot(scene);
// Add the UI Foreground Object to the Scene
ViewportPtr TutorialViewport = mgr->getWindow()->getPort(0);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
TutorialViewport->getForegrounds().push_back(TutorialUIForeground);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
// Show the whole Scene
mgr->showAll();
SoundManager::the()->setCamera(mgr->getCamera());
TutorialDialog->start();
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"07DialogTypeTwo");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
void ReflectInterpreter::InterpretFilePathField( const std::vector< Reflect::Pointer >& pointers, Reflect::Translator* translator, const Reflect::Field* field, Container* parent )
{
#if INSPECT_REFACTOR
if (field->m_Flags & FieldFlags::Hide)
{
return;
}
//
// Create the ui we are generating
//
std::vector< ContainerPtr > groups;
ContainerPtr container = CreateControl<Container>();
groups.push_back( container );
bool pathField = field->m_DataClass == Reflect::GetMetaClass< PathData >();
bool readOnly = ( field->m_Flags & FieldFlags::ReadOnly ) == FieldFlags::ReadOnly;
DataChangingSignature::Delegate changingDelegate;
FileDialogButtonPtr fileDialogButton;
//
// Parse
//
std::string fieldUI;
field->GetProperty( TXT( "UIScript" ), fieldUI );
bool result = Script::Parse(fieldUI, this, parent->GetCanvas(), container, field->m_Flags);
if (!result)
{
if ( pathField || field->m_DataClass == Reflect::GetMetaClass<StlStringData>() )
{
ContainerPtr valueContainer = CreateControl<Container>();
ValuePtr value = CreateControl< Value >();
value->a_Justification.Set( Justifications::Right );
value->a_IsReadOnly.Set( readOnly );
value->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
valueContainer->AddChild( value );
groups.push_back( valueContainer );
if ( !readOnly )
{
changingDelegate = DataChangingSignature::Delegate(this, &PathInterpreter::DataChanging);
// File dialog button
fileDialogButton = CreateControl< FileDialogButton >();
fileDialogButton->a_HelpText.Set( TXT( "Open a file dialog to choose a new file." ) );
field->GetProperty( TXT( "FileFilter" ), m_FileFilter );
if ( !m_FileFilter.empty() )
{
fileDialogButton->a_Filter.Set( m_FileFilter );
}
container->AddChild( fileDialogButton );
value->SetProperty( TXT( "FileFilter" ), m_FileFilter );
}
if ( objects.size() == 1 )
{
// File edit button
ButtonPtr editButton = CreateControl< Button >();
editButton->ButtonClickedEvent().Add( ButtonClickedSignature::Delegate ( this, &PathInterpreter::Edit ) );
editButton->a_Label.Set( TXT( "Edit" ) );
editButton->a_HelpText.Set( TXT( "Attempt to edit the file using its associated default application." ) );
container->AddChild( editButton );
}
}
}
else
{
ValuePtr value = CreateControl< Value >();
value->a_IsReadOnly.Set( readOnly );
value->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
container->AddChild( value );
}
//
// Setup label
//
LabelPtr label = NULL;
{
std::vector< ControlPtr >::const_iterator itr = container->GetChildren().begin();
std::vector< ControlPtr >::const_iterator end = container->GetChildren().end();
for( ; itr != end; ++itr )
{
Label* label = Reflect::SafeCast<Label>( *itr );
if (label)
{
break;
}
}
}
if (!label.ReferencesObject())
{
label = CreateControl< Label >();
std::string temp;
field->GetProperty( TXT( "UIName" ), temp );
if ( temp.empty() )
{
bool converted = Helium::ConvertString( field->m_Name, temp );
HELIUM_ASSERT( converted );
}
label->BindText( temp );
label->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
container->InsertChild(0, label);
}
//
// Create type m_FinderSpecific data bound to this and additional objects
//
std::vector<Data*> datas;
{
std::vector<Reflect::Object*>::const_iterator itr = objects.begin();
std::vector<Reflect::Object*>::const_iterator end = objects.end();
for ( ; itr != end; ++itr )
{
Data s = field->CreateData();
if (s->IsA(Reflect::GetMetaClass<ContainerData>()))
{
return;
}
s->ConnectField(*itr, field);
datas.push_back(s);
m_Datas.push_back(s);
}
}
//
// Create data and bind
//
Helium::SmartPtr< MultiStringFormatter<Data> > data = new MultiStringFormatter<Data>( datas );
if (changingDelegate.Valid())
{
data->AddChangingListener( changingDelegate );
}
{
std::vector<ContainerPtr>::const_iterator itr = groups.begin();
std::vector<ContainerPtr>::const_iterator end = groups.end();
for ( ; itr != end; ++itr )
{
(*itr)->Bind( data );
}
}
//
// Set default
//
Data defaultData = field->CreateDefaultData();
if (defaultData.ReferencesObject())
{
std::stringstream defaultStream;
*defaultData >> defaultStream;
container->a_Default.Set( defaultStream.str() );
}
void ReflectInterpreter::InterpretColorField( const std::vector< Reflect::Pointer >& pointers, Reflect::Translator* translator, const Reflect::Field* field, Container* parent )
{
#if INSPECT_REFACTOR
ContainerPtr container = CreateControl< Container >();
parent->AddChild( container );
LabelPtr label = CreateControl< Label >();
std::string temp;
field->GetProperty( TXT( "UIName" ), temp );
if ( temp.empty() )
{
bool converted = Helium::ConvertString( field->m_Name, temp );
HELIUM_ASSERT( converted );
}
label->BindText( temp );
label->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
container->AddChild( label );
bool color3 = field->m_ValueType == Reflect::GetMetaStruct<Color3>() || field->m_ValueType == Reflect::GetMetaStruct<HDRColor3>();
bool color4 = field->m_ValueType == Reflect::GetMetaStruct<Color4>() || field->m_ValueType == Reflect::GetMetaStruct<HDRColor4>();
HELIUM_ASSERT( !(color3 && color4) ); // we shouldn't ever have both!
if ( color3 || color4 )
{
std::vector<Data*> datas;
std::vector<Reflect::Object*>::const_iterator itr = objects.begin();
std::vector<Reflect::Object*>::const_iterator end = objects.end();
for ( ; itr != end; ++itr )
{
Data s;
if ( color3 )
{
s = new Color3Data();
}
if ( color4 )
{
s = new Color4Data();
}
if (s.ReferencesObject())
{
s->ConnectField( *itr, field );
datas.push_back( s );
m_Datas.push_back( s );
}
}
if ( !m_Datas.empty() )
{
ColorPickerPtr colorPicker = CreateControl<ColorPicker>();
container->AddChild( colorPicker );
colorPicker->a_HelpText.Set( field->GetProperty( TXT( "HelpText" ) ) );
bool readOnly = ( field->m_Flags & FieldFlags::ReadOnly ) == FieldFlags::ReadOnly;
colorPicker->a_IsReadOnly.Set( readOnly );
DataBindingPtr data = new MultiStringFormatter<Data>( datas );
colorPicker->Bind( data );
if ( color3 )
{
colorPicker->a_Alpha.Set( false );
}
if ( color4 )
{
colorPicker->a_Alpha.Set( true );
SliderPtr slider = CreateControl<Slider>();
container->AddChild( slider );
slider->a_Min.Set( 0.0 );
slider->a_Max.Set( 255.0f );
slider->a_IsReadOnly.Set( readOnly );
slider->a_HelpText.Set( TXT( "Sets the alpha value for the color." ) );
ValuePtr value = CreateControl<Value>();
container->AddChild( value );
value->a_IsReadOnly.Set( readOnly );
value->a_HelpText.Set( TXT( "Sets the alpha value for the color." ) );
std::vector<Data*> alphaSer;
std::vector<Reflect::Object*>::const_iterator itr = objects.begin();
std::vector<Reflect::Object*>::const_iterator end = objects.end();
for ( ; itr != end; ++itr )
{
Data s = new UInt8Data ();
uintptr_t fieldAddress = (uintptr_t)(*itr) + field->m_Offset;
Color4* col = (Color4*)fieldAddress;
intptr_t offsetInField = (intptr_t)( &col->a ) - fieldAddress;
s->ConnectField( *itr, field, offsetInField );
alphaSer.push_back( s );
m_Datas.push_back( s );
}
data = new MultiStringFormatter<Data>( alphaSer );
slider->Bind( data );
value->Bind( data );
}
if ( field->m_DataClass == Reflect::GetMetaClass<HDRColor3Data>() || field->m_DataClass == Reflect::GetMetaClass<HDRColor4Data>() )
{
SliderPtr slider = CreateControl<Slider>();
container->AddChild( slider );
slider->a_Min.Set( 0.0 );
slider->a_Max.Set( 8.0 );
slider->a_IsReadOnly.Set( readOnly );
slider->a_HelpText.Set( TXT( "Adjusts the HDR value of the color." ) );
ValuePtr value = CreateControl<Value>();
container->AddChild( value );
value->a_IsReadOnly.Set( readOnly );
value->a_HelpText.Set( TXT( "Adjusts the HDR value of the color." ) );
std::vector<Data*> intensitySer;
std::vector<Reflect::Object*>::const_iterator itr = objects.begin();
std::vector<Reflect::Object*>::const_iterator end = objects.end();
for ( ; itr != end; ++itr )
{
Data s = new Float32Data();
uintptr_t fieldAddress = (uintptr_t)(*itr) + field->m_Offset;
if ( color3 )
{
HDRColor3* col = (HDRColor3*)fieldAddress;
intptr_t offsetInField = (intptr_t)( &col->s ) - fieldAddress;
s->ConnectField( *itr, field, offsetInField );
}
if ( color4 )
{
HDRColor4* col = (HDRColor4*)fieldAddress;
intptr_t offsetInField = (intptr_t)( &col->s ) - fieldAddress;
s->ConnectField( *itr, field, offsetInField );
}
intensitySer.push_back( s );
m_Datas.push_back( s );
}
data = new MultiStringFormatter<Data>( intensitySer );
slider->Bind( data );
value->Bind( data );
}
}
}
#endif
}
void ReflectInterpreter::InterpretBitfieldField( const std::vector< Reflect::Pointer >& pointers, Reflect::Translator* translator, const Reflect::Field* field, Container* parent )
{
bool isEnumeration = field->m_Translator->IsA( Reflect::MetaIds::EnumerationTranslator );
// If you hit this, you are misusing this interpreter
HELIUM_ASSERT( isEnumeration );
if ( !isEnumeration )
{
return;
}
if ( field->m_Flags & FieldFlags::Hide )
{
return;
}
// create the container
ContainerPtr container = CreateControl<Container>();
std::string temp;
field->GetProperty( TXT( "UIName" ), temp );
if ( temp.empty() )
{
bool converted = Helium::ConvertString( field->m_Name, temp );
HELIUM_ASSERT( converted );
}
container->a_Name.Set( temp );
parent->AddChild(container);
// create the data objects
std::vector<Data*> datas;
for ( std::vector< Reflect::Pointer >::const_iterator itr = pointers.begin(), end = pointers.end(); itr != end; ++itr )
{
datas.push_back( new Data ( *itr, translator ) );
}
String defaultStr;
Pointer defaultPtr ( field, field->m_Structure->m_Default, NULL );
ScalarTranslator* scalar = Reflect::ReflectionCast< ScalarTranslator >( field->m_Translator );
if ( scalar )
{
scalar->Print( defaultPtr, defaultStr );
}
const Reflect::MetaEnum* enumeration = Reflect::ReflectionCast< MetaEnum >( field->m_ValueType );
// build the child gui elements
bool readOnly = ( field->m_Flags & FieldFlags::ReadOnly ) == FieldFlags::ReadOnly;
DynamicArray< Reflect::MetaEnum::Element >::ConstIterator enumItr = enumeration->m_Elements.Begin();
DynamicArray< Reflect::MetaEnum::Element >::ConstIterator enumEnd = enumeration->m_Elements.End();
for ( ; enumItr != enumEnd; ++enumItr )
{
ContainerPtr row = CreateControl< Container >();
container->AddChild( row );
LabelPtr label = CreateControl< Label >();
label->a_HelpText.Set( enumItr->m_HelpText );
label->BindText( enumItr->m_Name );
row->AddChild( label );
CheckBoxPtr checkbox = CreateControl< CheckBox >();
checkbox->a_IsReadOnly.Set( readOnly );
checkbox->a_HelpText.Set( enumItr->m_HelpText );
// TODO: Compute correct default value
checkbox->a_Default.Set( defaultStr.GetData() );
checkbox->Bind( new MultiBitfieldStringFormatter ( &*enumItr, datas ) );
row->AddChild( checkbox );
}
}
// Initialize OpenSG and set up the scene
int main(int argc, char **argv)
{
// OSG init
osgInit(argc,argv);
// Set up Window
TutorialWindowEventProducer = createDefaultWindowEventProducer();
WindowPtr MainWindow = TutorialWindowEventProducer->initWindow();
TutorialWindowEventProducer->setDisplayCallback(display);
TutorialWindowEventProducer->setReshapeCallback(reshape);
//Add Window Listener
TutorialKeyListener TheKeyListener;
TutorialWindowEventProducer->addKeyListener(&TheKeyListener);
TutorialMouseListener TheTutorialMouseListener;
TutorialMouseMotionListener TheTutorialMouseMotionListener;
TutorialWindowEventProducer->addMouseListener(&TheTutorialMouseListener);
TutorialWindowEventProducer->addMouseMotionListener(&TheTutorialMouseMotionListener);
TutorialUpdateListener TheTutorialUpdateListener;
TutorialWindowEventProducer->addUpdateListener(&TheTutorialUpdateListener);
// Create the SimpleSceneManager helper
mgr = new SimpleSceneManager;
// Tell the Manager what to manage
mgr->setWindow(MainWindow);
//Print key command info
std::cout << "\n\nKEY COMMANDS:" << std::endl;
std::cout << "space Play/Pause the animation" << std::endl;
std::cout << "B Show/Hide the bind pose skeleton" << std::endl;
std::cout << "SHIFT-B Show/Hide the bind pose mesh" << std::endl;
std::cout << "P Show/Hide the current pose skeleton" << std::endl;
std::cout << "SHIFT-P Show/Hide the current pose mesh" << std::endl;
std::cout << "O Toggle override status of TheSecondAnimation" << std::endl;
std::cout << "CTRL-Q Exit\n\n" << std::endl;
//Import scene from XML
ChunkMaterialPtr ExampleMaterial;
std::vector<SkeletonPtr> SkeletonPtrs;
std::vector<SkeletonBlendedGeometryPtr> SkeletonBlendedGeometryPtrs;
std::vector<GeometryPtr> GeometryPtrs;
//Skeleton materaial
LineChunkPtr SkelLineChunk = LineChunk::create();
beginEditCP(SkelLineChunk);
SkelLineChunk->setWidth(0.0f);
SkelLineChunk->setSmooth(true);
endEditCP(SkelLineChunk);
ChunkMaterialPtr SkelMaterial = ChunkMaterial::create();
beginEditCP(SkelMaterial, ChunkMaterial::ChunksFieldMask);
SkelMaterial->addChunk(SkelLineChunk);
endEditCP(SkelMaterial, ChunkMaterial::ChunksFieldMask);
//LOAD FIRST ANIMATION
FCFileType::FCPtrStore NewContainers;
NewContainers = FCFileHandler::the()->read(BoostPath("./Data/23WalkingAnimation.xml"));
FCFileType::FCPtrStore::iterator Itor;
for(Itor = NewContainers.begin() ; Itor != NewContainers.end() ; ++Itor)
{
if( (*Itor)->getType() == (ChunkMaterial::getClassType()))
{
//Set ExampleMaterial to the ChunkMaterial we just read in
ExampleMaterial = (ChunkMaterial::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (Skeleton::getClassType()))
{
//Add the Skeleton we just read in to SkeletonPtrs
SkeletonPtrs.push_back(Skeleton::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (SkeletonBlendedGeometry::getClassType()))
{
//Add the SkeletonBlendedGeometry we just read in to SkeletonBlendedGeometryPtrs
SkeletonBlendedGeometryPtrs.push_back(SkeletonBlendedGeometry::Ptr::dcast(*Itor));
}
if( (*Itor)->getType().isDerivedFrom(SkeletonAnimation::getClassType()))
{
//Set TheWalkingAnimation to the SkeletonAnimation we just read in
TheWalkingAnimation = (SkeletonAnimation::Ptr::dcast(*Itor));
}
if( (*Itor)->getType() == (Geometry::getClassType()))
{
//Add the Geometry we just read in to GeometryPtrs
GeometryPtrs.push_back(Geometry::Ptr::dcast(*Itor));
}
}
//LOAD SECOND ANIMATION
NewContainers = FCFileHandler::the()->read(BoostPath("./Data/23SamAnimation.xml"));
for(Itor = NewContainers.begin() ; Itor != NewContainers.end() ; ++Itor)
{
//Import only the skeletonAnimation from the second XML file; we've already imported the skeleton and the geometry
if( (*Itor)->getType().isDerivedFrom(SkeletonAnimation::getClassType()))
{
TheSecondAnimation = (SkeletonAnimation::Ptr::dcast(*Itor));
}
}
//Blend the two animations
TheSkeletonBlendedAnimation = SkeletonBlendedAnimation::create();
beginEditCP(TheSkeletonBlendedAnimation);
TheSkeletonBlendedAnimation->addAnimationBlending(TheWalkingAnimation, BlendWalking, false);
TheSkeletonBlendedAnimation->addAnimationBlending(TheSecondAnimation, BlendTouchScreen, false);
endEditCP(TheSkeletonBlendedAnimation);
//Create unbound geometry Node (to show the mesh in its bind pose)
for (int i(0); i < GeometryPtrs.size(); ++i)
{
NodePtr UnboundGeometry = Node::create();
beginEditCP(UnboundGeometry, Node::CoreFieldMask | Node::TravMaskFieldMask);
UnboundGeometry->setCore(GeometryPtrs[i]);
UnboundGeometry->setTravMask(0); //By default, we don't show the mesh in its bind pose.
endEditCP(UnboundGeometry, Node::CoreFieldMask | Node::TravMaskFieldMask);
UnboundGeometries.push_back(UnboundGeometry);
}
//Create skeleton nodes
for (int i(0); i < SkeletonPtrs.size(); ++i)
{
//SkeletonDrawer
SkeletonDrawablePtr ExampleSkeletonDrawable = osg::SkeletonDrawable::create();
beginEditCP(ExampleSkeletonDrawable, SkeletonDrawable::SkeletonFieldMask | SkeletonDrawable::MaterialFieldMask | SkeletonDrawable::DrawPoseFieldMask | SkeletonDrawable::PoseColorFieldMask | SkeletonDrawable::DrawBindPoseFieldMask | SkeletonDrawable::BindPoseColorFieldMask);
ExampleSkeletonDrawable->setSkeleton(SkeletonPtrs[i]);
ExampleSkeletonDrawable->setMaterial(SkelMaterial);
ExampleSkeletonDrawable->setDrawPose(true); //By default we draw the current skeleton
ExampleSkeletonDrawable->setPoseColor(Color4f(1.0, 0.0, 1.0, 1.0)); //Set color of current skeleton
ExampleSkeletonDrawable->setDrawBindPose(false); //By default we don't draw the bind pose skeleton
ExampleSkeletonDrawable->setBindPoseColor(Color4f(1.0, 1.0, 0.0, 1.0)); //Set color of bind pose skeleton
endEditCP(ExampleSkeletonDrawable, SkeletonDrawable::SkeletonFieldMask | SkeletonDrawable::MaterialFieldMask | SkeletonDrawable::DrawPoseFieldMask | SkeletonDrawable::PoseColorFieldMask | SkeletonDrawable::DrawBindPoseFieldMask | SkeletonDrawable::BindPoseColorFieldMask);
//Skeleton Node
NodePtr SkeletonNode = osg::Node::create();
beginEditCP(SkeletonNode, Node::CoreFieldMask);
SkeletonNode->setCore(ExampleSkeletonDrawable);
endEditCP(SkeletonNode, Node::CoreFieldMask);
SkeletonNodes.push_back(SkeletonNode);
}
//Create skeleton blended geometry nodes
for (int i(0); i < SkeletonBlendedGeometryPtrs.size(); ++i)
{
NodePtr MeshNode = osg::Node::create();
beginEditCP(MeshNode, Node::CoreFieldMask);
MeshNode->setCore(SkeletonBlendedGeometryPtrs[i]);
endEditCP(MeshNode, Node::CoreFieldMask);
MeshNodes.push_back(MeshNode);
}
//Setup scene
NodePtr EmptyScene = osg::Node::create();
beginEditCP(EmptyScene, Node::CoreFieldMask);
EmptyScene->setCore(Group::create());
endEditCP (EmptyScene, Node::CoreFieldMask);
mgr->setRoot(EmptyScene);
//User Interface
// Create the Graphics
GraphicsPtr TutorialGraphics = osg::Graphics2D::create();
// Initialize the LookAndFeelManager to enable default settings
LookAndFeelManager::the()->getLookAndFeel()->init();
// Create the DefaultBoundedRangeModelPtr and
// set its values
DefaultBoundedRangeModelPtr UpperAnimationSliderRangeModel = DefaultBoundedRangeModel::create();
UpperAnimationSliderRangeModel->setMinimum(0);
UpperAnimationSliderRangeModel->setMaximum(100);
UpperAnimationSliderRangeModel->setValue(BlendWalking * 100);
UpperAnimationSliderRangeModel->setExtent(0);
//Create the upper animation blend amount slider
LabelPtr TempLabel;
SliderPtr UpperAnimationSlider = Slider::create();
beginEditCP(UpperAnimationSlider, Slider::LabelMapFieldMask | Slider::PreferredSizeFieldMask | Slider::MajorTickSpacingFieldMask | Slider::MinorTickSpacingFieldMask | Slider::SnapToTicksFieldMask | Slider::DrawLabelsFieldMask | Slider::RangeModelFieldMask);
//Label the slider
TempLabel = Label::Ptr::dcast(UpperAnimationSlider->getLabelPrototype()->shallowCopy());
beginEditCP(TempLabel, Label::TextFieldMask); TempLabel->setText("0.0"); endEditCP(TempLabel, Label::TextFieldMask);
UpperAnimationSlider->getLabelMap()[0] = TempLabel;
TempLabel = Label::Ptr::dcast(UpperAnimationSlider->getLabelPrototype()->shallowCopy());
beginEditCP(TempLabel, Label::TextFieldMask); TempLabel->setText("1.0"); endEditCP(TempLabel, Label::TextFieldMask);
UpperAnimationSlider->getLabelMap()[100] = TempLabel;
//Customize the slider
UpperAnimationSlider->setPreferredSize(Vec2f(100, 300));
UpperAnimationSlider->setSnapToTicks(false);
UpperAnimationSlider->setMajorTickSpacing(10);
UpperAnimationSlider->setMinorTickSpacing(5);
UpperAnimationSlider->setOrientation(Slider::VERTICAL_ORIENTATION);
UpperAnimationSlider->setInverted(true);
UpperAnimationSlider->setDrawLabels(true);
UpperAnimationSlider->setRangeModel(UpperAnimationSliderRangeModel);
endEditCP(UpperAnimationSlider, Slider::LabelMapFieldMask | Slider::PreferredSizeFieldMask | Slider::MajorTickSpacingFieldMask | Slider::MinorTickSpacingFieldMask | Slider::SnapToTicksFieldMask | Slider::DrawLabelsFieldMask | Slider::RangeModelFieldMask);
DefaultBoundedRangeModelPtr LowerAnimationSliderRangeModel = DefaultBoundedRangeModel::create();
LowerAnimationSliderRangeModel->setMinimum(0);
LowerAnimationSliderRangeModel->setMaximum(100);
LowerAnimationSliderRangeModel->setValue(BlendTouchScreen * 100);
LowerAnimationSliderRangeModel->setExtent(0);
//Create the lower animation blend amount slider
SliderPtr LowerAnimationSlider = Slider::create();
beginEditCP(LowerAnimationSlider, Slider::LabelMapFieldMask | Slider::PreferredSizeFieldMask | Slider::MajorTickSpacingFieldMask | Slider::MinorTickSpacingFieldMask | Slider::SnapToTicksFieldMask | Slider::DrawLabelsFieldMask | Slider::RangeModelFieldMask);
//Label the slider
TempLabel = Label::Ptr::dcast(LowerAnimationSlider->getLabelPrototype()->shallowCopy());
beginEditCP(TempLabel, Label::TextFieldMask); TempLabel->setText("0.0"); endEditCP(TempLabel, Label::TextFieldMask);
LowerAnimationSlider->getLabelMap()[0] = TempLabel;
TempLabel = Label::Ptr::dcast(LowerAnimationSlider->getLabelPrototype()->shallowCopy());
beginEditCP(TempLabel, Label::TextFieldMask); TempLabel->setText("1.0"); endEditCP(TempLabel, Label::TextFieldMask);
LowerAnimationSlider->getLabelMap()[100] = TempLabel;
//Customize the slider
LowerAnimationSlider->setPreferredSize(Vec2f(100, 300));
LowerAnimationSlider->setSnapToTicks(false);
LowerAnimationSlider->setMajorTickSpacing(10);
LowerAnimationSlider->setMinorTickSpacing(5);
LowerAnimationSlider->setOrientation(Slider::VERTICAL_ORIENTATION);
LowerAnimationSlider->setInverted(true);
LowerAnimationSlider->setDrawLabels(true);
LowerAnimationSlider->setRangeModel(LowerAnimationSliderRangeModel);
endEditCP(LowerAnimationSlider, Slider::LabelMapFieldMask | Slider::PreferredSizeFieldMask | Slider::MajorTickSpacingFieldMask | Slider::MinorTickSpacingFieldMask | Slider::SnapToTicksFieldMask | Slider::DrawLabelsFieldMask | Slider::RangeModelFieldMask);
// Create Background to be used with the MainFrame
ColorLayerPtr MainFrameBackground = osg::ColorLayer::create();
beginEditCP(MainFrameBackground, ColorLayer::ColorFieldMask);
MainFrameBackground->setColor(Color4f(1.0,1.0,1.0,0.5));
endEditCP(MainFrameBackground, ColorLayer::ColorFieldMask);
// Create The Main InternalWindow
// Create Background to be used with the Main InternalWindow
ColorLayerPtr MainInternalWindowBackground = osg::ColorLayer::create();
beginEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
MainInternalWindowBackground->setColor(Color4f(1.0,1.0,1.0,0.5));
endEditCP(MainInternalWindowBackground, ColorLayer::ColorFieldMask);
LayoutPtr MainInternalWindowLayout = osg::FlowLayout::create();
//GL Viewport
ComponentPtr TheGLViewport = createGLPanel();
InternalWindowPtr MainInternalWindow = osg::InternalWindow::create();
beginEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
MainInternalWindow->getChildren().push_back(UpperAnimationSlider);
MainInternalWindow->getChildren().push_back(LowerAnimationSlider);
MainInternalWindow->getChildren().push_back(TheGLViewport);
MainInternalWindow->setLayout(MainInternalWindowLayout);
MainInternalWindow->setBackgrounds(MainInternalWindowBackground);
MainInternalWindow->setAlignmentInDrawingSurface(Vec2f(0.5f,0.5f));
MainInternalWindow->setScalingInDrawingSurface(Vec2f(1.0f,1.0f));
MainInternalWindow->setDrawTitlebar(false);
MainInternalWindow->setResizable(false);
endEditCP(MainInternalWindow, InternalWindow::ChildrenFieldMask | InternalWindow::LayoutFieldMask | InternalWindow::BackgroundsFieldMask | InternalWindow::AlignmentInDrawingSurfaceFieldMask | InternalWindow::ScalingInDrawingSurfaceFieldMask | InternalWindow::DrawTitlebarFieldMask | InternalWindow::ResizableFieldMask);
// Create the Drawing Surface
UIDrawingSurfacePtr TutorialDrawingSurface = UIDrawingSurface::create();
beginEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->setGraphics(TutorialGraphics);
TutorialDrawingSurface->setEventProducer(TutorialWindowEventProducer);
endEditCP(TutorialDrawingSurface, UIDrawingSurface::GraphicsFieldMask | UIDrawingSurface::EventProducerFieldMask);
TutorialDrawingSurface->openWindow(MainInternalWindow);
// Create the UI Foreground Object
UIForegroundPtr TutorialUIForeground = osg::UIForeground::create();
beginEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
TutorialUIForeground->setDrawingSurface(TutorialDrawingSurface);
endEditCP(TutorialUIForeground, UIForeground::DrawingSurfaceFieldMask);
ViewportPtr TutorialViewport = mgr->getWindow()->getPort(0);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
TutorialViewport->getForegrounds().push_back(TutorialUIForeground);
beginEditCP(TutorialViewport, Viewport::ForegroundsFieldMask);
//Attach the Slider Listeners
BlendAmountSliderChangeListener UpperAnimationSliderListener(TheSkeletonBlendedAnimation, 0, UpperAnimationSlider);
UpperAnimationSlider->addChangeListener(&UpperAnimationSliderListener);
BlendAmountSliderChangeListener LowerAnimationSliderListener(TheSkeletonBlendedAnimation, 1, LowerAnimationSlider);
LowerAnimationSlider->addChangeListener(&LowerAnimationSliderListener);
//Animation Advancer
TheAnimationAdvancer = ElapsedTimeAnimationAdvancer::create();
beginEditCP(TheAnimationAdvancer);
ElapsedTimeAnimationAdvancer::Ptr::dcast(TheAnimationAdvancer)->setStartTime( 0.0 );
beginEditCP(TheAnimationAdvancer);
//Create the Documentation
SimpleScreenDoc TheSimpleScreenDoc(&sceneManager, TutorialWindow);
// Show the whole Scene
mgr->showAll();
TheAnimationAdvancer->start();
//Show window
Vec2f WinSize(TutorialWindowEventProducer->getDesktopSize() * 0.85f);
Pnt2f WinPos((TutorialWindowEventProducer->getDesktopSize() - WinSize) *0.5);
TutorialWindowEventProducer->openWindow(WinPos,
WinSize,
"23BlendXMLAnimations");
//Enter main Loop
TutorialWindowEventProducer->mainLoop();
osgExit();
return 0;
}
void ReflectBitfieldInterpreter::InterpretField(const Field* field, const std::vector<Reflect::Element*>& instances, Container* parent)
{
// If you hit this, you are misusing this interpreter
HELIUM_ASSERT( field->m_SerializerID == Reflect::GetType<Reflect::BitfieldSerializer>() );
if ( field->m_SerializerID != Reflect::GetType<Reflect::BitfieldSerializer>() )
{
return;
}
if ( field->m_Flags & FieldFlags::Hide )
{
return;
}
const EnumerationField* enumField = static_cast< const EnumerationField* >( field );
// create the panel
PanelPtr panel = m_Container->GetCanvas()->Create<Panel>(this);
tstring temp;
bool converted = Helium::ConvertString( field->m_UIName, temp );
panel->SetText( temp );
panel->SetExpanded( true );
parent->AddControl(panel);
// build the child gui elements
bool readOnly = ( field->m_Flags & FieldFlags::ReadOnly ) == FieldFlags::ReadOnly;
M_StrEnumerationElement::const_iterator enumItr = enumField->m_Enumeration->m_ElementsByLabel.begin();
M_StrEnumerationElement::const_iterator enumEnd = enumField->m_Enumeration->m_ElementsByLabel.end();
for ( ; enumItr != enumEnd; ++enumItr )
{
ContainerPtr row = m_Container->GetCanvas()->Create<Container>( this );
panel->AddControl( row );
LabelPtr label = m_Container->GetCanvas()->Create<Label>( this );
row->AddControl( label );
tstring temp;
bool converted = Helium::ConvertString( enumItr->first, temp );
HELIUM_ASSERT( converted );
label->SetText( temp );
BitfieldCheckBoxPtr checkbox = m_Container->GetCanvas()->Create<ReflectBitfieldCheckBox>( this );
row->AddControl( checkbox );
converted = Helium::ConvertString( enumItr->first, temp );
HELIUM_ASSERT( converted );
checkbox->SetBitfieldString( temp );
checkbox->SetReadOnly( readOnly );
}
// create the serializers
std::vector<Reflect::Element*>::const_iterator itr = instances.begin();
std::vector<Reflect::Element*>::const_iterator end = instances.end();
for ( ; itr != end; ++itr )
{
SerializerPtr s = field->CreateSerializer();
s->ConnectField(*itr, field);
m_Serializers.push_back(s);
}
// bind the ui to the serializers
panel->Bind( new MultiStringFormatter<Serializer>( (std::vector<Reflect::Serializer*>&)m_Serializers ) );
// setup the default value
if (field->m_Default != NULL)
{
tstringstream outStream;
*field->m_Default >> outStream;
panel->SetDefault( outStream.str() );
}
