UIDrawObjectCanvasTransitPtr Button::createTexturedDrawObjectCanvas(TextureObjChunk* const TheTexture, Vec2f Size) { UIDrawObjectCanvasRefPtr DrawObjectCanvas = UIDrawObjectCanvas::create(); TexturedQuadUIDrawObjectRefPtr TextureDrawObject = TexturedQuadUIDrawObject::create(); Vec2f ImageSize; ImageSize.setValues(TheTexture->getImage()->getWidth(), TheTexture->getImage()->getHeight()); if(Size.x() > 0.0f) { ImageSize[0] = Size.x(); } if(Size.y() > 0.0f) { ImageSize[1] = Size.y(); } TextureDrawObject->setPoint1(Pnt2f(0,0)); TextureDrawObject->setPoint2(Pnt2f(ImageSize.x(),0)); TextureDrawObject->setPoint3(Pnt2f(ImageSize.x(),ImageSize.y())); TextureDrawObject->setPoint4(Pnt2f(0,ImageSize.y())); TextureDrawObject->setTexCoord1(Vec2f(0.0,0.0)); TextureDrawObject->setTexCoord2(Vec2f(1.0,0.0)); TextureDrawObject->setTexCoord3(Vec2f(1.0,1.0)); TextureDrawObject->setTexCoord4(Vec2f(0.0,1.0)); TextureDrawObject->setTexture(TheTexture); TextureDrawObject->setOpacity(1.0); DrawObjectCanvas->pushToDrawObjects(TextureDrawObject); return UIDrawObjectCanvasTransitPtr(DrawObjectCanvas.get()); }
void GradientLayer::drawGradient(Graphics* const TheGraphics, const Pnt2f& Origin, const Vec2f& Size, const Vec2f& UAxis, const Real32& Start, const Real32& End, const Real32& Opacity) const { glPushMatrix(); Matrix Transformation; Transformation.setTransform(Vec3f(Origin.x()+Start*UAxis.x()*Size.x(), Origin.y()+Start*UAxis.y()*Size.x(),0.0f), Quaternion(Vec3f(1.0f,0.0f,0.0f),Vec3f(UAxis.x(), UAxis.y(), 0.0f)), Vec3f(Size.x()*(End-Start), Size.y(),0.0f)); glMultMatrixf(Transformation.getValues()); if (osgMin(getMFColors()->size(),getMFStops()->size()) > 1) { if(getMFColors()->size() != getMFStops()->size()) { SWARNING << "GradientLayer::drawGradient: The number of colors and the number of stops are not equal." << std::endl; } UInt32 NumStops = osgMin(getMFColors()->size(),getMFStops()->size()); Real32 CurentRelaviteStop= 0.0f; for(UInt32 i(0) ; i<NumStops-1 ; ++i) { TheGraphics->drawQuad(Pnt2f(getStops(i),0.0f), Pnt2f(getStops(i+1),0.0f), Pnt2f(getStops(i+1),1.0f), Pnt2f(getStops(i),1.0f), getColors(i), getColors(i+1), getColors(i+1), getColors(i), Opacity); } } glPopMatrix(); }
TriDistribution2DBase::TriDistribution2DBase(void) : Inherited(), _sfPoint1 (Pnt2f(0.0,0.0)), _sfPoint2 (Pnt2f(1.0,0.0)), _sfPoint3 (Pnt2f(0.0,1.0)), _sfSurfaceOrEdge (UInt32(TriDistribution2D::SURFACE)) { }
LineUIDrawObjectBase::LineUIDrawObjectBase(void) : Inherited(), _sfTopLeft (Pnt2f(0,0)), _sfBottomRight (Pnt2f(0,0)), _sfWidth (Real32(1)), _sfColor (Color4f(1.0,1.0,1.0,1.0)), _sfOpacity (Real32(1.0)) { }
GradientLayerBase::GradientLayerBase(void) : Inherited(), _sfStartPosition (Pnt2f(0.0,0.0)), _sfEndPosition (Pnt2f(1.0,0.0)), _mfColors (), _mfStops (), _sfSpreadMethod (UInt32(GradientLayer::SPREAD_PAD)) { }
GlassLayerBase::GlassLayerBase(void) : Inherited(), _sfStartPosition (Pnt2f(0.0f,1.0f)), _sfStartDirection (Vec2f(0.0f,-1.0f)), _sfEndPosition (Pnt2f(1.0f,0.0f)), _sfEndDirection (Vec2f(1.0f,0.0f)), _sfCenterColor (Color4f(1.0f,1.0f,1.0f,0.3f)), _sfEdgeColor (Color4f(1.0f,1.0f,1.0f,0.5f)), _sfSegments (UInt32(15)) { }
void ComboBox::updateLayout(void) { Pnt2f BorderTopLeft, BorderBottomRight; getInsideInsetsBounds(BorderTopLeft, BorderBottomRight); Vec2f Size; Pnt2f Pos; if(getExpandButton() != NULL) { //Place the Expand button on the Left Size = getExpandButton()->getPreferredSize(); if(getExpandButton()->getSize() != Size) { getExpandButton()->setSize(Size); } Pos = calculateAlignment(BorderTopLeft, (BorderBottomRight-BorderTopLeft), getExpandButton()->getSize(),0.5, 1.0); if(getExpandButton()->getPosition() != Pos) { getExpandButton()->setPosition(Pos); } } //Editor if(getEditable() && getEditor() != NULL && getEditor()->getEditorComponent() != NULL) { Size = Vec2f(BorderBottomRight.x() - BorderTopLeft.x() - getExpandButton()->getSize().x(), getExpandButton()->getSize().y()); if(getEditor()->getEditorComponent()->getSize() != Size) { getEditor()->getEditorComponent()->setSize(Size); } Pos = Pnt2f(BorderTopLeft.x(), getExpandButton()->getPosition().y()); if(getEditor()->getEditorComponent()->getPosition() != Pos) { getEditor()->getEditorComponent()->setPosition(Pos); } } //Selected Item Component if(!getEditable() && getComponentGeneratorSelectedItem() != NULL) { Size = Vec2f(BorderBottomRight.x() - BorderTopLeft.x() - getExpandButton()->getSize().x(), getExpandButton()->getSize().y()); if(getComponentGeneratorSelectedItem()->getSize() != Size) { getComponentGeneratorSelectedItem()->setSize(Size); } Pos = Pnt2f(BorderTopLeft.x(), getExpandButton()->getPosition().y()); if(getComponentGeneratorSelectedItem()->getPosition() != Pos) { getComponentGeneratorSelectedItem()->setPosition(Pos); } } }
Pnt2f FixedHeightLayoutManager::getEndXYPosition(UInt32 lineNumber) const { PlainDocumentLeafElementRefPtr theElement = dynamic_cast<PlainDocumentLeafElement*>(rootElement->getElement(lineNumber)); if(theElement) { Pnt2f topLeft,bottomRight; getParentTextDomArea()->getFont()->getBounds(theElement->getText(),topLeft,bottomRight); return Pnt2f(_GutterSpace + _GutterSeparation + bottomRight.x(),(lineNumber+1)*heightOfLine); } else { return Pnt2f(0,0); } }
void SpinnerDefaultEditor::updateLayout(void) { for(UInt32 i(0) ; i<getMFChildren()->size() ; ++i) { if(getChildren(i)->getPosition() != Pnt2f(0,0)) { getChildren(i)->setPosition(Pnt2f(0,0)); } if(getChildren(i)->getSize() != getSize()) { getChildren(i)->setSize(getSize()); } } }
void GradientLayer::drawPad(Graphics* const TheGraphics, const Pnt2f& Origin, const Vec2f& Size, const Vec2f& UAxis, const Real32& Start, const Real32& End, const Color4f Color, const Real32& Opacity) const { glPushMatrix(); Matrix Transformation; Transformation.setTransform(Vec3f(Origin.x()+Start*UAxis.x()*Size.x(), Origin.y()+Start*UAxis.y()*Size.x(),0.0f), Quaternion(Vec3f(1.0f,0.0f,0.0f),Vec3f(UAxis.x(), UAxis.y(), 0.0f)), Vec3f(Size.x()*(End-Start), Size.y(),0.0f)); glMultMatrixf(Transformation.getValues()); TheGraphics->drawRect(Pnt2f(0.0,0.0f), Pnt2f(1.0,1.0f), Color, Opacity); glPopMatrix(); }
void TextDomArea::drawHighlightBGInternal(Graphics * const TheGraphics, Real32 Opacity,UInt32 lesserLine,UInt32 lesserIndex,UInt32 greaterLine,UInt32 greaterIndex) const { for(UInt32 i=lesserLine+1;i<greaterLine;i++) { PlainDocumentLeafElementRefPtr theElement = dynamic_cast<PlainDocumentLeafElement*>(getLayoutManager()->getRootElement()->getElement(i)); if(theElement) { Pnt2f topLeft,bottomRight; getFont()->getBounds(theElement->getText(),topLeft,bottomRight); TheGraphics->drawRect(Pnt2f(getLayoutManager()->getGutterSpace() + getLayoutManager()->getGutterSeparation(),i*getLayoutManager()->getHeightOfLine()),Pnt2f(getLayoutManager()->getGutterSpace() + getLayoutManager()->getGutterSeparation()+ bottomRight.x(),(i+1)*getLayoutManager()->getHeightOfLine()),Color4f(0.7,0.7,0.95,1),Opacity); } } if(lesserLine== greaterLine) { TheGraphics->drawRect(getLayoutManager()->getXYPosition(lesserLine,lesserIndex,true),getLayoutManager()->getXYPosition(greaterLine,greaterIndex,false),Color4f(0.7,0.7,0.95,1),Opacity); } else { // draw the first line TheGraphics->drawRect(getLayoutManager()->getXYPosition(lesserLine,lesserIndex,true),getLayoutManager()->getEndXYPosition(lesserLine),Color4f(0.7,0.7,0.95,1),Opacity); // draw the last line TheGraphics->drawRect(getLayoutManager()->getStartXYPosition(greaterLine),getLayoutManager()->getXYPosition(greaterLine,greaterIndex,false),Color4f(0.7,0.7,0.95,1),Opacity); } }
bool Component::isContained(const Pnt2f& p, bool TestAgainstClipBounds) const { if(!getVisible()) { return false; } Pnt2f PointInCompSpace(DrawingSurfaceToComponent(p,this)); Border* DrawnBorder(getDrawnBorder()); Pnt2f TopLeft, BottomRight; if(TestAgainstClipBounds && getClipping()) { TopLeft = getClipTopLeft(); BottomRight = getClipBottomRight(); } else { TopLeft.setValues(0,0); BottomRight = Pnt2f(getSize()); } if(DrawnBorder == NULL) { return isContainedBounds(PointInCompSpace, TopLeft, BottomRight); } else { return isContainedBounds(PointInCompSpace, TopLeft, BottomRight) && DrawnBorder->isContained(PointInCompSpace,0,0,getSize().x(),getSize().y()); } }
void SpringLayout::updateLayout(const MFUnrecComponentPtr* Components, const Component* ParentComponent) const { Pnt2f ParentInsetsTopLeft, ParentInsetsBottomRight; dynamic_cast<const ComponentContainer*>(ParentComponent)->getInsideInsetsBounds(ParentInsetsTopLeft, ParentInsetsBottomRight); const_cast<SpringLayout*>(this)->setParent(const_cast<ComponentContainer*>(dynamic_cast<const ComponentContainer*>(ParentComponent))); SpringLayoutConstraintsRefPtr MyBoundsConstraints = getConstraint(const_cast<Component*>(ParentComponent)); getDecycledSpring(MyBoundsConstraints->getX())->setValue(ParentInsetsTopLeft.x()); getDecycledSpring(MyBoundsConstraints->getY())->setValue(ParentInsetsTopLeft.y()); getDecycledSpring(MyBoundsConstraints->getWidth())->setValue( ParentInsetsBottomRight.x() - ParentInsetsTopLeft.x() ); getDecycledSpring(MyBoundsConstraints->getHeight())->setValue( ParentInsetsBottomRight.y() - ParentInsetsTopLeft.y() ); for (UInt32 i(0) ; i < Components->size() ; i++) { SpringLayoutConstraintsRefPtr TheConstraints = getConstraint( (*Components)[i] ); Real32 x = getDecycledSpring(TheConstraints->getX())->getValue(); Real32 y = getDecycledSpring(TheConstraints->getY())->getValue(); Real32 width = getDecycledSpring(TheConstraints->getWidth())->getValue(); Real32 height = getDecycledSpring(TheConstraints->getHeight())->getValue(); (*Components)[i]->setPosition(Pnt2f(x,y)); (*Components)[i]->setSize(Vec2f(width, height)); } }
Pnt2f DynamicTerrain::getWorldOffset() const { // offset the terrain, so that it is centered around zero: const Pnt2f size = getWorldSize(); return Pnt2f( -size[ 0 ] / 2.0f, -size[ 1 ] / 2.0f ); }
GaussianNormalDistribution2DBase::GaussianNormalDistribution2DBase(void) : Inherited(), _sfMean (Pnt2f(0.0,0.0)), _sfStandardDeviationX (Real32(1.0)), _sfStandardDeviationY (Real32(1.0)) { }
void runTests(bool write,BinaryDataHandler &pMem) { runTest (write,pMem, std::string("Hallo") ); runTest1 (write,pMem, Time(222.22) ); runTest (write,pMem, Color3f(1.1,2.2,3.3) ); runTest (write,pMem, Color4f(1.1,2.2,3.3,4.4) ); runTest (write,pMem, Color3ub(1,2,3) ); runTest (write,pMem, Color4ub(1,2,3,4) ); runTest (write,pMem, DynamicVolume(DynamicVolume::BOX_VOLUME) ); runTest (write,pMem, DynamicVolume(DynamicVolume::SPHERE_VOLUME) ); runTest1 (write,pMem, BitVector(0xabcd) ); runTest (write,pMem, Plane(Vec3f(1.0,0),0.222) ); runTest (write,pMem, Matrix(1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16) ); runTest (write,pMem, Quaternion(Vec3f(1,2,3),22) ); runTest2<bool>(write,pMem, true ); runTest (write,pMem, Int8(-22) ); runTest (write,pMem, UInt8(11) ); runTest (write,pMem, Int16(-10233) ); runTest (write,pMem, UInt16(20233) ); runTest (write,pMem, Int32(-222320233) ); runTest (write,pMem, UInt32(522320233) ); runTest<Int64> (write,pMem, Int64(-522323334) ); runTest (write,pMem, UInt64(44523423) ); runTest (write,pMem, Real32(22.333224) ); runTest (write,pMem, Real64(52.334534533224) ); runTest (write,pMem, Vec2f(1.1,2.2) ); runTest (write,pMem, Vec3f(1.1,2.2,3.3) ); runTest (write,pMem, Vec4f(1.1,2.2,3.3,4.4) ); runTest (write,pMem, Pnt2f(1.1,2.2) ); runTest (write,pMem, Pnt2d(1.1,2.2) ); runTest (write,pMem, Pnt3f(1.1,2.2,3.3) ); runTest (write,pMem, Pnt3d(1.1,2.2,3.3) ); runTest (write,pMem, Pnt4f(1.1,2.2,3.3,4.4) ); runTest (write,pMem, Pnt4d(1.1,2.2,3.3,4.4) ); }
void Manipulator::mouseButtonPress(const UInt16 button, const Int16 x, const Int16 y ) { setLastMousePos(Pnt2f(Real32(x), Real32(y))); setActive(true); }
Pnt2f DynamicTerrain::getWorldSize() const { const float sampleDistance = getSampleDistance(); const Pnt2i sampleCount = imageHeightSource_.getSampleCount(); return Pnt2f( float( sampleCount[ 0 ] ) * sampleDistance, float( sampleCount[ 1 ] ) * sampleDistance ); }
void RotatedComponent::updateLayout(void) { Pnt2f TopLeft, BottomRight; getInsideInsetsBounds(TopLeft, BottomRight); for(UInt32 i(0) ; i<getMFChildren()->size() ; ++i) { if(getChildren(i)->getPosition() != Pnt2f(0,0)) { getChildren(i)->setPosition(Pnt2f(0,0)); } if(getChildren(i)->getSize() != getChildren(i)->getPreferredSize()) { getChildren(i)->setSize(getChildren(i)->getPreferredSize()); } } }
void GenericMultiFieldEditor::updateLayout(void) { Pnt2f TopLeft, BottomRight; getInsideBorderBounds(TopLeft, BottomRight); _FieldElementsScrollPanel->setPosition(Pnt2f(0.0f,0.0f)); _FieldElementsScrollPanel->setSize(BottomRight - TopLeft); }
MouseWheelEventDetailsBase::MouseWheelEventDetailsBase(void) : Inherited(), _sfScrollType (UInt8(MouseWheelEventDetails::UNIT_SCROLL)), _sfScrollOrientation (UInt8(MouseWheelEventDetails::SCROLL_ORIENTATION_VERTICAL)), _sfWheelRotation (Int32(0)), _sfLocation (Pnt2f(0.0f,0.0f)), _sfViewport (NULL) { }
MouseEventBase::MouseEventBase(void) : Inherited(), _sfButton (UInt16(MouseEvent::NO_BUTTON)), _sfClickCount (UInt16(0)), _sfLocation (Pnt2f(0.0f, 0.0f)), _sfDelta (Vec2f(0.0f, 0.0f)), _sfViewport (NULL) { }
Pnt2f FixedHeightLayoutManager::getXYPosition(UInt32 lineNumber,UInt32 index,bool isBeginning) const { PlainDocumentLeafElementRefPtr theElement = dynamic_cast<PlainDocumentLeafElement*>(rootElement->getElement(lineNumber)); if(theElement) { std::string substring = theElement->getText(); substring = substring.substr(0,index); Pnt2f topLeft,bottomRight; getParentTextDomArea()->getFont()->getBounds(substring,topLeft,bottomRight); if(isBeginning)return Pnt2f( _GutterSpace + _GutterSeparation + bottomRight.x(),lineNumber*heightOfLine); return Pnt2f(_GutterSpace + _GutterSeparation + bottomRight.x(),(lineNumber+1)*heightOfLine); } else { return Pnt2f(0,0); } }
void FixedHeightLayoutManager::makeCaretVisible(UInt32 dir) { Pnt2f TempTopLeft, TempBottomRight; TempTopLeft = Pnt2f(_CaretXPosition,_CaretYPosition);//TempTopLeft + Offset; TempBottomRight = Pnt2f(_CaretXPosition + 25 + 2,_CaretYPosition+heightOfLine);//25 here denotes the gutterwidth .. should not hardcode here if(getParentTextDomArea()->getParentContainer() != NULL && getParentTextDomArea()->getParentContainer()->getType().isDerivedFrom(UIViewport::getClassType())) { //Get the bounds of this line dynamic_cast<UIViewport*>(getParentTextDomArea()->getParentContainer())->maximizeVisibility(TempTopLeft, TempBottomRight); } else if(getParentTextDomArea()->getParentContainer() != NULL && getParentTextDomArea()->getParentContainer()->getParentContainer() != NULL && getParentTextDomArea()->getParentContainer()->getParentContainer()->getType().isDerivedFrom(UIViewport::getClassType())) { dynamic_cast<UIViewport*>(getParentTextDomArea()->getParentContainer()->getParentContainer())->maximizeVisibility(TempTopLeft, TempBottomRight); } updateViews(); }
WindowEventProducer::WindowEventProducer(const WindowEventProducer &source) : Inherited(source), _WindowEventLoopThread (NULL ), _DisplayCallbackFunc (source._DisplayCallbackFunc ), _ReshapeCallbackFunc (source._ReshapeCallbackFunc ), _CursorType (source._CursorType ), _BlockInput (source._BlockInput ) { _ButtonClickCountMap[MouseEventDetails::BUTTON1] = ClickVector(); _ButtonClickCountMap[MouseEventDetails::BUTTON2] = ClickVector(); _ButtonClickCountMap[MouseEventDetails::BUTTON3] = ClickVector(); _ButtonClickCountMap[MouseEventDetails::BUTTON4] = ClickVector(); _ButtonClickCountMap[MouseEventDetails::BUTTON5] = ClickVector(); _ButtonClickCountMap[MouseEventDetails::BUTTON6] = ClickVector(); //_ButtonClickCountMap[MouseEventDetails::BUTTON7] = ClickVector(); //_ButtonClickCountMap[MouseEventDetails::BUTTON8] = ClickVector(); //_ButtonClickCountMap[MouseEventDetails::BUTTON9] = ClickVector(); //_ButtonClickCountMap[MouseEventDetails::BUTTON10] = ClickVector(); _ButtonClickMap[MouseEventDetails::BUTTON1] = Pnt2f(0,0); _ButtonClickMap[MouseEventDetails::BUTTON2] = Pnt2f(0,0); _ButtonClickMap[MouseEventDetails::BUTTON3] = Pnt2f(0,0); _ButtonClickMap[MouseEventDetails::BUTTON4] = Pnt2f(0,0); _ButtonClickMap[MouseEventDetails::BUTTON5] = Pnt2f(0,0); _ButtonClickMap[MouseEventDetails::BUTTON6] = Pnt2f(0,0); //_ButtonClickMap[MouseEventDetails::BUTTON7] = Pnt2f(0,0); //_ButtonClickMap[MouseEventDetails::BUTTON8] = Pnt2f(0,0); //_ButtonClickMap[MouseEventDetails::BUTTON9] = Pnt2f(0,0); //_ButtonClickMap[MouseEventDetails::BUTTON10] = Pnt2f(0,0); }
WindowEventProducer::WindowEventProducer(void) : Inherited(), _WindowEventLoopThread (NULL), _DisplayCallbackFunc (NULL), _ReshapeCallbackFunc (NULL), _CursorType (CURSOR_POINTER), _BlockInput (false) { _ButtonClickCountMap[MouseEventDetails::BUTTON1] = ClickVector(); _ButtonClickCountMap[MouseEventDetails::BUTTON2] = ClickVector(); _ButtonClickCountMap[MouseEventDetails::BUTTON3] = ClickVector(); _ButtonClickCountMap[MouseEventDetails::BUTTON4] = ClickVector(); _ButtonClickCountMap[MouseEventDetails::BUTTON5] = ClickVector(); _ButtonClickCountMap[MouseEventDetails::BUTTON6] = ClickVector(); //_ButtonClickCountMap[MouseEventDetails::BUTTON7] = ClickVector(); //_ButtonClickCountMap[MouseEventDetails::BUTTON8] = ClickVector(); //_ButtonClickCountMap[MouseEventDetails::BUTTON9] = ClickVector(); //_ButtonClickCountMap[MouseEventDetails::BUTTON10] = ClickVector(); _ButtonClickMap[MouseEventDetails::BUTTON1] = Pnt2f(0,0); _ButtonClickMap[MouseEventDetails::BUTTON2] = Pnt2f(0,0); _ButtonClickMap[MouseEventDetails::BUTTON3] = Pnt2f(0,0); _ButtonClickMap[MouseEventDetails::BUTTON4] = Pnt2f(0,0); _ButtonClickMap[MouseEventDetails::BUTTON5] = Pnt2f(0,0); _ButtonClickMap[MouseEventDetails::BUTTON6] = Pnt2f(0,0); //_ButtonClickMap[MouseEventDetails::BUTTON7] = Pnt2f(0,0); //_ButtonClickMap[MouseEventDetails::BUTTON8] = Pnt2f(0,0); //_ButtonClickMap[MouseEventDetails::BUTTON9] = Pnt2f(0,0); //_ButtonClickMap[MouseEventDetails::BUTTON10] = Pnt2f(0,0); }
Pnt2f Manipulator::calcScreenProjection(const Pnt3f & p, Viewport * const port) { Camera *cam; Matrix proj, projtrans, view; Pnt3f pnt; if( port != NULL ) { cam = port->getCamera(); cam->getProjection(proj, port->calcPixelWidth(), port->calcPixelHeight()); cam->getProjectionTranslation(projtrans, port->calcPixelWidth(), port->calcPixelHeight()); cam->getViewing(view, port->calcPixelWidth(), port->calcPixelHeight()); Matrix wctocc = proj; wctocc.mult(projtrans); wctocc.mult(view); wctocc.multFull(p, pnt); Real32 rx = (pnt[0] + 1.0) /2 * port->calcPixelWidth(); Real32 ry = (pnt[1] + 1.0) /2 * port->calcPixelHeight(); return Pnt2f(rx, ry); } else { SWARNING << "calcScreenProjection(const Pnt3f&, " "Viewport * const port=" << port << ")\n"; return Pnt2f(0.0f, 0.0f); } }
ArcUIDrawObjectBase::ArcUIDrawObjectBase(void) : Inherited(), _sfCenter (Pnt2f(0,0)), _sfWidth (Real32(1)), _sfHeight (Real32(1)), _sfStartAngleRad (Real32(0.0)), _sfEndAngleRad (Real32(6.283185307)), _sfSubDivisions (UInt16(24)), _sfColor (Color4f(1.0,1.0,1.0,1.0)), _sfLineWidth (Real32(1.0)), _sfOpacity (Real32(1.0)) { }
Pnt2f XWindow::getPosition(void) const { ::Window *RootWindow; int x,y; unsigned int Width,Height,Depth,BorderWidth; XGetGeometry(this->getDisplay(),this->getWindow(),RootWindow, &x,&y, &Width,&Height, &BorderWidth, &Depth); return Pnt2f(x,y); }
OSG_BEGIN_NAMESPACE void openCreditsWindow(void) { ApplicationBuilderUnrecPtr AppBuilder = dynamic_cast<ApplicationBuilder*>(MainApplication::the()->getBuilderMode()); DialogWindowRecPtr TheCreditsWindow = createCreditsWindow(); dynamic_cast<Button*>(AppBuilder->findContainer("KabalaEngine.CreditsWindow.OkButton"))->connectActionPerformed(boost::bind(&handleCreditsWindowCloseButton, _1, TheCreditsWindow.get())); TheCreditsWindow->setPosition(calculateAlignment(Pnt2f(0.0f,0.0f), AppBuilder->getDrawingSurface()->getSize(), TheCreditsWindow->getPreferredSize(), 0.5f,0.5f)); AppBuilder->getDrawingSurface()->openWindow(TheCreditsWindow); }