/** * Sets the world transform. * * @param transform * the new world transform */ public void setWorldTransform(final ReadOnlyTransform transform) { _worldTransform.set(transform); }
/** * Sets the world transform. * * @param transform * the new world transform */ public void setWorldTransform(final ReadOnlyTransform transform) { _worldTransform.set(transform); }
public void setEmitterTransform(final ReadOnlyTransform emitterTransform) { _emitterTransform.set(emitterTransform); }
/** copy constructor */ public SpatialState(final SpatialState toCopy) { _transform.set(toCopy._transform); }
public void setEmitterTransform(final ReadOnlyTransform emitterTransform) { _emitterTransform.set(emitterTransform); }
public void setTransform(final ReadOnlyTransform transform) { _transform.set(transform); }
public void setInverseBindPose(final ReadOnlyTransform inverseBindPose) { _inverseBindPose.set(inverseBindPose); }
public void setOffset(final ReadOnlyTransform offset) { _offset.set(offset); }
public void setOffset(final ReadOnlyTransform offset) { _offset.set(offset); }
public void setInverseBindPose(final ReadOnlyTransform inverseBindPose) { _inverseBindPose.set(inverseBindPose); }
public AbstractAwtElement(final ReadOnlyTransform transform, final Composite compositeOverride) { _transform.set(transform); _compositeOverride = compositeOverride; hints.put(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON); hints.put(RenderingHints.KEY_INTERPOLATION, RenderingHints.VALUE_INTERPOLATION_BICUBIC); hints.put(RenderingHints.KEY_RENDERING, RenderingHints.VALUE_RENDER_QUALITY); }
public AbstractAwtElement(final ReadOnlyTransform transform, final Composite compositeOverride) { _transform.set(transform); _compositeOverride = compositeOverride; hints.put(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON); hints.put(RenderingHints.KEY_INTERPOLATION, RenderingHints.VALUE_INTERPOLATION_BICUBIC); hints.put(RenderingHints.KEY_RENDERING, RenderingHints.VALUE_RENDER_QUALITY); }
/** * Sets the local transform. * * @param transform * the new transform */ public void setTransform(final ReadOnlyTransform transform) { _localTransform.set(transform); markDirty(DirtyType.Transform); }
/** * Sets the local transform. * * @param transform * the new transform */ public void setTransform(final ReadOnlyTransform transform) { _localTransform.set(transform); markDirty(DirtyType.Transform); }
@Override public Transform set(final ReadOnlyTransform source) { super.set(source); validate(); return this; }
@Override public Transform set(final ReadOnlyTransform source) { super.set(source); validate(); return this; }
public void setTransform(final ReadOnlyTransform transform) { _transform.set(transform); updateBounds(); }
public void setTransform(final ReadOnlyTransform transform) { _transform.set(transform); updateBounds(); }
public void startDrag(final int mouseX, final int mouseY) { final Vector3 vec = Vector3.fetchTempInstance(); vec.set(mouseX, mouseY, 0); _uiFrameStatusBar.getWorldTransform().applyInverseVector(vec); _initialX = Math.round(vec.getXf()); _initialY = Math.round(vec.getYf()); Vector3.releaseTempInstance(vec); final UIFrame frame = UIFrame.findParentFrame(_uiFrameStatusBar); _initialLocalComponentWidth = frame.getLocalComponentWidth(); _initialLocalComponentHeight = frame.getLocalComponentHeight(); _initFrameTransform.set(frame.getWorldTransform()); }
public void startDrag(final int mouseX, final int mouseY) { final Vector3 vec = Vector3.fetchTempInstance(); vec.set(mouseX, mouseY, 0); _uiFrameStatusBar.getWorldTransform().applyInverseVector(vec); _initialX = Math.round(vec.getXf()); _initialY = Math.round(vec.getYf()); Vector3.releaseTempInstance(vec); final UIFrame frame = UIFrame.findParentFrame(_uiFrameStatusBar); _initialLocalComponentWidth = frame.getLocalComponentWidth(); _initialLocalComponentHeight = frame.getLocalComponentHeight(); _initFrameTransform.set(frame.getWorldTransform()); }