/** * Concatenates this transform with a translation transformation. * It basically moves a node with the specified offset (tx,ty). * * This is equivalent to calling concatenate(T), where T is an * <code>Transform</code> represented by the following matrix: * <pre> * [ 1 0 tx ] * [ 0 1 ty ] * [ 0 0 1 ] * </pre> * @param tx the distance by which coordinates are translated in the * X axis direction * @param ty the distance by which coordinates are translated in the * Y axis direction * * @return this Transform */ public final Transform translate(final double tx, final double ty) { m_jso.translate(tx, ty); return this; }
/** * Concatenates this transform with a translation transformation. * It basically moves a node with the specified offset (tx,ty). * * This is equivalent to calling concatenate(T), where T is an * <code>Transform</code> represented by the following matrix: * <pre> * [ 1 0 tx ] * [ 0 1 ty ] * [ 0 0 1 ] * </pre> * @param tx the distance by which coordinates are translated in the * X axis direction * @param ty the distance by which coordinates are translated in the * Y axis direction * * @return this Transform */ public final Transform translate(final double tx, final double ty) { m_jso.translate(tx, ty); return this; }
/** * Concatenates this transform with a translation transformation. * It basically moves a node with the specified offset (tx,ty). * * This is equivalent to calling concatenate(T), where T is an * <code>Transform</code> represented by the following matrix: * <pre> * [ 1 0 tx ] * [ 0 1 ty ] * [ 0 0 1 ] * </pre> * @param tx the distance by which coordinates are translated in the * X axis direction * @param ty the distance by which coordinates are translated in the * Y axis direction * * @return this Transform */ public final Transform translate(double tx, double ty) { m_jso.translate(tx, ty); return this; }
/** * Concatenates this transform with a translation transformation. * It basically moves a node with the specified offset (tx,ty). * * This is equivalent to calling concatenate(T), where T is an * <code>Transform</code> represented by the following matrix: * <pre> * [ 1 0 tx ] * [ 0 1 ty ] * [ 0 0 1 ] * </pre> * @param tx the distance by which coordinates are translated in the * X axis direction * @param ty the distance by which coordinates are translated in the * Y axis direction * * @return this Transform */ public final Transform translate(final double tx, final double ty) { m_jso.translate(tx, ty); return this; }