/** * Concatenates this transform with a scaling transformation. * This is equivalent to calling concatenate(S), where S is an * <code>Transform</code> represented by the following matrix: * <pre> * [ sx 0 0 ] * [ 0 sy 0 ] * [ 0 0 1 ] * </pre> * @param sx the factor by which coordinates are scaled along the * X axis direction * @param sy the factor by which coordinates are scaled along the * Y axis direction * @return this Transform */ public final Transform scale(final double sx, final double sy) { m_jso.scale(sx, sy); return this; }
/** * Concatenates this transform with a scaling transformation. * This is equivalent to calling concatenate(S), where S is an * <code>Transform</code> represented by the following matrix: * <pre> * [ sx 0 0 ] * [ 0 sy 0 ] * [ 0 0 1 ] * </pre> * @param sx the factor by which coordinates are scaled along the * X axis direction * @param sy the factor by which coordinates are scaled along the * Y axis direction * @return this Transform */ public final Transform scale(final double sx, final double sy) { m_jso.scale(sx, sy); return this; }
/** * Concatenates this transform with a scaling transformation. * This is equivalent to calling concatenate(S), where S is an * <code>Transform</code> represented by the following matrix: * <pre> * [ sx 0 0 ] * [ 0 sy 0 ] * [ 0 0 1 ] * </pre> * @param sx the factor by which coordinates are scaled along the * X axis direction * @param sy the factor by which coordinates are scaled along the * Y axis direction * @return this Transform */ public final Transform scale(double sx, double sy) { m_jso.scale(sx, sy); return this; }
/** * Concatenates this transform with a scaling transformation. * This is equivalent to calling concatenate(S), where S is an * <code>Transform</code> represented by the following matrix: * <pre> * [ sx 0 0 ] * [ 0 sy 0 ] * [ 0 0 1 ] * </pre> * @param sx the factor by which coordinates are scaled along the * X axis direction * @param sy the factor by which coordinates are scaled along the * Y axis direction * @return this Transform */ public final Transform scale(final double sx, final double sy) { m_jso.scale(sx, sy); return this; }
/** * Concatenates this transform with a scaling transformation. * Same as <pre>scale(scaleFactor, scaleFactor)</pre> * * @see #scale(double, double) * @param scaleFactor used as the scale factor for both x and y directions * @return this Transform */ public final Transform scale(final double scaleFactor) { m_jso.scale(scaleFactor, scaleFactor); return this; }
/** * Concatenates this transform with a scaling transformation. * Same as <pre>scale(scaleFactor, scaleFactor)</pre> * * @see #scale(double, double) * @param scaleFactor used as the scale factor for both x and y directions * @return this Transform */ public final Transform scale(final double scaleFactor) { m_jso.scale(scaleFactor, scaleFactor); return this; }
/** * Concatenates this transform with a scaling transformation. * Same as <pre>scale(scaleFactor, scaleFactor)</pre> * * @see #scale(double, double) * @param scaleFactor used as the scale factor for both x and y directions * @return this Transform */ public final Transform scale(double scaleFactor) { m_jso.scale(scaleFactor, scaleFactor); return this; }
/** * Concatenates this transform with a scaling transformation. * Same as <pre>scale(scaleFactor, scaleFactor)</pre> * * @see #scale(double, double) * @param scaleFactor used as the scale factor for both x and y directions * @return this Transform */ public final Transform scale(final double scaleFactor) { m_jso.scale(scaleFactor, scaleFactor); return this; }