package prefuse.render;import java.awt.Dimension;import java.awt.Font;import java.awt.FontMetrics;import java.awt.Graphics2D;import java.awt.Image;import java.awt.Shape;import java.awt.geom.AffineTransform;import java.awt.geom.Arc2D;import java.awt.geom.Point2D;import java.awt.geom.Rectangle2D;import java.awt.geom.RectangularShape;import java.awt.geom.RoundRectangle2D;import prefuse.Constants;import prefuse.util.ColorLib;import prefuse.util.FontLib;import prefuse.util.GraphicsLib;import prefuse.util.StringLib;import prefuse.visual.VisualItem;/**渲染一个包含或文本或图片或兼有之的label标签 * Renderer that draws a label, which consists of a text string, * an image, or both. *  * <p>When created using the default constructor, the renderer attempts * to use text from the "label" field. To use a different field, use the * appropriate constructor or use the {@link #setTextField(String)} method. * To perform custom String selection, subclass this Renderer and override the  * {@link #getText(VisualItem)} method. When the text field is * <code>null</code>, no text label will be shown. Labels can span multiple * lines of text, determined by the presence of newline characters (‘\n‘) * within the text string.</p> *  * <p>By default, no image is shown. To show an image, the image field needs * to be set, either using the appropriate constructor or the * {@link #setImageField(String)} method. The value of the image field should * be a text string indicating the location of the image file to use. The * string should be either a URL, a file located on the current classpath, * or a file on the local filesystem. If found, the image will be managed * internally by an {@link ImageFactory} instance, which maintains a * cache of loaded images.</p> *  * <p>The position of the image relative to text can be set using the * {@link #setImagePosition(int)} method. Images can be placed to the * left, right, above, or below the text. The horizontal and vertical * alignments of either the text or the image can be set explicitly * using the appropriate methods of this class (e.g., * {@link #setHorizontalTextAlignment(int)}). By default, both the * text and images are centered along both the horizontal and * vertical directions.</p> *  * @author <a href="http://jheer.org">jeffrey heer</a> */public class LabelRenderer extends AbstractShapeRenderer {    protected ImageFactory m_images = null;    protected String m_delim = "\n";        protected String m_labelName = "label";    protected String m_imageName = null;        protected int m_xAlign = Constants.CENTER;    protected int m_yAlign = Constants.CENTER;    protected int m_hTextAlign = Constants.CENTER;    protected int m_vTextAlign = Constants.CENTER;    protected int m_hImageAlign = Constants.CENTER;    protected int m_vImageAlign = Constants.CENTER;    protected int m_imagePos = Constants.LEFT;        protected int m_horizBorder = 2;    protected int m_vertBorder  = 0;    protected int m_imageMargin = 2;    protected int m_arcWidth    = 0;    protected int m_arcHeight   = 0;    protected int m_maxTextWidth = -1;        /** Transform used to scale and position images */    AffineTransform m_transform = new AffineTransform();        /** The holder for the currently computed bounding box */    protected RectangularShape m_bbox  = new Rectangle2D.Double();    // Prefuse框架自带的，即默认使用矩形    protected Point2D m_pt = new Point2D.Double(); // temp point    protected Font    m_font; // temp font holder    protected String    m_text; // label text    protected Dimension m_textDim = new Dimension(); // text width / height    /**     * Create a new LabelRenderer. By default the field "label" is used     * as the field name for looking up text, and no image is used.     */    public LabelRenderer() {    }        /**     * Create a new LabelRenderer. Draws a text label using the given     * text data field and does not draw an image.     * @param textField the data field for the text label.     */    public LabelRenderer(String textField) {        this.setTextField(textField);    }        /**     * Create a new LabelRenderer. Draws a text label using the given text     * data field, and draws the image at the location reported by the     * given image data field.     * @param textField the data field for the text label     * @param imageField the data field for the image location. This value     * in the data field should be a URL, a file within the current classpath,     * a file on the filesystem, or null for no image. If the     * <code>imageField</code> parameter is null, no images at all will be     * drawn.     */    public LabelRenderer(String textField, String imageField) {        setTextField(textField);        setImageField(imageField);    }        // ------------------------------------------------------------------------        /**     * Rounds the corners of the bounding rectangle in which the text     * string is rendered. This will only be seen if either the stroke     * or fill color is non-transparent.     * @param arcWidth the width of the curved corner     * @param arcHeight the height of the curved corner     */    public void setRoundedCorner(int arcWidth, int arcHeight) {        if ( (arcWidth == 0 || arcHeight == 0) &&             !(m_bbox instanceof Rectangle2D) ) {            m_bbox = new Rectangle2D.Double();        } else {            if ( !(m_bbox instanceof RoundRectangle2D) )                m_bbox = new RoundRectangle2D.Double();            ((RoundRectangle2D)m_bbox)                .setRoundRect(0,0,10,10,arcWidth,arcHeight);            m_arcWidth = arcWidth;            m_arcHeight = arcHeight;        }    }    /**     * Get the field name to use for text labels.     * @return the data field for text labels, or null for no text     */    public String getTextField() {        return m_labelName;    }        /**     * Set the field name to use for text labels.     * @param textField the data field for text labels, or null for no text     */    public void setTextField(String textField) {        m_labelName = textField;    }        /**     * Sets the maximum width that should be allowed of the text label.     * A value of -1 specifies no limit (this is the default).     * @param maxWidth the maximum width of the text or -1 for no limit     */    public void setMaxTextWidth(int maxWidth) {        m_maxTextWidth = maxWidth;    }        /**     * Returns the text to draw. Subclasses can override this class to     * perform custom text selection.     * @param item the item to represent as a <code>String</code>     * @return a <code>String</code> to draw     */    protected String getText(VisualItem item) {        String s = null;        if ( item.canGetString(m_labelName) ) {            return item.getString(m_labelName);                    }        return s;    }    // ------------------------------------------------------------------------    // Image Handling        /**     * Get the data field for image locations. The value stored     * in the data field should be a URL, a file within the current classpath,     * a file on the filesystem, or null for no image.     * @return the data field for image locations, or null for no images     */    public String getImageField() {        return m_imageName;    }        /**     * Set the data field for image locations. The value stored     * in the data field should be a URL, a file within the current classpath,     * a file on the filesystem, or null for no image. If the     * <code>imageField</code> parameter is null, no images at all will be     * drawn.     * @param imageField the data field for image locations, or null for     * no images     */    public void setImageField(String imageField) {        if ( imageField != null ) m_images = new ImageFactory();        m_imageName = imageField;    }        /**     * Sets the maximum image dimensions, used to control scaling of loaded     * images. This scaling is enforced immediately upon loading of the image.     * @param width the maximum width of images (-1 for no limit)     * @param height the maximum height of images (-1 for no limit)     */    public void setMaxImageDimensions(int width, int height) {        if ( m_images == null ) m_images = new ImageFactory();        m_images.setMaxImageDimensions(width, height);    }        /**     * Returns a location string for the image to draw. Subclasses can override      * this class to perform custom image selection beyond looking up the value     * from a data field.     * @param item the item for which to select an image to draw     * @return the location string for the image to use, or null for no image     */    protected String getImageLocation(VisualItem item) {        return item.canGetString(m_imageName)                ? item.getString(m_imageName)                : null;    }        /**     * Get the image to include in the label for the given VisualItem.     * @param item the item to get an image for     * @return the image for the item, or null for no image     */    protected Image getImage(VisualItem item) {        String imageLoc = getImageLocation(item);        return ( imageLoc == null ? null : m_images.getImage(imageLoc) );    }            // ------------------------------------------------------------------------    // Rendering        private String computeTextDimensions(VisualItem item, String text,                                         double size)    {        // put item font in temp member variable        m_font = item.getFont();        // scale the font as needed        if ( size != 1 ) {            m_font = FontLib.getFont(m_font.getName(), m_font.getStyle(),                                     size*m_font.getSize());        }                FontMetrics fm = DEFAULT_GRAPHICS.getFontMetrics(m_font);        StringBuffer str = null;                // compute the number of lines and the maximum width        int nlines = 1, w = 0, start = 0, end = text.indexOf(m_delim);        m_textDim.width = 0;        String line;        for ( ; end >= 0; ++nlines ) {            w = fm.stringWidth(line=text.substring(start,end));            // abbreviate line as needed            if ( m_maxTextWidth > -1 && w > m_maxTextWidth ) {                if ( str == null )                    str = new StringBuffer(text.substring(0,start));                str.append(StringLib.abbreviate(line, fm, m_maxTextWidth));                str.append(m_delim);                w = m_maxTextWidth;            } else if ( str != null ) {                str.append(line).append(m_delim);            }            // update maximum width and substring indices            m_textDim.width = Math.max(m_textDim.width, w);            start = end+1;            end = text.indexOf(m_delim, start);        }        w = fm.stringWidth(line=text.substring(start));        // abbreviate line as needed        if ( m_maxTextWidth > -1 && w > m_maxTextWidth ) {            if ( str == null )                str = new StringBuffer(text.substring(0,start));            str.append(StringLib.abbreviate(line, fm, m_maxTextWidth));            w = m_maxTextWidth;        } else if ( str != null ) {            str.append(line);        }        // update maximum width        m_textDim.width = Math.max(m_textDim.width, w);                // compute the text height        m_textDim.height = fm.getHeight() * nlines;                return str==null ? text : str.toString();    }        /**     * @see prefuse.render.AbstractShapeRenderer#getRawShape(prefuse.visual.VisualItem)     */    protected Shape getRawShape(VisualItem item) {        m_text = getText(item);        Image  img  = getImage(item);        double size = item.getSize();                // get image dimensions        double iw=0, ih=0;        if ( img != null ) {            ih = img.getHeight(null);            iw = img.getWidth(null);            }                // get text dimensions        int tw=0, th=0;        if ( m_text != null ) {            m_text = computeTextDimensions(item, m_text, size);            th = m_textDim.height;            tw = m_textDim.width;           }                // get bounding box dimensions        double w=0, h=0;        switch ( m_imagePos ) {        case Constants.LEFT:        case Constants.RIGHT:            w = tw + size*(iw +2*m_horizBorder                   + (tw>0 && iw>0 ? m_imageMargin : 0));            h = Math.max(th, size*ih) + size*2*m_vertBorder;            break;        case Constants.TOP:        case Constants.BOTTOM:            w = Math.max(tw, size*iw) + size*2*m_horizBorder;            h = th + size*(ih + 2*m_vertBorder                   + (th>0 && ih>0 ? m_imageMargin : 0));            break;        default:            throw new IllegalStateException(                "Unrecognized image alignment setting.");        }                // get the top-left point, using the current alignment settings        getAlignedPoint(m_pt, item, w, h, m_xAlign, m_yAlign);                if ( m_bbox instanceof RoundRectangle2D ) {            RoundRectangle2D rr = (RoundRectangle2D)m_bbox;            rr.setRoundRect(m_pt.getX(), m_pt.getY(), w, h,                            size*m_arcWidth, size*m_arcHeight);        } else {            m_bbox.setFrame(m_pt.getX(), m_pt.getY(), w, h);        }                                                                       return m_bbox;    }        /**     * Helper method, which calculates the top-left co-ordinate of an item     * given the item‘s alignment.     */    protected static void getAlignedPoint(Point2D p, VisualItem item,             double w, double h, int xAlign, int yAlign)    {        double x = item.getX(), y = item.getY();        if ( Double.isNaN(x) || Double.isInfinite(x) )            x = 0; // safety check        if ( Double.isNaN(y) || Double.isInfinite(y) )            y = 0; // safety check                if ( xAlign == Constants.CENTER ) {            x = x-(w/2);        } else if ( xAlign == Constants.RIGHT ) {            x = x-w;        }        if ( yAlign == Constants.CENTER ) {            y = y-(h/2);        } else if ( yAlign == Constants.BOTTOM ) {            y = y-h;        }        p.setLocation(x,y);    }        /**     * @see prefuse.render.Renderer#render(java.awt.Graphics2D, prefuse.visual.VisualItem)     */    public void render(Graphics2D g, VisualItem item) {        RectangularShape shape = (RectangularShape)getShape(item);        if ( shape == null ) return;                // fill the shape, if requested        int type = getRenderType(item);        if ( type==RENDER_TYPE_FILL || type==RENDER_TYPE_DRAW_AND_FILL )            GraphicsLib.paint(g, item, shape, getStroke(item), RENDER_TYPE_FILL);        // now render the image and text        String text = m_text;        Image  img  = getImage(item);                if ( text == null && img == null )            return;                                double size = item.getSize();        boolean useInt = 1.5 > Math.max(g.getTransform().getScaleX(),                                        g.getTransform().getScaleY());        double x = shape.getMinX() + size*m_horizBorder;        double y = shape.getMinY() + size*m_vertBorder;                // render image        if ( img != null ) {                        double w = size * img.getWidth(null);            double h = size * img.getHeight(null);            double ix=x, iy=y;                        // determine one co-ordinate based on the image position            switch ( m_imagePos ) {            case Constants.LEFT:                x += w + size*m_imageMargin;                break;            case Constants.RIGHT:                ix = shape.getMaxX() - size*m_horizBorder - w;                break;            case Constants.TOP:                y += h + size*m_imageMargin;                break;            case Constants.BOTTOM:                iy = shape.getMaxY() - size*m_vertBorder - h;                break;            default:                throw new IllegalStateException(                        "Unrecognized image alignment setting.");            }                        // determine the other coordinate based on image alignment            switch ( m_imagePos ) {            case Constants.LEFT:            case Constants.RIGHT:                // need to set image y-coordinate                switch ( m_vImageAlign ) {                case Constants.TOP:                    break;                case Constants.BOTTOM:                    iy = shape.getMaxY() - size*m_vertBorder - h;                    break;                case Constants.CENTER:                    iy = shape.getCenterY() - h/2;                    break;                }                break;            case Constants.TOP:            case Constants.BOTTOM:                // need to set image x-coordinate                switch ( m_hImageAlign ) {                case Constants.LEFT:                    break;                case Constants.RIGHT:                    ix = shape.getMaxX() - size*m_horizBorder - w;                    break;                case Constants.CENTER:                    ix = shape.getCenterX() - w/2;                    break;                }                break;            }                        if ( useInt && size == 1.0 ) {                // if possible, use integer precision                // results in faster, flicker-free image rendering                g.drawImage(img, (int)ix, (int)iy, null);            } else {                m_transform.setTransform(size,0,0,size,ix,iy);                g.drawImage(img, m_transform, null);            }        }                // render text        int textColor = item.getTextColor();        if ( text != null && ColorLib.alpha(textColor) > 0 ) {            g.setPaint(ColorLib.getColor(textColor));            g.setFont(m_font);            FontMetrics fm = DEFAULT_GRAPHICS.getFontMetrics(m_font);            // compute available width            double tw;            switch ( m_imagePos ) {            case Constants.TOP:            case Constants.BOTTOM:                tw = shape.getWidth() - 2*size*m_horizBorder;                break;            default:                tw = m_textDim.width;            }                        // compute available height            double th;            switch ( m_imagePos ) {            case Constants.LEFT:            case Constants.RIGHT:                th = shape.getHeight() - 2*size*m_vertBorder;                break;            default:                th = m_textDim.height;            }                        // compute starting y-coordinate            y += fm.getAscent();            switch ( m_vTextAlign ) {            case Constants.TOP:                break;            case Constants.BOTTOM:                y += th - m_textDim.height;                break;            case Constants.CENTER:                y += (th - m_textDim.height)/2;            }                        // render each line of text            int lh = fm.getHeight(); // the line height            int start = 0, end = text.indexOf(m_delim);            for ( ; end >= 0; y += lh ) {                drawString(g, fm, text.substring(start, end), useInt, x, y, tw);                start = end+1;                end = text.indexOf(m_delim, start);               }            drawString(g, fm, text.substring(start), useInt, x, y, tw);        }            // draw border        if (type==RENDER_TYPE_DRAW || type==RENDER_TYPE_DRAW_AND_FILL) {            GraphicsLib.paint(g,item,shape,getStroke(item),RENDER_TYPE_DRAW);        }    }        private final void drawString(Graphics2D g, FontMetrics fm, String text,            boolean useInt, double x, double y, double w)    {        // compute the x-coordinate        double tx;        switch ( m_hTextAlign ) {        case Constants.LEFT:            tx = x;            break;        case Constants.RIGHT:            tx = x + w - fm.stringWidth(text);            break;        case Constants.CENTER:            tx = x + (w - fm.stringWidth(text)) / 2;            break;        default:            throw new IllegalStateException(                    "Unrecognized text alignment setting.");        }        // use integer precision unless zoomed-in        // results in more stable drawing        if ( useInt ) {            g.drawString(text, (int)tx, (int)y);        } else {            g.drawString(text, (float)tx, (float)y);        }    }        /**     * Returns the image factory used by this renderer.     * @return the image factory     */    public ImageFactory getImageFactory() {        if ( m_images == null ) m_images = new ImageFactory();        return m_images;    }        /**     * Sets the image factory used by this renderer.     * @param ifact the image factory     */    public void setImageFactory(ImageFactory ifact) {        m_images = ifact;    }        // ------------------------------------------------------------------------        /**     * Get the horizontal text alignment within the layout. One of     * {@link prefuse.Constants#LEFT}, {@link prefuse.Constants#RIGHT}, or     * {@link prefuse.Constants#CENTER}. The default is centered text.     * @return the horizontal text alignment     */    public int getHorizontalTextAlignment() {        return m_hTextAlign;    }        /**     * Set the horizontal text alignment within the layout. One of     * {@link prefuse.Constants#LEFT}, {@link prefuse.Constants#RIGHT}, or     * {@link prefuse.Constants#CENTER}. The default is centered text.     * @param halign the desired horizontal text alignment     */    public void setHorizontalTextAlignment(int halign) {        if ( halign != Constants.LEFT &&             halign != Constants.RIGHT &&             halign != Constants.CENTER )           throw new IllegalArgumentException(                   "Illegal horizontal text alignment value.");        m_hTextAlign = halign;    }        /**     * Get the vertical text alignment within the layout. One of     * {@link prefuse.Constants#TOP}, {@link prefuse.Constants#BOTTOM}, or     * {@link prefuse.Constants#CENTER}. The default is centered text.     * @return the vertical text alignment     */    public int getVerticalTextAlignment() {        return m_vTextAlign;    }        /**     * Set the vertical text alignment within the layout. One of     * {@link prefuse.Constants#TOP}, {@link prefuse.Constants#BOTTOM}, or     * {@link prefuse.Constants#CENTER}. The default is centered text.     * @param valign the desired vertical text alignment     */    public void setVerticalTextAlignment(int valign) {        if ( valign != Constants.TOP &&             valign != Constants.BOTTOM &&             valign != Constants.CENTER )            throw new IllegalArgumentException(                    "Illegal vertical text alignment value.");        m_vTextAlign = valign;    }        /**     * Get the horizontal image alignment within the layout. One of     * {@link prefuse.Constants#LEFT}, {@link prefuse.Constants#RIGHT}, or     * {@link prefuse.Constants#CENTER}. The default is a centered image.     * @return the horizontal image alignment     */    public int getHorizontalImageAlignment() {        return m_hImageAlign;    }        /**     * Set the horizontal image alignment within the layout. One of     * {@link prefuse.Constants#LEFT}, {@link prefuse.Constants#RIGHT}, or     * {@link prefuse.Constants#CENTER}. The default is a centered image.     * @param halign the desired horizontal image alignment     */    public void setHorizontalImageAlignment(int halign) {        if ( halign != Constants.LEFT &&             halign != Constants.RIGHT &&             halign != Constants.CENTER )           throw new IllegalArgumentException(                   "Illegal horizontal text alignment value.");        m_hImageAlign = halign;    }        /**     * Get the vertical image alignment within the layout. One of     * {@link prefuse.Constants#TOP}, {@link prefuse.Constants#BOTTOM}, or     * {@link prefuse.Constants#CENTER}. The default is a centered image.     * @return the vertical image alignment     */    public int getVerticalImageAlignment() {        return m_vImageAlign;    }        /**     * Set the vertical image alignment within the layout. One of     * {@link prefuse.Constants#TOP}, {@link prefuse.Constants#BOTTOM}, or     * {@link prefuse.Constants#CENTER}. The default is a centered image.     * @param valign the desired vertical image alignment     */    public void setVerticalImageAlignment(int valign) {        if ( valign != Constants.TOP &&             valign != Constants.BOTTOM &&             valign != Constants.CENTER )            throw new IllegalArgumentException(                    "Illegal vertical text alignment value.");        m_vImageAlign = valign;    }        /**     * Get the image position, determining where the image is placed with     * respect to the text. One of {@link Constants#LEFT},     * {@link Constants#RIGHT}, {@link Constants#TOP}, or     * {@link Constants#BOTTOM}.  The default is left.     * @return the image position     */    public int getImagePosition() {        return m_imagePos;    }        /**     * Set the image position, determining where the image is placed with     * respect to the text. One of {@link Constants#LEFT},     * {@link Constants#RIGHT}, {@link Constants#TOP}, or     * {@link Constants#BOTTOM}.  The default is left.     * @param pos the desired image position     */    public void setImagePosition(int pos) {        if ( pos != Constants.TOP &&             pos != Constants.BOTTOM &&             pos != Constants.LEFT &&             pos != Constants.RIGHT &&             pos != Constants.CENTER )           throw new IllegalArgumentException(                   "Illegal image position value.");        m_imagePos = pos;    }        // ------------------------------------------------------------------------        /**     * Get the horizontal alignment of this node with respect to its     * x, y coordinates.     * @return the horizontal alignment, one of     * {@link prefuse.Constants#LEFT}, {@link prefuse.Constants#RIGHT}, or     * {@link prefuse.Constants#CENTER}.     */    public int getHorizontalAlignment() {        return m_xAlign;    }        /**     * Get the vertical alignment of this node with respect to its     * x, y coordinates.     * @return the vertical alignment, one of     * {@link prefuse.Constants#TOP}, {@link prefuse.Constants#BOTTOM}, or     * {@link prefuse.Constants#CENTER}.     */    public int getVerticalAlignment() {        return m_yAlign;    }        /**     * Set the horizontal alignment of this node with respect to its     * x, y coordinates.     * @param align the horizontal alignment, one of     * {@link prefuse.Constants#LEFT}, {@link prefuse.Constants#RIGHT}, or     * {@link prefuse.Constants#CENTER}.     */     public void setHorizontalAlignment(int align) {        m_xAlign = align;    }        /**     * Set the vertical alignment of this node with respect to its     * x, y coordinates.     * @param align the vertical alignment, one of     * {@link prefuse.Constants#TOP}, {@link prefuse.Constants#BOTTOM}, or     * {@link prefuse.Constants#CENTER}.     */     public void setVerticalAlignment(int align) {        m_yAlign = align;    }        /**     * Returns the amount of padding in pixels between the content      * and the border of this item along the horizontal dimension.     * @return the horizontal padding     */    public int getHorizontalPadding() {        return m_horizBorder;    }        /**     * Sets the amount of padding in pixels between the content      * and the border of this item along the horizontal dimension.     * @param xpad the horizontal padding to set     */    public void setHorizontalPadding(int xpad) {        m_horizBorder = xpad;    }        /**     * Returns the amount of padding in pixels between the content      * and the border of this item along the vertical dimension.     * @return the vertical padding     */    public int getVerticalPadding() {        return m_vertBorder;    }        /**     * Sets the amount of padding in pixels between the content      * and the border of this item along the vertical dimension.     * @param ypad the vertical padding     */    public void setVerticalPadding(int ypad) {        m_vertBorder = ypad;    }        /**     * Get the padding, in pixels, between an image and text.     * @return the padding between an image and text     */    public int getImageTextPadding() {        return m_imageMargin;    }        /**     * Set the padding, in pixels, between an image and text.     * @param pad the padding to use between an image and text     */    public void setImageTextPadding(int pad) {        m_imageMargin = pad;    }    } // end of class LabelRenderer

package prefuse.render;import java.awt.Dimension;import java.awt.Font;import java.awt.FontMetrics;import java.awt.Graphics2D;import java.awt.Image;import java.awt.Shape;import java.awt.geom.AffineTransform;import java.awt.geom.Arc2D;import java.awt.geom.Point2D;import java.awt.geom.Rectangle2D;import java.awt.geom.RectangularShape;import java.awt.geom.RoundRectangle2D;import java.util.Iterator;import prefuse.Constants;import prefuse.data.Node;import prefuse.util.ColorLib;import prefuse.util.FontLib;import prefuse.util.GraphicsLib;import prefuse.util.StringLib;import prefuse.visual.NodeItem;import prefuse.visual.VisualItem;/** * 渲染一个包含或文本或图片或兼有之的label标签 Renderer that draws a label, which consists of a * text string, an image, or both. *  * <p> * When created using the default constructor, the renderer attempts to use text * from the "label" field. To use a different field, use the appropriate * constructor or use the {@link #setTextField(String)} method. To perform * custom String selection, subclass this Renderer and override the * {@link #getText(VisualItem)} method. When the text field is <code>null</code> * , no text label will be shown. Labels can span multiple lines of text, * determined by the presence of newline characters (‘\n‘) within the text * string. * </p> *  * <p> * By default, no image is shown. To show an image, the image field needs to be * set, either using the appropriate constructor or the * {@link #setImageField(String)} method. The value of the image field should be * a text string indicating the location of the image file to use. The string * should be either a URL, a file located on the current classpath, or a file on * the local filesystem. If found, the image will be managed internally by an * {@link ImageFactory} instance, which maintains a cache of loaded images. * </p> *  * <p> * The position of the image relative to text can be set using the * {@link #setImagePosition(int)} method. Images can be placed to the left, * right, above, or below the text. The horizontal and vertical alignments of * either the text or the image can be set explicitly using the appropriate * methods of this class (e.g., {@link #setHorizontalTextAlignment(int)}). By * default, both the text and images are centered along both the horizontal and * vertical directions. * </p> *  * @author <a href="http://jheer.org">jeffrey heer</a> */public class LabelRenderer extends AbstractShapeRenderer {			public static enum LabelShape{		Rectangle2D,		Arc2D	}	protected ImageFactory m_images = null;	protected String m_delim = "\n";	protected String m_labelName = "label";	protected String m_imageName = null;	protected int m_xAlign = Constants.CENTER;	protected int m_yAlign = Constants.CENTER;	protected int m_hTextAlign = Constants.CENTER;	protected int m_vTextAlign = Constants.CENTER;	protected int m_hImageAlign = Constants.CENTER;	protected int m_vImageAlign = Constants.CENTER;	protected int m_imagePos = Constants.LEFT;	protected int m_horizBorder = 2;	protected int m_vertBorder = 1;	protected int m_imageMargin = 2;	protected int m_arcWidth = 0;	protected int m_arcHeight = 0;	protected int m_maxTextWidth = -1;	/** Transform used to scale and position images */	AffineTransform m_transform = new AffineTransform();	/** The holder for the currently computed bounding box */	protected RectangularShape m_bbox = new Rectangle2D.Double(); // Prefuse框架自带的，即默认使用矩形	protected Point2D m_pt = new Point2D.Double(); // temp point	protected Font m_font; // temp font holder	protected String m_text; // label text	protected Dimension m_textDim = new Dimension(); // text width / height	/**	 * Create a new LabelRenderer. By default the field "label" is used as the	 * field name for looking up text, and no image is used.	 */	public LabelRenderer() {	}	/**	 * Create a new LabelRenderer. Draws a text label using the given text data	 * field and does not draw an image.	 * 	 * @param textField	 *            the data field for the text label.	 */	public LabelRenderer(String textField) {		this.setTextField(textField);	}	/**	 * 	 * @param textField	 * @param isRectangle	 *            true-矩形 false-圆形	 */	public LabelRenderer(String textField, LabelShape shape) {		if (shape == LabelShape.Rectangle2D) {			m_bbox = new Rectangle2D.Double();		} else {			m_bbox = new Arc2D.Double();		}		this.setTextField(textField);	}	/**	 * Create a new LabelRenderer. Draws a text label using the given text data	 * field, and draws the image at the location reported by the given image	 * data field.	 * 	 * @param textField	 *            the data field for the text label	 * @param imageField	 *            the data field for the image location. This value in the data	 *            field should be a URL, a file within the current classpath, a	 *            file on the filesystem, or null for no image. If the	 *            <code>imageField</code> parameter is null, no images at all	 *            will be drawn.	 */	public LabelRenderer(String textField, String imageField) {		setTextField(textField);		setImageField(imageField);	}	// ------------------------------------------------------------------------	/**	 * Rounds the corners of the bounding rectangle in which the text string is	 * rendered. This will only be seen if either the stroke or fill color is	 * non-transparent.	 * 	 * @param arcWidth	 *            the width of the curved corner	 * @param arcHeight	 *            the height of the curved corner	 */	public void setRoundedCorner(int arcWidth, int arcHeight) {		if ((arcWidth == 0 || arcHeight == 0) && !(m_bbox instanceof Rectangle2D)) {			m_bbox = new Rectangle2D.Double();		} else {			if (!(m_bbox instanceof RoundRectangle2D))				m_bbox = new RoundRectangle2D.Double();			((RoundRectangle2D) m_bbox).setRoundRect(0, 0, 10, 10, arcWidth, arcHeight);			m_arcWidth = arcWidth;			m_arcHeight = arcHeight;		}	}	/**	 * Get the field name to use for text labels.	 * 	 * @return the data field for text labels, or null for no text	 */	public String getTextField() {		return m_labelName;	}	/**	 * Set the field name to use for text labels.	 * 	 * @param textField	 *            the data field for text labels, or null for no text	 */	public void setTextField(String textField) {		m_labelName = textField;	}	/**	 * Sets the maximum width that should be allowed of the text label. A value	 * of -1 specifies no limit (this is the default).	 * 	 * @param maxWidth	 *            the maximum width of the text or -1 for no limit	 */	public void setMaxTextWidth(int maxWidth) {		m_maxTextWidth = maxWidth;	}	/**	 * Returns the text to draw. Subclasses can override this class to perform	 * custom text selection.	 * 	 * @param item	 *            the item to represent as a <code>String</code>	 * @return a <code>String</code> to draw	 */	protected String getText(VisualItem item) {		String s = null;		if (item.canGetString(m_labelName)) {			return item.getString(m_labelName);		}		return s;	}	// ------------------------------------------------------------------------	// Image Handling	/**	 * Get the data field for image locations. The value stored in the data	 * field should be a URL, a file within the current classpath, a file on the	 * filesystem, or null for no image.	 * 	 * @return the data field for image locations, or null for no images	 */	public String getImageField() {		return m_imageName;	}	/**	 * Set the data field for image locations. The value stored in the data	 * field should be a URL, a file within the current classpath, a file on the	 * filesystem, or null for no image. If the <code>imageField</code>	 * parameter is null, no images at all will be drawn.	 * 	 * @param imageField	 *            the data field for image locations, or null for no images	 */	public void setImageField(String imageField) {		if (imageField != null)			m_images = new ImageFactory();		m_imageName = imageField;	}	/**	 * Sets the maximum image dimensions, used to control scaling of loaded	 * images. This scaling is enforced immediately upon loading of the image.	 * 	 * @param width	 *            the maximum width of images (-1 for no limit)	 * @param height	 *            the maximum height of images (-1 for no limit)	 */	public void setMaxImageDimensions(int width, int height) {		if (m_images == null)			m_images = new ImageFactory();		m_images.setMaxImageDimensions(width, height);	}	/**	 * Returns a location string for the image to draw. Subclasses can override	 * this class to perform custom image selection beyond looking up the value	 * from a data field.	 * 	 * @param item	 *            the item for which to select an image to draw	 * @return the location string for the image to use, or null for no image	 */	protected String getImageLocation(VisualItem item) {		return item.canGetString(m_imageName) ? item.getString(m_imageName) : null;	}	/**	 * Get the image to include in the label for the given VisualItem.	 * 	 * @param item	 *            the item to get an image for	 * @return the image for the item, or null for no image	 */	protected Image getImage(VisualItem item) {		String imageLoc = getImageLocation(item);		return (imageLoc == null ? null : m_images.getImage(imageLoc));	}	// ------------------------------------------------------------------------	// Rendering	private String computeTextDimensions(VisualItem item, String text, double size) {		// put item font in temp member variable		m_font = item.getFont();		// scale the font as needed		if (size != 1) {			m_font = FontLib.getFont(m_font.getName(), m_font.getStyle(), size * m_font.getSize());		}		FontMetrics fm = DEFAULT_GRAPHICS.getFontMetrics(m_font);		StringBuffer str = null;		// compute the number of lines and the maximum width		int nlines = 1, w = 0, start = 0, end = text.indexOf(m_delim);		m_textDim.width = 0;		String line;		for (; end >= 0; ++nlines) {			w = fm.stringWidth(line = text.substring(start, end));			// abbreviate line as needed			if (m_maxTextWidth > -1 && w > m_maxTextWidth) {				if (str == null)					str = new StringBuffer(text.substring(0, start));				str.append(StringLib.abbreviate(line, fm, m_maxTextWidth));				str.append(m_delim);				w = m_maxTextWidth;			} else if (str != null) {				str.append(line).append(m_delim);			}			// update maximum width and substring indices			m_textDim.width = Math.max(m_textDim.width, w);			start = end + 1;			end = text.indexOf(m_delim, start);		}		w = fm.stringWidth(line = text.substring(start));		// abbreviate line as needed		if (m_maxTextWidth > -1 && w > m_maxTextWidth) {			if (str == null)				str = new StringBuffer(text.substring(0, start));			str.append(StringLib.abbreviate(line, fm, m_maxTextWidth));			w = m_maxTextWidth;		} else if (str != null) {			str.append(line);		}		// update maximum width		m_textDim.width = Math.max(m_textDim.width, w);		// compute the text height		m_textDim.height = fm.getHeight() * nlines;		return str == null ? text : str.toString();	}	/**	 * @see prefuse.render.AbstractShapeRenderer#getRawShape(prefuse.visual.VisualItem)	 */	protected Shape getRawShape(VisualItem item) {				m_text = getText(item);        Image  img  = getImage(item);        double size = item.getSize();                // get image dimensions        double iw=0, ih=0;        if ( img != null ) {            ih = img.getHeight(null);            iw = img.getWidth(null);            }                // get text dimensions        int tw=0, th=0;        if ( m_text != null ) {            m_text = computeTextDimensions(item, m_text, size);            th = m_textDim.height;            tw = m_textDim.width;           }                // get bounding box dimensions        double w=0, h=0;        switch ( m_imagePos ) {        case Constants.LEFT:        case Constants.RIGHT:            w = tw + size*(iw +2*m_horizBorder                   + (tw>0 && iw>0 ? m_imageMargin : 0));            h = Math.max(th, size*ih) + size*2*m_vertBorder;            break;        case Constants.TOP:        case Constants.BOTTOM:            w = Math.max(tw, size*iw) + size*2*m_horizBorder;            h = th + size*(ih + 2*m_vertBorder                   + (th>0 && ih>0 ? m_imageMargin : 0));            break;        default:            throw new IllegalStateException(                "Unrecognized image alignment setting.");        }                // get the top-left point, using the current alignment settings        getAlignedPoint(m_pt, item, w, h, m_xAlign, m_yAlign);		if (m_bbox instanceof RoundRectangle2D) {// 圆角矩形			RoundRectangle2D rr = (RoundRectangle2D) m_bbox;			rr.setRoundRect(m_pt.getX(), m_pt.getY(), w, h, size * m_arcWidth, size * m_arcHeight);		} else if (m_bbox instanceof Arc2D) {// 圆形			Arc2D rr = (Arc2D) m_bbox;			rr.setArc(m_pt.getX(), m_pt.getY(), w, w, 360, 360, Arc2D.OPEN);		} else {			m_bbox.setFrame(m_pt.getX(), m_pt.getY(), w, h);// 矩形		} 		return m_bbox;	}	/**	 * Helper method, which calculates the top-left co-ordinate of an item given	 * the item‘s alignment.	 */	protected static void getAlignedPoint(Point2D p, VisualItem item, double w, double h, int xAlign, int yAlign) {		double x = item.getX(), y = item.getY();		if (Double.isNaN(x) || Double.isInfinite(x))			x = 0; // safety check		if (Double.isNaN(y) || Double.isInfinite(y))			y = 0; // safety check		if (xAlign == Constants.CENTER) {			x = x - (w / 2);		} else if (xAlign == Constants.RIGHT) {			x = x - w;		}		if (yAlign == Constants.CENTER) {			y = y - (h / 2);		} else if (yAlign == Constants.BOTTOM) {			y = y - h;		}		p.setLocation(x, y);	}	/**	 * @see prefuse.render.Renderer#render(java.awt.Graphics2D,	 *      prefuse.visual.VisualItem)	 */	public void render(Graphics2D g, VisualItem item) {		RectangularShape shape = (RectangularShape) getShape(item);		if (shape == null)			return;		// fill the shape, if requested		int type = getRenderType(item);		if (type == RENDER_TYPE_FILL || type == RENDER_TYPE_DRAW_AND_FILL)			GraphicsLib.paint(g, item, shape, getStroke(item), RENDER_TYPE_FILL);		// now render the image and text		String text = m_text;		Image img = getImage(item);		if (text == null && img == null)			return;		double size = item.getSize();		boolean useInt = 1.5 > Math.max(g.getTransform().getScaleX(), g.getTransform().getScaleY());		double x = shape.getMinX() + size * m_horizBorder;		double y = shape.getMinY() + size * m_vertBorder;		// render image		if (img != null) {			double w = size * img.getWidth(null);			double h = size * img.getHeight(null);			double ix = x, iy = y;			// determine one co-ordinate based on the image position			switch (m_imagePos) {			case Constants.LEFT:				x += w + size * m_imageMargin;				break;			case Constants.RIGHT:				ix = shape.getMaxX() - size * m_horizBorder - w;				break;			case Constants.TOP:				y += h + size * m_imageMargin;				break;			case Constants.BOTTOM:				iy = shape.getMaxY() - size * m_vertBorder - h;				break;			default:				throw new IllegalStateException("Unrecognized image alignment setting.");			}			// determine the other coordinate based on image alignment			switch (m_imagePos) {			case Constants.LEFT:			case Constants.RIGHT:				// need to set image y-coordinate				switch (m_vImageAlign) {				case Constants.TOP:					break;				case Constants.BOTTOM:					iy = shape.getMaxY() - size * m_vertBorder - h;					break;				case Constants.CENTER:					iy = shape.getCenterY() - h / 2;					break;				}				break;			case Constants.TOP:			case Constants.BOTTOM:				// need to set image x-coordinate				switch (m_hImageAlign) {				case Constants.LEFT:					break;				case Constants.RIGHT:					ix = shape.getMaxX() - size * m_horizBorder - w;					break;				case Constants.CENTER:					ix = shape.getCenterX() - w / 2;					break;				}				break;			}			if (useInt && size == 1.0) {				// if possible, use integer precision				// results in faster, flicker-free image rendering				g.drawImage(img, (int) ix, (int) iy, null);			} else {				m_transform.setTransform(size, 0, 0, size, ix, iy);				g.drawImage(img, m_transform, null);			}		}		// render text		int textColor = item.getTextColor();		if (text != null && ColorLib.alpha(textColor) > 0) {			g.setPaint(ColorLib.getColor(textColor));			g.setFont(m_font);			FontMetrics fm = DEFAULT_GRAPHICS.getFontMetrics(m_font);			// compute available width			double tw;			switch (m_imagePos) {			case Constants.TOP:			case Constants.BOTTOM:				tw = shape.getWidth() - 2 * size * m_horizBorder;				break;			default:				tw = m_textDim.width;			}			// compute available height			double th;			switch (m_imagePos) {			case Constants.LEFT:			case Constants.RIGHT:				th = shape.getHeight() - 2 * size * m_vertBorder;				break;			default:				th = m_textDim.height;			}			// compute starting y-coordinate			y += fm.getAscent();			switch (m_vTextAlign) {			case Constants.TOP:				break;			case Constants.BOTTOM:				y += th - m_textDim.height;				break;			case Constants.CENTER:				y += (th - m_textDim.height) / 2;			}			// render each line of text			int lh = fm.getHeight(); // the line height			int start = 0, end = text.indexOf(m_delim);			for (; end >= 0; y += lh) {				drawString(g, fm, text.substring(start, end), useInt, x, y, tw);				start = end + 1;				end = text.indexOf(m_delim, start);			}			drawString(g, fm, text.substring(start), useInt, x, y, tw);		}		// draw border		if (type == RENDER_TYPE_DRAW || type == RENDER_TYPE_DRAW_AND_FILL) {			GraphicsLib.paint(g, item, shape, getStroke(item), RENDER_TYPE_DRAW);		}	}	private final void drawString(Graphics2D g, FontMetrics fm, String text, boolean useInt, double x, double y, double w) {		// compute the x-coordinate		double tx;		switch (m_hTextAlign) {		case Constants.LEFT:			tx = x;			break;		case Constants.RIGHT:			tx = x + w - fm.stringWidth(text);			break;		case Constants.CENTER:			tx = x + (w - fm.stringWidth(text)) / 2;			break;		default:			throw new IllegalStateException("Unrecognized text alignment setting.");		}		// use integer precision unless zoomed-in		// results in more stable drawing		if (useInt) {			g.drawString(text, (int) tx, (int) y);		} else {			g.drawString(text, (float) tx, (float) y);		}	}	/**	 * Returns the image factory used by this renderer.	 * 	 * @return the image factory	 */	public ImageFactory getImageFactory() {		if (m_images == null)			m_images = new ImageFactory();		return m_images;	}	/**	 * Sets the image factory used by this renderer.	 * 	 * @param ifact	 *            the image factory	 */	public void setImageFactory(ImageFactory ifact) {		m_images = ifact;	}	// ------------------------------------------------------------------------	/**	 * Get the horizontal text alignment within the layout. One of	 * {@link prefuse.Constants#LEFT}, {@link prefuse.Constants#RIGHT}, or	 * {@link prefuse.Constants#CENTER}. The default is centered text.	 * 	 * @return the horizontal text alignment	 */	public int getHorizontalTextAlignment() {		return m_hTextAlign;	}	/**	 * Set the horizontal text alignment within the layout. One of	 * {@link prefuse.Constants#LEFT}, {@link prefuse.Constants#RIGHT}, or	 * {@link prefuse.Constants#CENTER}. The default is centered text.	 * 	 * @param halign	 *            the desired horizontal text alignment	 */	public void setHorizontalTextAlignment(int halign) {		if (halign != Constants.LEFT && halign != Constants.RIGHT && halign != Constants.CENTER)			throw new IllegalArgumentException("Illegal horizontal text alignment value.");		m_hTextAlign = halign;	}	/**	 * Get the vertical text alignment within the layout. One of	 * {@link prefuse.Constants#TOP}, {@link prefuse.Constants#BOTTOM}, or	 * {@link prefuse.Constants#CENTER}. The default is centered text.	 * 	 * @return the vertical text alignment	 */	public int getVerticalTextAlignment() {		return m_vTextAlign;	}	/**	 * Set the vertical text alignment within the layout. One of	 * {@link prefuse.Constants#TOP}, {@link prefuse.Constants#BOTTOM}, or	 * {@link prefuse.Constants#CENTER}. The default is centered text.	 * 	 * @param valign	 *            the desired vertical text alignment	 */	public void setVerticalTextAlignment(int valign) {		if (valign != Constants.TOP && valign != Constants.BOTTOM && valign != Constants.CENTER)			throw new IllegalArgumentException("Illegal vertical text alignment value.");		m_vTextAlign = valign;	}	/**	 * Get the horizontal image alignment within the layout. One of	 * {@link prefuse.Constants#LEFT}, {@link prefuse.Constants#RIGHT}, or	 * {@link prefuse.Constants#CENTER}. The default is a centered image.	 * 	 * @return the horizontal image alignment	 */	public int getHorizontalImageAlignment() {		return m_hImageAlign;	}	/**	 * Set the horizontal image alignment within the layout. One of	 * {@link prefuse.Constants#LEFT}, {@link prefuse.Constants#RIGHT}, or	 * {@link prefuse.Constants#CENTER}. The default is a centered image.	 * 	 * @param halign	 *            the desired horizontal image alignment	 */	public void setHorizontalImageAlignment(int halign) {		if (halign != Constants.LEFT && halign != Constants.RIGHT && halign != Constants.CENTER)			throw new IllegalArgumentException("Illegal horizontal text alignment value.");		m_hImageAlign = halign;	}	/**	 * Get the vertical image alignment within the layout. One of	 * {@link prefuse.Constants#TOP}, {@link prefuse.Constants#BOTTOM}, or	 * {@link prefuse.Constants#CENTER}. The default is a centered image.	 * 	 * @return the vertical image alignment	 */	public int getVerticalImageAlignment() {		return m_vImageAlign;	}	/**	 * Set the vertical image alignment within the layout. One of	 * {@link prefuse.Constants#TOP}, {@link prefuse.Constants#BOTTOM}, or	 * {@link prefuse.Constants#CENTER}. The default is a centered image.	 * 	 * @param valign	 *            the desired vertical image alignment	 */	public void setVerticalImageAlignment(int valign) {		if (valign != Constants.TOP && valign != Constants.BOTTOM && valign != Constants.CENTER)			throw new IllegalArgumentException("Illegal vertical text alignment value.");		m_vImageAlign = valign;	}	/**	 * Get the image position, determining where the image is placed with	 * respect to the text. One of {@link Constants#LEFT},	 * {@link Constants#RIGHT}, {@link Constants#TOP}, or	 * {@link Constants#BOTTOM}. The default is left.	 * 	 * @return the image position	 */	public int getImagePosition() {		return m_imagePos;	}	/**	 * Set the image position, determining where the image is placed with	 * respect to the text. One of {@link Constants#LEFT},	 * {@link Constants#RIGHT}, {@link Constants#TOP}, or	 * {@link Constants#BOTTOM}. The default is left.	 * 	 * @param pos	 *            the desired image position	 */	public void setImagePosition(int pos) {		if (pos != Constants.TOP && pos != Constants.BOTTOM && pos != Constants.LEFT && pos != Constants.RIGHT && pos != Constants.CENTER)			throw new IllegalArgumentException("Illegal image position value.");		m_imagePos = pos;	}	// ------------------------------------------------------------------------	/**	 * Get the horizontal alignment of this node with respect to its x, y	 * coordinates.	 * 	 * @return the horizontal alignment, one of {@link prefuse.Constants#LEFT},	 *         {@link prefuse.Constants#RIGHT}, or	 *         {@link prefuse.Constants#CENTER}.	 */	public int getHorizontalAlignment() {		return m_xAlign;	}	/**	 * Get the vertical alignment of this node with respect to its x, y	 * coordinates.	 * 	 * @return the vertical alignment, one of {@link prefuse.Constants#TOP},	 *         {@link prefuse.Constants#BOTTOM}, or	 *         {@link prefuse.Constants#CENTER}.	 */	public int getVerticalAlignment() {		return m_yAlign;	}	/**	 * Set the horizontal alignment of this node with respect to its x, y	 * coordinates.	 * 	 * @param align	 *            the horizontal alignment, one of	 *            {@link prefuse.Constants#LEFT},	 *            {@link prefuse.Constants#RIGHT}, or	 *            {@link prefuse.Constants#CENTER}.	 */	public void setHorizontalAlignment(int align) {		m_xAlign = align;	}	/**	 * Set the vertical alignment of this node with respect to its x, y	 * coordinates.	 * 	 * @param align	 *            the vertical alignment, one of {@link prefuse.Constants#TOP},	 *            {@link prefuse.Constants#BOTTOM}, or	 *            {@link prefuse.Constants#CENTER}.	 */	public void setVerticalAlignment(int align) {		m_yAlign = align;	}	/**	 * Returns the amount of padding in pixels between the content and the	 * border of this item along the horizontal dimension.	 * 	 * @return the horizontal padding	 */	public int getHorizontalPadding() {		return m_horizBorder;	}	/**	 * Sets the amount of padding in pixels between the content and the border	 * of this item along the horizontal dimension.	 * 	 * @param xpad	 *            the horizontal padding to set	 */	public void setHorizontalPadding(int xpad) {		m_horizBorder = xpad;	}	/**	 * Returns the amount of padding in pixels between the content and the	 * border of this item along the vertical dimension.	 * 	 * @return the vertical padding	 */	public int getVerticalPadding() {		return m_vertBorder;	}	/**	 * Sets the amount of padding in pixels between the content and the border	 * of this item along the vertical dimension.	 * 	 * @param ypad	 *            the vertical padding	 */	public void setVerticalPadding(int ypad) {		m_vertBorder = ypad;	}	/**	 * Get the padding, in pixels, between an image and text.	 * 	 * @return the padding between an image and text	 */	public int getImageTextPadding() {		return m_imageMargin;	}	/**	 * Set the padding, in pixels, between an image and text.	 * 	 * @param pad	 *            the padding to use between an image and text	 */	public void setImageTextPadding(int pad) {		m_imageMargin = pad;	}} // end of class LabelRenderer

private static Visualization visInstance;public static Visualization getVisualization(){		if(visInstance == null){			visInstance = new Visualization();		}		return visInstance;}