Java高精度打印 在Java環(huán)境中,可以使用 java.awt.Toolkit.getScreenResolution()可以得到屏幕每英寸的象素數(shù),但是好像沒有什么方法能知道某一臺打印機的分辨率,更別提去控制打印粒度了。于是可恥的使用著丑陋的缺省打印精度幾年后,終于找到了解決方法,不知道該高興還是悲傷,其原理說出來也是非常的簡單: 以上做法形象的說應(yīng)該是這樣:把需要產(chǎn)生的圖形對象先放大,畫在一張“紙上”,然后整體縮小,這樣精度就提高了。 tips 1:在一般企業(yè)報表表格打印中,使用144DPI得到的表格線的寬度看起來最舒服。 附源碼(修改分辨率就改動變量iResMul就好):
import java.awt.*; import java.awt.print.*;![]() public class MyPrintableObject implements Printable { public int iResMul = 1; // 1 = 72 dpi; 4 = 288 dpi![]() ![]() public int print(Graphics g, PageFormat pf, int iPage) throws PrinterException { final int FONTSIZE = 12; final double PNT_MM = 25.4 / 72.; if (0 != iPage) return NO_SUCH_PAGE; try { int iPosX = 1; int iPosY = 1; int iAddY = FONTSIZE * 3 / 2 * iResMul; int iWdth = (int) Math.round(pf.getImageableWidth() * iResMul) - 3; int iHght = (int) Math.round(pf.getImageableHeight() * iResMul) - 3; int iCrcl = Math.min(iWdth, iHght) - 4 * iResMul; Graphics2D g2 = (Graphics2D) g; PrinterJob prjob = ((PrinterGraphics) g2).getPrinterJob(); g2.translate(pf.getImageableX(), pf.getImageableY()); g2.scale(1.0 / iResMul, 1.0 / iResMul); g2.setFont(new Font("SansSerif", Font.PLAIN, FONTSIZE * iResMul)); g2.setColor(Color.black); g2.drawRect(iPosX, iPosY, iWdth, iHght); g2.drawLine(iPosX, iHght / 2 + iWdth / 50, iPosX + iWdth, iHght / 2 - iWdth / 50); g2.drawLine(iPosX, iHght / 2 - iWdth / 50, iPosX + iWdth, iHght / 2 + iWdth / 50); g2.drawOval(iPosX + 2 * iResMul, iHght - iCrcl - 2 * iResMul, iCrcl, iCrcl); iPosX += iAddY; iPosY += iAddY / 2; g2.drawString("PrinterJob-UserName: " + prjob.getUserName(), iPosX, iPosY += iAddY); g2.drawString("Betriebssystem: " + System.getProperty("os.name") + " " + System.getProperty("os.version"), iPosX, iPosY += iAddY); g2 .drawString("Java-Version: JDK " + System.getProperty("java.version"), iPosX, iPosY += iAddY); g2.drawString("Width/Height: " + dbldgt(pf.getWidth()) + " / " + dbldgt(pf.getHeight()) + " points = " + dbldgt(pf.getWidth() * PNT_MM) + " / " + dbldgt(pf.getHeight() * PNT_MM) + " mm", iPosX, iPosY += iAddY); g2.drawString("Imageable Width/Height: " + dbldgt(pf.getImageableWidth()) + " / " + dbldgt(pf.getImageableHeight()) + " points = " + dbldgt(pf.getImageableWidth() * PNT_MM) + " / " + dbldgt(pf.getImageableHeight() * PNT_MM) + " mm", iPosX, iPosY += iAddY); g2.drawString("Imageable X/Y: " + dbldgt(pf.getImageableX()) + " / " + dbldgt(pf.getImageableY()) + " points = " + dbldgt(pf.getImageableX() * PNT_MM) + " / " + dbldgt(pf.getImageableY() * PNT_MM) + " mm", iPosX, iPosY += iAddY); g2.drawString("versuchte Druckaufl sung: " + 72 * iResMul + " dpi", iPosX, iPosY += iAddY); } catch (Exception ex) { throw new PrinterException(ex.getMessage()); } return PAGE_EXISTS; }![]() private static double dbldgt(double d) { return Math.round(d * 10.) / 10.; // show one digit after point }![]() public static void main(String[] args) { PrinterJob pj = PrinterJob.getPrinterJob(); pj.setPrintable(new MyPrintableObject()); if (pj.printDialog()) { try { pj.print(); } catch (PrinterException e) { System.out.println(e); } } } }![]() |
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