/*
    * Copyright (c) 2008, 2011, Oracle and/or its affiliates. All rights reserved.
    * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
    *
    * This code is free software; you can redistribute it and/or modify it
    * under the terms of the GNU General Public License version 2 only, as
    * published by the Free Software Foundation.  Oracle designates this
    * particular file as subject to the "Classpath" exception as provided
    * by Oracle in the LICENSE file that accompanied this code.
   *
   * This code is distributed in the hope that it will be useful, but WITHOUT
   * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
   * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
   * version 2 for more details (a copy is included in the LICENSE file that
   * accompanied this code).
   *
   * You should have received a copy of the GNU General Public License version
   * 2 along with this work; if not, write to the Free Software Foundation,
   * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
   *
   * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
   * or visit www.oracle.com if you need additional information or have any
   * questions.
   */
  
  package sun.font;
  
  import java.awt.Font;
  import java.io.BufferedReader;
  import java.io.File;
  import java.io.FileInputStream;
  import java.io.InputStreamReader;
  import java.lang.ref.SoftReference;
  import java.util.concurrent.ConcurrentHashMap;
  import java.security.AccessController;
  
  import java.security.PrivilegedAction;
  import javax.swing.plaf.FontUIResource;
  
  import sun.util.logging.PlatformLogger;
  
  /**
   * A collection of utility methods.
   */
  public final class FontUtilities {
  
      public static boolean isSolaris;
  
      public static boolean isLinux;
  
      public static boolean isSolaris8;
  
      public static boolean isSolaris9;
  
      public static boolean isOpenSolaris;
  
      public static boolean useT2K;
  
      public static boolean isWindows;
  
      public static boolean isOpenJDK;
  
      static final String LUCIDA_FILE_NAME = "LucidaSansRegular.ttf";
  
      private static boolean debugFonts = false;
      private static PlatformLogger logger = null;
      private static boolean logging;
  
      // This static initializer block figures out the OS constants.
      static {
  
          AccessController.doPrivileged(new PrivilegedAction () {
              public Object run() {
                  String osName = System.getProperty("os.name", "unknownOS");
                  isSolaris = osName.startsWith("SunOS");
  
                  isLinux = osName.startsWith("Linux");
  
                  String t2kStr = System.getProperty("sun.java2d.font.scaler");
                  if (t2kStr != null) {
                      useT2K = "t2k".equals(t2kStr);
                  } else {
                      useT2K = false;
                  }
                  if (isSolaris) {
                      String version = System.getProperty("os.version", "0.0");
                      isSolaris8 = version.startsWith("5.8");
                      isSolaris9 = version.startsWith("5.9");
                      float ver = Float.parseFloat(version);
                      if (ver > 5.10f) {
                          File f = new File("/etc/release");
                          String line = null;
                          try {
                              FileInputStream fis = new FileInputStream(f);
                              InputStreamReader isr = new InputStreamReader(
                                                              fis, "ISO-8859-1");
                              BufferedReader br = new BufferedReader(isr);
                              line = br.readLine();
                              fis.close();
                         } catch (Exception ex) {
                             // Nothing to do here.
                         }
                         if (line != null && line.indexOf("OpenSolaris") >= 0) {
                             isOpenSolaris = true;
                         } else {
                             isOpenSolaris = false;
                         }
                     } else {
                         isOpenSolaris = false;
                     }
                 } else {
                     isSolaris8 = false;
                     isSolaris9 = false;
                     isOpenSolaris = false;
                 }
                 isWindows = osName.startsWith("Windows");
                 String jreLibDirName = System.getProperty("java.home", "")
                                                       + File.separator + "lib";
                 String jreFontDirName =
                         jreLibDirName + File.separator + "fonts";
                 File lucidaFile = new File(jreFontDirName + File.separator
                                            + LUCIDA_FILE_NAME);
                 isOpenJDK = !lucidaFile.exists();
 
                 String debugLevel =
                     System.getProperty("sun.java2d.debugfonts");
 
                 if (debugLevel != null && !debugLevel.equals("false")) {
                     debugFonts = true;
                     logger = PlatformLogger.getLogger("sun.java2d");
                     if (debugLevel.equals("warning")) {
                         logger.setLevel(PlatformLogger.WARNING);
                     } else if (debugLevel.equals("severe")) {
                         logger.setLevel(PlatformLogger.SEVERE);
                     }
                 }
 
                 if (debugFonts) {
                     logger = PlatformLogger.getLogger("sun.java2d");
                     logging = logger.isEnabled();
                 }
 
                 return null;
             }
         });
     }
 
     /**
      * Referenced by code in the JDK which wants to test for the
      * minimum char code for which layout may be required.
      * Note that even basic latin text can benefit from ligatures,
      * eg "ffi" but we presently apply those only if explicitly
      * requested with TextAttribute.LIGATURES_ON.
      * The value here indicates the lowest char code for which failing
      * to invoke layout would prevent acceptable rendering.
      */
     public static final int MIN_LAYOUT_CHARCODE = 0x0300;
 
     /**
      * Referenced by code in the JDK which wants to test for the
      * maximum char code for which layout may be required.
      * Note this does not account for supplementary characters
      * where the caller interprets 'layout' to mean any case where
      * one 'char' (ie the java type char) does not map to one glyph
      */
     public static final int MAX_LAYOUT_CHARCODE = 0x206F;
 
     /**
      * Calls the private getFont2D() method in java.awt.Font objects.
      *
      * @param font the font object to call
      *
      * @return the Font2D object returned by Font.getFont2D()
      */
     public static Font2D getFont2D(Font font) {
         return FontAccess.getFontAccess().getFont2D(font);
     }
 
     /**
      * If there is anything in the text which triggers a case
      * where char->glyph does not map 1:1 in straightforward
      * left->right ordering, then this method returns true.
      * Scripts which might require it but are not treated as such
      * due to JDK implementations will not return true.
      * ie a 'true' return is an indication of the treatment by
      * the implementation.
      * Whether supplementary characters should be considered is dependent
      * on the needs of the caller. Since this method accepts the 'char' type
      * then such chars are always represented by a pair. From a rendering
      * perspective these will all (in the cases I know of) still be one
      * unicode character -> one glyph. But if a caller is using this to
      * discover any case where it cannot make naive assumptions about
      * the number of chars, and how to index through them, then it may
      * need the option to have a 'true' return in such a case.
      */
     public static boolean isComplexText(char [] chs, int start, int limit) {
 
         for (int i = start; i < limit; i++) {
             if (chs[i] < MIN_LAYOUT_CHARCODE) {
                 continue;
             }
             else if (isNonSimpleChar(chs[i])) {
                 return true;
             }
         }
         return false;
     }
 
     /* This is almost the same as the method above, except it takes a
      * char which means it may include undecoded surrogate pairs.
      * The distinction is made so that code which needs to identify all
      * cases in which we do not have a simple mapping from
      * char->unicode character->glyph can be be identified.
      * For example measurement cannot simply sum advances of 'chars',
      * the caret in editable text cannot advance one 'char' at a time, etc.
      * These callers really are asking for more than whether 'layout'
      * needs to be run, they need to know if they can assume 1->1
      * char->glyph mapping.
      */
     public static boolean isNonSimpleChar(char ch) {
         return
             isComplexCharCode(ch) ||
             (ch >= CharToGlyphMapper.HI_SURROGATE_START &&
              ch <= CharToGlyphMapper.LO_SURROGATE_END);
     }
 
     /* If the character code falls into any of a number of unicode ranges
      * where we know that simple left->right layout mapping chars to glyphs
      * 1:1 and accumulating advances is going to produce incorrect results,
      * we want to know this so the caller can use a more intelligent layout
      * approach. A caller who cares about optimum performance may want to
      * check the first case and skip the method call if its in that range.
      * Although there's a lot of tests in here, knowing you can skip
      * CTL saves a great deal more. The rest of the checks are ordered
      * so that rather than checking explicitly if (>= start & <= end)
      * which would mean all ranges would need to be checked so be sure
      * CTL is not needed, the method returns as soon as it recognises
      * the code point is outside of a CTL ranges.
      * NOTE: Since this method accepts an 'int' it is asssumed to properly
      * represent a CHARACTER. ie it assumes the caller has already
      * converted surrogate pairs into supplementary characters, and so
      * can handle this case and doesn't need to be told such a case is
      * 'complex'.
      */
     public static boolean isComplexCharCode(int code) {
 
         if (code < MIN_LAYOUT_CHARCODE || code > MAX_LAYOUT_CHARCODE) {
             return false;
         }
         else if (code <= 0x036f) {
             // Trigger layout for combining diacriticals 0x0300->0x036f
             return true;
         }
         else if (code < 0x0590) {
             // No automatic layout for Greek, Cyrillic, Armenian.
              return false;
         }
         else if (code <= 0x06ff) {
             // Hebrew 0590 - 05ff
             // Arabic 0600 - 06ff
             return true;
         }
         else if (code < 0x0900) {
             return false; // Syriac and Thaana
         }
         else if (code <= 0x0e7f) {
             // if Indic, assume shaping for conjuncts, reordering:
             // 0900 - 097F Devanagari
             // 0980 - 09FF Bengali
             // 0A00 - 0A7F Gurmukhi
             // 0A80 - 0AFF Gujarati
             // 0B00 - 0B7F Oriya
             // 0B80 - 0BFF Tamil
             // 0C00 - 0C7F Telugu
             // 0C80 - 0CFF Kannada
             // 0D00 - 0D7F Malayalam
             // 0D80 - 0DFF Sinhala
             // 0E00 - 0E7F if Thai, assume shaping for vowel, tone marks
             return true;
         }
         else if (code <  0x0f00) {
             return false;
         }
         else if (code <= 0x0fff) { // U+0F00 - U+0FFF Tibetan
             return true;
         }
         else if (code < 0x1100) {
             return false;
         }
         else if (code < 0x11ff) { // U+1100 - U+11FF Old Hangul
             return true;
         }
         else if (code < 0x1780) {
             return false;
         }
         else if (code <= 0x17ff) { // 1780 - 17FF Khmer
             return true;
         }
         else if (code < 0x200c) {
             return false;
         }
         else if (code <= 0x200d) { //  zwj or zwnj
             return true;
         }
         else if (code >= 0x202a && code <= 0x202e) { // directional control
             return true;
         }
         else if (code >= 0x206a && code <= 0x206f) { // directional control
             return true;
         }
         return false;
     }
 
     public static PlatformLogger getLogger() {
         return logger;
     }
 
     public static boolean isLogging() {
         return logging;
     }
 
     public static boolean debugFonts() {
         return debugFonts;
     }
 
 
     // The following methods are used by Swing.
 
     /* Revise the implementation to in fact mean "font is a composite font.
      * This ensures that Swing components will always benefit from the
      * fall back fonts
      */
     public static boolean fontSupportsDefaultEncoding(Font font) {
         return getFont2D(font) instanceof CompositeFont;
     }
 
     /**
      * This method is provided for internal and exclusive use by Swing.
      *
      * It may be used in conjunction with fontSupportsDefaultEncoding(Font)
      * In the event that a desktop properties font doesn't directly
      * support the default encoding, (ie because the host OS supports
      * adding support for the current locale automatically for native apps),
      * then Swing calls this method to get a font which  uses the specified
      * font for the code points it covers, but also supports this locale
      * just as the standard composite fonts do.
      * Note: this will over-ride any setting where an application
      * specifies it prefers locale specific composite fonts.
      * The logic for this, is that this method is used only where the user or
      * application has specified that the native L&F be used, and that
      * we should honour that request to use the same font as native apps use.
      *
      * The behaviour of this method is to construct a new composite
      * Font object that uses the specified physical font as its first
      * component, and adds all the components of "dialog" as fall back
      * components.
      * The method currently assumes that only the size and style attributes
      * are set on the specified font. It doesn't copy the font transform or
      * other attributes because they aren't set on a font created from
      * the desktop. This will need to be fixed if use is broadened.
      *
      * Operations such as Font.deriveFont will work properly on the
      * font returned by this method for deriving a different point size.
      * Additionally it tries to support a different style by calling
      * getNewComposite() below. That also supports replacing slot zero
      * with a different physical font but that is expected to be "rare".
      * Deriving with a different style is needed because its been shown
      * that some applications try to do this for Swing FontUIResources.
      * Also operations such as new Font(font.getFontName(..), Font.PLAIN, 14);
      * will NOT yield the same result, as the new underlying CompositeFont
      * cannot be "looked up" in the font registry.
      * This returns a FontUIResource as that is the Font sub-class needed
      * by Swing.
      * Suggested usage is something like :
      * FontUIResource fuir;
      * Font desktopFont = getDesktopFont(..);
      * // NOTE even if fontSupportsDefaultEncoding returns true because
      * // you get Tahoma and are running in an English locale, you may
      * // still want to just call getCompositeFontUIResource() anyway
      * // as only then will you get fallback fonts - eg for CJK.
      * if (FontManager.fontSupportsDefaultEncoding(desktopFont)) {
      *   fuir = new FontUIResource(..);
      * } else {
      *   fuir = FontManager.getCompositeFontUIResource(desktopFont);
      * }
      * return fuir;
      */
     private static volatile
         SoftReference<ConcurrentHashMap<PhysicalFont, CompositeFont>>
         compMapRef = new SoftReference(null);
 
     public static FontUIResource getCompositeFontUIResource(Font font) {
 
         FontUIResource fuir = new FontUIResource(font);
         Font2D font2D = FontUtilities.getFont2D(font);
 
         if (!(font2D instanceof PhysicalFont)) {
             /* Swing should only be calling this when a font is obtained
              * from desktop properties, so should generally be a physical font,
              * an exception might be for names like "MS Serif" which are
              * automatically mapped to "Serif", so there's no need to do
              * anything special in that case. But note that suggested usage
              * is first to call fontSupportsDefaultEncoding(Font) and this
              * method should not be called if that were to return true.
              */
              return fuir;
         }
 
         FontManager fm = FontManagerFactory.getInstance();
         CompositeFont dialog2D =
           (CompositeFont) fm.findFont2D("dialog", font.getStyle(),
                                         FontManager.NO_FALLBACK);
         if (dialog2D == null) { /* shouldn't happen */
             return fuir;
         }
         PhysicalFont physicalFont = (PhysicalFont)font2D;
         ConcurrentHashMap<PhysicalFont, CompositeFont> compMap = compMapRef.get();
         if (compMap == null) { // Its been collected.
             compMap = new ConcurrentHashMap<PhysicalFont, CompositeFont>();
             compMapRef = new SoftReference(compMap);
         }
         CompositeFont compFont = compMap.get(physicalFont);
         if (compFont == null) {
             compFont = new CompositeFont(physicalFont, dialog2D);
             compMap.put(physicalFont, compFont);
         }
         FontAccess.getFontAccess().setFont2D(fuir, compFont.handle);
         /* marking this as a created font is needed as only created fonts
          * copy their creator's handles.
          */
         FontAccess.getFontAccess().setCreatedFont(fuir);
         return fuir;
     }
 
    /* A small "map" from GTK/fontconfig names to the equivalent JDK
     * logical font name.
     */
     private static final String[][] nameMap = {
         {"sans",       "sansserif"},
         {"sans-serif", "sansserif"},
         {"serif",      "serif"},
         {"monospace",  "monospaced"}
     };
 
     public static String mapFcName(String name) {
         for (int i = 0; i < nameMap.length; i++) {
             if (name.equals(nameMap[i][0])) {
                 return nameMap[i][1];
             }
         }
         return null;
     }
 
 
     /* This is called by Swing passing in a fontconfig family name
      * such as "sans". In return Swing gets a FontUIResource instance
      * that has queried fontconfig to resolve the font(s) used for this.
      * Fontconfig will if asked return a list of fonts to give the largest
      * possible code point coverage.
      * For now we use only the first font returned by fontconfig, and
      * back it up with the most closely matching JDK logical font.
      * Essentially this means pre-pending what we return now with fontconfig's
      * preferred physical font. This could lead to some duplication in cases,
      * if we already included that font later. We probably should remove such
      * duplicates, but it is not a significant problem. It can be addressed
      * later as part of creating a Composite which uses more of the
      * same fonts as fontconfig. At that time we also should pay more
      * attention to the special rendering instructions fontconfig returns,
      * such as whether we should prefer embedded bitmaps over antialiasing.
      * There's no way to express that via a Font at present.
      */
     public static FontUIResource getFontConfigFUIR(String fcFamily,
                                                    int style, int size) {
 
         String mapped = mapFcName(fcFamily);
         if (mapped == null) {
             mapped = "sansserif";
         }
 
         FontUIResource fuir;
         FontManager fm = FontManagerFactory.getInstance();
         if (fm instanceof SunFontManager) {
             SunFontManager sfm = (SunFontManager) fm;
             fuir = sfm.getFontConfigFUIR(mapped, style, size);
         } else {
             fuir = new FontUIResource(mapped, style, size);
         }
         return fuir;
     }
 
 
     /**
      * Used by windows printing to assess if a font is likely to
      * be layout compatible with JDK
      * TrueType fonts should be, but if they have no GPOS table,
      * but do have a GSUB table, then they are probably older
      * fonts GDI handles differently.
      */
     public static boolean textLayoutIsCompatible(Font font) {
 
         Font2D font2D = getFont2D(font);
         if (font2D instanceof TrueTypeFont) {
             TrueTypeFont ttf = (TrueTypeFont) font2D;
             return
                 ttf.getDirectoryEntry(TrueTypeFont.GSUBTag) == null ||
                 ttf.getDirectoryEntry(TrueTypeFont.GPOSTag) != null;
         } else {
             return false;
         }
     }
 
 }