public static void main(String[] args) { for (Map.Entry<String, Encoding> entry : encodingByCookedName.entrySet()) { String name = entry.getKey(); Encoding enc = entry.getValue(); System.out.printf( "%21s: canon %21s, obs %5s, reg %5s, asc %5s, ebc %5s\n", name, enc.getCanonName(), enc.isObscure(), enc.isRegistered(), enc.isAsciiSuperset(), enc.isLikelyEbcdic()); } }
public static void main(String[] args) { for (Map.Entry<String, Encoding> entry : encodingByCookedName.entrySet()) { String name = entry.getKey(); Encoding enc = entry.getValue(); System.out.printf( "%21s: canon %21s, obs %5s, reg %5s, asc %5s, ebc %5s\n", name, enc.getCanonName(), enc.isObscure(), enc.isRegistered(), enc.isAsciiSuperset(), enc.isLikelyEbcdic()); } }
public static void main(String[] args) { for (Map.Entry<String, Encoding> entry : encodingByCookedName.entrySet()) { String name = entry.getKey(); Encoding enc = entry.getValue(); System.out.printf( "%21s: canon %21s, obs %5s, reg %5s, asc %5s, ebc %5s\n", name, enc.getCanonName(), enc.isObscure(), enc.isRegistered(), enc.isAsciiSuperset(), enc.isLikelyEbcdic()); } }
+ encoding + "\u201D. It is recommended to use \u201CUTF-8\u201D."); } else if (cs.isLikelyEbcdic()) { tokenizer.warn("Authors should not use EBCDIC-based encodings. It is recommended to use \u201CUTF-8\u201D."); } else if (cs.isObscure()) {
+ encoding + "\u201D. It is recommended to use \u201CUTF-8\u201D."); } else if (cs.isLikelyEbcdic()) { tokenizer.warn("Authors should not use EBCDIC-based encodings. It is recommended to use \u201CUTF-8\u201D."); } else if (cs.isObscure()) {
+ encoding + "\u201D. It is recommended to use \u201CUTF-8\u201D."); } else if (cs.isLikelyEbcdic()) { tokenizer.warn("Authors should not use EBCDIC-based encodings. It is recommended to use \u201CUTF-8\u201D."); } else if (cs.isObscure()) {