protected void serializeText(StringBuffer buf, String text) { buf.append("\t\""); if ( text==null ) { text = ""; } // escape \n and \r all text for token appears to exist on one line // this escape is slow but easy to understand text = escapeNewlines(text); buf.append(text); }
protected void serializeText(StringBuffer buf, String text) { buf.append("\t\""); if ( text==null ) { text = ""; } // escape \n and \r all text for token appears to exist on one line // this escape is slow but easy to understand text = escapeNewlines(text); buf.append(text); }
protected void serializeText(StringBuffer buf, String text) { buf.append("\t\""); if ( text==null ) { text = ""; } // escape \n and \r all text for token appears to exist on one line // this escape is slow but easy to understand text = escapeNewlines(text); buf.append(text); }
protected void serializeText(StringBuffer buf, String text) { buf.append("\t\""); if ( text==null ) { text = ""; } // escape \n and \r all text for token appears to exist on one line // this escape is slow but easy to understand text = escapeNewlines(text); buf.append(text); }
protected void serializeText(StringBuffer buf, String text) { buf.append("\t\""); if ( text==null ) { text = ""; } // escape \n and \r all text for token appears to exist on one line // this escape is slow but easy to understand text = escapeNewlines(text); buf.append(text); }
protected void serializeText(StringBuffer buf, String text) { buf.append("\t\""); if ( text==null ) { text = ""; } // escape \n and \r all text for token appears to exist on one line // this escape is slow but easy to understand text = escapeNewlines(text); buf.append(text); }