finalizeConverter(c); state = DOT_STATE; else { finalizeConverter(c); formattingInfo.max = formattingInfo.max*10 + (c - '0'); else { finalizeConverter(c); state = LITERAL_STATE;
finalizeConverter(c); state = DOT_STATE; else { finalizeConverter(c); formattingInfo.max = formattingInfo.max*10 + (c - '0'); else { finalizeConverter(c); state = LITERAL_STATE;
state = MIN_STATE; } else { finalizeConverter(c); state = DOT_STATE; } else { finalizeConverter(c); formattingInfo.max = formattingInfo.max*10 + (c - '0'); } else { finalizeConverter(c); state = LITERAL_STATE;
protected void finalizeConverter(char c) { if (contextCharList.contains(Character.valueOf(c))) { PatternConverter pc = new NFPatternConverter(formattingInfo, c); addConverter(pc); currentLiteral.setLength(0); } else { super.finalizeConverter(c); } }
@Override protected void finalizeConverter(char c) { PatternConverter pc; switch (c) { case 'm': pc = new PatternConverter(formattingInfo) { @Override protected String convert(LoggingEvent event) { return sanitize(event.getRenderedMessage()); } }; currentLiteral.setLength(0); addConverter(pc); break; default: super.finalizeConverter(c); break; } } };
@Override protected void finalizeConverter(char c) { PatternConverter pc; switch (c) { case 'm': pc = new PatternConverter(formattingInfo) { @Override protected String convert(LoggingEvent event) { return sanitize(event.getRenderedMessage()); } }; currentLiteral.setLength(0); addConverter(pc); break; default: super.finalizeConverter(c); break; } } };
protected void finalizeConverter(char c) { switch (c) { case RECEIPT_CHAR: currentLiteral.setLength(0); addConverter(receiptConverter); break; case HOST_NAME: currentLiteral.setLength(0); addConverter(hostnameConverter); break; default: super.finalizeConverter(c); } } }
@Override protected void finalizeConverter(char c) { if ('T' == c) { addConverter(new TraceIdPatternConverter()); } else { super.finalizeConverter(c); } } }
/** * This method is called on each pattern converter character while the PatternParser superclass * is parsing the pattern. If the character is for a custom converter handled by this * PatternParser subclass, this class adds the appropriate converter to a LinkedList of * converters. If not, it allows the superclass to handle the converter character. * * @see org.apache.log4j.helpers.PatternParser#finalizeConverter(char) */ public void finalizeConverter(char formatChar) { PatternConverter pc = null; switch (formatChar) { case HOST_NAME: pc = HostInfoPatternParser.converters.get(String.valueOf(HOST_NAME)); currentLiteral.setLength(0); addConverter(pc); break; case VM_NAME: pc = HostInfoPatternParser.converters.get(String.valueOf(VM_NAME)); currentLiteral.setLength(0); addConverter(pc); break; case IP_ADDRESS: pc = HostInfoPatternParser.converters.get(String.valueOf(IP_ADDRESS)); currentLiteral.setLength(0); addConverter(pc); break; default: super.finalizeConverter(formatChar); } }
/** * This method is called on each pattern converter character while the PatternParser superclass * is parsing the pattern. If the character is for a custom converter handled by this * PatternParser subclass, this class adds the appropriate converter to a LinkedList of * converters. If not, it allows the superclass to handle the converter character. * * @see org.apache.log4j.helpers.PatternParser#finalizeConverter(char) */ public void finalizeConverter(char formatChar) { PatternConverter pc = null; switch (formatChar) { case HOST_NAME: pc = HostInfoPatternParser.converters.get(String.valueOf(HOST_NAME)); currentLiteral.setLength(0); addConverter(pc); break; case VM_NAME: pc = HostInfoPatternParser.converters.get(String.valueOf(VM_NAME)); currentLiteral.setLength(0); addConverter(pc); break; case IP_ADDRESS: pc = HostInfoPatternParser.converters.get(String.valueOf(IP_ADDRESS)); currentLiteral.setLength(0); addConverter(pc); break; default: super.finalizeConverter(formatChar); } }
finalizeConverter(c); state = DOT_STATE; else { finalizeConverter(c); formattingInfo.max = formattingInfo.max*10 + (c - '0'); else { finalizeConverter(c); state = LITERAL_STATE;
finalizeConverter(c); state = DOT_STATE; else { finalizeConverter(c); formattingInfo.max = formattingInfo.max*10 + (c - '0'); else { finalizeConverter(c); state = LITERAL_STATE;
protected void finalizeConverter(char c) { PatternConverter pc = null; switch(c) { case 'z': pc = new ThreadNDCConverter(formattingInfo); currentLiteral.setLength(0); break; case 'Z': String key = extractOption(); pc = new ThreadMDCConverter(formattingInfo, key); currentLiteral.setLength(0); break; default: super.finalizeConverter(c); return; } addConverter(pc); } }
finalizeConverter(c); state = DOT_STATE; else { finalizeConverter(c); formattingInfo.max = formattingInfo.max*10 + (c - '0'); else { finalizeConverter(c); state = LITERAL_STATE;
finalizeConverter(c); state = DOT_STATE; else { finalizeConverter(c); formattingInfo.max = formattingInfo.max*10 + (c - '0'); else { finalizeConverter(c); state = LITERAL_STATE;
finalizeConverter(c); state = DOT_STATE; else { finalizeConverter(c); formattingInfo.max = formattingInfo.max*10 + (c - '0'); else { finalizeConverter(c); state = LITERAL_STATE;
finalizeConverter(c); state = DOT_STATE; else { finalizeConverter(c); formattingInfo.max = formattingInfo.max*10 + (c - '0'); else { finalizeConverter(c); state = LITERAL_STATE;
finalizeConverter(c); state = DOT_STATE; else { finalizeConverter(c); formattingInfo.max = formattingInfo.max*10 + (c - '0'); else { finalizeConverter(c); state = LITERAL_STATE;
@Override protected void finalizeConverter(char c) { switch (c) { case 'P': addConverter(new ProcessInfoConverter()); break; case 'E': addConverter(new EntityInfoConverter(false)); break; case 'e': addConverter(new EntityInfoConverter(true)); break; default: super.finalizeConverter(c); } }
@Override protected void finalizeConverter(char c) { switch (c) { case 'P': addConverter(new ProcessInfoConverter()); break; case 'E': addConverter(new EntityInfoConverter(false)); break; case 'e': addConverter(new EntityInfoConverter(true)); break; default: super.finalizeConverter(c); } }