@Nullable public InputRow parse(@Nullable String input) { return parseMap(parseString(input)); }
private Map<String, Object> buildStringKeyMap(ByteBuffer input) { int payloadSize = input.remaining(); if (chars == null || chars.remaining() < payloadSize) { chars = CharBuffer.allocate(payloadSize); } final CoderResult coderResult = charset.newDecoder() .onMalformedInput(CodingErrorAction.REPLACE) .onUnmappableCharacter(CodingErrorAction.REPLACE) .decode(input, chars, true); Map<String, Object> theMap; if (coderResult.isUnderflow()) { chars.flip(); try { theMap = parseString(chars.toString()); } finally { chars.clear(); } } else { throw new ParseException("Failed with CoderResult[%s]", coderResult); } return theMap; }
@Nullable public InputRow parse(@Nullable String input) { return parseMap(parseString(input)); }
private Map<String, Object> buildStringKeyMap(ByteBuffer input) { int payloadSize = input.remaining(); if (chars == null || chars.remaining() < payloadSize) { chars = CharBuffer.allocate(payloadSize); } final CoderResult coderResult = charset.newDecoder() .onMalformedInput(CodingErrorAction.REPLACE) .onUnmappableCharacter(CodingErrorAction.REPLACE) .decode(input, chars, true); Map<String, Object> theMap; if (coderResult.isUnderflow()) { chars.flip(); try { theMap = parseString(chars.toString()); } finally { chars.clear(); } } else { throw new ParseException("Failed with CoderResult[%s]", coderResult); } return theMap; }