public int readUByte() { checkAvaliable(1); int result = _currentBlock.readUByte(); _current_offset++; if (_currentBlock.available() < 1) { _currentBlock = getDataInputBlock(_current_offset); } return result; }
public int read() throws IOException { dieIfClosed(); if (atEOD()) { return EOF; } int result = _currentBlock.readUByte(); _current_offset++; if (_currentBlock.available() < 1) { _currentBlock = getDataInputBlock(_current_offset); } return result; }
/** * read data from the internal stores * * @param buffer the buffer to write to * @param offset the offset into our storage to read from This method is currently (Oct 2008) only * used by test code. Perhaps it can be deleted */ void read(byte[] buffer, int offset) { int len = buffer.length; DataInputBlock currentBlock = getDataInputBlock(offset); int blockAvailable = currentBlock.available(); if (blockAvailable > len) { currentBlock.readFully(buffer, 0, len); return; } // else read big amount in chunks int remaining = len; int writePos = 0; int currentOffset = offset; while (remaining > 0) { boolean blockIsExpiring = remaining >= blockAvailable; int reqSize; if (blockIsExpiring) { reqSize = blockAvailable; } else { reqSize = remaining; } currentBlock.readFully(buffer, writePos, reqSize); remaining -= reqSize; writePos += reqSize; currentOffset += reqSize; if (blockIsExpiring) { if (currentOffset == _size) { if (remaining > 0) { throw new IllegalStateException("reached end of document stream unexpectedly"); } currentBlock = null; break; } currentBlock = getDataInputBlock(currentOffset); blockAvailable = currentBlock.available(); } } }
public void readFully(byte[] buf, int off, int len) { checkAvaliable(len); int blockAvailable = _currentBlock.available(); if (blockAvailable > len) { _currentBlock.readFully(buf, off, len); _current_offset += len; return; } // else read big amount in chunks int remaining = len; int writePos = off; while (remaining > 0) { boolean blockIsExpiring = remaining >= blockAvailable; int reqSize; if (blockIsExpiring) { reqSize = blockAvailable; } else { reqSize = remaining; } _currentBlock.readFully(buf, writePos, reqSize); remaining -= reqSize; writePos += reqSize; _current_offset += reqSize; if (blockIsExpiring) { if (_current_offset == _document_size) { if (remaining > 0) { throw new IllegalStateException("reached end of document stream unexpectedly"); } _currentBlock = null; break; } _currentBlock = getDataInputBlock(_current_offset); blockAvailable = _currentBlock.available(); } } }
public int readUShort() { checkAvaliable(SIZE_SHORT); int blockAvailable = _currentBlock.available(); int result; if (blockAvailable > SIZE_SHORT) { result = _currentBlock.readUShortLE(); } else { DataInputBlock nextBlock = getDataInputBlock(_current_offset + blockAvailable); if (blockAvailable == SIZE_SHORT) { result = _currentBlock.readUShortLE(); } else { result = nextBlock.readUShortLE(_currentBlock); } _currentBlock = nextBlock; } _current_offset += SIZE_SHORT; return result; }
public long readLong() { checkAvaliable(SIZE_LONG); int blockAvailable = _currentBlock.available(); long result; if (blockAvailable > SIZE_LONG) { result = _currentBlock.readLongLE(); } else { DataInputBlock nextBlock = getDataInputBlock(_current_offset + blockAvailable); if (blockAvailable == SIZE_LONG) { result = _currentBlock.readLongLE(); } else { result = nextBlock.readLongLE(_currentBlock, blockAvailable); } _currentBlock = nextBlock; } _current_offset += SIZE_LONG; return result; }