public void serialize(LittleEndianOutput out) { int nItems = _list.size(); out.writeShort(nItems); for (int k = 0; k < nItems; k++) { CellRangeAddress region = _list.get(k); region.serialize(out); } }
@Override public void serialize(LittleEndianOutput out) { out.writeShort(_numberOfRegions); for (int i = 0; i < _numberOfRegions; i++) { _regions[_startIndex + i].serialize(out); } }
public void serialize(LittleEndianOutput out) { out.writeShort(recordType); out.writeShort(grbitFrt); associatedRange.serialize(out); }
public void serialize(LittleEndianOutput out) { out.writeShort(field_1_numcf); out.writeShort(field_2_need_recalculation_and_id); field_3_enclosing_cell_range.serialize(out); field_4_cell_ranges.serialize(out); }
public void serialize(LittleEndianOutput out) { futureHeader.serialize(out); out.writeShort(isf_sharedFeatureType); out.writeByte(reserved1); out.writeInt((int)reserved2); out.writeShort(cellRefs.length); out.writeInt((int)cbFeatData); out.writeShort(reserved3); for(int i=0; i<cellRefs.length; i++) { cellRefs[i].serialize(out); } sharedFeature.serialize(out); }
@Override public void serialize(LittleEndianOutput out) { _range.serialize(out);
public void serialize(LittleEndianOutput out) { int nItems = _numberOfRegions; out.writeShort(nItems); for (int i = 0; i < _numberOfRegions; i++) { _regions[_startIndex + i].serialize(out); } }
public void serialize(LittleEndianOutput out) { int nItems = _numberOfRegions; out.writeShort(nItems); for (int i = 0; i < _numberOfRegions; i++) { _regions[_startIndex + i].serialize(out); } }
public void serialize(LittleEndianOutput out) { int nItems = _list.size(); out.writeShort(nItems); for (int k = 0; k < nItems; k++) { CellRangeAddress region = _list.get(k); region.serialize(out); } }
public void serialize(LittleEndianOutput out) { int nItems = _list.size(); out.writeShort(nItems); for (int k = 0; k < nItems; k++) { CellRangeAddress region = (CellRangeAddress) _list.get(k); region.serialize(out); } }
@Override public void serialize(LittleEndianOutput out) { out.writeShort(_numberOfRegions); for (int i = 0; i < _numberOfRegions; i++) { _regions[_startIndex + i].serialize(out); } }
/** * @deprecated use {@link #serialize(LittleEndianOutput)} */ public int serialize(int offset, byte[] data) { serialize(new LittleEndianByteArrayOutputStream(data, offset, ENCODED_SIZE)); return ENCODED_SIZE; } public void serialize(LittleEndianOutput out) {
/** * @deprecated use {@link #serialize(LittleEndianOutput)} */ public int serialize(int offset, byte[] data) { serialize(new LittleEndianByteArrayOutputStream(data, offset, ENCODED_SIZE)); return ENCODED_SIZE; } public void serialize(LittleEndianOutput out) {
public void serialize(LittleEndianOutput out) { int nItems = _list.size(); out.writeShort(nItems); for (int k = 0; k < nItems; k++) { CellRangeAddress region = (CellRangeAddress) _list.get(k); region.serialize(out); } }
public void serialize(LittleEndianOutput out) { out.writeShort(recordType); out.writeShort(grbitFrt); associatedRange.serialize(out); }
public void serialize(LittleEndianOutput out) { out.writeShort(field_1_numcf); out.writeShort(field_2_need_recalculation_and_id); field_3_enclosing_cell_range.serialize(out); field_4_cell_ranges.serialize(out); }
public void serialize(LittleEndianOutput out) { out.writeShort(field_1_numcf); out.writeShort(field_2_need_recalculation); field_3_enclosing_cell_range.serialize(out); field_4_cell_ranges.serialize(out); }
public void serialize(LittleEndianOutput out) { out.writeShort(field_1_numcf); out.writeShort(field_2_need_recalculation); field_3_enclosing_cell_range.serialize(out); field_4_cell_ranges.serialize(out); }
public void serialize(LittleEndianOutput out) { futureHeader.serialize(out); out.writeShort(isf_sharedFeatureType); out.writeByte(reserved1); out.writeInt((int)reserved2); out.writeShort(cellRefs.length); out.writeInt((int)cbFeatData); out.writeShort(reserved3); for(int i=0; i<cellRefs.length; i++) { cellRefs[i].serialize(out); } sharedFeature.serialize(out); }
public void serialize(LittleEndianOutput out) { futureHeader.serialize(out); out.writeShort(isf_sharedFeatureType); out.writeByte(reserved1); out.writeInt((int)reserved2); out.writeShort(cellRefs.length); out.writeInt((int)cbFeatData); out.writeShort(reserved3); for(int i=0; i<cellRefs.length; i++) { cellRefs[i].serialize(out); } sharedFeature.serialize(out); }