void
TilesNotice::load( SharedBuffer& buf )
{
// Offset.
m_offset = buf.readNextBALong();
// start lat
m_startLatIdx = buf.readNextBALong();
// end lat
m_endLatIdx = buf.readNextBALong();
// start lon
m_startLonIdx = buf.readNextBALong();
// end lon
m_endLonIdx = buf.readNextBALong();
// Size of m_impRange.
m_nbrLayers = buf.readNextBAShort();
MC2_ASSERT( m_nbrLayers > 0 );
delete [] m_impRange;
m_impRange = new impRange_t[ m_nbrLayers ];
for ( uint32 i = 0; i < m_nbrLayers; ++i ) {
m_impRange[ i ].m_layerID = buf.readNextBAShort();
m_impRange[ i ].m_firstImp = buf.readNextBALong();
m_impRange[ i ].m_lastImp = buf.readNextBALong();
}
}
uint32
TileCollectionNotice::load( SharedBuffer& buf )
{
// Load the m_indexByLayerID map.
uint32 size = buf.readNextBAShort();
{for ( uint32 i = 0; i < size; ++i ) {
// Layer ID.
int layerID = buf.readNextBAShort();
// Index.
int index = buf.readNextBAShort();
m_indexByLayerID[ layerID ] = index;
}}
// Size of m_tilesForAllDetails.
size = buf.readNextBAShort();
m_tilesForAllDetails.reserve( size );
// Load all the TilesForAllDetailsNotices.
{for ( uint32 i = 0; i < size; ++i ) {
TilesForAllDetailsNotice notice;
notice.load( buf );
m_tilesForAllDetails.push_back( notice );
}}
return buf.getCurrentOffset();
}
void
TilesForAllDetailsNotice::load( SharedBuffer& buf )
{
// Start detail.
m_startDetail = buf.readNextBAShort();
// The notices.
uint32 size = buf.readNextBAShort();
m_tilesNotice.reserve( size );
for ( uint32 i = 0; i < size; ++i ) {
TilesNotice notice;
notice.load( buf );
m_tilesNotice.push_back( notice );
}
}
void
SFDLoadableHeader::loadRemainingHeader( SharedBuffer& buf )
{
// File size.
m_fileSize = buf.readNextBALong();
// The name.
m_name = buf.readNextString();
mc2dbg << "[SFDLH] m_name = " << m_name << endl;
// Check the file size.
if ( m_fileHandler->getFileSize() != m_fileSize ) {
m_state = failed_to_load;
m_nbrBytesToRead = 0;
innerLoad();
return;
}
// Creation time.
m_creationTime = buf.readNextBALong();
// Null terminated strings?
m_stringsAreNullTerminated = buf.readNextBAByte();
// Longest length of string.
m_maxStringSize = buf.readNextBAByte();
// Nbr initial chars.
byte nbrInitialChars = buf.readNextBAByte();
m_initialCharacters.resize( nbrInitialChars );
// Initial chars.
{for ( byte b = 0; b < nbrInitialChars; ++b ) {
m_initialCharacters[ b ] = buf.readNextBAByte();
}}
// Nbr route ids.
byte nbrRouteIDs = buf.readNextBAByte();
m_routeIDs.reserve( nbrRouteIDs );
{for ( byte b = 0; b < nbrRouteIDs; ++b ) {
uint32 id = buf.readNextBALong();
uint32 creationTime = buf.readNextBALong();
m_routeIDs.push_back( RouteID( id, creationTime ) );
}}
// Number of bits for the string index.
m_strIdxEntrySizeBits = buf.readNextBALong();
// Position for the start of strings index.
m_strIdxStartOffset = buf.readNextBALong();
// Number strings.
m_nbrStrings = buf.readNextBALong();
// Position for the start of string data.
m_strDataStartOffset = buf.readNextBALong();
// Position for the start of the buffers index.
m_bufferIdxStartOffset = buf.readNextBALong();
// Position for the start of the buffer data.
m_bufferDataStartOffset = buf.readNextBALong();
// If to read debug param strings for the multi buffers.
m_readDebugParams = buf.readNextBAByte();
// The tile collections.
uint32 nbrCollections = buf.readNextBAShort();
m_tileCollection.resize( nbrCollections );
{for ( uint32 i = 0; i < nbrCollections; ++i ) {
m_tileCollection[ i ].load( buf );
}}
// All is now loaded.
m_state = loaded_all_header;
m_nbrBytesToRead = 0;
innerLoad();
}