/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Copyright by The HDF Group. * * Copyright by the Board of Trustees of the University of Illinois. * * All rights reserved. * * * * This file is part of HDF5. The full HDF5 copyright notice, including * * terms governing use, modification, and redistribution, is contained in * * the files COPYING and Copyright.html. COPYING can be found at the root * * of the source code distribution tree; Copyright.html can be found at the * * root level of an installed copy of the electronic HDF5 document set and * * is linked from the top-level documents page. It can also be found at * * http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have * * access to either file, you may request a copy from help@hdfgroup.org. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ /* Packet Table wrapper classes * * Wraps the H5PT Packet Table C functions in C++ objects * * Nat Furrer and James Laird * February 2004 */ /* High-level library internal header file */ #include "H5HLprivate2.h" #include "H5PacketTable.h" /********************************/ /* PacketTable superclass */ /********************************/ /* "Open" Constructor * Opens an existing packet table, which can contain either fixed-length or * variable-length packets. */ PacketTable::PacketTable(hid_t fileID, char* name) { table_id = H5PTopen( fileID, name); } /* Destructor * Cleans up the packet table */ PacketTable::~PacketTable() { H5PTclose( table_id); } /* IsValid * Returns true if this packet table is valid, false otherwise. * Use this after the constructor to ensure HDF did not have * any trouble making or opening the packet table. */ bool PacketTable::IsValid() { if (H5PTis_valid(table_id) == 0) return true; else return false; } #ifdef VLPT_REMOVED /* IsVariableLength * Return 1 if this packet table is a Variable Length packet table, * return 0 if it is Fixed Length. Returns -1 if the table is * invalid (not open). */ int PacketTable::IsVariableLength() { return H5PTis_varlen(table_id); } #endif /* VLPT_REMOVED */ /* ResetIndex * Sets the index to point to the first packet in the packet table */ void PacketTable::ResetIndex() { H5PTcreate_index(table_id); } /* SetIndex * Sets the index to point to the packet specified by index. * Returns 0 on success, negative on failure (if index is out of bounds) */ int PacketTable::SetIndex(hsize_t index) { return H5PTset_index(table_id, index); } /* SetIndex * Sets the index to point to the packet specified by index. * Returns 0 on success, negative on failure (if index is out of bounds) */ hsize_t PacketTable::GetIndex(int &error) { hsize_t index; error = H5PTget_index(table_id, &index); if(error < 0) return 0; else return index; } /* GetPacketCount * Returns the number of packets in the packet table. Error * is set to 0 on success. On failure, returns 0 and * error is set to negative. */ hsize_t PacketTable::GetPacketCount(int& error) { hsize_t npackets; error = H5PTget_num_packets( table_id, (hsize_t *)&npackets); return npackets; } /********************************/ /* Fixed-Length Packet Table */ /********************************/ /* Constructor * Creates a packet table in which to store fixed length packets. * Takes the ID of the file the packet table will be created in, the name of * the packet table, the ID of the datatype of the set, and the size * of a memory chunk used in chunking. */ FL_PacketTable::FL_PacketTable(hid_t fileID, char* name, hid_t dtypeID, hsize_t chunkSize, int compression) { table_id = H5PTcreate_fl ( fileID, name, dtypeID, chunkSize, compression); } /* "Open" Constructor * Opens an existing fixed-length packet table. * Fails if the packet table specified is variable-length. */ FL_PacketTable::FL_PacketTable(hid_t fileID, char* name) : PacketTable(fileID, name) { #ifdef VLPT_REMOVED if( H5PTis_varlen(table_id) != 0 ) // If this is not a fixed-length table { H5PTclose(table_id); table_id = -1; } #endif /* VLPT_REMOVED */ } /* AppendPacket * Adds a single packet to the packet table. Takes a pointer * to the location of the data in memory. * Returns 0 on success, negative on failure */ int FL_PacketTable::AppendPacket(void * data) { return H5PTappend(table_id, 1, data); } /* AppendPackets (multiple packets) * Adds multiple packets to the packet table. Takes the number of packets * to be added and a pointer to their location in memory. * Returns 0 on success, -1 on failure. */ int FL_PacketTable::AppendPackets(size_t numPackets, void * data) { return H5PTappend(table_id, numPackets, data); } /* GetPacket (indexed) * Gets a single packet from the packet table. Takes the index * of the packet (with 0 being the first packet) and a pointer * to memory where the data should be stored. * Returns 0 on success, negative on failure */ int FL_PacketTable::GetPacket(hsize_t index, void * data) { return H5PTread_packets(table_id, index, 1, data); } /* GetPackets (multiple packets) * Gets multiple packets at once, all packets between * startIndex and endIndex inclusive. Also takes a pointer to * the memory where these packets should be stored. * Returns 0 on success, negative on failure. */ int FL_PacketTable::GetPackets(hsize_t startIndex, hsize_t endIndex, void * data) { // Make sure the range of indexes is valid if (startIndex > endIndex) return -1; return H5PTread_packets(table_id, startIndex, (size_t)(endIndex-startIndex+1), data); } /* GetNextPacket (single packet) * Gets the next packet in the packet table. Takes a pointer to * memory where the packet should be stored. * Returns 0 on success, negative on failure. Index * is not advanced to the next packet on failure. */ int FL_PacketTable::GetNextPacket(void * data) { return H5PTget_next(table_id, 1, data); } /* GetNextPackets (multiple packets) * Gets the next numPackets packets in the packet table. Takes a * pointer to memory where these packets should be stored. * Returns 0 on success, negative on failure. Index * is not advanced on failure. */ int FL_PacketTable::GetNextPackets(size_t numPackets, void * data) { return H5PTget_next(table_id, numPackets, data); } #ifdef VLPT_REMOVED /********************************/ /* Variable-Length Packet Table */ /********************************/ /* Constructor * Creates a packet table in which to store variable length packets. * Takes the ID of the file the packet table will be created in, the name of * the packet table, and the size of a memory chunk used in chunking. */ VL_PacketTable::VL_PacketTable(hid_t fileID, char* name, hsize_t chunkSize) { table_id = H5PTcreate_vl ( fileID, name, chunkSize); } /* "Open" Constructor * Opens an existing variable-length packet table. * Fails if the packet table specified is fixed-length. */ VL_PacketTable::VL_PacketTable(hid_t fileID, char* name) : PacketTable(fileID, name) { if( H5PTis_varlen(table_id) != 1 ) // If this is not a variable-length table { H5PTclose(table_id); table_id = -1; } } /* AppendPacket (variable-length) * Adds a single variable-length packet to the packet table. * Takes a pointer to the location of the data in memory and the length of the data * in bytes. * Returns 0 on success, negative on failure. */ int VL_PacketTable::AppendPacket(void * data, size_t length) { hvl_t packet; packet.len = length; packet.p = data; return H5PTappend(table_id, 1, &packet); } /* AppendPackets (multiple packets) * Adds multiple variable-length packets to the packet table. Takes the * number of * packets to be added and a pointer to an array of hvl_t structs in memory. * Returns 0 on success, negative on failure. */ int VL_PacketTable::AppendPackets(size_t numPackets, hvl_t * data) { return H5PTappend(table_id, numPackets, data); } /* GetPacket (indexed) * Gets a single variable-length packet from the packet table. Takes the * index of the packet (with 0 being the first packet) and a pointer * to a hvl_t struct in which to store the packet's size and location. * Returns 0 on success, negative on failure. */ int VL_PacketTable::GetPacket(hsize_t index, hvl_t * data) { return H5PTread_packets(table_id, index, 1, data); } /* GetPackets (multiple packets) * Gets multiple variable-length packets at once, all packets between * startIndex and endIndex inclusive. Takes a pointer to an array * of hvl_t structs in memory in which to store pointers to the packets. * Returns 0 on success, negative on failure. */ int VL_PacketTable::GetPackets(hsize_t startIndex, hsize_t endIndex, hvl_t * data) { // Make sure the range of indexes is valid if (startIndex > endIndex) return -1; return H5PTread_packets(table_id, startIndex, endIndex-startIndex+1, data); } /* GetNextPacket (single packet) * Gets the next packet in the packet table. Takes a pointer to * an hvl_t struct where the packet should be stored. * Returns 0 on success, negative on failure. Index * is not advanced to the next packet on failure. */ int VL_PacketTable::GetNextPacket(hvl_t * data) { return H5PTget_next(table_id, 1, data); } /* GetNextPackets (multiple packets) * Gets the next numPackets packets in the packet table. Takes a * pointer to an array of hvl_t structs where pointers to the packets * should be stored. * Returns 0 on success, negative on failure. Index * is not advanced on failure. */ int VL_PacketTable::GetNextPackets(size_t numPackets, hvl_t * data) { return H5PTget_next(table_id, numPackets, data); } /* FreeReadbuff * Frees the buffers created when variable-length packets are read. * Takes the number of hvl_t structs to be freed and a pointer to their * location in memory. * Returns 0 on success, negative on error. */ int VL_PacketTable::FreeReadbuff(size_t numStructs, hvl_t * buffer) { return H5PTfree_vlen_readbuff( table_id, numStructs, buffer); } #endif /* VLPT_REMOVED */