/********************************************************************** * * Name: mitab_mapobjectblock.cpp * Project: MapInfo TAB Read/Write library * Language: C++ * Purpose: Implementation of the TABMAPObjectBlock class used to handle * reading/writing of the .MAP files' object data blocks * Author: Daniel Morissette, dmorissette@dmsolutions.ca * ********************************************************************** * Copyright (c) 1999-2001, Daniel Morissette * Copyright (c) 2014, Even Rouault * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. **********************************************************************/ #include "cpl_port.h" #include "mitab.h" #include #include #include #include "cpl_conv.h" #include "cpl_error.h" #include "cpl_vsi.h" #include "mitab_priv.h" #include "mitab_utils.h" CPL_CVSID("$Id: mitab_mapobjectblock.cpp fd5a52b3fb25239d417f2daed64aa6f8cbe38da9 2018-09-17 14:19:33 +0200 Even Rouault $") /*===================================================================== * class TABMAPObjectBlock *====================================================================*/ constexpr int MAP_OBJECT_HEADER_SIZE = 20; /********************************************************************** * TABMAPObjectBlock::TABMAPObjectBlock() * * Constructor. **********************************************************************/ TABMAPObjectBlock::TABMAPObjectBlock( TABAccess eAccessMode /*= TABRead*/ ) : TABRawBinBlock(eAccessMode, TRUE), m_numDataBytes(0), m_nFirstCoordBlock(0), m_nLastCoordBlock(0), m_nCenterX(0), m_nCenterY(0), m_nMinX(0), m_nMinY(0), m_nMaxX(0), m_nMaxY(0), m_nCurObjectOffset(0), m_nCurObjectId(0), m_nCurObjectType(TAB_GEOM_UNSET), m_bLockCenter(FALSE) {} /********************************************************************** * TABMAPObjectBlock::~TABMAPObjectBlock() * * Destructor. **********************************************************************/ TABMAPObjectBlock::~TABMAPObjectBlock() { // TODO(schwehr): Why set these? Should remove. m_nMinX = 1000000000; m_nMinY = 1000000000; m_nMaxX = -1000000000; m_nMaxY = -1000000000; } /********************************************************************** * TABMAPObjectBlock::InitBlockFromData() * * Perform some initialization on the block after its binary data has * been set or changed (or loaded from a file). * * Returns 0 if successful or -1 if an error happened, in which case * CPLError() will have been called. **********************************************************************/ int TABMAPObjectBlock::InitBlockFromData(GByte *pabyBuf, int nBlockSize, int nSizeUsed, GBool bMakeCopy /* = TRUE */, VSILFILE *fpSrc /* = NULL */, int nOffset /* = 0 */) { /*----------------------------------------------------------------- * First of all, we must call the base class' InitBlockFromData() *----------------------------------------------------------------*/ const int nStatus = TABRawBinBlock::InitBlockFromData(pabyBuf, nBlockSize, nSizeUsed, bMakeCopy, fpSrc, nOffset); if (nStatus != 0) return nStatus; /*----------------------------------------------------------------- * Validate block type *----------------------------------------------------------------*/ if (m_nBlockType != TABMAP_OBJECT_BLOCK) { CPLError(CE_Failure, CPLE_FileIO, "InitBlockFromData(): Invalid Block Type: got %d expected %d", m_nBlockType, TABMAP_OBJECT_BLOCK); CPLFree(m_pabyBuf); m_pabyBuf = nullptr; return -1; } /*----------------------------------------------------------------- * Init member variables *----------------------------------------------------------------*/ GotoByteInBlock(0x002); m_numDataBytes = ReadInt16(); /* Excluding 4 bytes header */ if( m_numDataBytes < 0 || m_numDataBytes + MAP_OBJECT_HEADER_SIZE > nBlockSize ) { CPLError(CE_Failure, CPLE_FileIO, "TABMAPObjectBlock::InitBlockFromData(): m_numDataBytes=%d incompatible with block size %d", m_numDataBytes, nBlockSize); CPLFree(m_pabyBuf); m_pabyBuf = nullptr; return -1; } m_nCenterX = ReadInt32(); m_nCenterY = ReadInt32(); m_nFirstCoordBlock = ReadInt32(); m_nLastCoordBlock = ReadInt32(); m_nCurObjectOffset = -1; m_nCurObjectId = -1; m_nCurObjectType = TAB_GEOM_UNSET; m_nMinX = 1000000000; m_nMinY = 1000000000; m_nMaxX = -1000000000; m_nMaxY = -1000000000; m_bLockCenter = FALSE; /*----------------------------------------------------------------- * Set real value for m_nSizeUsed to allow random update * (By default TABRawBinBlock thinks all bytes are used) *----------------------------------------------------------------*/ m_nSizeUsed = m_numDataBytes + MAP_OBJECT_HEADER_SIZE; return 0; } /************************************************************************ * ClearObjects() * * Cleans existing objects from the block. This method is used when * compacting a page that has deleted records. ************************************************************************/ void TABMAPObjectBlock::ClearObjects() { GotoByteInBlock(MAP_OBJECT_HEADER_SIZE); WriteZeros(m_nBlockSize - MAP_OBJECT_HEADER_SIZE); GotoByteInBlock(MAP_OBJECT_HEADER_SIZE); m_nSizeUsed = MAP_OBJECT_HEADER_SIZE; m_bModified = TRUE; } /************************************************************************ * LockCenter() * * Prevents the m_nCenterX and m_nCenterY to be adjusted by other methods. * Useful when editing pages that have compressed geometries. * This is a bit band-aid. Proper support of compressed geometries should * handle center moves. ************************************************************************/ void TABMAPObjectBlock::LockCenter() { m_bLockCenter = TRUE; } /************************************************************************ * SetCenterFromOtherBlock() * * Sets the m_nCenterX and m_nCenterY from the one of another block and * lock them. See LockCenter() as well. * Used when splitting a page. ************************************************************************/ void TABMAPObjectBlock::SetCenterFromOtherBlock(TABMAPObjectBlock* poOtherObjBlock) { m_nCenterX = poOtherObjBlock->m_nCenterX; m_nCenterY = poOtherObjBlock->m_nCenterY; LockCenter(); } /************************************************************************/ /* Rewind() */ /************************************************************************/ void TABMAPObjectBlock::Rewind( ) { m_nCurObjectId = -1; m_nCurObjectOffset = -1; m_nCurObjectType = TAB_GEOM_UNSET; } /************************************************************************/ /* AdvanceToNextObject() */ /************************************************************************/ int TABMAPObjectBlock::AdvanceToNextObject( TABMAPHeaderBlock *poHeader ) { if( m_nCurObjectId == -1 ) { m_nCurObjectOffset = 20; } else { m_nCurObjectOffset += poHeader->GetMapObjectSize( m_nCurObjectType ); } if( m_nCurObjectOffset + 5 < m_numDataBytes + 20 ) { GotoByteInBlock( m_nCurObjectOffset ); m_nCurObjectType = static_cast(ReadByte()); } else { m_nCurObjectType = TAB_GEOM_UNSET; } if( m_nCurObjectType <= 0 || m_nCurObjectType >= TAB_GEOM_MAX_TYPE ) { m_nCurObjectType = TAB_GEOM_UNSET; m_nCurObjectId = -1; m_nCurObjectOffset = -1; } else { m_nCurObjectId = ReadInt32(); // Is this object marked as deleted? If so, skip it. // I check both the top bits but I have only seen this occur // with the second highest bit set (i.e. in usa/states.tab). NFW. if( (static_cast(m_nCurObjectId) & 0xC0000000U) != 0 ) { m_nCurObjectId = AdvanceToNextObject( poHeader ); } } return m_nCurObjectId; } /********************************************************************** * TABMAPObjectBlock::CommitToFile() * * Commit the current state of the binary block to the file to which * it has been previously attached. * * This method makes sure all values are properly set in the map object * block header and then calls TABRawBinBlock::CommitToFile() to do * the actual writing to disk. * * Returns 0 if successful or -1 if an error happened, in which case * CPLError() will have been called. **********************************************************************/ int TABMAPObjectBlock::CommitToFile() { if ( m_pabyBuf == nullptr ) { CPLError(CE_Failure, CPLE_AssertionFailed, "TABMAPObjectBlock::CommitToFile(): Block has not been initialized yet!"); return -1; } /*----------------------------------------------------------------- * Nothing to do here if block has not been modified *----------------------------------------------------------------*/ if (!m_bModified) return 0; /*----------------------------------------------------------------- * Make sure 20 bytes block header is up to date. *----------------------------------------------------------------*/ GotoByteInBlock(0x000); WriteInt16(TABMAP_OBJECT_BLOCK); // Block type code m_numDataBytes = m_nSizeUsed - MAP_OBJECT_HEADER_SIZE; CPLAssert(m_numDataBytes >= 0 && m_numDataBytes < 32768); WriteInt16(static_cast(m_numDataBytes)); // num. bytes used WriteInt32(m_nCenterX); WriteInt32(m_nCenterY); WriteInt32(m_nFirstCoordBlock); WriteInt32(m_nLastCoordBlock); int nStatus = CPLGetLastErrorType() == CE_Failure ? -1 : 0; /*----------------------------------------------------------------- * OK, all object data has already been written in the block. * Call the base class to write the block to disk. *----------------------------------------------------------------*/ if (nStatus == 0) { #ifdef DEBUG_VERBOSE CPLDebug("MITAB", "Committing OBJECT block to offset %d", m_nFileOffset); #endif nStatus = TABRawBinBlock::CommitToFile(); } return nStatus; } /********************************************************************** * TABMAPObjectBlock::InitNewBlock() * * Initialize a newly created block so that it knows to which file it * is attached, its block size, etc . and then perform any specific * initialization for this block type, including writing a default * block header, etc. and leave the block ready to receive data. * * This is an alternative to calling ReadFromFile() or InitBlockFromData() * that puts the block in a stable state without loading any initial * data in it. * * Returns 0 if successful or -1 if an error happened, in which case * CPLError() will have been called. **********************************************************************/ int TABMAPObjectBlock::InitNewBlock( VSILFILE *fpSrc, int nBlockSize, int nFileOffset /* = 0*/ ) { /*----------------------------------------------------------------- * Start with the default initialization *----------------------------------------------------------------*/ if ( TABRawBinBlock::InitNewBlock(fpSrc, nBlockSize, nFileOffset) != 0) return -1; /*----------------------------------------------------------------- * And then set default values for the block header. *----------------------------------------------------------------*/ // Set block MBR to extreme values to force an update on the first // UpdateMBR() call. m_nMinX = 1000000000; m_nMaxX = -1000000000; m_nMinY = 1000000000; m_nMaxY = -1000000000; // Reset current object refs m_nCurObjectId = -1; m_nCurObjectOffset = -1; m_nCurObjectType = TAB_GEOM_UNSET; m_numDataBytes = 0; /* Data size excluding header */ m_nCenterX = 0; m_nCenterY = 0; m_nFirstCoordBlock = 0; m_nLastCoordBlock = 0; if (m_eAccess != TABRead && nFileOffset != 0) { GotoByteInBlock(0x000); WriteInt16(TABMAP_OBJECT_BLOCK);// Block type code WriteInt16(0); // num. bytes used, excluding header // MBR center here... will be written in CommitToFile() WriteInt32(0); WriteInt32(0); // First/last coord block ref... will be written in CommitToFile() WriteInt32(0); WriteInt32(0); } if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjectBlock::ReadCoord() * * Read the next pair of integer coordinates value from the block, and * apply the translation relative to to the center of the data block * if bCompressed=TRUE. * * This means that the returned coordinates are always absolute integer * coordinates, even when the source coords are in compressed form. * * Returns 0 if successful or -1 if an error happened, in which case * CPLError() will have been called. **********************************************************************/ int TABMAPObjectBlock::ReadIntCoord(GBool bCompressed, GInt32 &nX, GInt32 &nY) { if (bCompressed) { nX = ReadInt16(); nY = ReadInt16(); TABSaturatedAdd(nX, m_nCenterX); TABSaturatedAdd(nY, m_nCenterY); } else { nX = ReadInt32(); nY = ReadInt32(); } if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjectBlock::WriteIntCoord() * * Write a pair of integer coordinates values to the current position in the * the block. If bCompr=TRUE then the coordinates are written relative to * the object block center... otherwise they're written as 32 bits int. * * This function does not maintain the block's MBR and center... it is * assumed to have been set before the first call to WriteIntCoord() * * Returns 0 if successful or -1 if an error happened, in which case * CPLError() will have been called. **********************************************************************/ int TABMAPObjectBlock::WriteIntCoord(GInt32 nX, GInt32 nY, GBool bCompressed /*=FALSE*/) { /*----------------------------------------------------------------- * Write coords to the file. *----------------------------------------------------------------*/ if ((!bCompressed && (WriteInt32(nX) != 0 || WriteInt32(nY) != 0 ) ) || (bCompressed && (WriteInt16(static_cast(nX - m_nCenterX)) != 0 || WriteInt16(static_cast(nY - m_nCenterY)) != 0) ) ) { return -1; } return 0; } /********************************************************************** * TABMAPObjectBlock::WriteIntMBRCoord() * * Write 2 pairs of integer coordinates values to the current position * in the block after making sure that min values are smaller than * max values. Use this function to write MBR coordinates for an object. * * If bCompr=TRUE then the coordinates are written relative to * the object block center... otherwise they're written as 32 bits int. * * This function does not maintain the block's MBR and center... it is * assumed to have been set before the first call to WriteIntCoord() * * Returns 0 if successful or -1 if an error happened, in which case * CPLError() will have been called. **********************************************************************/ int TABMAPObjectBlock::WriteIntMBRCoord(GInt32 nXMin, GInt32 nYMin, GInt32 nXMax, GInt32 nYMax, GBool bCompressed /*=FALSE*/) { if (WriteIntCoord(std::min(nXMin, nXMax), std::min(nYMin, nYMax), bCompressed) != 0 || WriteIntCoord(std::max(nXMin, nXMax), std::max(nYMin, nYMax), bCompressed) != 0 ) { return -1; } return 0; } /********************************************************************** * TABMAPObjectBlock::UpdateMBR() * * Update the block's MBR and center. * * Returns 0 if successful or -1 if an error happened, in which case * CPLError() will have been called. **********************************************************************/ int TABMAPObjectBlock::UpdateMBR(GInt32 nX, GInt32 nY) { if (nX < m_nMinX) m_nMinX = nX; if (nX > m_nMaxX) m_nMaxX = nX; if (nY < m_nMinY) m_nMinY = nY; if (nY > m_nMaxY) m_nMaxY = nY; if( !m_bLockCenter ) { m_nCenterX = static_cast( (static_cast(m_nMinX) + m_nMaxX) /2); m_nCenterY = static_cast( (static_cast(m_nMinY) + m_nMaxY) /2); } return 0; } /********************************************************************** * TABMAPObjectBlock::AddCoordBlockRef() * * Update the first/last coord block fields in this object to contain * the specified block address. **********************************************************************/ void TABMAPObjectBlock::AddCoordBlockRef(GInt32 nNewBlockAddress) { /*----------------------------------------------------------------- * Normally, new blocks are added to the end of the list, except * the first one which is the beginning and the end of the list at * the same time. *----------------------------------------------------------------*/ if (m_nFirstCoordBlock == 0) m_nFirstCoordBlock = nNewBlockAddress; m_nLastCoordBlock = nNewBlockAddress; m_bModified = TRUE; } /********************************************************************** * TABMAPObjectBlock::SetMBR() * * Set the MBR for the current block. **********************************************************************/ void TABMAPObjectBlock::SetMBR(GInt32 nXMin, GInt32 nYMin, GInt32 nXMax, GInt32 nYMax) { m_nMinX = nXMin; m_nMinY = nYMin; m_nMaxX = nXMax; m_nMaxY = nYMax; if( !m_bLockCenter ) { m_nCenterX = static_cast( (static_cast(m_nMinX) + m_nMaxX) /2); m_nCenterY = static_cast( (static_cast(m_nMinY) + m_nMaxY) /2); } } /********************************************************************** * TABMAPObjectBlock::GetMBR() * * Return the MBR for the current block. **********************************************************************/ void TABMAPObjectBlock::GetMBR(GInt32 &nXMin, GInt32 &nYMin, GInt32 &nXMax, GInt32 &nYMax) { nXMin = m_nMinX; nYMin = m_nMinY; nXMax = m_nMaxX; nYMax = m_nMaxY; } /********************************************************************** * TABMAPObjectBlock::PrepareNewObject() * * Prepare this block to receive this new object. We only reserve space for * it in this call. Actual data will be written only when CommitNewObject() * is called. * * Returns the position at which the new object starts **********************************************************************/ int TABMAPObjectBlock::PrepareNewObject(TABMAPObjHdr *poObjHdr) { int nStartAddress = 0; // Nothing to do for NONE objects if (poObjHdr->m_nType == TAB_GEOM_NONE) { return 0; } // Maintain MBR of this object block. UpdateMBR(poObjHdr->m_nMinX, poObjHdr->m_nMinY); UpdateMBR(poObjHdr->m_nMaxX, poObjHdr->m_nMaxY); /*----------------------------------------------------------------- * Keep track of object type, ID and start address for use by * CommitNewObject() *----------------------------------------------------------------*/ nStartAddress = GetFirstUnusedByteOffset(); // Backup MBR and bLockCenter as they will be reset by GotoByteInFile() // that will call InitBlockFromData() GInt32 nXMin, nYMin, nXMax, nYMax; GetMBR(nXMin, nYMin, nXMax, nYMax); int bLockCenter = m_bLockCenter; GotoByteInFile(nStartAddress); m_bLockCenter = bLockCenter; SetMBR(nXMin, nYMin, nXMax, nYMax); m_nCurObjectOffset = nStartAddress - GetStartAddress(); m_nCurObjectType = poObjHdr->m_nType; m_nCurObjectId = poObjHdr->m_nId; return nStartAddress; } /********************************************************************** * TABMAPObjectBlock::CommitCurObjData() * * Write the ObjHdr to this block. This is usually called after * PrepareNewObject() once all members of the ObjHdr have * been set. * * Returns 0 if successful or -1 if an error happened, in which case * CPLError() will have been called. **********************************************************************/ int TABMAPObjectBlock::CommitNewObject(TABMAPObjHdr *poObjHdr) { int nStatus = 0; CPLAssert (poObjHdr->m_nType != TAB_GEOM_NONE); // Nothing to do for NONE objects if (poObjHdr->m_nType == TAB_GEOM_NONE) { return 0; } CPLAssert(m_nCurObjectId == poObjHdr->m_nId); GotoByteInBlock(m_nCurObjectOffset); nStatus = poObjHdr->WriteObj(this); if (nStatus == 0) m_numDataBytes = m_nSizeUsed - MAP_OBJECT_HEADER_SIZE; return nStatus; } /********************************************************************** * TABMAPObjectBlock::Dump() * * Dump block contents... available only in DEBUG mode. **********************************************************************/ #ifdef DEBUG void TABMAPObjectBlock::Dump(FILE *fpOut, GBool bDetails) { CPLErrorReset(); if (fpOut == nullptr) fpOut = stdout; fprintf(fpOut, "----- TABMAPObjectBlock::Dump() -----\n"); if (m_pabyBuf == nullptr) { fprintf(fpOut, "Block has not been initialized yet."); } else { fprintf(fpOut,"Object Data Block (type %d) at offset %d.\n", m_nBlockType, m_nFileOffset); fprintf(fpOut," m_numDataBytes = %d\n", m_numDataBytes); fprintf(fpOut," m_nCenterX = %d\n", m_nCenterX); fprintf(fpOut," m_nCenterY = %d\n", m_nCenterY); fprintf(fpOut," m_nFirstCoordBlock = %d\n", m_nFirstCoordBlock); fprintf(fpOut," m_nLastCoordBlock = %d\n", m_nLastCoordBlock); } if (bDetails) { /* We need the mapfile's header block */ TABRawBinBlock *poBlock = TABCreateMAPBlockFromFile(m_fp, 0, m_nBlockSize); if (poBlock==nullptr || poBlock->GetBlockClass() != TABMAP_HEADER_BLOCK) { CPLError(CE_Failure, CPLE_AssertionFailed, "Failed reading header block."); return; } TABMAPHeaderBlock *poHeader = cpl::down_cast(poBlock); Rewind(); TABMAPObjHdr *poObjHdr = nullptr; while((poObjHdr = TABMAPObjHdr::ReadNextObj(this, poHeader)) != nullptr) { fprintf(fpOut, " object id=%d, type=%d, offset=%d (%d), size=%d\n" " MBR=(%d, %d, %d, %d)\n", m_nCurObjectId, m_nCurObjectType, m_nCurObjectOffset, m_nFileOffset + m_nCurObjectOffset, poHeader->GetMapObjectSize( m_nCurObjectType ), poObjHdr->m_nMinX, poObjHdr->m_nMinY, poObjHdr->m_nMaxX,poObjHdr->m_nMaxY); delete poObjHdr; } delete poHeader; } fflush(fpOut); } #endif // DEBUG /*===================================================================== * class TABMAPObjHdr and family *====================================================================*/ /********************************************************************** * class TABMAPObjHdr * * Virtual base class... contains static methods used to allocate instance * of the derived classes. * **********************************************************************/ /********************************************************************** * TABMAPObjHdr::NewObj() * * Alloc a new object of specified type or NULL for NONE types or if type * is not supported. **********************************************************************/ TABMAPObjHdr *TABMAPObjHdr::NewObj(TABGeomType nNewObjType, GInt32 nId /*=0*/) { TABMAPObjHdr *poObj = nullptr; switch(nNewObjType) { case TAB_GEOM_NONE: poObj = new TABMAPObjNone; break; case TAB_GEOM_SYMBOL_C: case TAB_GEOM_SYMBOL: poObj = new TABMAPObjPoint; break; case TAB_GEOM_FONTSYMBOL_C: case TAB_GEOM_FONTSYMBOL: poObj = new TABMAPObjFontPoint; break; case TAB_GEOM_CUSTOMSYMBOL_C: case TAB_GEOM_CUSTOMSYMBOL: poObj = new TABMAPObjCustomPoint; break; case TAB_GEOM_LINE_C: case TAB_GEOM_LINE: poObj = new TABMAPObjLine; break; case TAB_GEOM_PLINE_C: case TAB_GEOM_PLINE: case TAB_GEOM_REGION_C: case TAB_GEOM_REGION: case TAB_GEOM_MULTIPLINE_C: case TAB_GEOM_MULTIPLINE: case TAB_GEOM_V450_REGION_C: case TAB_GEOM_V450_REGION: case TAB_GEOM_V450_MULTIPLINE_C: case TAB_GEOM_V450_MULTIPLINE: case TAB_GEOM_V800_REGION_C: case TAB_GEOM_V800_REGION: case TAB_GEOM_V800_MULTIPLINE_C: case TAB_GEOM_V800_MULTIPLINE: poObj = new TABMAPObjPLine; break; case TAB_GEOM_ARC_C: case TAB_GEOM_ARC: poObj = new TABMAPObjArc; break; case TAB_GEOM_RECT_C: case TAB_GEOM_RECT: case TAB_GEOM_ROUNDRECT_C: case TAB_GEOM_ROUNDRECT: case TAB_GEOM_ELLIPSE_C: case TAB_GEOM_ELLIPSE: poObj = new TABMAPObjRectEllipse; break; case TAB_GEOM_TEXT_C: case TAB_GEOM_TEXT: poObj = new TABMAPObjText; break; case TAB_GEOM_MULTIPOINT_C: case TAB_GEOM_MULTIPOINT: case TAB_GEOM_V800_MULTIPOINT_C: case TAB_GEOM_V800_MULTIPOINT: poObj = new TABMAPObjMultiPoint; break; case TAB_GEOM_COLLECTION_C: case TAB_GEOM_COLLECTION: case TAB_GEOM_V800_COLLECTION_C: case TAB_GEOM_V800_COLLECTION: poObj = new TABMAPObjCollection(); break; default: CPLError(CE_Failure, CPLE_AssertionFailed, "TABMAPObjHdr::NewObj(): Unsupported object type %d", nNewObjType); } if (poObj) { poObj->m_nType = nNewObjType; poObj->m_nId = nId; poObj->m_nMinX = poObj->m_nMinY = poObj->m_nMaxX = poObj->m_nMaxY = 0; } return poObj; } /********************************************************************** * TABMAPObjHdr::ReadNextObj() * * Read next object in this block and allocate/init a new object for it * if successful. * Returns NULL in case of error or if we reached end of block. **********************************************************************/ TABMAPObjHdr *TABMAPObjHdr::ReadNextObj(TABMAPObjectBlock *poObjBlock, TABMAPHeaderBlock *poHeader) { TABMAPObjHdr *poObjHdr = nullptr; if (poObjBlock->AdvanceToNextObject(poHeader) != -1) { poObjHdr=TABMAPObjHdr::NewObj(poObjBlock->GetCurObjectType()); if (poObjHdr && ((poObjHdr->m_nId = poObjBlock->GetCurObjectId()) == -1 || poObjHdr->ReadObj(poObjBlock) != 0 ) ) { // Failed reading object in block... an error was already produced delete poObjHdr; return nullptr; } } return poObjHdr; } /********************************************************************** * TABMAPObjHdr::IsCompressedType() * * Returns TRUE if the current object type uses compressed coordinates * or FALSE otherwise. **********************************************************************/ GBool TABMAPObjHdr::IsCompressedType() { // Compressed types are 1, 4, 7, etc. return (m_nType % 3) == 1 ? TRUE : FALSE; } /********************************************************************** * TABMAPObjHdr::WriteObjTypeAndId() * * Writetype+object id information... should be called only by the derived * classes' WriteObj() methods. * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjHdr::WriteObjTypeAndId(TABMAPObjectBlock *poObjBlock) { poObjBlock->WriteByte(static_cast(m_nType)); return poObjBlock->WriteInt32(m_nId); } /********************************************************************** * TABMAPObjHdr::SetMBR() * **********************************************************************/ void TABMAPObjHdr::SetMBR(GInt32 nMinX, GInt32 nMinY, GInt32 nMaxX, GInt32 nMaxY) { m_nMinX = std::min(nMinX, nMaxX); m_nMinY = std::min(nMinY, nMaxY); m_nMaxX = std::max(nMinX, nMaxX); m_nMaxY = std::max(nMinY, nMaxY); } /********************************************************************** * class TABMAPObjLine * * Applies to 2-points LINEs only **********************************************************************/ /********************************************************************** * TABMAPObjLine::ReadObj() * * Read Object information starting after the object id which should * have been read by TABMAPObjHdr::ReadNextObj() already. * This function should be called only by TABMAPObjHdr::ReadNextObj(). * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjLine::ReadObj(TABMAPObjectBlock *poObjBlock) { poObjBlock->ReadIntCoord(IsCompressedType(), m_nX1, m_nY1); poObjBlock->ReadIntCoord(IsCompressedType(), m_nX2, m_nY2); m_nPenId = poObjBlock->ReadByte(); // Pen index SetMBR(m_nX1, m_nY1, m_nX2, m_nY2); if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjLine::WriteObj() * * Write Object information with the type+object id * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjLine::WriteObj(TABMAPObjectBlock *poObjBlock) { // Write object type and id TABMAPObjHdr::WriteObjTypeAndId(poObjBlock); poObjBlock->WriteIntCoord(m_nX1, m_nY1, IsCompressedType()); poObjBlock->WriteIntCoord(m_nX2, m_nY2, IsCompressedType()); poObjBlock->WriteByte(m_nPenId); // Pen index if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * class TABMAPObjPLine * * Applies to PLINE, MULTIPLINE and REGION object types **********************************************************************/ /********************************************************************** * TABMAPObjPLine::ReadObj() * * Read Object information starting after the object id which should * have been read by TABMAPObjHdr::ReadNextObj() already. * This function should be called only by TABMAPObjHdr::ReadNextObj(). * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjPLine::ReadObj(TABMAPObjectBlock *poObjBlock) { m_nCoordBlockPtr = poObjBlock->ReadInt32(); m_nCoordDataSize = poObjBlock->ReadInt32(); if (m_nCoordDataSize & 0x80000000) { m_bSmooth = TRUE; m_nCoordDataSize &= 0x7FFFFFFF; //Take smooth flag out of the value } else { m_bSmooth = FALSE; } #ifdef TABDUMP printf("TABMAPObjPLine::ReadObj: m_nCoordDataSize = %d @ %d\n",/*ok*/ m_nCoordDataSize, m_nCoordBlockPtr); #endif // Number of line segments applies only to MULTIPLINE/REGION but not PLINE if (m_nType == TAB_GEOM_PLINE_C || m_nType == TAB_GEOM_PLINE ) { m_numLineSections = 1; } else if (m_nType == TAB_GEOM_V800_REGION || m_nType == TAB_GEOM_V800_REGION_C || m_nType == TAB_GEOM_V800_MULTIPLINE || m_nType == TAB_GEOM_V800_MULTIPLINE_C ) { /* V800 REGIONS/MULTIPLINES use an int32 */ m_numLineSections = poObjBlock->ReadInt32(); /* ... followed by 33 unknown bytes */ poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadByte(); } else { /* V300 and V450 REGIONS/MULTIPLINES use an int16 */ m_numLineSections = poObjBlock->ReadInt16(); } if( m_numLineSections < 0 ) { CPLError(CE_Failure, CPLE_AssertionFailed, "Invalid numLineSections"); return -1; } #ifdef TABDUMP printf("PLINE/REGION: id=%d, type=%d, "/*ok*/ "CoordBlockPtr=%d, CoordDataSize=%d, numLineSect=%d, bSmooth=%d\n", m_nId, m_nType, m_nCoordBlockPtr, m_nCoordDataSize, m_numLineSections, m_bSmooth); #endif if (IsCompressedType()) { // Region center/label point, relative to compr. coord. origin // No it is not relative to the Object block center m_nLabelX = poObjBlock->ReadInt16(); m_nLabelY = poObjBlock->ReadInt16(); // Compressed coordinate origin (present only in compressed case!) m_nComprOrgX = poObjBlock->ReadInt32(); m_nComprOrgY = poObjBlock->ReadInt32(); TABSaturatedAdd(m_nLabelX, m_nComprOrgX); TABSaturatedAdd(m_nLabelY, m_nComprOrgY); m_nMinX = poObjBlock->ReadInt16(); // Read MBR m_nMinY = poObjBlock->ReadInt16(); m_nMaxX = poObjBlock->ReadInt16(); m_nMaxY = poObjBlock->ReadInt16(); TABSaturatedAdd(m_nMinX, m_nComprOrgX); TABSaturatedAdd(m_nMinY, m_nComprOrgY); TABSaturatedAdd(m_nMaxX, m_nComprOrgX); TABSaturatedAdd(m_nMaxY, m_nComprOrgY); } else { // Region center/label point, relative to compr. coord. origin // No it is not relative to the Object block center m_nLabelX = poObjBlock->ReadInt32(); m_nLabelY = poObjBlock->ReadInt32(); m_nMinX = poObjBlock->ReadInt32(); // Read MBR m_nMinY = poObjBlock->ReadInt32(); m_nMaxX = poObjBlock->ReadInt32(); m_nMaxY = poObjBlock->ReadInt32(); } if ( ! IsCompressedType() ) { // Init. Compr. Origin to a default value in case type is ever changed m_nComprOrgX = static_cast((static_cast(m_nMinX) + m_nMaxX) / 2); m_nComprOrgY = static_cast((static_cast(m_nMinY) + m_nMaxY) / 2); } m_nPenId = poObjBlock->ReadByte(); // Pen index if (m_nType == TAB_GEOM_REGION || m_nType == TAB_GEOM_REGION_C || m_nType == TAB_GEOM_V450_REGION || m_nType == TAB_GEOM_V450_REGION_C || m_nType == TAB_GEOM_V800_REGION || m_nType == TAB_GEOM_V800_REGION_C ) { m_nBrushId = poObjBlock->ReadByte(); // Brush index... REGION only } else { m_nBrushId = 0; } if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjPLine::WriteObj() * * Write Object information with the type+object id * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjPLine::WriteObj(TABMAPObjectBlock *poObjBlock) { // Write object type and id TABMAPObjHdr::WriteObjTypeAndId(poObjBlock); poObjBlock->WriteInt32(m_nCoordBlockPtr); // Combine smooth flag in the coord data size. if (m_bSmooth) poObjBlock->WriteInt32( m_nCoordDataSize | 0x80000000 ); else poObjBlock->WriteInt32( m_nCoordDataSize ); // Number of line segments applies only to MULTIPLINE/REGION but not PLINE if (m_nType == TAB_GEOM_V800_REGION || m_nType == TAB_GEOM_V800_REGION_C || m_nType == TAB_GEOM_V800_MULTIPLINE || m_nType == TAB_GEOM_V800_MULTIPLINE_C ) { /* V800 REGIONS/MULTIPLINES use an int32 */ poObjBlock->WriteInt32(m_numLineSections); /* ... followed by 33 unknown bytes */ poObjBlock->WriteZeros(33); } else if (m_nType != TAB_GEOM_PLINE_C && m_nType != TAB_GEOM_PLINE ) { /* V300 and V450 REGIONS/MULTIPLINES use an int16 */ poObjBlock->WriteInt16(static_cast(m_numLineSections)); } if (IsCompressedType()) { // Region center/label point, relative to compr. coord. origin // No it is not relative to the Object block center poObjBlock->WriteInt16(TABInt16Diff(m_nLabelX, m_nComprOrgX)); poObjBlock->WriteInt16(TABInt16Diff(m_nLabelY, m_nComprOrgY)); // Compressed coordinate origin (present only in compressed case!) poObjBlock->WriteInt32(m_nComprOrgX); poObjBlock->WriteInt32(m_nComprOrgY); } else { // Region center/label point poObjBlock->WriteInt32(m_nLabelX); poObjBlock->WriteInt32(m_nLabelY); } // MBR if (IsCompressedType()) { // MBR relative to PLINE origin (and not object block center) poObjBlock->WriteInt16(TABInt16Diff(m_nMinX, m_nComprOrgX)); poObjBlock->WriteInt16(TABInt16Diff(m_nMinY, m_nComprOrgY)); poObjBlock->WriteInt16(TABInt16Diff(m_nMaxX, m_nComprOrgX)); poObjBlock->WriteInt16(TABInt16Diff(m_nMaxY, m_nComprOrgY)); } else { poObjBlock->WriteInt32(m_nMinX); poObjBlock->WriteInt32(m_nMinY); poObjBlock->WriteInt32(m_nMaxX); poObjBlock->WriteInt32(m_nMaxY); } poObjBlock->WriteByte(m_nPenId); // Pen index if (m_nType == TAB_GEOM_REGION || m_nType == TAB_GEOM_REGION_C || m_nType == TAB_GEOM_V450_REGION || m_nType == TAB_GEOM_V450_REGION_C || m_nType == TAB_GEOM_V800_REGION || m_nType == TAB_GEOM_V800_REGION_C ) { poObjBlock->WriteByte(m_nBrushId); // Brush index... REGION only } if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * class TABMAPObjPoint * **********************************************************************/ /********************************************************************** * TABMAPObjPoint::ReadObj() * * Read Object information starting after the object id **********************************************************************/ int TABMAPObjPoint::ReadObj(TABMAPObjectBlock *poObjBlock) { poObjBlock->ReadIntCoord(IsCompressedType(), m_nX, m_nY); m_nSymbolId = poObjBlock->ReadByte(); // Symbol index SetMBR(m_nX, m_nY, m_nX, m_nY); if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjPoint::WriteObj() * * Write Object information with the type+object id * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjPoint::WriteObj(TABMAPObjectBlock *poObjBlock) { // Write object type and id TABMAPObjHdr::WriteObjTypeAndId(poObjBlock); poObjBlock->WriteIntCoord(m_nX, m_nY, IsCompressedType()); poObjBlock->WriteByte(m_nSymbolId); // Symbol index if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * class TABMAPObjFontPoint * **********************************************************************/ /********************************************************************** * TABMAPObjFontPoint::ReadObj() * * Read Object information starting after the object id **********************************************************************/ int TABMAPObjFontPoint::ReadObj(TABMAPObjectBlock *poObjBlock) { m_nSymbolId = poObjBlock->ReadByte(); // Symbol index m_nPointSize = poObjBlock->ReadByte(); m_nFontStyle = poObjBlock->ReadInt16(); // font style m_nR = poObjBlock->ReadByte(); m_nG = poObjBlock->ReadByte(); m_nB = poObjBlock->ReadByte(); poObjBlock->ReadByte(); // ??? BG Color ??? poObjBlock->ReadByte(); // ??? poObjBlock->ReadByte(); // ??? m_nAngle = poObjBlock->ReadInt16(); poObjBlock->ReadIntCoord(IsCompressedType(), m_nX, m_nY); m_nFontId = poObjBlock->ReadByte(); // Font name index SetMBR(m_nX, m_nY, m_nX, m_nY); if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjFontPoint::WriteObj() * * Write Object information with the type+object id * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjFontPoint::WriteObj(TABMAPObjectBlock *poObjBlock) { // Write object type and id TABMAPObjHdr::WriteObjTypeAndId(poObjBlock); poObjBlock->WriteByte(m_nSymbolId); // symbol shape poObjBlock->WriteByte(m_nPointSize); poObjBlock->WriteInt16(m_nFontStyle); // font style poObjBlock->WriteByte( m_nR ); poObjBlock->WriteByte( m_nG ); poObjBlock->WriteByte( m_nB ); poObjBlock->WriteByte( 0 ); poObjBlock->WriteByte( 0 ); poObjBlock->WriteByte( 0 ); poObjBlock->WriteInt16(m_nAngle); poObjBlock->WriteIntCoord(m_nX, m_nY, IsCompressedType()); poObjBlock->WriteByte(m_nFontId); // Font name index if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * class TABMAPObjCustomPoint * **********************************************************************/ /********************************************************************** * TABMAPObjCustomPoint::ReadObj() * * Read Object information starting after the object id **********************************************************************/ int TABMAPObjCustomPoint::ReadObj(TABMAPObjectBlock *poObjBlock) { m_nUnknown_ = poObjBlock->ReadByte(); // ??? m_nCustomStyle = poObjBlock->ReadByte(); // 0x01=Show BG, 0x02=Apply Color poObjBlock->ReadIntCoord(IsCompressedType(), m_nX, m_nY); m_nSymbolId = poObjBlock->ReadByte(); // Symbol index m_nFontId = poObjBlock->ReadByte(); // Font index SetMBR(m_nX, m_nY, m_nX, m_nY); if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjCustomPoint::WriteObj() * * Write Object information with the type+object id * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjCustomPoint::WriteObj(TABMAPObjectBlock *poObjBlock) { // Write object type and id TABMAPObjHdr::WriteObjTypeAndId(poObjBlock); poObjBlock->WriteByte(m_nUnknown_); // ??? poObjBlock->WriteByte(m_nCustomStyle); // 0x01=Show BG, 0x02=Apply Color poObjBlock->WriteIntCoord(m_nX, m_nY, IsCompressedType()); poObjBlock->WriteByte(m_nSymbolId); // Symbol index poObjBlock->WriteByte(m_nFontId); // Font index if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * class TABMAPObjRectEllipse * **********************************************************************/ /********************************************************************** * TABMAPObjRectEllipse::ReadObj() * * Read Object information starting after the object id **********************************************************************/ int TABMAPObjRectEllipse::ReadObj(TABMAPObjectBlock *poObjBlock) { if (m_nType == TAB_GEOM_ROUNDRECT || m_nType == TAB_GEOM_ROUNDRECT_C) { if (IsCompressedType()) { m_nCornerWidth = poObjBlock->ReadInt16(); m_nCornerHeight = poObjBlock->ReadInt16(); } else { m_nCornerWidth = poObjBlock->ReadInt32(); m_nCornerHeight = poObjBlock->ReadInt32(); } } poObjBlock->ReadIntCoord(IsCompressedType(), m_nMinX, m_nMinY); poObjBlock->ReadIntCoord(IsCompressedType(), m_nMaxX, m_nMaxY); m_nPenId = poObjBlock->ReadByte(); // Pen index m_nBrushId = poObjBlock->ReadByte(); // Brush index if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjRectEllipse::WriteObj() * * Write Object information with the type+object id * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjRectEllipse::WriteObj(TABMAPObjectBlock *poObjBlock) { // Write object type and id TABMAPObjHdr::WriteObjTypeAndId(poObjBlock); if (m_nType == TAB_GEOM_ROUNDRECT || m_nType == TAB_GEOM_ROUNDRECT_C) { if (IsCompressedType()) { poObjBlock->WriteInt16(static_cast(m_nCornerWidth)); poObjBlock->WriteInt16(static_cast(m_nCornerHeight)); } else { poObjBlock->WriteInt32(m_nCornerWidth); poObjBlock->WriteInt32(m_nCornerHeight); } } poObjBlock->WriteIntMBRCoord(m_nMinX, m_nMinY, m_nMaxX, m_nMaxY, IsCompressedType()); poObjBlock->WriteByte(m_nPenId); // Pen index poObjBlock->WriteByte(m_nBrushId); // Brush index if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * class TABMAPObjArc * **********************************************************************/ /********************************************************************** * TABMAPObjArc::ReadObj() * * Read Object information starting after the object id **********************************************************************/ int TABMAPObjArc::ReadObj(TABMAPObjectBlock *poObjBlock) { m_nStartAngle = poObjBlock->ReadInt16(); m_nEndAngle = poObjBlock->ReadInt16(); // An arc is defined by its defining ellipse's MBR: poObjBlock->ReadIntCoord(IsCompressedType(), m_nArcEllipseMinX, m_nArcEllipseMinY); poObjBlock->ReadIntCoord(IsCompressedType(), m_nArcEllipseMaxX, m_nArcEllipseMaxY); // Read the Arc's actual MBR poObjBlock->ReadIntCoord(IsCompressedType(), m_nMinX, m_nMinY); poObjBlock->ReadIntCoord(IsCompressedType(), m_nMaxX, m_nMaxY); m_nPenId = poObjBlock->ReadByte(); // Pen index if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjArc::WriteObj() * * Write Object information with the type+object id * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjArc::WriteObj(TABMAPObjectBlock *poObjBlock) { // Write object type and id TABMAPObjHdr::WriteObjTypeAndId(poObjBlock); poObjBlock->WriteInt16(static_cast(m_nStartAngle)); poObjBlock->WriteInt16(static_cast(m_nEndAngle)); // An arc is defined by its defining ellipse's MBR: poObjBlock->WriteIntMBRCoord(m_nArcEllipseMinX, m_nArcEllipseMinY, m_nArcEllipseMaxX, m_nArcEllipseMaxY, IsCompressedType()); // Write the Arc's actual MBR poObjBlock->WriteIntMBRCoord(m_nMinX, m_nMinY, m_nMaxX, m_nMaxY, IsCompressedType()); poObjBlock->WriteByte(m_nPenId); // Pen index if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * class TABMAPObjText * **********************************************************************/ /********************************************************************** * TABMAPObjText::ReadObj() * * Read Object information starting after the object id **********************************************************************/ int TABMAPObjText::ReadObj(TABMAPObjectBlock *poObjBlock) { m_nCoordBlockPtr = poObjBlock->ReadInt32(); // String position m_nCoordDataSize = poObjBlock->ReadInt16(); // String length if( m_nCoordDataSize < 0 ) { CPLError(CE_Failure, CPLE_AssertionFailed, "m_nCoordDataSize < 0"); return -1; } m_nTextAlignment = poObjBlock->ReadInt16(); // just./spacing/arrow m_nAngle = poObjBlock->ReadInt16(); // Tenths of degree m_nFontStyle = poObjBlock->ReadInt16(); // Font style/effect m_nFGColorR = poObjBlock->ReadByte(); m_nFGColorG = poObjBlock->ReadByte(); m_nFGColorB = poObjBlock->ReadByte(); m_nBGColorR = poObjBlock->ReadByte(); m_nBGColorG = poObjBlock->ReadByte(); m_nBGColorB = poObjBlock->ReadByte(); // Label line end point poObjBlock->ReadIntCoord(IsCompressedType(), m_nLineEndX, m_nLineEndY); // Text Height if (IsCompressedType()) m_nHeight = poObjBlock->ReadInt16(); else m_nHeight = poObjBlock->ReadInt32(); // Font name m_nFontId = poObjBlock->ReadByte(); // Font name index // MBR after rotation poObjBlock->ReadIntCoord(IsCompressedType(), m_nMinX, m_nMinY); poObjBlock->ReadIntCoord(IsCompressedType(), m_nMaxX, m_nMaxY); m_nPenId = poObjBlock->ReadByte(); // Pen index if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjText::WriteObj() * * Write Object information with the type+object id * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjText::WriteObj(TABMAPObjectBlock *poObjBlock) { // Write object type and id TABMAPObjHdr::WriteObjTypeAndId(poObjBlock); poObjBlock->WriteInt32(m_nCoordBlockPtr); // String position poObjBlock->WriteInt16(static_cast(m_nCoordDataSize)); // String length poObjBlock->WriteInt16(static_cast(m_nTextAlignment)); // just./spacing/arrow poObjBlock->WriteInt16(static_cast(m_nAngle)); // Tenths of degree poObjBlock->WriteInt16(m_nFontStyle); // Font style/effect poObjBlock->WriteByte(m_nFGColorR ); poObjBlock->WriteByte(m_nFGColorG ); poObjBlock->WriteByte(m_nFGColorB ); poObjBlock->WriteByte(m_nBGColorR ); poObjBlock->WriteByte(m_nBGColorG ); poObjBlock->WriteByte(m_nBGColorB ); // Label line end point poObjBlock->WriteIntCoord(m_nLineEndX, m_nLineEndY, IsCompressedType()); // Text Height if (IsCompressedType()) poObjBlock->WriteInt16(static_cast(m_nHeight)); else poObjBlock->WriteInt32(m_nHeight); // Font name poObjBlock->WriteByte(m_nFontId); // Font name index // MBR after rotation poObjBlock->WriteIntMBRCoord(m_nMinX, m_nMinY, m_nMaxX, m_nMaxY, IsCompressedType()); poObjBlock->WriteByte(m_nPenId); // Pen index if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * class TABMAPObjMultiPoint * * Applies to PLINE, MULTIPLINE and REGION object types **********************************************************************/ /********************************************************************** * TABMAPObjMultiPoint::ReadObj() * * Read Object information starting after the object id which should * have been read by TABMAPObjHdr::ReadNextObj() already. * This function should be called only by TABMAPObjHdr::ReadNextObj(). * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjMultiPoint::ReadObj(TABMAPObjectBlock *poObjBlock) { m_nCoordBlockPtr = poObjBlock->ReadInt32(); m_nNumPoints = poObjBlock->ReadInt32(); const int nPointSize = (IsCompressedType()) ? 2 * 2 : 2 * 4; if( m_nNumPoints < 0 || m_nNumPoints > INT_MAX / nPointSize ) { CPLError(CE_Failure, CPLE_AssertionFailed, "Invalid m_nNumPoints = %d", m_nNumPoints); return -1; } m_nCoordDataSize = m_nNumPoints * nPointSize; #ifdef TABDUMP printf("MULTIPOINT: id=%d, type=%d, "/*ok*/ "CoordBlockPtr=%d, CoordDataSize=%d, numPoints=%d\n", m_nId, m_nType, m_nCoordBlockPtr, m_nCoordDataSize, m_nNumPoints); #endif // ????? poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadByte(); poObjBlock->ReadByte(); poObjBlock->ReadByte(); if (m_nType == TAB_GEOM_V800_MULTIPOINT || m_nType == TAB_GEOM_V800_MULTIPOINT_C ) { /* V800 MULTIPOINTS have another 33 unknown bytes... all zeros */ poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadByte(); } m_nSymbolId = poObjBlock->ReadByte(); // ????? poObjBlock->ReadByte(); if (IsCompressedType()) { // Region center/label point, relative to compr. coord. origin // No it is not relative to the Object block center m_nLabelX = poObjBlock->ReadInt16(); m_nLabelY = poObjBlock->ReadInt16(); // Compressed coordinate origin m_nComprOrgX = poObjBlock->ReadInt32(); m_nComprOrgY = poObjBlock->ReadInt32(); TABSaturatedAdd(m_nLabelX, m_nComprOrgX); TABSaturatedAdd(m_nLabelY, m_nComprOrgY); m_nMinX = poObjBlock->ReadInt16(); // Read MBR m_nMinY = poObjBlock->ReadInt16(); m_nMaxX = poObjBlock->ReadInt16(); m_nMaxY = poObjBlock->ReadInt16(); TABSaturatedAdd(m_nMinX, m_nComprOrgX); TABSaturatedAdd(m_nMinY, m_nComprOrgY); TABSaturatedAdd(m_nMaxX, m_nComprOrgX); TABSaturatedAdd(m_nMaxY, m_nComprOrgY); } else { // Region center/label point m_nLabelX = poObjBlock->ReadInt32(); m_nLabelY = poObjBlock->ReadInt32(); m_nMinX = poObjBlock->ReadInt32(); // Read MBR m_nMinY = poObjBlock->ReadInt32(); m_nMaxX = poObjBlock->ReadInt32(); m_nMaxY = poObjBlock->ReadInt32(); // Init. Compr. Origin to a default value in case type is ever changed m_nComprOrgX = static_cast((static_cast(m_nMinX) + m_nMaxX) / 2); m_nComprOrgY = static_cast((static_cast(m_nMinY) + m_nMaxY) / 2); } if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjMultiPoint::WriteObj() * * Write Object information with the type+object id * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjMultiPoint::WriteObj(TABMAPObjectBlock *poObjBlock) { // Write object type and id TABMAPObjHdr::WriteObjTypeAndId(poObjBlock); poObjBlock->WriteInt32(m_nCoordBlockPtr); // Number of points poObjBlock->WriteInt32(m_nNumPoints); // unknown bytes poObjBlock->WriteZeros(15); if (m_nType == TAB_GEOM_V800_MULTIPOINT || m_nType == TAB_GEOM_V800_MULTIPOINT_C ) { /* V800 MULTIPOINTS have another 33 unknown bytes... all zeros */ poObjBlock->WriteZeros(33); } // Symbol Id poObjBlock->WriteByte(m_nSymbolId); // ???? poObjBlock->WriteByte(0); // MBR if (IsCompressedType()) { // Region center/label point, relative to compr. coord. origin // No it is not relative to the Object block center poObjBlock->WriteInt16(TABInt16Diff(m_nLabelX, m_nComprOrgX)); poObjBlock->WriteInt16(TABInt16Diff(m_nLabelY, m_nComprOrgY)); poObjBlock->WriteInt32(m_nComprOrgX); poObjBlock->WriteInt32(m_nComprOrgY); // MBR relative to object origin (and not object block center) poObjBlock->WriteInt16(TABInt16Diff(m_nMinX, m_nComprOrgX)); poObjBlock->WriteInt16(TABInt16Diff(m_nMinY, m_nComprOrgY)); poObjBlock->WriteInt16(TABInt16Diff(m_nMaxX, m_nComprOrgX)); poObjBlock->WriteInt16(TABInt16Diff(m_nMaxY, m_nComprOrgY)); } else { // Region center/label point poObjBlock->WriteInt32(m_nLabelX); poObjBlock->WriteInt32(m_nLabelY); poObjBlock->WriteInt32(m_nMinX); poObjBlock->WriteInt32(m_nMinY); poObjBlock->WriteInt32(m_nMaxX); poObjBlock->WriteInt32(m_nMaxY); } if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * class TABMAPObjCollection * **********************************************************************/ /********************************************************************** * TABMAPObjCollection::ReadObj() * * Read Object information starting after the object id which should * have been read by TABMAPObjHdr::ReadNextObj() already. * This function should be called only by TABMAPObjHdr::ReadNextObj(). * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjCollection::ReadObj(TABMAPObjectBlock *poObjBlock) { int SIZE_OF_REGION_PLINE_MINI_HDR = 24, SIZE_OF_MPOINT_MINI_HDR = 24; int nVersion = TAB_GEOM_GET_VERSION(m_nType); /* Figure the size of the mini-header that we find for each of the * 3 optional components (center x,y and mbr) */ if (IsCompressedType()) { /* 6 * int16 */ SIZE_OF_REGION_PLINE_MINI_HDR = SIZE_OF_MPOINT_MINI_HDR = 12; } else { /* 6 * int32 */ SIZE_OF_REGION_PLINE_MINI_HDR = SIZE_OF_MPOINT_MINI_HDR = 24; } if (nVersion >= 800) { /* extra 4 bytes for num_segments in Region/Pline mini-headers */ SIZE_OF_REGION_PLINE_MINI_HDR += 4; } m_nCoordBlockPtr = poObjBlock->ReadInt32(); // pointer into coord block m_nNumMultiPoints = poObjBlock->ReadInt32(); // no. points in multi point m_nRegionDataSize = poObjBlock->ReadInt32(); // size of region data inc. section hdrs m_nPolylineDataSize = poObjBlock->ReadInt32(); // size of multipline data inc. section hdrs if( m_nRegionDataSize < 0 ) { CPLError(CE_Failure, CPLE_AssertionFailed, "Invalid m_nRegionDataSize"); return -1; } if( m_nPolylineDataSize < 0 ) { CPLError(CE_Failure, CPLE_AssertionFailed, "Invalid m_nRegionDataSize"); return -1; } if (nVersion < 800) { // Num Region/Pline section headers (int16 in V650) m_nNumRegSections = poObjBlock->ReadInt16(); m_nNumPLineSections = poObjBlock->ReadInt16(); } else { // Num Region/Pline section headers (int32 in V800) m_nNumRegSections = poObjBlock->ReadInt32(); m_nNumPLineSections = poObjBlock->ReadInt32(); } const int nPointSize = (IsCompressedType()) ? 2 * 2 : 2 * 4; if( m_nNumMultiPoints < 0 || m_nNumMultiPoints > INT_MAX / nPointSize ) { CPLError(CE_Failure, CPLE_AssertionFailed, "Invalid m_nNumMultiPoints"); return -1; } m_nMPointDataSize = m_nNumMultiPoints * nPointSize; /* NB. MapInfo counts 2 extra bytes per Region and Pline section header * in the RegionDataSize and PolylineDataSize values but those 2 extra * bytes are not present in the section hdr (possibly due to an alignment * to a 4 byte boundary in memory in MapInfo?). The real data size in * the CoordBlock is actually 2 bytes shorter per section header than * what is written in RegionDataSize and PolylineDataSize values. * * We'll adjust the values in memory to be the corrected values. */ if( m_nNumRegSections < 0 || m_nNumRegSections > INT_MAX / 2 || m_nRegionDataSize < 2 * m_nNumRegSections ) { CPLError(CE_Failure, CPLE_AssertionFailed, "Invalid m_nNumRegSections / m_nRegionDataSize"); return -1; } m_nRegionDataSize = m_nRegionDataSize - (2 * m_nNumRegSections); if( m_nNumPLineSections < 0 || m_nNumPLineSections > INT_MAX / 2 || m_nPolylineDataSize < 2 * m_nNumPLineSections ) { CPLError(CE_Failure, CPLE_AssertionFailed, "Invalid m_nNumPLineSections / m_nPolylineDataSize"); return -1; } m_nPolylineDataSize = m_nPolylineDataSize - (2 * m_nNumPLineSections); /* Compute total coord block data size, required when splitting blocks */ m_nCoordDataSize = 0; if(m_nNumRegSections > 0) { if( m_nRegionDataSize > INT_MAX - SIZE_OF_REGION_PLINE_MINI_HDR || m_nCoordDataSize > INT_MAX - (SIZE_OF_REGION_PLINE_MINI_HDR + m_nRegionDataSize) ) { CPLError(CE_Failure, CPLE_AssertionFailed, "Invalid m_nCoordDataSize / m_nRegionDataSize"); return -1; } m_nCoordDataSize += SIZE_OF_REGION_PLINE_MINI_HDR + m_nRegionDataSize; } if(m_nNumPLineSections > 0) { if( m_nPolylineDataSize > INT_MAX - SIZE_OF_REGION_PLINE_MINI_HDR || m_nCoordDataSize > INT_MAX - (SIZE_OF_REGION_PLINE_MINI_HDR + m_nPolylineDataSize) ) { CPLError(CE_Failure, CPLE_AssertionFailed, "Invalid m_nCoordDataSize / m_nPolylineDataSize"); return -1; } m_nCoordDataSize += SIZE_OF_REGION_PLINE_MINI_HDR + m_nPolylineDataSize; } if(m_nNumMultiPoints > 0) { if( m_nMPointDataSize > INT_MAX - SIZE_OF_MPOINT_MINI_HDR || m_nCoordDataSize > INT_MAX - (SIZE_OF_MPOINT_MINI_HDR + m_nMPointDataSize) ) { CPLError(CE_Failure, CPLE_AssertionFailed, "Invalid m_nCoordDataSize / m_nMPointDataSize"); return -1; } m_nCoordDataSize += SIZE_OF_MPOINT_MINI_HDR + m_nMPointDataSize; } #ifdef TABDUMP printf("COLLECTION: id=%d, type=%d (0x%x), "/*ok*/ "CoordBlockPtr=%d, numRegionSections=%d (size=%d+%d), " "numPlineSections=%d (size=%d+%d), numPoints=%d (size=%d+%d)\n", m_nId, m_nType, m_nType, m_nCoordBlockPtr, m_nNumRegSections, m_nRegionDataSize, SIZE_OF_REGION_PLINE_MINI_HDR, m_nNumPLineSections, m_nPolylineDataSize, SIZE_OF_REGION_PLINE_MINI_HDR, m_nNumMultiPoints, m_nMPointDataSize, SIZE_OF_MPOINT_MINI_HDR); #endif if (nVersion >= 800) { // Extra byte in V800 files... value always 4??? int nValue = poObjBlock->ReadByte(); if (nValue != 4) { CPLError(CE_Failure, CPLE_AssertionFailed, "TABMAPObjCollection::ReadObj(): Byte 29 in Collection " "object header not equal to 4 as expected. Value is %d. " "Please report this error to the MITAB list so that " "MITAB can be extended to support this case.", nValue); // We don't return right away, the error should be caught at the // end of this function. } } // ??? All zeros ??? poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadInt32(); poObjBlock->ReadByte(); poObjBlock->ReadByte(); poObjBlock->ReadByte(); m_nMultiPointSymbolId = poObjBlock->ReadByte(); poObjBlock->ReadByte(); // ??? m_nRegionPenId = poObjBlock->ReadByte(); m_nPolylinePenId = poObjBlock->ReadByte(); m_nRegionBrushId = poObjBlock->ReadByte(); if (IsCompressedType()) { #ifdef TABDUMP printf("COLLECTION: READING ComprOrg @ %d\n",/*ok*/ poObjBlock->GetCurAddress()); #endif // Compressed coordinate origin m_nComprOrgX = poObjBlock->ReadInt32(); m_nComprOrgY = poObjBlock->ReadInt32(); m_nMinX = poObjBlock->ReadInt16(); // Read MBR m_nMinY = poObjBlock->ReadInt16(); m_nMaxX = poObjBlock->ReadInt16(); m_nMaxY = poObjBlock->ReadInt16(); TABSaturatedAdd(m_nMinX, m_nComprOrgX); TABSaturatedAdd(m_nMinY, m_nComprOrgY); TABSaturatedAdd(m_nMaxX, m_nComprOrgX); TABSaturatedAdd(m_nMaxY, m_nComprOrgY); #ifdef TABDUMP printf("COLLECTION: ComprOrgX,Y= (%d,%d)\n",/*ok*/ m_nComprOrgX, m_nComprOrgY); #endif } else { m_nMinX = poObjBlock->ReadInt32(); // Read MBR m_nMinY = poObjBlock->ReadInt32(); m_nMaxX = poObjBlock->ReadInt32(); m_nMaxY = poObjBlock->ReadInt32(); // Init. Compr. Origin to a default value in case type is ever changed m_nComprOrgX = static_cast((static_cast(m_nMinX) + m_nMaxX) / 2); m_nComprOrgY = static_cast((static_cast(m_nMinY) + m_nMaxY) / 2); } if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; } /********************************************************************** * TABMAPObjCollection::WriteObj() * * Write Object information with the type+object id * * Returns 0 on success, -1 on error. **********************************************************************/ int TABMAPObjCollection::WriteObj(TABMAPObjectBlock *poObjBlock) { // Write object type and id TABMAPObjHdr::WriteObjTypeAndId(poObjBlock); int nVersion = TAB_GEOM_GET_VERSION(m_nType); /* NB. MapInfo counts 2 extra bytes per Region and Pline section header * in the RegionDataSize and PolylineDataSize values but those 2 extra * bytes are not present in the section hdr (possibly due to an alignment * to a 4 byte boundary in memory in MapInfo?). The real data size in * the CoordBlock is actually 2 bytes shorter per section header than * what is written in RegionDataSize and PolylineDataSize values. * * The values in memory are the corrected values so we need to add 2 bytes * per section header in the values that we write on disk to emulate * MapInfo's behavior. */ GInt32 nRegionDataSizeMI = m_nRegionDataSize + (2*m_nNumRegSections); GInt32 nPolylineDataSizeMI = m_nPolylineDataSize+(2*m_nNumPLineSections); poObjBlock->WriteInt32(m_nCoordBlockPtr); // pointer into coord block poObjBlock->WriteInt32(m_nNumMultiPoints); // no. points in multi point poObjBlock->WriteInt32(nRegionDataSizeMI); // size of region data inc. section hdrs poObjBlock->WriteInt32(nPolylineDataSizeMI); // size of Mpolyline data inc. section hdrs if (nVersion < 800) { // Num Region/Pline section headers (int16 in V650) poObjBlock->WriteInt16(static_cast(m_nNumRegSections)); poObjBlock->WriteInt16(static_cast(m_nNumPLineSections)); } else { // Num Region/Pline section headers (int32 in V800) poObjBlock->WriteInt32(m_nNumRegSections); poObjBlock->WriteInt32(m_nNumPLineSections); } if (nVersion >= 800) { // Extra byte in V800 files... value always 4??? poObjBlock->WriteByte(4); } // Unknown data ????? poObjBlock->WriteInt32(0); poObjBlock->WriteInt32(0); poObjBlock->WriteInt32(0); poObjBlock->WriteByte(0); poObjBlock->WriteByte(0); poObjBlock->WriteByte(0); poObjBlock->WriteByte(m_nMultiPointSymbolId); poObjBlock->WriteByte(0); poObjBlock->WriteByte(m_nRegionPenId); poObjBlock->WriteByte(m_nPolylinePenId); poObjBlock->WriteByte(m_nRegionBrushId); if (IsCompressedType()) { #ifdef TABDUMP printf("COLLECTION: WRITING ComprOrgX,Y= (%d,%d) @ %d\n",/*ok*/ m_nComprOrgX, m_nComprOrgY, poObjBlock->GetCurAddress()); #endif // Compressed coordinate origin poObjBlock->WriteInt32(m_nComprOrgX); poObjBlock->WriteInt32(m_nComprOrgY); poObjBlock->WriteInt16(TABInt16Diff(m_nMinX, m_nComprOrgX)); // MBR poObjBlock->WriteInt16(TABInt16Diff(m_nMinY, m_nComprOrgY)); poObjBlock->WriteInt16(TABInt16Diff(m_nMaxX, m_nComprOrgX)); poObjBlock->WriteInt16(TABInt16Diff(m_nMaxY, m_nComprOrgY)); } else { poObjBlock->WriteInt32(m_nMinX); // MBR poObjBlock->WriteInt32(m_nMinY); poObjBlock->WriteInt32(m_nMaxX); poObjBlock->WriteInt32(m_nMaxY); } if (CPLGetLastErrorType() == CE_Failure) return -1; return 0; }