std::shared_ptr<base::ITag> BlockFS::getTag(ndsize_t index) const { if (index >= tagCount()) { throw OutOfBounds("Trying to access block.tag with invalid index.", index); } boost::filesystem::path p = tag_dir.sub_dir_by_index(index); return std::make_shared<TagFS>(file(), block(), p.string()); }
/* ------------------------------------------------------------------------------- Class: CStifSectionParser Method: SubSectionL Description: Parses subsections from the main section. If start tag is empty the parsing starts begin of the section. If end tag is empty the parsing goes end of section. This method will parse next subsection after the earlier subsection if aSeeked parameter is not given. If parser section includes several subsections with both start and end tags so aSeeked parameter seeks the required subsection. The aSeeked parameter indicates subsection that will be parsed. Parameters: const TDesC& aStartTag: in: Indicates parsing start point const TDesC& aEndTag: in: Indicates parsing end point TInt aSeeked: in: a seeked subsection which will be parsed Return Values: CStifItemParser* : pointer to CStifItemParser object NULL will return if end tag is not found NULL will return if length is 0 or negative NULL will return if lengthStart is 0 Errors/Exceptions: Leaves if called CStifSectionParser::NewL method fails Status: Proposal ------------------------------------------------------------------------------- */ EXPORT_C CStifSectionParser* CStifSectionParser::NextSubSectionL( const TDesC& aStartTag, const TDesC& aEndTag, TInt aSeeked ) { TLex lex( iSection ); lex.SkipAndMark( iSubOffset ); // Get the required sub section length TInt length( 0 ); TInt lengthStartPos( 0 ); TInt lengthEndPos( 0 ); TBool eos( EFalse ); TInt tagCount( 1 ); // Check is aStartTag given if ( aStartTag.Length() == 0 ) { // Skip line break, tabs, spaces etc. lex.SkipSpace(); lengthStartPos = lex.Offset(); } else { // While end of section and aStartTag is given while ( !lex.Eos() ) { TPtrC ptr = lex.NextToken(); // Start of the section is found and correct section if ( ptr == aStartTag && tagCount == aSeeked ) { // Start position lengthStartPos = lex.Offset(); break; } // Start tag is found but not correct section else if ( ptr == aStartTag ) { tagCount++; } } } // If we are end of section lex.Eos() and eos will be ETrue eos = lex.Eos(); // Seeked section is not found if ( tagCount != aSeeked ) { __TRACE( KInfo, ( _L( "STIFPARSER: NextSubSectionL method: Seeked subsection is not found" ) ) ); User::Leave( KErrNotFound ); } // Check is aEndTag given if ( aEndTag.Length() == 0 ) { lengthEndPos = iSection.MaxLength(); } else { // While end of section and aEndTag is given while ( !lex.Eos() ) { TPtrC ptr = lex.NextToken(); // End tag of the section is found if ( ptr == aEndTag ) { // End position lengthEndPos = lex.Offset(); // Because Offset() position is after the aEndTag lengthEndPos -= aEndTag.Length(); break; } } } // If we are end of section and lengthEndPos is 0 if ( lengthEndPos == 0 ) { // lex.Eos() and eos will be ETrue eos = lex.Eos(); } // The length includes spaces and end of lines length = ( lengthEndPos - lengthStartPos ); CStifSectionParser* section = NULL; // If eos is true or length is negative if ( eos || length <= 0 ) { __TRACE( KInfo, ( _L( "STIFPARSER: SubSectionL method returns a NULL" ) ) ); } else { // Position where start next parsing.(End position, // includes white spaces) iSubOffset = lex.Offset(); // Make CStifSectionParser object and alloc required length section = CStifSectionParser::NewL( length ); CleanupStack::PushL( section ); // Copy required data to the section object section->SetData( iSection, lengthStartPos, length ); CleanupStack::Pop( section ); } return section; }
/* ------------------------------------------------------------------------------- Class: CStifParser Method: NextSectionMemoryL Description: Parses sections from configuration files. Open and read configuration source and parses a required section. If start tag is empty the parsing starts beginning of the configuration file. If end tag is empty the parsing goes end of configuration file. This method will parse next section after the earlier section if aSeeked parameter is not given. If configuration file includes several sections with both start and end tags so aSeeked parameter seeks the required section. The aSeeked parameters indicates section that will be parsed. Parameters: const TDesC& aStartTag: in: Indicates a start tag for parsing const TDesC& aEndTag: in: Indicates an end tag for parsing TInt aSeeked: in: a seeked section which will be parsed Return Values: CStifSectionParser* : pointer to CStifSectionParser object NULL will return if file size or aSeeked is not positive NULL will return if start tag is not found NULL will return if end tag is not found NULL will return if parsed section length is not positive Errors/Exceptions: Leaves if called Size method fails Leaves if HBufC::NewLC method leaves Leaves if called Read method fails Leaves if CStifSectionParser::NewL methods leaves Status: Proposal ------------------------------------------------------------------------------- */ CStifSectionParser* CStifParser::NextSectionMemoryL( const TDesC& aStartTag, const TDesC& aEndTag, TInt aSeeked ) { TInt size( 0 ); // Parser is created straight with data if( iParsingMode == EBufferParsing ) { size = iBuffer.Length(); } // Parser is created with path and file informations else { User::LeaveIfError( iFile.Size( size ) ); } // size or aSeeked cannot be 0 or negetive if( size <= 0 || aSeeked <= 0) { __TRACE( KInfo, ( _L( "STIFPARSER: NextSectionL method returns a NULL" ) ) ); return NULL; } const TInt tmpSize = 128;//--UNICODE-- KMaxName; // 128 - set to even value, because KMaxName may change in the future TInt offset( 0 ); // Offset value to parts reading // Construct modifiable heap-based descriptor. tmp to CleanupStack HBufC* tmp = HBufC::NewLC( size ); TPtr wholeSection = tmp->Des(); // Construct modifiable heap-based descriptor. tmp2 to CleanupStack HBufC8* tmp2 = HBufC8::NewLC( tmpSize ); // 128 TPtr8 buf = tmp2->Des(); // Construct modifiable heap-based descriptor. tmp3 to CleanupStack HBufC* tmp3 = HBufC::NewLC( tmpSize ); // 128 TPtr currentSection = tmp3->Des(); // Parser is created straight with data if( iParsingMode == EBufferParsing ) { // If 8 bit copy changes to 16 wholeSection.Copy( iBuffer ); } // Parser is created with path and file informations else { TPtrC16 currentSectionUnicode; do // Read data in parts(Maximum part size is KMaxName) { // Read data User::LeaveIfError( iFile.Read( offset, buf, tmpSize ) ); // If file is unicode convert differently if(iIsUnicode) { // 8 bit to 16 with unicode conversion - simply point to byte array as to double-byte array currentSectionUnicode.Set((TUint16 *)(buf.Ptr()), buf.Length() / 2); // Appends current section to whole section wholeSection.Append( currentSectionUnicode ); } else { // 8 bit to 16 currentSection.Copy( buf ); // Appends current section to whole section wholeSection.Append( currentSection ); } offset += tmpSize; } while( offset < size ); } CleanupStack::PopAndDestroy( tmp3 ); CleanupStack::PopAndDestroy( tmp2 ); // User wants section without c-style comments if( iCommentType == ECStyleComments ) { ParseCommentsOff( wholeSection ); } TLex lex( wholeSection ); lex.SkipAndMark( iOffset ); // For the required section length and positions TInt length( 0 ); TInt lengthStartPos( 0 ); TInt lengthEndPos( 0 ); TBool eos( EFalse ); TInt tagCount( 1 ); // Check is aStartTag given if ( aStartTag.Length() == 0 ) { // Skip line break, tabs, spaces etc. lex.SkipSpace(); lengthStartPos = lex.Offset(); } else { // While end of section while ( !lex.Eos() ) { TPtrC ptr = lex.NextToken(); // Start of the section is found and correct section if ( ptr == aStartTag && tagCount == aSeeked ) { lengthStartPos = lex.Offset(); break; } // Start tag is found but not correct section else if ( ptr == aStartTag ) { tagCount++; } } } // If we are end of section lex.Eos() and eos will be ETrue eos = lex.Eos(); // Seeked section is not found if ( tagCount != aSeeked ) { __TRACE( KInfo, ( _L( "STIFPARSER: NextSectionL method: Seeked section is not found" ) ) ); CleanupStack::PopAndDestroy( tmp ); User::Leave( KErrNotFound ); } // Check is aEndTag given if ( aEndTag.Length() == 0 ) { lengthEndPos = wholeSection.Length(); } else { // While end of section while ( !lex.Eos() ) { TPtrC ptr = lex.NextToken(); // End tag of the section is found if ( ptr == aEndTag ) { lengthEndPos = lex.Offset(); // Because Offset() position is after the aEndTag lengthEndPos -= aEndTag.Length(); break; } } } // If we are end of section and lengthEndPos is 0 if ( lengthEndPos == 0 ) { // lex.Eos() and eos will be ETrue eos = lex.Eos(); } // The length includes spaces and end of lines length = ( lengthEndPos - lengthStartPos ); CStifSectionParser* section = NULL; // If eos is true or length is negative if ( eos || length <= 0 ) { __TRACE( KInfo, ( _L( "STIFPARSER: NextSectionL method returns a NULL" ) ) ); } else { // Make CStifSectionParser object and alloc required length section = CStifSectionParser::NewL( length ); CleanupStack::PushL( section ); // Copy required data to the section object section->SetData( wholeSection, lengthStartPos, length ); //iOffset += lengthEndPos + aEndTag.Length(); iOffset = lex.Offset(); CleanupStack::Pop( section ); } CleanupStack::PopAndDestroy( tmp ); return section; }