bool CFI::CompileCFI(const string &str)
{
// strip the 'epubcfi(...)' wrapping
string cfi(str);
if ( str.find("epubcfi(") == 0 )
{
cfi = cfi.substr(8, (str.size()-1)-8);
}
else if ( str.size() == 0 || str[0] != '/' )
{
// invalid CFI
return false;
}
StringList rangePieces = RangedCFIComponents(cfi);
if ( rangePieces.size() != 1 && rangePieces.size() != 3 )
return false;
if ( CompileComponentsToList(CFIComponentStrings(rangePieces[0]), &_components) == false )
return false;
if ( rangePieces.size() == 3 )
{
if ( CompileComponentsToList(CFIComponentStrings(rangePieces[1]), &_rangeStart) == false )
return false;
if ( CompileComponentsToList(CFIComponentStrings(rangePieces[2]), &_rangeEnd) == false )
return false;
// now sanity-check the range delimiters:
// neither should be empty
if ( _rangeStart.empty() || _rangeEnd.empty() )
return false;
// check the offsets at the end of each— they should be the same type
if ( (_rangeStart.back().flags & Component::OffsetsMask) != (_rangeEnd.back().flags & Component::OffsetsMask) )
return false;
// where the delimiters' component ranges overlap, start must be <= end
auto maxsz = std::max(_rangeStart.size(), _rangeEnd.size());
bool inequalNodeIndexFound = false;
for ( decltype(maxsz) i = 0; i < maxsz; i++ )
{
if ( _rangeStart[i].nodeIndex > _rangeEnd[i].nodeIndex )
return false;
else if ( !inequalNodeIndexFound && _rangeStart[i].nodeIndex < _rangeEnd[i].nodeIndex )
inequalNodeIndexFound = true;
}
// if the two ranges are equal aside from their offsets, the end offset must be > the start offset
if ( !inequalNodeIndexFound && _rangeStart.size() == _rangeEnd.size() )
{
Component &s = _rangeStart.back(), &e = _rangeEnd.back();
if ( s.HasCharacterOffset() && s.characterOffset > e.characterOffset )
{
return false;
}
else
{
if ( s.HasTemporalOffset() && s.temporalOffset > e.temporalOffset )
return false;
if ( s.HasSpatialOffset() && s.spatialOffset > e.spatialOffset )
return false;
}
}
_options |= RangeTriplet;
}
return true;
}
bool CFI::CompileCFI(const string &str)
{
// strip the 'epubcfi(...)' wrapping
string cfi(str);
if ( str.find("epubcfi(") == 0 )
{
cfi = cfi.substr(8, (str.size()-1)-8);
}
else if ( str.size() == 0 )
{
HandleError(EPUBError::CFIParseFailed, "Empty CFI string");
return false;
}
else if ( str[0] != '/' )
{
HandleError(EPUBError::CFINonSlashStartCharacter);
}
StringList rangePieces = RangedCFIComponents(cfi);
if ( rangePieces.size() != 1 && rangePieces.size() != 3 )
{
HandleError(EPUBError::CFIRangeComponentCountInvalid, _Str("Expected 1 or 3 range components, got ", rangePieces.size()));
if ( rangePieces.size() == 0 )
return false;
}
if ( CompileComponentsToList(CFIComponentStrings(rangePieces[0]), &_components) == false )
return false;
if ( rangePieces.size() >= 3 )
{
if ( CompileComponentsToList(CFIComponentStrings(rangePieces[1]), &_rangeStart) == false )
return false;
if ( CompileComponentsToList(CFIComponentStrings(rangePieces[2]), &_rangeEnd) == false )
return false;
// now sanity-check the range delimiters:
// neither should be empty
if ( _rangeStart.empty() || _rangeEnd.empty() )
{
HandleError(EPUBError::CFIRangeInvalid, "One of the supplied range components was empty.");
return false;
}
// check the offsets at the end of each— they should be the same type
if ( (_rangeStart.back().flags & Component::OffsetsMask) != (_rangeEnd.back().flags & Component::OffsetsMask) )
{
HandleError(EPUBError::CFIRangeInvalid, "Offsets at the end of range components are of different types.");
return false;
}
// ensure that there are no side-bias values
if ( (_rangeStart.back().sideBias != SideBias::Unspecified) ||
(_rangeEnd.back().sideBias != SideBias::Unspecified) )
{
HandleError(EPUBError::CFIRangeContainsSideBias);
// can safely ignore this one
}
// where the delimiters' component ranges overlap, start must be <= end
auto maxsz = std::max(_rangeStart.size(), _rangeEnd.size());
bool inequalNodeIndexFound = false;
for ( decltype(maxsz) i = 0; i < maxsz; i++ )
{
if ( _rangeStart[i].nodeIndex > _rangeEnd[i].nodeIndex )
{
HandleError(EPUBError::CFIRangeInvalid, "Range components appear to be out of order.");
}
else if ( !inequalNodeIndexFound && _rangeStart[i].nodeIndex < _rangeEnd[i].nodeIndex )
{
inequalNodeIndexFound = true;
}
}
// if the two ranges are equal aside from their offsets, the end offset must be > the start offset
if ( !inequalNodeIndexFound && _rangeStart.size() == _rangeEnd.size() )
{
Component &s = _rangeStart.back(), &e = _rangeEnd.back();
if ( s.HasCharacterOffset() && s.characterOffset > e.characterOffset )
{
HandleError(EPUBError::CFIRangeInvalid, "Range components appear to be out of order.");
}
else
{
if ( s.HasTemporalOffset() && s.temporalOffset > e.temporalOffset )
HandleError(EPUBError::CFIRangeInvalid, "Range components appear to be out of order.");
if ( s.HasSpatialOffset() && s.spatialOffset > e.spatialOffset )
HandleError(EPUBError::CFIRangeInvalid, "Range components appear to be out of order.");
}
}
_options |= RangeTriplet;
}
return true;
}
