//---------------------------------------------------------------------------
void File_Tiff::Read_Directory()
{
/* Each directory consist of 4 fields */
/* Get information for this directory */
Element_Begin0();
ifditem IfdItem;
Get_X2 (IfdItem.Tag, "Tag"); Param_Info1(Tiff_Tag_Name(IfdItem.Tag));
Get_X2 (IfdItem.Type, "Type"); Param_Info1(Tiff_Type_Name(IfdItem.Type));
Get_X4 (IfdItem.Count, "Count");
Element_Name(Tiff_Tag_Name(IfdItem.Tag));
if (Tiff_Type_Size(IfdItem.Type)*IfdItem.Count<=4)
{
GetValueOffsetu(IfdItem);
/* Padding up, skip dummy bytes */
if (Tiff_Type_Size(IfdItem.Type)==0)
{
if (Element_Offset+4<Element_Size)
Skip_XX(Element_Size-(Element_Offset+4), "Unknown");
}
else if (Tiff_Type_Size(IfdItem.Type)*IfdItem.Count<4)
Skip_XX(Tiff_Type_Size(IfdItem.Type)*IfdItem.Count, "Padding");
}
else
{
int32u IFDOffset;
Get_X4 (IFDOffset, "IFDOffset");
IfdItems[IFDOffset]=IfdItem;
}
Element_End0();
}
//---------------------------------------------------------------------------
void File_Tiff::Header_Parse()
{
//Handling remaining IFD data
if (!IfdItems.empty())
{
if (File_Offset+Buffer_Offset!=IfdItems.begin()->first)
IfdItems.clear(); //There was a problem during the seek, trashing remaining positions from last IFD
else
{
Header_Fill_Code(IfdItems.begin()->second.Tag, Tiff_Tag_Name(IfdItems.begin()->second.Tag));
Header_Fill_Size(Tiff_Type_Size(IfdItems.begin()->second.Type)*IfdItems.begin()->second.Count);
return;
}
}
/* A tiff images consist in principle of two types of blocks, IFD's and data blocks */
/* Each datablock, which could be a image, tiles, transperancy filter is described by one IFD. */
/* These IFD's can be placed at any offset in the file and are linked in a chain fashion way. */
/* where one IFD points out where the next IFD is placed */
/* */
/* A creator of a tiff file must describe the "main image" in the first IFD, this means that a */
/* reader, such this one, only need to read the first IFD in order to get the bitdepth, resolution etc. */
/* of the main image. */
/* Read one IFD and print out the result */
/* Scan the tiff file for the IFD's (Image File Directory) */
/* As long as the IFD offset to the next IFD in the file is not 0 */
/* Get number of directories for this IFD */
int16u NrOfDirectories;
Get_X2 (NrOfDirectories, "NrOfDirectories");
//Filling
Header_Fill_Code(0xFFFFFFFF, "IFD"); //OxFFFFFFFF can not be a Tag, so using it as a magic value
Header_Fill_Size(2+12*((int64u)NrOfDirectories)+4); //2 for header + 12 per directory + 4 for next IFD offset
}
//---------------------------------------------------------------------------
void File_Dpx::GenericSectionHeader_Dpx()
{
Element_Name("Generic section header");
//Parsing
Element_Begin1("File information");
std::string Version, CreationDate, Creator, Project, Copyright;
int32u Size_Header, Size_Total, Size_Generic, Size_Industry, Size_User;
Skip_String(4, "Magic number");
Get_X4 (Size_Header, "Offset to image data");
Get_String(8, Version, "Version number of header format");
Get_X4 (Size_Total, "Total image file size");
Skip_B4( "Ditto Key");
Get_X4 (Size_Generic, "Generic section header length");
Get_X4 (Size_Industry, "Industry specific header length");
Get_X4 (Size_User, "User-defined header length");
Skip_UTF8 (100, "FileName");
Get_String (24, CreationDate, "Creation Date");
Get_String (100, Creator, "Creator");
Get_String (200, Project, "Project");
Get_String (200, Copyright, "Right to use or copyright statement");
Skip_B4( "Encryption key");
Skip_XX(104, "Reserved for future use");
Element_End0();
Element_Begin1("Image information");
int32u Width, Height, PAR_H, PAR_V;
int16u ImageElements;
Info_B2(ImageOrientation, "Image orientation");Param_Info1(DPX_Orientation[ImageOrientation]);
Get_X2 (ImageElements, "Number of image elements");
if (ImageElements>8)
ImageElements=8;
Get_X4 (Width, "Pixels per line");
Get_X4 (Height, "Lines per image element");
for(int16u ImageElement=0; ImageElement<ImageElements; ImageElement++)
GenericSectionHeader_Dpx_ImageElement();
if (ImageElements!=8)
Skip_XX((8-ImageElements)*72, "Padding");
Skip_XX(52, "Reserved for future use");
Element_End0();
Element_Begin1("Image source information");
Skip_B4( "X Offset");
Skip_B4( "Y Offset");
Skip_BF4( "X center");
Skip_BF4( "Y center");
Skip_B4( "X original size");
Skip_B4( "Y original size");
Skip_UTF8(100, "Source image filename");
Skip_UTF8(24, "Source image date/time");
Skip_UTF8(32, "Input device name");
Skip_UTF8(32, "Input device serial number");
Element_Begin1("Border validity");
Skip_B2( "XL border");
Skip_B2( "XR border");
Skip_B2( "YT border");
Skip_B2( "YB border");
Element_End0();
Get_X4 (PAR_H, "Pixel ratio : horizontal");
Get_X4 (PAR_V, "Pixel ratio : vertical");
Element_Begin1("Additional source image information");
Skip_BF4( "X scanned size");
Skip_BF4( "Y scanned size");
Skip_XX(20, "Reserved for future use");
Element_End0();
FILLING_BEGIN();
//Coherency tests
if (File_Offset+Buffer_Offset+Size_Total!=Config->File_Current_Size)
Size_Total=(int32u)(Config->File_Current_Size-(File_Offset+Buffer_Offset)); //The total size is bigger than the real size
if (Size_Generic==(int32u)-1)
Size_Generic=(int32u)Element_Size;
if (Size_Industry==(int32u)-1)
Size_Industry=0;
if (Size_User==(int32u)-1)
Size_User=0;
if (Size_Generic+Size_Industry+Size_User>Size_Header || Size_Header>Size_Total)
{
Reject();
return;
}
//Filling sizes
Sizes.push_back(Size_Header);
Sizes.push_back(Size_Industry);
Sizes.push_back(Size_User);
Sizes.push_back(Size_Header-(Size_Generic+Size_Industry+Size_User)); //Size of padding
Sizes.push_back(Size_Total-Size_Header); //Size of image
//Filling meta
if (Frame_Count==0)
{
Fill(Stream_General, 0, General_Encoded_Date, CreationDate); //ToDo: transform it in UTC
Fill(StreamKind_Last, StreamPos_Last, "Encoded_Date", CreationDate); //ToDo: transform it in UTC
Fill(Stream_General, 0, General_Encoded_Library, Creator);
Fill(StreamKind_Last, StreamPos_Last, "Encoded_Library", Creator);
Fill(Stream_General, 0, "Project", Project); //ToDo: map to a MediaInfo field (which one?)
Fill(Stream_General, 0, General_Copyright, Copyright);
Fill(StreamKind_Last, StreamPos_Last, "Format", "DPX");
if (Version.size()>2 && Version[0]=='V' && Version[1]>='0' && Version[2]<='9')
Version.insert(1, "ersion ");
Fill(StreamKind_Last, StreamPos_Last, "Format_Version", Version);
Fill(Stream_General, 0, General_Format_Version, Version);
Fill(StreamKind_Last, StreamPos_Last, "Width", Width);
Fill(StreamKind_Last, StreamPos_Last, "Height", Height);
if (PAR_V && PAR_H!=(int32u)-1 && PAR_V!=(int32u)-1)
Fill(StreamKind_Last, StreamPos_Last, "PixelAspectRatio", ((float)PAR_H)/PAR_V);
else
Fill(StreamKind_Last, StreamPos_Last, "PixelAspectRatio", (float)1, 3);
}
FILLING_END();
}
