  OS/2 2.0 Information Presentation Facility (IPF) Data Format - version 2
  ----------------------------------------------------------------------- -
  
  *** introduction to version 1 ***

  Having become extremely frustrated by VIEW.EXE's penchant for windows
  that come and go, without even opening large enough to see everything
  in them, I thought I'd try to turn .INF files into something more
  conventional.  While I don't have code to offer, I can tell you what I
  learned about .INF format--it was enough to produce more-or-less
  readable more-or-less plaintext from .INFs.
  
  I offer this in the hope that somebody will give the community a
  really nice, tasteful, convenient, doesn't-use-too-much-screen-real-estate 
  .INF browser to replace VIEW.EXE.
  
  All of this was developed by looking at .INF files without any
  documentation of the format except what VIEW.EXE showed for a
  particular feature.

  I don't have a lot of personal interest in refining this document with
  additional escape sequences, etc., but I would be happy to correspond
  with someone who wanted to fill in the details, or to clarify anything
  that may be confusing.  If someone could point us to an official document
  describing the format that would be most helpful.

  -- Carl Hauser (chauser.parc@xerox.com)


  *** introduction to version 2 ***

  The original document contained most of the real tricky stuff in the file
  format (especially the compression algorithm) so going on from there was
  mainly a task of creating lots of help files using the IPFC and the
  decompiling them again to see what came out.

  I fixed a few minor bugs in the description of the header which was
  extended to describe the entire structure I believe to be the header
  (because variable data starts afterwards).

  A number of escape codes have also been added and the descriptions of
  others have been refined. There are still a lot of question marks about
  the format, but this description already allows disassembling the text
  into ASCII form in a fairly true-to-life format (including indentations
  etc.).

  Further research should go into the way multiple windows are handled
  (I didn't work on that because I have never required multiple window
  displays in my help files and therefore am not familiar with the concepts).
  Font usage and graphics linking could also use some more fiddling around.

  -- Marcus Groeber (marcusg@ph-cip.uni-koeln.de - Fidonet 2:243/8605.1)


  **** Types ****

     All numeric quantities are least-significant-byte first in the file
     (little-endian).
  
     bit1       1 bit boolean           \  used only for explaining
     int4       4 bit unsigned integer  /  packed structures
     char8      8 bit character (ASCII more-or-less)
     int8       8 bit unsigned integer
     int16      16 bit unsigned integer
     int32      32 bit unsigned integer 
     
  **** The File Header ****
  
      Starting at file offset 0 the following structure can overlay the file
      to provide some starting values:
          {
            int16 ID;           // ID magic word (5348h = "HS")
            int8  unknown1;     // unknown purpose, could be third letter of ID
            int8  flags;        // probably a flag word...
                                //  bit 0: set if INF style file
                                //  bit 4: set if HLP style file
                                // patching this byte allows reading HLP files
                                // using the VIEW command, while help files 
                                // seem to work with INF settings here as well.
            int16 hdrsize;      // total size of header
            int16 unknown2;     // unknown purpose
            int16 ntoc;         // 16 bit number of entries in the tocarray
            int32 tocstrtablestart;  // 32 bit file offset of the start of the
                                     // strings for the table-of-contents
            int32 tocstrlen;    // number of bytes in file occupied by the
                                // table-of-contents strings
            int32 tocstart;     // 32 bit file offset of the start of tocarray
            int16 nres;         // number of panels with ressource numbers
            int32 resstart;     // 32 bit file offset of ressource number table
            int16 nname;        // number of panels with textual name
            int32 namestart;    // 32 bit file offset to panel name table
            int16 nindex;       // number of index entries
            int32 indexstart;   // 32 bit file offset to index table
            int32 indexlen;     // size of index table
            int8  unknown3[10]; // unknown purpose
            int32 searchstart;  // 32 bit file offset of full text search table
            int32 searchlen;    // size of full text search table
            int16 nslots;       // number of "slots"
            int32 slotsstart;   // file offset of the slots array
            int32 dictlen;      // number of bytes occupied by the "dictionary"
            int16 ndict;        // number of entries in the dictionary
            int32 dictstart;    // file offset of the start of the dictionary
            int32 imgstart;     // file offset of image data
            int8  unknown4;     // unknown purpose
            int32 nlsstart;     // 32 bit file offset of NLS table
            int32 nlslen;       // size of NLS table
            int32 extstart;     // 32 bit file offset of extended data block
            int8  unknown5[12]; // unknown purpose
            char8 title[48];    // ASCII title of database
          }
    
  **** The table of contents array ****
  
      Beginning at file offset tocstart, this structure can overlay the
      file:
          {
             int32  tocentrystart[ntoc];       // array of file offsets of
                                               // tocentries
          }
  
  **** The table of contents entries ****
  
      Beginning at each file offset, tocentrystart[i]:
          {
             int8 len;          // length of the entry including this byte
             int8 flags;        // flag byte, description folows (MSB first)
             // bit1 haschildren;  // following nodes are a higher level
             // bit1 hidden;       // this entry doesn't appear in VIEW.EXE's
                                   // presentation of the toc
             // bit1 extended;     // extended entry format
             // bit1 stuff;        // ??
             // int4 level;        // nesting level
             int8 ntocslots;    // number of "slots" occupied by the text for
                                // this toc entry
          }

      if the "extended" bit is not 1, this is immediately followed by 

          {
             int16 tocslots[ntocslots]; // indices of the slots that make up
                                        // the article for this entry
             char8 title[];             // the remainder of the tocentry
                                        // until len bytes have been used [not
                                        // zero terminated]
          }

      if extended is 1 there are intervening bytes that (I think) describe
      the kind, size and position of the window in which to display the
      article.  I haven't decoded these bytes, though in most cases the
      following tells how many there are.  Overlay the following on the next
      two bytes
          { 
             int8 w1;
             int8 w2;
          }
      Here's a C code fragment for computing the number of bytes to skip
          int bytestoskip = 0; 
          if (w1 & 0x8) { bytestoskip += 2 };
          if (w1 & 0x1) { bytestoskip += 5 };
          if (w1 & 0x2) { bytestoskip += 5 };
          if (w2 & 0x4) { bytestoskip += 2 };

      skip over bytestoskip bytes (after w2) and find the tocslots and title
      as in the non-extended case.
  
  **** The Slots array ****
  
      Beginning at file offset slotsstart (provided by the file header) find
          {
             int32 slots[nslots];       // file offset of the article
                                        // corresponding  to this slot
          }
  
  **** The Dictionary ****
  
      Beginning at  file offset dictstart (provided by the file header) and
      continuing until ndict entries have been read (and dictlen bytes have
      been consumed from the file) find a sequence of length-preceeded
      strings.  Note that the length includes the length byte (not Pascal
      compatible!).  Build a table mapping i to the ith string.
          {
             char8*     strings[ndict];
          }
  
  **** The Article entries ****
  
      Beginning at file offset slots[i] the following structure can overlay
      the file:
          {
             int8       stuff;          // ?? [always seen 0]
             int32      localdictpos;   // file offset of the local dictionary
             int8       nlocaldict;     // number of entries in the local dict
             int16      ntext;          // number of bytes in the text
             int8       text[ntext];    // encoded text of the article
          }

  **** The Local dictionary ****

      Beginning at file position localdictpos (for each article) there is an
      array:
          {
             int16      localwords[nlocaldict];
          }
  
  **** The Text ****
  
      The text for an article then consists of words obtained by referencing
      strings[localwords[text[i]]] for i in (0..ntext), with the following
      exceptions.  If text[i] is greater than nlocaldict it means

         0xfa => end-of-paragraph, sets spacing to TRUE
         0xfb => [unknown]
         0xfc => spacing = !spacing 
         0xfd => line break (outside an example: ".br",
                   sets spacing to TRUE if not in a
                   monospace example)
         0xfe => space
         0xff => escape sequence                        // see below
         
      When spacing is true, each word needs a space put after it.  When
      false, the words are abutted and spaces are supplied using 0xfe or the
      dictionary.  Examples are entered and left with 0xff escape sequences.  
      The variable "spacing" is initially (start of every article slot) TRUE.

  **** 0xff escape sequences ****

      These are used to change fonts, make cross references, enter and leave
      examples, etc.  The general format is
          {
             int8       FF;             // always equals 0xff
             int8       esclen;         // length of the sequence (including
                                        // esclen but excluding FF)
             int8       escCode;        // which escape function
          }

     escCodes I have partially deciphered are

          0x01 =>               unknown
    
          0x02 or 0x11 =>       (esclen==3) set left margin.
               or 0x12          0x11 always starts a new line. Arguments
                                  {
                                     int8  margin;   // in spaces, 0=no margin
                                  }
                                note: in an IPF source, you must code
                                :lm margin=256. to reset the left margin.

          0x03 =>               (esclen==3) set right margin. Arguments
                                  {
                                     int8  margin;   // in spaces, 1=no margin
                                  }

          0x04 =>               (esclen==3) change style. Arguments
                                  {
                                     int8  style;    // 1,2,3: same as :hp#.
                                                     // 4,5,6: same as :hp5,6,7.
                                                     // 0 returns to plain text
                                  }
        
          0x05 =>               (esclen varies) beginning of cross
                                reference.  The next two bytes of the
                                escape sequence are an int16 index of
                                the tocentrystart array.  The
                                remaining bytes describe the size,
                                position and characteristics of the
                                window created when the
                                cross-reference is followed by VIEW.
                                I have not decoded this.

          0x06 =>               unknown

          0x07 =>               (esclen==4) footnote (:fn. tag). Arguments:
                                  {
                                     int16  toc;  // toc entry number of text
                                  }

          0x08 =>               (escLen==2) end of cross reference
                                introduced by escape code 0x05 or 0x07

          0x09 =>               unknown

          0x0A =>               unknown
        
          0x0B =>               (escLen==2) begin monosp. example.  set
                                spacing to FALSE
          
          0x0C =>               (escLen==2) end monosp. example.  set
                                spacing to TRUE

          0x0D =>               (escLen==2) special text colors. Arguments:
                                  {
                                     int8  color;   // 1,2,3: same as :hp4,8,9.
                                                    // 0: default color
                                  }

          0x0E =>               [bitmap]
          
          0x0F =>               if esclen==5 an inlined cross
                                reference: the title of the referenced
                                article becomes part of the text.
                                This is probably the case even if
                                esclen is not 5, but I don't know the
                                decoding.  In the case that esclen is
                                5, I don't know the purpose of the
                                byte following the escCode, but the
                                two bytes after that are an int16
                                index of the tocentrystart array.

          0x10 =>               [special link, reftype=launch]

          0x13 or 0x14 =>       (esclen==2) Set foreground (0x13)
                                and background (0x14) color.  Arguments:
                                  {
                                     int8  color;   
                                  }

          0x15 =>               unknown

          0x16 =>               [special link, reftype=inform]

          0x17 =>               hide text (:hide. tag). Arguments:
                                  {
                                     char8 key[];  // key required to show text
                                  }

          0x18 =>               end of hidden text (:ehide.)

          0x19 =>               (esclen==3) change font?  I haven't
                                checked VIEW's decoding of the next
                                byte.  I used the same decoding as for
                                0x04
          
          0x1A =>               (escLen==3) begin :lines. sequence.  set
                                spacing to FALSE.  Arguments
                                  {
                                     int8  alignment; // 1,2,4=left,right,center
                                  }
          
          0x1B =>               (escLen==2) end :lines. sequence.  set
                                spacing to TRUE

          0x1C =>               (escLen==2) Set left margin to current 
                                position.  Margin is reset at end of
                                paragraph.

          0x1F =>               [special link, reftype=hd database=...]

          0x20 =>               (esclen==4) :ddf. tag. Arguments:
                                  {
                                     int16  res;  // value of res attribute
                                  }
      
      The font used in the text is the normal IBM extended character set,
      including line graphics and some of the characters below 32.

  **** The ressource number array ****

      Beginning at file offset resstart, this structure can overlay the
      file:
          {
              int16  res[nres];         // ressource number of panels
              int16  toc[nres];         // toc entry number of panel
          }
  
  **** The text name array ****
  
      Beginning at file offset namestart, this structure can overlay the
      file:
          {
              int16  name[nres];        // index to panel name in dictionary
              int16  toc[nres];         // toc entry number of panel
          }

  **** The index table ****

      Beginning at file offset indexstart, a structure like the following
      is stored for each of the nindex words (in alphabetical order).
          {
              int8  nword;              // size of name
              int8  level;              // indent level
                                        // bit 6 set: global entry
              int8  stuff;
              int16 toc;                // toc entry number of panel
              char8 word[nword];        // index word [not zero-terminated]
          }

  **** The extended data block ****

      Not yet decoded.  This block has a size of 64 bytes and contains various
      pointers to font names, names of externel databases etc.
                          
  **** The full text search table ****

      Not yet decoded.  This table is supressed when "/S" is specified on
      the IPFC command line.

  **** Image data ****

      Not yet decoded. This area contains data for graphics contained in the
      text.

  **** NLS table ****

      Not yet decoded. This table contains informations specific to the
      language and codepage the document was prepared in. It seems to contain
      some bitfields as well that might be used for character classification.
      
Appendix 1: Some useful translations from IBM Extended ASCII to normal ASCII

      One other transformation I had to make was of the character box
      characters of the IBM extended ASCII set.  These characters appear in strings 
      in the dicitonary.  They are given here in octal together with their translation.
      
	  020, 021	=> blank seems satisfactory
	  037 		=> solid down arrow: used to give direction to
				a line in the syntax diagrams
	  0263 		=> vertical bar
	  0264 		=> left connector: vertical bar with short
				horizontal bar extending left from the
				center
	  0277, 0300 	=> top right or bottom left corner; one is
				one, the other is the other and I
				can't tell which from my translation
	  0301 		=> up connector: horizontal line with vertical
				line extending up from the center
	  0302 		=> down connector: horizontal line with
				vertical line extending down from the
				center
	  0303 		=> right connector: vertical bar with short
				horizontal bar extending right from
				the center
	  0304 		=> horizontal bar
	  0305 		=> cross connector, i.e. looks like + only
				slightly larger to connect with
				adjacent chars
	  0331, 0332 	=> top left or bottom right corner; one is
				one, the other is the other and I
				can't tell which from my translation
				

Appendix 2:  Style codes for escCode 0x04 and 0x0D

      escCode 0x04 implements font changes associated with the :hp# IPF source tag.  

          :hp1 is italic font
          :hp2 is bold font
          :hp3 is bold italic font
          :hp5 is normal underlined font
          :hp6 is italic underlined font
          :hp7 is bold underlined font

     tags :hp4, :hp8, and :hp9 introduce different colored text which is encoded in
     the .inf or .hlp file using escCode 0x0D.  On my monitor normal text is dark blue.
     
          :hp4 text is light blue
          :hp8 text is red
          :hp9 text is magenta



History:
October 22, 1992: version for initial posting (inf01.doc)
July 12, 1993: second version (refer to introduction for changes) (inf02.doc)
July 18, 1993: added appendices to the second version (inf02a.doc)

