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Unit IPFFileFormatUnit;
{$mode objfpc}{$H+}
interface
// Definition of IPF file header and other structures
uses
SysUtils;
type
uint32 = longword;
uint16 = word;
uint8 = byte;
pUInt16 = ^uint16;
pUInt32 = ^uint32;
pUInt8 = ^uint8;
Unsigned_31 = 0 .. (1 shl 31) - 1; // 31-bit type
Unsigned_4 = 0 .. (1 shl 4) - 1; // 4-bit type
Unsigned_1 = 0 .. (1 shl 1) - 1; // 1-bit type
PCharArray = packed array[ 0..0 ] of PCHar;
UInt32Array = packed array[ 0..0 ] of UInt32;
UInt16Array = packed array[ 0..0 ] of UInt16;
UInt8Array = packed array[ 0..0 ] of UInt8;
PCharArrayPointer = ^PCharArray;
UInt32ArrayPointer = ^UInt32Array;
UInt16ArrayPointer = ^UInt16Array;
UInt8ArrayPointer = ^UInt8Array;
TBooleanArray = array[ 0..0 ] of boolean;
BooleanArrayPointer = ^TBooleanArray;
EHelpFileException = class( Exception )
end;
EWindowsHelpFormatException = class( Exception )
end;
TProgressCallback = procedure(n, outof: integer; AMessage: string) of object;
const
ErrorCorruptHelpFile = 'Corrupt help file, or something similar';
const
INF_HEADER_ID = 'HSP';
Type
THelpFileHeader = packed record
ID: array[0..2] of ansichar; // ID magic word "HSP"
flags: uint8; // probably a flag word...
// [0x01] bit 0: set if INF style file
// [0x10] 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.
hdrsize: uint16; // total size of header
version_hi: uint8;
version_lo: uint8;
ntoc: uint16; // number of entries in the tocarray
tocstart: uint32; // file offset of the start of the toc
toclen: uint32; // number of bytes in file occupied by the toc
tocoffsetsstart: uint32; // file offset of the start of array of toc offsets
nres: uint16; // number of panels with ressource numbers
resstart: uint32; // 32 bit file offset of ressource number table
nname: uint16; // number of panels with textual name
namestart: uint32; // 32 bit file offset to panel name table
nindex: uint16; // number of index entries
indexstart: uint32; // 32 bit file offset to index table
indexlen: uint32; // size of index table
icmdCount: uint16; // number of icmd index items
icmdOffset: uint32; // file offset to icmd index items
icmdSize: uint32; // size of icmd index table
searchstart: uint32; // 31 bit file offset of full text search table
// Note: top bit indicates 32 bit search record!
searchlen: uint32; // size of full text search table
nslots: uint16; // number of "slots"
slotsstart: uint32; // file offset of the slots array
dictlen: uint32; // number of bytes occupied by the "dictionary"
ndict: uint16; // number of entries in the dictionary
dictstart: uint32; // file offset of the start of the dictionary
imgstart: uint32; // file offset of image data
maxCVTIndex: byte; // highest index inside panel's local dictionary,
// always seems to be 245
nlsstart: uint32; // 32 bit file offset of NLS table
nlslen: uint32; // size of NLS table
extstart: uint32; // 32 bit file offset of extended data block
reserved: array[ 0..11 ] of byte; // for future use. set to zero.
title: array[ 0..47 ] of ansichar; // ASCII title of database
end;
TPHelpFileHeader = ^THelpFileHeader;
TExtendedHelpFileHeader = packed record
NumFontEntry: uint16; // FONT TABLE: Number entries
FontTableOffset: uint32; // FONT TABLE: Offset in file
NumDataBase: uint16; // DATA BASE: Number of files
DataBaseOffset: uint32; // DATA BASE: Offset in file
DataBaseSize: uint32; // DATA BASE: Size in bytes
EntryInGNameTable: uint16; // GLOBAL NAMES: Number entries
HelpPanelGNameTblOffset: uint32; // GLOBAL NAMES: Offset in file
StringsOffset: uint32; // STRINGS : Offset in file
StringsSize: uint16; // STRINGS : Total bytes of all strings
ChildPagesOffset: uint32; // CHILDPAGES : Offset in file
ChildPagesSize: uint32; // CHILDPAGES : Total bytes of all strings
NumGIndexEntry: uint32; // Total number of Global Index items
CtrlOffset: uint32; // CTRL BUTTONS : offset in file
CtrlSize: uint32; // CTRL BUTTONS : size in bytes
Reserved: array[0..3] of uint32; // For future use. Set to zero
end;
TPExtendedHelpFileHeader = ^TExtendedHelpFileHeader;
Type
TTOCEntryStart = packed record
length: uint8; // length of the entry including this byte (but not including extended data)
flags: uint8; // flag byte, description folows (MSB first)
// bit8 haschildren; // following nodes are a higher level
// bit7 hidden; // this entry doesn't appear in VIEW.EXE's
// presentation of the toc
// bit6 extended; // extended entry format
// bit5 stuff; // ??
// int4 level; // nesting level
numSlots: uint8; // number of "slots" occupied by the text for
// this toc entry
end;
pTTOCEntryStart = ^TTOCEntryStart;
TExtendedTOCEntry = packed record
w1: uint8;
// bit 3: Window controls are specified
// bit 2: Viewport
// bit 1: Size is specified.
// bit 0: Position is specified.
w2: uint8;
// bit 3:
// bit 2: Group is specified.
// bit 1
// bit 0: Clear (all windows before display)
end;
pExtendedTOCEntry = ^TExtendedTOCEntry;
TTOCEntryOffsetArray = packed array[ 0..0 ] of uint32;
pTTOCEntryOffsetArray = ^TTOCEntryOffsetArray;
const
TOCEntryExtended = $20; { extended entry format }
TOCEntryHidden = $40; { this entry doesn't appear in VIEW.EXE's presentation of the toc }
TOCEntryHasChildren = $80; { following nodes are a higher level }
TOCEntryLevelMask = $0f;
type
THelpXYPair = packed record
Flags: uint8;
X: uint16;
Y: uint16;
end;
pHelpXYPair = ^THelpXYPair;
TSlotHeader = packed record
stuff: uint8; // always 0??
localdictpos: uint32; // file offset of the local dictionary
nlocaldict: uint8; // number of entries in the local dict
ntext: uint16; // number of bytes in the text
end;
pSlotHeader = ^TSlotHeader;
THelpFontSpec = packed record
FaceName: array[ 0..32 ] of ansichar;
Height: uint16;
Width: uint16;
Codepage: uint16;
end;
pTHelpFontSpec = ^THelpFontSpec;
TNlsHeader = packed record
NlsSize: uint16;
NlsType: uint8;
NlsFormat: uint8;
end;
TNlsCountryDef = packed record
{ if the following is true then...
NlsHeader.size = 10
NlsHeader.type = NLSRecType.CONTROL
NlsHeader.format = 0
}
Value: uint16; // =256
Code: uint16; // country code
Page: uint16; // code page
Reserved: uint16;
end;
// Single-byte character set
TSbcsNlsGrammerDef = packed record
{ if the following is true then...
NlsHeader.size = 36
NlsHeader.type = NLSRecType.WORD || NLSRecType.GRAPHIC
NlsHeader.format = 0
}
bits: array[0..31] of uint8; // high-order bits first
end;
TPanelControls = packed record
ControlCount: uint16; // number of ControlDef records
GroupCount: uint16; // number of GroupDef records
GroupIndex: uint16; // for cover page
Reserved: uint16;
end;
TControlDef = packed record
CtrlType: uint16; // type of control
ResourceID: uint16; // resource id (panel) it belongs to
{ variable length data follows, contains button text }
// DictString: array of char;
end;
TControlGroupDef = packed record
Count: uint16; // number of indexes into ControlDef records
{ variable length data follows }
// index[count] of type uint16
end;
// List of IPF escape codes.
const
// Basic byte codes
IPF_END_PARA = $fa;
IPF_CENTER = $fb;
IPF_INVERT_SPACING = $fc;
IPF_LINEBREAK = $fd;
IPF_SPACE = $fe;
IPF_ESC = $ff; // followed by one of the ecXXX codes below
// FF XX
ecSetLeftMargin = $02;
ecHighlight1 = $04; // hp1,2,3,5,6,7
ecLinkStart = $05;
ecFootnoteLinkStart = $07;
ecLinkEnd = $08;
ecStartCharGraphics = $0b;
ecEndCharGraphics = $0c;
ecHighlight2 = $0d; // hp4,8,9
ecImage = $0e;
ecLinkedImage = $0f;
ecProgramLink = $10;
ecSetLeftMarginNewLine = $11;
ecSetLeftMarginFit = $12;
ecForegroundColor = $13;
ecBackgroundColor = $14;
ecFontChange = $19;
ecStartLines = $1a;
ecEndLines = $1b;
ecSetLeftMarginHere = $1c;
ecStartLinkByResourceID = $1d;
ecExternalLink = $1f;
// Subescape codes of
HPART_DEFINE = 0;
HPART_PT_HDREF = 1;
HPART_PT_FNREF = 2;
HPART_PT_SPREF = 3;
HPART_HDREF = 4;
HPART_FNREF = 5;
HPART_SPREF = 6;
HPART_LAUNCH = 7;
HPART_PT_LAUNCH = 8;
HPART_INFORM = 9;
HPART_PT_INFORM = 10;
// ?? 11 ??
HPART_EXTERN_PT_HDREF = 12;
HPART_EXTERN_PT_SPREF = 13;
HPART_EXTERN_HDREF = 14;
HPART_EXTERN_SPREF = 15;
HPART_GLOBAL_HDREF = 16;
HPART_GLOBAL_PT_HDREF = 17;
// -----------------------------------------------------------
// Operations on Int32 arrays, used for searching
// These could be optimised heavily if needed.
procedure AllocUInt32Array( Var pArray: UInt32ArrayPointer;
Size: longint );
procedure FreeUInt32Array( Var pArray: UInt32ArrayPointer;
Size: longint );
procedure FillUInt32Array( pArray: UInt32ArrayPointer;
Size: longint;
Value: UInt32 );
procedure AddUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
// Dest = Dest + source * Multiplier
procedure AddMultConstUInt32Array( pSource: UInt32ArrayPointer;
Multiplier: longint;
pDest: UInt32ArrayPointer;
Size: longint );
procedure AndUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
// If both source and dest > 0 then
// add source to dest
procedure AndAddUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
// if Source > 0 then dest is set to 0
procedure AndNotUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
// dest = dest or source;
// if source > 0 then set dest to > 0
procedure OrUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
// if source = 0 then dest set to >0
procedure NotOrUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
procedure CopyUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
procedure ClearUInt32Array( pArray: UInt32ArrayPointer;
Size: longint );
procedure SetUInt32Array( pArray: UInt32ArrayPointer;
Size: longint );
// returns the result of ORing every array element.
// Can be useful for debugging e.g. seeing at a glance
// if any element is non-zero
function OrAllUInt32Array( pArray: UInt32ArrayPointer;
Size: longint ): longint;
Implementation
// Operations on int32 arrays
// -----------------------------------------------------------
procedure AllocUInt32Array( Var pArray: UInt32ArrayPointer;
Size: longint );
begin
GetMem( pArray,
Size
* sizeof( UInt32 ) );
end;
procedure FreeUInt32Array( Var pArray: UInt32ArrayPointer;
Size: longint );
begin
FreeMem( pArray,
Size
* sizeof( UInt32 ) );
end;
// This is a nice fast implementation of filling an
// array of dwords (Int32/longword)
procedure FillUInt32Array( pArray: UInt32ArrayPointer;
Size: longint;
Value: UInt32 );
var
i: integer;
begin
assert( Size > 0 );
if Size < 1 then
Exit;
for i := 0 to Size-1 do
begin
pArray^[i] := Value;
end;
end;
procedure ClearUInt32Array( pArray: UInt32ArrayPointer;
Size: longint );
begin
FillUInt32Array( pArray, Size, 0 );
end;
procedure SetUInt32Array( pArray: UInt32ArrayPointer;
Size: longint );
begin
FillUInt32Array( pArray, Size, $ffffffff );
end;
procedure AddUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
var
i: longint;
begin
for i := 0 to Size - 1 do
inc( pDest^[ i ], pSource^[ i ] );
end;
procedure AddMultConstUInt32Array( pSource: UInt32ArrayPointer;
Multiplier: longint;
pDest: UInt32ArrayPointer;
Size: longint );
var
i: longint;
begin
for i := 0 to Size - 1 do
inc( pDest^[ i ], pSource^[ i ] * Multiplier );
end;
procedure OrUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
var
i: longint;
begin
for i := 0 to Size - 1 do
pDest^[ i ] := pDest^[ i ] or pSource^[ i ];
end;
procedure CopyUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
begin
Move(pSource^, PDest^, Size * SizeOf(LongInt));
end;
procedure NotOrUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
var
i: longint;
begin
for i := 0 to Size - 1 do
if pSource^[ i ] = 0 then
pDest^[ i ] := 1;
end;
procedure AndUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
var
i: longint;
begin
for i := 0 to Size - 1 do
pDest^[ i ] := pDest^[ i ] and pSource^[ i ];
end;
procedure AndAddUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
var
i: longint;
begin
for i := 0 to Size - 1 do
if ( pSource^[ i ] > 0 )
and ( pDest^[ i ] > 0 ) then
inc( pDest^[ i ], pSource^[ i ] )
else
pDest^[ i ] := 0;
end;
procedure AndNotUInt32Array( pSource: UInt32ArrayPointer;
pDest: UInt32ArrayPointer;
Size: longint );
var
i: longint;
begin
for i := 0 to Size - 1 do
if pSource^[ i ] > 0 then
pDest^[ i ] := 0;
end;
function OrAllUInt32Array( pArray: UInt32ArrayPointer;
Size: longint ): longint;
var
i: longint;
begin
Result := 0;
for i := 0 to Size - 1 do
Result := Result or pArray^[ i ];
end;
end.
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