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{
This file is part of the Free Pascal run time library.
Copyright (c) 1999-2000 by the Free Pascal development team
This include implements video mode management.
See the file COPYING.FPC, included in this distribution,
for details about the copyright.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
**********************************************************************}
{-----------------------------------------------------------------------}
{ Internal routines }
{-----------------------------------------------------------------------}
procedure res2Mode(x, y, maxColor: longint; var driver,mode: smallInt);
var
l: longint;
begin
case maxColor of
2: driver := D1bit;
4: driver := D2bit;
16: driver := D4bit;
64: driver := D6bit;
256: driver := D8bit;
4096: driver := D12bit;
32768: driver := D15bit;
65536: driver := D16bit;
{ not yet supported
65536*256: driver := D24bit;
65536*65536: driver := D32bit;}
else
begin
driver := maxsmallint;
exit;
end;
end;
{ Check whether this is known/predefined mode }
for l := lowNewMode to highNewMode do
if (resolutions[l].x = x) and
(resolutions[l].y = y) then
begin
{ Found! }
mode := l;
exit;
end;
{ Not Found }
mode := maxsmallint;
end;
function mode2res(modeNr: smallInt; var x,y: longint): boolean;
begin
if (modeNr < lowNewMode) or
(modeNr > highNewMode) then
begin
mode2res := false;
exit;
end;
mode2res := true;
x := resolutions[modeNr].x;
y := resolutions[modeNr].y;
end;
procedure addmode(const mode: TModeInfo);
{********************************************************}
{ Procedure AddMode() }
{--------------------------------------------------------}
{ This routine adds <mode> to the list of recognized }
{ modes. Duplicates are allowed. }
{********************************************************}
var
i,driverNr, modeNr: smallint;
prev: PModeInfo;
list: PModeInfo;
newlst : PModeInfo;
begin
res2Mode(mode.maxx+1,mode.maxy+1,mode.maxColor,driverNr,ModeNr);
{ bitdepth supported? }
if (driverNr <> maxsmallint) then
begin
{ Yes, add the mode }
if not assigned(newModeList.modeinfo[driverNr]) then
begin
{$ifdef logging}
logln('Adding resolution '+strf(modenr)+' for drivernr '+strf(drivernr)+
' ('+strf(mode.maxx)+'x'+strf(mode.maxy)+')');
{$endif logging}
new(newModeList.modeinfo[driverNr]);
newModeList.modeinfo[driverNr]^ := mode;
newModeList.modeinfo[driverNr]^.next:=nil;
end
else
begin
prev := nil;
list := newModeList.modeinfo[driverNr];
{ sort first by x resolution, then by yresolution }
while assigned(list) and
((list^.maxx < mode.maxx) or
((list^.maxx = mode.maxx) and
(list^.maxy < mode.maxy))) do
begin
prev := list;
list := list^.next;
end;
{ mode already exists? -> replace (assume later added modes are }
{ better) }
if assigned(list) and
(list^.maxx = mode.maxx) and
(list^.maxy = mode.maxy) then
begin
{$ifdef logging}
logln('replacing resolution '+strf(modenr)+' for drivernr '+strf(drivernr)+
' ('+strf(mode.maxx)+'x'+strf(mode.maxy)+')');
{$endif logging}
{ save/restore next, drivernr and drivermode in list }
prev := list^.next;
list^ := mode;
list^.next := prev;
end
else
begin
new(newLst);
{ Increase the number of modes for this driver }
newLst^ := mode;
{$ifdef logging}
logln('Adding resolution '+strf(modenr)+' for drivernr '+strf(drivernr)+
' ('+strf(mode.maxx)+'x'+strf(mode.maxy)+')');
{$endif logging}
newLst^.next := list;
if assigned(prev) then
prev^.next := newLst
else
newModeList.modeinfo[driverNr] := newLst;
end;
end;
{ renumber internmodenumber }
list := newModeList.modeinfo[driverNr];
i:=0;
while assigned(list) do
begin
inc(i);
list^.internmodenumber:=i;
list:=list^.next;
end;
newModeList.loHiModeNr[driverNr].lo:=1;
newModeList.loHiModeNr[driverNr].hi:=i;
end;
{ TP-like mode stuff }
if not assigned(ModeList) then
begin
new(ModeList);
System.move(mode, ModeList^, sizeof(Mode));
end
else
begin
list := ModeList;
{ go to the end of the list }
while assigned(list^.next) do
list:=list^.next;
new(NewLst);
list^.next := NewLst;
System.move(mode, NewLst^, sizeof(Mode));
end;
end;
procedure initmode(var mode: TModeInfo);
{********************************************************}
{ Procedure InitMode() }
{--------------------------------------------------------}
{ This routine initialized the mode to default values. }
{********************************************************}
begin
FillChar(mode,sizeof(Mode),#0);
end;
function searchmode(ReqDriver : smallint; var reqmode: smallint): PModeInfo;
{********************************************************}
{ Procedure SearchMode() }
{--------------------------------------------------------}
{ This routine searches the list of recognized modes, }
{ and tries to find the <reqmode> in the <reqdriver> }
{ return nil if not found, otherwise returns the found }
{ structure. }
{ note: if reqmode = -32768, the first mode available }
{ for reqdriver is returned (JM) }
{ if reqmode = -32767, the last mode available }
{ for reqdriver is returned (JM) }
{********************************************************}
var
list, lastModeInfo: PModeInfo;
x,y: longint;
begin
{$ifdef logging}
LogLn('Searching for driver '+strf(reqdriver)+' and mode '+strf(reqmode));
{$endif logging}
if (reqDriver >= lowNewDriver) and
(reqDriver <= highNewDriver) then
begin
case reqMode of
-32768:
begin
reqMode := newModeList.loHiModeNr[reqDriver].lo;
searchMode := newModeList.modeinfo[reqDriver];
end;
-32767:
begin
reqMode := newModeList.loHiModeNr[reqDriver].hi;
searchMode := nil;
{ Are there any modes available for this driver? }
if reqMode <> -1 then
begin
list := newModeList.modeinfo[reqDriver];
while assigned(list^.next) do
list := list^.next;
searchMode := list;
end;
end;
else
begin
list := newModeList.modeinfo[reqDriver];
searchMode := nil;
if not assigned(list) then
exit;
if mode2res(reqMode,x,y) then
begin
x := pred(x);
y := pred(y);
while assigned(list) and
((list^.maxx < x) or
((list^.maxx = x) and
(list^.maxy < y))) do
list := list^.next;
if not assigned(list) or
(list^.maxx <> x) or
(list^.maxy <> y) then
list := nil;
searchmode := list;
end
else
begin
while assigned(list) and
(list^.internModeNumber <> reqMode) do
list := list^.next;
searchMode := list;
end;
end;
end;
exit;
end;
searchmode := nil;
list := ModeList;
If assigned(list) then
lastModeInfo := list;
{ go to the end of the list }
while assigned(list) do
begin
{$ifdef logging}
Log('Found driver '+strf(list^.DriverNumber)+
' and mode $'+hexstr(list^.ModeNumber,4)+'...');
{$endif logging}
if ((list^.DriverNumber = ReqDriver) and
((list^.ModeNumber = ReqMode) or
{ search for lowest mode }
(reqMode = -32768))) or
{ search for highest mode }
((reqMode = -32767) and
(lastModeInfo^.driverNumber = reqDriver) and
((list^.driverNumber <> lastModeInfo^.driverNumber) or
not(assigned(list^.next)))) then
begin
{$ifdef logging}
LogLn('Accepted!');
{$endif logging}
searchmode := list;
If reqMode = -32768 then
reqMode := list^.ModeNumber
else if reqMode = -32767 then
begin
reqMode := lastModeInfo^.ModeNumber;
searchMode := lastModeInfo;
end;
exit;
end;
{$ifdef logging}
LogLn('Rejected.');
{$endif logging}
lastModeInfo := list;
list:=list^.next;
end;
end;
{-----------------------------------------------------------------------}
{ External routines }
{-----------------------------------------------------------------------}
function GetModeName(ModeNumber: smallint): string;
{********************************************************}
{ Function GetModeName() }
{--------------------------------------------------------}
{ Checks the known video list, and returns ModeName }
{ string. On error returns an empty string. }
{********************************************************}
var
mode: PModeInfo;
begin
mode:=nil;
GetModeName:='';
{ only search in the current driver modes ... }
mode:=SearchMode(IntCurrentNewDriver,ModeNumber);
if assigned(mode) then
GetModeName:=Mode^.ModeName
else
_GraphResult := grInvalidMode;
end;
function GetGraphMode: smallint;
begin
GetGraphMode := IntCurrentMode;
end;
function GetMaxMode: smallint;
{ I know , i know, this routine is very slow, and it would }
{ be much easier to sort the linked list of possible modes }
{ instead of doing this, but I'm lazy!! And anyways, the }
{ speed of the routine here is not that important.... }
var
i: smallint;
mode: PModeInfo;
begin
mode:=nil;
i:=0;
repeat
inc(i);
{ mode 0 always exists... }
{ start search at 1.. }
mode:=SearchMode(IntCurrentNewDriver,i);
until not assigned(mode);
GetMaxMode:=i;
end;
procedure GetModeRange(GraphDriver: smallint; var LoMode,
HiMode: smallint);
var
mode : PModeInfo;
begin
{$ifdef logging}
LogLn('GetModeRange : Enter ('+strf(GraphDriver)+')');
{$endif}
HiMode:=-1;
mode := nil;
{ First search if the graphics driver is supported .. }
{ since mode zero is always supported.. if that driver }
{ is supported it should return something... }
{ not true, e.g. VESA doesn't have a mode 0. Changed so}
{ -32768 means "return lowest mode in second parameter }
{ also, under VESA some modes may not be supported }
{ (e.g. $108 here) while some with a higher number can }
{ be supported ($112 and onward), so I also added that }
{ -32767 means "return highest mode in second parameter}
{ This whole system should be overhauled though to work}
{ without such hacks (JM) }
loMode := -32768;
mode := SearchMode(GraphDriver, loMode);
{ driver not supported...}
if not assigned(mode) then
begin
loMode := -1;
exit;
end;
{$ifdef logging}
LogLn('GetModeRange : Mode '+strf(lomode)+' found');
{$endif}
{ now it exists... find highest available mode... }
hiMode := -32767;
mode:=SearchMode(GraphDriver,hiMode);
end;
procedure SetGraphMode(mode: smallint);
var
modeinfo: PModeInfo;
usedDriver: Integer;
begin
{ check if the mode exists... }
{ Depending on the modenumber, we search using the old or new }
{ graphdriver number (because once we entered graphmode, }
{ getgraphmode() returns the old mode number and }
{ both setgraphmode(getgraphmode) and setgraphmode(mAAAxBBB) }
{ have to work (JM) }
case mode of
detectMode:
begin
mode := -32767;
usedDriver := IntcurrentNewDriver;
modeInfo := searchmode(IntcurrentNewDriver,mode);
end;
lowNewMode..highNewMode:
begin
usedDriver := IntcurrentNewDriver;
modeInfo := searchmode(IntcurrentNewDriver,mode);
end;
else
begin
usedDriver := IntcurrentDriver;
modeinfo := searchmode(IntcurrentDriver,mode);
end;
end;
if not assigned(modeinfo) then
begin
{$ifdef logging}
LogLn('Mode setting failed in setgraphmode pos 1');
{$endif logging}
_GraphResult := grInvalidMode;
exit;
end;
{ reset all hooks...}
DefaultHooks;
{ required hooks - returns error if no hooks to these }
{ routines. }
if assigned(modeinfo^.DirectPutPixel) then
DirectPutPixel := modeinfo^.DirectPutPixel
else
begin
{$ifdef logging}
LogLn('Mode setting failed in setgraphmode pos 2');
{$endif logging}
DefaultHooks;
_Graphresult := grInvalidMode;
exit;
end;
if assigned(modeinfo^.PutPixel) then
PutPixel := modeinfo^.PutPixel
else
begin
{$ifdef logging}
LogLn('Mode setting failed in setgraphmode pos 3');
{$endif logging}
DefaultHooks;
_Graphresult := grInvalidMode;
exit;
end;
if assigned(modeinfo^.GetPixel) then
GetPixel := modeinfo^.GetPixel
else
begin
{$ifdef logging}
LogLn('Mode setting failed in setgraphmode pos 4');
{$endif logging}
DefaultHooks;
_Graphresult := grInvalidMode;
exit;
end;
if assigned(modeinfo^.SetRGBPalette) then
SetRGBPalette := modeinfo^.SetRGBPalette
else
begin
{$ifdef logging}
LogLn('Mode setting failed in setgraphmode pos 5');
{$endif logging}
DefaultHooks;
_Graphresult := grInvalidMode;
exit;
end;
if assigned(modeinfo^.GetRGBPalette) then
GetRGBPalette := modeinfo^.GetRGBPalette
else
begin
{$ifdef logging}
LogLn('Mode setting failed in setgraphmode pos 6');
{$endif logging}
DefaultHooks;
_Graphresult := grInvalidMode;
exit;
end;
{ optional hooks. }
if assigned(modeinfo^.SetAllPalette) then
SetAllPalette := modeinfo^.SetAllPalette;
if assigned(modeinfo^.ClearViewPort) then
ClearViewPort := modeinfo^.ClearViewPort;
if assigned(modeinfo^.PutImage) then
PutImage := modeinfo^.PutImage;
if assigned(modeinfo^.GetImage) then
GetImage := modeinfo^.GetImage;
if assigned(modeinfo^.ImageSize) then
ImageSize := modeinfo^.ImageSize;
if assigned(modeinfo^.GetScanLine) then
GetScanLine := modeinfo^.GetScanLine;
if assigned(modeinfo^.Line) then
Line := modeinfo^.Line;
if assigned(modeinfo^.InternalEllipse) then
InternalEllipse := modeinfo^.InternalEllipse;
if assigned(modeinfo^.PatternLine) then
PatternLine := modeinfo^.PatternLine;
if assigned(modeinfo^.HLine) then
Hline := modeinfo^.Hline;
if assigned(modeinfo^.Vline) then
VLine := modeinfo^.VLine;
if assigned(modeInfo^.SetVisualPage) then
SetVisualPage := modeInfo^.SetVisualPage;
if assigned(modeInfo^.SetActivePage) then
SetActivePage := modeInfo^.SetActivePage;
if assigned(modeInfo^.OutTextXY) then
OutTextXY:=modeInfo^.OutTextXY;
IntCurrentMode := modeinfo^.ModeNumber;
IntCurrentDriver := usedDriver;
{$ifdef logging}
logln('Entering mode '+strf(intCurrentMode)+' of driver '+strf(intCurrentDriver));
{$endif logging}
XAspect := modeinfo^.XAspect;
YAspect := modeinfo^.YAspect;
MaxX := modeinfo^.MaxX;
MaxY := modeinfo^.MaxY;
{$ifdef logging}
logln('maxx = '+strf(maxx)+', maxy = '+strf(maxy));
{$endif logging}
HardwarePages := modeInfo^.HardwarePages;
MaxColor := modeinfo^.MaxColor;
PaletteSize := modeinfo^.PaletteSize;
{ is this a direct color mode? }
DirectColor := modeinfo^.DirectColor;
{ now actually initialize the video mode...}
{ check first if the routine exists }
if not assigned(modeinfo^.InitMode) then
begin
{$ifdef logging}
LogLn('Mode setting failed in setgraphmode pos 7');
{$endif logging}
DefaultHooks;
_GraphResult := grInvalidMode;
exit;
end;
_GraphResult := grOk;
modeinfo^.InitMode;
if _GraphResult <> grOk then
begin
DefaultHooks;
exit;
end;
isgraphmode := true;
{ It is very important that this call be made }
{ AFTER the other variables have been setup. }
{ Since it calls some routines which rely on }
{ those variables. }
SetActivePage(0);
SetVisualPage(0);
SetViewPort(0,0,MaxX,MaxY,TRUE);
GraphDefaults;
end;
procedure RestoreCrtMode;
{********************************************************}
{ Procedure RestoreCRTMode() }
{--------------------------------------------------------}
{ Returns to the video mode which was set before the }
{ InitGraph. Hardware state is set to the old values. }
{--------------------------------------------------------}
{ NOTE: - }
{ - }
{********************************************************}
begin
isgraphmode := false;
RestoreVideoState;
end;
|
