reactos/win32ss/gdi/ntgdi/arc.c

409 lines
10 KiB
C

#include <win32k.h>
#define NDEBUG
#include <debug.h>
/*
* A couple of macros to fill a single pixel or a line
*/
#define PUTPIXEL(x,y,BrushInst) \
ret = ret && IntEngLineTo(&psurf->SurfObj, \
(CLIPOBJ *)&dc->co, \
&BrushInst.BrushObject, \
x, y, (x)+1, y, \
&RectBounds, \
ROP2_TO_MIX(pdcattr->jROP2));
#define PUTLINE(x1,y1,x2,y2,BrushInst) \
ret = ret && IntEngLineTo(&psurf->SurfObj, \
(CLIPOBJ *)&dc->co, \
&BrushInst.BrushObject, \
x1, y1, x2, y2, \
&RectBounds, \
ROP2_TO_MIX(pdcattr->jROP2));
static
BOOL
FASTCALL
IntArc( DC *dc,
int Left,
int Top,
int Right,
int Bottom,
int XRadialStart,
int YRadialStart,
int XRadialEnd,
int YRadialEnd,
ARCTYPE arctype)
{
PDC_ATTR pdcattr;
RECTL RectBounds, RectSEpts;
PBRUSH pbrPen;
SURFACE *psurf;
BOOL ret = TRUE;
LONG PenWidth, PenOrigWidth;
double AngleStart, AngleEnd;
LONG CenterX, CenterY;
if (Right < Left)
{
INT tmp = Right; Right = Left; Left = tmp;
}
if (Bottom < Top)
{
INT tmp = Bottom; Bottom = Top; Top = tmp;
}
/* Check if the target rect is empty */
if ((Left == Right) || (Top == Bottom)) return TRUE;
// FIXME: this needs to be verified
if ((arctype == GdiTypeChord ) || (arctype == GdiTypePie))
{
if ((Right - Left == 1) || (Bottom - Top == 1))
return TRUE;
}
pdcattr = dc->pdcattr;
pbrPen = PEN_ShareLockPen(pdcattr->hpen);
if (!pbrPen)
{
DPRINT1("Arc Fail 1\n");
EngSetLastError(ERROR_INTERNAL_ERROR);
return FALSE;
}
PenOrigWidth = PenWidth = pbrPen->lWidth;
if (pbrPen->ulPenStyle == PS_NULL) PenWidth = 0;
if (pbrPen->ulPenStyle == PS_INSIDEFRAME)
{
if (2*PenWidth > (Right - Left)) PenWidth = (Right -Left + 1)/2;
if (2*PenWidth > (Bottom - Top)) PenWidth = (Bottom -Top + 1)/2;
Left += PenWidth / 2;
Right -= (PenWidth - 1) / 2;
Top += PenWidth / 2;
Bottom -= (PenWidth - 1) / 2;
}
if (!PenWidth) PenWidth = 1;
pbrPen->lWidth = PenWidth;
RectBounds.left = Left;
RectBounds.right = Right;
RectBounds.top = Top;
RectBounds.bottom = Bottom;
RectSEpts.left = XRadialStart;
RectSEpts.top = YRadialStart;
RectSEpts.right = XRadialEnd;
RectSEpts.bottom = YRadialEnd;
IntLPtoDP(dc, (LPPOINT)&RectBounds, 2);
IntLPtoDP(dc, (LPPOINT)&RectSEpts, 2);
RectBounds.left += dc->ptlDCOrig.x;
RectBounds.right += dc->ptlDCOrig.x;
RectBounds.top += dc->ptlDCOrig.y;
RectBounds.bottom += dc->ptlDCOrig.y;
RectSEpts.left += dc->ptlDCOrig.x;
RectSEpts.top += dc->ptlDCOrig.y;
RectSEpts.right += dc->ptlDCOrig.x;
RectSEpts.bottom += dc->ptlDCOrig.y;
DPRINT("1: StartX: %d, StartY: %d, EndX: %d, EndY: %d\n",
RectSEpts.left,RectSEpts.top,RectSEpts.right,RectSEpts.bottom);
DPRINT("1: Left: %d, Top: %d, Right: %d, Bottom: %d\n",
RectBounds.left,RectBounds.top,RectBounds.right,RectBounds.bottom);
CenterX = (RectBounds.right + RectBounds.left) / 2;
CenterY = (RectBounds.bottom + RectBounds.top) / 2;
AngleEnd = atan2((RectSEpts.bottom - CenterY), RectSEpts.right - CenterX)*(360.0/(M_PI*2));
AngleStart = atan2((RectSEpts.top - CenterY), RectSEpts.left - CenterX)*(360.0/(M_PI*2));
/* Edge Case: Check if the start segments overlaps(is equal) the end segment */
if (AngleEnd == AngleStart)
{
AngleStart = AngleEnd + 360.0; // Arc(), ArcTo(), Pie() and Chord() are counterclockwise APIs.
}
if ((arctype == GdiTypePie) || (arctype == GdiTypeChord))
{
ret = IntFillArc( dc,
RectBounds.left,
RectBounds.top,
abs(RectBounds.right-RectBounds.left), // Width
abs(RectBounds.bottom-RectBounds.top), // Height
AngleStart,
AngleEnd,
arctype);
}
if(ret)
{
ret = IntDrawArc( dc,
RectBounds.left,
RectBounds.top,
abs(RectBounds.right-RectBounds.left), // Width
abs(RectBounds.bottom-RectBounds.top), // Height
AngleStart,
AngleEnd,
arctype,
pbrPen);
}
psurf = dc->dclevel.pSurface;
if (NULL == psurf)
{
DPRINT1("Arc Fail 2\n");
PEN_ShareUnlockPen(pbrPen);
EngSetLastError(ERROR_INTERNAL_ERROR);
return FALSE;
}
if (arctype == GdiTypePie)
{
PUTLINE(CenterX, CenterY, RectSEpts.left, RectSEpts.top, dc->eboLine);
PUTLINE(RectSEpts.right, RectSEpts.bottom, CenterX, CenterY, dc->eboLine);
}
if (arctype == GdiTypeChord)
PUTLINE(RectSEpts.right, RectSEpts.bottom, RectSEpts.left, RectSEpts.top, dc->eboLine);
pbrPen->lWidth = PenOrigWidth;
PEN_ShareUnlockPen(pbrPen);
DPRINT("IntArc Exit.\n");
return ret;
}
BOOL FASTCALL
IntGdiArcInternal(
ARCTYPE arctype,
DC *dc,
int LeftRect,
int TopRect,
int RightRect,
int BottomRect,
int XStartArc,
int YStartArc,
int XEndArc,
int YEndArc)
{
BOOL Ret;
//PDC_ATTR pdcattr;
DPRINT("StartX: %d, StartY: %d, EndX: %d, EndY: %d\n",
XStartArc,YStartArc,XEndArc,YEndArc);
DPRINT("Left: %d, Top: %d, Right: %d, Bottom: %d\n",
LeftRect,TopRect,RightRect,BottomRect);
if ((LeftRect == RightRect) || (TopRect == BottomRect)) return TRUE;
if (PATH_IsPathOpen(dc->dclevel))
{
return PATH_Arc( dc,
LeftRect,
TopRect,
RightRect,
BottomRect,
XStartArc,
YStartArc,
XEndArc,
YEndArc,
0,
arctype);
}
//pdcattr = dc->pdcattr;
if (arctype == GdiTypeArcTo)
{
if (dc->dclevel.flPath & DCPATH_CLOCKWISE)
IntGdiLineTo(dc, XEndArc, YEndArc);
else
IntGdiLineTo(dc, XStartArc, YStartArc);
}
Ret = IntArc( dc,
LeftRect,
TopRect,
RightRect,
BottomRect,
XStartArc,
YStartArc,
XEndArc,
YEndArc,
arctype);
if (arctype == GdiTypeArcTo)
{
if (dc->dclevel.flPath & DCPATH_CLOCKWISE)
IntGdiMoveToEx(dc, XStartArc, YStartArc, NULL);
else
IntGdiMoveToEx(dc, XEndArc, YEndArc, NULL);
}
return Ret;
}
BOOL
FASTCALL
IntGdiAngleArc( PDC pDC,
INT x,
INT y,
DWORD dwRadius,
FLOAT eStartAngle,
FLOAT eSweepAngle)
{
INT x1, y1, x2, y2, arcdir;
BOOL result;
/* Calculate the end point */
x2 = x + (INT)(cos(((eStartAngle+eSweepAngle)/360)*(M_PI*2)) * dwRadius);
y2 = y - (INT)(sin(((eStartAngle+eSweepAngle)/360)*(M_PI*2)) * dwRadius);
x1 = x + (INT)(cos((eStartAngle/360)*(M_PI*2)) * dwRadius);
y1 = y - (INT)(sin((eStartAngle/360)*(M_PI*2)) * dwRadius);
arcdir = pDC->dclevel.flPath & DCPATH_CLOCKWISE;
if (eSweepAngle >= 0)
pDC->dclevel.flPath &= ~DCPATH_CLOCKWISE;
else
pDC->dclevel.flPath |= DCPATH_CLOCKWISE;
result = IntGdiArcInternal( GdiTypeArcTo,
pDC,
x-dwRadius,
y-dwRadius,
x+dwRadius,
y+dwRadius,
x1,
y1,
x2,
y2 );
pDC->dclevel.flPath |= (arcdir & DCPATH_CLOCKWISE);
if (result)
{
IntGdiMoveToEx(pDC, x2, y2, NULL);
}
return result;
}
/* FUNCTIONS *****************************************************************/
BOOL
APIENTRY
NtGdiAngleArc(
IN HDC hDC,
IN INT x,
IN INT y,
IN DWORD dwRadius,
IN DWORD dwStartAngle,
IN DWORD dwSweepAngle)
{
DC *pDC;
BOOL Ret = FALSE;
gxf_long worker, worker1;
KFLOATING_SAVE FloatSave;
NTSTATUS status;
pDC = DC_LockDc (hDC);
if(!pDC)
{
EngSetLastError(ERROR_INVALID_HANDLE);
return FALSE;
}
status = KeSaveFloatingPointState(&FloatSave);
if (!NT_SUCCESS(status))
{
DC_UnlockDc( pDC );
return FALSE;
}
worker.l = dwStartAngle;
worker1.l = dwSweepAngle;
DC_vPrepareDCsForBlit(pDC, NULL, NULL, NULL);
if (pDC->pdcattr->ulDirty_ & (DIRTY_FILL | DC_BRUSH_DIRTY))
DC_vUpdateFillBrush(pDC);
if (pDC->pdcattr->ulDirty_ & (DIRTY_LINE | DC_PEN_DIRTY))
DC_vUpdateLineBrush(pDC);
Ret = IntGdiAngleArc( pDC, x, y, dwRadius, worker.f, worker1.f);
DC_vFinishBlit(pDC, NULL);
DC_UnlockDc( pDC );
KeRestoreFloatingPointState(&FloatSave);
return Ret;
}
BOOL
APIENTRY
NtGdiArcInternal(
ARCTYPE arctype,
HDC hDC,
int LeftRect,
int TopRect,
int RightRect,
int BottomRect,
int XStartArc,
int YStartArc,
int XEndArc,
int YEndArc)
{
DC *dc;
BOOL Ret;
KFLOATING_SAVE FloatSave;
NTSTATUS status;
dc = DC_LockDc (hDC);
if(!dc)
{
EngSetLastError(ERROR_INVALID_HANDLE);
return FALSE;
}
if (arctype > GdiTypePie)
{
DC_UnlockDc(dc);
EngSetLastError(ERROR_INVALID_PARAMETER);
return FALSE;
}
DC_vPrepareDCsForBlit(dc, NULL, NULL, NULL);
if (dc->pdcattr->ulDirty_ & (DIRTY_FILL | DC_BRUSH_DIRTY))
DC_vUpdateFillBrush(dc);
if (dc->pdcattr->ulDirty_ & (DIRTY_LINE | DC_PEN_DIRTY))
DC_vUpdateLineBrush(dc);
status = KeSaveFloatingPointState(&FloatSave);
if (!NT_SUCCESS(status))
{
DC_UnlockDc( dc );
return FALSE;
}
Ret = IntGdiArcInternal(
arctype,
dc,
LeftRect,
TopRect,
RightRect,
BottomRect,
XStartArc,
YStartArc,
XEndArc,
YEndArc);
KeRestoreFloatingPointState(&FloatSave);
DC_vFinishBlit(dc, NULL);
DC_UnlockDc( dc );
return Ret;
}