upiwin/src/devctxt.c

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#include <string.h>
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#include <stdlib.h>
#include "log.h"
#include "gfxtype.h"
#include "gfxobj.h"
#include "devctxt.h"
#include "bitmap.h"
#include "dc_screen.h"
inline static BYTE line_clip_outcode(INT32 x, INT32 y, INT32 xmin, INT32 ymin, INT32 xmax, INT32 ymax)
{
BYTE rc = 0;
if (y < ymin)
rc |= 0x8;
else if (y >= ymax)
rc |= 0x4;
if (x < xmin)
rc |= 0x1;
else if (x >= xmax)
rc |= 0x2;
return rc;
}
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#define CPX 8 /* clipping precision in bits */
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#define ONE (1 << CPX) /* constant for mathematics */
/* these macros keep the number of bits straight when doing fixed-point multiply & divide */
#define M(a, b) ((((a) * (b))) >> CPX)
#define D(a, b) (((a) << CPX) / (b))
static BOOL line_clip(PINT32 output, INT32 x1, INT32 y1, INT32 x2, INT32 y2, INT32 xmin, INT32 ymin, INT32 xmax, INT32 ymax)
{
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BYTE outcode1, outcode2;
INT32 tmp;
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int nloop = 0;
/* Cohen-Sutherland line-clipping algorithm (see Foley & Van Dam, pp. 145-149) */
for (;;)
{
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if (++nloop == 20)
{
Log(LDEBUG, "POSSIBLE INFINITE LOOP DETECTED - REJECTING");
return FALSE;
}
outcode1 = line_clip_outcode(x1, y1, xmin, ymin, xmax, ymax);
outcode2 = line_clip_outcode(x2, y2, xmin, ymin, xmax, ymax);
if ((outcode1 & outcode2) != 0)
return FALSE; /* trivial rejection */
else if ((outcode1 == 0) && (outcode2 == 0))
break; /* trivial acceptance */
if (outcode1 == 0)
{
tmp = x1;
x1 = x2;
x2 = tmp;
tmp = y1;
y1 = y2;
y2 = tmp;
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outcode1 = outcode2; /* we don't reference outcode2 in the rest of the loop */
}
if (outcode1 & 0x8)
{
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x1 += M(x2 - x1, D(ymin - y1, y2 - y1));
y1 = ymin;
}
else if (outcode1 & 0x4)
{
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x1 += M(x2 - x1, D(ymax - ONE - y1, y2 - y1));
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y1 = ymax - ONE;
}
else if (outcode1 & 0x2)
{
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y1 += M(y2 - y1, D(xmax - ONE - x1, x2 - x1));
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x1 = xmax - ONE;
}
else if (outcode1 & 0x1)
{
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y1 += M(y2 - y1, D(xmin - x1, x2 - x1));
x1 = xmin;
}
}
output[0] = x1;
output[1] = y1;
output[2] = x2;
output[3] = y2;
return TRUE;
}
static BOOL internal_line(PDCTXT pdctxt, INT32 x1, INT32 y1, INT32 x2, INT32 y2)
{
INT32 buffer[4];
if (line_clip(buffer, x1 << CPX, y1 << CPX, x2 << CPX, y2 << CPX, pdctxt->cliprect.left << CPX, pdctxt->cliprect.top << CPX,
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pdctxt->cliprect.right << CPX, pdctxt->cliprect.bottom << CPX))
return (*pdctxt->funcs->line)(pdctxt->privdata, buffer[0] >> CPX, buffer[1] >> CPX, buffer[2] >> CPX, buffer[3] >> CPX, pdctxt->color, pdctxt->rop2);
return TRUE;
}
PDCTXT _DC_Allocate(PDCFUNTABLE funcs, PVOID privdata)
{
PDCTXT rc = (PDCTXT)malloc(sizeof(DCTXT));
if (!rc)
return NULL;
memset(rc, 0, sizeof(DCTXT));
_Go_init(&(rc->hdr), DCTXT_SIG_WORD, sizeof(DCTXT));
rc->funcs = funcs;
rc->privdata = privdata;
rc->rop2 = R2_COPYPEN;
return rc;
}
void _DC_FinalizeCommon(PDCTXT pdctxt)
{
if (pdctxt->cur_bitmap)
Go_release(&(pdctxt->cur_bitmap->hdr));
}
COLORREF DC_SetPixel(PDCTXT pdctxt, INT32 x, INT32 y, COLORREF color)
{
if (!G_coords_in_rect(&(pdctxt->cliprect), x, y))
return (COLORREF)(-1);
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return (*(pdctxt->funcs->set_pixel))(pdctxt->privdata, x, y, color, pdctxt->rop2);
}
BOOL DC_LineTo(PDCTXT pdctxt, INT32 x, INT32 y)
{
BOOL rc = internal_line(pdctxt, pdctxt->pos.x, pdctxt->pos.y, x, y);
if (rc)
{
pdctxt->pos.x = x;
pdctxt->pos.y = y;
}
return rc;
}
BOOL DC_MoveTo(PDCTXT pdctxt, INT32 x, INT32 y, PPOINT oldpt)
{
if (oldpt)
memcpy(oldpt, &(pdctxt->pos), sizeof(POINT));
pdctxt->pos.x = x;
pdctxt->pos.y = y;
return TRUE;
}
BOOL DC_Rectangle(PDCTXT pdctxt, INT32 left, INT32 top, INT32 right, INT32 bottom)
{
internal_line(pdctxt, left, top, right - 1, top);
internal_line(pdctxt, left, top + 1, left, bottom - 2);
internal_line(pdctxt, right - 1, top + 1, right - 1, bottom - 2);
internal_line(pdctxt, left, bottom - 1, right - 1, bottom - 1);
return TRUE;
}
BOOL DC_SolidRectangle(PDCTXT pdctxt, INT32 left, INT32 top, INT32 right, INT32 bottom)
{
RECT rect, actual;
G_set_rect(&rect, left, top, right, bottom);
if (!G_intersect_rect(&actual, &rect, &(pdctxt->cliprect)))
return TRUE;
return (*(pdctxt->funcs-solid_rect))(pdctxt->privdata, &actual, pdctxt->color, pdctxt->rop2);
}
UINT32 DC_GetROP2(PDCTXT pdctxt)
{
return pdctxt->rop2;
}
UINT32 DC_SetROP2(PDCTXT pdctxt, UINT32 rop)
{
UINT32 rc = pdctxt->rop2;
pdctxt->rop2 = rop;
return rc;
}
COLORREF DC_GetTextColor(PDCTXT pdctxt)
{
return pdctxt->color;
}
COLORREF DC_SetTextColor(PDCTXT pdctxt, COLORREF cr)
{
COLORREF rc = pdctxt->color;
pdctxt->color = cr;
return rc;
}
BOOL DC_GetClipRect(PDCTXT pdctxt, PRECT prect)
{
memcpy(prect, &(pdctxt->cliprect), sizeof(RECT));
return TRUE;
}
BOOL DC_SetClipRect(PDCTXT pdctxt, PRECT prect)
{
memcpy(&(pdctxt->cliprect), prect, sizeof(RECT));
return TRUE;
}
PDCTXT DC_CreateCompatible(PDCTXT pdctxt)
{
if (pdctxt)
return (*(pdctxt->funcs->create_compat))(pdctxt->privdata);
return _DC_CreateScreenCompatibleContext();
}
PGFXOBJECT DC_SelectObject(PDCTXT pdctxt, PGFXOBJECT pobj)
{
if (pobj->sig == BMP_SIG_WORD)
{
if ((pdctxt->flags & DCFLG_TYPES) == DCFLG_IS_MEMORY)
{
RECT rtmp;
PBITMAP rbmp = pdctxt->cur_bitmap;
Go_addref(pobj);
if ((*(pdctxt->funcs->new_bitmap))(pdctxt->privdata, (PBITMAP)pobj))
{
pdctxt->cur_bitmap = (PBITMAP)pobj;
pdctxt->baserect.left = pdctxt->baserect.top = 0;
pdctxt->baserect.right = ((PBITMAP)pobj)->width;
pdctxt->baserect.bottom = ((PBITMAP)pobj)->height;
G_intersect_rect(&rtmp, &(pdctxt->baserect), &(pdctxt->cliprect));
memcpy(&(pdctxt->cliprect), &rtmp, sizeof(RECT));
return rbmp;
}
Go_release(pobj);
}
}
return NULL;
}
BOOL DC_BitBlt(PDCTXT dest, INT32 x, INT32 y, INT32 width, INT32 height, PDCTXT source, INT32 x1, INT32 y1, UINT32 rop)
{
RECT destrect, actualdest, srcrect, actualsrc;
G_set_rect(&destrect, x, y, x + width, y + height);
if (!G_rect_intersect(&actualdest, &destrect, &(dest->cliprect)))
return TRUE; /* no-op */
G_set_rect(&srcrect, x1, y1, x1 + (actualdest.right - actualdest.left), y1 + (actualdest.bottom - actualdest.top));
if (!G_rect_intersect(&actualsrc, &srcrect, &(src->baserect)))
return TRUE;
actualdest.right = actualdest.left + (actualsrc.right - actualsrc.left);
actualdest.bottom = actualdest.top + (actualsrc.bottom - actualsrc.top);
return (*(dest->funcs->bitblt))(dest->privdata, &actualdest, src->privdata, &actualsrc, rop);
}