📄 memplan4.c
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/*
* Copyright (c) 1999, 2000, 2002 Greg Haerr <greg@censoft.com>
*
* 4 planes EGA/VGA Memory (blitting) Video Driver for Microwindows
* Included with #define HAVEBLIT in vgaplan4.h
*
* 4bpp colors are stored in linear 4pp format in memory dc's
*
* In this driver, psd->linelen is line byte length, not line pixel length
*/
/*#define NDEBUG*/
#include <assert.h>
#include <stdio.h>
#include <string.h>
#include "device.h"
#include "vgaplan4.h"
#include "fb.h"
#if HAVEBLIT
#if MSDOS | ELKS | __rtems__ | __ECOS
/* assumptions for speed: NOTE: psd is ignored in these routines*/
#define SCREENBASE(psd) EGA_BASE
#define BYTESPERLINE(psd) 80
#else
/* run on top of framebuffer*/
#define SCREENBASE(psd) ((char *)((psd)->addr))
#define BYTESPERLINE(psd) ((psd)->linelen)
#endif
/* extern data*/
extern int gr_mode; /* temp kluge*/
static unsigned char notmask[2] = { 0x0f, 0xf0};
/* Calc linelen and mmap size, return 0 on fail*/
static int
mempl4_init(PSD psd)
{
if (!psd->size)
psd->size = psd->yres * psd->linelen;
/* linelen in bytes for bpp 1, 2, 4, 8 so no change*/
return 1;
}
/* Set pixel at x, y, to pixelval c*/
static void
mempl4_drawpixel(PSD psd, MWCOORD x, MWCOORD y, MWPIXELVAL c)
{
ADDR8 addr = psd->addr;
assert (addr != 0);
assert (x >= 0 && x < psd->xres);
assert (y >= 0 && y < psd->yres);
assert (c < psd->ncolors);
addr += (x>>1) + y * psd->linelen;
if(gr_mode == MWMODE_XOR)
*addr ^= c << ((1-(x&1))<<2);
else
*addr = (*addr & notmask[x&1]) | (c << ((1-(x&1))<<2));
}
/* Read pixel at x, y*/
static MWPIXELVAL
mempl4_readpixel(PSD psd, MWCOORD x, MWCOORD y)
{
ADDR8 addr = psd->addr;
assert (addr != 0);
assert (x >= 0 && x < psd->xres);
assert (y >= 0 && y < psd->yres);
return (addr[(x>>1) + y * psd->linelen] >> ((1-(x&1))<<2) ) & 0x0f;
}
/* Draw horizontal line from x1,y to x2,y including final point*/
static void
mempl4_drawhorzline(PSD psd, MWCOORD x1, MWCOORD x2, MWCOORD y, MWPIXELVAL c)
{
ADDR8 addr = psd->addr;
assert (addr != 0);
assert (x1 >= 0 && x1 < psd->xres);
assert (x2 >= 0 && x2 < psd->xres);
assert (x2 >= x1);
assert (y >= 0 && y < psd->yres);
assert (c < psd->ncolors);
addr += (x1>>1) + y * psd->linelen;
if(gr_mode == MWMODE_XOR) {
while(x1 <= x2) {
*addr ^= c << ((1-(x1&1))<<2);
if((++x1 & 1) == 0)
++addr;
}
} else {
while(x1 <= x2) {
*addr = (*addr & notmask[x1&1]) | (c << ((1-(x1&1))<<2));
if((++x1 & 1) == 0)
++addr;
}
}
}
/* Draw a vertical line from x,y1 to x,y2 including final point*/
static void
mempl4_drawvertline(PSD psd, MWCOORD x, MWCOORD y1, MWCOORD y2, MWPIXELVAL c)
{
ADDR8 addr = psd->addr;
int linelen = psd->linelen;
assert (addr != 0);
assert (x >= 0 && x < psd->xres);
assert (y1 >= 0 && y1 < psd->yres);
assert (y2 >= 0 && y2 < psd->yres);
assert (y2 >= y1);
assert (c < psd->ncolors);
addr += (x>>1) + y1 * linelen;
if(gr_mode == MWMODE_XOR)
while(y1++ <= y2) {
*addr ^= c << ((1-(x&1))<<2);
addr += linelen;
}
else
while(y1++ <= y2) {
*addr = (*addr & notmask[x&1]) | (c << ((1-(x&1))<<2));
addr += linelen;
}
}
/* srccopy bitblt, opcode is currently ignored*/
/* copy from memdc to memdc*/
static void
mempl4_to_mempl4_blit(PSD dstpsd, MWCOORD dstx, MWCOORD dsty, MWCOORD w, MWCOORD h,
PSD srcpsd, MWCOORD srcx, MWCOORD srcy, int op)
{
ADDR8 dst;
ADDR8 src;
int i;
int dlinelen = dstpsd->linelen;
int slinelen = srcpsd->linelen;
assert (dstpsd->addr != 0);
assert (dstx >= 0 && dstx < dstpsd->xres);
assert (dsty >= 0 && dsty < dstpsd->yres);
assert (w > 0);
assert (h > 0);
assert (srcpsd->addr != 0);
assert (srcx >= 0 && srcx < srcpsd->xres);
assert (srcy >= 0 && srcy < srcpsd->yres);
assert (dstx+w <= dstpsd->xres);
assert (dsty+h <= dstpsd->yres);
assert (srcx+w <= srcpsd->xres);
assert (srcy+h <= srcpsd->yres);
dst = (char *)dstpsd->addr + (dstx>>1) + dsty * dlinelen;
src = (char *)srcpsd->addr + (srcx>>1) + srcy * slinelen;
while(--h >= 0) {
ADDR8 d = dst;
ADDR8 s = src;
MWCOORD dx = dstx;
MWCOORD sx = srcx;
for(i=0; i<w; ++i) {
*d = (*d & notmask[dx&1]) |
((*s >> ((1-(sx&1))<<2) & 0x0f) << ((1-(dx&1))<<2));
if((++dx & 1) == 0)
++d;
if((++sx & 1) == 0)
++s;
}
dst += dlinelen;
src += slinelen;
}
}
/* srccopy bitblt, opcode is currently ignored*/
/* copy from vga memory to vga memory, psd's ignored for speed*/
static void
vga_to_vga_blit(PSD dstpsd, MWCOORD dstx, MWCOORD dsty, MWCOORD w, MWCOORD h,
PSD srcpsd, MWCOORD srcx, MWCOORD srcy, int op)
{
FARADDR dst;
FARADDR src;
int i, plane;
int x1, x2;
assert (dstx >= 0 && dstx < dstpsd->xres);
assert (dsty >= 0 && dsty < dstpsd->yres);
assert (w > 0);
assert (h > 0);
assert (srcx >= 0 && srcx < srcpsd->xres);
assert (srcy >= 0 && srcy < srcpsd->yres);
assert (dstx+w <= dstpsd->xres);
assert (dsty+h <= dstpsd->yres);
assert (srcx+w <= srcpsd->xres);
assert (srcy+h <= srcpsd->yres);
DRAWON;
set_enable_sr(0);
dst = SCREENBASE(dstpsd) + (dstx>>3) + dsty * BYTESPERLINE(dstpsd);
src = SCREENBASE(srcpsd) + (srcx>>3) + srcy * BYTESPERLINE(srcpsd);
x1 = dstx>>3;
x2 = (dstx + w - 1) >> 3;
while(--h >= 0) {
for(plane=0; plane<4; ++plane) {
FARADDR d = dst;
FARADDR s = src;
set_read_plane(plane);
set_write_planes(1 << plane);
/* FIXME: only works if srcx and dstx are same modulo*/
if(x1 == x2) {
select_and_set_mask((0xff >> (x1 & 7)) & (0xff << (7 - (x2 & 7))));
PUTBYTE_FP(d, GETBYTE_FP(s));
} else {
select_and_set_mask(0xff >> (x1 & 7));
PUTBYTE_FP(d++, GETBYTE_FP(s++));
set_mask(0xff);
for(i=x1+1; i<x2; ++i)
PUTBYTE_FP(d++, GETBYTE_FP(s++));
set_mask(0xff << (7 - (x2 & 7)));
PUTBYTE_FP(d, GETBYTE_FP(s));
}
}
dst += BYTESPERLINE(dstpsd);
src += BYTESPERLINE(srcpsd);
}
set_write_planes(0x0f);
set_enable_sr(0x0f);
DRAWOFF;
}
/* srccopy bitblt, opcode is currently ignored*/
/* copy from memdc to vga memory*/
static void
mempl4_to_vga_blit(PSD dstpsd, MWCOORD dstx, MWCOORD dsty, MWCOORD w, MWCOORD h,
PSD srcpsd, MWCOORD srcx, MWCOORD srcy, int op)
{
FARADDR dst;
ADDR8 src;
int i;
int slinelen = srcpsd->linelen;
int color, lastcolor = -1;
static unsigned char mask[8] = {
0x80, 0x40, 0x20, 0x10, 0x08, 0x04, 0x02, 0x01
};
assert (dstx >= 0 && dstx < dstpsd->xres);
assert (dsty >= 0 && dsty < dstpsd->yres);
assert (w > 0);
assert (h > 0);
assert (srcpsd->addr != 0);
assert (srcx >= 0 && srcx < srcpsd->xres);
assert (srcy >= 0 && srcy < srcpsd->yres);
assert (dstx+w <= dstpsd->xres);
assert (dsty+h <= dstpsd->yres);
assert (srcx+w <= srcpsd->xres);
assert (srcy+h <= srcpsd->yres);
DRAWON;
set_op(0); /* modetable[MWMODE_COPY]*/
dst = SCREENBASE(dstpsd) + (dstx>>3) + dsty * BYTESPERLINE(dstpsd);
src = (char *)srcpsd->addr + (srcx>>1) + srcy * slinelen;
while(--h >= 0) {
FARADDR d = dst;
ADDR8 s = src;
MWCOORD dx = dstx;
MWCOORD sx = srcx;
for(i=0; i<w; ++i) {
color = *s >> ((1-(sx&1))<<2) & 0x0f;
if(color != lastcolor)
set_color(lastcolor = color);
select_and_set_mask (mask[dx&7]);
RMW_FP(d);
if((++dx & 7) == 0)
++d;
if((++sx & 1) == 0)
++s;
}
dst += BYTESPERLINE(dstpsd);
src += slinelen;
}
DRAWOFF;
}
/* srccopy bitblt, opcode is currently ignored*/
/* copy from vga memory to memdc*/
static void
vga_to_mempl4_blit(PSD dstpsd, MWCOORD dstx, MWCOORD dsty, MWCOORD w, MWCOORD h,
PSD srcpsd, MWCOORD srcx, MWCOORD srcy, int op)
{
printf("vga_to_mempl4 called, not implemented\n");
/* FIXME*/
}
void
ega_blit(PSD dstpsd, MWCOORD dstx, MWCOORD dsty, MWCOORD w, MWCOORD h,
PSD srcpsd, MWCOORD srcx, MWCOORD srcy, long op)
{
MWBOOL srcvga, dstvga;
/* decide which blit algorithm to use*/
srcvga = srcpsd->flags & PSF_SCREEN;
dstvga = dstpsd->flags & PSF_SCREEN;
if(srcvga) {
if(dstvga)
vga_to_vga_blit(dstpsd, dstx, dsty, w, h,
srcpsd, srcx, srcy, op);
else
vga_to_mempl4_blit(dstpsd, dstx, dsty, w, h,
srcpsd, srcx, srcy, op);
} else {
if(dstvga)
mempl4_to_vga_blit(dstpsd, dstx, dsty, w, h,
srcpsd, srcx, srcy, op);
else
mempl4_to_mempl4_blit(dstpsd, dstx, dsty, w, h,
srcpsd, srcx, srcy, op);
}
}
SUBDRIVER memplan4 = {
mempl4_init,
mempl4_drawpixel,
mempl4_readpixel,
mempl4_drawhorzline,
mempl4_drawvertline,
gen_fillrect,
ega_blit
};
#endif /* HAVEBLIT*/
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