luna68k/dev/omrasops.c

1.13.2.1       tls /* $NetBSD: omrasops.c,v 1.13.2.1 2014/08/20 00:03:10 tls Exp $ */
     1.1  nisimura
     1.1  nisimura /*-
     1.1  nisimura  * Copyright (c) 2000 The NetBSD Foundation, Inc.
     1.1  nisimura  * All rights reserved.
     1.1  nisimura  *
     1.1  nisimura  * This code is derived from software contributed to The NetBSD Foundation
     1.1  nisimura  * by Tohru Nishimura.
     1.1  nisimura  *
     1.1  nisimura  * Redistribution and use in source and binary forms, with or without
     1.1  nisimura  * modification, are permitted provided that the following conditions
     1.1  nisimura  * are met:
     1.1  nisimura  * 1. Redistributions of source code must retain the above copyright
     1.1  nisimura  *    notice, this list of conditions and the following disclaimer.
     1.1  nisimura  * 2. Redistributions in binary form must reproduce the above copyright
     1.1  nisimura  *    notice, this list of conditions and the following disclaimer in the
     1.1  nisimura  *    documentation and/or other materials provided with the distribution.
     1.1  nisimura  *
     1.1  nisimura  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
     1.1  nisimura  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     1.1  nisimura  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     1.1  nisimura  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
     1.1  nisimura  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     1.1  nisimura  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     1.1  nisimura  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     1.1  nisimura  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     1.1  nisimura  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     1.1  nisimura  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     1.1  nisimura  * POSSIBILITY OF SUCH DAMAGE.
     1.1  nisimura  */
     1.1  nisimura
     1.1  nisimura #include <sys/cdefs.h>			/* RCS ID & Copyright macro defns */
     1.1  nisimura
1.13.2.1       tls __KERNEL_RCSID(0, "$NetBSD: omrasops.c,v 1.13.2.1 2014/08/20 00:03:10 tls Exp $");
     1.1  nisimura
     1.1  nisimura /*
     1.1  nisimura  * Designed speficically for 'm68k bitorder';
     1.1  nisimura  *	- most significant byte is stored at lower address,
     1.1  nisimura  *	- most significant bit is displayed at left most on screen.
    1.12   tsutsui  * Implementation relies on;
1.13.2.1       tls  *	- first column is at 32bit aligned address,
     1.1  nisimura  *	- font glyphs are stored in 32bit padded.
     1.1  nisimura  */
     1.1  nisimura
     1.1  nisimura #include <sys/param.h>
     1.1  nisimura #include <sys/systm.h>
     1.1  nisimura #include <sys/device.h>
     1.1  nisimura
    1.13   tsutsui #include <dev/wscons/wsconsio.h>
     1.1  nisimura #include <dev/wscons/wsdisplayvar.h>
    1.13   tsutsui #include <dev/rasops/rasops.h>
     1.1  nisimura
    1.13   tsutsui #include <arch/luna68k/dev/omrasopsvar.h>
     1.1  nisimura
     1.1  nisimura /* wscons emulator operations */
1.13.2.1       tls static void	om1_cursor(void *, int, int, int);
1.13.2.1       tls static void	om4_cursor(void *, int, int, int);
     1.7       dsl static int	om_mapchar(void *, int, unsigned int *);
1.13.2.1       tls static void	om1_putchar(void *, int, int, u_int, long);
1.13.2.1       tls static void	om4_putchar(void *, int, int, u_int, long);
1.13.2.1       tls static void	om1_copycols(void *, int, int, int, int);
1.13.2.1       tls static void	om4_copycols(void *, int, int, int, int);
1.13.2.1       tls static void	om1_copyrows(void *, int, int, int num);
1.13.2.1       tls static void	om4_copyrows(void *, int, int, int num);
1.13.2.1       tls static void	om1_erasecols(void *, int, int, int, long);
1.13.2.1       tls static void	om4_erasecols(void *, int, int, int, long);
1.13.2.1       tls static void	om1_eraserows(void *, int, int, long);
1.13.2.1       tls static void	om4_eraserows(void *, int, int, long);
1.13.2.1       tls static int	om1_allocattr(void *, int, int, int, long *);
1.13.2.1       tls static int	om4_allocattr(void *, int, int, int, long *);
1.13.2.1       tls
1.13.2.1       tls static int	omrasops_init(struct rasops_info *, int, int);
     1.1  nisimura
     1.1  nisimura #define	ALL1BITS	(~0U)
     1.1  nisimura #define	ALL0BITS	(0U)
     1.1  nisimura #define	BLITWIDTH	(32)
     1.1  nisimura #define	ALIGNMASK	(0x1f)
     1.1  nisimura #define	BYTESDONE	(4)
     1.1  nisimura
    1.11   tsutsui #define	W(p) (*(uint32_t *)(p))
    1.11   tsutsui #define	R(p) (*(uint32_t *)((uint8_t *)(p) + 0x40000))
1.13.2.1       tls #define	P0(p) (*(uint32_t *)((uint8_t *)(p) + 0x40000))
1.13.2.1       tls #define	P1(p) (*(uint32_t *)((uint8_t *)(p) + 0x80000))
1.13.2.1       tls #define	P2(p) (*(uint32_t *)((uint8_t *)(p) + 0xc0000))
1.13.2.1       tls #define	P3(p) (*(uint32_t *)((uint8_t *)(p) + 0x100000))
1.13.2.1       tls
1.13.2.1       tls /*
1.13.2.1       tls  * macros to handle unaligned bit copy ops.
1.13.2.1       tls  * See src/sys/dev/rasops/rasops_mask.h for MI version.
1.13.2.1       tls  * Also refer src/sys/arch/hp300/dev/maskbits.h.
1.13.2.1       tls  * (which was implemented for ancient src/sys/arch/hp300/dev/grf_hy.c)
1.13.2.1       tls  */
1.13.2.1       tls
1.13.2.1       tls /* luna68k version GETBITS() that gets w bits from bit x at psrc memory */
1.13.2.1       tls #define	FASTGETBITS(psrc, x, w, dst)					\
1.13.2.1       tls 	asm("bfextu %3{%1:%2},%0"					\
1.13.2.1       tls 	    : "=d" (dst) 						\
1.13.2.1       tls 	    : "di" (x), "di" (w), "o" ((uint32_t *)(psrc)))
1.13.2.1       tls
1.13.2.1       tls /* luna68k version PUTBITS() that puts w bits from bit x at pdst memory */
1.13.2.1       tls /* XXX this macro assumes (x + w) <= 32 to handle unaligned residual bits */
1.13.2.1       tls #define	FASTPUTBITS(src, x, w, pdst)					\
1.13.2.1       tls 	asm("bfins %3,%0{%1:%2}"					\
1.13.2.1       tls 	    : "+o" ((uint32_t *)(pdst))					\
1.13.2.1       tls 	    : "di" (x), "di" (w), "d" (src)				\
1.13.2.1       tls 	    : "memory" );
1.13.2.1       tls
1.13.2.1       tls #define	GETBITS(psrc, x, w, dst)	FASTGETBITS(psrc, x, w, dst)
1.13.2.1       tls #define	PUTBITS(src, x, w, pdst)	FASTPUTBITS(src, x, w, pdst)
     1.1  nisimura
     1.1  nisimura /*
     1.1  nisimura  * Blit a character at the specified co-ordinates.
     1.1  nisimura  */
     1.1  nisimura static void
1.13.2.1       tls om1_putchar(void *cookie, int row, int startcol, u_int uc, long attr)
     1.1  nisimura {
    1.13   tsutsui 	struct rasops_info *ri = cookie;
     1.5   tsutsui 	uint8_t *p;
     1.1  nisimura 	int scanspan, startx, height, width, align, y;
    1.11   tsutsui 	uint32_t lmask, rmask, glyph, inverse;
    1.13   tsutsui 	int i;
    1.13   tsutsui 	uint8_t *fb;
     1.1  nisimura
    1.13   tsutsui 	scanspan = ri->ri_stride;
    1.13   tsutsui 	y = ri->ri_font->fontheight * row;
    1.13   tsutsui 	startx = ri->ri_font->fontwidth * startcol;
    1.13   tsutsui 	height = ri->ri_font->fontheight;
    1.13   tsutsui 	fb = (uint8_t *)ri->ri_font->data +
    1.13   tsutsui 	    (uc - ri->ri_font->firstchar) * ri->ri_fontscale;
1.13.2.1       tls 	inverse = ((attr & 0x00000001) != 0) ? ALL1BITS : ALL0BITS;
     1.1  nisimura
    1.13   tsutsui 	p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4);
     1.1  nisimura 	align = startx & ALIGNMASK;
    1.13   tsutsui 	width = ri->ri_font->fontwidth + align;
     1.1  nisimura 	lmask = ALL1BITS >> align;
     1.1  nisimura 	rmask = ALL1BITS << (-width & ALIGNMASK);
     1.1  nisimura 	if (width <= BLITWIDTH) {
     1.1  nisimura 		lmask &= rmask;
     1.1  nisimura 		while (height > 0) {
    1.13   tsutsui 			glyph = 0;
    1.13   tsutsui 			for (i = ri->ri_font->stride; i != 0; i--)
    1.13   tsutsui 				glyph = (glyph << 8) | *fb++;
    1.13   tsutsui 			glyph <<= (4 - ri->ri_font->stride) * NBBY;
     1.1  nisimura 			glyph = (glyph >> align) ^ inverse;
1.13.2.1       tls 			P0(p) = (P0(p) & ~lmask) | (glyph & lmask);
     1.1  nisimura 			p += scanspan;
     1.1  nisimura 			height--;
     1.1  nisimura 		}
    1.11   tsutsui 	} else {
     1.5   tsutsui 		uint8_t *q = p;
    1.11   tsutsui 		uint32_t lhalf, rhalf;
     1.1  nisimura
     1.1  nisimura 		while (height > 0) {
    1.13   tsutsui 			glyph = 0;
    1.13   tsutsui 			for (i = ri->ri_font->stride; i != 0; i--)
    1.13   tsutsui 				glyph = (glyph << 8) | *fb++;
    1.13   tsutsui 			glyph <<= (4 - ri->ri_font->stride) * NBBY;
     1.1  nisimura 			lhalf = (glyph >> align) ^ inverse;
1.13.2.1       tls 			P0(p) = (P0(p) & ~lmask) | (lhalf & lmask);
     1.1  nisimura 			p += BYTESDONE;
     1.1  nisimura 			rhalf = (glyph << (BLITWIDTH - align)) ^ inverse;
1.13.2.1       tls 			P0(p) = (rhalf & rmask) | (P0(p) & ~rmask);
     1.1  nisimura
     1.1  nisimura 			p = (q += scanspan);
     1.1  nisimura 			height--;
     1.1  nisimura 		}
     1.1  nisimura 	}
     1.1  nisimura }
     1.1  nisimura
     1.1  nisimura static void
1.13.2.1       tls om4_putchar(void *cookie, int row, int startcol, u_int uc, long attr)
1.13.2.1       tls {
1.13.2.1       tls 	struct rasops_info *ri = cookie;
1.13.2.1       tls 	uint8_t *p;
1.13.2.1       tls 	int scanspan, startx, height, width, align, y;
1.13.2.1       tls 	uint32_t lmask, rmask, glyph;
1.13.2.1       tls 	uint32_t glyphbg, fg, bg;
1.13.2.1       tls 	int i;
1.13.2.1       tls 	uint8_t *fb;
1.13.2.1       tls
1.13.2.1       tls 	scanspan = ri->ri_stride;
1.13.2.1       tls 	y = ri->ri_font->fontheight * row;
1.13.2.1       tls 	startx = ri->ri_font->fontwidth * startcol;
1.13.2.1       tls 	height = ri->ri_font->fontheight;
1.13.2.1       tls 	fb = (uint8_t *)ri->ri_font->data +
1.13.2.1       tls 	    (uc - ri->ri_font->firstchar) * ri->ri_fontscale;
1.13.2.1       tls
1.13.2.1       tls 	p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4);
1.13.2.1       tls 	align = startx & ALIGNMASK;
1.13.2.1       tls 	width = ri->ri_font->fontwidth + align;
1.13.2.1       tls 	lmask = ALL1BITS >> align;
1.13.2.1       tls 	rmask = ALL1BITS << (-width & ALIGNMASK);
1.13.2.1       tls 	if (width <= BLITWIDTH) {
1.13.2.1       tls 		lmask &= rmask;
1.13.2.1       tls 		while (height > 0) {
1.13.2.1       tls 			glyph = 0;
1.13.2.1       tls 			for (i = ri->ri_font->stride; i != 0; i--)
1.13.2.1       tls 				glyph = (glyph << 8) | *fb++;
1.13.2.1       tls 			glyph <<= (4 - ri->ri_font->stride) * NBBY;
1.13.2.1       tls 			glyph = (glyph >> align);
1.13.2.1       tls 			glyphbg = glyph ^ ALL1BITS;
1.13.2.1       tls 			fg = (attr & 0x01000000) ? glyph : 0;
1.13.2.1       tls 			bg = (attr & 0x00010000) ? glyphbg : 0;
1.13.2.1       tls 			P0(p) = (P0(p) & ~lmask) | ((fg | bg) & lmask);
1.13.2.1       tls 			fg = (attr & 0x02000000) ? glyph : 0;
1.13.2.1       tls 			bg = (attr & 0x00020000) ? glyphbg : 0;
1.13.2.1       tls 			P1(p) = (P1(p) & ~lmask) | ((fg | bg) & lmask);
1.13.2.1       tls 			fg = (attr & 0x04000000) ? glyph : 0;
1.13.2.1       tls 			bg = (attr & 0x00040000) ? glyphbg : 0;
1.13.2.1       tls 			P2(p) = (P2(p) & ~lmask) | ((fg | bg) & lmask);
1.13.2.1       tls 			fg = (attr & 0x08000000) ? glyph : 0;
1.13.2.1       tls 			bg = (attr & 0x00080000) ? glyphbg : 0;
1.13.2.1       tls 			P3(p) = (P3(p) & ~lmask) | ((fg | bg) & lmask);
1.13.2.1       tls 			p += scanspan;
1.13.2.1       tls 			height--;
1.13.2.1       tls 		}
1.13.2.1       tls 	} else {
1.13.2.1       tls 		uint8_t *q = p;
1.13.2.1       tls 		uint32_t lhalf, rhalf;
1.13.2.1       tls 		uint32_t lhalfbg, rhalfbg;
1.13.2.1       tls
1.13.2.1       tls 		while (height > 0) {
1.13.2.1       tls 			glyph = 0;
1.13.2.1       tls 			for (i = ri->ri_font->stride; i != 0; i--)
1.13.2.1       tls 				glyph = (glyph << 8) | *fb++;
1.13.2.1       tls 			glyph <<= (4 - ri->ri_font->stride) * NBBY;
1.13.2.1       tls 			lhalf = (glyph >> align);
1.13.2.1       tls 			lhalfbg = lhalf ^ ALL1BITS;
1.13.2.1       tls 			fg = (attr & 0x01000000) ? lhalf : 0;
1.13.2.1       tls 			bg = (attr & 0x00010000) ? lhalfbg : 0;
1.13.2.1       tls 			P0(p) = (P0(p) & ~lmask) | ((fg | bg) & lmask);
1.13.2.1       tls 			fg = (attr & 0x02000000) ? lhalf : 0;
1.13.2.1       tls 			bg = (attr & 0x00020000) ? lhalfbg : 0;
1.13.2.1       tls 			P1(p) = (P1(p) & ~lmask) | ((fg | bg) & lmask);
1.13.2.1       tls 			fg = (attr & 0x04000000) ? lhalf : 0;
1.13.2.1       tls 			bg = (attr & 0x00040000) ? lhalfbg : 0;
1.13.2.1       tls 			P2(p) = (P2(p) & ~lmask) | ((fg | bg) & lmask);
1.13.2.1       tls 			fg = (attr & 0x08000000) ? lhalf : 0;
1.13.2.1       tls 			bg = (attr & 0x00080000) ? lhalfbg : 0;
1.13.2.1       tls 			P3(p) = (P3(p) & ~lmask) | ((fg | bg) & lmask);
1.13.2.1       tls 			p += BYTESDONE;
1.13.2.1       tls 			rhalf = (glyph << (BLITWIDTH - align));
1.13.2.1       tls 			rhalfbg = rhalf ^ ALL1BITS;
1.13.2.1       tls 			fg = (attr & 0x01000000) ? rhalf : 0;
1.13.2.1       tls 			bg = (attr & 0x00010000) ? rhalfbg : 0;
1.13.2.1       tls 			P0(p) = ((fg | bg) & rmask) | (P0(p) & ~rmask);
1.13.2.1       tls 			fg = (attr & 0x02000000) ? rhalf : 0;
1.13.2.1       tls 			bg = (attr & 0x00020000) ? rhalfbg : 0;
1.13.2.1       tls 			P1(p) = ((fg | bg) & rmask) | (P1(p) & ~rmask);
1.13.2.1       tls 			fg = (attr & 0x04000000) ? rhalf : 0;
1.13.2.1       tls 			bg = (attr & 0x00040000) ? rhalfbg : 0;
1.13.2.1       tls 			P2(p) = ((fg | bg) & rmask) | (P2(p) & ~rmask);
1.13.2.1       tls 			fg = (attr & 0x08000000) ? rhalf : 0;
1.13.2.1       tls 			bg = (attr & 0x00080000) ? rhalfbg : 0;
1.13.2.1       tls 			P3(p) = ((fg | bg) & rmask) | (P3(p) & ~rmask);
1.13.2.1       tls
1.13.2.1       tls 			p = (q += scanspan);
1.13.2.1       tls 			height--;
1.13.2.1       tls 		}
1.13.2.1       tls 	}
1.13.2.1       tls }
1.13.2.1       tls
1.13.2.1       tls static void
1.13.2.1       tls om1_erasecols(void *cookie, int row, int startcol, int ncols, long attr)
     1.1  nisimura {
    1.13   tsutsui 	struct rasops_info *ri = cookie;
    1.13   tsutsui 	uint8_t *p;
    1.13   tsutsui 	int scanspan, startx, height, width, align, w, y;
    1.13   tsutsui 	uint32_t lmask, rmask, fill;
    1.13   tsutsui
    1.13   tsutsui 	scanspan = ri->ri_stride;;
    1.13   tsutsui 	y = ri->ri_font->fontheight * row;
    1.13   tsutsui 	startx = ri->ri_font->fontwidth * startcol;
    1.13   tsutsui 	height = ri->ri_font->fontheight;
    1.13   tsutsui 	w = ri->ri_font->fontwidth * ncols;
1.13.2.1       tls 	fill = ((attr & 0x00000001) != 0) ? ALL1BITS : ALL0BITS;
     1.1  nisimura
    1.13   tsutsui 	p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4);
     1.1  nisimura 	align = startx & ALIGNMASK;
     1.1  nisimura 	width = w + align;
     1.1  nisimura 	lmask = ALL1BITS >> align;
     1.1  nisimura 	rmask = ALL1BITS << (-width & ALIGNMASK);
     1.1  nisimura 	if (width <= BLITWIDTH) {
     1.1  nisimura 		lmask &= rmask;
1.13.2.1       tls 		fill  &= lmask;
     1.1  nisimura 		while (height > 0) {
1.13.2.1       tls 			P0(p) = (P0(p) & ~lmask) | fill;
     1.1  nisimura 			p += scanspan;
     1.1  nisimura 			height--;
     1.1  nisimura 		}
    1.11   tsutsui 	} else {
     1.5   tsutsui 		uint8_t *q = p;
     1.1  nisimura 		while (height > 0) {
1.13.2.1       tls 			P0(p) = (P0(p) & ~lmask) | (fill & lmask);
     1.1  nisimura 			width -= 2 * BLITWIDTH;
     1.1  nisimura 			while (width > 0) {
     1.1  nisimura 				p += BYTESDONE;
1.13.2.1       tls 				P0(p) = fill;
     1.1  nisimura 				width -= BLITWIDTH;
     1.1  nisimura 			}
     1.1  nisimura 			p += BYTESDONE;
1.13.2.1       tls 			P0(p) = (fill & rmask) | (P0(p) & ~rmask);
     1.1  nisimura
     1.1  nisimura 			p = (q += scanspan);
     1.1  nisimura 			width = w + align;
     1.1  nisimura 			height--;
     1.1  nisimura 		}
     1.1  nisimura 	}
     1.1  nisimura }
     1.1  nisimura
     1.1  nisimura static void
1.13.2.1       tls om4_erasecols(void *cookie, int row, int startcol, int ncols, long attr)
1.13.2.1       tls {
1.13.2.1       tls 	struct rasops_info *ri = cookie;
1.13.2.1       tls 	uint8_t *p;
1.13.2.1       tls 	int scanspan, startx, height, width, align, w, y;
1.13.2.1       tls 	uint32_t lmask, rmask, fill0, fill1, fill2, fill3;
1.13.2.1       tls
1.13.2.1       tls 	scanspan = ri->ri_stride;;
1.13.2.1       tls 	y = ri->ri_font->fontheight * row;
1.13.2.1       tls 	startx = ri->ri_font->fontwidth * startcol;
1.13.2.1       tls 	height = ri->ri_font->fontheight;
1.13.2.1       tls 	w = ri->ri_font->fontwidth * ncols;
1.13.2.1       tls 	fill0 = ((attr & 0x00010000) != 0) ? ALL1BITS : ALL0BITS;
1.13.2.1       tls 	fill1 = ((attr & 0x00020000) != 0) ? ALL1BITS : ALL0BITS;
1.13.2.1       tls 	fill2 = ((attr & 0x00040000) != 0) ? ALL1BITS : ALL0BITS;
1.13.2.1       tls 	fill3 = ((attr & 0x00080000) != 0) ? ALL1BITS : ALL0BITS;
1.13.2.1       tls
1.13.2.1       tls 	p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4);
1.13.2.1       tls 	align = startx & ALIGNMASK;
1.13.2.1       tls 	width = w + align;
1.13.2.1       tls 	lmask = ALL1BITS >> align;
1.13.2.1       tls 	rmask = ALL1BITS << (-width & ALIGNMASK);
1.13.2.1       tls 	if (width <= BLITWIDTH) {
1.13.2.1       tls 		lmask &= rmask;
1.13.2.1       tls 		fill0 &= lmask;
1.13.2.1       tls 		fill1 &= lmask;
1.13.2.1       tls 		fill2 &= lmask;
1.13.2.1       tls 		fill3 &= lmask;
1.13.2.1       tls 		while (height > 0) {
1.13.2.1       tls 			P0(p) = (P0(p) & ~lmask) | fill0;
1.13.2.1       tls 			P1(p) = (P1(p) & ~lmask) | fill1;
1.13.2.1       tls 			P2(p) = (P2(p) & ~lmask) | fill2;
1.13.2.1       tls 			P3(p) = (P3(p) & ~lmask) | fill3;
1.13.2.1       tls 			p += scanspan;
1.13.2.1       tls 			height--;
1.13.2.1       tls 		}
1.13.2.1       tls 	} else {
1.13.2.1       tls 		uint8_t *q = p;
1.13.2.1       tls 		while (height > 0) {
1.13.2.1       tls 			P0(p) = (P0(p) & ~lmask) | (fill0 & lmask);
1.13.2.1       tls 			P1(p) = (P1(p) & ~lmask) | (fill1 & lmask);
1.13.2.1       tls 			P2(p) = (P2(p) & ~lmask) | (fill2 & lmask);
1.13.2.1       tls 			P3(p) = (P3(p) & ~lmask) | (fill3 & lmask);
1.13.2.1       tls 			width -= 2 * BLITWIDTH;
1.13.2.1       tls 			while (width > 0) {
1.13.2.1       tls 				p += BYTESDONE;
1.13.2.1       tls 				P0(p) = fill0;
1.13.2.1       tls 				P1(p) = fill1;
1.13.2.1       tls 				P2(p) = fill2;
1.13.2.1       tls 				P3(p) = fill3;
1.13.2.1       tls 				width -= BLITWIDTH;
1.13.2.1       tls 			}
1.13.2.1       tls 			p += BYTESDONE;
1.13.2.1       tls 			P0(p) = (fill0 & rmask) | (P0(p) & ~rmask);
1.13.2.1       tls 			P1(p) = (fill1 & rmask) | (P1(p) & ~rmask);
1.13.2.1       tls 			P2(p) = (fill2 & rmask) | (P2(p) & ~rmask);
1.13.2.1       tls 			P3(p) = (fill3 & rmask) | (P3(p) & ~rmask);
1.13.2.1       tls
1.13.2.1       tls 			p = (q += scanspan);
1.13.2.1       tls 			width = w + align;
1.13.2.1       tls 			height--;
1.13.2.1       tls 		}
1.13.2.1       tls 	}
1.13.2.1       tls }
1.13.2.1       tls
1.13.2.1       tls static void
1.13.2.1       tls om1_eraserows(void *cookie, int startrow, int nrows, long attr)
     1.1  nisimura {
    1.13   tsutsui 	struct rasops_info *ri = cookie;
     1.5   tsutsui 	uint8_t *p, *q;
     1.1  nisimura 	int scanspan, starty, height, width, w;
    1.11   tsutsui 	uint32_t rmask, fill;
     1.1  nisimura
    1.13   tsutsui 	scanspan = ri->ri_stride;
    1.13   tsutsui 	starty = ri->ri_font->fontheight * startrow;
    1.13   tsutsui 	height = ri->ri_font->fontheight * nrows;
    1.13   tsutsui 	w = ri->ri_emuwidth;
1.13.2.1       tls 	fill = ((attr & 0x00000001) != 0) ? ALL1BITS : ALL0BITS;
1.13.2.1       tls
1.13.2.1       tls 	p = (uint8_t *)ri->ri_bits + starty * scanspan;
1.13.2.1       tls 	width = w;
1.13.2.1       tls 	rmask = ALL1BITS << (-width & ALIGNMASK);
1.13.2.1       tls 	q = p;
1.13.2.1       tls 	while (height > 0) {
1.13.2.1       tls 		P0(p) = fill;				/* always aligned */
1.13.2.1       tls 		width -= 2 * BLITWIDTH;
1.13.2.1       tls 		while (width > 0) {
1.13.2.1       tls 			p += BYTESDONE;
1.13.2.1       tls 			P0(p) = fill;
1.13.2.1       tls 			width -= BLITWIDTH;
1.13.2.1       tls 		}
1.13.2.1       tls 		p += BYTESDONE;
1.13.2.1       tls 		P0(p) = (fill & rmask) | (P0(p) & ~rmask);
1.13.2.1       tls 		p = (q += scanspan);
1.13.2.1       tls 		width = w;
1.13.2.1       tls 		height--;
1.13.2.1       tls 	}
1.13.2.1       tls }
1.13.2.1       tls
1.13.2.1       tls static void
1.13.2.1       tls om4_eraserows(void *cookie, int startrow, int nrows, long attr)
1.13.2.1       tls {
1.13.2.1       tls 	struct rasops_info *ri = cookie;
1.13.2.1       tls 	uint8_t *p, *q;
1.13.2.1       tls 	int scanspan, starty, height, width, w;
1.13.2.1       tls 	uint32_t rmask, fill0, fill1, fill2, fill3;
1.13.2.1       tls
1.13.2.1       tls 	scanspan = ri->ri_stride;
1.13.2.1       tls 	starty = ri->ri_font->fontheight * startrow;
1.13.2.1       tls 	height = ri->ri_font->fontheight * nrows;
1.13.2.1       tls 	w = ri->ri_emuwidth;
1.13.2.1       tls 	fill0 = ((attr & 0x00010000) != 0) ? ALL1BITS : ALL0BITS;
1.13.2.1       tls 	fill1 = ((attr & 0x00020000) != 0) ? ALL1BITS : ALL0BITS;
1.13.2.1       tls 	fill2 = ((attr & 0x00040000) != 0) ? ALL1BITS : ALL0BITS;
1.13.2.1       tls 	fill3 = ((attr & 0x00080000) != 0) ? ALL1BITS : ALL0BITS;
     1.1  nisimura
    1.13   tsutsui 	p = (uint8_t *)ri->ri_bits + starty * scanspan;
     1.1  nisimura 	width = w;
    1.13   tsutsui 	rmask = ALL1BITS << (-width & ALIGNMASK);
     1.1  nisimura 	q = p;
     1.1  nisimura 	while (height > 0) {
1.13.2.1       tls 		P0(p) = fill0;				/* always aligned */
1.13.2.1       tls 		P1(p) = fill1;
1.13.2.1       tls 		P2(p) = fill2;
1.13.2.1       tls 		P3(p) = fill3;
1.13.2.1       tls 		width -= 2 * BLITWIDTH;
1.13.2.1       tls 		while (width > 0) {
1.13.2.1       tls 			p += BYTESDONE;
1.13.2.1       tls 			P0(p) = fill0;
1.13.2.1       tls 			P1(p) = fill1;
1.13.2.1       tls 			P2(p) = fill2;
1.13.2.1       tls 			P3(p) = fill3;
1.13.2.1       tls 			width -= BLITWIDTH;
1.13.2.1       tls 		}
1.13.2.1       tls 		p += BYTESDONE;
1.13.2.1       tls 		P0(p) = (fill0 & rmask) | (P0(p) & ~rmask);
1.13.2.1       tls 		P1(p) = (fill1 & rmask) | (P1(p) & ~rmask);
1.13.2.1       tls 		P2(p) = (fill2 & rmask) | (P2(p) & ~rmask);
1.13.2.1       tls 		P3(p) = (fill3 & rmask) | (P3(p) & ~rmask);
1.13.2.1       tls 		p = (q += scanspan);
1.13.2.1       tls 		width = w;
1.13.2.1       tls 		height--;
1.13.2.1       tls 	}
1.13.2.1       tls }
1.13.2.1       tls
1.13.2.1       tls static void
1.13.2.1       tls om1_copyrows(void *cookie, int srcrow, int dstrow, int nrows)
1.13.2.1       tls {
1.13.2.1       tls 	struct rasops_info *ri = cookie;
1.13.2.1       tls 	uint8_t *p, *q;
1.13.2.1       tls 	int scanspan, offset, srcy, height, width, w;
1.13.2.1       tls 	uint32_t rmask;
1.13.2.1       tls
1.13.2.1       tls 	scanspan = ri->ri_stride;
1.13.2.1       tls 	height = ri->ri_font->fontheight * nrows;
1.13.2.1       tls 	offset = (dstrow - srcrow) * scanspan * ri->ri_font->fontheight;
1.13.2.1       tls 	srcy = ri->ri_font->fontheight * srcrow;
1.13.2.1       tls 	if (srcrow < dstrow && srcrow + nrows > dstrow) {
1.13.2.1       tls 		scanspan = -scanspan;
1.13.2.1       tls 		srcy = srcy + height - 1;
1.13.2.1       tls 	}
1.13.2.1       tls
1.13.2.1       tls 	p = (uint8_t *)ri->ri_bits + srcy * ri->ri_stride;
1.13.2.1       tls 	w = ri->ri_emuwidth;
1.13.2.1       tls 	width = w;
1.13.2.1       tls 	rmask = ALL1BITS << (-width & ALIGNMASK);
1.13.2.1       tls 	q = p;
1.13.2.1       tls 	while (height > 0) {
1.13.2.1       tls 		P0(p + offset) = P0(p);			/* always aligned */
     1.1  nisimura 		width -= 2 * BLITWIDTH;
     1.1  nisimura 		while (width > 0) {
     1.1  nisimura 			p += BYTESDONE;
1.13.2.1       tls 			P0(p + offset) = P0(p);
     1.1  nisimura 			width -= BLITWIDTH;
     1.1  nisimura 		}
     1.1  nisimura 		p += BYTESDONE;
1.13.2.1       tls 		P0(p + offset) = (P0(p) & rmask) | (P0(p + offset) & ~rmask);
1.13.2.1       tls
     1.1  nisimura 		p = (q += scanspan);
     1.1  nisimura 		width = w;
     1.1  nisimura 		height--;
     1.1  nisimura 	}
     1.1  nisimura }
     1.1  nisimura
     1.1  nisimura static void
1.13.2.1       tls om4_copyrows(void *cookie, int srcrow, int dstrow, int nrows)
     1.1  nisimura {
    1.13   tsutsui 	struct rasops_info *ri = cookie;
    1.13   tsutsui 	uint8_t *p, *q;
     1.1  nisimura 	int scanspan, offset, srcy, height, width, w;
    1.13   tsutsui 	uint32_t rmask;
    1.13   tsutsui
    1.13   tsutsui 	scanspan = ri->ri_stride;
    1.13   tsutsui 	height = ri->ri_font->fontheight * nrows;
    1.13   tsutsui 	offset = (dstrow - srcrow) * scanspan * ri->ri_font->fontheight;
    1.13   tsutsui 	srcy = ri->ri_font->fontheight * srcrow;
     1.1  nisimura 	if (srcrow < dstrow && srcrow + nrows > dstrow) {
     1.1  nisimura 		scanspan = -scanspan;
1.13.2.1       tls 		srcy = srcy + height - 1;
     1.1  nisimura 	}
     1.1  nisimura
    1.13   tsutsui 	p = (uint8_t *)ri->ri_bits + srcy * ri->ri_stride;
    1.13   tsutsui 	w = ri->ri_emuwidth;
     1.1  nisimura 	width = w;
     1.1  nisimura 	rmask = ALL1BITS << (-width & ALIGNMASK);
     1.1  nisimura 	q = p;
     1.1  nisimura 	while (height > 0) {
1.13.2.1       tls 		P0(p + offset) = P0(p);			/* always aligned */
1.13.2.1       tls 		P1(p + offset) = P1(p);
1.13.2.1       tls 		P2(p + offset) = P2(p);
1.13.2.1       tls 		P3(p + offset) = P3(p);
     1.1  nisimura 		width -= 2 * BLITWIDTH;
     1.1  nisimura 		while (width > 0) {
     1.1  nisimura 			p += BYTESDONE;
1.13.2.1       tls 			P0(p + offset) = P0(p);
1.13.2.1       tls 			P1(p + offset) = P1(p);
1.13.2.1       tls 			P2(p + offset) = P2(p);
1.13.2.1       tls 			P3(p + offset) = P3(p);
     1.1  nisimura 			width -= BLITWIDTH;
     1.1  nisimura 		}
     1.1  nisimura 		p += BYTESDONE;
1.13.2.1       tls 		P0(p + offset) = (P0(p) & rmask) | (P0(p + offset) & ~rmask);
1.13.2.1       tls 		P1(p + offset) = (P1(p) & rmask) | (P1(p + offset) & ~rmask);
1.13.2.1       tls 		P2(p + offset) = (P2(p) & rmask) | (P2(p + offset) & ~rmask);
1.13.2.1       tls 		P3(p + offset) = (P3(p) & rmask) | (P3(p + offset) & ~rmask);
     1.1  nisimura
     1.1  nisimura 		p = (q += scanspan);
     1.1  nisimura 		width = w;
     1.1  nisimura 		height--;
     1.1  nisimura 	}
     1.1  nisimura }
     1.1  nisimura
     1.1  nisimura static void
1.13.2.1       tls om1_copycols(void *cookie, int startrow, int srccol, int dstcol, int ncols)
     1.1  nisimura {
    1.13   tsutsui 	struct rasops_info *ri = cookie;
1.13.2.1       tls 	uint8_t *sp, *dp, *sq, *dq, *basep;
1.13.2.1       tls 	int scanspan, height, w, y, srcx, dstx;
1.13.2.1       tls 	int sb, eb, db, sboff, full, cnt, lnum, rnum;
1.13.2.1       tls 	uint32_t lmask, rmask, tmp;
1.13.2.1       tls 	bool sbover;
     1.1  nisimura
    1.13   tsutsui 	scanspan = ri->ri_stride;
    1.13   tsutsui 	y = ri->ri_font->fontheight * startrow;
    1.13   tsutsui 	srcx = ri->ri_font->fontwidth * srccol;
    1.13   tsutsui 	dstx = ri->ri_font->fontwidth * dstcol;
    1.13   tsutsui 	height = ri->ri_font->fontheight;
    1.13   tsutsui 	w = ri->ri_font->fontwidth * ncols;
    1.13   tsutsui 	basep = (uint8_t *)ri->ri_bits + y * scanspan;
     1.1  nisimura
1.13.2.1       tls 	sb = srcx & ALIGNMASK;
1.13.2.1       tls 	db = dstx & ALIGNMASK;
     1.1  nisimura
1.13.2.1       tls 	if (db + w <= BLITWIDTH) {
1.13.2.1       tls 		/* Destination is contained within a single word */
1.13.2.1       tls 		sp = basep + (srcx / 32) * 4;
1.13.2.1       tls 		dp = basep + (dstx / 32) * 4;
     1.1  nisimura
     1.1  nisimura 		while (height > 0) {
1.13.2.1       tls 			GETBITS(P0(sp), sb, w, tmp);
1.13.2.1       tls 			PUTBITS(tmp, db, w, P0(dp));
     1.1  nisimura 			dp += scanspan;
     1.1  nisimura 			sp += scanspan;
     1.1  nisimura 			height--;
     1.1  nisimura 		}
1.13.2.1       tls 		return;
     1.1  nisimura 	}
     1.1  nisimura
1.13.2.1       tls 	lmask = (db == 0) ? 0 : ALL1BITS >> db;
1.13.2.1       tls 	eb = (db + w) & ALIGNMASK;
1.13.2.1       tls 	rmask = (eb == 0) ? 0 : ALL1BITS << (32 - eb);
1.13.2.1       tls 	lnum = (32 - db) & ALIGNMASK;
1.13.2.1       tls 	rnum = (dstx + w) & ALIGNMASK;
1.13.2.1       tls
1.13.2.1       tls 	if (lmask != 0)
1.13.2.1       tls 		full = (w - (32 - db)) / 32;
1.13.2.1       tls 	else
1.13.2.1       tls 		full = w / 32;
1.13.2.1       tls
1.13.2.1       tls 	sbover = (sb + lnum) >= 32;
1.13.2.1       tls
1.13.2.1       tls 	if (dstcol < srccol || srccol + ncols < dstcol) {
1.13.2.1       tls 		/* copy forward (left-to-right) */
1.13.2.1       tls 		sp = basep + (srcx / 32) * 4;
1.13.2.1       tls 		dp = basep + (dstx / 32) * 4;
1.13.2.1       tls
1.13.2.1       tls 		if (lmask != 0) {
1.13.2.1       tls 			sboff = sb + lnum;
1.13.2.1       tls 			if (sboff >= 32)
1.13.2.1       tls 				sboff -= 32;
1.13.2.1       tls 		} else
1.13.2.1       tls 			sboff = sb;
1.13.2.1       tls
1.13.2.1       tls 		sq = sp;
1.13.2.1       tls 		dq = dp;
     1.1  nisimura 		while (height > 0) {
1.13.2.1       tls 			if (lmask != 0) {
1.13.2.1       tls 				GETBITS(P0(sp), sb, lnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, db, lnum, P0(dp));
1.13.2.1       tls 				dp += BYTESDONE;
1.13.2.1       tls 				if (sbover)
1.13.2.1       tls 					sp += BYTESDONE;
1.13.2.1       tls 			}
1.13.2.1       tls
1.13.2.1       tls 			for (cnt = full; cnt; cnt--) {
1.13.2.1       tls 				GETBITS(P0(sp), sboff, 32, tmp);
1.13.2.1       tls 				P0(dp) = tmp;
     1.1  nisimura 				sp += BYTESDONE;
     1.1  nisimura 				dp += BYTESDONE;
     1.1  nisimura 			}
1.13.2.1       tls
1.13.2.1       tls 			if (rmask != 0) {
1.13.2.1       tls 				GETBITS(P0(sp), sboff, rnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, 0, rnum, P0(dp));
1.13.2.1       tls 			}
1.13.2.1       tls
     1.1  nisimura 			sp = (sq += scanspan);
     1.1  nisimura 			dp = (dq += scanspan);
     1.1  nisimura 			height--;
     1.1  nisimura 		}
1.13.2.1       tls 	} else {
1.13.2.1       tls 		/* copy backward (right-to-left) */
1.13.2.1       tls 		sp = basep + ((srcx + w) / 32) * 4;
1.13.2.1       tls 		dp = basep + ((dstx + w) / 32) * 4;
1.13.2.1       tls
1.13.2.1       tls 		sboff = (srcx + w) & ALIGNMASK;
1.13.2.1       tls 		sboff -= rnum;
1.13.2.1       tls 		if (sboff < 0) {
1.13.2.1       tls 			sp -= BYTESDONE;
1.13.2.1       tls 			sboff += 32;
1.13.2.1       tls 		}
     1.1  nisimura
1.13.2.1       tls 		sq = sp;
1.13.2.1       tls 		dq = dp;
     1.1  nisimura 		while (height > 0) {
1.13.2.1       tls 			if (rnum != 0) {
1.13.2.1       tls 				GETBITS(P0(sp), sboff, rnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, 0, rnum, P0(dp));
1.13.2.1       tls 			}
1.13.2.1       tls
1.13.2.1       tls 			for (cnt = full; cnt; cnt--) {
     1.1  nisimura 				sp -= BYTESDONE;
     1.1  nisimura 				dp -= BYTESDONE;
1.13.2.1       tls 				GETBITS(P0(sp), sboff, 32, tmp);
1.13.2.1       tls 				P0(dp) = tmp;
1.13.2.1       tls 			}
1.13.2.1       tls
1.13.2.1       tls 			if (lmask != 0) {
1.13.2.1       tls 				if (sbover)
1.13.2.1       tls 					sp -= BYTESDONE;
1.13.2.1       tls 				dp -= BYTESDONE;
1.13.2.1       tls 				GETBITS(P0(sp), sb, lnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, db, lnum, P0(dp));
     1.1  nisimura 			}
     1.1  nisimura
     1.1  nisimura 			sp = (sq += scanspan);
     1.1  nisimura 			dp = (dq += scanspan);
     1.1  nisimura 			height--;
     1.1  nisimura 		}
     1.1  nisimura 	}
1.13.2.1       tls }
1.13.2.1       tls
1.13.2.1       tls static void
1.13.2.1       tls om4_copycols(void *cookie, int startrow, int srccol, int dstcol, int ncols)
1.13.2.1       tls {
1.13.2.1       tls 	struct rasops_info *ri = cookie;
1.13.2.1       tls 	uint8_t *sp, *dp, *sq, *dq, *basep;
1.13.2.1       tls 	int scanspan, height, w, y, srcx, dstx;
1.13.2.1       tls 	int sb, eb, db, sboff, full, cnt, lnum, rnum;
1.13.2.1       tls 	uint32_t lmask, rmask, tmp;
1.13.2.1       tls 	bool sbover;
1.13.2.1       tls
1.13.2.1       tls 	scanspan = ri->ri_stride;
1.13.2.1       tls 	y = ri->ri_font->fontheight * startrow;
1.13.2.1       tls 	srcx = ri->ri_font->fontwidth * srccol;
1.13.2.1       tls 	dstx = ri->ri_font->fontwidth * dstcol;
1.13.2.1       tls 	height = ri->ri_font->fontheight;
1.13.2.1       tls 	w = ri->ri_font->fontwidth * ncols;
1.13.2.1       tls 	basep = (uint8_t *)ri->ri_bits + y * scanspan;
1.13.2.1       tls
1.13.2.1       tls 	sb = srcx & ALIGNMASK;
1.13.2.1       tls 	db = dstx & ALIGNMASK;
1.13.2.1       tls
1.13.2.1       tls 	if (db + w <= BLITWIDTH) {
1.13.2.1       tls 		/* Destination is contained within a single word */
1.13.2.1       tls 		sp = basep + (srcx / 32) * 4;
1.13.2.1       tls 		dp = basep + (dstx / 32) * 4;
1.13.2.1       tls
1.13.2.1       tls 		while (height > 0) {
1.13.2.1       tls 			GETBITS(P0(sp), sb, w, tmp);
1.13.2.1       tls 			PUTBITS(tmp, db, w, P0(dp));
1.13.2.1       tls 			GETBITS(P1(sp), sb, w, tmp);
1.13.2.1       tls 			PUTBITS(tmp, db, w, P1(dp));
1.13.2.1       tls 			GETBITS(P2(sp), sb, w, tmp);
1.13.2.1       tls 			PUTBITS(tmp, db, w, P2(dp));
1.13.2.1       tls 			GETBITS(P3(sp), sb, w, tmp);
1.13.2.1       tls 			PUTBITS(tmp, db, w, P3(dp));
1.13.2.1       tls 			dp += scanspan;
1.13.2.1       tls 			sp += scanspan;
1.13.2.1       tls 			height--;
1.13.2.1       tls 		}
1.13.2.1       tls 		return;
1.13.2.1       tls 	}
1.13.2.1       tls
1.13.2.1       tls 	lmask = (db == 0) ? 0 : ALL1BITS >> db;
1.13.2.1       tls 	eb = (db + w) & ALIGNMASK;
1.13.2.1       tls 	rmask = (eb == 0) ? 0 : ALL1BITS << (32 - eb);
1.13.2.1       tls 	lnum = (32 - db) & ALIGNMASK;
1.13.2.1       tls 	rnum = (dstx + w) & ALIGNMASK;
1.13.2.1       tls
1.13.2.1       tls 	if (lmask != 0)
1.13.2.1       tls 		full = (w - (32 - db)) / 32;
1.13.2.1       tls 	else
1.13.2.1       tls 		full = w / 32;
1.13.2.1       tls
1.13.2.1       tls 	sbover = (sb + lnum) >= 32;
     1.1  nisimura
1.13.2.1       tls 	if (dstcol < srccol || srccol + ncols < dstcol) {
1.13.2.1       tls 		/* copy forward (left-to-right) */
1.13.2.1       tls 		sp = basep + (srcx / 32) * 4;
1.13.2.1       tls 		dp = basep + (dstx / 32) * 4;
1.13.2.1       tls
1.13.2.1       tls 		if (lmask != 0) {
1.13.2.1       tls 			sboff = sb + lnum;
1.13.2.1       tls 			if (sboff >= 32)
1.13.2.1       tls 				sboff -= 32;
1.13.2.1       tls 		} else
1.13.2.1       tls 			sboff = sb;
1.13.2.1       tls
1.13.2.1       tls 		sq = sp;
1.13.2.1       tls 		dq = dp;
1.13.2.1       tls 		while (height > 0) {
1.13.2.1       tls 			if (lmask != 0) {
1.13.2.1       tls 				GETBITS(P0(sp), sb, lnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, db, lnum, P0(dp));
1.13.2.1       tls 				GETBITS(P1(sp), sb, lnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, db, lnum, P1(dp));
1.13.2.1       tls 				GETBITS(P2(sp), sb, lnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, db, lnum, P2(dp));
1.13.2.1       tls 				GETBITS(P3(sp), sb, lnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, db, lnum, P3(dp));
1.13.2.1       tls 				dp += BYTESDONE;
1.13.2.1       tls 				if (sbover)
1.13.2.1       tls 					sp += BYTESDONE;
1.13.2.1       tls 			}
1.13.2.1       tls
1.13.2.1       tls 			for (cnt = full; cnt; cnt--) {
1.13.2.1       tls 				GETBITS(P0(sp), sboff, 32, tmp);
1.13.2.1       tls 				P0(dp) = tmp;
1.13.2.1       tls 				GETBITS(P1(sp), sboff, 32, tmp);
1.13.2.1       tls 				P1(dp) = tmp;
1.13.2.1       tls 				GETBITS(P2(sp), sboff, 32, tmp);
1.13.2.1       tls 				P2(dp) = tmp;
1.13.2.1       tls 				GETBITS(P3(sp), sboff, 32, tmp);
1.13.2.1       tls 				P3(dp) = tmp;
1.13.2.1       tls 				sp += BYTESDONE;
1.13.2.1       tls 				dp += BYTESDONE;
1.13.2.1       tls 			}
1.13.2.1       tls
1.13.2.1       tls 			if (rmask != 0) {
1.13.2.1       tls 				GETBITS(P0(sp), sboff, rnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, 0, rnum, P0(dp));
1.13.2.1       tls 				GETBITS(P1(sp), sboff, rnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, 0, rnum, P1(dp));
1.13.2.1       tls 				GETBITS(P2(sp), sboff, rnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, 0, rnum, P2(dp));
1.13.2.1       tls 				GETBITS(P3(sp), sboff, rnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, 0, rnum, P3(dp));
1.13.2.1       tls 			}
1.13.2.1       tls
1.13.2.1       tls 			sp = (sq += scanspan);
1.13.2.1       tls 			dp = (dq += scanspan);
1.13.2.1       tls 			height--;
1.13.2.1       tls 		}
1.13.2.1       tls 	} else {
1.13.2.1       tls 		/* copy backward (right-to-left) */
1.13.2.1       tls 		sp = basep + ((srcx + w) / 32) * 4;
1.13.2.1       tls 		dp = basep + ((dstx + w) / 32) * 4;
1.13.2.1       tls
1.13.2.1       tls 		sboff = (srcx + w) & ALIGNMASK;
1.13.2.1       tls 		sboff -= rnum;
1.13.2.1       tls 		if (sboff < 0) {
1.13.2.1       tls 			sp -= BYTESDONE;
1.13.2.1       tls 			sboff += 32;
1.13.2.1       tls 		}
1.13.2.1       tls
1.13.2.1       tls 		sq = sp;
1.13.2.1       tls 		dq = dp;
1.13.2.1       tls 		while (height > 0) {
1.13.2.1       tls 			if (rnum != 0) {
1.13.2.1       tls 				GETBITS(P0(sp), sboff, rnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, 0, rnum, P0(dp));
1.13.2.1       tls 				GETBITS(P1(sp), sboff, rnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, 0, rnum, P1(dp));
1.13.2.1       tls 				GETBITS(P2(sp), sboff, rnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, 0, rnum, P2(dp));
1.13.2.1       tls 				GETBITS(P3(sp), sboff, rnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, 0, rnum, P3(dp));
1.13.2.1       tls 			}
1.13.2.1       tls
1.13.2.1       tls 			for (cnt = full; cnt; cnt--) {
1.13.2.1       tls 				sp -= BYTESDONE;
1.13.2.1       tls 				dp -= BYTESDONE;
1.13.2.1       tls 				GETBITS(P0(sp), sboff, 32, tmp);
1.13.2.1       tls 				P0(dp) = tmp;
1.13.2.1       tls 				GETBITS(P1(sp), sboff, 32, tmp);
1.13.2.1       tls 				P1(dp) = tmp;
1.13.2.1       tls 				GETBITS(P2(sp), sboff, 32, tmp);
1.13.2.1       tls 				P2(dp) = tmp;
1.13.2.1       tls 				GETBITS(P3(sp), sboff, 32, tmp);
1.13.2.1       tls 				P3(dp) = tmp;
1.13.2.1       tls 			}
1.13.2.1       tls
1.13.2.1       tls 			if (lmask != 0) {
1.13.2.1       tls 				if (sbover)
1.13.2.1       tls 					sp -= BYTESDONE;
1.13.2.1       tls 				dp -= BYTESDONE;
1.13.2.1       tls 				GETBITS(P0(sp), sb, lnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, db, lnum, P0(dp));
1.13.2.1       tls 				GETBITS(P1(sp), sb, lnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, db, lnum, P1(dp));
1.13.2.1       tls 				GETBITS(P2(sp), sb, lnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, db, lnum, P2(dp));
1.13.2.1       tls 				GETBITS(P3(sp), sb, lnum, tmp);
1.13.2.1       tls 				PUTBITS(tmp, db, lnum, P3(dp));
1.13.2.1       tls 			}
1.13.2.1       tls
1.13.2.1       tls 			sp = (sq += scanspan);
1.13.2.1       tls 			dp = (dq += scanspan);
1.13.2.1       tls 			height--;
1.13.2.1       tls 		}
1.13.2.1       tls 	}
     1.1  nisimura }
     1.1  nisimura
     1.1  nisimura /*
     1.1  nisimura  * Map a character.
     1.1  nisimura  */
     1.1  nisimura static int
     1.8       dsl om_mapchar(void *cookie, int c, u_int *cp)
     1.1  nisimura {
    1.13   tsutsui 	struct rasops_info *ri = cookie;
    1.13   tsutsui 	struct wsdisplay_font *wf = ri->ri_font;
    1.11   tsutsui
    1.13   tsutsui 	if (wf->encoding != WSDISPLAY_FONTENC_ISO) {
    1.13   tsutsui 		c = wsfont_map_unichar(wf, c);
    1.13   tsutsui
    1.13   tsutsui 		if (c < 0)
    1.13   tsutsui 			goto fail;
     1.1  nisimura 	}
    1.13   tsutsui 	if (c < wf->firstchar || c >= (wf->firstchar + wf->numchars))
    1.13   tsutsui 		goto fail;
    1.13   tsutsui
    1.13   tsutsui 	*cp = c;
    1.13   tsutsui 	return 5;
    1.13   tsutsui
    1.13   tsutsui  fail:
     1.1  nisimura 	*cp = ' ';
    1.11   tsutsui 	return 0;
     1.1  nisimura }
     1.1  nisimura
     1.1  nisimura /*
     1.1  nisimura  * Position|{enable|disable} the cursor at the specified location.
     1.1  nisimura  */
     1.1  nisimura static void
1.13.2.1       tls om1_cursor(void *cookie, int on, int row, int col)
     1.1  nisimura {
    1.13   tsutsui 	struct rasops_info *ri = cookie;
     1.5   tsutsui 	uint8_t *p;
     1.1  nisimura 	int scanspan, startx, height, width, align, y;
    1.11   tsutsui 	uint32_t lmask, rmask, image;
     1.1  nisimura
     1.1  nisimura 	if (!on) {
     1.1  nisimura 		/* make sure it's on */
    1.13   tsutsui 		if ((ri->ri_flg & RI_CURSOR) == 0)
     1.1  nisimura 			return;
     1.1  nisimura
    1.13   tsutsui 		row = ri->ri_crow;
    1.13   tsutsui 		col = ri->ri_ccol;
     1.1  nisimura 	} else {
     1.1  nisimura 		/* unpaint the old copy. */
    1.13   tsutsui 		ri->ri_crow = row;
    1.13   tsutsui 		ri->ri_ccol = col;
     1.1  nisimura 	}
     1.1  nisimura
    1.13   tsutsui 	scanspan = ri->ri_stride;
    1.13   tsutsui 	y = ri->ri_font->fontheight * row;
    1.13   tsutsui 	startx = ri->ri_font->fontwidth * col;
    1.13   tsutsui 	height = ri->ri_font->fontheight;
     1.1  nisimura
    1.13   tsutsui 	p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4);
     1.1  nisimura 	align = startx & ALIGNMASK;
    1.13   tsutsui 	width = ri->ri_font->fontwidth + align;
     1.1  nisimura 	lmask = ALL1BITS >> align;
     1.1  nisimura 	rmask = ALL1BITS << (-width & ALIGNMASK);
     1.1  nisimura 	if (width <= BLITWIDTH) {
     1.1  nisimura 		lmask &= rmask;
     1.1  nisimura 		while (height > 0) {
1.13.2.1       tls 			image = P0(p);
1.13.2.1       tls 			P0(p) = (image & ~lmask) | ((image ^ ALL1BITS) & lmask);
     1.1  nisimura 			p += scanspan;
     1.1  nisimura 			height--;
     1.1  nisimura 		}
    1.11   tsutsui 	} else {
     1.5   tsutsui 		uint8_t *q = p;
     1.1  nisimura
     1.1  nisimura 		while (height > 0) {
1.13.2.1       tls 			image = P0(p);
1.13.2.1       tls 			P0(p) = (image & ~lmask) | ((image ^ ALL1BITS) & lmask);
     1.1  nisimura 			p += BYTESDONE;
1.13.2.1       tls 			image = P0(p);
1.13.2.1       tls 			P0(p) = ((image ^ ALL1BITS) & rmask) | (image & ~rmask);
1.13.2.1       tls
1.13.2.1       tls 			p = (q += scanspan);
1.13.2.1       tls 			height--;
1.13.2.1       tls 		}
1.13.2.1       tls 	}
1.13.2.1       tls 	ri->ri_flg ^= RI_CURSOR;
1.13.2.1       tls }
1.13.2.1       tls
1.13.2.1       tls static void
1.13.2.1       tls om4_cursor(void *cookie, int on, int row, int col)
1.13.2.1       tls {
1.13.2.1       tls 	struct rasops_info *ri = cookie;
1.13.2.1       tls 	uint8_t *p;
1.13.2.1       tls 	int scanspan, startx, height, width, align, y;
1.13.2.1       tls 	uint32_t lmask, rmask, image;
1.13.2.1       tls
1.13.2.1       tls 	if (!on) {
1.13.2.1       tls 		/* make sure it's on */
1.13.2.1       tls 		if ((ri->ri_flg & RI_CURSOR) == 0)
1.13.2.1       tls 			return;
1.13.2.1       tls
1.13.2.1       tls 		row = ri->ri_crow;
1.13.2.1       tls 		col = ri->ri_ccol;
1.13.2.1       tls 	} else {
1.13.2.1       tls 		/* unpaint the old copy. */
1.13.2.1       tls 		ri->ri_crow = row;
1.13.2.1       tls 		ri->ri_ccol = col;
1.13.2.1       tls 	}
1.13.2.1       tls
1.13.2.1       tls 	scanspan = ri->ri_stride;
1.13.2.1       tls 	y = ri->ri_font->fontheight * row;
1.13.2.1       tls 	startx = ri->ri_font->fontwidth * col;
1.13.2.1       tls 	height = ri->ri_font->fontheight;
1.13.2.1       tls
1.13.2.1       tls 	p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4);
1.13.2.1       tls 	align = startx & ALIGNMASK;
1.13.2.1       tls 	width = ri->ri_font->fontwidth + align;
1.13.2.1       tls 	lmask = ALL1BITS >> align;
1.13.2.1       tls 	rmask = ALL1BITS << (-width & ALIGNMASK);
1.13.2.1       tls 	if (width <= BLITWIDTH) {
1.13.2.1       tls 		lmask &= rmask;
1.13.2.1       tls 		while (height > 0) {
1.13.2.1       tls 			image = P0(p);
1.13.2.1       tls 			P0(p) = (image & ~lmask) | ((image ^ ALL1BITS) & lmask);
1.13.2.1       tls 			image = P1(p);
1.13.2.1       tls 			P1(p) = (image & ~lmask) | ((image ^ ALL1BITS) & lmask);
1.13.2.1       tls 			image = P2(p);
1.13.2.1       tls 			P2(p) = (image & ~lmask) | ((image ^ ALL1BITS) & lmask);
1.13.2.1       tls 			image = P3(p);
1.13.2.1       tls 			P3(p) = (image & ~lmask) | ((image ^ ALL1BITS) & lmask);
1.13.2.1       tls 			p += scanspan;
1.13.2.1       tls 			height--;
1.13.2.1       tls 		}
1.13.2.1       tls 	} else {
1.13.2.1       tls 		uint8_t *q = p;
1.13.2.1       tls
1.13.2.1       tls 		while (height > 0) {
1.13.2.1       tls 			image = P0(p);
1.13.2.1       tls 			P0(p) = (image & ~lmask) | ((image ^ ALL1BITS) & lmask);
1.13.2.1       tls 			image = P1(p);
1.13.2.1       tls 			P1(p) = (image & ~lmask) | ((image ^ ALL1BITS) & lmask);
1.13.2.1       tls 			image = P2(p);
1.13.2.1       tls 			P2(p) = (image & ~lmask) | ((image ^ ALL1BITS) & lmask);
1.13.2.1       tls 			image = P3(p);
1.13.2.1       tls 			P3(p) = (image & ~lmask) | ((image ^ ALL1BITS) & lmask);
1.13.2.1       tls 			p += BYTESDONE;
1.13.2.1       tls 			image = P0(p);
1.13.2.1       tls 			P0(p) = ((image ^ ALL1BITS) & rmask) | (image & ~rmask);
1.13.2.1       tls 			image = P1(p);
1.13.2.1       tls 			P1(p) = ((image ^ ALL1BITS) & rmask) | (image & ~rmask);
1.13.2.1       tls 			image = P2(p);
1.13.2.1       tls 			P2(p) = ((image ^ ALL1BITS) & rmask) | (image & ~rmask);
1.13.2.1       tls 			image = P3(p);
1.13.2.1       tls 			P3(p) = ((image ^ ALL1BITS) & rmask) | (image & ~rmask);
     1.1  nisimura
     1.1  nisimura 			p = (q += scanspan);
     1.1  nisimura 			height--;
     1.1  nisimura 		}
     1.1  nisimura 	}
    1.13   tsutsui 	ri->ri_flg ^= RI_CURSOR;
     1.1  nisimura }
     1.1  nisimura
     1.1  nisimura /*
     1.1  nisimura  * Allocate attribute. We just pack these into an integer.
     1.1  nisimura  */
     1.1  nisimura static int
1.13.2.1       tls om1_allocattr(void *id, int fg, int bg, int flags, long *attrp)
     1.1  nisimura {
    1.11   tsutsui
1.13.2.1       tls 	if ((flags & (WSATTR_HILIT | WSATTR_BLINK |
1.13.2.1       tls 	    WSATTR_UNDERLINE | WSATTR_WSCOLORS)) != 0)
    1.11   tsutsui 		return EINVAL;
1.13.2.1       tls 	if ((flags & WSATTR_REVERSE) != 0)
     1.1  nisimura 		*attrp = 1;
     1.1  nisimura 	else
     1.1  nisimura 		*attrp = 0;
    1.11   tsutsui 	return 0;
     1.1  nisimura }
     1.1  nisimura
1.13.2.1       tls static int
1.13.2.1       tls om4_allocattr(void *id, int fg, int bg, int flags, long *attrp)
1.13.2.1       tls {
1.13.2.1       tls
1.13.2.1       tls 	if ((flags & (WSATTR_BLINK | WSATTR_UNDERLINE)) != 0)
1.13.2.1       tls 		return EINVAL;
1.13.2.1       tls 	if ((flags & WSATTR_WSCOLORS) == 0) {
1.13.2.1       tls 		fg = WSCOL_WHITE;
1.13.2.1       tls 		bg = WSCOL_BLACK;
1.13.2.1       tls 	}
1.13.2.1       tls
1.13.2.1       tls 	if ((flags & WSATTR_REVERSE) != 0) {
1.13.2.1       tls 		int swap;
1.13.2.1       tls 		swap = fg;
1.13.2.1       tls 		fg = bg;
1.13.2.1       tls 		bg = swap;
1.13.2.1       tls 	}
1.13.2.1       tls
1.13.2.1       tls 	if ((flags & WSATTR_HILIT) != 0)
1.13.2.1       tls 		fg += 8;
1.13.2.1       tls
1.13.2.1       tls 	*attrp = (fg << 24) | (bg << 16);
1.13.2.1       tls 	return 0;
1.13.2.1       tls }
1.13.2.1       tls
    1.13   tsutsui /*
    1.13   tsutsui  * Init subset of rasops(9) for omrasops.
    1.13   tsutsui  */
    1.13   tsutsui int
1.13.2.1       tls omrasops1_init(struct rasops_info *ri, int wantrows, int wantcols)
1.13.2.1       tls {
1.13.2.1       tls
1.13.2.1       tls 	omrasops_init(ri, wantrows, wantcols);
1.13.2.1       tls
1.13.2.1       tls 	/* fill our own emulops */
1.13.2.1       tls 	ri->ri_ops.cursor    = om1_cursor;
1.13.2.1       tls 	ri->ri_ops.mapchar   = om_mapchar;
1.13.2.1       tls 	ri->ri_ops.putchar   = om1_putchar;
1.13.2.1       tls 	ri->ri_ops.copycols  = om1_copycols;
1.13.2.1       tls 	ri->ri_ops.erasecols = om1_erasecols;
1.13.2.1       tls 	ri->ri_ops.copyrows  = om1_copyrows;
1.13.2.1       tls 	ri->ri_ops.eraserows = om1_eraserows;
1.13.2.1       tls 	ri->ri_ops.allocattr = om1_allocattr;
1.13.2.1       tls 	ri->ri_caps = WSSCREEN_REVERSE;
1.13.2.1       tls
1.13.2.1       tls 	ri->ri_flg |= RI_CFGDONE;
1.13.2.1       tls
1.13.2.1       tls 	return 0;
1.13.2.1       tls }
1.13.2.1       tls
1.13.2.1       tls int
1.13.2.1       tls omrasops4_init(struct rasops_info *ri, int wantrows, int wantcols)
1.13.2.1       tls {
1.13.2.1       tls
1.13.2.1       tls 	omrasops_init(ri, wantrows, wantcols);
1.13.2.1       tls
1.13.2.1       tls 	/* fill our own emulops */
1.13.2.1       tls 	ri->ri_ops.cursor    = om4_cursor;
1.13.2.1       tls 	ri->ri_ops.mapchar   = om_mapchar;
1.13.2.1       tls 	ri->ri_ops.putchar   = om4_putchar;
1.13.2.1       tls 	ri->ri_ops.copycols  = om4_copycols;
1.13.2.1       tls 	ri->ri_ops.erasecols = om4_erasecols;
1.13.2.1       tls 	ri->ri_ops.copyrows  = om4_copyrows;
1.13.2.1       tls 	ri->ri_ops.eraserows = om4_eraserows;
1.13.2.1       tls 	ri->ri_ops.allocattr = om4_allocattr;
1.13.2.1       tls 	ri->ri_caps = WSSCREEN_HILIT | WSSCREEN_WSCOLORS | WSSCREEN_REVERSE;
1.13.2.1       tls
1.13.2.1       tls 	ri->ri_flg |= RI_CFGDONE;
1.13.2.1       tls
1.13.2.1       tls 	return 0;
1.13.2.1       tls }
1.13.2.1       tls
1.13.2.1       tls static int
    1.13   tsutsui omrasops_init(struct rasops_info *ri, int wantrows, int wantcols)
     1.1  nisimura {
    1.13   tsutsui 	int wsfcookie, bpp;
    1.13   tsutsui
    1.13   tsutsui 	if (wantrows == 0)
    1.13   tsutsui 		wantrows = 34;
    1.13   tsutsui 	if (wantrows < 10)
    1.13   tsutsui 		wantrows = 10;
    1.13   tsutsui 	if (wantcols == 0)
    1.13   tsutsui 		wantcols = 80;
    1.13   tsutsui 	if (wantcols < 20)
    1.13   tsutsui 		wantcols = 20;
    1.13   tsutsui
    1.13   tsutsui 	/* Use default font */
    1.13   tsutsui 	wsfont_init();
    1.13   tsutsui 	wsfcookie = wsfont_find(NULL, 0, 0, 0, WSDISPLAY_FONTORDER_L2R,
    1.13   tsutsui 	    WSDISPLAY_FONTORDER_L2R, WSFONT_FIND_BITMAP);
    1.13   tsutsui 	if (wsfcookie < 0)
    1.13   tsutsui 		panic("%s: no font available", __func__);
    1.13   tsutsui 	if (wsfont_lock(wsfcookie, &ri->ri_font))
    1.13   tsutsui 		panic("%s: unable to lock font", __func__);
    1.13   tsutsui 	ri->ri_wsfcookie = wsfcookie;
    1.13   tsutsui
    1.13   tsutsui 	KASSERT(ri->ri_font->fontwidth > 4 && ri->ri_font->fontwidth <= 32);
    1.13   tsutsui
1.13.2.1       tls 	/* all planes are independently addressed */
1.13.2.1       tls 	bpp = 1;
    1.13   tsutsui
    1.13   tsutsui 	/* Now constrain what they get */
    1.13   tsutsui 	ri->ri_emuwidth = ri->ri_font->fontwidth * wantcols;
    1.13   tsutsui 	ri->ri_emuheight = ri->ri_font->fontheight * wantrows;
    1.13   tsutsui 	if (ri->ri_emuwidth > ri->ri_width)
    1.13   tsutsui 		ri->ri_emuwidth = ri->ri_width;
    1.13   tsutsui 	if (ri->ri_emuheight > ri->ri_height)
    1.13   tsutsui 		ri->ri_emuheight = ri->ri_height;
    1.13   tsutsui
    1.13   tsutsui 	/* Reduce width until aligned on a 32-bit boundary */
    1.13   tsutsui 	while ((ri->ri_emuwidth * bpp & 31) != 0)
    1.13   tsutsui 		ri->ri_emuwidth--;
    1.13   tsutsui
    1.13   tsutsui 	ri->ri_cols = ri->ri_emuwidth / ri->ri_font->fontwidth;
    1.13   tsutsui 	ri->ri_rows = ri->ri_emuheight / ri->ri_font->fontheight;
    1.13   tsutsui 	ri->ri_emustride = ri->ri_emuwidth * bpp >> 3;
    1.13   tsutsui 	ri->ri_delta = ri->ri_stride - ri->ri_emustride;
    1.13   tsutsui 	ri->ri_ccol = 0;
    1.13   tsutsui 	ri->ri_crow = 0;
    1.13   tsutsui 	ri->ri_pelbytes = bpp >> 3;
    1.13   tsutsui
    1.13   tsutsui 	ri->ri_xscale = (ri->ri_font->fontwidth * bpp) >> 3;
    1.13   tsutsui 	ri->ri_yscale = ri->ri_font->fontheight * ri->ri_stride;
    1.13   tsutsui 	ri->ri_fontscale = ri->ri_font->fontheight * ri->ri_font->stride;
    1.13   tsutsui
    1.13   tsutsui 	/* Clear the entire display */
    1.13   tsutsui 	if ((ri->ri_flg & RI_CLEAR) != 0)
    1.13   tsutsui 		memset(ri->ri_bits, 0, ri->ri_stride * ri->ri_height);
    1.13   tsutsui
    1.13   tsutsui 	/* Now centre our window if needs be */
    1.13   tsutsui 	ri->ri_origbits = ri->ri_bits;
    1.13   tsutsui
    1.13   tsutsui 	if ((ri->ri_flg & RI_CENTER) != 0) {
    1.13   tsutsui 		ri->ri_bits += (((ri->ri_width * bpp >> 3) -
    1.13   tsutsui 		    ri->ri_emustride) >> 1) & ~3;
    1.13   tsutsui 		ri->ri_bits += ((ri->ri_height - ri->ri_emuheight) >> 1) *
    1.13   tsutsui 		    ri->ri_stride;
    1.13   tsutsui 		ri->ri_yorigin = (int)(ri->ri_bits - ri->ri_origbits)
    1.13   tsutsui 		   / ri->ri_stride;
    1.13   tsutsui 		ri->ri_xorigin = (((int)(ri->ri_bits - ri->ri_origbits)
    1.13   tsutsui 		   % ri->ri_stride) * 8 / bpp);
    1.13   tsutsui 	} else
    1.13   tsutsui 		ri->ri_xorigin = ri->ri_yorigin = 0;
    1.13   tsutsui
    1.13   tsutsui 	return 0;
     1.1  nisimura }