dev/rasops/rasops.c

1.51  jmcneill /*	 $NetBSD: rasops.c,v 1.51 2006/02/18 13:57:33 jmcneill Exp $	*/
 1.1        ad
 1.9        ad /*-
 1.9        ad  * Copyright (c) 1999 The NetBSD Foundation, Inc.
 1.1        ad  * All rights reserved.
 1.1        ad  *
 1.9        ad  * This code is derived from software contributed to The NetBSD Foundation
1.32        ad  * by Andrew Doran.
 1.9        ad  *
 1.1        ad  * Redistribution and use in source and binary forms, with or without
 1.1        ad  * modification, are permitted provided that the following conditions
 1.1        ad  * are met:
 1.1        ad  * 1. Redistributions of source code must retain the above copyright
 1.1        ad  *    notice, this list of conditions and the following disclaimer.
 1.1        ad  * 2. Redistributions in binary form must reproduce the above copyright
 1.1        ad  *    notice, this list of conditions and the following disclaimer in the
 1.1        ad  *    documentation and/or other materials provided with the distribution.
 1.9        ad  * 3. All advertising materials mentioning features or use of this software
 1.9        ad  *    must display the following acknowledgement:
 1.9        ad  *	This product includes software developed by the NetBSD
 1.9        ad  *	Foundation, Inc. and its contributors.
 1.9        ad  * 4. Neither the name of The NetBSD Foundation nor the names of its
 1.9        ad  *    contributors may be used to endorse or promote products derived
 1.9        ad  *    from this software without specific prior written permission.
 1.1        ad  *
 1.9        ad  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.9        ad  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.9        ad  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.9        ad  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.9        ad  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.9        ad  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.9        ad  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.9        ad  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.9        ad  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.9        ad  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.9        ad  * POSSIBILITY OF SUCH DAMAGE.
 1.1        ad  */
 1.2        ad
 1.1        ad #include <sys/cdefs.h>
1.51  jmcneill __KERNEL_RCSID(0, "$NetBSD: rasops.c,v 1.51 2006/02/18 13:57:33 jmcneill Exp $");
 1.1        ad
1.18        ad #include "opt_rasops.h"
 1.4        ad #include "rasops_glue.h"
1.47  macallan #include "opt_wsmsgattrs.h"
 1.1        ad
 1.1        ad #include <sys/param.h>
 1.1        ad #include <sys/systm.h>
 1.1        ad #include <sys/time.h>
 1.1        ad
1.50       dsl #include <sys/bswap.h>
 1.4        ad #include <machine/endian.h>
 1.3        ad
 1.1        ad #include <dev/wscons/wsdisplayvar.h>
 1.1        ad #include <dev/wscons/wsconsio.h>
 1.1        ad #include <dev/wsfont/wsfont.h>
 1.1        ad #include <dev/rasops/rasops.h>
 1.1        ad
1.11        ad #ifndef _KERNEL
1.11        ad #include <errno.h>
1.11        ad #endif
1.11        ad
 1.1        ad /* ANSI colormap (R,G,B). Upper 8 are high-intensity */
1.23  drochner const u_char rasops_cmap[256*3] = {
 1.1        ad 	0x00, 0x00, 0x00, /* black */
 1.1        ad 	0x7f, 0x00, 0x00, /* red */
 1.1        ad 	0x00, 0x7f, 0x00, /* green */
 1.1        ad 	0x7f, 0x7f, 0x00, /* brown */
 1.1        ad 	0x00, 0x00, 0x7f, /* blue */
 1.1        ad 	0x7f, 0x00, 0x7f, /* magenta */
 1.1        ad 	0x00, 0x7f, 0x7f, /* cyan */
 1.1        ad 	0xc7, 0xc7, 0xc7, /* white - XXX too dim? */
 1.1        ad
 1.1        ad 	0x7f, 0x7f, 0x7f, /* black */
 1.1        ad 	0xff, 0x00, 0x00, /* red */
 1.1        ad 	0x00, 0xff, 0x00, /* green */
 1.1        ad 	0xff, 0xff, 0x00, /* brown */
 1.1        ad 	0x00, 0x00, 0xff, /* blue */
 1.1        ad 	0xff, 0x00, 0xff, /* magenta */
 1.1        ad 	0x00, 0xff, 0xff, /* cyan */
 1.1        ad 	0xff, 0xff, 0xff, /* white */
1.23  drochner
1.23  drochner 	/*
1.23  drochner 	 * For the cursor, we need at least the last (255th)
1.23  drochner 	 * color to be white. Fill up white completely for
1.23  drochner 	 * simplicity.
1.23  drochner 	 */
1.23  drochner #define _CMWHITE 0xff, 0xff, 0xff,
1.23  drochner #define _CMWHITE16	_CMWHITE _CMWHITE _CMWHITE _CMWHITE \
1.23  drochner 			_CMWHITE _CMWHITE _CMWHITE _CMWHITE \
1.23  drochner 			_CMWHITE _CMWHITE _CMWHITE _CMWHITE \
1.23  drochner 			_CMWHITE _CMWHITE _CMWHITE _CMWHITE
1.23  drochner 	_CMWHITE16 _CMWHITE16 _CMWHITE16 _CMWHITE16 _CMWHITE16
1.23  drochner 	_CMWHITE16 _CMWHITE16 _CMWHITE16 _CMWHITE16 _CMWHITE16
1.44       uwe 	_CMWHITE16 _CMWHITE16 _CMWHITE16 _CMWHITE16 /* but not the last one */
1.23  drochner #undef _CMWHITE16
1.23  drochner #undef _CMWHITE
1.44       uwe
1.44       uwe 	/*
1.44       uwe 	 * For the cursor the fg/bg indices are bit inverted, so
1.44       uwe 	 * provide complimentary colors in the upper 16 entries.
1.44       uwe 	 */
1.44       uwe 	0x7f, 0x7f, 0x7f, /* black */
1.44       uwe 	0xff, 0x00, 0x00, /* red */
1.44       uwe 	0x00, 0xff, 0x00, /* green */
1.44       uwe 	0xff, 0xff, 0x00, /* brown */
1.44       uwe 	0x00, 0x00, 0xff, /* blue */
1.44       uwe 	0xff, 0x00, 0xff, /* magenta */
1.44       uwe 	0x00, 0xff, 0xff, /* cyan */
1.44       uwe 	0xff, 0xff, 0xff, /* white */
1.44       uwe
1.44       uwe 	0x00, 0x00, 0x00, /* black */
1.44       uwe 	0x7f, 0x00, 0x00, /* red */
1.44       uwe 	0x00, 0x7f, 0x00, /* green */
1.44       uwe 	0x7f, 0x7f, 0x00, /* brown */
1.44       uwe 	0x00, 0x00, 0x7f, /* blue */
1.44       uwe 	0x7f, 0x00, 0x7f, /* magenta */
1.44       uwe 	0x00, 0x7f, 0x7f, /* cyan */
1.44       uwe 	0xc7, 0xc7, 0xc7, /* white - XXX too dim? */
 1.1        ad };
 1.1        ad
 1.1        ad /* True if color is gray */
1.30        pk const u_char rasops_isgray[16] = {
1.30        pk 	1, 0, 0, 0,
 1.1        ad 	0, 0, 0, 1,
 1.1        ad 	1, 0, 0, 0,
 1.1        ad 	0, 0, 0, 1
 1.1        ad };
 1.1        ad
 1.4        ad /* Generic functions */
1.45     perry static void	rasops_copyrows(void *, int, int, int);
1.45     perry static int	rasops_mapchar(void *, int, u_int *);
1.45     perry static void	rasops_cursor(void *, int, int, int);
1.45     perry static int	rasops_allocattr_color(void *, int, int, int, long *);
1.45     perry static int	rasops_allocattr_mono(void *, int, int, int, long *);
1.45     perry static void	rasops_do_cursor(struct rasops_info *);
1.45     perry static void	rasops_init_devcmap(struct rasops_info *);
 1.1        ad
 1.1        ad /*
1.37       wiz  * Initialize a 'rasops_info' descriptor.
 1.1        ad  */
 1.1        ad int
1.13        ad rasops_init(ri, wantrows, wantcols)
 1.1        ad 	struct rasops_info *ri;
1.13        ad 	int wantrows, wantcols;
 1.1        ad {
1.20        ad
1.30        pk #ifdef _KERNEL
 1.1        ad 	/* Select a font if the caller doesn't care */
 1.1        ad 	if (ri->ri_font == NULL) {
 1.1        ad 		int cookie;
1.30        pk
 1.1        ad 		wsfont_init();
 1.1        ad
 1.1        ad 		/* Want 8 pixel wide, don't care about aestethics */
1.39        ad 		cookie = wsfont_find(NULL, 8, 0, 0, WSDISPLAY_FONTORDER_L2R,
1.39        ad 		    WSDISPLAY_FONTORDER_L2R);
1.39        ad 		if (cookie <= 0)
1.39        ad 			cookie = wsfont_find(NULL, 0, 0, 0,
1.39        ad 			    WSDISPLAY_FONTORDER_L2R, WSDISPLAY_FONTORDER_L2R);
 1.1        ad
 1.7        ad 		if (cookie <= 0) {
 1.1        ad 			printf("rasops_init: font table is empty\n");
 1.1        ad 			return (-1);
 1.1        ad 		}
1.30        pk
1.39        ad 		if (wsfont_lock(cookie, &ri->ri_font)) {
 1.1        ad 			printf("rasops_init: couldn't lock font\n");
 1.1        ad 			return (-1);
 1.1        ad 		}
 1.8        ad
 1.5        ad 		ri->ri_wsfcookie = cookie;
 1.1        ad 	}
 1.4        ad #endif
1.30        pk
 1.1        ad 	/* This should never happen in reality... */
 1.1        ad #ifdef DEBUG
1.31  sommerfe 	if ((long)ri->ri_bits & 3) {
 1.1        ad 		printf("rasops_init: bits not aligned on 32-bit boundary\n");
 1.1        ad 		return (-1);
 1.1        ad 	}
 1.1        ad
 1.1        ad 	if ((int)ri->ri_stride & 3) {
 1.1        ad 		printf("rasops_init: stride not aligned on 32-bit boundary\n");
 1.1        ad 		return (-1);
 1.1        ad 	}
 1.1        ad #endif
 1.4        ad
1.13        ad 	if (rasops_reconfig(ri, wantrows, wantcols))
 1.4        ad 		return (-1);
1.46     perry
 1.4        ad 	rasops_init_devcmap(ri);
 1.4        ad 	return (0);
 1.4        ad }
 1.4        ad
 1.4        ad /*
1.13        ad  * Reconfigure (because parameters have changed in some way).
 1.4        ad  */
 1.4        ad int
1.13        ad rasops_reconfig(ri, wantrows, wantcols)
 1.4        ad 	struct rasops_info *ri;
1.13        ad 	int wantrows, wantcols;
 1.4        ad {
1.20        ad 	int bpp, s;
1.30        pk
1.13        ad 	s = splhigh();
1.30        pk
 1.4        ad 	if (ri->ri_font->fontwidth > 32 || ri->ri_font->fontwidth < 4)
1.42    provos 		panic("rasops_init: fontwidth assumptions botched!");
1.30        pk
 1.4        ad 	/* Need this to frob the setup below */
 1.4        ad 	bpp = (ri->ri_depth == 15 ? 16 : ri->ri_depth);
 1.4        ad
1.13        ad 	if ((ri->ri_flg & RI_CFGDONE) != 0)
 1.4        ad 		ri->ri_bits = ri->ri_origbits;
1.30        pk
 1.1        ad 	/* Don't care if the caller wants a hideously small console */
 1.1        ad 	if (wantrows < 10)
1.13        ad 		wantrows = 10;
1.30        pk
 1.1        ad 	if (wantcols < 20)
1.13        ad 		wantcols = 20;
1.30        pk
 1.1        ad 	/* Now constrain what they get */
 1.1        ad 	ri->ri_emuwidth = ri->ri_font->fontwidth * wantcols;
 1.1        ad 	ri->ri_emuheight = ri->ri_font->fontheight * wantrows;
1.30        pk
 1.1        ad 	if (ri->ri_emuwidth > ri->ri_width)
 1.1        ad 		ri->ri_emuwidth = ri->ri_width;
1.30        pk
 1.1        ad 	if (ri->ri_emuheight > ri->ri_height)
 1.1        ad 		ri->ri_emuheight = ri->ri_height;
1.30        pk
 1.1        ad 	/* Reduce width until aligned on a 32-bit boundary */
1.20        ad 	while ((ri->ri_emuwidth * bpp & 31) != 0)
 1.1        ad 		ri->ri_emuwidth--;
1.30        pk
 1.1        ad 	ri->ri_cols = ri->ri_emuwidth / ri->ri_font->fontwidth;
 1.1        ad 	ri->ri_rows = ri->ri_emuheight / ri->ri_font->fontheight;
 1.4        ad 	ri->ri_emustride = ri->ri_emuwidth * bpp >> 3;
 1.1        ad 	ri->ri_delta = ri->ri_stride - ri->ri_emustride;
 1.1        ad 	ri->ri_ccol = 0;
 1.1        ad 	ri->ri_crow = 0;
 1.4        ad 	ri->ri_pelbytes = bpp >> 3;
1.30        pk
 1.4        ad 	ri->ri_xscale = (ri->ri_font->fontwidth * bpp) >> 3;
 1.1        ad 	ri->ri_yscale = ri->ri_font->fontheight * ri->ri_stride;
 1.1        ad 	ri->ri_fontscale = ri->ri_font->fontheight * ri->ri_font->stride;
 1.1        ad
1.30        pk #ifdef DEBUG
1.18        ad 	if ((ri->ri_delta & 3) != 0)
1.13        ad 		panic("rasops_init: ri_delta not aligned on 32-bit boundary");
1.30        pk #endif
 1.1        ad 	/* Clear the entire display */
1.13        ad 	if ((ri->ri_flg & RI_CLEAR) != 0)
1.13        ad 		memset(ri->ri_bits, 0, ri->ri_stride * ri->ri_height);
1.30        pk
1.30        pk 	/* Now centre our window if needs be */
 1.1        ad 	ri->ri_origbits = ri->ri_bits;
1.30        pk
1.13        ad 	if ((ri->ri_flg & RI_CENTER) != 0) {
1.46     perry 		ri->ri_bits += (((ri->ri_width * bpp >> 3) -
1.36   nathanw 		    ri->ri_emustride) >> 1) & ~3;
1.30        pk 		ri->ri_bits += ((ri->ri_height - ri->ri_emuheight) >> 1) *
 1.1        ad 		    ri->ri_stride;
1.30        pk
1.30        pk 		ri->ri_yorigin = (int)(ri->ri_bits - ri->ri_origbits)
 1.5        ad 		   / ri->ri_stride;
1.30        pk 		ri->ri_xorigin = (((int)(ri->ri_bits - ri->ri_origbits)
1.28   nathanw 		   % ri->ri_stride) * 8 / bpp);
 1.5        ad 	} else
 1.5        ad 		ri->ri_xorigin = ri->ri_yorigin = 0;
 1.4        ad
1.30        pk 	/*
 1.4        ad 	 * Fill in defaults for operations set.  XXX this nukes private
 1.4        ad 	 * routines used by accelerated fb drivers.
 1.4        ad 	 */
 1.1        ad 	ri->ri_ops.mapchar = rasops_mapchar;
 1.1        ad 	ri->ri_ops.copyrows = rasops_copyrows;
 1.1        ad 	ri->ri_ops.copycols = rasops_copycols;
 1.4        ad 	ri->ri_ops.erasecols = rasops_erasecols;
 1.4        ad 	ri->ri_ops.eraserows = rasops_eraserows;
 1.1        ad 	ri->ri_ops.cursor = rasops_cursor;
 1.4        ad 	ri->ri_do_cursor = rasops_do_cursor;
1.30        pk
1.13        ad 	if (ri->ri_depth < 8 || (ri->ri_flg & RI_FORCEMONO) != 0) {
1.41  junyoung 		ri->ri_ops.allocattr = rasops_allocattr_mono;
1.24  drochner 		ri->ri_caps = WSSCREEN_UNDERLINE | WSSCREEN_REVERSE;
 1.4        ad 	} else {
1.41  junyoung 		ri->ri_ops.allocattr = rasops_allocattr_color;
1.30        pk 		ri->ri_caps = WSSCREEN_UNDERLINE | WSSCREEN_HILIT |
1.24  drochner 		    WSSCREEN_WSCOLORS | WSSCREEN_REVERSE;
 1.4        ad 	}
 1.4        ad
 1.1        ad 	switch (ri->ri_depth) {
1.20        ad #if NRASOPS1 > 0
 1.1        ad 	case 1:
 1.1        ad 		rasops1_init(ri);
 1.1        ad 		break;
 1.1        ad #endif
1.20        ad #if NRASOPS2 > 0
 1.4        ad 	case 2:
 1.4        ad 		rasops2_init(ri);
1.34  takemura 		break;
1.34  takemura #endif
1.34  takemura #if NRASOPS4 > 0
1.34  takemura 	case 4:
1.34  takemura 		rasops4_init(ri);
 1.4        ad 		break;
 1.4        ad #endif
1.20        ad #if NRASOPS8 > 0
 1.1        ad 	case 8:
 1.1        ad 		rasops8_init(ri);
 1.1        ad 		break;
 1.1        ad #endif
1.20        ad #if NRASOPS15 > 0 || NRASOPS16 > 0
 1.1        ad 	case 15:
 1.1        ad 	case 16:
 1.1        ad 		rasops15_init(ri);
 1.1        ad 		break;
 1.1        ad #endif
1.20        ad #if NRASOPS24 > 0
 1.1        ad 	case 24:
 1.1        ad 		rasops24_init(ri);
 1.1        ad 		break;
 1.1        ad #endif
1.20        ad #if NRASOPS32 > 0
 1.1        ad 	case 32:
 1.1        ad 		rasops32_init(ri);
 1.1        ad 		break;
 1.1        ad #endif
 1.1        ad 	default:
1.13        ad 		ri->ri_flg &= ~RI_CFGDONE;
1.13        ad 		splx(s);
 1.1        ad 		return (-1);
 1.1        ad 	}
1.30        pk
1.13        ad 	ri->ri_flg |= RI_CFGDONE;
1.13        ad 	splx(s);
 1.1        ad 	return (0);
 1.1        ad }
 1.1        ad
 1.1        ad /*
 1.1        ad  * Map a character.
 1.1        ad  */
 1.1        ad static int
 1.1        ad rasops_mapchar(cookie, c, cp)
 1.1        ad 	void *cookie;
 1.1        ad 	int c;
 1.1        ad 	u_int *cp;
 1.1        ad {
 1.1        ad 	struct rasops_info *ri;
1.30        pk
 1.1        ad 	ri = (struct rasops_info *)cookie;
 1.8        ad
1.30        pk #ifdef DIAGNOSTIC
 1.8        ad 	if (ri->ri_font == NULL)
1.42    provos 		panic("rasops_mapchar: no font selected");
1.30        pk #endif
1.39        ad
1.35    marcus 	if (ri->ri_font->encoding != WSDISPLAY_FONTENC_ISO) {
1.35    marcus 		if ( (c = wsfont_map_unichar(ri->ri_font, c)) < 0) {
1.35    marcus 			*cp = ' ';
1.35    marcus 			return (0);
1.35    marcus
1.35    marcus 		}
1.35    marcus 	}
1.30        pk
 1.1        ad 	if (c < ri->ri_font->firstchar) {
 1.1        ad 		*cp = ' ';
 1.1        ad 		return (0);
 1.1        ad 	}
1.30        pk
 1.1        ad 	if (c - ri->ri_font->firstchar >= ri->ri_font->numchars) {
 1.1        ad 		*cp = ' ';
 1.1        ad 		return (0);
 1.1        ad 	}
1.30        pk
 1.1        ad 	*cp = c;
 1.1        ad 	return (5);
 1.1        ad }
 1.1        ad
 1.1        ad /*
 1.1        ad  * Allocate a color attribute.
 1.1        ad  */
 1.1        ad static int
1.41  junyoung rasops_allocattr_color(cookie, fg, bg, flg, attr)
 1.1        ad 	void *cookie;
 1.1        ad 	int fg, bg, flg;
 1.1        ad 	long *attr;
 1.1        ad {
 1.1        ad 	int swap;
 1.1        ad
 1.1        ad #ifdef RASOPS_CLIPPING
 1.1        ad 	fg &= 7;
 1.1        ad 	bg &= 7;
 1.1        ad #endif
1.17        ad 	if ((flg & WSATTR_BLINK) != 0)
 1.1        ad 		return (EINVAL);
1.23  drochner
1.23  drochner 	if ((flg & WSATTR_WSCOLORS) == 0) {
1.48  macallan #ifdef WS_DEFAULT_FG
1.48  macallan 		fg = WS_DEFAULT_FG;
1.48  macallan #else
1.48  macallan 		fg = WSCOL_WHITE;
1.48  macallan #endif
1.48  macallan #ifdef WS_DEFAULT_BG
1.48  macallan 		bg = WS_DEFAULT_BG;
1.48  macallan #else
1.48  macallan 		bg = WSCOL_BLACK;
1.48  macallan #endif
1.23  drochner 	}
1.23  drochner
1.17        ad 	if ((flg & WSATTR_REVERSE) != 0) {
 1.1        ad 		swap = fg;
 1.1        ad 		fg = bg;
 1.1        ad 		bg = swap;
 1.1        ad 	}
 1.1        ad
1.17        ad 	if ((flg & WSATTR_HILIT) != 0)
 1.1        ad 		fg += 8;
1.30        pk
 1.1        ad 	flg = ((flg & WSATTR_UNDERLINE) ? 1 : 0);
1.30        pk
 1.1        ad 	if (rasops_isgray[fg])
 1.1        ad 		flg |= 2;
 1.1        ad
 1.1        ad 	if (rasops_isgray[bg])
 1.1        ad 		flg |= 4;
 1.1        ad
 1.1        ad 	*attr = (bg << 16) | (fg << 24) | flg;
1.17        ad 	return (0);
 1.1        ad }
 1.1        ad
 1.1        ad /*
 1.1        ad  * Allocate a mono attribute.
 1.1        ad  */
 1.1        ad static int
1.41  junyoung rasops_allocattr_mono(cookie, fg, bg, flg, attr)
 1.1        ad 	void *cookie;
 1.1        ad 	int fg, bg, flg;
 1.1        ad 	long *attr;
 1.1        ad {
 1.1        ad 	int swap;
 1.1        ad
1.23  drochner 	if ((flg & (WSATTR_BLINK | WSATTR_HILIT | WSATTR_WSCOLORS)) != 0)
 1.1        ad 		return (EINVAL);
1.23  drochner
1.23  drochner 	fg = 1;
1.23  drochner 	bg = 0;
1.23  drochner
1.17        ad 	if ((flg & WSATTR_REVERSE) != 0) {
 1.1        ad 		swap = fg;
 1.1        ad 		fg = bg;
 1.1        ad 		bg = swap;
 1.1        ad 	}
 1.1        ad
 1.1        ad 	*attr = (bg << 16) | (fg << 24) | ((flg & WSATTR_UNDERLINE) ? 7 : 6);
1.17        ad 	return (0);
 1.1        ad }
 1.1        ad
 1.1        ad /*
 1.1        ad  * Copy rows.
 1.1        ad  */
 1.1        ad static void
 1.1        ad rasops_copyrows(cookie, src, dst, num)
 1.1        ad 	void *cookie;
 1.1        ad 	int src, dst, num;
 1.1        ad {
1.51  jmcneill 	int32_t *sp, *dp, *hp, *srp, *drp, *hrp;
 1.1        ad 	struct rasops_info *ri;
1.18        ad 	int n8, n1, cnt, delta;
1.51  jmcneill 	int i;
1.30        pk
 1.1        ad 	ri = (struct rasops_info *)cookie;
1.51  jmcneill 	hp = hrp = NULL;
 1.1        ad
 1.1        ad #ifdef RASOPS_CLIPPING
 1.1        ad 	if (dst == src)
 1.1        ad 		return;
1.30        pk
 1.1        ad 	if (src < 0) {
 1.1        ad 		num += src;
 1.1        ad 		src = 0;
 1.1        ad 	}
 1.1        ad
 1.1        ad 	if ((src + num) > ri->ri_rows)
 1.1        ad 		num = ri->ri_rows - src;
 1.1        ad
 1.1        ad 	if (dst < 0) {
 1.1        ad 		num += dst;
 1.1        ad 		dst = 0;
 1.1        ad 	}
 1.1        ad
 1.1        ad 	if ((dst + num) > ri->ri_rows)
 1.1        ad 		num = ri->ri_rows - dst;
1.30        pk
 1.1        ad 	if (num <= 0)
 1.1        ad 		return;
 1.1        ad #endif
 1.1        ad
 1.1        ad 	num *= ri->ri_font->fontheight;
 1.1        ad 	n8 = ri->ri_emustride >> 5;
 1.1        ad 	n1 = (ri->ri_emustride >> 2) & 7;
1.30        pk
 1.1        ad 	if (dst < src) {
1.18        ad 		srp = (int32_t *)(ri->ri_bits + src * ri->ri_yscale);
1.18        ad 		drp = (int32_t *)(ri->ri_bits + dst * ri->ri_yscale);
1.51  jmcneill 		if (ri->ri_hwbits)
1.51  jmcneill 			hrp = (int32_t *)(ri->ri_hwbits + dst *
1.51  jmcneill 			    ri->ri_yscale);
1.18        ad 		delta = ri->ri_stride;
 1.1        ad 	} else {
 1.1        ad 		src = ri->ri_font->fontheight * src + num - 1;
 1.1        ad 		dst = ri->ri_font->fontheight * dst + num - 1;
 1.1        ad 		srp = (int32_t *)(ri->ri_bits + src * ri->ri_stride);
 1.1        ad 		drp = (int32_t *)(ri->ri_bits + dst * ri->ri_stride);
1.51  jmcneill 		if (ri->ri_hwbits)
1.51  jmcneill 			hrp = (int32_t *)(ri->ri_hwbits + dst *
1.51  jmcneill 			    ri->ri_stride);
1.51  jmcneill
1.18        ad 		delta = -ri->ri_stride;
1.18        ad 	}
1.30        pk
1.18        ad 	while (num--) {
1.18        ad 		dp = drp;
1.18        ad 		sp = srp;
1.51  jmcneill 		if (ri->ri_hwbits)
1.51  jmcneill 			hp = hrp;
1.51  jmcneill
1.18        ad 		DELTA(drp, delta, int32_t *);
1.18        ad 		DELTA(srp, delta, int32_t *);
1.51  jmcneill 		if (ri->ri_hwbits)
1.51  jmcneill 			DELTA(hrp, delta, int32_t *);
1.18        ad
1.18        ad 		for (cnt = n8; cnt; cnt--) {
1.51  jmcneill 			for (i = 0; i < 8; i++) {
1.51  jmcneill 				dp[i] = sp[i];
1.51  jmcneill 				if (ri->ri_hwbits)
1.51  jmcneill 					hp[i] = sp[i];
1.51  jmcneill 			}
1.18        ad 			dp += 8;
1.18        ad 			sp += 8;
1.51  jmcneill 			if (ri->ri_hwbits)
1.51  jmcneill 				hp += 8;
1.18        ad 		}
1.30        pk
1.51  jmcneill 		for (cnt = n1; cnt; cnt--) {
1.18        ad 			*dp++ = *sp++;
1.51  jmcneill 			if (ri->ri_hwbits)
1.51  jmcneill 				*hp++ = *(sp - 1);
1.51  jmcneill 		}
 1.1        ad 	}
 1.1        ad }
 1.1        ad
 1.1        ad /*
 1.1        ad  * Copy columns. This is slow, and hard to optimize due to alignment,
 1.1        ad  * and the fact that we have to copy both left->right and right->left.
1.43       uwe  * We simply cop-out here and use memmove(), since it handles all of
 1.1        ad  * these cases anyway.
 1.1        ad  */
 1.4        ad void
 1.1        ad rasops_copycols(cookie, row, src, dst, num)
 1.1        ad 	void *cookie;
 1.1        ad 	int row, src, dst, num;
 1.1        ad {
 1.1        ad 	struct rasops_info *ri;
1.51  jmcneill 	u_char *sp, *dp, *hp;
 1.1        ad 	int height;
1.30        pk
 1.1        ad 	ri = (struct rasops_info *)cookie;
1.51  jmcneill 	hp = NULL;
 1.1        ad
 1.1        ad #ifdef RASOPS_CLIPPING
 1.1        ad 	if (dst == src)
 1.1        ad 		return;
1.30        pk
 1.3        ad 	/* Catches < 0 case too */
 1.3        ad 	if ((unsigned)row >= (unsigned)ri->ri_rows)
 1.1        ad 		return;
1.30        pk
 1.1        ad 	if (src < 0) {
 1.1        ad 		num += src;
 1.1        ad 		src = 0;
 1.1        ad 	}
 1.1        ad
 1.1        ad 	if ((src + num) > ri->ri_cols)
 1.1        ad 		num = ri->ri_cols - src;
 1.1        ad
 1.1        ad 	if (dst < 0) {
 1.1        ad 		num += dst;
 1.1        ad 		dst = 0;
 1.1        ad 	}
 1.1        ad
 1.1        ad 	if ((dst + num) > ri->ri_cols)
 1.1        ad 		num = ri->ri_cols - dst;
1.30        pk
 1.1        ad 	if (num <= 0)
 1.1        ad 		return;
 1.1        ad #endif
1.30        pk
 1.1        ad 	num *= ri->ri_xscale;
 1.1        ad 	row *= ri->ri_yscale;
 1.1        ad 	height = ri->ri_font->fontheight;
1.30        pk
 1.1        ad 	sp = ri->ri_bits + row + src * ri->ri_xscale;
 1.1        ad 	dp = ri->ri_bits + row + dst * ri->ri_xscale;
1.51  jmcneill 	if (ri->ri_hwbits)
1.51  jmcneill 		hp = ri->ri_hwbits + row + dst * ri->ri_xscale;
1.30        pk
 1.1        ad 	while (height--) {
1.43       uwe 		memmove(dp, sp, num);
1.51  jmcneill 		if (ri->ri_hwbits) {
1.51  jmcneill 			memcpy(hp, sp, num);
1.51  jmcneill 			hp += ri->ri_stride;
1.51  jmcneill 		}
 1.1        ad 		dp += ri->ri_stride;
 1.1        ad 		sp += ri->ri_stride;
 1.1        ad 	}
 1.1        ad }
 1.1        ad
 1.1        ad /*
 1.1        ad  * Turn cursor off/on.
 1.1        ad  */
 1.1        ad static void
 1.1        ad rasops_cursor(cookie, on, row, col)
 1.1        ad 	void *cookie;
 1.1        ad 	int on, row, col;
 1.1        ad {
 1.1        ad 	struct rasops_info *ri;
1.30        pk
 1.1        ad 	ri = (struct rasops_info *)cookie;
1.30        pk
 1.1        ad 	/* Turn old cursor off */
1.13        ad 	if ((ri->ri_flg & RI_CURSOR) != 0)
1.30        pk #ifdef RASOPS_CLIPPING
1.13        ad 		if ((ri->ri_flg & RI_CURSORCLIP) == 0)
 1.1        ad #endif
 1.1        ad 			ri->ri_do_cursor(ri);
 1.1        ad
 1.1        ad 	/* Select new cursor */
 1.1        ad #ifdef RASOPS_CLIPPING
1.13        ad 	ri->ri_flg &= ~RI_CURSORCLIP;
1.30        pk
 1.1        ad 	if (row < 0 || row >= ri->ri_rows)
1.13        ad 		ri->ri_flg |= RI_CURSORCLIP;
 1.1        ad 	else if (col < 0 || col >= ri->ri_cols)
1.13        ad 		ri->ri_flg |= RI_CURSORCLIP;
 1.1        ad #endif
 1.1        ad 	ri->ri_crow = row;
 1.1        ad 	ri->ri_ccol = col;
 1.1        ad
 1.1        ad 	if (on) {
1.13        ad 		ri->ri_flg |= RI_CURSOR;
1.30        pk #ifdef RASOPS_CLIPPING
1.13        ad 		if ((ri->ri_flg & RI_CURSORCLIP) == 0)
 1.1        ad #endif
 1.1        ad 			ri->ri_do_cursor(ri);
1.30        pk 	} else
1.13        ad 		ri->ri_flg &= ~RI_CURSOR;
 1.1        ad }
 1.1        ad
 1.1        ad /*
 1.1        ad  * Make the device colormap
 1.1        ad  */
 1.4        ad static void
 1.1        ad rasops_init_devcmap(ri)
 1.1        ad 	struct rasops_info *ri;
 1.1        ad {
1.23  drochner 	const u_char *p;
 1.1        ad 	int i, c;
1.30        pk
 1.4        ad 	switch (ri->ri_depth) {
 1.4        ad 	case 1:
 1.4        ad 		ri->ri_devcmap[0] = 0;
 1.4        ad 		for (i = 1; i < 16; i++)
 1.4        ad 			ri->ri_devcmap[i] = -1;
 1.4        ad 		return;
 1.4        ad
 1.4        ad 	case 2:
 1.4        ad 		for (i = 1; i < 15; i++)
 1.4        ad 			ri->ri_devcmap[i] = 0xaaaaaaaa;
1.30        pk
 1.4        ad 		ri->ri_devcmap[0] = 0;
 1.4        ad 		ri->ri_devcmap[8] = 0x55555555;
 1.4        ad 		ri->ri_devcmap[15] = -1;
 1.4        ad 		return;
 1.4        ad
 1.4        ad 	case 8:
 1.4        ad 		for (i = 0; i < 16; i++)
 1.4        ad 			ri->ri_devcmap[i] = i | (i<<8) | (i<<16) | (i<<24);
 1.4        ad 		return;
 1.4        ad 	}
1.30        pk
 1.1        ad 	p = rasops_cmap;
1.30        pk
1.29   nathanw 	for (i = 0; i < 16; i++) {
 1.1        ad 		if (ri->ri_rnum <= 8)
1.12        ad 			c = (*p >> (8 - ri->ri_rnum)) << ri->ri_rpos;
1.30        pk 		else
1.12        ad 			c = (*p << (ri->ri_rnum - 8)) << ri->ri_rpos;
1.29   nathanw 		p++;
 1.1        ad
 1.1        ad 		if (ri->ri_gnum <= 8)
1.12        ad 			c |= (*p >> (8 - ri->ri_gnum)) << ri->ri_gpos;
1.30        pk 		else
1.12        ad 			c |= (*p << (ri->ri_gnum - 8)) << ri->ri_gpos;
1.29   nathanw 		p++;
 1.1        ad
 1.1        ad 		if (ri->ri_bnum <= 8)
1.12        ad 			c |= (*p >> (8 - ri->ri_bnum)) << ri->ri_bpos;
1.30        pk 		else
1.12        ad 			c |= (*p << (ri->ri_bnum - 8)) << ri->ri_bpos;
1.29   nathanw 		p++;
 1.4        ad
 1.4        ad 		/* Fill the word for generic routines, which want this */
 1.4        ad 		if (ri->ri_depth == 24)
 1.4        ad 			c = c | ((c & 0xff) << 24);
 1.4        ad 		else if (ri->ri_depth <= 16)
 1.4        ad 			c = c | (c << 16);
 1.1        ad
 1.4        ad 		/* 24bpp does bswap on the fly. {32,16,15}bpp do it here. */
1.13        ad 		if ((ri->ri_flg & RI_BSWAP) == 0)
 1.3        ad 			ri->ri_devcmap[i] = c;
 1.4        ad 		else if (ri->ri_depth == 32)
 1.3        ad 			ri->ri_devcmap[i] = bswap32(c);
 1.4        ad 		else if (ri->ri_depth == 16 || ri->ri_depth == 15)
 1.3        ad 			ri->ri_devcmap[i] = bswap16(c);
 1.4        ad 		else
 1.4        ad 			ri->ri_devcmap[i] = c;
 1.1        ad 	}
 1.1        ad }
 1.1        ad
 1.1        ad /*
 1.1        ad  * Unpack a rasops attribute
 1.1        ad  */
 1.1        ad void
 1.1        ad rasops_unpack_attr(attr, fg, bg, underline)
 1.1        ad 	long attr;
 1.1        ad 	int *fg, *bg, *underline;
 1.1        ad {
1.30        pk
1.30        pk 	*fg = ((u_int)attr >> 24) & 0xf;
1.30        pk 	*bg = ((u_int)attr >> 16) & 0xf;
1.25        ad 	if (underline != NULL)
1.24  drochner 		*underline = (u_int)attr & 1;
 1.4        ad }
 1.4        ad
 1.4        ad /*
 1.4        ad  * Erase rows. This isn't static, since 24-bpp uses it in special cases.
 1.4        ad  */
 1.4        ad void
 1.4        ad rasops_eraserows(cookie, row, num, attr)
 1.4        ad 	void *cookie;
 1.4        ad 	int row, num;
 1.4        ad 	long attr;
 1.4        ad {
 1.4        ad 	struct rasops_info *ri;
1.14        ad 	int np, nw, cnt, delta;
1.51  jmcneill 	int32_t *dp, *hp, clr;
1.51  jmcneill 	int i;
1.30        pk
 1.4        ad 	ri = (struct rasops_info *)cookie;
1.51  jmcneill 	hp = NULL;
 1.4        ad
 1.4        ad #ifdef RASOPS_CLIPPING
 1.4        ad 	if (row < 0) {
 1.4        ad 		num += row;
 1.4        ad 		row = 0;
 1.4        ad 	}
 1.4        ad
 1.4        ad 	if ((row + num) > ri->ri_rows)
 1.4        ad 		num = ri->ri_rows - row;
1.30        pk
 1.4        ad 	if (num <= 0)
 1.4        ad 		return;
 1.4        ad #endif
 1.4        ad
1.30        pk 	clr = ri->ri_devcmap[(attr >> 16) & 0xf];
 1.4        ad
1.30        pk 	/*
1.20        ad 	 * XXX The wsdisplay_emulops interface seems a little deficient in
1.30        pk 	 * that there is no way to clear the *entire* screen. We provide a
1.30        pk 	 * workaround here: if the entire console area is being cleared, and
1.13        ad 	 * the RI_FULLCLEAR flag is set, clear the entire display.
1.30        pk 	 */
1.13        ad 	if (num == ri->ri_rows && (ri->ri_flg & RI_FULLCLEAR) != 0) {
1.13        ad 		np = ri->ri_stride >> 5;
1.13        ad 		nw = (ri->ri_stride >> 2) & 7;
1.13        ad 		num = ri->ri_height;
1.14        ad 		dp = (int32_t *)ri->ri_origbits;
1.51  jmcneill 		if (ri->ri_hwbits)
1.51  jmcneill 			hp = (int32_t *)ri->ri_hwbits;
1.14        ad 		delta = 0;
1.13        ad 	} else {
1.13        ad 		np = ri->ri_emustride >> 5;
1.13        ad 		nw = (ri->ri_emustride >> 2) & 7;
1.13        ad 		num *= ri->ri_font->fontheight;
1.14        ad 		dp = (int32_t *)(ri->ri_bits + row * ri->ri_yscale);
1.51  jmcneill 		if (ri->ri_hwbits)
1.51  jmcneill 			hp = (int32_t *)(ri->ri_hwbits + row *
1.51  jmcneill 			    ri->ri_yscale);
1.14        ad 		delta = ri->ri_delta;
1.13        ad 	}
1.30        pk
 1.4        ad 	while (num--) {
 1.4        ad 		for (cnt = np; cnt; cnt--) {
1.51  jmcneill 			for (i = 0; i < 8; i++) {
1.51  jmcneill 				dp[i] = clr;
1.51  jmcneill 				if (ri->ri_hwbits)
1.51  jmcneill 					hp[i] = clr;
1.51  jmcneill 			}
 1.4        ad 			dp += 8;
1.51  jmcneill 			if (ri->ri_hwbits)
1.51  jmcneill 				hp += 8;
 1.4        ad 		}
1.30        pk
 1.4        ad 		for (cnt = nw; cnt; cnt--) {
 1.4        ad 			*(int32_t *)dp = clr;
 1.4        ad 			DELTA(dp, 4, int32_t *);
1.51  jmcneill 			if (ri->ri_hwbits) {
1.51  jmcneill 				*(int32_t *)hp = clr;
1.51  jmcneill 				DELTA(hp, 4, int32_t *);
1.51  jmcneill 			}
1.30        pk 		}
1.30        pk
1.14        ad 		DELTA(dp, delta, int32_t *);
1.51  jmcneill 		if (ri->ri_hwbits)
1.51  jmcneill 			DELTA(hp, delta, int32_t *);
 1.4        ad 	}
 1.4        ad }
 1.4        ad
 1.4        ad /*
 1.4        ad  * Actually turn the cursor on or off. This does the dirty work for
 1.4        ad  * rasops_cursor().
 1.4        ad  */
 1.4        ad static void
 1.4        ad rasops_do_cursor(ri)
 1.4        ad 	struct rasops_info *ri;
 1.4        ad {
1.21        ad 	int full1, height, cnt, slop1, slop2, row, col;
1.51  jmcneill 	u_char *dp, *rp, *hrp, *hp;
1.51  jmcneill
1.51  jmcneill 	hrp = hp = NULL;
1.30        pk
 1.4        ad 	row = ri->ri_crow;
 1.4        ad 	col = ri->ri_ccol;
1.30        pk
 1.4        ad 	rp = ri->ri_bits + row * ri->ri_yscale + col * ri->ri_xscale;
1.51  jmcneill 	if (ri->ri_hwbits)
1.51  jmcneill 		hrp = ri->ri_hwbits + row * ri->ri_yscale + col
1.51  jmcneill 		    * ri->ri_xscale;
 1.4        ad 	height = ri->ri_font->fontheight;
1.27  nisimura 	slop1 = (4 - ((long)rp & 3)) & 3;
1.30        pk
 1.4        ad 	if (slop1 > ri->ri_xscale)
 1.4        ad 		slop1 = ri->ri_xscale;
1.30        pk
 1.4        ad 	slop2 = (ri->ri_xscale - slop1) & 3;
 1.4        ad 	full1 = (ri->ri_xscale - slop1 - slop2) >> 2;
1.30        pk
 1.4        ad 	if ((slop1 | slop2) == 0) {
 1.4        ad 		/* A common case */
 1.4        ad 		while (height--) {
 1.4        ad 			dp = rp;
 1.4        ad 			rp += ri->ri_stride;
1.51  jmcneill 			if (ri->ri_hwbits) {
1.51  jmcneill 				hp = hrp;
1.51  jmcneill 				hrp += ri->ri_stride;
1.51  jmcneill 			}
1.30        pk
 1.4        ad 			for (cnt = full1; cnt; cnt--) {
1.21        ad 				*(int32_t *)dp ^= ~0;
 1.4        ad 				dp += 4;
1.51  jmcneill 				if (ri->ri_hwbits) {
1.51  jmcneill 					*(int32_t *)hp ^= ~0;
1.51  jmcneill 					hp += 4;
1.51  jmcneill 				}
 1.4        ad 			}
 1.4        ad 		}
 1.4        ad 	} else {
 1.4        ad 		/* XXX this is stupid.. use masks instead */
 1.4        ad 		while (height--) {
 1.4        ad 			dp = rp;
 1.4        ad 			rp += ri->ri_stride;
1.51  jmcneill 			if (ri->ri_hwbits) {
1.51  jmcneill 				hp = hrp;
1.51  jmcneill 				hrp += ri->ri_stride;
1.51  jmcneill 			}
1.30        pk
1.51  jmcneill 			if (slop1 & 1) {
1.22     enami 				*dp++ ^= ~0;
1.51  jmcneill 				if (ri->ri_hwbits)
1.51  jmcneill 					*hp++ ^= ~0;
1.51  jmcneill 			}
 1.4        ad
 1.4        ad 			if (slop1 & 2) {
1.21        ad 				*(int16_t *)dp ^= ~0;
 1.4        ad 				dp += 2;
1.51  jmcneill 				if (ri->ri_hwbits) {
1.51  jmcneill 					*(int16_t *)hp ^= ~0;
1.51  jmcneill 					hp += 2;
1.51  jmcneill 				}
 1.4        ad 			}
1.30        pk
 1.4        ad 			for (cnt = full1; cnt; cnt--) {
1.21        ad 				*(int32_t *)dp ^= ~0;
 1.4        ad 				dp += 4;
1.51  jmcneill 				if (ri->ri_hwbits) {
1.51  jmcneill 					*(int32_t *)hp ^= ~0;
1.51  jmcneill 					hp += 4;
1.51  jmcneill 				}
 1.4        ad 			}
 1.4        ad
1.51  jmcneill 			if (slop2 & 1) {
1.21        ad 				*dp++ ^= ~0;
1.51  jmcneill 				if (ri->ri_hwbits)
1.51  jmcneill 					*hp++ ^= ~0;
1.51  jmcneill 			}
 1.4        ad
1.51  jmcneill 			if (slop2 & 2) {
1.21        ad 				*(int16_t *)dp ^= ~0;
1.51  jmcneill 				if (ri->ri_hwbits)
1.51  jmcneill 					*(int16_t *)hp ^= ~0;
1.51  jmcneill 			}
 1.4        ad 		}
 1.4        ad 	}
 1.4        ad }
 1.4        ad
 1.4        ad /*
 1.4        ad  * Erase columns.
 1.4        ad  */
 1.4        ad void
 1.4        ad rasops_erasecols(cookie, row, col, num, attr)
 1.4        ad 	void *cookie;
 1.4        ad 	int row, col, num;
 1.4        ad 	long attr;
 1.4        ad {
 1.4        ad 	int n8, height, cnt, slop1, slop2, clr;
 1.4        ad 	struct rasops_info *ri;
1.51  jmcneill 	int32_t *rp, *dp, *hrp, *hp;
1.51  jmcneill 	int i;
1.30        pk
 1.4        ad 	ri = (struct rasops_info *)cookie;
1.51  jmcneill 	hrp = hp = NULL;
1.30        pk
1.30        pk #ifdef RASOPS_CLIPPING
 1.4        ad 	if ((unsigned)row >= (unsigned)ri->ri_rows)
 1.4        ad 		return;
 1.4        ad
 1.4        ad 	if (col < 0) {
 1.4        ad 		num += col;
 1.4        ad 		col = 0;
 1.4        ad 	}
 1.4        ad
 1.4        ad 	if ((col + num) > ri->ri_cols)
 1.4        ad 		num = ri->ri_cols - col;
1.30        pk
 1.4        ad 	if (num <= 0)
 1.4        ad 		return;
 1.4        ad #endif
1.30        pk
 1.4        ad 	num = num * ri->ri_xscale;
 1.4        ad 	rp = (int32_t *)(ri->ri_bits + row*ri->ri_yscale + col*ri->ri_xscale);
1.51  jmcneill 	if (ri->ri_hwbits)
1.51  jmcneill 		hrp = (int32_t *)(ri->ri_hwbits + row*ri->ri_yscale +
1.51  jmcneill 		    col*ri->ri_xscale);
 1.4        ad 	height = ri->ri_font->fontheight;
1.30        pk 	clr = ri->ri_devcmap[(attr >> 16) & 0xf];
1.30        pk
 1.4        ad 	/* Don't bother using the full loop for <= 32 pels */
 1.4        ad 	if (num <= 32) {
 1.6        ad 		if (((num | ri->ri_xscale) & 3) == 0) {
 1.6        ad 			/* Word aligned blt */
 1.6        ad 			num >>= 2;
 1.6        ad
 1.6        ad 			while (height--) {
 1.6        ad 				dp = rp;
 1.6        ad 				DELTA(rp, ri->ri_stride, int32_t *);
1.51  jmcneill 				if (ri->ri_hwbits) {
1.51  jmcneill 					hp = hrp;
1.51  jmcneill 					DELTA(hrp, ri->ri_stride, int32_t *);
1.51  jmcneill 				}
1.30        pk
1.51  jmcneill 				for (cnt = num; cnt; cnt--) {
 1.6        ad 					*dp++ = clr;
1.51  jmcneill 					if (ri->ri_hwbits)
1.51  jmcneill 						*hp++ = clr;
1.51  jmcneill 				}
 1.6        ad 			}
 1.6        ad 		} else if (((num | ri->ri_xscale) & 1) == 0) {
1.30        pk 			/*
 1.4        ad 			 * Halfword aligned blt. This is needed so the
1.30        pk 			 * 15/16 bit ops can use this function.
 1.4        ad 			 */
 1.4        ad 			num >>= 1;
 1.4        ad
 1.4        ad 			while (height--) {
 1.4        ad 				dp = rp;
 1.4        ad 				DELTA(rp, ri->ri_stride, int32_t *);
1.51  jmcneill 				if (ri->ri_hwbits) {
1.51  jmcneill 					hp = hrp;
1.51  jmcneill 					DELTA(hrp, ri->ri_stride, int32_t *);
1.51  jmcneill 				}
 1.4        ad
 1.4        ad 				for (cnt = num; cnt; cnt--) {
 1.4        ad 					*(int16_t *)dp = clr;
 1.4        ad 					DELTA(dp, 2, int32_t *);
1.51  jmcneill 					if (ri->ri_hwbits) {
1.51  jmcneill 						*(int16_t *)hp = clr;
1.51  jmcneill 						DELTA(hp, 2, int32_t *);
1.51  jmcneill 					}
 1.4        ad 				}
 1.4        ad 			}
 1.4        ad 		} else {
 1.4        ad 			while (height--) {
 1.4        ad 				dp = rp;
 1.4        ad 				DELTA(rp, ri->ri_stride, int32_t *);
1.51  jmcneill 				if (ri->ri_hwbits) {
1.51  jmcneill 					hp = hrp;
1.51  jmcneill 					DELTA(hrp, ri->ri_stride, int32_t *);
1.51  jmcneill 				}
 1.4        ad
 1.4        ad 				for (cnt = num; cnt; cnt--) {
 1.4        ad 					*(u_char *)dp = clr;
 1.4        ad 					DELTA(dp, 1, int32_t *);
1.51  jmcneill 					if (ri->ri_hwbits) {
1.51  jmcneill 						*(u_char *)hp = clr;
1.51  jmcneill 						DELTA(hp, 1, int32_t *);
1.51  jmcneill 					}
 1.4        ad 				}
 1.4        ad 			}
 1.4        ad 		}
1.30        pk
 1.4        ad 		return;
 1.4        ad 	}
1.30        pk
1.27  nisimura 	slop1 = (4 - ((long)rp & 3)) & 3;
 1.4        ad 	slop2 = (num - slop1) & 3;
 1.4        ad 	num -= slop1 + slop2;
 1.4        ad 	n8 = num >> 5;
 1.4        ad 	num = (num >> 2) & 7;
 1.4        ad
 1.4        ad 	while (height--) {
 1.4        ad 		dp = rp;
 1.4        ad 		DELTA(rp, ri->ri_stride, int32_t *);
1.51  jmcneill 		if (ri->ri_hwbits) {
1.51  jmcneill 			hp = hrp;
1.51  jmcneill 			DELTA(hrp, ri->ri_stride, int32_t *);
1.51  jmcneill 		}
1.30        pk
 1.4        ad 		/* Align span to 4 bytes */
 1.4        ad 		if (slop1 & 1) {
 1.4        ad 			*(u_char *)dp = clr;
 1.4        ad 			DELTA(dp, 1, int32_t *);
1.51  jmcneill 			if (ri->ri_hwbits) {
1.51  jmcneill 				*(u_char *)hp = clr;
1.51  jmcneill 				DELTA(hp, 1, int32_t *);
1.51  jmcneill 			}
 1.4        ad 		}
 1.4        ad
 1.4        ad 		if (slop1 & 2) {
 1.4        ad 			*(int16_t *)dp = clr;
 1.4        ad 			DELTA(dp, 2, int32_t *);
1.51  jmcneill 			if (ri->ri_hwbits) {
1.51  jmcneill 				*(int16_t *)hp = clr;
1.51  jmcneill 				DELTA(hp, 2, int32_t *);
1.51  jmcneill 			}
 1.4        ad 		}
1.30        pk
 1.4        ad 		/* Write 32 bytes per loop */
 1.4        ad 		for (cnt = n8; cnt; cnt--) {
1.51  jmcneill 			for (i = 0; i < 8; i++) {
1.51  jmcneill 				dp[i] = clr;
1.51  jmcneill 				if (ri->ri_hwbits)
1.51  jmcneill 					hp[i] = clr;
1.51  jmcneill 			}
 1.4        ad 			dp += 8;
1.51  jmcneill 			if (ri->ri_hwbits)
1.51  jmcneill 				hp += 8;
 1.4        ad 		}
1.30        pk
1.30        pk 		/* Write 4 bytes per loop */
1.51  jmcneill 		for (cnt = num; cnt; cnt--) {
 1.4        ad 			*dp++ = clr;
1.51  jmcneill 			if (ri->ri_hwbits)
1.51  jmcneill 				*hp++ = clr;
1.51  jmcneill 		}
1.30        pk
1.30        pk 		/* Write unaligned trailing slop */
 1.4        ad 		if (slop2 & 1) {
 1.4        ad 			*(u_char *)dp = clr;
 1.4        ad 			DELTA(dp, 1, int32_t *);
1.51  jmcneill 			if (ri->ri_hwbits) {
1.51  jmcneill 				*(u_char *)hp = clr;
1.51  jmcneill 				DELTA(hp, 1, int32_t *);
1.51  jmcneill 			}
 1.4        ad 		}
 1.4        ad
1.51  jmcneill 		if (slop2 & 2) {
 1.4        ad 			*(int16_t *)dp = clr;
1.51  jmcneill 			if (ri->ri_hwbits)
1.51  jmcneill 				*(int16_t *)hp = clr;
1.51  jmcneill 		}
 1.4        ad 	}
 1.1        ad }