omrasops.c revision 1.13.2.2
1 1.13.2.1 tls /* $NetBSD: omrasops.c,v 1.13.2.2 2017/12/03 11:36:23 jdolecek Exp $ */ 2 1.1 nisimura 3 1.1 nisimura /*- 4 1.1 nisimura * Copyright (c) 2000 The NetBSD Foundation, Inc. 5 1.1 nisimura * All rights reserved. 6 1.1 nisimura * 7 1.1 nisimura * This code is derived from software contributed to The NetBSD Foundation 8 1.1 nisimura * by Tohru Nishimura. 9 1.1 nisimura * 10 1.1 nisimura * Redistribution and use in source and binary forms, with or without 11 1.1 nisimura * modification, are permitted provided that the following conditions 12 1.1 nisimura * are met: 13 1.1 nisimura * 1. Redistributions of source code must retain the above copyright 14 1.1 nisimura * notice, this list of conditions and the following disclaimer. 15 1.1 nisimura * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 nisimura * notice, this list of conditions and the following disclaimer in the 17 1.1 nisimura * documentation and/or other materials provided with the distribution. 18 1.1 nisimura * 19 1.1 nisimura * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 nisimura * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 nisimura * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 nisimura * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 nisimura * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 nisimura * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 nisimura * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 nisimura * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 nisimura * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 nisimura * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 nisimura * POSSIBILITY OF SUCH DAMAGE. 30 1.1 nisimura */ 31 1.1 nisimura 32 1.1 nisimura #include <sys/cdefs.h> /* RCS ID & Copyright macro defns */ 33 1.1 nisimura 34 1.13.2.1 tls __KERNEL_RCSID(0, "$NetBSD: omrasops.c,v 1.13.2.2 2017/12/03 11:36:23 jdolecek Exp $"); 35 1.1 nisimura 36 1.1 nisimura /* 37 1.1 nisimura * Designed speficically for 'm68k bitorder'; 38 1.1 nisimura * - most significant byte is stored at lower address, 39 1.1 nisimura * - most significant bit is displayed at left most on screen. 40 1.12 tsutsui * Implementation relies on; 41 1.13.2.1 tls * - first column is at 32bit aligned address, 42 1.1 nisimura * - font glyphs are stored in 32bit padded. 43 1.1 nisimura */ 44 1.1 nisimura 45 1.1 nisimura #include <sys/param.h> 46 1.1 nisimura #include <sys/systm.h> 47 1.1 nisimura #include <sys/device.h> 48 1.1 nisimura 49 1.13 tsutsui #include <dev/wscons/wsconsio.h> 50 1.1 nisimura #include <dev/wscons/wsdisplayvar.h> 51 1.13 tsutsui #include <dev/rasops/rasops.h> 52 1.1 nisimura 53 1.13 tsutsui #include <arch/luna68k/dev/omrasopsvar.h> 54 1.1 nisimura 55 1.1 nisimura /* wscons emulator operations */ 56 1.13.2.1 tls static void om1_cursor(void *, int, int, int); 57 1.13.2.1 tls static void om4_cursor(void *, int, int, int); 58 1.7 dsl static int om_mapchar(void *, int, unsigned int *); 59 1.13.2.1 tls static void om1_putchar(void *, int, int, u_int, long); 60 1.13.2.1 tls static void om4_putchar(void *, int, int, u_int, long); 61 1.13.2.1 tls static void om1_copycols(void *, int, int, int, int); 62 1.13.2.1 tls static void om4_copycols(void *, int, int, int, int); 63 1.13.2.1 tls static void om1_copyrows(void *, int, int, int num); 64 1.13.2.1 tls static void om4_copyrows(void *, int, int, int num); 65 1.13.2.1 tls static void om1_erasecols(void *, int, int, int, long); 66 1.13.2.1 tls static void om4_erasecols(void *, int, int, int, long); 67 1.13.2.1 tls static void om1_eraserows(void *, int, int, long); 68 1.13.2.1 tls static void om4_eraserows(void *, int, int, long); 69 1.13.2.1 tls static int om1_allocattr(void *, int, int, int, long *); 70 1.13.2.1 tls static int om4_allocattr(void *, int, int, int, long *); 71 1.13.2.2 jdolecek static void om4_unpack_attr(long, int *, int *, int *); 72 1.13.2.1 tls 73 1.13.2.1 tls static int omrasops_init(struct rasops_info *, int, int); 74 1.1 nisimura 75 1.1 nisimura #define ALL1BITS (~0U) 76 1.1 nisimura #define ALL0BITS (0U) 77 1.1 nisimura #define BLITWIDTH (32) 78 1.1 nisimura #define ALIGNMASK (0x1f) 79 1.1 nisimura #define BYTESDONE (4) 80 1.1 nisimura 81 1.13.2.1 tls /* 82 1.13.2.1 tls * macros to handle unaligned bit copy ops. 83 1.13.2.1 tls * See src/sys/dev/rasops/rasops_mask.h for MI version. 84 1.13.2.1 tls * Also refer src/sys/arch/hp300/dev/maskbits.h. 85 1.13.2.1 tls * (which was implemented for ancient src/sys/arch/hp300/dev/grf_hy.c) 86 1.13.2.1 tls */ 87 1.13.2.1 tls 88 1.13.2.1 tls /* luna68k version GETBITS() that gets w bits from bit x at psrc memory */ 89 1.13.2.1 tls #define FASTGETBITS(psrc, x, w, dst) \ 90 1.13.2.1 tls asm("bfextu %3{%1:%2},%0" \ 91 1.13.2.1 tls : "=d" (dst) \ 92 1.13.2.2 jdolecek : "di" (x), "di" (w), "o" (*(uint32_t *)(psrc))) 93 1.13.2.1 tls 94 1.13.2.1 tls /* luna68k version PUTBITS() that puts w bits from bit x at pdst memory */ 95 1.13.2.1 tls /* XXX this macro assumes (x + w) <= 32 to handle unaligned residual bits */ 96 1.13.2.1 tls #define FASTPUTBITS(src, x, w, pdst) \ 97 1.13.2.1 tls asm("bfins %3,%0{%1:%2}" \ 98 1.13.2.2 jdolecek : "+o" (*(uint32_t *)(pdst)) \ 99 1.13.2.1 tls : "di" (x), "di" (w), "d" (src) \ 100 1.13.2.1 tls : "memory" ); 101 1.13.2.1 tls 102 1.13.2.1 tls #define GETBITS(psrc, x, w, dst) FASTGETBITS(psrc, x, w, dst) 103 1.13.2.1 tls #define PUTBITS(src, x, w, pdst) FASTPUTBITS(src, x, w, pdst) 104 1.1 nisimura 105 1.1 nisimura /* 106 1.1 nisimura * Blit a character at the specified co-ordinates. 107 1.1 nisimura */ 108 1.1 nisimura static void 109 1.13.2.1 tls om1_putchar(void *cookie, int row, int startcol, u_int uc, long attr) 110 1.1 nisimura { 111 1.13 tsutsui struct rasops_info *ri = cookie; 112 1.5 tsutsui uint8_t *p; 113 1.1 nisimura int scanspan, startx, height, width, align, y; 114 1.11 tsutsui uint32_t lmask, rmask, glyph, inverse; 115 1.13 tsutsui int i; 116 1.13 tsutsui uint8_t *fb; 117 1.1 nisimura 118 1.13 tsutsui scanspan = ri->ri_stride; 119 1.13 tsutsui y = ri->ri_font->fontheight * row; 120 1.13 tsutsui startx = ri->ri_font->fontwidth * startcol; 121 1.13 tsutsui height = ri->ri_font->fontheight; 122 1.13 tsutsui fb = (uint8_t *)ri->ri_font->data + 123 1.13 tsutsui (uc - ri->ri_font->firstchar) * ri->ri_fontscale; 124 1.13.2.1 tls inverse = ((attr & 0x00000001) != 0) ? ALL1BITS : ALL0BITS; 125 1.1 nisimura 126 1.13 tsutsui p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4); 127 1.1 nisimura align = startx & ALIGNMASK; 128 1.13 tsutsui width = ri->ri_font->fontwidth + align; 129 1.1 nisimura lmask = ALL1BITS >> align; 130 1.1 nisimura rmask = ALL1BITS << (-width & ALIGNMASK); 131 1.1 nisimura if (width <= BLITWIDTH) { 132 1.1 nisimura lmask &= rmask; 133 1.13.2.2 jdolecek /* set lmask as ROP mask value, with THROUGH mode */ 134 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = lmask; 135 1.13.2.2 jdolecek 136 1.1 nisimura while (height > 0) { 137 1.13 tsutsui glyph = 0; 138 1.13 tsutsui for (i = ri->ri_font->stride; i != 0; i--) 139 1.13 tsutsui glyph = (glyph << 8) | *fb++; 140 1.13 tsutsui glyph <<= (4 - ri->ri_font->stride) * NBBY; 141 1.1 nisimura glyph = (glyph >> align) ^ inverse; 142 1.13.2.2 jdolecek 143 1.13.2.2 jdolecek *W(p) = glyph; 144 1.13.2.2 jdolecek 145 1.1 nisimura p += scanspan; 146 1.1 nisimura height--; 147 1.1 nisimura } 148 1.13.2.2 jdolecek /* reset mask value */ 149 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = ALL1BITS; 150 1.11 tsutsui } else { 151 1.5 tsutsui uint8_t *q = p; 152 1.11 tsutsui uint32_t lhalf, rhalf; 153 1.1 nisimura 154 1.1 nisimura while (height > 0) { 155 1.13 tsutsui glyph = 0; 156 1.13 tsutsui for (i = ri->ri_font->stride; i != 0; i--) 157 1.13 tsutsui glyph = (glyph << 8) | *fb++; 158 1.13 tsutsui glyph <<= (4 - ri->ri_font->stride) * NBBY; 159 1.1 nisimura lhalf = (glyph >> align) ^ inverse; 160 1.13.2.2 jdolecek /* set lmask as ROP mask value, with THROUGH mode */ 161 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = 162 1.13.2.2 jdolecek lmask; 163 1.13.2.2 jdolecek 164 1.13.2.2 jdolecek *W(p) = lhalf; 165 1.13.2.2 jdolecek 166 1.1 nisimura p += BYTESDONE; 167 1.13.2.2 jdolecek 168 1.1 nisimura rhalf = (glyph << (BLITWIDTH - align)) ^ inverse; 169 1.13.2.2 jdolecek /* set rmask as ROP mask value, with THROUGH mode */ 170 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = 171 1.13.2.2 jdolecek rmask; 172 1.13.2.2 jdolecek 173 1.13.2.2 jdolecek *W(p) = rhalf; 174 1.1 nisimura 175 1.1 nisimura p = (q += scanspan); 176 1.1 nisimura height--; 177 1.1 nisimura } 178 1.13.2.2 jdolecek /* reset mask value */ 179 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = ALL1BITS; 180 1.1 nisimura } 181 1.1 nisimura } 182 1.1 nisimura 183 1.1 nisimura static void 184 1.13.2.1 tls om4_putchar(void *cookie, int row, int startcol, u_int uc, long attr) 185 1.13.2.1 tls { 186 1.13.2.1 tls struct rasops_info *ri = cookie; 187 1.13.2.1 tls uint8_t *p; 188 1.13.2.1 tls int scanspan, startx, height, width, align, y; 189 1.13.2.2 jdolecek uint32_t lmask, rmask, glyph, glyphbg, fgpat, bgpat; 190 1.13.2.2 jdolecek uint32_t fgmask0, fgmask1, fgmask2, fgmask3; 191 1.13.2.2 jdolecek uint32_t bgmask0, bgmask1, bgmask2, bgmask3; 192 1.13.2.2 jdolecek int i, fg, bg; 193 1.13.2.1 tls uint8_t *fb; 194 1.13.2.1 tls 195 1.13.2.1 tls scanspan = ri->ri_stride; 196 1.13.2.1 tls y = ri->ri_font->fontheight * row; 197 1.13.2.1 tls startx = ri->ri_font->fontwidth * startcol; 198 1.13.2.1 tls height = ri->ri_font->fontheight; 199 1.13.2.1 tls fb = (uint8_t *)ri->ri_font->data + 200 1.13.2.1 tls (uc - ri->ri_font->firstchar) * ri->ri_fontscale; 201 1.13.2.2 jdolecek om4_unpack_attr(attr, &fg, &bg, NULL); 202 1.13.2.2 jdolecek fgmask0 = (fg & 0x01) ? ALL1BITS : ALL0BITS; 203 1.13.2.2 jdolecek fgmask1 = (fg & 0x02) ? ALL1BITS : ALL0BITS; 204 1.13.2.2 jdolecek fgmask2 = (fg & 0x04) ? ALL1BITS : ALL0BITS; 205 1.13.2.2 jdolecek fgmask3 = (fg & 0x08) ? ALL1BITS : ALL0BITS; 206 1.13.2.2 jdolecek bgmask0 = (bg & 0x01) ? ALL1BITS : ALL0BITS; 207 1.13.2.2 jdolecek bgmask1 = (bg & 0x02) ? ALL1BITS : ALL0BITS; 208 1.13.2.2 jdolecek bgmask2 = (bg & 0x04) ? ALL1BITS : ALL0BITS; 209 1.13.2.2 jdolecek bgmask3 = (bg & 0x08) ? ALL1BITS : ALL0BITS; 210 1.13.2.1 tls 211 1.13.2.1 tls p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4); 212 1.13.2.1 tls align = startx & ALIGNMASK; 213 1.13.2.1 tls width = ri->ri_font->fontwidth + align; 214 1.13.2.1 tls lmask = ALL1BITS >> align; 215 1.13.2.1 tls rmask = ALL1BITS << (-width & ALIGNMASK); 216 1.13.2.2 jdolecek 217 1.13.2.2 jdolecek /* select all planes for later ROP function target */ 218 1.13.2.2 jdolecek *(volatile uint32_t *)OMFB_PLANEMASK = 0xff; 219 1.13.2.2 jdolecek 220 1.13.2.1 tls if (width <= BLITWIDTH) { 221 1.13.2.1 tls lmask &= rmask; 222 1.13.2.2 jdolecek /* set lmask as ROP mask value, with THROUGH mode */ 223 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = lmask; 224 1.13.2.2 jdolecek 225 1.13.2.1 tls while (height > 0) { 226 1.13.2.1 tls glyph = 0; 227 1.13.2.1 tls for (i = ri->ri_font->stride; i != 0; i--) 228 1.13.2.1 tls glyph = (glyph << 8) | *fb++; 229 1.13.2.1 tls glyph <<= (4 - ri->ri_font->stride) * NBBY; 230 1.13.2.1 tls glyph = (glyph >> align); 231 1.13.2.1 tls glyphbg = glyph ^ ALL1BITS; 232 1.13.2.2 jdolecek 233 1.13.2.2 jdolecek fgpat = glyph & fgmask0; 234 1.13.2.2 jdolecek bgpat = glyphbg & bgmask0; 235 1.13.2.2 jdolecek *P0(p) = (fgpat | bgpat); 236 1.13.2.2 jdolecek fgpat = glyph & fgmask1; 237 1.13.2.2 jdolecek bgpat = glyphbg & bgmask1; 238 1.13.2.2 jdolecek *P1(p) = (fgpat | bgpat); 239 1.13.2.2 jdolecek fgpat = glyph & fgmask2; 240 1.13.2.2 jdolecek bgpat = glyphbg & bgmask2; 241 1.13.2.2 jdolecek *P2(p) = (fgpat | bgpat); 242 1.13.2.2 jdolecek fgpat = glyph & fgmask3; 243 1.13.2.2 jdolecek bgpat = glyphbg & bgmask3; 244 1.13.2.2 jdolecek *P3(p) = (fgpat | bgpat); 245 1.13.2.2 jdolecek 246 1.13.2.1 tls p += scanspan; 247 1.13.2.1 tls height--; 248 1.13.2.1 tls } 249 1.13.2.2 jdolecek /* reset mask value */ 250 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = ALL1BITS; 251 1.13.2.1 tls } else { 252 1.13.2.1 tls uint8_t *q = p; 253 1.13.2.1 tls uint32_t lhalf, rhalf; 254 1.13.2.1 tls uint32_t lhalfbg, rhalfbg; 255 1.13.2.1 tls 256 1.13.2.1 tls while (height > 0) { 257 1.13.2.1 tls glyph = 0; 258 1.13.2.1 tls for (i = ri->ri_font->stride; i != 0; i--) 259 1.13.2.1 tls glyph = (glyph << 8) | *fb++; 260 1.13.2.1 tls glyph <<= (4 - ri->ri_font->stride) * NBBY; 261 1.13.2.1 tls lhalf = (glyph >> align); 262 1.13.2.1 tls lhalfbg = lhalf ^ ALL1BITS; 263 1.13.2.2 jdolecek /* set lmask as ROP mask value, with THROUGH mode */ 264 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = 265 1.13.2.2 jdolecek lmask; 266 1.13.2.2 jdolecek 267 1.13.2.2 jdolecek fgpat = lhalf & fgmask0; 268 1.13.2.2 jdolecek bgpat = lhalfbg & bgmask0; 269 1.13.2.2 jdolecek *P0(p) = (fgpat | bgpat); 270 1.13.2.2 jdolecek fgpat = lhalf & fgmask1; 271 1.13.2.2 jdolecek bgpat = lhalfbg & bgmask1; 272 1.13.2.2 jdolecek *P1(p) = (fgpat | bgpat); 273 1.13.2.2 jdolecek fgpat = lhalf & fgmask2; 274 1.13.2.2 jdolecek bgpat = lhalfbg & bgmask2; 275 1.13.2.2 jdolecek *P2(p) = (fgpat | bgpat); 276 1.13.2.2 jdolecek fgpat = lhalf & fgmask3; 277 1.13.2.2 jdolecek bgpat = lhalfbg & bgmask3; 278 1.13.2.2 jdolecek *P3(p) = (fgpat | bgpat); 279 1.13.2.2 jdolecek 280 1.13.2.1 tls p += BYTESDONE; 281 1.13.2.2 jdolecek 282 1.13.2.1 tls rhalf = (glyph << (BLITWIDTH - align)); 283 1.13.2.1 tls rhalfbg = rhalf ^ ALL1BITS; 284 1.13.2.2 jdolecek /* set rmask as ROP mask value, with THROUGH mode */ 285 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = 286 1.13.2.2 jdolecek rmask; 287 1.13.2.2 jdolecek 288 1.13.2.2 jdolecek fgpat = rhalf & fgmask0; 289 1.13.2.2 jdolecek bgpat = rhalfbg & bgmask0; 290 1.13.2.2 jdolecek *P0(p) = (fgpat | bgpat); 291 1.13.2.2 jdolecek fgpat = rhalf & fgmask1; 292 1.13.2.2 jdolecek bgpat = rhalfbg & bgmask1; 293 1.13.2.2 jdolecek *P1(p) = (fgpat | bgpat); 294 1.13.2.2 jdolecek fgpat = rhalf & fgmask2; 295 1.13.2.2 jdolecek bgpat = rhalfbg & bgmask2; 296 1.13.2.2 jdolecek *P2(p) = (fgpat | bgpat); 297 1.13.2.2 jdolecek fgpat = rhalf & fgmask3; 298 1.13.2.2 jdolecek bgpat = rhalfbg & bgmask3; 299 1.13.2.2 jdolecek *P3(p) = (fgpat | bgpat); 300 1.13.2.1 tls 301 1.13.2.1 tls p = (q += scanspan); 302 1.13.2.1 tls height--; 303 1.13.2.1 tls } 304 1.13.2.2 jdolecek /* reset mask value */ 305 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = ALL1BITS; 306 1.13.2.1 tls } 307 1.13.2.2 jdolecek /* select plane #0 only; XXX need this ? */ 308 1.13.2.2 jdolecek *(volatile uint32_t *)OMFB_PLANEMASK = 0x01; 309 1.13.2.1 tls } 310 1.13.2.1 tls 311 1.13.2.1 tls static void 312 1.13.2.1 tls om1_erasecols(void *cookie, int row, int startcol, int ncols, long attr) 313 1.1 nisimura { 314 1.13 tsutsui struct rasops_info *ri = cookie; 315 1.13 tsutsui uint8_t *p; 316 1.13 tsutsui int scanspan, startx, height, width, align, w, y; 317 1.13 tsutsui uint32_t lmask, rmask, fill; 318 1.13 tsutsui 319 1.13 tsutsui scanspan = ri->ri_stride;; 320 1.13 tsutsui y = ri->ri_font->fontheight * row; 321 1.13 tsutsui startx = ri->ri_font->fontwidth * startcol; 322 1.13 tsutsui height = ri->ri_font->fontheight; 323 1.13 tsutsui w = ri->ri_font->fontwidth * ncols; 324 1.13.2.1 tls fill = ((attr & 0x00000001) != 0) ? ALL1BITS : ALL0BITS; 325 1.1 nisimura 326 1.13 tsutsui p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4); 327 1.1 nisimura align = startx & ALIGNMASK; 328 1.1 nisimura width = w + align; 329 1.1 nisimura lmask = ALL1BITS >> align; 330 1.1 nisimura rmask = ALL1BITS << (-width & ALIGNMASK); 331 1.1 nisimura if (width <= BLITWIDTH) { 332 1.1 nisimura lmask &= rmask; 333 1.13.2.1 tls fill &= lmask; 334 1.1 nisimura while (height > 0) { 335 1.13.2.2 jdolecek *P0(p) = (*P0(p) & ~lmask) | fill; 336 1.1 nisimura p += scanspan; 337 1.1 nisimura height--; 338 1.1 nisimura } 339 1.11 tsutsui } else { 340 1.5 tsutsui uint8_t *q = p; 341 1.1 nisimura while (height > 0) { 342 1.13.2.2 jdolecek *P0(p) = (*P0(p) & ~lmask) | (fill & lmask); 343 1.1 nisimura width -= 2 * BLITWIDTH; 344 1.1 nisimura while (width > 0) { 345 1.1 nisimura p += BYTESDONE; 346 1.13.2.2 jdolecek *P0(p) = fill; 347 1.1 nisimura width -= BLITWIDTH; 348 1.1 nisimura } 349 1.1 nisimura p += BYTESDONE; 350 1.13.2.2 jdolecek *P0(p) = (fill & rmask) | (*P0(p) & ~rmask); 351 1.1 nisimura 352 1.1 nisimura p = (q += scanspan); 353 1.1 nisimura width = w + align; 354 1.1 nisimura height--; 355 1.1 nisimura } 356 1.1 nisimura } 357 1.1 nisimura } 358 1.1 nisimura 359 1.1 nisimura static void 360 1.13.2.1 tls om4_erasecols(void *cookie, int row, int startcol, int ncols, long attr) 361 1.13.2.1 tls { 362 1.13.2.1 tls struct rasops_info *ri = cookie; 363 1.13.2.1 tls uint8_t *p; 364 1.13.2.2 jdolecek int scanspan, startx, height, width, align, w, y, fg, bg; 365 1.13.2.1 tls uint32_t lmask, rmask, fill0, fill1, fill2, fill3; 366 1.13.2.1 tls 367 1.13.2.1 tls scanspan = ri->ri_stride;; 368 1.13.2.1 tls y = ri->ri_font->fontheight * row; 369 1.13.2.1 tls startx = ri->ri_font->fontwidth * startcol; 370 1.13.2.1 tls height = ri->ri_font->fontheight; 371 1.13.2.1 tls w = ri->ri_font->fontwidth * ncols; 372 1.13.2.2 jdolecek om4_unpack_attr(attr, &fg, &bg, NULL); 373 1.13.2.2 jdolecek fill0 = ((bg & 0x01) != 0) ? ALL1BITS : ALL0BITS; 374 1.13.2.2 jdolecek fill1 = ((bg & 0x02) != 0) ? ALL1BITS : ALL0BITS; 375 1.13.2.2 jdolecek fill2 = ((bg & 0x04) != 0) ? ALL1BITS : ALL0BITS; 376 1.13.2.2 jdolecek fill3 = ((bg & 0x08) != 0) ? ALL1BITS : ALL0BITS; 377 1.13.2.1 tls 378 1.13.2.1 tls p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4); 379 1.13.2.1 tls align = startx & ALIGNMASK; 380 1.13.2.1 tls width = w + align; 381 1.13.2.1 tls lmask = ALL1BITS >> align; 382 1.13.2.1 tls rmask = ALL1BITS << (-width & ALIGNMASK); 383 1.13.2.1 tls if (width <= BLITWIDTH) { 384 1.13.2.1 tls lmask &= rmask; 385 1.13.2.1 tls fill0 &= lmask; 386 1.13.2.1 tls fill1 &= lmask; 387 1.13.2.1 tls fill2 &= lmask; 388 1.13.2.1 tls fill3 &= lmask; 389 1.13.2.1 tls while (height > 0) { 390 1.13.2.2 jdolecek *P0(p) = (*P0(p) & ~lmask) | fill0; 391 1.13.2.2 jdolecek *P1(p) = (*P1(p) & ~lmask) | fill1; 392 1.13.2.2 jdolecek *P2(p) = (*P2(p) & ~lmask) | fill2; 393 1.13.2.2 jdolecek *P3(p) = (*P3(p) & ~lmask) | fill3; 394 1.13.2.1 tls p += scanspan; 395 1.13.2.1 tls height--; 396 1.13.2.1 tls } 397 1.13.2.1 tls } else { 398 1.13.2.1 tls uint8_t *q = p; 399 1.13.2.1 tls while (height > 0) { 400 1.13.2.2 jdolecek *P0(p) = (*P0(p) & ~lmask) | (fill0 & lmask); 401 1.13.2.2 jdolecek *P1(p) = (*P1(p) & ~lmask) | (fill1 & lmask); 402 1.13.2.2 jdolecek *P2(p) = (*P2(p) & ~lmask) | (fill2 & lmask); 403 1.13.2.2 jdolecek *P3(p) = (*P3(p) & ~lmask) | (fill3 & lmask); 404 1.13.2.1 tls width -= 2 * BLITWIDTH; 405 1.13.2.1 tls while (width > 0) { 406 1.13.2.1 tls p += BYTESDONE; 407 1.13.2.2 jdolecek *P0(p) = fill0; 408 1.13.2.2 jdolecek *P1(p) = fill1; 409 1.13.2.2 jdolecek *P2(p) = fill2; 410 1.13.2.2 jdolecek *P3(p) = fill3; 411 1.13.2.1 tls width -= BLITWIDTH; 412 1.13.2.1 tls } 413 1.13.2.1 tls p += BYTESDONE; 414 1.13.2.2 jdolecek *P0(p) = (fill0 & rmask) | (*P0(p) & ~rmask); 415 1.13.2.2 jdolecek *P1(p) = (fill1 & rmask) | (*P1(p) & ~rmask); 416 1.13.2.2 jdolecek *P2(p) = (fill2 & rmask) | (*P2(p) & ~rmask); 417 1.13.2.2 jdolecek *P3(p) = (fill3 & rmask) | (*P3(p) & ~rmask); 418 1.13.2.1 tls 419 1.13.2.1 tls p = (q += scanspan); 420 1.13.2.1 tls width = w + align; 421 1.13.2.1 tls height--; 422 1.13.2.1 tls } 423 1.13.2.1 tls } 424 1.13.2.1 tls } 425 1.13.2.1 tls 426 1.13.2.1 tls static void 427 1.13.2.1 tls om1_eraserows(void *cookie, int startrow, int nrows, long attr) 428 1.1 nisimura { 429 1.13 tsutsui struct rasops_info *ri = cookie; 430 1.5 tsutsui uint8_t *p, *q; 431 1.1 nisimura int scanspan, starty, height, width, w; 432 1.11 tsutsui uint32_t rmask, fill; 433 1.1 nisimura 434 1.13 tsutsui scanspan = ri->ri_stride; 435 1.13 tsutsui starty = ri->ri_font->fontheight * startrow; 436 1.13 tsutsui height = ri->ri_font->fontheight * nrows; 437 1.13 tsutsui w = ri->ri_emuwidth; 438 1.13.2.1 tls fill = ((attr & 0x00000001) != 0) ? ALL1BITS : ALL0BITS; 439 1.13.2.1 tls 440 1.13.2.1 tls p = (uint8_t *)ri->ri_bits + starty * scanspan; 441 1.13.2.1 tls width = w; 442 1.13.2.1 tls rmask = ALL1BITS << (-width & ALIGNMASK); 443 1.13.2.1 tls q = p; 444 1.13.2.1 tls while (height > 0) { 445 1.13.2.2 jdolecek *P0(p) = fill; /* always aligned */ 446 1.13.2.1 tls width -= 2 * BLITWIDTH; 447 1.13.2.1 tls while (width > 0) { 448 1.13.2.1 tls p += BYTESDONE; 449 1.13.2.2 jdolecek *P0(p) = fill; 450 1.13.2.1 tls width -= BLITWIDTH; 451 1.13.2.1 tls } 452 1.13.2.1 tls p += BYTESDONE; 453 1.13.2.2 jdolecek *P0(p) = (fill & rmask) | (*P0(p) & ~rmask); 454 1.13.2.1 tls p = (q += scanspan); 455 1.13.2.1 tls width = w; 456 1.13.2.1 tls height--; 457 1.13.2.1 tls } 458 1.13.2.1 tls } 459 1.13.2.1 tls 460 1.13.2.1 tls static void 461 1.13.2.1 tls om4_eraserows(void *cookie, int startrow, int nrows, long attr) 462 1.13.2.1 tls { 463 1.13.2.1 tls struct rasops_info *ri = cookie; 464 1.13.2.1 tls uint8_t *p, *q; 465 1.13.2.2 jdolecek int scanspan, starty, height, width, w, fg, bg; 466 1.13.2.1 tls uint32_t rmask, fill0, fill1, fill2, fill3; 467 1.13.2.1 tls 468 1.13.2.1 tls scanspan = ri->ri_stride; 469 1.13.2.1 tls starty = ri->ri_font->fontheight * startrow; 470 1.13.2.1 tls height = ri->ri_font->fontheight * nrows; 471 1.13.2.1 tls w = ri->ri_emuwidth; 472 1.13.2.2 jdolecek om4_unpack_attr(attr, &fg, &bg, NULL); 473 1.13.2.2 jdolecek fill0 = ((bg & 0x01) != 0) ? ALL1BITS : ALL0BITS; 474 1.13.2.2 jdolecek fill1 = ((bg & 0x02) != 0) ? ALL1BITS : ALL0BITS; 475 1.13.2.2 jdolecek fill2 = ((bg & 0x04) != 0) ? ALL1BITS : ALL0BITS; 476 1.13.2.2 jdolecek fill3 = ((bg & 0x08) != 0) ? ALL1BITS : ALL0BITS; 477 1.1 nisimura 478 1.13 tsutsui p = (uint8_t *)ri->ri_bits + starty * scanspan; 479 1.1 nisimura width = w; 480 1.13 tsutsui rmask = ALL1BITS << (-width & ALIGNMASK); 481 1.1 nisimura q = p; 482 1.1 nisimura while (height > 0) { 483 1.13.2.2 jdolecek *P0(p) = fill0; /* always aligned */ 484 1.13.2.2 jdolecek *P1(p) = fill1; 485 1.13.2.2 jdolecek *P2(p) = fill2; 486 1.13.2.2 jdolecek *P3(p) = fill3; 487 1.13.2.1 tls width -= 2 * BLITWIDTH; 488 1.13.2.1 tls while (width > 0) { 489 1.13.2.1 tls p += BYTESDONE; 490 1.13.2.2 jdolecek *P0(p) = fill0; 491 1.13.2.2 jdolecek *P1(p) = fill1; 492 1.13.2.2 jdolecek *P2(p) = fill2; 493 1.13.2.2 jdolecek *P3(p) = fill3; 494 1.13.2.1 tls width -= BLITWIDTH; 495 1.13.2.1 tls } 496 1.13.2.1 tls p += BYTESDONE; 497 1.13.2.2 jdolecek *P0(p) = (fill0 & rmask) | (*P0(p) & ~rmask); 498 1.13.2.2 jdolecek *P1(p) = (fill1 & rmask) | (*P1(p) & ~rmask); 499 1.13.2.2 jdolecek *P2(p) = (fill2 & rmask) | (*P2(p) & ~rmask); 500 1.13.2.2 jdolecek *P3(p) = (fill3 & rmask) | (*P3(p) & ~rmask); 501 1.13.2.1 tls p = (q += scanspan); 502 1.13.2.1 tls width = w; 503 1.13.2.1 tls height--; 504 1.13.2.1 tls } 505 1.13.2.1 tls } 506 1.13.2.1 tls 507 1.13.2.1 tls static void 508 1.13.2.1 tls om1_copyrows(void *cookie, int srcrow, int dstrow, int nrows) 509 1.13.2.1 tls { 510 1.13.2.1 tls struct rasops_info *ri = cookie; 511 1.13.2.1 tls uint8_t *p, *q; 512 1.13.2.1 tls int scanspan, offset, srcy, height, width, w; 513 1.13.2.1 tls uint32_t rmask; 514 1.13.2.1 tls 515 1.13.2.1 tls scanspan = ri->ri_stride; 516 1.13.2.1 tls height = ri->ri_font->fontheight * nrows; 517 1.13.2.1 tls offset = (dstrow - srcrow) * scanspan * ri->ri_font->fontheight; 518 1.13.2.1 tls srcy = ri->ri_font->fontheight * srcrow; 519 1.13.2.1 tls if (srcrow < dstrow && srcrow + nrows > dstrow) { 520 1.13.2.1 tls scanspan = -scanspan; 521 1.13.2.1 tls srcy = srcy + height - 1; 522 1.13.2.1 tls } 523 1.13.2.1 tls 524 1.13.2.1 tls p = (uint8_t *)ri->ri_bits + srcy * ri->ri_stride; 525 1.13.2.1 tls w = ri->ri_emuwidth; 526 1.13.2.1 tls width = w; 527 1.13.2.1 tls rmask = ALL1BITS << (-width & ALIGNMASK); 528 1.13.2.1 tls q = p; 529 1.13.2.1 tls while (height > 0) { 530 1.13.2.2 jdolecek *P0(p + offset) = *P0(p); /* always aligned */ 531 1.1 nisimura width -= 2 * BLITWIDTH; 532 1.1 nisimura while (width > 0) { 533 1.1 nisimura p += BYTESDONE; 534 1.13.2.2 jdolecek *P0(p + offset) = *P0(p); 535 1.1 nisimura width -= BLITWIDTH; 536 1.1 nisimura } 537 1.1 nisimura p += BYTESDONE; 538 1.13.2.2 jdolecek *P0(p + offset) = (*P0(p) & rmask) | (*P0(p + offset) & ~rmask); 539 1.13.2.1 tls 540 1.1 nisimura p = (q += scanspan); 541 1.1 nisimura width = w; 542 1.1 nisimura height--; 543 1.1 nisimura } 544 1.1 nisimura } 545 1.1 nisimura 546 1.1 nisimura static void 547 1.13.2.1 tls om4_copyrows(void *cookie, int srcrow, int dstrow, int nrows) 548 1.1 nisimura { 549 1.13 tsutsui struct rasops_info *ri = cookie; 550 1.13 tsutsui uint8_t *p, *q; 551 1.1 nisimura int scanspan, offset, srcy, height, width, w; 552 1.13 tsutsui uint32_t rmask; 553 1.13 tsutsui 554 1.13 tsutsui scanspan = ri->ri_stride; 555 1.13 tsutsui height = ri->ri_font->fontheight * nrows; 556 1.13 tsutsui offset = (dstrow - srcrow) * scanspan * ri->ri_font->fontheight; 557 1.13 tsutsui srcy = ri->ri_font->fontheight * srcrow; 558 1.1 nisimura if (srcrow < dstrow && srcrow + nrows > dstrow) { 559 1.1 nisimura scanspan = -scanspan; 560 1.13.2.1 tls srcy = srcy + height - 1; 561 1.1 nisimura } 562 1.1 nisimura 563 1.13 tsutsui p = (uint8_t *)ri->ri_bits + srcy * ri->ri_stride; 564 1.13 tsutsui w = ri->ri_emuwidth; 565 1.1 nisimura width = w; 566 1.1 nisimura rmask = ALL1BITS << (-width & ALIGNMASK); 567 1.1 nisimura q = p; 568 1.1 nisimura while (height > 0) { 569 1.13.2.2 jdolecek *P0(p + offset) = *P0(p); /* always aligned */ 570 1.13.2.2 jdolecek *P1(p + offset) = *P1(p); 571 1.13.2.2 jdolecek *P2(p + offset) = *P2(p); 572 1.13.2.2 jdolecek *P3(p + offset) = *P3(p); 573 1.1 nisimura width -= 2 * BLITWIDTH; 574 1.1 nisimura while (width > 0) { 575 1.1 nisimura p += BYTESDONE; 576 1.13.2.2 jdolecek *P0(p + offset) = *P0(p); 577 1.13.2.2 jdolecek *P1(p + offset) = *P1(p); 578 1.13.2.2 jdolecek *P2(p + offset) = *P2(p); 579 1.13.2.2 jdolecek *P3(p + offset) = *P3(p); 580 1.1 nisimura width -= BLITWIDTH; 581 1.1 nisimura } 582 1.1 nisimura p += BYTESDONE; 583 1.13.2.2 jdolecek *P0(p + offset) = (*P0(p) & rmask) | (*P0(p + offset) & ~rmask); 584 1.13.2.2 jdolecek *P1(p + offset) = (*P1(p) & rmask) | (*P1(p + offset) & ~rmask); 585 1.13.2.2 jdolecek *P2(p + offset) = (*P2(p) & rmask) | (*P2(p + offset) & ~rmask); 586 1.13.2.2 jdolecek *P3(p + offset) = (*P3(p) & rmask) | (*P3(p + offset) & ~rmask); 587 1.1 nisimura 588 1.1 nisimura p = (q += scanspan); 589 1.1 nisimura width = w; 590 1.1 nisimura height--; 591 1.1 nisimura } 592 1.1 nisimura } 593 1.1 nisimura 594 1.1 nisimura static void 595 1.13.2.1 tls om1_copycols(void *cookie, int startrow, int srccol, int dstcol, int ncols) 596 1.1 nisimura { 597 1.13 tsutsui struct rasops_info *ri = cookie; 598 1.13.2.1 tls uint8_t *sp, *dp, *sq, *dq, *basep; 599 1.13.2.1 tls int scanspan, height, w, y, srcx, dstx; 600 1.13.2.1 tls int sb, eb, db, sboff, full, cnt, lnum, rnum; 601 1.13.2.1 tls uint32_t lmask, rmask, tmp; 602 1.13.2.1 tls bool sbover; 603 1.1 nisimura 604 1.13 tsutsui scanspan = ri->ri_stride; 605 1.13 tsutsui y = ri->ri_font->fontheight * startrow; 606 1.13 tsutsui srcx = ri->ri_font->fontwidth * srccol; 607 1.13 tsutsui dstx = ri->ri_font->fontwidth * dstcol; 608 1.13 tsutsui height = ri->ri_font->fontheight; 609 1.13 tsutsui w = ri->ri_font->fontwidth * ncols; 610 1.13 tsutsui basep = (uint8_t *)ri->ri_bits + y * scanspan; 611 1.1 nisimura 612 1.13.2.1 tls sb = srcx & ALIGNMASK; 613 1.13.2.1 tls db = dstx & ALIGNMASK; 614 1.1 nisimura 615 1.13.2.1 tls if (db + w <= BLITWIDTH) { 616 1.13.2.1 tls /* Destination is contained within a single word */ 617 1.13.2.1 tls sp = basep + (srcx / 32) * 4; 618 1.13.2.1 tls dp = basep + (dstx / 32) * 4; 619 1.1 nisimura 620 1.1 nisimura while (height > 0) { 621 1.13.2.1 tls GETBITS(P0(sp), sb, w, tmp); 622 1.13.2.1 tls PUTBITS(tmp, db, w, P0(dp)); 623 1.1 nisimura dp += scanspan; 624 1.1 nisimura sp += scanspan; 625 1.1 nisimura height--; 626 1.1 nisimura } 627 1.13.2.1 tls return; 628 1.1 nisimura } 629 1.1 nisimura 630 1.13.2.1 tls lmask = (db == 0) ? 0 : ALL1BITS >> db; 631 1.13.2.1 tls eb = (db + w) & ALIGNMASK; 632 1.13.2.1 tls rmask = (eb == 0) ? 0 : ALL1BITS << (32 - eb); 633 1.13.2.1 tls lnum = (32 - db) & ALIGNMASK; 634 1.13.2.1 tls rnum = (dstx + w) & ALIGNMASK; 635 1.13.2.1 tls 636 1.13.2.1 tls if (lmask != 0) 637 1.13.2.1 tls full = (w - (32 - db)) / 32; 638 1.13.2.1 tls else 639 1.13.2.1 tls full = w / 32; 640 1.13.2.1 tls 641 1.13.2.1 tls sbover = (sb + lnum) >= 32; 642 1.13.2.1 tls 643 1.13.2.1 tls if (dstcol < srccol || srccol + ncols < dstcol) { 644 1.13.2.1 tls /* copy forward (left-to-right) */ 645 1.13.2.1 tls sp = basep + (srcx / 32) * 4; 646 1.13.2.1 tls dp = basep + (dstx / 32) * 4; 647 1.13.2.1 tls 648 1.13.2.1 tls if (lmask != 0) { 649 1.13.2.1 tls sboff = sb + lnum; 650 1.13.2.1 tls if (sboff >= 32) 651 1.13.2.1 tls sboff -= 32; 652 1.13.2.1 tls } else 653 1.13.2.1 tls sboff = sb; 654 1.13.2.1 tls 655 1.13.2.1 tls sq = sp; 656 1.13.2.1 tls dq = dp; 657 1.1 nisimura while (height > 0) { 658 1.13.2.1 tls if (lmask != 0) { 659 1.13.2.1 tls GETBITS(P0(sp), sb, lnum, tmp); 660 1.13.2.1 tls PUTBITS(tmp, db, lnum, P0(dp)); 661 1.13.2.1 tls dp += BYTESDONE; 662 1.13.2.1 tls if (sbover) 663 1.13.2.1 tls sp += BYTESDONE; 664 1.13.2.1 tls } 665 1.13.2.1 tls 666 1.13.2.1 tls for (cnt = full; cnt; cnt--) { 667 1.13.2.1 tls GETBITS(P0(sp), sboff, 32, tmp); 668 1.13.2.2 jdolecek *P0(dp) = tmp; 669 1.1 nisimura sp += BYTESDONE; 670 1.1 nisimura dp += BYTESDONE; 671 1.1 nisimura } 672 1.13.2.1 tls 673 1.13.2.1 tls if (rmask != 0) { 674 1.13.2.1 tls GETBITS(P0(sp), sboff, rnum, tmp); 675 1.13.2.1 tls PUTBITS(tmp, 0, rnum, P0(dp)); 676 1.13.2.1 tls } 677 1.13.2.1 tls 678 1.1 nisimura sp = (sq += scanspan); 679 1.1 nisimura dp = (dq += scanspan); 680 1.1 nisimura height--; 681 1.1 nisimura } 682 1.13.2.1 tls } else { 683 1.13.2.1 tls /* copy backward (right-to-left) */ 684 1.13.2.1 tls sp = basep + ((srcx + w) / 32) * 4; 685 1.13.2.1 tls dp = basep + ((dstx + w) / 32) * 4; 686 1.13.2.1 tls 687 1.13.2.1 tls sboff = (srcx + w) & ALIGNMASK; 688 1.13.2.1 tls sboff -= rnum; 689 1.13.2.1 tls if (sboff < 0) { 690 1.13.2.1 tls sp -= BYTESDONE; 691 1.13.2.1 tls sboff += 32; 692 1.13.2.1 tls } 693 1.1 nisimura 694 1.13.2.1 tls sq = sp; 695 1.13.2.1 tls dq = dp; 696 1.1 nisimura while (height > 0) { 697 1.13.2.1 tls if (rnum != 0) { 698 1.13.2.1 tls GETBITS(P0(sp), sboff, rnum, tmp); 699 1.13.2.1 tls PUTBITS(tmp, 0, rnum, P0(dp)); 700 1.13.2.1 tls } 701 1.13.2.1 tls 702 1.13.2.1 tls for (cnt = full; cnt; cnt--) { 703 1.1 nisimura sp -= BYTESDONE; 704 1.1 nisimura dp -= BYTESDONE; 705 1.13.2.1 tls GETBITS(P0(sp), sboff, 32, tmp); 706 1.13.2.2 jdolecek *P0(dp) = tmp; 707 1.13.2.1 tls } 708 1.13.2.1 tls 709 1.13.2.1 tls if (lmask != 0) { 710 1.13.2.1 tls if (sbover) 711 1.13.2.1 tls sp -= BYTESDONE; 712 1.13.2.1 tls dp -= BYTESDONE; 713 1.13.2.1 tls GETBITS(P0(sp), sb, lnum, tmp); 714 1.13.2.1 tls PUTBITS(tmp, db, lnum, P0(dp)); 715 1.1 nisimura } 716 1.1 nisimura 717 1.1 nisimura sp = (sq += scanspan); 718 1.1 nisimura dp = (dq += scanspan); 719 1.1 nisimura height--; 720 1.1 nisimura } 721 1.1 nisimura } 722 1.13.2.1 tls } 723 1.13.2.1 tls 724 1.13.2.1 tls static void 725 1.13.2.1 tls om4_copycols(void *cookie, int startrow, int srccol, int dstcol, int ncols) 726 1.13.2.1 tls { 727 1.13.2.1 tls struct rasops_info *ri = cookie; 728 1.13.2.1 tls uint8_t *sp, *dp, *sq, *dq, *basep; 729 1.13.2.1 tls int scanspan, height, w, y, srcx, dstx; 730 1.13.2.1 tls int sb, eb, db, sboff, full, cnt, lnum, rnum; 731 1.13.2.1 tls uint32_t lmask, rmask, tmp; 732 1.13.2.1 tls bool sbover; 733 1.13.2.1 tls 734 1.13.2.1 tls scanspan = ri->ri_stride; 735 1.13.2.1 tls y = ri->ri_font->fontheight * startrow; 736 1.13.2.1 tls srcx = ri->ri_font->fontwidth * srccol; 737 1.13.2.1 tls dstx = ri->ri_font->fontwidth * dstcol; 738 1.13.2.1 tls height = ri->ri_font->fontheight; 739 1.13.2.1 tls w = ri->ri_font->fontwidth * ncols; 740 1.13.2.1 tls basep = (uint8_t *)ri->ri_bits + y * scanspan; 741 1.13.2.1 tls 742 1.13.2.1 tls sb = srcx & ALIGNMASK; 743 1.13.2.1 tls db = dstx & ALIGNMASK; 744 1.13.2.1 tls 745 1.13.2.1 tls if (db + w <= BLITWIDTH) { 746 1.13.2.1 tls /* Destination is contained within a single word */ 747 1.13.2.1 tls sp = basep + (srcx / 32) * 4; 748 1.13.2.1 tls dp = basep + (dstx / 32) * 4; 749 1.13.2.1 tls 750 1.13.2.1 tls while (height > 0) { 751 1.13.2.1 tls GETBITS(P0(sp), sb, w, tmp); 752 1.13.2.1 tls PUTBITS(tmp, db, w, P0(dp)); 753 1.13.2.1 tls GETBITS(P1(sp), sb, w, tmp); 754 1.13.2.1 tls PUTBITS(tmp, db, w, P1(dp)); 755 1.13.2.1 tls GETBITS(P2(sp), sb, w, tmp); 756 1.13.2.1 tls PUTBITS(tmp, db, w, P2(dp)); 757 1.13.2.1 tls GETBITS(P3(sp), sb, w, tmp); 758 1.13.2.1 tls PUTBITS(tmp, db, w, P3(dp)); 759 1.13.2.1 tls dp += scanspan; 760 1.13.2.1 tls sp += scanspan; 761 1.13.2.1 tls height--; 762 1.13.2.1 tls } 763 1.13.2.1 tls return; 764 1.13.2.1 tls } 765 1.13.2.1 tls 766 1.13.2.1 tls lmask = (db == 0) ? 0 : ALL1BITS >> db; 767 1.13.2.1 tls eb = (db + w) & ALIGNMASK; 768 1.13.2.1 tls rmask = (eb == 0) ? 0 : ALL1BITS << (32 - eb); 769 1.13.2.1 tls lnum = (32 - db) & ALIGNMASK; 770 1.13.2.1 tls rnum = (dstx + w) & ALIGNMASK; 771 1.13.2.1 tls 772 1.13.2.1 tls if (lmask != 0) 773 1.13.2.1 tls full = (w - (32 - db)) / 32; 774 1.13.2.1 tls else 775 1.13.2.1 tls full = w / 32; 776 1.13.2.1 tls 777 1.13.2.1 tls sbover = (sb + lnum) >= 32; 778 1.1 nisimura 779 1.13.2.1 tls if (dstcol < srccol || srccol + ncols < dstcol) { 780 1.13.2.1 tls /* copy forward (left-to-right) */ 781 1.13.2.1 tls sp = basep + (srcx / 32) * 4; 782 1.13.2.1 tls dp = basep + (dstx / 32) * 4; 783 1.13.2.1 tls 784 1.13.2.1 tls if (lmask != 0) { 785 1.13.2.1 tls sboff = sb + lnum; 786 1.13.2.1 tls if (sboff >= 32) 787 1.13.2.1 tls sboff -= 32; 788 1.13.2.1 tls } else 789 1.13.2.1 tls sboff = sb; 790 1.13.2.1 tls 791 1.13.2.1 tls sq = sp; 792 1.13.2.1 tls dq = dp; 793 1.13.2.1 tls while (height > 0) { 794 1.13.2.1 tls if (lmask != 0) { 795 1.13.2.1 tls GETBITS(P0(sp), sb, lnum, tmp); 796 1.13.2.1 tls PUTBITS(tmp, db, lnum, P0(dp)); 797 1.13.2.1 tls GETBITS(P1(sp), sb, lnum, tmp); 798 1.13.2.1 tls PUTBITS(tmp, db, lnum, P1(dp)); 799 1.13.2.1 tls GETBITS(P2(sp), sb, lnum, tmp); 800 1.13.2.1 tls PUTBITS(tmp, db, lnum, P2(dp)); 801 1.13.2.1 tls GETBITS(P3(sp), sb, lnum, tmp); 802 1.13.2.1 tls PUTBITS(tmp, db, lnum, P3(dp)); 803 1.13.2.1 tls dp += BYTESDONE; 804 1.13.2.1 tls if (sbover) 805 1.13.2.1 tls sp += BYTESDONE; 806 1.13.2.1 tls } 807 1.13.2.1 tls 808 1.13.2.1 tls for (cnt = full; cnt; cnt--) { 809 1.13.2.1 tls GETBITS(P0(sp), sboff, 32, tmp); 810 1.13.2.2 jdolecek *P0(dp) = tmp; 811 1.13.2.1 tls GETBITS(P1(sp), sboff, 32, tmp); 812 1.13.2.2 jdolecek *P1(dp) = tmp; 813 1.13.2.1 tls GETBITS(P2(sp), sboff, 32, tmp); 814 1.13.2.2 jdolecek *P2(dp) = tmp; 815 1.13.2.1 tls GETBITS(P3(sp), sboff, 32, tmp); 816 1.13.2.2 jdolecek *P3(dp) = tmp; 817 1.13.2.1 tls sp += BYTESDONE; 818 1.13.2.1 tls dp += BYTESDONE; 819 1.13.2.1 tls } 820 1.13.2.1 tls 821 1.13.2.1 tls if (rmask != 0) { 822 1.13.2.1 tls GETBITS(P0(sp), sboff, rnum, tmp); 823 1.13.2.1 tls PUTBITS(tmp, 0, rnum, P0(dp)); 824 1.13.2.1 tls GETBITS(P1(sp), sboff, rnum, tmp); 825 1.13.2.1 tls PUTBITS(tmp, 0, rnum, P1(dp)); 826 1.13.2.1 tls GETBITS(P2(sp), sboff, rnum, tmp); 827 1.13.2.1 tls PUTBITS(tmp, 0, rnum, P2(dp)); 828 1.13.2.1 tls GETBITS(P3(sp), sboff, rnum, tmp); 829 1.13.2.1 tls PUTBITS(tmp, 0, rnum, P3(dp)); 830 1.13.2.1 tls } 831 1.13.2.1 tls 832 1.13.2.1 tls sp = (sq += scanspan); 833 1.13.2.1 tls dp = (dq += scanspan); 834 1.13.2.1 tls height--; 835 1.13.2.1 tls } 836 1.13.2.1 tls } else { 837 1.13.2.1 tls /* copy backward (right-to-left) */ 838 1.13.2.1 tls sp = basep + ((srcx + w) / 32) * 4; 839 1.13.2.1 tls dp = basep + ((dstx + w) / 32) * 4; 840 1.13.2.1 tls 841 1.13.2.1 tls sboff = (srcx + w) & ALIGNMASK; 842 1.13.2.1 tls sboff -= rnum; 843 1.13.2.1 tls if (sboff < 0) { 844 1.13.2.1 tls sp -= BYTESDONE; 845 1.13.2.1 tls sboff += 32; 846 1.13.2.1 tls } 847 1.13.2.1 tls 848 1.13.2.1 tls sq = sp; 849 1.13.2.1 tls dq = dp; 850 1.13.2.1 tls while (height > 0) { 851 1.13.2.1 tls if (rnum != 0) { 852 1.13.2.1 tls GETBITS(P0(sp), sboff, rnum, tmp); 853 1.13.2.1 tls PUTBITS(tmp, 0, rnum, P0(dp)); 854 1.13.2.1 tls GETBITS(P1(sp), sboff, rnum, tmp); 855 1.13.2.1 tls PUTBITS(tmp, 0, rnum, P1(dp)); 856 1.13.2.1 tls GETBITS(P2(sp), sboff, rnum, tmp); 857 1.13.2.1 tls PUTBITS(tmp, 0, rnum, P2(dp)); 858 1.13.2.1 tls GETBITS(P3(sp), sboff, rnum, tmp); 859 1.13.2.1 tls PUTBITS(tmp, 0, rnum, P3(dp)); 860 1.13.2.1 tls } 861 1.13.2.1 tls 862 1.13.2.1 tls for (cnt = full; cnt; cnt--) { 863 1.13.2.1 tls sp -= BYTESDONE; 864 1.13.2.1 tls dp -= BYTESDONE; 865 1.13.2.1 tls GETBITS(P0(sp), sboff, 32, tmp); 866 1.13.2.2 jdolecek *P0(dp) = tmp; 867 1.13.2.1 tls GETBITS(P1(sp), sboff, 32, tmp); 868 1.13.2.2 jdolecek *P1(dp) = tmp; 869 1.13.2.1 tls GETBITS(P2(sp), sboff, 32, tmp); 870 1.13.2.2 jdolecek *P2(dp) = tmp; 871 1.13.2.1 tls GETBITS(P3(sp), sboff, 32, tmp); 872 1.13.2.2 jdolecek *P3(dp) = tmp; 873 1.13.2.1 tls } 874 1.13.2.1 tls 875 1.13.2.1 tls if (lmask != 0) { 876 1.13.2.1 tls if (sbover) 877 1.13.2.1 tls sp -= BYTESDONE; 878 1.13.2.1 tls dp -= BYTESDONE; 879 1.13.2.1 tls GETBITS(P0(sp), sb, lnum, tmp); 880 1.13.2.1 tls PUTBITS(tmp, db, lnum, P0(dp)); 881 1.13.2.1 tls GETBITS(P1(sp), sb, lnum, tmp); 882 1.13.2.1 tls PUTBITS(tmp, db, lnum, P1(dp)); 883 1.13.2.1 tls GETBITS(P2(sp), sb, lnum, tmp); 884 1.13.2.1 tls PUTBITS(tmp, db, lnum, P2(dp)); 885 1.13.2.1 tls GETBITS(P3(sp), sb, lnum, tmp); 886 1.13.2.1 tls PUTBITS(tmp, db, lnum, P3(dp)); 887 1.13.2.1 tls } 888 1.13.2.1 tls 889 1.13.2.1 tls sp = (sq += scanspan); 890 1.13.2.1 tls dp = (dq += scanspan); 891 1.13.2.1 tls height--; 892 1.13.2.1 tls } 893 1.13.2.1 tls } 894 1.1 nisimura } 895 1.1 nisimura 896 1.1 nisimura /* 897 1.1 nisimura * Map a character. 898 1.1 nisimura */ 899 1.1 nisimura static int 900 1.8 dsl om_mapchar(void *cookie, int c, u_int *cp) 901 1.1 nisimura { 902 1.13 tsutsui struct rasops_info *ri = cookie; 903 1.13 tsutsui struct wsdisplay_font *wf = ri->ri_font; 904 1.11 tsutsui 905 1.13 tsutsui if (wf->encoding != WSDISPLAY_FONTENC_ISO) { 906 1.13 tsutsui c = wsfont_map_unichar(wf, c); 907 1.13 tsutsui 908 1.13 tsutsui if (c < 0) 909 1.13 tsutsui goto fail; 910 1.1 nisimura } 911 1.13 tsutsui if (c < wf->firstchar || c >= (wf->firstchar + wf->numchars)) 912 1.13 tsutsui goto fail; 913 1.13 tsutsui 914 1.13 tsutsui *cp = c; 915 1.13 tsutsui return 5; 916 1.13 tsutsui 917 1.13 tsutsui fail: 918 1.1 nisimura *cp = ' '; 919 1.11 tsutsui return 0; 920 1.1 nisimura } 921 1.1 nisimura 922 1.1 nisimura /* 923 1.1 nisimura * Position|{enable|disable} the cursor at the specified location. 924 1.1 nisimura */ 925 1.1 nisimura static void 926 1.13.2.1 tls om1_cursor(void *cookie, int on, int row, int col) 927 1.1 nisimura { 928 1.13 tsutsui struct rasops_info *ri = cookie; 929 1.5 tsutsui uint8_t *p; 930 1.1 nisimura int scanspan, startx, height, width, align, y; 931 1.13.2.2 jdolecek uint32_t lmask, rmask; 932 1.1 nisimura 933 1.1 nisimura if (!on) { 934 1.1 nisimura /* make sure it's on */ 935 1.13 tsutsui if ((ri->ri_flg & RI_CURSOR) == 0) 936 1.1 nisimura return; 937 1.1 nisimura 938 1.13 tsutsui row = ri->ri_crow; 939 1.13 tsutsui col = ri->ri_ccol; 940 1.1 nisimura } else { 941 1.1 nisimura /* unpaint the old copy. */ 942 1.13 tsutsui ri->ri_crow = row; 943 1.13 tsutsui ri->ri_ccol = col; 944 1.1 nisimura } 945 1.1 nisimura 946 1.13 tsutsui scanspan = ri->ri_stride; 947 1.13 tsutsui y = ri->ri_font->fontheight * row; 948 1.13 tsutsui startx = ri->ri_font->fontwidth * col; 949 1.13 tsutsui height = ri->ri_font->fontheight; 950 1.1 nisimura 951 1.13 tsutsui p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4); 952 1.1 nisimura align = startx & ALIGNMASK; 953 1.13 tsutsui width = ri->ri_font->fontwidth + align; 954 1.1 nisimura lmask = ALL1BITS >> align; 955 1.1 nisimura rmask = ALL1BITS << (-width & ALIGNMASK); 956 1.1 nisimura if (width <= BLITWIDTH) { 957 1.1 nisimura lmask &= rmask; 958 1.13.2.2 jdolecek /* set lmask as ROP mask value, with INV2 mode */ 959 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_INV2] = lmask; 960 1.13.2.2 jdolecek 961 1.1 nisimura while (height > 0) { 962 1.13.2.2 jdolecek *P0(p) = ALL1BITS; 963 1.1 nisimura p += scanspan; 964 1.1 nisimura height--; 965 1.1 nisimura } 966 1.13.2.2 jdolecek /* reset mask value */ 967 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = ALL1BITS; 968 1.11 tsutsui } else { 969 1.5 tsutsui uint8_t *q = p; 970 1.1 nisimura 971 1.1 nisimura while (height > 0) { 972 1.13.2.2 jdolecek /* set lmask as ROP mask value, with INV2 mode */ 973 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_INV2] = lmask; 974 1.13.2.2 jdolecek *W(p) = ALL1BITS; 975 1.13.2.2 jdolecek 976 1.1 nisimura p += BYTESDONE; 977 1.13.2.2 jdolecek 978 1.13.2.2 jdolecek /* set lmask as ROP mask value, with INV2 mode */ 979 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_INV2] = rmask; 980 1.13.2.2 jdolecek *W(p) = ALL1BITS; 981 1.13.2.1 tls 982 1.13.2.1 tls p = (q += scanspan); 983 1.13.2.1 tls height--; 984 1.13.2.1 tls } 985 1.13.2.2 jdolecek /* reset mask value */ 986 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = ALL1BITS; 987 1.13.2.1 tls } 988 1.13.2.1 tls ri->ri_flg ^= RI_CURSOR; 989 1.13.2.1 tls } 990 1.13.2.1 tls 991 1.13.2.1 tls static void 992 1.13.2.1 tls om4_cursor(void *cookie, int on, int row, int col) 993 1.13.2.1 tls { 994 1.13.2.1 tls struct rasops_info *ri = cookie; 995 1.13.2.1 tls uint8_t *p; 996 1.13.2.1 tls int scanspan, startx, height, width, align, y; 997 1.13.2.2 jdolecek uint32_t lmask, rmask; 998 1.13.2.1 tls 999 1.13.2.1 tls if (!on) { 1000 1.13.2.1 tls /* make sure it's on */ 1001 1.13.2.1 tls if ((ri->ri_flg & RI_CURSOR) == 0) 1002 1.13.2.1 tls return; 1003 1.13.2.1 tls 1004 1.13.2.1 tls row = ri->ri_crow; 1005 1.13.2.1 tls col = ri->ri_ccol; 1006 1.13.2.1 tls } else { 1007 1.13.2.1 tls /* unpaint the old copy. */ 1008 1.13.2.1 tls ri->ri_crow = row; 1009 1.13.2.1 tls ri->ri_ccol = col; 1010 1.13.2.1 tls } 1011 1.13.2.1 tls 1012 1.13.2.1 tls scanspan = ri->ri_stride; 1013 1.13.2.1 tls y = ri->ri_font->fontheight * row; 1014 1.13.2.1 tls startx = ri->ri_font->fontwidth * col; 1015 1.13.2.1 tls height = ri->ri_font->fontheight; 1016 1.13.2.1 tls 1017 1.13.2.1 tls p = (uint8_t *)ri->ri_bits + y * scanspan + ((startx / 32) * 4); 1018 1.13.2.1 tls align = startx & ALIGNMASK; 1019 1.13.2.1 tls width = ri->ri_font->fontwidth + align; 1020 1.13.2.1 tls lmask = ALL1BITS >> align; 1021 1.13.2.1 tls rmask = ALL1BITS << (-width & ALIGNMASK); 1022 1.13.2.2 jdolecek 1023 1.13.2.2 jdolecek /* select all planes for later ROP function target */ 1024 1.13.2.2 jdolecek *(volatile uint32_t *)OMFB_PLANEMASK = 0xff; 1025 1.13.2.2 jdolecek 1026 1.13.2.1 tls if (width <= BLITWIDTH) { 1027 1.13.2.1 tls lmask &= rmask; 1028 1.13.2.2 jdolecek /* set lmask as ROP mask value, with INV2 mode */ 1029 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_INV2] = lmask; 1030 1.13.2.2 jdolecek 1031 1.13.2.1 tls while (height > 0) { 1032 1.13.2.2 jdolecek *W(p) = ALL1BITS; 1033 1.13.2.1 tls p += scanspan; 1034 1.13.2.1 tls height--; 1035 1.13.2.1 tls } 1036 1.13.2.2 jdolecek /* reset mask value */ 1037 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = ALL1BITS; 1038 1.13.2.1 tls } else { 1039 1.13.2.1 tls uint8_t *q = p; 1040 1.13.2.1 tls 1041 1.13.2.1 tls while (height > 0) { 1042 1.13.2.2 jdolecek /* set lmask as ROP mask value, with INV2 mode */ 1043 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_INV2] = lmask; 1044 1.13.2.2 jdolecek *W(p) = ALL1BITS; 1045 1.13.2.2 jdolecek 1046 1.13.2.1 tls p += BYTESDONE; 1047 1.13.2.2 jdolecek 1048 1.13.2.2 jdolecek /* set rmask as ROP mask value, with INV2 mode */ 1049 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_INV2] = rmask; 1050 1.13.2.2 jdolecek *W(p) = ALL1BITS; 1051 1.1 nisimura 1052 1.1 nisimura p = (q += scanspan); 1053 1.1 nisimura height--; 1054 1.1 nisimura } 1055 1.13.2.2 jdolecek /* reset mask value */ 1056 1.13.2.2 jdolecek ((volatile uint32_t *)OMFB_ROPFUNC)[ROP_THROUGH] = ALL1BITS; 1057 1.1 nisimura } 1058 1.13.2.2 jdolecek /* select plane #0 only; XXX need this ? */ 1059 1.13.2.2 jdolecek *(volatile uint32_t *)OMFB_PLANEMASK = 0x01; 1060 1.13.2.2 jdolecek 1061 1.13 tsutsui ri->ri_flg ^= RI_CURSOR; 1062 1.1 nisimura } 1063 1.1 nisimura 1064 1.1 nisimura /* 1065 1.1 nisimura * Allocate attribute. We just pack these into an integer. 1066 1.1 nisimura */ 1067 1.1 nisimura static int 1068 1.13.2.1 tls om1_allocattr(void *id, int fg, int bg, int flags, long *attrp) 1069 1.1 nisimura { 1070 1.11 tsutsui 1071 1.13.2.1 tls if ((flags & (WSATTR_HILIT | WSATTR_BLINK | 1072 1.13.2.1 tls WSATTR_UNDERLINE | WSATTR_WSCOLORS)) != 0) 1073 1.11 tsutsui return EINVAL; 1074 1.13.2.1 tls if ((flags & WSATTR_REVERSE) != 0) 1075 1.1 nisimura *attrp = 1; 1076 1.1 nisimura else 1077 1.1 nisimura *attrp = 0; 1078 1.11 tsutsui return 0; 1079 1.1 nisimura } 1080 1.1 nisimura 1081 1.13.2.1 tls static int 1082 1.13.2.1 tls om4_allocattr(void *id, int fg, int bg, int flags, long *attrp) 1083 1.13.2.1 tls { 1084 1.13.2.1 tls 1085 1.13.2.1 tls if ((flags & (WSATTR_BLINK | WSATTR_UNDERLINE)) != 0) 1086 1.13.2.1 tls return EINVAL; 1087 1.13.2.1 tls if ((flags & WSATTR_WSCOLORS) == 0) { 1088 1.13.2.1 tls fg = WSCOL_WHITE; 1089 1.13.2.1 tls bg = WSCOL_BLACK; 1090 1.13.2.1 tls } 1091 1.13.2.1 tls 1092 1.13.2.1 tls if ((flags & WSATTR_REVERSE) != 0) { 1093 1.13.2.1 tls int swap; 1094 1.13.2.1 tls swap = fg; 1095 1.13.2.1 tls fg = bg; 1096 1.13.2.1 tls bg = swap; 1097 1.13.2.1 tls } 1098 1.13.2.1 tls 1099 1.13.2.1 tls if ((flags & WSATTR_HILIT) != 0) 1100 1.13.2.1 tls fg += 8; 1101 1.13.2.1 tls 1102 1.13.2.1 tls *attrp = (fg << 24) | (bg << 16); 1103 1.13.2.1 tls return 0; 1104 1.13.2.1 tls } 1105 1.13.2.1 tls 1106 1.13.2.2 jdolecek static void 1107 1.13.2.2 jdolecek om4_unpack_attr(long attr, int *fg, int *bg, int *underline) 1108 1.13.2.2 jdolecek { 1109 1.13.2.2 jdolecek 1110 1.13.2.2 jdolecek *fg = ((u_int)attr >> 24) & 0xf; 1111 1.13.2.2 jdolecek *bg = ((u_int)attr >> 16) & 0xf; 1112 1.13.2.2 jdolecek } 1113 1.13.2.2 jdolecek 1114 1.13 tsutsui /* 1115 1.13 tsutsui * Init subset of rasops(9) for omrasops. 1116 1.13 tsutsui */ 1117 1.13 tsutsui int 1118 1.13.2.1 tls omrasops1_init(struct rasops_info *ri, int wantrows, int wantcols) 1119 1.13.2.1 tls { 1120 1.13.2.1 tls 1121 1.13.2.1 tls omrasops_init(ri, wantrows, wantcols); 1122 1.13.2.1 tls 1123 1.13.2.1 tls /* fill our own emulops */ 1124 1.13.2.1 tls ri->ri_ops.cursor = om1_cursor; 1125 1.13.2.1 tls ri->ri_ops.mapchar = om_mapchar; 1126 1.13.2.1 tls ri->ri_ops.putchar = om1_putchar; 1127 1.13.2.1 tls ri->ri_ops.copycols = om1_copycols; 1128 1.13.2.1 tls ri->ri_ops.erasecols = om1_erasecols; 1129 1.13.2.1 tls ri->ri_ops.copyrows = om1_copyrows; 1130 1.13.2.1 tls ri->ri_ops.eraserows = om1_eraserows; 1131 1.13.2.1 tls ri->ri_ops.allocattr = om1_allocattr; 1132 1.13.2.1 tls ri->ri_caps = WSSCREEN_REVERSE; 1133 1.13.2.1 tls 1134 1.13.2.1 tls ri->ri_flg |= RI_CFGDONE; 1135 1.13.2.1 tls 1136 1.13.2.1 tls return 0; 1137 1.13.2.1 tls } 1138 1.13.2.1 tls 1139 1.13.2.1 tls int 1140 1.13.2.1 tls omrasops4_init(struct rasops_info *ri, int wantrows, int wantcols) 1141 1.13.2.1 tls { 1142 1.13.2.1 tls 1143 1.13.2.1 tls omrasops_init(ri, wantrows, wantcols); 1144 1.13.2.1 tls 1145 1.13.2.1 tls /* fill our own emulops */ 1146 1.13.2.1 tls ri->ri_ops.cursor = om4_cursor; 1147 1.13.2.1 tls ri->ri_ops.mapchar = om_mapchar; 1148 1.13.2.1 tls ri->ri_ops.putchar = om4_putchar; 1149 1.13.2.1 tls ri->ri_ops.copycols = om4_copycols; 1150 1.13.2.1 tls ri->ri_ops.erasecols = om4_erasecols; 1151 1.13.2.1 tls ri->ri_ops.copyrows = om4_copyrows; 1152 1.13.2.1 tls ri->ri_ops.eraserows = om4_eraserows; 1153 1.13.2.1 tls ri->ri_ops.allocattr = om4_allocattr; 1154 1.13.2.1 tls ri->ri_caps = WSSCREEN_HILIT | WSSCREEN_WSCOLORS | WSSCREEN_REVERSE; 1155 1.13.2.1 tls 1156 1.13.2.1 tls ri->ri_flg |= RI_CFGDONE; 1157 1.13.2.1 tls 1158 1.13.2.1 tls return 0; 1159 1.13.2.1 tls } 1160 1.13.2.1 tls 1161 1.13.2.1 tls static int 1162 1.13 tsutsui omrasops_init(struct rasops_info *ri, int wantrows, int wantcols) 1163 1.1 nisimura { 1164 1.13 tsutsui int wsfcookie, bpp; 1165 1.13 tsutsui 1166 1.13 tsutsui if (wantrows == 0) 1167 1.13 tsutsui wantrows = 34; 1168 1.13 tsutsui if (wantrows < 10) 1169 1.13 tsutsui wantrows = 10; 1170 1.13 tsutsui if (wantcols == 0) 1171 1.13 tsutsui wantcols = 80; 1172 1.13 tsutsui if (wantcols < 20) 1173 1.13 tsutsui wantcols = 20; 1174 1.13 tsutsui 1175 1.13 tsutsui /* Use default font */ 1176 1.13 tsutsui wsfont_init(); 1177 1.13 tsutsui wsfcookie = wsfont_find(NULL, 0, 0, 0, WSDISPLAY_FONTORDER_L2R, 1178 1.13 tsutsui WSDISPLAY_FONTORDER_L2R, WSFONT_FIND_BITMAP); 1179 1.13 tsutsui if (wsfcookie < 0) 1180 1.13 tsutsui panic("%s: no font available", __func__); 1181 1.13 tsutsui if (wsfont_lock(wsfcookie, &ri->ri_font)) 1182 1.13 tsutsui panic("%s: unable to lock font", __func__); 1183 1.13 tsutsui ri->ri_wsfcookie = wsfcookie; 1184 1.13 tsutsui 1185 1.13 tsutsui KASSERT(ri->ri_font->fontwidth > 4 && ri->ri_font->fontwidth <= 32); 1186 1.13 tsutsui 1187 1.13.2.1 tls /* all planes are independently addressed */ 1188 1.13.2.1 tls bpp = 1; 1189 1.13 tsutsui 1190 1.13 tsutsui /* Now constrain what they get */ 1191 1.13 tsutsui ri->ri_emuwidth = ri->ri_font->fontwidth * wantcols; 1192 1.13 tsutsui ri->ri_emuheight = ri->ri_font->fontheight * wantrows; 1193 1.13 tsutsui if (ri->ri_emuwidth > ri->ri_width) 1194 1.13 tsutsui ri->ri_emuwidth = ri->ri_width; 1195 1.13 tsutsui if (ri->ri_emuheight > ri->ri_height) 1196 1.13 tsutsui ri->ri_emuheight = ri->ri_height; 1197 1.13 tsutsui 1198 1.13 tsutsui /* Reduce width until aligned on a 32-bit boundary */ 1199 1.13 tsutsui while ((ri->ri_emuwidth * bpp & 31) != 0) 1200 1.13 tsutsui ri->ri_emuwidth--; 1201 1.13 tsutsui 1202 1.13 tsutsui ri->ri_cols = ri->ri_emuwidth / ri->ri_font->fontwidth; 1203 1.13 tsutsui ri->ri_rows = ri->ri_emuheight / ri->ri_font->fontheight; 1204 1.13 tsutsui ri->ri_emustride = ri->ri_emuwidth * bpp >> 3; 1205 1.13 tsutsui ri->ri_delta = ri->ri_stride - ri->ri_emustride; 1206 1.13 tsutsui ri->ri_ccol = 0; 1207 1.13 tsutsui ri->ri_crow = 0; 1208 1.13 tsutsui ri->ri_pelbytes = bpp >> 3; 1209 1.13 tsutsui 1210 1.13 tsutsui ri->ri_xscale = (ri->ri_font->fontwidth * bpp) >> 3; 1211 1.13 tsutsui ri->ri_yscale = ri->ri_font->fontheight * ri->ri_stride; 1212 1.13 tsutsui ri->ri_fontscale = ri->ri_font->fontheight * ri->ri_font->stride; 1213 1.13 tsutsui 1214 1.13 tsutsui /* Clear the entire display */ 1215 1.13 tsutsui if ((ri->ri_flg & RI_CLEAR) != 0) 1216 1.13 tsutsui memset(ri->ri_bits, 0, ri->ri_stride * ri->ri_height); 1217 1.13 tsutsui 1218 1.13 tsutsui /* Now centre our window if needs be */ 1219 1.13 tsutsui ri->ri_origbits = ri->ri_bits; 1220 1.13 tsutsui 1221 1.13 tsutsui if ((ri->ri_flg & RI_CENTER) != 0) { 1222 1.13 tsutsui ri->ri_bits += (((ri->ri_width * bpp >> 3) - 1223 1.13 tsutsui ri->ri_emustride) >> 1) & ~3; 1224 1.13 tsutsui ri->ri_bits += ((ri->ri_height - ri->ri_emuheight) >> 1) * 1225 1.13 tsutsui ri->ri_stride; 1226 1.13 tsutsui ri->ri_yorigin = (int)(ri->ri_bits - ri->ri_origbits) 1227 1.13 tsutsui / ri->ri_stride; 1228 1.13 tsutsui ri->ri_xorigin = (((int)(ri->ri_bits - ri->ri_origbits) 1229 1.13 tsutsui % ri->ri_stride) * 8 / bpp); 1230 1.13 tsutsui } else 1231 1.13 tsutsui ri->ri_xorigin = ri->ri_yorigin = 0; 1232 1.13 tsutsui 1233 1.13 tsutsui return 0; 1234 1.1 nisimura } 1235
Indexes created Fri Oct 03 02:09:57 GMT 2025