/* * linux/drivers/video/iplan2p2.c -- Low level frame buffer operations for * interleaved bitplanes à la Atari (2 * planes, 2 bytes interleave) * * Created 5 Apr 1997 by Geert Uytterhoeven * * This file is subject to the terms and conditions of the GNU General Public * License. See the file COPYING in the main directory of this archive for * more details. */ #include #include #include #include #include #include #include "fbcon.h" #ifndef __mc68000__ #error No support for non-m68k yet #endif /* * Prototypes */ static int open_iplan2p2(struct display *p); static void release_iplan2p2(void); static void bmove_iplan2p2(struct display *p, int sy, int sx, int dy, int dx, int height, int width); static void clear_iplan2p2(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width); static void putc_iplan2p2(struct vc_data *conp, struct display *p, int c, int yy, int xx); static void putcs_iplan2p2(struct vc_data *conp, struct display *p, const char *s, int count, int yy, int xx); static void rev_char_iplan2p2(struct display *display, int xx, int yy); /* * `switch' for the low level operations */ static struct display_switch dispsw_iplan2p2 = { open_iplan2p2, release_iplan2p2, bmove_iplan2p2, clear_iplan2p2, putc_iplan2p2, putcs_iplan2p2, rev_char_iplan2p2 }; /* * Interleaved bitplanes à la Atari (2 planes, 2 bytes interleave) */ /* Increment/decrement 2 plane addresses */ #define INC_2P(p) do { if (!((long)(++(p)) & 1)) (p) += 2; } while(0) #define DEC_2P(p) do { if ((long)(--(p)) & 1) (p) -= 2; } while(0) /* Convert a standard 4 bit color to our 2 bit color assignment: * If at least two RGB channels are active, the low bit is turned on; * The intensity bit (b3) is shifted into b1. */ #define COLOR_2P(c) (((c & 7) >= 3 && (c & 7) != 4) | (c & 8) >> 2) /* Sets the bytes in the visible column at d, height h, to the value * val for a 2 plane screen. The the bis of the color in 'color' are * moved (8 times) to the respective bytes. This means: * * for(h times; d += bpr) * *d = (color & 1) ? 0xff : 0; * *(d+2) = (color & 2) ? 0xff : 0; */ static __inline__ void memclear_2p_col(void *d, size_t h, u_short val, int bpr) { #ifdef __mc68000__ __asm__ __volatile__ ("1: movepw %4,%0@(0)\n\t" "addal %5,%0\n\t" "dbra %1,1b" : "=a" (d), "=d" (h) : "0" (d), "1" (h - 1), "d" (val), "r" (bpr)); #else /* !m68k */ #endif /* !m68k */ } /* Sets a 2 plane region from 'd', length 'count' bytes, to the color * in val1. 'd' has to be an even address and count must be divisible * by 8, because only whole words and all planes are accessed. I.e.: * * for(count/4 times) * *d = *(d+1) = (color & 1) ? 0xff : 0; * *(d+2) = *(d+3) = (color & 2) ? 0xff : 0; */ static __inline__ void memset_even_2p(void *d, size_t count, u_long val) { u_long *dd = d; count /= 4; while (count--) *dd++ = val; } /* Copies a 2 plane column from 's', height 'h', to 'd'. */ static __inline__ void memmove_2p_col (void *d, void *s, int h, int bpr) { u_char *dd = d, *ss = s; while (h--) { dd[0] = ss[0]; dd[2] = ss[2]; dd += bpr; ss += bpr; } } /* This expands a 2 bit color into a short for movepw (2 plane) operations. */ static __inline__ u_short expand2w(u_char c) { u_short rv; #ifdef __mc68000__ __asm__ __volatile__ ("lsrb #1,%2\n\t" "scs %0\n\t" "lsll #8,%0\n\t" "lsrb #1,%2\n\t" "scs %0\n\t" : "=&d" (rv), "=d" (c) : "1" (c)); #endif /* !m68k */ return(rv); } /* This expands a 2 bit color into one long for a movel operation * (2 planes). */ static __inline__ u_long expand2l(u_char c) { u_long rv; #ifdef __mc68000__ __asm__ __volatile__ ("lsrb #1,%2\n\t" "scs %0\n\t" "extw %0\n\t" "swap %0\n\t" "lsrb #1,%2\n\t" "scs %0\n\t" "extw %0\n\t" : "=&d" (rv), "=d" (c) : "1" (c)); #endif /* !m68k */ return rv; } /* This duplicates a byte 2 times into a short. */ static __inline__ u_short dup2w(u_char c) { ushort rv; #ifdef __mc68000__ __asm__ __volatile__ ("moveb %1,%0\n\t" "lslw #8,%0\n\t" "moveb %1,%0\n\t" : "=&d" (rv) : "d" (c)); #endif /* !m68k */ return( rv ); } static int open_iplan2p2(struct display *p) { if (p->type != FB_TYPE_INTERLEAVED_PLANES || p->type_aux != 2 || p->var.bits_per_pixel != 2) return -EINVAL; p->next_line = p->var.xres_virtual>>2; p->next_plane = 2; MOD_INC_USE_COUNT; return 0; } static void release_iplan2p2(void) { MOD_DEC_USE_COUNT; } static void bmove_iplan2p2(struct display *p, int sy, int sx, int dy, int dx, int height, int width) { /* bmove() has to distinguish two major cases: If both, source and * destination, start at even addresses or both are at odd * addresses, just the first odd and last even column (if present) * require special treatment (memmove_col()). The rest between * then can be copied by normal operations, because all adjacent * bytes are affected and are to be stored in the same order. * The pathological case is when the move should go from an odd * address to an even or vice versa. Since the bytes in the plane * words must be assembled in new order, it seems wisest to make * all movements by memmove_col(). */ if (sx == 0 && dx == 0 && width == p->next_line/2) { /* Special (but often used) case: Moving whole lines can be * done with memmove() */ mymemmove(p->screen_base + dy * p->next_line * p->fontheight, p->screen_base + sy * p->next_line * p->fontheight, p->next_line * height * p->fontheight); } else { int rows, cols; u_char *src; u_char *dst; int bytes = p->next_line; int linesize = bytes * p->fontheight; u_int colsize = height * p->fontheight; u_int upwards = (dy < sy) || (dy == sy && dx < sx); if ((sx & 1) == (dx & 1)) { /* odd->odd or even->even */ if (upwards) { src = p->screen_base + sy * linesize + (sx>>1)*4 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*4 + (dx & 1); if (sx & 1) { memmove_2p_col(dst, src, colsize, bytes); src += 3; dst += 3; --width; } if (width > 1) { for (rows = colsize; rows > 0; --rows) { mymemmove(dst, src, (width>>1)*4); src += bytes; dst += bytes; } } if (width & 1) { src -= colsize * bytes; dst -= colsize * bytes; memmove_2p_col(dst + (width>>1)*4, src + (width>>1)*4, colsize, bytes); } } else { if (!((sx+width-1) & 1)) { src = p->screen_base + sy * linesize + ((sx+width-1)>>1)*4; dst = p->screen_base + dy * linesize + ((dx+width-1)>>1)*4; memmove_2p_col(dst, src, colsize, bytes); --width; } src = p->screen_base + sy * linesize + (sx>>1)*4 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*4 + (dx & 1); if (width > 1) { src += colsize * bytes + (sx & 1)*3; dst += colsize * bytes + (sx & 1)*3; for(rows = colsize; rows > 0; --rows) { src -= bytes; dst -= bytes; mymemmove(dst, src, (width>>1)*4); } } if (width & 1) memmove_2p_col(dst-3, src-3, colsize, bytes); } } else { /* odd->even or even->odd */ if (upwards) { src = p->screen_base + sy * linesize + (sx>>1)*4 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*4 + (dx & 1); for (cols = width; cols > 0; --cols) { memmove_2p_col(dst, src, colsize, bytes); INC_2P(src); INC_2P(dst); } } else { sx += width-1; dx += width-1; src = p->screen_base + sy * linesize + (sx>>1)*4 + (sx & 1); dst = p->screen_base + dy * linesize + (dx>>1)*4 + (dx & 1); for(cols = width; cols > 0; --cols) { memmove_2p_col(dst, src, colsize, bytes); DEC_2P(src); DEC_2P(dst); } } } } } static void clear_iplan2p2(struct vc_data *conp, struct display *p, int sy, int sx, int height, int width) { ulong offset; u_char *start; int rows; int bytes = p->next_line; int lines = height * p->fontheight; ulong size; u_long cval; u_short pcval; cval = expand2l (COLOR_2P (attr_bgcol_ec(p,conp))); if (sx == 0 && width == bytes/2) { offset = sy * bytes * p->fontheight; size = lines * bytes; memset_even_2p(p->screen_base+offset, size, cval); } else { offset = (sy * bytes * p->fontheight) + (sx>>1)*4 + (sx & 1); start = p->screen_base + offset; pcval = expand2w(COLOR_2P(attr_bgcol_ec(p,conp))); /* Clears are split if the region starts at an odd column or * end at an even column. These extra columns are spread * across the interleaved planes. All in between can be * cleared by normal mymemclear_small(), because both bytes of * the single plane words are affected. */ if (sx & 1) { memclear_2p_col(start, lines, pcval, bytes); start += 3; width--; } if (width & 1) { memclear_2p_col(start + (width>>1)*4, lines, pcval, bytes); width--; } if (width) { for (rows = lines; rows-- ; start += bytes) memset_even_2p(start, width*2, cval); } } } static void putc_iplan2p2(struct vc_data *conp, struct display *p, int c, int yy, int xx) { u_char *dest; u_char *cdat; int rows; int bytes = p->next_line; ulong eorx, fgx, bgx, fdx; c &= 0xff; dest = p->screen_base + yy * p->fontheight * bytes + (xx>>1)*4 + (xx & 1); cdat = p->fontdata + (c * p->fontheight); fgx = expand2w(COLOR_2P(attr_fgcol(p,conp))); bgx = expand2w(COLOR_2P(attr_bgcol(p,conp))); eorx = fgx ^ bgx; for (rows = p->fontheight ; rows-- ; dest += bytes) { fdx = dup2w(*cdat++); #ifdef __mc68000__ __asm__ __volatile__ ("movepw %1,%0@(0)" : /* no outputs */ : "a" (dest), "d" ((fdx & eorx) ^ bgx)); #endif /* !m68k */ } } static void putcs_iplan2p2(struct vc_data *conp, struct display *p, const char *s, int count, int yy, int xx) { u_char *dest, *dest0; u_char *cdat, c; int rows; int bytes; ulong eorx, fgx, bgx, fdx; bytes = p->next_line; dest0 = p->screen_base + yy * p->fontheight * bytes + (xx>>1)*4 + (xx & 1); fgx = expand2w(COLOR_2P(attr_fgcol(p,conp))); bgx = expand2w(COLOR_2P(attr_bgcol(p,conp))); eorx = fgx ^ bgx; while (count--) { c = *s++; cdat = p->fontdata + (c * p->fontheight); for (rows = p->fontheight, dest = dest0; rows-- ; dest += bytes) { fdx = dup2w(*cdat++); #ifdef __mc68000__ __asm__ __volatile__ ("movepw %1,%0@(0)" : /* no outputs */ : "a" (dest), "d" ((fdx & eorx) ^ bgx)); #endif /* !m68k */ } INC_2P(dest0); } } static void rev_char_iplan2p2(struct display *p, int xx, int yy) { u_char *dest; int j; int bytes; dest = p->screen_base + yy * p->fontheight * p->next_line + (xx>>1)*4 + (xx & 1); j = p->fontheight; bytes = p->next_line; while (j--) { /* This should really obey the individual character's * background and foreground colors instead of simply * inverting. */ dest[0] = ~dest[0]; dest[2] = ~dest[2]; dest += bytes; } } #ifdef MODULE int init_module(void) #else int fbcon_init_iplan2p2(void) #endif { return(fbcon_register_driver(&dispsw_iplan2p2, 0)); } #ifdef MODULE void cleanup_module(void) { fbcon_unregister_driver(&dispsw_iplan2p2); } #endif /* MODULE */