/* $OpenBSD: grfabs_reg.h,v 1.2 1996/05/02 06:43:58 niklas Exp $ */ /* $NetBSD: grfabs_reg.h,v 1.5 1996/04/21 21:11:31 veego Exp $ */ /* * Copyright (c) 1994 Christian E. Hopps * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Christian E. Hopps. * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #if ! defined (_GRFABS_REG_H) #define _GRFABS_REG_H struct point { long x; long y; }; typedef struct point point_t; struct dimension { u_long width; u_long height; }; typedef struct dimension dimen_t; struct box { long x; long y; u_long width; u_long height; }; typedef struct box box_t; struct rectangle { long left; long top; long right; long bottom; }; typedef struct rectangle rect_t; typedef struct bitmap bmap_t; typedef struct colormap colormap_t; typedef struct view view_t; typedef struct display_mode dmode_t; typedef struct monitor monitor_t; LIST_HEAD(monitor_list, monitor); extern struct monitor_list *monitors; /* * Bitmap stuff. */ /* * Note structure is 5 long words big. This may come in handy for * contiguous allocations * * Please do fill in everything correctly this is the main input for * all other programs. In other words all problems with RTG start here. * If you do not mimic everyone else exactly problems will appear. * If you need a template look at alloc_bitmap() in grf_cc.c. * * WARNING: the plane array is only for convience, all data for bitplanes * MUST be contiguous. This is for mapping purposes. The reason * for the plane pointers and row_mod is to support interleaving * on monitors that wish to support this. * * 2nd Warning: Also don't get funky with these pointers you are expected * to place the start of mappable plane data in ``hardware_address'', * ``hardware_address'' is the only thing that /dev/view checks and it * expects the planes to follow with no padding in between. If you have * special alignment requirements make use of the given fields * so that the entire contiguous plane data is exactly: * bytes_per_row*height*depth long starting at the physical address * contained within hardware_address. * * Final Warning: Plane data must begin on a PAGE address and the allocation * must be ``n'' PAGES big do to mapping requirements (otherwise the * user could write over non-allocated memory. * */ struct bitmap { u_short bytes_per_row; /* number of bytes per display row. */ u_short row_mod; /* number of bytes to reach next row. */ u_short rows; /* number of display rows. */ u_short depth; /* depth of bitmap. */ u_short flags; /* flags. */ u_short pad; u_char *blit_temp; /* private monitor buffer. */ u_char **plane; /* plane data for bitmap. */ u_char *hardware_address; /* mappable bitplane pointer. */ }; enum bitmap_flag_bits { BMB_CLEAR, /* init only. */ BMB_INTERLEAVED, /* init/read. */ BMB_ALIGN64, /* init/read. */ }; enum bitmap_flags { BMF_CLEAR = 1 << BMB_CLEAR, /* init only. */ BMF_INTERLEAVED = 1 << BMB_INTERLEAVED, /* init/read. */ BMF_ALIGN64 = 1 << BMB_ALIGN64 /* init/read. */ }; /* Use these macros to find misc. sizes of actual bitmap */ #define BM_WIDTH(b) ((b)->bytes_per_row << 3) #define BM_HEIGHT(b) ((b)->rows) #define BM_ROW(b,p,l) \ ((b)->plane[p] + (((b)->bytes_per_row + (b)->row_mod) * l)) /* * Colormap stuff. */ /* * valid masks are a bitfield of zeros followed by ones that indicate * which mask are valid for each component. The ones and zeros will * be contiguous so adding one to this value yields the number of * levels for that component. * -ch */ struct colormap { u_char type; /* what type of entries these are. */ union { /* CM_GREYSCALE */ u_char grey; #define grey_mask valid_mask.grey /* CM_COLOR */ struct { u_char red; #define red_mask valid_mask.rgb_mask.red u_char green; #define green_mask valid_mask.rgb_mask.green u_char blue; #define blue_mask valid_mask.rgb_mask.blue } rgb_mask; } valid_mask; u_short first; /* what color register does entry[0] refer to. */ u_short size; /* number of entries */ u_long *entry; /* the table of actual color values. */ }; enum colormap_type { CM_MONO, /* only on or off allowed */ CM_GREYSCALE, /* grey vals. */ CM_COLOR /* RGB vals. */ }; #define CM_FIXVAL(x) (0xff & (x)) /* these macros are for creating entries */ #define MAKE_COLOR_ENTRY(r,g,b) \ (CM_FIXVAL(r) << 16 | CM_FIXVAL(g) << 8 | CM_FIXVAL(b)) #define MAKE_MONO_ENTRY(x) ((x) ? 1 : 0) #define MAKE_GREY_ENTRY(l) CM_FIXVAL(l) #define CM_LTOW(v) \ (((0x000F0000 & (v)) >> 8) | ((0x00000F00 & (v)) >> 4) | (0xF & (v))) #define CM_WTOL(v) \ (((0xF00 & (v)) << 8) | ((0x0F0 & (v)) << 4) | (0xF & (v))) /* * View stuff. */ typedef void remove_view_func (view_t *v); typedef void free_view_func (view_t *v); typedef void display_view_func (view_t *v); typedef dmode_t *get_mode_func (view_t *v); typedef int get_colormap_func (view_t *v, colormap_t *); typedef int use_colormap_func (view_t *v, colormap_t *); struct view { bmap_t *bitmap; /* bitmap. */ box_t display; /* viewable area. */ void *data; /* view specific data. */ /* functions */ display_view_func *display_view; /* make this view active */ remove_view_func *remove_view; /* remove this view if active */ free_view_func *free_view; /* free this view */ get_mode_func *get_display_mode;/* get the mode this view belongs to */ get_colormap_func *get_colormap; /* get a color map for registers */ use_colormap_func *use_colormap; /* use color map to load registers */ }; #define VDISPLAY_LINE(v, p, l) ((v)->bitmap->plane[(p)] +\ (((v)->bitmap->bytes_per_row + (v)->bitmap->row_mod) * l)) /* * Mode stuff */ typedef view_t *alloc_view_func (dmode_t *mode, dimen_t *dim, u_char depth); typedef view_t *get_current_view_func (dmode_t *); typedef monitor_t *get_monitor_func (dmode_t *); struct display_mode { LIST_ENTRY(display_mode) link; u_char *name; /* logical name for mode. */ dimen_t nominal_size; /* best fit. */ void *data; /* mode specific flags. */ alloc_view_func *alloc_view; /* allocate a view for this mode. */ get_current_view_func *get_current_view; /* get active view. */ get_monitor_func *get_monitor; /* get monitor that mode belongs to */ }; /* * Monitor stuff. */ typedef void vbl_handler_func (void *); typedef dmode_t *get_next_mode_func (dmode_t *); typedef dmode_t *get_current_mode_func (void); typedef dmode_t *get_best_mode_func (dimen_t *size, u_char depth); typedef bmap_t *alloc_bitmap_func (u_short w, u_short h, u_short d, u_short f); typedef void free_bitmap_func (bmap_t *bm); struct monitor { LIST_ENTRY(monitor) link; /* a link into the database. */ u_char *name; /* a logical name for this monitor. */ void *data; /* monitor specific data. */ get_current_mode_func *get_current_mode; vbl_handler_func *vbl_handler; /* called on every vbl if not NULL */ get_next_mode_func *get_next_mode; /* return next mode in list */ get_best_mode_func *get_best_mode; /* return mode that best fits */ alloc_bitmap_func *alloc_bitmap; free_bitmap_func *free_bitmap; }; /* * Misc draw related macros. */ #define BOX_2_RECT(b,r) do { \ (r)->left = (b)->x; (r)->top = (b)->y; \ (r)->right = (b)->x + (b)->width -1; \ (r)->bottom = (b)->y + (b)->height -1; \ } while (0) #define RECT_2_BOX(r,b) do { \ (b)->x = (r)->left; \ (b)->y = (r)->top; \ (b)->width = (r)->right - (r)->left +1; \ (b)->height = (r)->bottom - (r)->top +1; \ } while(0) #define INIT_BOX(b,xx,yy,ww,hh) do{(b)->x = xx; (b)->y = yy; (b)->width = ww; (b)->height = hh;}while (0) #define INIT_RECT(rc,l,t,r,b) do{(rc)->left = l; (rc)->right = r; (rc)->top = t; (rc)->bottom = b;}while (0) #define INIT_POINT(p,xx,yy) do {(p)->x = xx; (p)->y = yy;} while (0) #define INIT_DIM(d,w,h) do {(d)->width = w; (d)->height = h;} while (0) /* * Prototypes */ /* views */ view_t * grf_alloc_view __P((dmode_t *d, dimen_t *dim, u_char depth)); void grf_display_view __P((view_t *v)); void grf_remove_view __P((view_t *v)); void grf_free_view __P((view_t *v)); dmode_t *grf_get_display_mode __P((view_t *v)); int grf_get_colormap __P((view_t *v, colormap_t *cm)); int grf_use_colormap __P((view_t *v, colormap_t *cm)); /* modes */ view_t *grf_get_current_view __P((dmode_t *d)); monitor_t *grf_get_monitor __P((dmode_t *d)); /* monitors */ dmode_t * grf_get_next_mode __P((monitor_t *m, dmode_t *d)); dmode_t * grf_get_current_mode __P((monitor_t *)); dmode_t * grf_get_best_mode __P((monitor_t *m, dimen_t *size, u_char depth)); bmap_t * grf_alloc_bitmap __P((monitor_t *m, u_short w, u_short h, u_short d, u_short f)); void grf_free_bitmap __P((monitor_t *m, bmap_t *bm)); int grfcc_probe __P((void)); #endif /* _GRFABS_REG_H */