/*************************************************************************** gfx_system.h Copyright (C) 2000,01 Christoph Reichenbach This program may be modified and copied freely according to the terms of the GNU general public license (GPL), as long as the above copyright notice and the licensing information contained herein are preserved. Please refer to www.gnu.org for licensing details. This work is provided AS IS, without warranty of any kind, expressed or implied, including but not limited to the warranties of merchantibility, noninfringement, and fitness for a specific purpose. The author will not be held liable for any damage caused by this work or derivatives of it. By using this source code, you agree to the licensing terms as stated above. Please contact the maintainer for bug reports or inquiries. Current Maintainer: Christoph Reichenbach (CR) ***************************************************************************/ #ifndef _SCI_GFX_SYSTEM_ #define _SCI_GFX_SYSTEM_ #include "sci/include/sci_memory.h" #include "sci/include/resource.h" #include #include #include #define GFX_DEBUG /* General output macros */ #ifdef __GNUC__ # define GFXERROR gfxprintf("GFX Error: %s, %s() L%d:", __FILE__, __FUNCTION__, __LINE__); sciprintf # define GFXWARN gfxprintf("GFX Warning: %s, %s() L%d:", __FILE__, __FUNCTION__, __LINE__); sciprintf # ifdef GFX_DEBUG # define GFXDEBUG gfxprintf("GFX-debug: %s, %s() L%d:", __FILE__, __FUNCTION__, __LINE__); sciprintf # else /* !GFX_DEBUG */ # define GFXDEBUG if (0) printf # endif /* !GFX_DEBUG */ #else /* !__GNUC__ */ # define GFXERROR gfxprintf("GFX Error: %s, L%d:", __FILE__, __LINE__); sciprintf # define GFXWARN gfxprintf("GFX Warning: %s, L%d:", __FILE__, __LINE__); sciprintf # ifdef GFX_DEBUG # define GFXDEBUG gfxprintf("GFX-debug: %s, L%d:", __FILE__, __LINE__); sciprintf # else /* !GFX_DEBUG */ # define GFXDEBUG if (0) printf # endif /* !GFX_DEBUG */ #endif /* !__GNUC__ */ /***********************/ /*** Data structures ***/ /***********************/ #define GFX_COLOR_SYSTEM -1 typedef struct { /* gfx_palette_color_t: Palette color description */ int lockers; /* Number of pixmaps holding a lock on that color. ** 0 means that the color is unused, -1 means that it is ** "system allocated" and may not be freed. */ byte r,g,b; /* Red, green, blue; intensity varies from 0 (min) to 255 (max) */ } gfx_palette_color_t; typedef struct { /* gfx_palette_t: Palette description for color index modes */ int max_colors_nr; /* Maximum number of allocated colors */ gfx_palette_color_t *colors; /* Actual colors, malloc()d as a block */ } gfx_palette_t; #define GFX_MODE_IS_UNSCALED(mode) (((mode)->xfact == 1) && ((mode)->yfact == 1)) /* Reverse-endian: Target display has non-native endianness ** (BE if local is LE or the other way 'round */ #define GFX_MODE_FLAG_REVERSE_ENDIAN (1<<0) /* Reverse Alpha: Alpha values 0 mean "transparent" if this is ** enabled */ #define GFX_MODE_FLAG_REVERSE_ALPHA (1<<1) typedef struct { /* gfx_mode_t: Graphics mode description */ int xfact, yfact; /* Horizontal and vertical scaling factors */ int bytespp; /* Bytes per pixel */ unsigned int flags; /* GFX_MODE_FLAG_* Flags- see above */ gfx_palette_t *palette; /* Palette or NULL to indicate non-palette mode. ** Palette (color-index) mode is only supported ** for bytespp=1. */ /* Color masks */ unsigned int red_mask, green_mask, blue_mask, alpha_mask; short red_shift, green_shift, blue_shift, alpha_shift; /* Each of the mask/shift pairs describe where the corresponding color ** values are stored for the described mode. Internally, color ** calculations are done by using 32 bit values for r, g, b, a. After ** the internal values have been calculated, they are shifted RIGHT ** by the xxx_shift amount described above, then ANDed with the ** corresponding color mask; finally, all three results are ORred to- ** gether. The alpha values are used as appropriate; if alpha_mask is ** zero, then images use a special alpha map. */ } gfx_mode_t; #define GFX_COLOR_INDEX_UNMAPPED -1 typedef struct { /* gfx_pixmap_color_t: Pixmap-specific color entries */ int global_index; /* Global index color or GFX_COLOR_INDEX_UNMAPPED. */ guint8 r, g, b; /* Real color */ } gfx_pixmap_color_t; typedef struct { /* gfx_color_t: Full color */ gfx_pixmap_color_t visual; guint8 alpha; /* transparency = (1-opacity) */ byte priority, control; byte mask; /* see mask values below */ } gfx_color_t; typedef struct { /* rect_t: Rectangle description */ int x, y; int xl, yl; /* width, height: (x,y,xl,yl)=(5,5,1,1) occupies 1 pixel */ } rect_t; /* Generates a rect_t from index data ** Parameters: (int x int) x,y: Upper left point of the rectangle ** (int x int) xl, yl: Horizontal and vertical extension of the rectangle ** Returns : (rect_t) A rectangle matching the supplied parameters */ static inline rect_t gfx_rect(int x, int y, int xl, int yl) { rect_t rect; rect.x = x; rect.y = y; rect.xl = xl; rect.yl = yl; return rect; } #define GFX_PRINT_RECT(rect) (rect).x, (rect).y, (rect).xl, (rect).yl #define OVERLAP(a, b, z, zl) (a.z >= b.z && a.z < (b.z + b.zl)) /* Determines whether two rects overlap ** Parameters: (rect_t x rect_t) a,b: The two rect_ts to check for overlap ** Returns : (int) 1 if they overlap, 0 otherwise */ static inline int gfx_rects_overlap(rect_t a, rect_t b) { return (OVERLAP(a, b, x, xl) || OVERLAP(b, a, x, xl)) && (OVERLAP(a, b, y, yl) || OVERLAP(b, a, y, yl)); } #undef OVERLAP #define MERGE_PARTIAL(z, zl) \ if (a.z < b.z) SUBMERGE_PARTIAL(a, b, z, zl) \ else SUBMERGE_PARTIAL(b, a, z, zl) #define SUBMERGE_PARTIAL(a, b, z, zl) \ { \ retval.z = a.z; \ retval.zl = a.zl; \ if (b.z + b.zl > a.z + a.zl) \ retval.zl = (b.z + b.zl - a.z); \ } #define RECT(a) a.x, a.y, a.xl, a.yl /* Merges two rects ** Parameters: (rect_t x rect_t) a,b: The two rects to merge ** Returns : (rect_t) The smallest rect containing both a and b */ static inline rect_t gfx_rects_merge(rect_t a, rect_t b) { rect_t retval; MERGE_PARTIAL(x, xl); MERGE_PARTIAL(y, yl); return retval; } #undef MERGE_PARTIAL #undef SUBMERGE_PARTIAL /* Subset predicate for rectangles ** Parameters: (rect_t) a, b: The two rects to compare ** Returns : non-zero iff for each pixel p in a the following holds: p is in b. */ static inline int gfx_rect_subset(rect_t a, rect_t b) { return ((a.x >= b.x) && (a.y >= b.y) && ((a.x + a.xl) <= (b.x + b.xl)) && ((a.y + a.yl) <= (b.y + b.yl))); } /* Equality predicate for rects ** Parameters: (rect_t) a, b ** Returns : (int) gfx_rect_subset(a,b) AND gfx_rect_subset(b,a) */ static inline int gfx_rect_equals(rect_t a, rect_t b) { return (a.x == b.x && a.xl == b.xl && a.y == b.y && a.yl == b.yl); } /* gfx_rect_fullscreen is declared in gfx/gfx_tools.c */ extern rect_t gfx_rect_fullscreen; /*** points ***/ typedef struct { int x, y; } point_t; #define GFX_PRINT_POINT(p) (p).x, (p).y /* Generates a point_t from index data ** Parameters: (int x int) x,y: Indicated point ** Returns : (point_t) The resulting structure */ static inline point_t gfx_point(int x, int y) { point_t point; point.x = x; point.y = y; return point; } /* Translation operation for rects ** Parameters: (rect_t) rect: The rect to translate ** (point_t) offset: The offset to translate it by ** Returns : (rect_t) The translated rect */ static inline rect_t gfx_rect_translate(rect_t rect, point_t offset) { rect.x += offset.x; rect.y += offset.y; return rect; } #define GFX_RESID_NONE -1 #define GFX_PIC_COLORS 256 #define GFX_PIXMAP_FLAG_SCALED_INDEX (1<<0) /* Index data is scaled already */ #define GFX_PIXMAP_FLAG_EXTERNAL_PALETTE (1<<1) /* The colors pointer points to an external palette */ #define GFX_PIXMAP_FLAG_INSTALLED (1<<2) /* Pixmap has been registered */ #define GFX_PIXMAP_FLAG_PALETTE_ALLOCATED (1<<3) /* Palette has been allocated */ #define GFX_PIXMAP_FLAG_PALETTE_SET (1<<4) /* Palette has been propagated to the driver */ #define GFX_PIXMAP_FLAG_DONT_UNALLOCATE_PALETTE (1<<5) /* Used by text, which uses preallocated colors */ #define GFX_PIXMAP_FLAG_PALETTIZED (1<<6) /* Indicates a palettized view */ #define GFX_PIXMAP_COLOR_KEY_NONE -1 /* No transpacency colour key */ typedef struct { /* gfx_pixmap_t: Pixel map */ /*** Meta information ***/ int ID; /* Resource ID, or GFX_RESID_NONE for anonymous graphical data */ short loop, cel; /* loop and cel number for views */ /*** Color map ***/ int colors_nr; gfx_pixmap_color_t *colors; /* colors_nr color entries, or NULL if the ** default palette is to be used. ** A maximum of 255 colors is allowed; color ** index 0xff is reserved for transparency. ** As a special exception, 256 colors are ** allowed for background pictures (which do ** not use transparency) */ unsigned int flags; /*** Hot spot ***/ int xoffset, yoffset; /* x and y coordinates of the 'hot spot' (unscaled) */ /*** Index data ***/ int index_xl, index_yl; /* width and height of the indexed original image */ byte *index_data; /* Color-index data, or NULL if read from an ** external source */ /*** Drawable data ***/ int xl, yl; /* width and height of the actual image */ int data_size; /* Amount of allocated memory */ byte *data; /* Drawable data, or NULL if not converted. */ byte *alpha_map; /* Byte map with alpha values. It is used only if the ** graphics mode's alpha_mask is zero. */ int color_key; /*** Data reserved for gfx_driver use ***/ struct pixmap_internal { /* Internal state management data for use by drivers */ int handle; /* initialized to 0 */ void *info; /* initialized to NULL */ } internal; } gfx_pixmap_t; #define GFX_FONT_BUILTIN_5x8 -1 #define GFX_FONT_BUILTIN_6x10 -2 typedef struct { /* gfx_bitmap_font_t: Bitmap font information */ int ID; /* Unique resource ID */ int chars_nr; /* Numer of available characters */ int *widths; /* chars_nr character widths, in pixels */ int row_size; /* Byte size of each pixel row. For unscaled fonts, this is ** always 1, 2, or 4. Otherwise, it's a multiple of 4. */ int line_height; /* Height of each text line (usually identical to height) */ int height; /* Height for all characters, in pixel rows */ int char_size; /* Amount of memory occupied by one character in data */ byte *data; /* Font data, consisting of 'chars_nr' entries of 'height' rows ** of 'row_size' bytes. For each character ch, its first byte ** (the topmost row) is located at (data + (charsize * ch)), and ** its pixel width is widths[ch], provided that (ch < chars_nr). */ } gfx_bitmap_font_t; /***********************/ /*** Constant values ***/ /***********************/ /* Default palettes */ extern gfx_pixmap_color_t gfx_sci0_image_colors[][16]; extern gfx_pixmap_color_t gfx_sci0_pic_colors[256]; /* Return values */ enum gfx_return_value_t { GFX_OK = 0, /* Indicates "operation successful" */ GFX_ERROR = -1, /* Indicates "operation failed" */ GFX_FATAL = -2 /* Fatal error: Used by graphics drivers to indicate that they were unable to ** do anything useful */ }; typedef enum {/* Map masks */ GFX_MASK_NONE = 0, GFX_MASK_VISUAL = 1, GFX_MASK_PRIORITY = 2, GFX_MASK_CONTROL = 4 } gfx_map_mask_t; /* 'no priority' mode */ #define GFX_NO_PRIORITY -1 /* Text alignment values */ typedef enum { ALIGN_RIGHT = -1, ALIGN_TOP = -1, ALIGN_CENTER = 1, ALIGN_LEFT = 0, ALIGN_BOTTOM = 0 } gfx_alignment_t; typedef enum { GFX_LINE_MODE_CORRECT, /* Scaled separately */ GFX_LINE_MODE_FAST, /* Scaled by (xfact+yfact)/2 */ GFX_LINE_MODE_FINE /* Always drawn at width 1 */ } gfx_line_mode_t; typedef enum { GFX_BRUSH_MODE_SCALED, /* Just scale the brush pixels */ GFX_BRUSH_MODE_ELLIPSES, /* Replace pixels with ellipses */ GFX_BRUSH_MODE_RANDOM_ELLIPSES, /* Replace pixels with ellipses moved and re-scaled randomly */ GFX_BRUSH_MODE_MORERANDOM /* Distribute randomly */ } gfx_brush_mode_t; typedef enum { GFX_LINE_STYLE_NORMAL, GFX_LINE_STYLE_STIPPLED } gfx_line_style_t; typedef enum { GFX_SHADE_FLAT, /* Don't shade */ GFX_SHADE_VERTICALLY, /* Shade vertically */ GFX_SHADE_HORIZONTALLY /* Shade horizontally */ } gfx_rectangle_fill_t; typedef enum { GFX_COLOR_MODE_AUTO = 0, /* Auto-detect- handled by the gfxop library */ GFX_COLOR_MODE_INDEX = 1, /* Index mode */ GFX_COLOR_MODE_HIGH = 2, /* High color mode (15bpp or 16 bpp) */ GFX_COLOR_MODE_TRUE = 4 /* True color mode (24 bpp padded to 32 bpp) */ } gfx_color_mode_t; #endif /* !_SCI_GFX_SYSTEM_ */