/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $URL$ * $Id$ * */ #ifndef _SCI_GFX_SYSTEM_ #define _SCI_GFX_SYSTEM_ #include "common/scummsys.h" #include "common/rect.h" #include "sci/include/sci_memory.h" #include "sci/include/resource.h" namespace Sci { #define GFX_DEBUG /* General output macros */ # 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 */ /***********************/ /*** 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) */ signed char 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; /* Translation operation for rects ** Parameters: (rect_t) rect: The rect to translate ** (Common::Point) offset: The offset to translate it by ** Returns : (rect_t) The translated rect */ static inline rect_t gfx_rect_translate(rect_t rect, Common::Point 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; } // End of namespace Sci #endif /* !_SCI_GFX_SYSTEM_ */