/* 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. * * $URL$ * $Id$ * */ #include // for time() to seed rand() via srand() #include "sci/gfx/gfx_resource.h" #include "sci/gfx/gfx_tools.h" namespace Sci { #undef GFXR_DEBUG_PIC0 // Enable to debug pic0 messages #undef FILL_RECURSIVE_DEBUG // Enable for verbose fill debugging #define GFXR_PIC0_PALETTE_SIZE 40 #define GFXR_PIC0_NUM_PALETTES 4 #define INTERCOL(a, b) ((int) sqrt((((3.3 * (a))*(a)) + ((1.7 * (b))*(b))) / 5.0)) // Macro for color interpolation #define SCI0_MAX_PALETTE 2 int sci0_palette = 0; // Copied from include/kernel.h #define SCI0_PRIORITY_BAND_FIRST_14_ZONES(nr) ((((nr) == 0)? 0 : \ ((first) + (((nr)-1) * (last - first)) / 14))) // Default color maps gfx_pixmap_color_t gfx_sci0_image_colors[SCI0_MAX_PALETTE+1][GFX_SCI0_IMAGE_COLORS_NR] = { {{GFX_COLOR_SYSTEM, 0x00, 0x00, 0x00}, {GFX_COLOR_SYSTEM, 0x00, 0x00, 0xaa}, {GFX_COLOR_SYSTEM, 0x00, 0xaa, 0x00}, {GFX_COLOR_SYSTEM, 0x00, 0xaa, 0xaa}, {GFX_COLOR_SYSTEM, 0xaa, 0x00, 0x00}, {GFX_COLOR_SYSTEM, 0xaa, 0x00, 0xaa}, {GFX_COLOR_SYSTEM, 0xaa, 0x55, 0x00}, {GFX_COLOR_SYSTEM, 0xaa, 0xaa, 0xaa}, {GFX_COLOR_SYSTEM, 0x55, 0x55, 0x55}, {GFX_COLOR_SYSTEM, 0x55, 0x55, 0xff}, {GFX_COLOR_SYSTEM, 0x55, 0xff, 0x55}, {GFX_COLOR_SYSTEM, 0x55, 0xff, 0xff}, {GFX_COLOR_SYSTEM, 0xff, 0x55, 0x55}, {GFX_COLOR_SYSTEM, 0xff, 0x55, 0xff}, {GFX_COLOR_SYSTEM, 0xff, 0xff, 0x55}, {GFX_COLOR_SYSTEM, 0xff, 0xff, 0xff}}, // "Normal" EGA {{GFX_COLOR_SYSTEM, 0x00, 0x00, 0x00}, {GFX_COLOR_SYSTEM, 0x00, 0x00, 0xff}, {GFX_COLOR_SYSTEM, 0x00, 0xaa, 0x00}, {GFX_COLOR_SYSTEM, 0x00, 0xaa, 0xaa}, {GFX_COLOR_SYSTEM, 0xce, 0x00, 0x00}, {GFX_COLOR_SYSTEM, 0xbe, 0x71, 0xde}, {GFX_COLOR_SYSTEM, 0x8d, 0x50, 0x00}, {GFX_COLOR_SYSTEM, 0xbe, 0xbe, 0xbe}, {GFX_COLOR_SYSTEM, 0x55, 0x55, 0x55}, {GFX_COLOR_SYSTEM, 0x00, 0xbe, 0xff}, {GFX_COLOR_SYSTEM, 0x00, 0xce, 0x55}, {GFX_COLOR_SYSTEM, 0x55, 0xff, 0xff}, {GFX_COLOR_SYSTEM, 0xff, 0x9d, 0x8d}, {GFX_COLOR_SYSTEM, 0xff, 0x55, 0xff}, {GFX_COLOR_SYSTEM, 0xff, 0xff, 0x00}, {GFX_COLOR_SYSTEM, 0xff, 0xff, 0xff}}, // AGI Amiga-ish // RGB and I intensities (former taken from the GIMP) #define GR 30 #define GG 59 #define GB 11 #define GI 15 #define FULL (GR+GG+GB+GI) #define CC(x) (((x)*255)/FULL),(((x)*255)/FULL),(((x)*255)/FULL) // Combines color intensities {{GFX_COLOR_SYSTEM, CC(0) }, {GFX_COLOR_SYSTEM, CC(GB) }, {GFX_COLOR_SYSTEM, CC(GG) }, {GFX_COLOR_SYSTEM, CC(GB + GG) }, {GFX_COLOR_SYSTEM, CC(GR) }, {GFX_COLOR_SYSTEM, CC(GB + GR) }, {GFX_COLOR_SYSTEM, CC(GG + GR) }, {GFX_COLOR_SYSTEM, CC(GB + GG + GR) }, {GFX_COLOR_SYSTEM, CC(GI) }, {GFX_COLOR_SYSTEM, CC(GB + GI) }, {GFX_COLOR_SYSTEM, CC(GG + GI) }, {GFX_COLOR_SYSTEM, CC(GB + GG + GI) }, {GFX_COLOR_SYSTEM, CC(GR + GI) }, {GFX_COLOR_SYSTEM, CC(GB + GR + GI) }, {GFX_COLOR_SYSTEM, CC(GG + GR + GI) }, {GFX_COLOR_SYSTEM, CC(GB + GG + GR + GI) }} }; // Grayscale #undef GR #undef GG #undef GB #undef GI #undef FULL #undef C2 #undef C3 #undef C4 Palette* gfx_sci0_pic_colors = 0; // Initialized during initialization Palette* gfx_sci0_image_pal[SCI0_MAX_PALETTE+1]; Palette* embedded_view_pal = 0; #define SCI1_PALETTE_SIZE 1284 #ifdef FILL_RECURSIVE_DEBUG /************************************/ int fillc = 100000000; int fillmagc = 30000000; /************************************/ #endif // Color mapping used while scaling embedded views. static const gfx_pixmap_color_t embedded_view_colors[16] = { {0x00, 0, 0, 0}, {0x11, 0, 0, 0}, {0x22, 0, 0, 0}, {0x33, 0, 0, 0}, {0x44, 0, 0, 0}, {0x55, 0, 0, 0}, {0x66, 0, 0, 0}, {0x77, 0, 0, 0}, {0x88, 0, 0, 0}, {0x99, 0, 0, 0}, {0xaa, 0, 0, 0}, {0xbb, 0, 0, 0}, {0xcc, 0, 0, 0}, {0xdd, 0, 0, 0}, {0xee, 0, 0, 0}, {0xff, 0, 0, 0} }; void gfxr_init_static_palette() { if (!gfx_sci0_pic_colors) { gfx_sci0_pic_colors = new Palette(256); gfx_sci0_pic_colors->name = "gfx_sci0_pic_colors"; // TODO: Discover the exact purpose of gfx_sci0_pic_colors // For now, we set the first 16 colours to the standard EGA palette, // and fill the remaining entries with slight variations for (int i = 0; i < 16; i++) { gfx_sci0_pic_colors->setColor(i,gfx_sci0_image_colors[0][i].r, gfx_sci0_image_colors[0][i].g, gfx_sci0_image_colors[0][i].b); } for (int i = 16; i < 256; i++) { byte r = INTERCOL(gfx_sci0_image_colors[sci0_palette][i & 0xf].r, gfx_sci0_image_colors[sci0_palette][i >> 4].r); byte g = INTERCOL(gfx_sci0_image_colors[sci0_palette][i & 0xf].g, gfx_sci0_image_colors[sci0_palette][i >> 4].g); byte b = INTERCOL(gfx_sci0_image_colors[sci0_palette][i & 0xf].b, gfx_sci0_image_colors[sci0_palette][i >> 4].b); gfx_sci0_pic_colors->setColor(i,r,g,b); } //warning("Uncomment me after fixing sci0_palette changes to reset me"); //_gfxr_pic0_colors_initialized = 1; for (int i = 0; i <= SCI0_MAX_PALETTE; ++i) { gfx_sci0_image_pal[i] = new Palette(gfx_sci0_image_colors[i], GFX_SCI0_IMAGE_COLORS_NR); gfx_sci0_image_pal[i]->name = "gfx_sci0_image_pal[i]"; } embedded_view_pal = new Palette(embedded_view_colors, 16); embedded_view_pal->name = "embedded_view_pal"; } } gfxr_pic_t *gfxr_init_pic(gfx_mode_t *mode, int ID, bool sci1) { gfxr_pic_t *pic = (gfxr_pic_t*)malloc(sizeof(gfxr_pic_t)); pic->mode = mode; pic->control_map = gfx_pixmap_alloc_index_data(gfx_new_pixmap(320, 200, ID, 2, 0)); pic->priority_map = gfx_pixmap_alloc_index_data(gfx_new_pixmap(mode->xfact * 320, mode->yfact * 200, ID, 1, 0)); pic->visual_map = gfx_pixmap_alloc_index_data(gfx_new_pixmap(320 * mode->xfact, 200 * mode->yfact, ID, 0, 0)); // Initialize colors if (!sci1) { pic->ID = ID; gfxr_init_static_palette(); } pic->visual_map->palette = gfx_sci0_pic_colors->getref(); pic->visual_map->color_key = GFX_PIXMAP_COLOR_KEY_NONE; pic->visual_map->flags = 0; pic->priority_map->flags = 0; pic->control_map->flags = 0; if (mode->xfact > 1 || mode->yfact > 1) { pic->visual_map->flags |= GFX_PIXMAP_FLAG_SCALED_INDEX; pic->priority_map->flags |= GFX_PIXMAP_FLAG_SCALED_INDEX; } pic->priority_map->palette = gfx_sci0_image_pal[sci0_palette]->getref(); pic->control_map->palette = gfx_sci0_image_pal[sci0_palette]->getref(); pic->undithered_buffer_size = pic->visual_map->index_width * pic->visual_map->index_height; pic->undithered_buffer = NULL; pic->priorityTable = NULL; return pic; } // Pic rendering operations void gfxr_clear_pic0(gfxr_pic_t *pic, int titlebar_size) { memset(pic->visual_map->index_data, 0x00, (320 * pic->mode->xfact * titlebar_size * pic->mode->yfact)); memset(pic->visual_map->index_data + (320 * pic->mode->xfact * titlebar_size * pic->mode->yfact), 0xff, pic->mode->xfact * 320 * pic->mode->yfact * (200 - titlebar_size)); // white memset(pic->priority_map->index_data + (320 * pic->mode->xfact * titlebar_size * pic->mode->yfact), 0x0, pic->mode->xfact * 320 * pic->mode->yfact * (200 - titlebar_size)); memset(pic->priority_map->index_data, 0x0a, titlebar_size * (pic->mode->yfact * 320 * pic->mode->xfact)); memset(pic->control_map->index_data, 0, GFXR_AUX_MAP_SIZE); memset(pic->aux_map, 0, GFXR_AUX_MAP_SIZE); } //** Basic operations on the auxiliary buffer ** #define FRESH_PAINT 0x40 // freshly filled or near to something that is #define LINEMACRO(startx, starty, deltalinear, deltanonlinear, linearvar, nonlinearvar, \ linearend, nonlinearstart, linearmod, nonlinearmod, operation) \ x = (startx); y = (starty); \ incrNE = ((deltalinear) > 0)? (deltalinear) : -(deltalinear); \ incrNE <<= 1; \ deltanonlinear <<= 1; \ incrE = ((deltanonlinear) > 0) ? -(deltanonlinear) : (deltanonlinear); \ d = nonlinearstart-1; \ while (linearvar != (linearend)) { \ buffer[linewidth * y + x] operation color; \ /* color ^= color2; color2 ^= color; color ^= color2; */ /* Swap colors */ \ linearvar += linearmod; \ if ((d+=incrE) < 0) { \ d += incrNE; \ nonlinearvar += nonlinearmod; \ }; \ }; \ buffer[linewidth * y + x] operation color; static void _gfxr_auxbuf_line_draw(gfxr_pic_t *pic, rect_t line, int color, int color2, int titlebar_size) { int dx, dy, incrE, incrNE, d, finalx, finaly; int x = line.x; int y = line.y + titlebar_size; unsigned char *buffer = pic->aux_map; int linewidth = 320; dx = line.width; dy = line.height; finalx = x + dx; finaly = y + dy; dx = abs(dx); dy = abs(dy); if (dx > dy) { if (finalx < x) { if (finaly < y) { // llu == left-left-up LINEMACRO(x, y, dx, dy, x, y, finalx, dx, -1, -1, |=); } else { // lld LINEMACRO(x, y, dx, dy, x, y, finalx, dx, -1, 1, |=); } } else { // x1 >= x if (finaly < y) { // rru LINEMACRO(x, y, dx, dy, x, y, finalx, dx, 1, -1, |=); } else { // rrd LINEMACRO(x, y, dx, dy, x, y, finalx, dx, 1, 1, |=); } } } else { // dx <= dy if (finaly < y) { if (finalx < x) { // luu LINEMACRO(x, y, dy, dx, y, x, finaly, dy, -1, -1, |=); } else { // ruu LINEMACRO(x, y, dy, dx, y, x, finaly, dy, -1, 1, |=); } } else { // y1 >= y if (finalx < x) { // ldd LINEMACRO(x, y, dy, dx, y, x, finaly, dy, 1, -1, |=); } else { // rdd LINEMACRO(x, y, dy, dx, y, x, finaly, dy, 1, 1, |=); } } } } static void _gfxr_auxbuf_line_clear(gfxr_pic_t *pic, rect_t line, int color, int titlebar_size) { int dx, dy, incrE, incrNE, d, finalx, finaly; int x = line.x; int y = line.y + titlebar_size; unsigned char *buffer = pic->aux_map; int linewidth = 320; dx = line.width; dy = line.height; finalx = x + dx; finaly = y + dy; dx = abs(dx); dy = abs(dy); if (dx > dy) { if (finalx < x) { if (finaly < y) { // llu == left-left-up LINEMACRO(x, y, dx, dy, x, y, finalx, dx, -1, -1, &=); } else { // lld LINEMACRO(x, y, dx, dy, x, y, finalx, dx, -1, 1, &=); } } else { // x1 >= x if (finaly < y) { // rru LINEMACRO(x, y, dx, dy, x, y, finalx, dx, 1, -1, &=); } else { // rrd LINEMACRO(x, y, dx, dy, x, y, finalx, dx, 1, 1, &=); } } } else { // dx <= dy if (finaly < y) { if (finalx < x) { // luu LINEMACRO(x, y, dy, dx, y, x, finaly, dy, -1, -1, &=); } else { // ruu LINEMACRO(x, y, dy, dx, y, x, finaly, dy, -1, 1, &=); } } else { // y1 >= y if (finalx < x) { // ldd LINEMACRO(x, y, dy, dx, y, x, finaly, dy, 1, -1, &=); } else { // rdd LINEMACRO(x, y, dy, dx, y, x, finaly, dy, 1, 1, &=); } } } } #undef LINEMACRO #ifdef WITH_PIC_SCALING static void _gfxr_auxbuf_propagate_changes(gfxr_pic_t *pic, int bitmask) { // Propagates all filled bits into the planes described by bitmask unsigned long *data = (unsigned long *)pic->aux_map; unsigned long clearmask = 0x07070707; unsigned long andmask = (bitmask << 3) | (bitmask << (3 + 8)) | (bitmask << (3 + 16)) | (bitmask << (3 + 24)); if (sizeof(unsigned long) == 8) { // UltraSparc, Alpha, newer MIPSens, etc andmask |= (andmask << 32); clearmask |= (clearmask << 32); } for (int i = 0; i < GFXR_AUX_MAP_SIZE / sizeof(unsigned long); i++) { unsigned long temp = *data & andmask; temp >>= 3; *data = (temp | *data) & clearmask; ++data; } } #endif /*** Regular drawing operations ***/ #define PATTERN_FLAG_RECTANGLE 0x10 #define PATTERN_FLAG_USE_PATTERN 0x20 #define PIC_OP_FIRST 0xf0 enum { PIC_OP_SET_COLOR = 0xf0, PIC_OP_DISABLE_VISUAL = 0xf1, PIC_OP_SET_PRIORITY = 0xf2, PIC_OP_DISABLE_PRIORITY = 0xf3, PIC_OP_SHORT_PATTERNS = 0xf4, PIC_OP_MEDIUM_LINES = 0xf5, PIC_OP_LONG_LINES = 0xf6, PIC_OP_SHORT_LINES = 0xf7, PIC_OP_FILL = 0xf8, PIC_OP_SET_PATTERN = 0xf9, PIC_OP_ABSOLUTE_PATTERN = 0xfa, PIC_OP_SET_CONTROL = 0xfb, PIC_OP_DISABLE_CONTROL = 0xfc, PIC_OP_MEDIUM_PATTERNS = 0xfd, PIC_OP_OPX = 0xfe, PIC_OP_TERMINATE = 0xff }; enum { PIC_SCI0_OPX_SET_PALETTE_ENTRIES = 0, PIC_SCI0_OPX_SET_PALETTE = 1, PIC_SCI0_OPX_MONO0 = 2, PIC_SCI0_OPX_MONO1 = 3, PIC_SCI0_OPX_MONO2 = 4, PIC_SCI0_OPX_MONO3 = 5, PIC_SCI0_OPX_MONO4 = 6, PIC_SCI0_OPX_EMBEDDED_VIEW, PIC_SCI0_OPX_SET_PRIORITY_TABLE }; // We use this so we can keep OPX handling in one switch. // We simply add this constant to the op number if we're running an SCI1 game, // and offset the OPX constants below correspondingly. #define SCI1_OP_OFFSET 42 enum { PIC_SCI1_OPX_SET_PALETTE_ENTRIES = 0 + SCI1_OP_OFFSET, PIC_SCI1_OPX_EMBEDDED_VIEW = 1 + SCI1_OP_OFFSET, PIC_SCI1_OPX_SET_PALETTE = 2 + SCI1_OP_OFFSET, PIC_SCI1_OPX_PRIORITY_TABLE_EQDIST = 3 + SCI1_OP_OFFSET, PIC_SCI1_OPX_PRIORITY_TABLE_EXPLICIT = 4 + SCI1_OP_OFFSET }; #ifdef GFXR_DEBUG_PIC0 #define p0printf sciprintf #else void do_nothing(...) { } #define p0printf do_nothing #endif enum { ELLIPSE_SOLID, // Normal filled ellipse ELLIPSE_OR // color ORred to the buffer }; static void _gfxr_fill_ellipse(gfxr_pic_t *pic, byte *buffer, int linewidth, int x, int y, int rad_x, int rad_y, int color, int fillstyle) { int xx = 0, yy = rad_y; int i, x_i, y_i; int xr = 2 * rad_x * rad_x; int yr = 2 * rad_y * rad_y; x_i = 1; y_i = xr * rad_y - 1; i = y_i >> 1; while (yy >= 0) { int oldxx = xx; int oldyy = yy; if (i >= 0) { x_i += yr; i -= x_i + 1; ++xx; } if (i < 0) { y_i -= xr; i += y_i - 1; --yy; } if (oldyy != yy) { int j; int offset0 = (y - oldyy) * linewidth; int offset1 = (y + oldyy) * linewidth; offset0 += x - oldxx; offset1 += x - oldxx; if (oldyy == 0) offset1 = 0; // We never have to draw ellipses in the menu bar oldyy = yy; switch (fillstyle) { case ELLIPSE_SOLID: memset(buffer + offset0, color, (oldxx << 1) + 1); if (offset1) memset(buffer + offset1, color, (oldxx << 1) + 1); break; case ELLIPSE_OR: for (j = 0; j < (oldxx << 1) + 1; j++) { buffer[offset0 + j] |= color; if (offset1) buffer[offset1 + j] |= color; } break; default: warning(" to %s,%d", __FILE__, __LINE__); return; } } } } static void _gfxr_auxplot_brush(gfxr_pic_t *pic, byte *buffer, int yoffset, int offset, int plot, int color, gfx_brush_mode_t brush_mode, int randseed) { // yoffset 63680, offset 320, plot 1, color 34, brush_mode 0, randseed 432)*/ // Auxplot: Used by plot_aux_pattern to plot to visual and priority int xc, yc; int line_width = 320 * pic->mode->xfact; int full_offset = (yoffset * pic->mode->yfact + offset) * pic->mode->xfact; if (yoffset + offset >= 64000) { error("_gfxr_auxplot_brush() failed. Breakpoint in %s, line %d", __FILE__, __LINE__); } switch (brush_mode) { case GFX_BRUSH_MODE_SCALED: if (plot) for (yc = 0; yc < pic->mode->yfact; yc++) { memset(buffer + full_offset, color, pic->mode->xfact); full_offset += line_width; } break; case GFX_BRUSH_MODE_ELLIPSES: if (plot) { int x = offset * pic->mode->xfact + ((pic->mode->xfact - 1) >> 1); int y = (yoffset / 320) * pic->mode->yfact + ((pic->mode->yfact - 1) >> 1); _gfxr_fill_ellipse(pic, buffer, line_width, x, y, pic->mode->xfact >> 1, pic->mode->yfact >> 1, color, ELLIPSE_SOLID); } break; case GFX_BRUSH_MODE_RANDOM_ELLIPSES: if (plot) { int x = offset * pic->mode->xfact + ((pic->mode->xfact - 1) >> 1); int y = (yoffset / 320) * pic->mode->yfact + ((pic->mode->yfact - 1) >> 1); int sizex = pic->mode->xfact >> 1; int sizey = pic->mode->yfact >> 1; srand(randseed); x -= (int)((sizex * rand() * 1.0) / (RAND_MAX + 1.0)); x += (int)((sizex * rand() * 1.0) / (RAND_MAX + 1.0)); y -= (int)((sizey * rand() * 1.0) / (RAND_MAX + 1.0)); y += (int)((sizey * rand() * 1.0) / (RAND_MAX + 1.0)); sizex = (int)((sizex * rand() * 1.0) / (RAND_MAX + 1.0)); sizey = (int)((sizey * rand() * 1.0) / (RAND_MAX + 1.0)); _gfxr_fill_ellipse(pic, buffer, line_width, x, y, pic->mode->xfact >> 1, pic->mode->yfact >> 1, color, ELLIPSE_SOLID); srand(time(NULL)); // Make sure we don't accidently forget to re-init the random number generator } break; case GFX_BRUSH_MODE_MORERANDOM: { int mask = plot ? 7 : 1; srand(randseed); for (yc = 0; yc < pic->mode->yfact; yc++) { for (xc = 0; xc < pic->mode->xfact; xc++) if ((rand() & 7) < mask) buffer[full_offset + xc] = color; full_offset += line_width; } srand(time(NULL)); // Make sure we don't accidently forget to re-init the random number generator } break; } } #define PLOT_AUX_PATTERN_NO_RANDOM -1 static void _gfxr_plot_aux_pattern(gfxr_pic_t *pic, int x, int y, int size, int circle, int random, int mask, int color, int priority, int control, gfx_brush_mode_t brush_mode, int map_nr) { // Plots an appropriate pattern to the aux buffer and the control buffer, // if mask & GFX_MASK_CONTROL // random should be set to the random index, or -1 to disable // These circle offsets uniquely identify the circles used by Sierra: const int circle_data[][8] = { {0}, {1, 0}, {2, 2, 1}, {3, 3, 2, 1}, {4, 4, 4, 3, 1}, {5, 5, 4, 4, 3, 1}, {6, 6, 6, 5, 5, 4, 2}, {7, 7, 7, 6, 6, 5, 4, 2} }; // 'Random' fill patterns, provided by Carl Muckenhoupt: const byte random_data[32] = { 0x20, 0x94, 0x02, 0x24, 0x90, 0x82, 0xa4, 0xa2, 0x82, 0x09, 0x0a, 0x22, 0x12, 0x10, 0x42, 0x14, 0x91, 0x4a, 0x91, 0x11, 0x08, 0x12, 0x25, 0x10, 0x22, 0xa8, 0x14, 0x24, 0x00, 0x50, 0x24, 0x04 }; // 'Random' fill offsets, provided by Carl Muckenhoupt: const byte random_offset[128] = { 0x00, 0x18, 0x30, 0xc4, 0xdc, 0x65, 0xeb, 0x48, 0x60, 0xbd, 0x89, 0x05, 0x0a, 0xf4, 0x7d, 0x7d, 0x85, 0xb0, 0x8e, 0x95, 0x1f, 0x22, 0x0d, 0xdf, 0x2a, 0x78, 0xd5, 0x73, 0x1c, 0xb4, 0x40, 0xa1, 0xb9, 0x3c, 0xca, 0x58, 0x92, 0x34, 0xcc, 0xce, 0xd7, 0x42, 0x90, 0x0f, 0x8b, 0x7f, 0x32, 0xed, 0x5c, 0x9d, 0xc8, 0x99, 0xad, 0x4e, 0x56, 0xa6, 0xf7, 0x68, 0xb7, 0x25, 0x82, 0x37, 0x3a, 0x51, 0x69, 0x26, 0x38, 0x52, 0x9e, 0x9a, 0x4f, 0xa7, 0x43, 0x10, 0x80, 0xee, 0x3d, 0x59, 0x35, 0xcf, 0x79, 0x74, 0xb5, 0xa2, 0xb1, 0x96, 0x23, 0xe0, 0xbe, 0x05, 0xf5, 0x6e, 0x19, 0xc5, 0x66, 0x49, 0xf0, 0xd1, 0x54, 0xa9, 0x70, 0x4b, 0xa4, 0xe2, 0xe6, 0xe5, 0xab, 0xe4, 0xd2, 0xaa, 0x4c, 0xe3, 0x06, 0x6f, 0xc6, 0x4a, 0xa4, 0x75, 0x97, 0xe1 }; int offset = 0, width = 0; int yoffset = (y - size) * 320; int i; int random_index = 0; gfx_pixmap_t *map = NULL; switch (map_nr) { case GFX_MASK_VISUAL: map = pic->visual_map; break; case GFX_MASK_PRIORITY: map = pic->priority_map; break; default: map = pic->control_map; break; } if (random >= 0) random_index = random_offset[random]; if (!circle) { offset = -size; width = (size << 1) + 2; } for (i = -size; i <= size; i++) { int j; int height; if (circle) { offset = circle_data[size][abs(i)]; height = width = (offset << 1) + 1; offset = -offset; } else height = width - 1; if (random == PLOT_AUX_PATTERN_NO_RANDOM) { if (mask & map_nr) memset(map->index_data + yoffset + offset + x, control, width); if (map_nr == GFX_MASK_CONTROL) for (j = x; j < x + width; j++) pic->aux_map[yoffset + offset + j] |= mask; } else { // Semi-Random! for (j = 0; j < height; j++) { if (random_data[random_index >> 3] & (0x80 >> (random_index & 7))) { // The 'seemingly' random decision if (mask & GFX_MASK_CONTROL) pic->control_map->index_data[yoffset + x + offset + j] = control; pic->aux_map[yoffset + x + offset + j] |= mask; if (mask & GFX_MASK_VISUAL) _gfxr_auxplot_brush(pic, pic->visual_map->index_data, yoffset, x + offset + j, 1, color, brush_mode, random_index + x); if (mask & GFX_MASK_PRIORITY) _gfxr_auxplot_brush(pic, pic->priority_map->index_data, yoffset, x + offset + j, 1, priority, brush_mode, random_index + x); } else { if (mask & GFX_MASK_VISUAL) _gfxr_auxplot_brush(pic, pic->visual_map->index_data, yoffset, x + offset + j, 0, color, brush_mode, random_index + x); if (mask & GFX_MASK_PRIORITY) _gfxr_auxplot_brush(pic, pic->priority_map->index_data, yoffset, x + offset + j, 0, priority, brush_mode, random_index + x); } random_index = (random_index + 1) & 0xff; } } yoffset += 320; } } static void _gfxr_draw_pattern(gfxr_pic_t *pic, int x, int y, int color, int priority, int control, int drawenable, int pattern_code, int pattern_size, int pattern_nr, gfx_brush_mode_t brush_mode, int titlebar_size) { int xsize = (pattern_size + 1) * pic->mode->xfact - 1; int ysize = (pattern_size + 1) * pic->mode->yfact - 1; int scaled_x, scaled_y; rect_t boundaries; int max_x = (pattern_code & PATTERN_FLAG_RECTANGLE) ? 318 : 319; // Rectangles' width is size+1 p0printf(stderr, "Pattern at (%d,%d) size %d, rand=%d, code=%02x\n", x, y, pattern_size, pattern_nr, pattern_code); y += titlebar_size; if (x - pattern_size < 0) x = pattern_size; if (y - pattern_size < titlebar_size) y = titlebar_size + pattern_size; if (x + pattern_size > max_x) x = max_x - pattern_size; if (y + pattern_size > 199) y = 199 - pattern_size; scaled_x = x * pic->mode->xfact + ((pic->mode->xfact - 1) >> 1); scaled_y = y * pic->mode->yfact + ((pic->mode->yfact - 1) >> 1); if (scaled_x < xsize) scaled_x = xsize; if (scaled_y < ysize + titlebar_size * pic->mode->yfact) scaled_y = ysize + titlebar_size * pic->mode->yfact; if (scaled_x > (320 * pic->mode->xfact) - 1 - xsize) scaled_x = (320 * pic->mode->xfact) - 1 - xsize; if (scaled_y > (200 * pic->mode->yfact) - 1 - ysize) scaled_y = (200 * pic->mode->yfact) - 1 - ysize; if (pattern_code & PATTERN_FLAG_RECTANGLE) { // Rectangle boundaries.x = scaled_x - xsize; boundaries.y = scaled_y - ysize; boundaries.width = ((xsize + 1) << 1) + 1; boundaries.height = (ysize << 1) + 1; if (pattern_code & PATTERN_FLAG_USE_PATTERN) { _gfxr_plot_aux_pattern(pic, x, y, pattern_size, 0, pattern_nr, drawenable, color, priority, control, brush_mode, GFX_MASK_CONTROL); } else { _gfxr_plot_aux_pattern(pic, x, y, pattern_size, 0, PLOT_AUX_PATTERN_NO_RANDOM, drawenable, 0, 0, control, GFX_BRUSH_MODE_SCALED, GFX_MASK_CONTROL); if (drawenable & GFX_MASK_VISUAL) gfx_draw_box_pixmap_i(pic->visual_map, boundaries, color); if (drawenable & GFX_MASK_PRIORITY) gfx_draw_box_pixmap_i(pic->priority_map, boundaries, priority); } } else { // Circle if (pattern_code & PATTERN_FLAG_USE_PATTERN) { _gfxr_plot_aux_pattern(pic, x, y, pattern_size, 1, pattern_nr, drawenable, color, priority, control, brush_mode, GFX_MASK_CONTROL); } else { _gfxr_plot_aux_pattern(pic, x, y, pattern_size, 1, PLOT_AUX_PATTERN_NO_RANDOM, drawenable, 0, 0, control, GFX_BRUSH_MODE_SCALED, GFX_MASK_CONTROL); if (pic->mode->xfact == 1 && pic->mode->yfact == 1) { if (drawenable & GFX_MASK_VISUAL) _gfxr_plot_aux_pattern(pic, x, y, pattern_size, 1, PLOT_AUX_PATTERN_NO_RANDOM, drawenable, 0, 0, color, GFX_BRUSH_MODE_SCALED, GFX_MASK_VISUAL); if (drawenable & GFX_MASK_PRIORITY) _gfxr_plot_aux_pattern(pic, x, y, pattern_size, 1, PLOT_AUX_PATTERN_NO_RANDOM, drawenable, 0, 0, priority, GFX_BRUSH_MODE_SCALED, GFX_MASK_PRIORITY); } else { if (drawenable & GFX_MASK_VISUAL) _gfxr_fill_ellipse(pic, pic->visual_map->index_data, 320 * pic->mode->xfact, scaled_x, scaled_y, xsize, ysize, color, ELLIPSE_SOLID); if (drawenable & GFX_MASK_PRIORITY) _gfxr_fill_ellipse(pic, pic->priority_map->index_data, 320 * pic->mode->xfact, scaled_x, scaled_y, xsize, ysize, priority, ELLIPSE_SOLID); } } } } static void _gfxr_draw_subline(gfxr_pic_t *pic, int x, int y, int ex, int ey, int color, int priority, int drawenable) { Common::Point start; Common::Point end; start.x = x; start.y = y; end.x = ex; end.y = ey; if (ex >= pic->visual_map->index_width || ey >= pic->visual_map->index_height || x < 0 || y < 0) { warning("While drawing pic0: INVALID LINE %d,%d,%d,%d", start.x, start.y, end.x, end.y); return; } if (drawenable & GFX_MASK_VISUAL) gfx_draw_line_pixmap_i(pic->visual_map, start, end, color); if (drawenable & GFX_MASK_PRIORITY) gfx_draw_line_pixmap_i(pic->priority_map, start, end, priority); } static void _gfxr_draw_line(gfxr_pic_t *pic, int x, int y, int ex, int ey, int color, int priority, int control, int drawenable, int line_mode, int cmd, int titlebar_size) { int scale_x = pic->mode->xfact; int scale_y = pic->mode->yfact; int xc, yc; rect_t line; int mask; int partially_white = (drawenable & GFX_MASK_VISUAL) && (((color & 0xf0) == 0xf0) || ((color & 0x0f) == 0x0f)); line.x = x; line.y = y; line.width = ex - x; line.height = ey - y; if (x > 319 || y > 199 || x < 0 || y < 0 || ex > 319 || ey > 199 || ex < 0 || ey < 0) { warning("[GFX] While building pic: Attempt to draw line (%d,%d) to (%d,%d): cmd was %d", x, y, ex, ey, cmd); return; } y += titlebar_size; ey += titlebar_size; if (drawenable & GFX_MASK_CONTROL) { p0printf(" ctl:%x", control); gfx_draw_line_pixmap_i(pic->control_map, Common::Point(x, y), Common::Point(x + line.width, y + line.height), control); } // Calculate everything that is changed to SOLID mask = drawenable & (((color != 0xff) ? 1 : 0) | ((priority) ? 2 : 0) | ((control) ? 4 : 0)); if (mask) { int mask2 = mask; if (partially_white) mask2 = mask &= ~GFX_MASK_VISUAL; _gfxr_auxbuf_line_draw(pic, line, mask, mask2, titlebar_size); } // Calculate everything that is changed to TRANSPARENT mask = drawenable & (((color == 0xff) ? 1 : 0) | ((!priority) ? 2 : 0) | ((!control) ? 4 : 0)); if (mask) _gfxr_auxbuf_line_clear(pic, line, ~mask, titlebar_size); x *= scale_x; y *= scale_y; ex *= scale_x; ey *= scale_y; if (drawenable & GFX_MASK_VISUAL) p0printf(" col:%02x", color); if (drawenable & GFX_MASK_PRIORITY) p0printf(" pri:%x", priority); if (line_mode == GFX_LINE_MODE_FINE) { // Adjust lines to extend over the full visual x = (x * ((320 + 1) * scale_x - 1)) / (320 * scale_x); y = (y * ((200 + 1) * scale_y - 1)) / (200 * scale_y); ex = (ex * ((320 + 1) * scale_x - 1)) / (320 * scale_x); ey = (ey * ((200 + 1) * scale_y - 1)) / (200 * scale_y); _gfxr_draw_subline(pic, x, y, ex, ey, color, priority, drawenable); } else { if (x == ex && y == ey) { // Just one single point? rect_t drawrect; drawrect.x = x; drawrect.y = y; drawrect.width = scale_x; drawrect.height = scale_y; if (drawenable & GFX_MASK_VISUAL) gfx_draw_box_pixmap_i(pic->visual_map, drawrect, color); if (drawenable & GFX_MASK_PRIORITY) gfx_draw_box_pixmap_i(pic->priority_map, drawrect, priority); } else { int width = scale_x; int height = scale_y; int x_offset = 0; int y_offset = 0; if (line_mode == GFX_LINE_MODE_FAST) { width = (width + 1) >> 1; height = (height + 1) >> 1; x_offset = (width >> 1); y_offset = (height >> 1); } for (xc = 0; xc < width; xc++) _gfxr_draw_subline(pic, x + xc + x_offset, y + y_offset, ex + xc + x_offset, ey + y_offset, color, priority, drawenable); if (height > 0) for (xc = 0; xc < width; xc++) _gfxr_draw_subline(pic, x + xc + x_offset, y + height - 1 + y_offset, ex + xc + x_offset, ey + height - 1 + y_offset, color, priority, drawenable); if (height > 1) { for (yc = 1; yc < height - 1; yc++) _gfxr_draw_subline(pic, x + x_offset, y + yc + y_offset, ex + x_offset, ey + yc + y_offset, color, priority, drawenable); if (width > 0) for (yc = 1; yc < height - 1; yc++) _gfxr_draw_subline(pic, x + width - 1 + x_offset, y + yc + y_offset, ex + width - 1 + x_offset, ey + yc + y_offset, color, priority, drawenable); } } } p0printf("\n"); } #define IS_FILL_BOUNDARY(x) (((x) & legalmask) != legalcolor) #ifdef WITH_PIC_SCALING #define TEST_POINT(xx, yy) \ if (pic->aux_map[(yy) * 320 + (xx)] & FRESH_PAINT) { \ mpos = (((yy) * 320 * pic->mode->yfact) + (xx)) * pic->mode->xfact; \ for (iy = 0; iy < pic->mode->yfact; iy++) { \ for (ix = 0; ix < pic->mode->xfact; ix++) { \ if (!IS_FILL_BOUNDARY(test_map[mpos + ix])) { \ *x = ix + (xx) * pic->mode->xfact; \ *y = iy + (yy) * pic->mode->yfact; \ return 0; \ } \ mpos += linewidth; \ } \ } \ } static int _gfxr_find_fill_point(gfxr_pic_t *pic, int min_x, int min_y, int max_x, int max_y, int x_320, int y_200, int color, int drawenable, int *x, int *y) { // returns -1 on failure, 0 on success int linewidth = pic->mode->xfact * 320; int mpos, ix, iy; int size_x = (max_x - min_x + 1) >> 1; int size_y = (max_y - min_y + 1) >> 1; int mid_x = min_x + size_x; int mid_y = min_y + size_y; int max_size = (size_x > size_y) ? size_x : size_y; int size; int legalcolor; int legalmask; byte *test_map; *x = x_320 * pic->mode->xfact; *y = y_200 * pic->mode->yfact; if (size_x < 0 || size_y < 0) return 0; if (drawenable & GFX_MASK_VISUAL) { test_map = pic->visual_map->index_data; if ((color & 0xf) == 0xf // When dithering with white, do more // conservative checks || (color & 0xf0) == 0xf0) legalcolor = 0xff; else legalcolor = 0xf0; // Only check the second color legalmask = legalcolor; } else if (drawenable & GFX_MASK_PRIORITY) { test_map = pic->priority_map->index_data; legalcolor = 0; legalmask = 0xf; } else return -3; TEST_POINT(x_320, y_200); // Most likely candidate TEST_POINT(mid_x, mid_y); // Second most likely candidate for (size = 1; size <= max_size; size++) { int i; if (size <= size_y) { int limited_size = (size > size_x) ? size_x : size; for (i = mid_x - limited_size; i <= mid_x + limited_size; i++) { TEST_POINT(i, mid_y - size); TEST_POINT(i, mid_y + size); } } if (size <= size_x) { int limited_size = (size - 1 > size_y) ? size_y : size - 1; for (i = mid_y - limited_size; i <= mid_y + limited_size; i++) { TEST_POINT(mid_x - size, i); TEST_POINT(mid_x + size, i); } } } return -1; } #undef TEST_POINT } // End of namespace Sci // Now include the actual filling code (with scaling support) #define FILL_FUNCTION _gfxr_fill_any #define FILL_FUNCTION_RECURSIVE _gfxr_fill_any_recursive #define AUXBUF_FILL_HELPER _gfxr_auxbuf_fill_any_recursive #define AUXBUF_FILL _gfxr_auxbuf_fill_any #define DRAW_SCALED # include "picfill.cpp" #undef DRAW_SCALED #undef AUXBUF_FILL #undef AUXBUF_FILL_HELPER #undef FILL_FUNCTION_RECURSIVE #undef FILL_FUNCTION namespace Sci { #endif // defined(WITH_PIC_SCALING) } // End of namespace Sci // Include again, but this time without support for scaling #define FILL_FUNCTION _gfxr_fill_1 #define FILL_FUNCTION_RECURSIVE _gfxr_fill_1_recursive #define AUXBUF_FILL_HELPER _gfxr_auxbuf_fill_1_recursive #define AUXBUF_FILL _gfxr_auxbuf_fill_1 # include "picfill.cpp" #undef AUXBUF_FILL #undef AUXBUF_FILL_HELPER #undef FILL_FUNCTION_RECURSIVE #undef FILL_FUNCTION namespace Sci { #define GET_ABS_COORDS(x, y) \ temp = *(resource + pos++); \ x = *(resource + pos++); \ y = *(resource + pos++); \ x |= (temp & 0xf0) << 4; \ y |= (temp & 0x0f) << 8; \ if (flags & DRAWPIC1_FLAG_MIRRORED) \ x = 319 - x; #define GET_REL_COORDS(x, y) \ temp = *(resource + pos++); \ if (temp & 0x80) \ x -= ((temp >> 4) & 0x7) * (flags & DRAWPIC1_FLAG_MIRRORED ? -1 : 1); \ else \ x += (temp >> 4) * (flags & DRAWPIC1_FLAG_MIRRORED ? -1 : 1); \ \ if (temp & 0x08) \ y -= (temp & 0x7); \ else \ y += (temp & 0x7); #define GET_MEDREL_COORDS(oldx, oldy) \ temp = *(resource + pos++); \ if (temp & 0x80) \ y = oldy - (temp & 0x7f); \ else \ y = oldy + temp; \ x = oldx + *((signed char *) resource + pos++) * (flags & DRAWPIC1_FLAG_MIRRORED ? -1 : 1); static void check_and_remove_artifact(byte *dest, byte* srcp, int legalcolor, byte l, byte r, byte u, byte d) { if (*dest == legalcolor) { if (*srcp == legalcolor) return; if (l) { if (srcp[-1] == legalcolor) return; if (u && srcp[-320 - 1] == legalcolor) return; if (d && srcp[320 - 1] == legalcolor) return; } if (r) { if (srcp[1] == legalcolor) return; if (u && srcp[-320 + 1] == legalcolor) return; if (d && srcp[320 + 1] == legalcolor) return; } if (u && srcp[-320] == legalcolor) return; if (d && srcp[-320] == legalcolor) return; *dest = *srcp; } } void gfxr_remove_artifacts_pic0(gfxr_pic_t *dest, gfxr_pic_t *src) { int x_320, y_200; int bound_x = dest->mode->xfact; int bound_y = dest->mode->yfact; int scaled_line_size = bound_x * 320; int read_offset = 0; assert(src->mode->xfact == 1); assert(src->mode->yfact == 1); if (bound_x == 1 && bound_y == 1) { warning("[GFX] attempt to remove artifacts from unscaled pic"); return; } for (y_200 = 0; y_200 < 200; y_200++) { for (x_320 = 0; x_320 < 320; x_320++) { int write_offset = (y_200 * bound_y * scaled_line_size) + (x_320 * bound_x); int sub_x, sub_y; byte *src_visualp = &(src->visual_map->index_data[read_offset]); byte *src_priorityp = &(src->priority_map->index_data[read_offset]); for (sub_y = 0; sub_y < bound_y; sub_y++) { for (sub_x = 0; sub_x < bound_x; sub_x++) { check_and_remove_artifact(dest->visual_map->index_data + write_offset, src_visualp, (int)0xff, (byte)x_320, (byte)(x_320 < 319), (byte)(y_200 > 10), (byte)(y_200 < 199)); check_and_remove_artifact(dest->priority_map->index_data + write_offset, src_priorityp, 0, (byte)x_320, (byte)(x_320 < 319), (byte)(y_200 > 10), (byte)(y_200 < 199)); ++write_offset; } write_offset += scaled_line_size - bound_x; } ++read_offset; } } } static void view_transparentize(gfx_pixmap_t *view, gfx_pixmap_t *background, int posx, int posy, int width, int height) { int i, j; byte *pic_index_data = background->index_data; // FIXME: this assumes view and background have the same palette... // We may want to do a reverse mapping or similar to make it general, // but this (hopefully...) suffices for the current uses of this function. for (i = 0;i < width;i++) for (j = 0;j < height;j++) { if (view->index_data[j*width+i] == view->color_key) { view->index_data[j*width+i] = pic_index_data[(j+posy)*width+i+posx]; } } } extern gfx_pixmap_t *gfxr_draw_cel0(int id, int loop, int cel, byte *resource, int size, gfxr_view_t *view, int mirrored); extern void _gfx_crossblit_simple(byte *dest, byte *src, int dest_line_width, int src_line_width, int xl, int yl, int bpp); void gfxr_draw_pic01(gfxr_pic_t *pic, int flags, int default_palette, int size, byte *resource, gfxr_pic0_params_t *style, int resid, int sci1, Palette *static_pal, Common::Rect portBounds) { const int default_palette_table[GFXR_PIC0_PALETTE_SIZE] = { 0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0x99, 0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0x88, 0x88, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x88, 0x88, 0xf9, 0xfa, 0xfb, 0xfc, 0xfd, 0xfe, 0xff, 0x08, 0x91, 0x2a, 0x3b, 0x4c, 0x5d, 0x6e, 0x88 }; const int default_priority_table[GFXR_PIC0_PALETTE_SIZE] = { 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07 }; int palette[GFXR_PIC0_NUM_PALETTES][GFXR_PIC0_PALETTE_SIZE]; int priority_table[GFXR_PIC0_PALETTE_SIZE]; int drawenable = GFX_MASK_VISUAL | GFX_MASK_PRIORITY; int priority = 0; int color = 0; int pattern_nr = 0; int pattern_code = 0; int pattern_size = 0; int control = 0; int pos = 0; int x, y; int oldx, oldy; int pal = 0, index = 0; int temp; int line_mode = style->line_mode; int titlebar_size = portBounds.top; byte op, opx; #ifdef FILL_RECURSIVE_DEBUG fillmagc = atoi(getenv("FOO")); fillc = atoi(getenv("FOO2")); #endif // Initialize palette for (int i = 0; i < GFXR_PIC0_NUM_PALETTES; i++) memcpy(palette[i], default_palette_table, sizeof(int) * GFXR_PIC0_PALETTE_SIZE); memcpy(priority_table, default_priority_table, sizeof(int) * GFXR_PIC0_PALETTE_SIZE); // Main loop while (pos < size) { op = *(resource + pos++); switch (op) { case PIC_OP_SET_COLOR: p0printf("Set color @%d\n", pos); if (!sci1) { pal = *(resource + pos++); index = pal % GFXR_PIC0_PALETTE_SIZE; pal /= GFXR_PIC0_PALETTE_SIZE; pal += default_palette; if (pal >= GFXR_PIC0_NUM_PALETTES) { GFXERROR("Attempt to access invalid palette %d\n", pal); return; } color = palette[pal][index]; } else color = *(resource + pos++); p0printf(" color <- %02x [%d/%d]\n", color, pal, index); drawenable |= GFX_MASK_VISUAL; goto end_op_loop; case PIC_OP_DISABLE_VISUAL: p0printf("Disable visual @%d\n", pos); drawenable &= ~GFX_MASK_VISUAL; goto end_op_loop; case PIC_OP_SET_PRIORITY: p0printf("Set priority @%d\n", pos); if (!sci1) { pal = *(resource + pos++); index = pal % GFXR_PIC0_PALETTE_SIZE; pal /= GFXR_PIC0_PALETTE_SIZE; // Ignore pal priority = priority_table[index]; } else priority = *(resource + pos++); p0printf(" priority <- %d [%d/%d]\n", priority, pal, index); drawenable |= GFX_MASK_PRIORITY; goto end_op_loop; case PIC_OP_DISABLE_PRIORITY: p0printf("Disable priority @%d\n", pos); drawenable &= ~GFX_MASK_PRIORITY; goto end_op_loop; case PIC_OP_SHORT_PATTERNS: p0printf("Short patterns @%d\n", pos); if (pattern_code & PATTERN_FLAG_USE_PATTERN) { pattern_nr = ((*(resource + pos++)) >> 1) & 0x7f; p0printf(" pattern_nr <- %d\n", pattern_nr); } GET_ABS_COORDS(x, y); _gfxr_draw_pattern(pic, x, y, color, priority, control, drawenable, pattern_code, pattern_size, pattern_nr, style->brush_mode, titlebar_size); while (*(resource + pos) < PIC_OP_FIRST) { if (pattern_code & PATTERN_FLAG_USE_PATTERN) { pattern_nr = ((*(resource + pos++)) >> 1) & 0x7f; p0printf(" pattern_nr <- %d\n", pattern_nr); } GET_REL_COORDS(x, y); _gfxr_draw_pattern(pic, x, y, color, priority, control, drawenable, pattern_code, pattern_size, pattern_nr, style->brush_mode, titlebar_size); } goto end_op_loop; case PIC_OP_MEDIUM_LINES: p0printf("Medium lines @%d\n", pos); GET_ABS_COORDS(oldx, oldy); while (*(resource + pos) < PIC_OP_FIRST) { #if 0 fprintf(stderr, "Medium-line: [%04x] from %d,%d, data %02x %02x (dx=%d)", pos, oldx, oldy, 0xff & resource[pos], 0xff & resource[pos+1], *((signed char *) resource + pos + 1)); #endif GET_MEDREL_COORDS(oldx, oldy); #if 0 fprintf(stderr, " to %d,%d\n", x, y); #endif _gfxr_draw_line(pic, oldx, oldy, x, y, color, priority, control, drawenable, line_mode, PIC_OP_MEDIUM_LINES, titlebar_size); oldx = x; oldy = y; } goto end_op_loop; case PIC_OP_LONG_LINES: p0printf("Long lines @%d\n", pos); GET_ABS_COORDS(oldx, oldy); while (*(resource + pos) < PIC_OP_FIRST) { GET_ABS_COORDS(x, y); _gfxr_draw_line(pic, oldx, oldy, x, y, color, priority, control, drawenable, line_mode, PIC_OP_LONG_LINES, titlebar_size); oldx = x; oldy = y; } goto end_op_loop; case PIC_OP_SHORT_LINES: p0printf("Short lines @%d\n", pos); GET_ABS_COORDS(oldx, oldy); x = oldx; y = oldy; while (*(resource + pos) < PIC_OP_FIRST) { GET_REL_COORDS(x, y); _gfxr_draw_line(pic, oldx, oldy, x, y, color, priority, control, drawenable, line_mode, PIC_OP_SHORT_LINES, titlebar_size); oldx = x; oldy = y; } goto end_op_loop; case PIC_OP_FILL: p0printf("Fill @%d\n", pos); while (*(resource + pos) < PIC_OP_FIRST) { //fprintf(stderr,"####################\n"); GET_ABS_COORDS(x, y); p0printf("Abs coords %d,%d\n", x, y); //fprintf(stderr,"C=(%d,%d)\n", x, y + titlebar_size); #ifdef WITH_PIC_SCALING if (pic->mode->xfact > 1 || pic->mode->yfact > 1) _gfxr_fill_any(pic, x, y + titlebar_size, (flags & DRAWPIC01_FLAG_FILL_NORMALLY) ? color : 0, priority, control, drawenable, titlebar_size); else #endif _gfxr_fill_1(pic, x, y + titlebar_size, (flags & DRAWPIC01_FLAG_FILL_NORMALLY) ? color : 0, priority, control, drawenable, titlebar_size); #ifdef FILL_RECURSIVE_DEBUG if (!fillmagc) { int x, y; if (getenv("FOO1")) for (x = 0; x < 320; x++) for (y = 0; y < 200; y++) { int aux = pic->aux_map[x + y*320]; int pix = (aux & 0xf); int i; if (aux & 0x40) { if (x == 0 || !(pic->aux_map[x-1 + y * 320] & 0x40)) for (i = 0; i < pic->mode->yfact; i++) pic->visual_map->index_data[(x + ((y*pic->mode->yfact)+i)*320) * pic->mode->xfact] ^= 0xff; if (x == 319 || !(pic->aux_map[x+1 + y * 320] & 0x40)) for (i = 0; i < pic->mode->yfact; i++) pic->visual_map->index_data[pic->mode->xfact - 1 +(x + ((y*pic->mode->yfact)+i)*320) * pic->mode->xfact] ^= 0xff; if (y == 0 || !(pic->aux_map[x + (y-1) * 320] & 0x40)) for (i = 0; i < pic->mode->yfact; i++) pic->visual_map->index_data[i+(x + ((y*pic->mode->yfact))*320) * pic->mode->xfact] ^= 0xff; if (y == 199 || !(pic->aux_map[x + (y+1) * 320] & 0x40)) for (i = 0; i < pic->mode->yfact; i++) pic->visual_map->index_data[i+(x + ((y*pic->mode->yfact)+pic->mode->yfact - 1)*320) * pic->mode->xfact] ^= 0xff; } pix |= (aux & 0x40) >> 4; pix |= (pix << 4); pic->visual_map->index_data[x + y*320*pic->mode->xfact] = pix; } return; } --fillmagc; #endif // GFXR_DEBUG_PIC0 } goto end_op_loop; case PIC_OP_SET_PATTERN: p0printf("Set pattern @%d\n", pos); pattern_code = (*(resource + pos++)); pattern_size = pattern_code & 0x07; goto end_op_loop; case PIC_OP_ABSOLUTE_PATTERN: p0printf("Absolute pattern @%d\n", pos); while (*(resource + pos) < PIC_OP_FIRST) { if (pattern_code & PATTERN_FLAG_USE_PATTERN) { pattern_nr = ((*(resource + pos++)) >> 1) & 0x7f; p0printf(" pattern_nr <- %d\n", pattern_nr); } GET_ABS_COORDS(x, y); _gfxr_draw_pattern(pic, x, y, color, priority, control, drawenable, pattern_code, pattern_size, pattern_nr, style->brush_mode, titlebar_size); } goto end_op_loop; case PIC_OP_SET_CONTROL: p0printf("Set control @%d\n", pos); control = (*(resource + pos++)) & 0xf; drawenable |= GFX_MASK_CONTROL; goto end_op_loop; case PIC_OP_DISABLE_CONTROL: p0printf("Disable control @%d\n", pos); drawenable &= ~GFX_MASK_CONTROL; goto end_op_loop; case PIC_OP_MEDIUM_PATTERNS: p0printf("Medium patterns @%d\n", pos); if (pattern_code & PATTERN_FLAG_USE_PATTERN) { pattern_nr = ((*(resource + pos++)) >> 1) & 0x7f; p0printf(" pattern_nr <- %d\n", pattern_nr); } GET_ABS_COORDS(oldx, oldy); _gfxr_draw_pattern(pic, oldx, oldy, color, priority, control, drawenable, pattern_code, pattern_size, pattern_nr, style->brush_mode, titlebar_size); x = oldx; y = oldy; while (*(resource + pos) < PIC_OP_FIRST) { if (pattern_code & PATTERN_FLAG_USE_PATTERN) { pattern_nr = ((*(resource + pos++)) >> 1) & 0x7f; p0printf(" pattern_nr <- %d\n", pattern_nr); } GET_MEDREL_COORDS(x, y); _gfxr_draw_pattern(pic, x, y, color, priority, control, drawenable, pattern_code, pattern_size, pattern_nr, style->brush_mode, titlebar_size); } goto end_op_loop; case PIC_OP_OPX: opx = *(resource + pos++); p0printf("OPX: "); if (sci1) opx += SCI1_OP_OFFSET; // See comment at the definition of SCI1_OP_OFFSET. switch (opx) { case PIC_SCI1_OPX_SET_PALETTE_ENTRIES: warning("[GFX] SCI1 Set palette entried not implemented"); goto end_op_loop; case PIC_SCI0_OPX_SET_PALETTE_ENTRIES: p0printf("Set palette entry @%d\n", pos); while (*(resource + pos) < PIC_OP_FIRST) { index = *(resource + pos++); pal = index / GFXR_PIC0_PALETTE_SIZE; index %= GFXR_PIC0_PALETTE_SIZE; if (pal >= GFXR_PIC0_NUM_PALETTES) { GFXERROR("Attempt to write to invalid palette %d\n", pal); return; } palette[pal][index] = *(resource + pos++); } goto end_op_loop; case PIC_SCI0_OPX_SET_PALETTE: p0printf("Set palette @%d\n", pos); pal = *(resource + pos++); if (pal >= GFXR_PIC0_NUM_PALETTES) { GFXERROR("Attempt to write to invalid palette %d\n", pal); return; } p0printf(" palette[%d] <- (", pal); for (index = 0; index < GFXR_PIC0_PALETTE_SIZE; index++) { palette[pal][index] = *(resource + pos++); if (index > 0) p0printf(","); if (!(index & 0x7)) p0printf("[%d]=", index); p0printf("%02x", palette[pal][index]); } p0printf(")\n"); goto end_op_loop; case PIC_SCI1_OPX_SET_PALETTE: p0printf("Set palette @%d\n", pos); if (pic->visual_map->palette) pic->visual_map->palette->free(); pic->visual_map->palette = gfxr_read_pal1(resid, resource + pos, SCI1_PALETTE_SIZE); pos += SCI1_PALETTE_SIZE; goto end_op_loop; case PIC_SCI0_OPX_MONO0: p0printf("Monochrome opx 0 @%d\n", pos); pos += 41; goto end_op_loop; case PIC_SCI0_OPX_MONO1: case PIC_SCI0_OPX_MONO3: ++pos; p0printf("Monochrome opx %d @%d\n", opx, pos); goto end_op_loop; case PIC_SCI0_OPX_MONO2: case PIC_SCI0_OPX_MONO4: // Monochrome ops: Ignored by us p0printf("Monochrome opx %d @%d\n", opx, pos); goto end_op_loop; case PIC_SCI0_OPX_EMBEDDED_VIEW: case PIC_SCI1_OPX_EMBEDDED_VIEW: { int posx, posy; int bytesize; //byte *vismap = pic->visual_map->index_data; int nodraw = 0; gfx_pixmap_t *view; p0printf("Embedded view @%d\n", pos); GET_ABS_COORDS(posx, posy); bytesize = (*(resource + pos)) + (*(resource + pos + 1) << 8); p0printf("(%d, %d)\n", posx, posy); pos += 2; if (!sci1 && !nodraw) view = gfxr_draw_cel0(-1, -1, -1, resource + pos, bytesize, NULL, flags & DRAWPIC1_FLAG_MIRRORED); else view = gfxr_draw_cel1(-1, -1, -1, flags & DRAWPIC1_FLAG_MIRRORED, resource + pos, resource + pos, bytesize, NULL, (static_pal && static_pal->size() == GFX_SCI1_AMIGA_COLORS_NR), false); pos += bytesize; if (nodraw) continue; if (flags & DRAWPIC1_FLAG_MIRRORED) posx -= view->index_width - 1; p0printf("(%d, %d)-(%d, %d)\n", posx, posy, posx + view->index_width, posy + view->index_height); // we can only safely replace the palette if it's static // *if it's not for some reason, we should die if (view->palette && view->palette->isShared() && !sci1) { sciprintf("gfx_draw_pic0(): can't set a non-static palette for an embedded view!\n"); } // For SCI0, use special color mapping to copy the low // nibble of the color index to the high nibble. if (sci1) { if (static_pal && static_pal->size() == GFX_SCI1_AMIGA_COLORS_NR) { // Assume Amiga game pic->visual_map->palette = static_pal->getref(); } if (view->palette) view->palette->free(); view->palette = pic->visual_map->palette->copy(); } else view->palette = embedded_view_pal->getref(); // Clip the view's height to fit within the screen buffer // It can go off screen at some cases, e.g. in KQ6's intro view->index_height = CLIP(view->index_height, 0, portBounds.height()); // Set up mode structure for resizing the view Graphics::PixelFormat format = { 1, 0, 0, 0, 0, 0, 0, 0, 0 }; // 1byte/p, which handles masks and the rest for us gfx_mode_t *mode = gfx_new_mode(pic->visual_map->index_width / 320, pic->visual_map->index_height / 200, format, view->palette, 0); gfx_xlate_pixmap(view, mode, GFX_XLATE_FILTER_NONE); gfx_free_mode(mode); // When the mode is freed, the associated view // palette is freed too, so set it to NULL view->palette = NULL; if (flags & DRAWPIC01_FLAG_OVERLAID_PIC) view_transparentize(view, pic->visual_map, posx, titlebar_size + posy, view->index_width, view->index_height); _gfx_crossblit_simple(pic->visual_map->index_data + (titlebar_size * 320) + posy * 320 + posx, view->index_data, pic->visual_map->index_width, view->index_width, view->index_width, view->index_height, 1); gfx_free_pixmap(view); view = NULL; } goto end_op_loop; case PIC_SCI0_OPX_SET_PRIORITY_TABLE: case PIC_SCI1_OPX_PRIORITY_TABLE_EXPLICIT: { int *pri_table; p0printf("Explicit priority table @%d\n", pos); if (!pic->priorityTable) { pic->priorityTable = (int*)malloc(16 * sizeof(int)); } else { // This occurs in the title screen of Longbow, perhaps with the animated Robin sprite warning("[GFX] pic->priorityTable is not NULL (%p); this only occurs with overlaid pics, otherwise it's a bug", (void *)pic->priorityTable); } pri_table = pic->priorityTable; pri_table[0] = 0; pri_table[15] = 190; for (int i = 1; i < 15; i++) pri_table[i] = resource[pos++]; } goto end_op_loop; case PIC_SCI1_OPX_PRIORITY_TABLE_EQDIST: { int first = (int16)READ_LE_UINT16(resource + pos); int last = (int16)READ_LE_UINT16(resource + pos + 2); int nr; int *pri_table; if (!pic->priorityTable) { pic->priorityTable = (int*)malloc(16 * sizeof(int)); } else { GFXERROR("pic->priorityTable is not NULL (%p); possible memory corruption", (void *)pic->priorityTable); } pri_table = pic->priorityTable; for (nr = 0; nr < 16; nr ++) pri_table[nr] = SCI0_PRIORITY_BAND_FIRST_14_ZONES(nr); pos += 4; goto end_op_loop; } default: sciprintf("%s L%d: Warning: Unknown opx %02x\n", __FILE__, __LINE__, opx); return; } goto end_op_loop; case PIC_OP_TERMINATE: p0printf("Terminator\n"); //warning( "ARTIFACT REMOVAL CODE is commented out") //_gfxr_vismap_remove_artifacts(); return; default: warning("[GFX] Unknown op %02x", op); return; } end_op_loop: {} } warning("[GFX] Reached end of pic resource %04x", resid); } void gfxr_draw_pic11(gfxr_pic_t *pic, int flags, int default_palette, int size, byte *resource, gfxr_pic0_params_t *style, int resid, Palette *static_pal, Common::Rect portBounds) { int has_bitmap = READ_LE_UINT16(resource + 4); int vector_data_ptr = READ_LE_UINT16(resource + 16); int palette_data_ptr = READ_LE_UINT16(resource + 28); int bitmap_data_ptr = READ_LE_UINT16(resource + 32); gfx_pixmap_t *view = NULL; int titlebar_size = portBounds.top; if (pic->visual_map->palette) pic->visual_map->palette->free(); pic->visual_map->palette = gfxr_read_pal11(-1, resource + palette_data_ptr, 1284); if (has_bitmap) view = gfxr_draw_cel1(-1, 0, 0, flags & DRAWPIC1_FLAG_MIRRORED, resource, resource + bitmap_data_ptr, size - bitmap_data_ptr, NULL, 0, true); if (view) { view->palette = pic->visual_map->palette->getref(); // Set up mode structure for resizing the view Graphics::PixelFormat format = { 1, 0, 0, 0, 0, 0, 0, 0, 0 }; // 1 byte/p, which handles masks and the rest for us gfx_mode_t *mode = gfx_new_mode(pic->visual_map->index_width / 320, pic->visual_map->index_height / 200, format, view->palette, 0); gfx_xlate_pixmap(view, mode, GFX_XLATE_FILTER_NONE); gfx_free_mode(mode); if (flags & DRAWPIC01_FLAG_OVERLAID_PIC) view_transparentize(view, pic->visual_map, 0, 0, view->index_width, view->index_height); // Clip the view's height to fit within the screen buffer // It can go off screen at some cases, e.g. in KQ6's intro view->index_height = CLIP(view->index_height, 0, portBounds.height()); _gfx_crossblit_simple(pic->visual_map->index_data + titlebar_size*view->index_width, view->index_data, pic->visual_map->index_width, view->index_width, view->index_width, view->index_height, 1); } else { warning("[GFX] No view was contained in SCI1.1 pic resource"); } gfxr_draw_pic01(pic, flags, default_palette, size - vector_data_ptr, resource + vector_data_ptr, style, resid, 1, static_pal, portBounds); } void gfxr_dither_pic0(gfxr_pic_t *pic, int dmode, int pattern) { int xl = pic->visual_map->index_width; int yl = pic->visual_map->index_height; int xfrob_max = (pattern == GFXR_DITHER_PATTERN_1) ? 1 : pic->mode->xfact; int yfrob_max = (pattern == GFXR_DITHER_PATTERN_1) ? 1 : pic->mode->yfact; int xfrobc = 0, yfrobc = 0; int selection = 0; int x, y; byte *data = pic->visual_map->index_data; if (dmode == GFXR_DITHER_MODE_F256) return; // Nothing to do if (dmode == GFXR_DITHER_MODE_D16) { // Limit to 16 colors pic->visual_map->palette = gfx_sci0_image_pal[sci0_palette]->getref(); } for (y = 0; y < yl; y++) { for (x = 0; x < xl; x++) { switch (dmode) { case GFXR_DITHER_MODE_D16: if (selection) *data = (*data & 0xf0) >> 4; else *data = (*data & 0xf); break; case GFXR_DITHER_MODE_D256: if (selection) *data = ((*data & 0xf) << 4) | ((*data & 0xf0) >> 4); break; default: GFXERROR("Invalid dither mode %d!\n", dmode); return; } ++data; if (++xfrobc == xfrob_max) { selection = !selection; xfrobc = 0; } } if (++yfrobc == yfrob_max) { selection = !selection; yfrobc = 0; } } } } // End of namespace Sci