/* 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 "sci/sci.h" // for INCLUDE_OLDGFX #ifdef INCLUDE_OLDGFX // Resource manager core part // FIXME/TODO: The name "(Graphics) resource manager", and the associated // filenames, are misleading. This should be renamed to "Graphics manager" // or something like that. #include "sci/gfx/gfx_resource.h" #include "sci/gfx/gfx_tools.h" #include "sci/gfx/gfx_resmgr.h" #include "sci/gui/gui_palette.h" #include "sci/gui/gui_screen.h" #include "sci/gui/gui_view.h" #include "sci/gfx/gfx_driver.h" #include "sci/gfx/gfx_state_internal.h" #include "sci/gui32/font.h" #include "common/system.h" namespace Sci { struct param_struct { int args[4]; GfxDriver *driver; }; GfxResManager::GfxResManager(GfxDriver *driver, ResourceManager *resMan, SciGuiScreen *screen, SciGuiPalette *palette, Common::Rect portBounds) : _driver(driver), _resMan(resMan), _screen(screen), _palette(palette), _lockCounter(0), _tagLockCounter(0), _staticPalette(0) { gfxr_init_static_palette(); _portBounds = portBounds; if (!_resMan->isVGA()) { _staticPalette = gfx_sci0_pic_colors->getref(); } else if (getSciVersion() == SCI_VERSION_1_1) { debugC(2, kDebugLevelGraphics, "Palettes are not yet supported in this SCI version\n"); #ifdef ENABLE_SCI32 } else if (getSciVersion() >= SCI_VERSION_2) { debugC(2, kDebugLevelGraphics, "Palettes are not yet supported in this SCI version\n"); #endif } else { Resource *res = resMan->findResource(ResourceId(kResourceTypePalette, 999), 0); if (res && res->data) _staticPalette = gfxr_read_pal1(res->id.number, res->data, res->size); } } GfxResManager::~GfxResManager() { _staticPalette->free(); _staticPalette = 0; } void GfxResManager::calculatePic(gfxr_pic_t *scaled_pic, gfxr_pic_t *unscaled_pic, int flags, int default_palette, int nr) { Resource *res = _resMan->findResource(ResourceId(kResourceTypePic, nr), 0); int need_unscaled = unscaled_pic != NULL; gfxr_pic0_params_t style, basic_style; basic_style.line_mode = GFX_LINE_MODE_CORRECT; basic_style.brush_mode = GFX_BRUSH_MODE_SCALED; style.line_mode = GFX_LINE_MODE_CORRECT; style.brush_mode = GFX_BRUSH_MODE_RANDOM_ELLIPSES; if (!res || !res->data) error("calculatePic(): pic number %d not found", nr); if (need_unscaled) { if (_resMan->getViewType() == kViewVga11) gfxr_draw_pic11(unscaled_pic, flags, default_palette, res->size, res->data, &basic_style, res->id.number, _staticPalette, _portBounds); else gfxr_draw_pic01(unscaled_pic, flags, default_palette, res->size, res->data, &basic_style, res->id.number, _resMan->getViewType(), _staticPalette, _portBounds); } if (scaled_pic && scaled_pic->undithered_buffer) memcpy(scaled_pic->visual_map->index_data, scaled_pic->undithered_buffer, scaled_pic->undithered_buffer_size); if (_resMan->getViewType() == kViewVga11) gfxr_draw_pic11(scaled_pic, flags, default_palette, res->size, res->data, &style, res->id.number, _staticPalette, _portBounds); else gfxr_draw_pic01(scaled_pic, flags, default_palette, res->size, res->data, &style, res->id.number, _resMan->getViewType(), _staticPalette, _portBounds); if (getSciVersion() <= SCI_VERSION_1_EGA) { if (need_unscaled) gfxr_remove_artifacts_pic0(scaled_pic, unscaled_pic); if (!scaled_pic->undithered_buffer) scaled_pic->undithered_buffer = malloc(scaled_pic->undithered_buffer_size); memcpy(scaled_pic->undithered_buffer, scaled_pic->visual_map->index_data, scaled_pic->undithered_buffer_size); gfxr_dither_pic0(scaled_pic, kDitherNone); } // Mark default palettes if (scaled_pic) scaled_pic->visual_map->loop = default_palette; if (unscaled_pic) unscaled_pic->visual_map->loop = default_palette; } #define FREEALL(freecmd, type) \ if (resource->scaled_data.type) \ freecmd(resource->scaled_data.type); \ resource->scaled_data.type = NULL; \ if (resource->unscaled_data.type) \ freecmd(resource->unscaled_data.type); \ resource->unscaled_data.type = NULL; void gfxr_free_resource(gfx_resource_t *resource, int type) { if (!resource) return; switch (type) { case GFX_RESOURCE_TYPE_VIEW: FREEALL(gfxr_free_view, view); break; case GFX_RESOURCE_TYPE_PIC: FREEALL(gfxr_free_pic, pic); break; case GFX_RESOURCE_TYPE_FONT: FREEALL(gfxr_free_font, font); break; case GFX_RESOURCE_TYPE_CURSOR: FREEALL(gfx_free_pixmap, pointer); break; default: warning("[GFX] Attempt to free invalid resource type %d", type); } free(resource); } void GfxResManager::freeAllResources() { for (int type = 0; type < GFX_RESOURCE_TYPES_NR; ++type) { for (IntResMap::iterator iter = _resourceMaps[type].begin(); iter != _resourceMaps[type].end(); ++iter) { gfxr_free_resource(iter->_value, type); iter->_value = 0; } } } void GfxResManager::freeResManager() { freeAllResources(); _lockCounter = _tagLockCounter = 0; } void GfxResManager::freeTaggedResources() { // Current heuristics: free tagged views and old pics IntResMap::iterator iter; int type; const int tmp = _tagLockCounter; type = GFX_RESOURCE_TYPE_VIEW; for (iter = _resourceMaps[type].begin(); iter != _resourceMaps[type].end(); ++iter) { gfx_resource_t *resource = iter->_value; if (resource) { if (resource->lock_sequence_nr < tmp) { gfxr_free_resource(resource, type); iter->_value = 0; } else { resource->lock_sequence_nr = 0; } } } type = GFX_RESOURCE_TYPE_PIC; for (iter = _resourceMaps[type].begin(); iter != _resourceMaps[type].end(); ++iter) { gfx_resource_t *resource = iter->_value; if (resource) { if (resource->lock_sequence_nr < 0) { gfxr_free_resource(resource, type); iter->_value = 0; } else { resource->lock_sequence_nr--; } } } _tagLockCounter = 0; } void GfxResManager::setStaticPalette(Palette *newPalette) { if (_staticPalette) _staticPalette->free(); _staticPalette = newPalette; _staticPalette->name = "static palette"; if (_driver->getMode()->palette) _staticPalette->mergeInto(_driver->getMode()->palette); } #if 0 // FIXME: the options for GFX_MASK_VISUAL are actually unused #define XLATE_AS_APPROPRIATE(key, entry) \ if (maps & key) { \ if (res->unscaled_data.pic&& (force || !res->unscaled_data.pic->entry->data)) { \ if (key == GFX_MASK_VISUAL) \ gfx_get_res_config(options->res_conf, res->unscaled_data.pic->entry); \ gfx_xlate_pixmap(res->unscaled_data.pic->entry, mode, filter); \ } if (scaled && res->scaled_data.pic && (force || !res->scaled_data.pic->entry->data)) { \ if (key == GFX_MASK_VISUAL) \ gfx_get_res_config(options->res_conf, res->scaled_data.pic->entry); \ gfx_xlate_pixmap(res->scaled_data.pic->entry, mode, filter); \ } \ } #endif #define XLATE_AS_APPROPRIATE(key, entry) \ if (maps & key) { \ if (res->unscaled_data.pic&& (force || !res->unscaled_data.pic->entry->data)) { \ gfx_xlate_pixmap(res->unscaled_data.pic->entry, mode); \ } if (scaled && res->scaled_data.pic && (force || !res->scaled_data.pic->entry->data)) { \ gfx_xlate_pixmap(res->scaled_data.pic->entry, mode); \ } \ } static gfxr_pic_t *gfxr_pic_xlate_common(gfx_resource_t *res, int maps, int scaled, int force, gfx_mode_t *mode) { XLATE_AS_APPROPRIATE(GFX_MASK_VISUAL, visual_map); XLATE_AS_APPROPRIATE(GFX_MASK_PRIORITY, priority_map); XLATE_AS_APPROPRIATE(GFX_MASK_CONTROL, control_map); return scaled ? res->scaled_data.pic : res->unscaled_data.pic; } #undef XLATE_AS_APPROPRIATE /* unscaled color index mode: Used in addition to a scaled mode ** to render the pic resource twice. */ // FIXME: this is an ugly hack. Perhaps we could do it some other way? gfx_mode_t mode_1x1_color_index = { /* Fake 1x1 mode */ /* scaleFactor */ 1, /* xsize */ 1, /* ysize */ 1, /* palette */ NULL }; gfxr_pic_t *GfxResManager::getPic(int num, int maps, int flags, int default_palette, bool scaled) { gfxr_pic_t *npic = NULL; IntResMap &resMap = _resourceMaps[GFX_RESOURCE_TYPE_PIC]; gfx_resource_t *res = NULL; int need_unscaled = (_driver->getMode()->scaleFactor != 1); res = resMap.contains(num) ? resMap[num] : NULL; if (!res) { gfxr_pic_t *pic = NULL; gfxr_pic_t *unscaled_pic = NULL; need_unscaled = 0; pic = gfxr_init_pic(_driver->getMode(), GFXR_RES_ID(GFX_RESOURCE_TYPE_PIC, num), _resMan->isVGA()); if (!pic) { error("Failed to allocate scaled pic"); return NULL; } gfxr_clear_pic0(pic, SCI_TITLEBAR_SIZE); if (need_unscaled) { unscaled_pic = gfxr_init_pic(&mode_1x1_color_index, GFXR_RES_ID(GFX_RESOURCE_TYPE_PIC, num), _resMan->isVGA()); if (!unscaled_pic) { error("Failed to allocate unscaled pic"); return NULL; } gfxr_clear_pic0(pic, SCI_TITLEBAR_SIZE); } calculatePic(pic, unscaled_pic, flags, default_palette, num); if (!res) { res = (gfx_resource_t *)malloc(sizeof(gfx_resource_t)); res->ID = GFXR_RES_ID(GFX_RESOURCE_TYPE_PIC, num); res->lock_sequence_nr = 0; resMap[num] = res; } else { gfxr_free_pic(res->scaled_data.pic); if (res->unscaled_data.pic) gfxr_free_pic(res->unscaled_data.pic); } res->scaled_data.pic = pic; res->unscaled_data.pic = unscaled_pic; } else { res->lock_sequence_nr = 0; } npic = gfxr_pic_xlate_common(res, maps, 1, 0, _driver->getMode()); return npic; } static void set_pic_id(gfx_resource_t *res, int id) { if (res->scaled_data.pic) { gfxr_pic_t *pic = res->scaled_data.pic; pic->control_map->ID = id; pic->priority_map->ID = id; pic->visual_map->ID = id; } if (res->unscaled_data.pic) { gfxr_pic_t *pic = res->unscaled_data.pic; pic->control_map->ID = id; pic->priority_map->ID = id; pic->visual_map->ID = id; } } static int get_pic_id(gfx_resource_t *res) { if (res->scaled_data.pic) return res->scaled_data.pic->visual_map->ID; else return res->unscaled_data.pic->visual_map->ID; } gfxr_pic_t *GfxResManager::addToPic(int old_nr, int new_nr, int flags, int old_default_palette, int default_palette) { IntResMap &resMap = _resourceMaps[GFX_RESOURCE_TYPE_PIC]; gfxr_pic_t *pic = NULL; gfx_resource_t *res = NULL; int need_unscaled = 1; res = resMap.contains(old_nr) ? resMap[old_nr] : NULL; if (!res) { getPic(old_nr, 0, flags, old_default_palette, 1); res = resMap.contains(old_nr) ? resMap[old_nr] : NULL; if (!res) { warning("[GFX] Attempt to add pic %d to non-existing pic %d", new_nr, old_nr); return NULL; } } // The following two operations are needed when returning scaled maps (which is always the case here) res->lock_sequence_nr = 0; calculatePic(res->scaled_data.pic, need_unscaled ? res->unscaled_data.pic : NULL, flags | DRAWPIC01_FLAG_OVERLAID_PIC, default_palette, new_nr); { int old_ID = get_pic_id(res); set_pic_id(res, GFXR_RES_ID(GFX_RESOURCE_TYPE_PIC, new_nr)); // To ensure that our graphical translation options work properly pic = gfxr_pic_xlate_common(res, GFX_MASK_VISUAL, 1, 1, _driver->getMode()); set_pic_id(res, old_ID); } return pic; } gfxr_view_t *GfxResManager::getView(int nr, int *loop, int *cel, int palette) { IntResMap &resMap = _resourceMaps[GFX_RESOURCE_TYPE_VIEW]; gfx_resource_t *res = resMap.contains(nr) ? resMap[nr] : NULL; ViewType viewType = _resMan->getViewType(); gfxr_view_t *view = NULL; gfxr_loop_t *loop_data = NULL; gfx_pixmap_t *cel_data = NULL; if (!res) { // Wrapper code for the new view decoder view = (gfxr_view_t *)malloc(sizeof(gfxr_view_t)); view->ID = nr; view->flags = 0; SciGuiView *guiView = new SciGuiView(_resMan, _screen, _palette, nr); // Translate view palette view->palette = NULL; if (viewType == kViewVga || viewType == kViewVga11) { GuiPalette *viewPalette = guiView->getPalette(); if (viewPalette) { view->palette = new Palette(256); for (int c = 0; c < 256; c++) view->palette->setColor(c, viewPalette->colors[c].r, viewPalette->colors[c].g, viewPalette->colors[c].b); } // Assign missing colors from the view's palette to the global palette ones for (unsigned i = 0; i < MIN(view->palette->size(), _staticPalette->size()); i++) { const PaletteEntry& vc = view->palette->getColor(i); if (vc.r == 0 && vc.g == 0 && vc.b == 0) { const PaletteEntry& sc = _staticPalette->getColor(i); view->palette->setColor(i, sc.r, sc.g, sc.b); } } } else { view->palette = _staticPalette->getref(); } view->loops_nr = guiView->getLoopCount(); view->loops = (gfxr_loop_t*)malloc(sizeof(gfxr_loop_t) * ((view->loops_nr) ? view->loops_nr : 1)); /* Alloc 1 if no loop */ for (int i = 0; i < view->loops_nr; i++) { view->loops[i].cels_nr = guiView->getLoopInfo(i)->celCount; view->loops[i].cels = (gfx_pixmap_t**)calloc(view->loops[i].cels_nr, sizeof(gfx_pixmap_t *)); for (int j = 0; j < view->loops[i].cels_nr; j++) { sciViewCelInfo *celInfo = guiView->getCelInfo(i, j); view->loops[i].cels[j] = gfx_pixmap_alloc_index_data(gfx_new_pixmap(celInfo->width, celInfo->height, nr, i, j)); gfx_pixmap_t *curCel = view->loops[i].cels[j]; curCel->color_key = celInfo->clearKey; // old code uses malloc() here, so we do so as well, as the buffer will be freed with free() in gfx_free_pixmap curCel->index_data = (byte *)malloc(celInfo->width * celInfo->height); byte *tmpBuffer = guiView->getBitmap(i, j); memcpy(curCel->index_data, tmpBuffer, celInfo->width * celInfo->height); curCel->flags = 0; curCel->width = celInfo->width; curCel->height = celInfo->height; curCel->index_width = celInfo->width; curCel->index_height = celInfo->height; curCel->palette_revision = -1; curCel->xoffset = -celInfo->displaceX; curCel->yoffset = -celInfo->displaceY; curCel->palette = view->palette->getref(); curCel->alpha_map = 0; // will be allocated by gfx_xlate_pixmap() curCel->data = 0; // will be allocated by gfx_xlate_pixmap() } } delete guiView; if (!res) { res = (gfx_resource_t *)malloc(sizeof(gfx_resource_t)); res->scaled_data.view = NULL; res->ID = GFXR_RES_ID(GFX_RESOURCE_TYPE_VIEW, nr); res->lock_sequence_nr = _tagLockCounter; resMap[nr] = res; } else { gfxr_free_view(res->unscaled_data.view); } res->unscaled_data.view = view; } else { res->lock_sequence_nr = _tagLockCounter; // Update lock counter view = res->unscaled_data.view; } *loop = CLIP(*loop, 0, view->loops_nr - 1); loop_data = view->loops + (*loop); *cel = CLIP(*cel, 0, loop_data->cels_nr - 1); cel_data = loop_data->cels[*cel]; if (!cel_data->data) { gfx_xlate_pixmap(cel_data, _driver->getMode()); } return view; } gfx_bitmap_font_t *GfxResManager::getFont(int num, bool scaled) { IntResMap &resMap = _resourceMaps[GFX_RESOURCE_TYPE_FONT]; gfx_resource_t *res = NULL; // Workaround: lsl1sci mixes its own internal fonts with the global // SCI ones, so we translate them here, by removing their extra bits if (!resMap.contains(num) && !_resMan->testResource(ResourceId(kResourceTypeFont, num))) num = num & 0x7ff; res = resMap.contains(num) ? resMap[num] : NULL; if (!res) { Resource *fontRes = _resMan->findResource(ResourceId(kResourceTypeFont, num), 0); if (!fontRes || !fontRes->data) return NULL; gfx_bitmap_font_t *font = gfxr_read_font(fontRes->id.number, fontRes->data, fontRes->size); if (!res) { res = (gfx_resource_t *)malloc(sizeof(gfx_resource_t)); res->scaled_data.font = NULL; res->ID = GFXR_RES_ID(GFX_RESOURCE_TYPE_FONT, num); res->lock_sequence_nr = _tagLockCounter; resMap[num] = res; } else { gfxr_free_font(res->unscaled_data.font); } res->unscaled_data.font = font; return font; } else { res->lock_sequence_nr = _tagLockCounter; // Update lock counter if (res->unscaled_data.pointer) return res->unscaled_data.font; else return res->scaled_data.font; } } } // End of namespace Sci #endif