/* 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 "common/system.h" #include "common/events.h" #include "graphics/cursorman.h" #include "graphics/video/avi_player.h" #include "graphics/surface.h" #include "sci/sci.h" #include "sci/debug.h" // for g_debug_sleeptime_factor #include "sci/resource.h" #include "sci/engine/state.h" #include "sci/engine/kernel.h" #include "sci/gfx/gfx_gui.h" #include "sci/gfx/gfx_widgets.h" #include "sci/gfx/gfx_state_internal.h" // required for GfxContainer, GfxPort, GfxVisual #include "sci/gfx/seq_decoder.h" namespace Sci { #undef DEBUG_LSRECT // This is the real width of a text with a specified width of 0 #define MAX_TEXT_WIDTH_MAGIC_VALUE 192 // Graph subfunctions enum { K_GRAPH_GET_COLORS_NR = 2, K_GRAPH_DRAW_LINE = 4, K_GRAPH_SAVE_BOX = 7, K_GRAPH_RESTORE_BOX = 8, K_GRAPH_FILL_BOX_BACKGROUND = 9, K_GRAPH_FILL_BOX_FOREGROUND = 10, K_GRAPH_FILL_BOX_ANY = 11, K_GRAPH_UPDATE_BOX = 12, K_GRAPH_REDRAW_BOX = 13, K_GRAPH_ADJUST_PRIORITY = 14 }; // Control types and flags enum { K_CONTROL_BUTTON = 1, K_CONTROL_TEXT = 2, K_CONTROL_EDIT = 3, K_CONTROL_ICON = 4, K_CONTROL_CONTROL = 6, K_CONTROL_CONTROL_ALIAS = 7, K_CONTROL_BOX = 10 }; #define ADD_TO_CURRENT_PORT(widget) \ {if (s->port) \ s->port->add((GfxContainer *)s->port, widget); \ else \ s->picture_port->add((GfxContainer *)s->visual, widget);} #define ADD_TO_CURRENT_PICTURE_PORT(widget) \ {if (s->port) \ s->port->add((GfxContainer *)s->port, widget); \ else \ s->picture_port->add((GfxContainer *)s->picture_port, widget);} #define ADD_TO_WINDOW_PORT(widget) \ s->wm_port->add((GfxContainer *)s->wm_port, widget); #define FULL_REDRAW()\ if (s->visual) \ s->visual->draw(gfxw_point_zero); \ gfxop_update(s->gfx_state); #if 0 // Used for debugging #define FULL_INSPECTION()\ if (s->visual) \ s->visual->print(s->visual, 0); #endif static inline int sign_extend_byte(int value) { if (value & 0x80) return value - 256; else return value; } static void assert_primary_widget_lists(EngineState *s) { if (!s->dyn_views) { rect_t bounds = s->picture_port->_bounds; s->dyn_views = gfxw_new_list(bounds, GFXW_LIST_SORTED); s->dyn_views->_flags |= GFXW_FLAG_IMMUNE_TO_SNAPSHOTS; ADD_TO_CURRENT_PICTURE_PORT(s->dyn_views); } if (!s->drop_views) { rect_t bounds = s->picture_port->_bounds; s->drop_views = gfxw_new_list(bounds, GFXW_LIST_SORTED); s->drop_views->_flags |= GFXW_FLAG_IMMUNE_TO_SNAPSHOTS; ADD_TO_CURRENT_PICTURE_PORT(s->drop_views); } } static void reparentize_primary_widget_lists(EngineState *s, GfxPort *newport) { if (!newport) newport = s->picture_port; if (s->dyn_views) { gfxw_remove_widget_from_container(s->dyn_views->_parent, s->dyn_views); newport->add((GfxContainer *)newport, s->dyn_views); } } int _find_view_priority(EngineState *s, int y) { /*if (s->version <= SCI_VERSION_LTU_PRIORITY_OB1) ++y; */ if (s->pic_priority_table) { // SCI01 priority table set? int j; for (j = 0; j < 15; j++) if (y < s->pic_priority_table[j+1]) return j; return 14; // Maximum } else { if (!((SciEngine*)g_engine)->getKernel()->usesOldGfxFunctions()) return SCI0_VIEW_PRIORITY_14_ZONES(y); else return SCI0_VIEW_PRIORITY(y) == 15 ? 14 : SCI0_VIEW_PRIORITY(y); } } int _find_priority_band(EngineState *s, int nr) { if (!((SciEngine*)g_engine)->getKernel()->usesOldGfxFunctions() && (nr < 0 || nr > 14)) { if (nr == 15) return 0xffff; else { warning("Attempt to get priority band %d", nr); } return 0; } if (((SciEngine*)g_engine)->getKernel()->usesOldGfxFunctions() && (nr < 0 || nr > 15)) { warning("Attempt to get priority band %d", nr); return 0; } if (s->pic_priority_table) // SCI01 priority table set? return s->pic_priority_table[nr]; else { int retval; if (!((SciEngine*)g_engine)->getKernel()->usesOldGfxFunctions()) retval = SCI0_PRIORITY_BAND_FIRST_14_ZONES(nr); else retval = SCI0_PRIORITY_BAND_FIRST(nr); /* if (s->version <= SCI_VERSION_LTU_PRIORITY_OB1) --retval; */ return retval; } } reg_t graph_save_box(EngineState *s, rect_t area) { reg_t handle = kalloc(s->segMan, "graph_save_box()", sizeof(gfxw_snapshot_t *)); gfxw_snapshot_t **ptr = (gfxw_snapshot_t **)kmem(s->segMan, handle); // FIXME: gfxw_make_snapshot returns a pointer. Now why do we store a // pointer to real memory inside the SCI heap? // If we save and the load again, this cannot work in general. // This seems like bad design. Either the snapshot data itself should be // stored in the heap, or a unique persistent id. *ptr = gfxw_make_snapshot(s->visual, area); return handle; } void graph_restore_box(EngineState *s, reg_t handle) { gfxw_snapshot_t **ptr; int port_nr = s->port->_ID; if (!handle.segment) { warning("Attempt to restore box with zero handle"); return; } ptr = (gfxw_snapshot_t **)kmem(s->segMan, handle); if (!ptr) { warning("Attempt to restore invalid handle %04x:%04x", PRINT_REG(handle)); return; } while (port_nr > 2 && !(s->port->_flags & GFXW_FLAG_IMMUNE_TO_SNAPSHOTS) && (gfxw_widget_matches_snapshot(*ptr, s->port))) { // This shouldn't ever happen, actually, since windows (ports w/ ID > 2) should all be immune GfxPort *newport = s->visual->getPort(port_nr); error("Port %d is not immune against snapshots", s->port->_ID); port_nr--; if (newport) s->port = newport; } if (s->dyn_views && gfxw_widget_matches_snapshot(*ptr, s->dyn_views->_parent)) { GfxContainer *parent = s->dyn_views->_parent; do { parent = parent->_parent; } while (parent && (gfxw_widget_matches_snapshot(*ptr, parent))); if (!parent) { error("Attempted widget mass destruction by a snapshot"); } reparentize_primary_widget_lists(s, (GfxPort *) parent); } if (!ptr) { error("Attempt to restore invalid snaphot with handle %04x:%04x", PRINT_REG(handle)); return; } gfxw_restore_snapshot(s->visual, *ptr); free(*ptr); *ptr = NULL; kfree(s->segMan, handle); } PaletteEntry get_pic_color(EngineState *s, int color) { if (!s->resMan->isVGA()) return s->ega_colors[color].visual; if (color == -1 || color == 255) // -1 occurs in Eco Quest 1. Not sure if this is the best approach, but it seems to work return PaletteEntry(255,255,255); else if (color < s->gfx_state->gfxResMan->getColorCount()) return s->gfx_state->gfxResMan->getColor(color); else { // Happens in the beginning of EcoQuest 2, when the dialog box of the customs officer shows up warning("Color index %d out of bounds for pic %d (%d max)", color, s->gfx_state->pic_nr, s->gfx_state->gfxResMan->getColorCount()); return PaletteEntry(0,0,0); } } static gfx_color_t graph_map_color(EngineState *s, int color, int priority, int control) { gfx_color_t retval; if (!s->resMan->isVGA()) { retval = s->ega_colors[(color >=0 && color < 16)? color : 0]; gfxop_set_color(s->gfx_state, &retval, (color < 0) ? -1 : retval.visual.r, retval.visual.g, retval.visual.b, (color == -1) ? 255 : 0, priority, control); } else { retval.visual = get_pic_color(s, color); retval.alpha = 0; retval.priority = priority; retval.control = control; retval.mask = GFX_MASK_VISUAL | ((priority >= 0) ? GFX_MASK_PRIORITY : 0) | ((control >= 0) ? GFX_MASK_CONTROL : 0); }; return retval; } static reg_t kSetCursorSci0(EngineState *s, int, int argc, reg_t *argv) { int16 cursor = argv[0].toSint16(); if ((argc >= 2) && (argv[1].toSint16() == 0)) cursor = GFXOP_NO_POINTER; gfxop_set_pointer_cursor(s->gfx_state, cursor); // Set pointer position, if requested if (argc >= 4) { Common::Point newPos = Common::Point(argv[2].toSint16() + s->port->_bounds.x, argv[3].toSint16() + s->port->_bounds.y); gfxop_set_pointer_position(s->gfx_state, newPos); } return s->r_acc; } static reg_t kSetCursorSci11(EngineState *s, int, int argc, reg_t *argv) { Common::Point *hotspot = NULL; switch (argc) { case 1: CursorMan.showMouse(argv[0].toSint16() != 0); break; case 2: gfxop_set_pointer_position(s->gfx_state, Common::Point(argv[0].toUint16() + s->port->_bounds.x, argv[1].toUint16() + s->port->_bounds.y)); break; case 4: { int16 top = argv[0].toSint16(); int16 left = argv[1].toSint16(); int16 bottom = argv[2].toSint16(); int16 right = argv[3].toSint16(); if ((right >= left) && (bottom >= top)) { Common::Rect rect = Common::Rect(left, top, right + 1, bottom + 1); gfxop_set_pointer_zone(s->gfx_state, rect); } else { warning("kSetCursor: Ignoring invalid mouse zone (%i, %i)-(%i, %i)", left, top, right, bottom); } break; } case 5: case 9: hotspot = new Common::Point(argv[3].toSint16(), argv[4].toSint16()); // Fallthrough case 3: gfxop_set_pointer_view(s->gfx_state, argv[0].toUint16(), argv[1].toUint16(), argv[2].toUint16(), hotspot); if (hotspot) delete hotspot; break; default : warning("kSetCursor: Unhandled case: %d arguments given", argc); break; } return s->r_acc; } reg_t kSetCursor(EngineState *s, int, int argc, reg_t *argv) { switch (s->detectSetCursorType()) { case SCI_VERSION_0_EARLY: return kSetCursorSci0(s, WAS_FUNCT_NR, argc, argv); case SCI_VERSION_1_1: return kSetCursorSci11(s, WAS_FUNCT_NR, argc, argv); default: warning("Unknown SetCursor type"); return NULL_REG; } } reg_t kMoveCursor(EngineState *s, int, int argc, reg_t *argv) { Common::Point newPos; newPos = s->gfx_state->pointer_pos; if (argc == 1) { // Case ignored on IBM PC } else { newPos.x = argv[0].toSint16() + s->port->zone.x; newPos.y = argv[1].toSint16() + s->port->zone.y; if (newPos.x > s->port->zone.x + s->port->zone.width) newPos.x = s->port->zone.x + s->port->zone.width; if (newPos.y > s->port->zone.y + s->port->zone.height) newPos.y = s->port->zone.y + s->port->zone.height; if (newPos.x < 0) newPos.x = 0; if (newPos.y < 0) newPos.y = 0; } gfxop_set_pointer_position(s->gfx_state, newPos); return s->r_acc; } reg_t kShow(EngineState *s, int, int argc, reg_t *argv) { int old_map = s->pic_visible_map; s->pic_visible_map = (argc > 0) ? (gfx_map_mask_t) argv[0].toUint16() : GFX_MASK_VISUAL; switch (s->pic_visible_map) { case GFX_MASK_VISUAL: case GFX_MASK_PRIORITY: case GFX_MASK_CONTROL: gfxop_set_visible_map(s->gfx_state, s->pic_visible_map); if (old_map != s->pic_visible_map) { if (s->pic_visible_map == GFX_MASK_VISUAL) // Full widget redraw s->visual->draw(Common::Point(0, 0)); gfxop_update(s->gfx_state); debugC(2, kDebugLevelGraphics, "Switching visible map to %x\n", s->pic_visible_map); } break; default: warning("Show(%x) selects unknown map", s->pic_visible_map); } s->pic_not_valid = 2; return s->r_acc; } reg_t kPicNotValid(EngineState *s, int, int argc, reg_t *argv) { s->r_acc = make_reg(0, s->pic_not_valid); if (argc) s->pic_not_valid = (byte)argv[0].toUint16(); return s->r_acc; } void _k_redraw_box(EngineState *s, int x1, int y1, int x2, int y2) { warning("_k_redraw_box(): Unimplemented"); #if 0 int i; ViewObject *list = s->dyn_views; printf("Reanimating views\n", s->dyn_views_nr); for (i = 0;i < s->dyn_views_nr;i++) { *(list[i].underBitsp) = graph_save_box(s, list[i].nsLeft, list[i].nsTop, list[i].nsRight - list[i].nsLeft, list[i].nsBottom - list[i].nsTop, SCI_MAP_VISUAL | SCI_MAP_PRIORITY); draw_view0(s->pic, s->ports[0], list[i].nsLeft, list[i].nsTop, list[i].priority, list[i].loop, list[i].cel, 0, list[i].view); } graph_update_box(s, x1, y1, x2 - x1, y2 - y1); for (i = 0;i < s->dyn_views_nr;i++) { graph_restore_box(s, *(list[i].underBitsp)); list[i].underBits = 0; } #endif } void _k_graph_rebuild_port_with_color(EngineState *s, gfx_color_t newbgcolor) { GfxPort *port = s->port; GfxPort *newport; newport = sciw_new_window(s, port->zone, port->_font, port->_color, newbgcolor, s->titlebar_port->_font, s->ega_colors[15], s->ega_colors[8], port->title_text, port->port_flags & ~kWindowTransparent); if (s->dyn_views) { int found = 0; GfxContainer *parent = s->dyn_views->_parent; while (parent && !(found |= (parent == port))) parent = parent->_parent; s->dyn_views = NULL; } port->_parent->add((GfxContainer *)port->_parent, newport); delete port; } static bool activated_icon_bar = false; // FIXME: Avoid non-const global vars static int port_origin_x = 0; // FIXME: Avoid non-const global vars static int port_origin_y = 0; // FIXME: Avoid non-const global vars reg_t kGraph(EngineState *s, int, int argc, reg_t *argv) { rect_t area; GfxPort *port = s->port; int redraw_port = 0; area = gfx_rect(argv[2].toSint16(), argv[1].toSint16() , argv[4].toSint16(), argv[3].toSint16()); area.width = area.width - area.x; // Since the actual coordinates are absolute area.height = area.height - area.y; switch (argv[0].toSint16()) { case K_GRAPH_GET_COLORS_NR: return make_reg(0, !s->resMan->isVGA() ? 0x10 : 0x100); break; case K_GRAPH_DRAW_LINE: { int16 priority = (argc > 6) ? argv[6].toSint16() : -1; int16 control = (argc > 7) ? argv[7].toSint16() : -1; gfx_color_t gfxcolor = graph_map_color(s, argv[5].toSint16(), priority, control); debugC(2, kDebugLevelGraphics, "draw_line((%d, %d), (%d, %d), col=%d, p=%d, c=%d, mask=%d)\n", argv[2].toSint16(), argv[1].toSint16(), argv[4].toSint16(), argv[3].toSint16(), argv[5].toSint16(), priority, control, gfxcolor.mask); redraw_port = 1; // Note: it's quite possible that the coordinates of the line will *not* form a valid rectangle (e.g. it might // have negative width/height). The actual dirty rectangle is constructed in gfxdr_add_dirty(). // FIXME/TODO: We need to change the semantics of this call, so that no fake rectangles are used. As it is, it's // not possible change rect_t to Common::Rect, as we assume that Common::Rect forms a *valid* rectangle. ADD_TO_CURRENT_PICTURE_PORT(gfxw_new_line(Common::Point(argv[2].toSint16(), argv[1].toSint16()), Common::Point(argv[4].toSint16(), argv[3].toSint16()), gfxcolor, GFX_LINE_MODE_CORRECT, GFX_LINE_STYLE_NORMAL)); } break; case K_GRAPH_SAVE_BOX: area.x += s->port->zone.x + port_origin_x; area.y += s->port->zone.y + port_origin_y; area.width += -port_origin_x; area.height += -port_origin_y; return(graph_save_box(s, area)); break; case K_GRAPH_RESTORE_BOX: graph_restore_box(s, argv[1]); break; case K_GRAPH_FILL_BOX_BACKGROUND: _k_graph_rebuild_port_with_color(s, port->_bgcolor); port = s->port; redraw_port = 1; break; case K_GRAPH_FILL_BOX_FOREGROUND: _k_graph_rebuild_port_with_color(s, port->_color); port = s->port; redraw_port = 1; break; case K_GRAPH_FILL_BOX_ANY: { int16 priority = (argc > 7) ? argv[7].toSint16() : -1; int16 control = (argc > 8) ? argv[8].toSint16() : -1; gfx_color_t color = graph_map_color(s, argv[6].toSint16(), priority, control); color.mask = (byte)argv[5].toUint16(); debugC(2, kDebugLevelGraphics, "fill_box_any((%d, %d), (%d, %d), col=%d, p=%d, c=%d, mask=%d)\n", argv[2].toSint16(), argv[1].toSint16(), argv[4].toSint16(), argv[3].toSint16(), argv[6].toSint16(), priority, control, argv[5].toUint16()); // FIXME/TODO: this is not right, as some of the dialogs are drawn *behind* some widgets. But at least it works for now //ADD_TO_CURRENT_PICTURE_PORT(gfxw_new_box(s->gfx_state, area, color, color, GFX_BOX_SHADE_FLAT)); // old code s->picture_port->add((GfxContainer *)s->picture_port, gfxw_new_box(s->gfx_state, area, color, color, GFX_BOX_SHADE_FLAT)); } break; case K_GRAPH_UPDATE_BOX: { debugC(2, kDebugLevelGraphics, "update_box(%d, %d, %d, %d)\n", argv[1].toSint16(), argv[2].toSint16(), argv[3].toSint16(), argv[4].toSint16()); area.x += s->port->zone.x; area.y += s->port->zone.y; gfxop_update_box(s->gfx_state, area); } break; case K_GRAPH_REDRAW_BOX: { debugC(2, kDebugLevelGraphics, "redraw_box(%d, %d, %d, %d)\n", argv[1].toSint16(), argv[2].toSint16(), argv[3].toSint16(), argv[4].toSint16()); area.x += s->port->zone.x; area.y += s->port->zone.y; if (s->dyn_views && s->dyn_views->_parent == (GfxContainer *)s->port) s->dyn_views->draw(Common::Point(0, 0)); gfxop_update_box(s->gfx_state, area); } break; case K_GRAPH_ADJUST_PRIORITY: debugC(2, kDebugLevelGraphics, "adjust_priority(%d, %d)\n", argv[1].toSint16(), argv[2].toSint16()); s->priority_first = argv[1].toSint16() - 10; s->priority_last = argv[2].toSint16() - 10; break; default: warning("Unhandled Graph() operation %04x", argv[0].toSint16()); } if (redraw_port) FULL_REDRAW(); gfxop_update(s->gfx_state); return s->r_acc; } reg_t kTextSize(EngineState *s, int, int argc, reg_t *argv) { int width, height; char *text = argv[1].segment ? s->segMan->derefString(argv[1]) : NULL; const char *sep = NULL; reg_t *dest = s->segMan->derefRegPtr(argv[0], 4); int maxwidth = (argc > 3) ? argv[3].toUint16() : 0; int font_nr = argv[2].toUint16(); if ((argc > 4) && (argv[4].segment)) sep = s->segMan->derefString(argv[4]); if (maxwidth < 0) maxwidth = 0; dest[0] = dest[1] = NULL_REG; if (!text || !*text || !dest) { // Empty text dest[2] = dest[3] = make_reg(0, 0); debugC(2, kDebugLevelStrings, "GetTextSize: Empty string\n"); return s->r_acc; } gfxop_get_text_params(s->gfx_state, font_nr, s->strSplit(text, sep).c_str(), maxwidth ? maxwidth : MAX_TEXT_WIDTH_MAGIC_VALUE, &width, &height, 0, NULL, NULL, NULL); debugC(2, kDebugLevelStrings, "GetTextSize '%s' -> %dx%d\n", text, width, height); dest[2] = make_reg(0, height); // dest[3] = make_reg(0, maxwidth? maxwidth : width); dest[3] = make_reg(0, width); return s->r_acc; } reg_t kWait(EngineState *s, int, int argc, reg_t *argv) { uint32 time; int sleep_time = argv[0].toUint16(); time = g_system->getMillis(); s->r_acc = make_reg(0, ((long)time - (long)s->last_wait_time) * 60 / 1000); s->last_wait_time = time; sleep_time *= g_debug_sleeptime_factor; gfxop_sleep(s->gfx_state, sleep_time * 1000 / 60); // Reset speed throttler: Game is playing along nicely anyway if (sleep_time > 0) s->speedThrottler->reset(); return s->r_acc; } reg_t kCoordPri(EngineState *s, int, int argc, reg_t *argv) { int y = argv[0].toSint16(); return make_reg(0, _find_view_priority(s, y)); } reg_t kPriCoord(EngineState *s, int, int argc, reg_t *argv) { int priority = argv[0].toSint16(); return make_reg(0, _find_priority_band(s, priority)); } void _k_dirloop(reg_t obj, uint16 angle, EngineState *s, int argc, reg_t *argv) { SegManager *segMan = s->segMan; int view = GET_SEL32V(obj, view); int signal = GET_SEL32V(obj, signal); int loop; int maxloops; bool oldScriptHeader = (s->resMan->sciVersion() == SCI_VERSION_0_EARLY); if (signal & _K_VIEW_SIG_FLAG_DOESNT_TURN) return; angle %= 360; if (!oldScriptHeader) { if (angle < 45) loop = 3; else if (angle < 136) loop = 0; else if (angle < 225) loop = 2; else if (angle < 316) loop = 1; else loop = 3; } else { if (angle >= 330 || angle <= 30) loop = 3; else if (angle <= 150) loop = 0; else if (angle <= 210) loop = 2; else if (angle < 330) loop = 1; else loop = 0xffff; } maxloops = gfxop_lookup_view_get_loops(s->gfx_state, view); if ((loop > 1) && (maxloops < 4)) return; PUT_SEL32V(obj, loop, loop); } reg_t kDirLoop(EngineState *s, int, int argc, reg_t *argv) { _k_dirloop(argv[0], argv[1].toUint16(), s, argc, argv); return s->r_acc; } #define GASEOUS_VIEW_MASK_ACTIVE (_K_VIEW_SIG_FLAG_REMOVE | _K_VIEW_SIG_FLAG_IGNORE_ACTOR) #define GASEOUS_VIEW_MASK_PASSIVE (_K_VIEW_SIG_FLAG_NO_UPDATE | _K_VIEW_SIG_FLAG_REMOVE | _K_VIEW_SIG_FLAG_IGNORE_ACTOR) static Common::Rect nsrect_clip(EngineState *s, int y, Common::Rect retval, int priority); static int collides_with(EngineState *s, Common::Rect area, reg_t other_obj, int use_nsrect, int view_mask, int argc, reg_t *argv) { SegManager *segMan = s->segMan; int other_signal = GET_SEL32V(other_obj, signal); int other_priority = GET_SEL32V(other_obj, priority); int y = (int16)GET_SEL32V(other_obj, y); Common::Rect other_area; if (use_nsrect) { other_area = get_nsrect(s, other_obj, 0); other_area = nsrect_clip(s, y, other_area, other_priority); } else { other_area.left = GET_SEL32V(other_obj, brLeft); other_area.right = GET_SEL32V(other_obj, brRight); other_area.top = GET_SEL32V(other_obj, brTop); other_area.bottom = GET_SEL32V(other_obj, brBottom); } if (other_area.right < 0 || other_area.bottom < 0 || area.right < 0 || area.bottom < 0) return 0; // Out of scope if (other_area.left >= 320 || other_area.top >= 190 || area.right >= 320 || area.bottom >= 190) return 0; // Out of scope debugC(2, kDebugLevelBresen, "OtherSignal=%04x, z=%04x obj=%04x:%04x\n", other_signal, (other_signal & view_mask), PRINT_REG(other_obj)); if ((other_signal & (view_mask)) == 0) { // check whether the other object ignores actors debugC(2, kDebugLevelBresen, " against (%d,%d) to (%d,%d)\n", other_area.left, other_area.top, other_area.right, other_area.bottom); if (area.intersects(other_area)) return 1; /* CR (from :Bob Heitman:) Collision rects have Mac semantics, ((0,0),(1,1)) only ** covers the coordinate (0,0) */ } debugC(2, kDebugLevelBresen, " (no)\n"); return 0; } reg_t kCanBeHere(EngineState *s, int, int argc, reg_t *argv) { SegManager *segMan = s->segMan; reg_t obj = argv[0]; reg_t cliplist_ref = (argc > 1) ? argv[1] : NULL_REG; List *cliplist = NULL; GfxPort *port = s->picture_port; uint16 signal; int retval; Common::Rect abs_zone; rect_t zone; uint16 edgehit; uint16 illegal_bits; abs_zone.left = (int16)GET_SEL32V(obj, brLeft); abs_zone.right = (int16)GET_SEL32V(obj, brRight); abs_zone.top = (int16)GET_SEL32V(obj, brTop); abs_zone.bottom = (int16)GET_SEL32V(obj, brBottom); zone = gfx_rect(abs_zone.left + port->zone.x, abs_zone.top + port->zone.y, abs_zone.width(), abs_zone.height()); signal = GET_SEL32V(obj, signal); debugC(2, kDebugLevelBresen, "Checking collision: (%d,%d) to (%d,%d) ([%d..%d]x[%d..%d]), obj=%04x:%04x, sig=%04x, cliplist=%04x:%04x\n", GFX_PRINT_RECT(zone), abs_zone.left, abs_zone.right, abs_zone.top, abs_zone.bottom, PRINT_REG(obj), signal, PRINT_REG(cliplist_ref)); illegal_bits = GET_SEL32V(obj, illegalBits); retval = !(illegal_bits & (edgehit = gfxop_scan_bitmask(s->gfx_state, zone, GFX_MASK_CONTROL))); debugC(2, kDebugLevelBresen, "edgehit = %04x (illegalBits %04x)\n", edgehit, illegal_bits); if (retval == 0) { debugC(2, kDebugLevelBresen, " -> %04x\n", retval); return not_register(s, NULL_REG); // Can't BeHere } retval = 0; if ((illegal_bits & 0x8000) // If we are vulnerable to those views at all... && s->dyn_views) { // ...check against all stop-updated dynviews GfxDynView *widget = (GfxDynView *)s->dyn_views->_contents; debugC(2, kDebugLevelBresen, "Checking vs dynviews:\n"); while (widget) { if (widget->_ID && (widget->signal & _K_VIEW_SIG_FLAG_STOPUPD) && ((widget->_ID != obj.segment) || (widget->_subID != obj.offset)) && s->segMan->isObject(make_reg(widget->_ID, widget->_subID))) if (collides_with(s, abs_zone, make_reg(widget->_ID, widget->_subID), 1, GASEOUS_VIEW_MASK_ACTIVE, argc, argv)) return not_register(s, NULL_REG); widget = (GfxDynView *)widget->_next; } } if (signal & GASEOUS_VIEW_MASK_ACTIVE) { retval = signal & GASEOUS_VIEW_MASK_ACTIVE; // CanBeHere- it's either being disposed, or it ignores actors anyway debugC(2, kDebugLevelBresen, " -> %04x\n", retval); return not_register(s, make_reg(0, retval)); // CanBeHere } if (cliplist_ref.segment) cliplist = lookup_list(s, cliplist_ref); if (cliplist) { Node *node = lookup_node(s, cliplist->first); retval = 0; // Assume that we Can'tBeHere... while (node) { // Check each object in the list against our bounding rectangle reg_t other_obj = node->value; debugC(2, kDebugLevelBresen, " comparing against %04x:%04x\n", PRINT_REG(other_obj)); if (!s->segMan->isObject(other_obj)) { warning("CanBeHere() cliplist contains non-object %04x:%04x", PRINT_REG(other_obj)); } else if (other_obj != obj) { // Clipping against yourself is not recommended if (collides_with(s, abs_zone, other_obj, 0, GASEOUS_VIEW_MASK_PASSIVE, argc, argv)) { debugC(2, kDebugLevelBresen, " -> %04x\n", retval); return not_register(s, NULL_REG); } } // if (other_obj != obj) node = lookup_node(s, node->succ); // move on } } if (!retval) retval = 1; debugC(2, kDebugLevelBresen, " -> %04x\n", retval); return not_register(s, make_reg(0, retval)); } // CanBeHere reg_t kIsItSkip(EngineState *s, int, int argc, reg_t *argv) { int view = argv[0].toSint16(); int loop = argv[1].toSint16(); int cel = argv[2].toSint16(); int y = argv[3].toUint16(); int x = argv[4].toUint16(); gfxr_view_t *res = NULL; gfx_pixmap_t *pxm = NULL; res = s->gfx_state->gfxResMan->getView(view, &loop, &cel, 0); if (!res) { warning("[GFX] Attempt to get cel parameters for invalid view %d", view); return make_reg(0, -1); } pxm = res->loops[loop].cels[cel]; if (x > pxm->index_width) x = pxm->index_width - 1; if (y > pxm->index_height) y = pxm->index_height - 1; return make_reg(0, pxm->index_data[y * pxm->index_width + x] == pxm->color_key); } reg_t kCelHigh(EngineState *s, int, int argc, reg_t *argv) { int view = argv[0].toSint16(); int loop = argv[1].toSint16(); int cel = argv[2].toSint16(); int height, width; Common::Point offset; if (argc != 3) { warning("CelHigh called with %d parameters", argc); } gfxop_get_cel_parameters(s->gfx_state, view, loop, cel, &width, &height, &offset); return make_reg(0, height); } reg_t kCelWide(EngineState *s, int, int argc, reg_t *argv) { int view = argv[0].toSint16(); int loop = argv[1].toSint16(); int cel = argv[2].toSint16(); int height, width; Common::Point offset; if (argc != 3) { warning("CelHigh called with %d parameters", argc); } gfxop_get_cel_parameters(s->gfx_state, view, loop, cel, &width, &height, &offset); return make_reg(0, width); } reg_t kNumLoops(EngineState *s, int, int argc, reg_t *argv) { SegManager *segMan = s->segMan; reg_t obj = argv[0]; int view = GET_SEL32V(obj, view); int loops_nr = gfxop_lookup_view_get_loops(s->gfx_state, view); if (loops_nr < 0) { error("view.%d (0x%x) not found", view, view); return NULL_REG; } debugC(2, kDebugLevelGraphics, "NumLoops(view.%d) = %d\n", view, loops_nr); return make_reg(0, loops_nr); } reg_t kNumCels(EngineState *s, int, int argc, reg_t *argv) { SegManager *segMan = s->segMan; reg_t obj = argv[0]; int loop = GET_SEL32V(obj, loop); int view = GET_SEL32V(obj, view); int cel = 0xffff; gfxop_check_cel(s->gfx_state, view, &loop, &cel); debugC(2, kDebugLevelGraphics, "NumCels(view.%d, %d) = %d\n", view, loop, cel + 1); return make_reg(0, cel + 1); } reg_t kOnControl(EngineState *s, int, int argc, reg_t *argv) { int arg = 0; gfx_map_mask_t map; int xstart, ystart; int xlen = 1, ylen = 1; if (argc == 2 || argc == 4) map = GFX_MASK_CONTROL; else { arg = 1; map = (gfx_map_mask_t) argv[0].toSint16(); } ystart = argv[arg + 1].toSint16(); xstart = argv[arg].toSint16(); if (argc > 3) { ylen = argv[arg + 3].toSint16() - ystart; xlen = argv[arg + 2].toSint16() - xstart; } return make_reg(0, gfxop_scan_bitmask(s->gfx_state, gfx_rect(xstart, ystart + 10, xlen, ylen), map)); } void _k_view_list_free_backgrounds(EngineState *s, ViewObject *list, int list_nr); #define K_DRAWPIC_FLAG_MIRRORED (1 << 14) reg_t kDrawPic(EngineState *s, int, int argc, reg_t *argv) { drawn_pic_t dp; bool add_to_pic = (argc > 2) ? !argv[2].toSint16() : false; gfx_color_t transparent = s->wm_port->_bgcolor; int picFlags = DRAWPIC01_FLAG_FILL_NORMALLY; if (((SciEngine*)g_engine)->getKernel()->usesOldGfxFunctions()) add_to_pic = (argc > 2) ? argv[2].toSint16() : false; dp.nr = argv[0].toSint16(); dp.palette = (argc > 3) ? argv[3].toSint16() : 0; if ((argc > 1) && (argv[1].toUint16() & K_DRAWPIC_FLAG_MIRRORED)) picFlags |= DRAWPIC1_FLAG_MIRRORED; gfxop_disable_dirty_frames(s->gfx_state); if (NULL != s->old_screen) { gfxop_free_pixmap(s->gfx_state, s->old_screen); } s->old_screen = gfxop_grab_pixmap(s->gfx_state, gfx_rect(0, 10, 320, 190)); debugC(2, kDebugLevelGraphics, "Drawing pic.%03d\n", argv[0].toSint16()); if (add_to_pic) { gfxop_add_to_pic(s->gfx_state, dp.nr, picFlags, dp.palette); } else { gfxop_new_pic(s->gfx_state, dp.nr, picFlags, dp.palette); } delete s->wm_port; delete s->picture_port; delete s->iconbar_port; s->wm_port = new GfxPort(s->visual, s->gfx_state->pic_port_bounds, s->ega_colors[0], transparent); s->picture_port = new GfxPort(s->visual, s->gfx_state->pic_port_bounds, s->ega_colors[0], transparent); s->iconbar_port = new GfxPort(s->visual, gfx_rect(0, 0, 320, 200), s->ega_colors[0], transparent); s->iconbar_port->_flags |= GFXW_FLAG_NO_IMPLICIT_SWITCH; s->visual->add((GfxContainer *)s->visual, s->picture_port); s->visual->add((GfxContainer *)s->visual, s->wm_port); s->visual->add((GfxContainer *)s->visual, s->iconbar_port); s->port = s->picture_port; s->pic_priority_table = gfxop_get_pic_metainfo(s->gfx_state); if (argc > 1) s->pic_animate = argv[1].toSint16() & 0xff; // The animation used during kAnimate() later on s->dyn_views = NULL; s->drop_views = NULL; s->priority_first = 42; if (((SciEngine*)g_engine)->getKernel()->usesOldGfxFunctions()) s->priority_last = 200; else s->priority_last = 190; s->pic_not_valid = 1; s->pic_is_new = 1; return s->r_acc; } Common::Rect set_base(EngineState *s, reg_t object) { SegManager *segMan = s->segMan; int x, y, original_y, z, ystep, xsize, ysize; int xbase, ybase, xend, yend; int view, loop, cel; int oldloop, oldcel; int xmod = 0, ymod = 0; Common::Rect retval; x = (int16)GET_SEL32V(object, x); original_y = y = (int16)GET_SEL32V(object, y); if (((SciEngine*)g_engine)->getKernel()->_selectorMap.z > -1) z = (int16)GET_SEL32V(object, z); else z = 0; y -= z; // Subtract z offset ystep = (int16)GET_SEL32V(object, yStep); view = (int16)GET_SEL32V(object, view); oldloop = loop = sign_extend_byte(GET_SEL32V(object, loop)); oldcel = cel = sign_extend_byte(GET_SEL32V(object, cel)); Common::Point offset = Common::Point(0, 0); if (loop != oldloop) { loop = 0; PUT_SEL32V(object, loop, 0); debugC(2, kDebugLevelGraphics, "Resetting loop for %04x:%04x!\n", PRINT_REG(object)); } if (cel != oldcel) { cel = 0; PUT_SEL32V(object, cel, 0); } gfxop_get_cel_parameters(s->gfx_state, view, loop, cel, &xsize, &ysize, &offset); xmod = offset.x; ymod = offset.y; xbase = x - xmod - (xsize >> 1); xend = xbase + xsize; yend = y /* - ymod */ + 1; ybase = yend - ystep; debugC(2, kDebugLevelBaseSetter, "(%d,%d)+/-(%d,%d), (%d x %d) -> (%d, %d) to (%d, %d)\n", x, y, xmod, ymod, xsize, ysize, xbase, ybase, xend, yend); retval.left = xbase; retval.top = ybase; retval.right = xend; retval.bottom = yend; return retval; } void _k_base_setter(EngineState *s, reg_t object) { SegManager *segMan = s->segMan; Common::Rect absrect = set_base(s, object); if (lookup_selector(s->segMan, object, ((SciEngine*)g_engine)->getKernel()->_selectorMap.brLeft, NULL, NULL) != kSelectorVariable) return; // non-fatal // Note: there was a check here for a very old version of SCI, which supposedly needed // to subtract 1 from absrect.top. The original check was for version 0.000.256, which // does not exist (earliest one was KQ4 SCI, version 0.000.274). This code is left here // for reference only #if 0 if (s->resMan->sciVersion() <= SCI_VERSION_0) --absrect.top; // Compensate for early SCI OB1 'bug' #endif PUT_SEL32V(object, brLeft, absrect.left); PUT_SEL32V(object, brRight, absrect.right); PUT_SEL32V(object, brTop, absrect.top); PUT_SEL32V(object, brBottom, absrect.bottom); } reg_t kBaseSetter(EngineState *s, int, int argc, reg_t *argv) { reg_t object = argv[0]; _k_base_setter(s, object); return s->r_acc; } // kBaseSetter static Common::Rect nsrect_clip(EngineState *s, int y, Common::Rect retval, int priority) { int pri_top; if (priority == -1) priority = _find_view_priority(s, y); pri_top = _find_priority_band(s, priority) + 1; // +1: Don't know why, but this seems to be happening if (retval.top < pri_top) retval.top = pri_top; if (retval.bottom < retval.top) retval.top = retval.bottom - 1; return retval; } static Common::Rect calculate_nsrect(EngineState *s, int x, int y, int view, int loop, int cel) { int xbase, ybase, xend, yend, xsize, ysize; int xmod = 0, ymod = 0; Common::Rect retval(0, 0, 0, 0); Common::Point offset = Common::Point(0, 0); gfxop_get_cel_parameters(s->gfx_state, view, loop, cel, &xsize, &ysize, &offset); xmod = offset.x; ymod = offset.y; xbase = x - xmod - (xsize >> 1); xend = xbase + xsize; yend = y - ymod + 1; // +1: magic modifier ybase = yend - ysize; retval.left = xbase; retval.top = ybase; retval.right = xend; retval.bottom = yend; return retval; } Common::Rect get_nsrect(EngineState *s, reg_t object, byte clip) { SegManager *segMan = s->segMan; int x, y, z; int view, loop, cel; Common::Rect retval; x = (int16)GET_SEL32V(object, x); y = (int16)GET_SEL32V(object, y); if (((SciEngine*)g_engine)->getKernel()->_selectorMap.z > -1) z = (int16)GET_SEL32V(object, z); else z = 0; y -= z; // Subtract z offset view = (int16)GET_SEL32V(object, view); loop = sign_extend_byte((int16)GET_SEL32V(object, loop)); cel = sign_extend_byte((int16)GET_SEL32V(object, cel)); retval = calculate_nsrect(s, x, y, view, loop, cel); if (clip) { int priority = (int16)GET_SEL32V(object, priority); return nsrect_clip(s, y, retval, priority); } return retval; } static void _k_set_now_seen(EngineState *s, reg_t object) { SegManager *segMan = s->segMan; Common::Rect absrect = get_nsrect(s, object, 0); if (lookup_selector(s->segMan, object, ((SciEngine*)g_engine)->getKernel()->_selectorMap.nsTop, NULL, NULL) != kSelectorVariable) { return; } // This isn't fatal PUT_SEL32V(object, nsLeft, absrect.left); PUT_SEL32V(object, nsRight, absrect.right); PUT_SEL32V(object, nsTop, absrect.top); PUT_SEL32V(object, nsBottom, absrect.bottom); } reg_t kSetNowSeen(EngineState *s, int, int argc, reg_t *argv) { reg_t object = argv[0]; _k_set_now_seen(s, object); return s->r_acc; } reg_t kPalette(EngineState *s, int, int argc, reg_t *argv) { switch (argv[0].toUint16()) { case 1: debug(5, "STUB: kPalette() effect 1, direct palette set"); break; case 2: debug(5, "STUB: kPalette() effect 2, set flag to colors"); break; case 3: debug(5, "STUB: kPalette() effect 3, clear flag to colors"); break; case 4: { // Set palette intensity #if 0 // Colors 0 (black) and 255 (white) cannot be changed int16 from = CLIP(1, 255, argv[2].toUint16()); int16 to = CLIP(1, 255, argv[3].toUint16()); int16 intensity = argv[4].toUint16(); if (argc < 5 || argv[5].toUint16() == 0) { s->gfx_state->gfxResMan->setPaletteIntensity(from, to, intensity); } else { warning("kPalette: argv[5] != 0"); } return s->r_acc; #endif debug(5, "STUB: kPalette() effect 4, set color intensity"); break; } case 5: { // Find closest color int r = argv[1].toUint16(); int g = argv[2].toUint16(); int b = argv[3].toUint16(); int i, delta, bestindex = -1, bestdelta = 200000; for (i = 0; i < s->gfx_state->gfxResMan->getColorCount(); i++) { int dr = abs(s->gfx_state->gfxResMan->getColor(i).r - r); int dg = abs(s->gfx_state->gfxResMan->getColor(i).g - g); int db = abs(s->gfx_state->gfxResMan->getColor(i).b - b); delta = dr * dr + dg * dg + db * db; if (delta < bestdelta) { bestdelta = delta; bestindex = i; } } // Don't warn about inexact mappings -- it's actually the // rule rather than the exception return make_reg(0, bestindex); } case 6: debug(5, "STUB: kPalette() effect 6, animate palette"); break; case 7: debug(5, "STUB: kPalette() effect 7, save palette to heap"); break; case 8: debug(5, "STUB: kPalette() effect 8, set stored palette"); break; default: warning("kPalette(): Unimplemented subfunction: %d", argv[0].toUint16()); } return s->r_acc; } reg_t kPalVary(EngineState *s, int, int argc, reg_t *argv) { warning("STUB: kPalVary()"); return NULL_REG; } static void _k_draw_control(EngineState *s, reg_t obj, int inverse); static void disableCertainButtons(SegManager *segMan, Common::String gameName, reg_t obj) { reg_t text_pos = GET_SEL32(obj, text); char *text = text_pos.isNull() ? NULL : segMan->derefString(text_pos); int type = GET_SEL32V(obj, type); int state = GET_SEL32V(obj, state); /* * WORKAROUND: The function is a "prevent the user from doing something * nasty" type of thing, and goes back to the ugly way in which savegame * deletion is implemented in SCI (and even worse in SQ4/Floppy, for * which the workaround is intended). The result is basically that you * can't implement savegame deletion for SQ4/Floppy unless you duplicate * the exact naming scheme of savefiles (i.e. savefiles must be named * SQ4SG.) and the exact file format of the savegame index * (SQ4SG.DIR). From the earlier discussions on file I/O handling - * before as well as after the merge - I gather that this is not an * option. * * SQ4/Floppy is special, being the first game to implement savegame * deletion at all. For later games, we manage to implement deletion by * using gross hacks in kDeviceInfo() (essentially repurposing a few * subfunctions). I decided at the time that SQ4/Floppy was not worth the * effort (see above), and to simply disable the delete functionality for * that game - bringing the save/load dialog on a par with SCI0. */ // NOTE: This _only_ works with the English version if (type == K_CONTROL_BUTTON && text && (gameName == "sq4") && segMan->sciVersion() < SCI_VERSION_1_1 && !strcmp(text, " Delete ")) { PUT_SEL32V(obj, state, (state | kControlStateDisabled) & ~kControlStateEnabled); } // Disable the "Change Directory" button, as we don't allow the game engine to // change the directory where saved games are placed // NOTE: This _only_ works with the English version if (type == K_CONTROL_BUTTON && text && !strcmp(text, "Change\r\nDirectory")) { PUT_SEL32V(obj, state, (state | kControlStateDisabled) & ~kControlStateEnabled); } } reg_t kDrawControl(EngineState *s, int, int argc, reg_t *argv) { reg_t obj = argv[0]; disableCertainButtons(s->segMan, s->_gameName, obj); _k_draw_control(s, obj, 0); FULL_REDRAW(); return NULL_REG; } reg_t kHiliteControl(EngineState *s, int, int argc, reg_t *argv) { reg_t obj = argv[0]; _k_draw_control(s, obj, 1); return s->r_acc; } void update_cursor_limits(int *display_offset, int *cursor, int max_displayed) { if (*cursor < *display_offset + 4) { if (*cursor < 8) *display_offset = 0; else *display_offset = *cursor - 8; } else if (*cursor - *display_offset > max_displayed - 8) *display_offset = 12 + *cursor - max_displayed; } #define _K_EDIT_DELETE \ if (cursor < textlen) { \ memmove(text + cursor, text + cursor + 1, textlen - cursor +1); \ } #define _K_EDIT_BACKSPACE \ if (cursor) { \ --cursor; \ memmove(text + cursor, text + cursor + 1, textlen - cursor +1); \ --textlen; \ } reg_t kEditControl(EngineState *s, int, int argc, reg_t *argv) { SegManager *segMan = s->segMan; reg_t obj = argv[0]; reg_t event = argv[1]; if (obj.segment) { uint16 ct_type = GET_SEL32V(obj, type); switch (ct_type) { case 0: break; // NOP case K_CONTROL_EDIT: if (event.segment && ((GET_SEL32V(event, type)) == SCI_EVT_KEYBOARD)) { int max_displayed = GET_SEL32V(obj, max); int max = max_displayed; int cursor = GET_SEL32V(obj, cursor); int modifiers = GET_SEL32V(event, modifiers); int key = GET_SEL32V(event, message); reg_t text_pos = GET_SEL32(obj, text); int display_offset = 0; char *text = s->segMan->derefString(text_pos); int textlen; if (!text) { warning("Could not draw control: %04x:%04x does not reference text", PRINT_REG(text_pos)); return s->r_acc; } textlen = strlen(text); cursor += display_offset; if (cursor > textlen) cursor = textlen; if (modifiers & SCI_EVM_CTRL) { switch (tolower((char)key)) { case 'a': cursor = 0; break; case 'e': cursor = textlen; break; case 'f': if (cursor < textlen) ++cursor; break; case 'b': if (cursor > 0) --cursor; break; case 'k': text[cursor] = 0; break; // Terminate string case 'h': _K_EDIT_BACKSPACE; break; case 'd': _K_EDIT_DELETE; break; } PUT_SEL32V(event, claimed, 1); } else if (modifiers & SCI_EVM_ALT) { // Ctrl has precedence over Alt switch (key) { case 0x2100 /* A-f */: while ((cursor < textlen) && (text[cursor++] != ' ')) ; break; case 0x3000 /* A-b */: while ((cursor > 0) && (text[--cursor - 1] != ' ')) ; break; case 0x2000 /* A-d */: { while ((cursor < textlen) && (text[cursor] == ' ')) { _K_EDIT_DELETE; textlen--; } while ((cursor < textlen) && (text[cursor] != ' ')) { _K_EDIT_DELETE; textlen--; } break; } } PUT_SEL32V(event, claimed, 1); } else if (key < 31) { PUT_SEL32V(event, claimed, 1); switch (key) { case SCI_K_BACKSPACE: _K_EDIT_BACKSPACE; break; default: PUT_SEL32V(event, claimed, 0); } } else if (key & 0xff00) { switch (key) { case SCI_K_HOME: cursor = 0; break; case SCI_K_END: cursor = textlen; break; case SCI_K_RIGHT: if (cursor + 1 <= textlen) ++cursor; break; case SCI_K_LEFT: if (cursor > 0) --cursor; break; case SCI_K_DELETE: _K_EDIT_DELETE; break; } PUT_SEL32V(event, claimed, 1); } else if ((key > 31) && (key < 128)) { int inserting = (modifiers & SCI_EVM_INSERT); modifiers &= ~(SCI_EVM_RSHIFT | SCI_EVM_LSHIFT | SCI_EVM_CAPSLOCK); if (cursor == textlen) { if (textlen < max) { text[cursor++] = key; text[cursor] = 0; // Terminate string } } else if (inserting) { if (textlen < max) { int i; for (i = textlen + 2; i >= cursor; i--) text[i] = text[i - 1]; text[cursor++] = key; } } else { // Overwriting text[cursor++] = key; } if (max_displayed < max) update_cursor_limits(&display_offset, &cursor, max_displayed); cursor -= display_offset; PUT_SEL32V(event, claimed, 1); } PUT_SEL32V(obj, cursor, cursor); // Write back cursor position } case K_CONTROL_ICON: case K_CONTROL_BOX: case K_CONTROL_BUTTON: if (event.segment) PUT_SEL32V(event, claimed, 1); _k_draw_control(s, obj, 0); return NULL_REG; break; case K_CONTROL_TEXT: { int state = GET_SEL32V(obj, state); PUT_SEL32V(obj, state, state | kControlStateDitherFramed); _k_draw_control(s, obj, 0); PUT_SEL32V(obj, state, state); } break; default: warning("Attempt to edit control type %d", ct_type); } } return s->r_acc; } static void _k_draw_control(EngineState *s, reg_t obj, int inverse) { SegManager *segMan = s->segMan; int x = (int16)GET_SEL32V(obj, nsLeft); int y = (int16)GET_SEL32V(obj, nsTop); int xl = (int16)GET_SEL32V(obj, nsRight) - x; int yl = (int16)GET_SEL32V(obj, nsBottom) - y; rect_t area = gfx_rect(x, y, xl, yl); int font_nr = GET_SEL32V(obj, font); reg_t text_pos = GET_SEL32(obj, text); const char *text = text_pos.isNull() ? NULL : s->segMan->derefString(text_pos); int view = GET_SEL32V(obj, view); int cel = sign_extend_byte(GET_SEL32V(obj, cel)); int loop = sign_extend_byte(GET_SEL32V(obj, loop)); gfx_alignment_t mode; int type = GET_SEL32V(obj, type); int state = GET_SEL32V(obj, state); int cursor; int max; switch (type) { case K_CONTROL_BUTTON: debugC(2, kDebugLevelGraphics, "drawing button %04x:%04x to %d,%d\n", PRINT_REG(obj), x, y); ADD_TO_CURRENT_PICTURE_PORT(sciw_new_button_control(s->port, obj, area, s->strSplit(text, NULL).c_str(), font_nr, (int8)(state & kControlStateFramed), (int8)inverse, (int8)(state & kControlStateDisabled))); break; case K_CONTROL_TEXT: mode = (gfx_alignment_t) GET_SEL32V(obj, mode); debugC(2, kDebugLevelGraphics, "drawing text %04x:%04x to %d,%d, mode=%d\n", PRINT_REG(obj), x, y, mode); ADD_TO_CURRENT_PICTURE_PORT(sciw_new_text_control(s->port, obj, area, s->strSplit(text).c_str(), font_nr, mode, (int8)(!!(state & kControlStateDitherFramed)), (int8)inverse)); break; case K_CONTROL_EDIT: debugC(2, kDebugLevelGraphics, "drawing edit control %04x:%04x to %d,%d\n", PRINT_REG(obj), x, y); max = GET_SEL32V(obj, max); cursor = GET_SEL32V(obj, cursor); if (cursor > (signed)strlen(text)) cursor = strlen(text); // update_cursor_limits(&s->save_dir_edit_offset, &cursor, max); FIXME: get rid of this? ADD_TO_CURRENT_PICTURE_PORT(sciw_new_edit_control(s->port, obj, area, text, font_nr, (unsigned)cursor, (int8)inverse)); break; case K_CONTROL_ICON: debugC(2, kDebugLevelGraphics, "drawing icon control %04x:%04x to %d,%d\n", PRINT_REG(obj), x, y - 1); ADD_TO_CURRENT_PICTURE_PORT(sciw_new_icon_control(s->port, obj, area, view, loop, cel, (int8)(state & kControlStateFramed), (int8)inverse)); break; case K_CONTROL_CONTROL: case K_CONTROL_CONTROL_ALIAS: { const char **entries_list = NULL; const char *seeker; int entries_nr; int lsTop = GET_SEL32V(obj, lsTop) - text_pos.offset; int list_top = 0; int selection = 0; int entry_size = GET_SEL32V(obj, x); int i; debugC(2, kDebugLevelGraphics, "drawing list control %04x:%04x to %d,%d, diff %d\n", PRINT_REG(obj), x, y, SCI_MAX_SAVENAME_LENGTH); cursor = GET_SEL32V(obj, cursor) - text_pos.offset; entries_nr = 0; seeker = text; while (seeker[0]) { // Count string entries in NULL terminated string list ++entries_nr; seeker += entry_size; } if (entries_nr) { // determine list_top, selection, and the entries_list seeker = text; entries_list = (const char**)malloc(sizeof(char *) * entries_nr); for (i = 0; i < entries_nr; i++) { entries_list[i] = seeker; seeker += entry_size ; if ((seeker - text) == lsTop) list_top = i + 1; if ((seeker - text) == cursor) selection = i + 1; } } ADD_TO_CURRENT_PICTURE_PORT(sciw_new_list_control(s->port, obj, area, font_nr, entries_list, entries_nr, list_top, selection, (int8)inverse)); if (entries_nr) free(entries_list); } break; case K_CONTROL_BOX: break; default: warning("Unknown control type: %d at %04x:%04x, at (%d, %d) size %d x %d", type, PRINT_REG(obj), x, y, xl, yl); } if (!s->pic_not_valid) { FULL_REDRAW(); } } static void draw_rect_to_control_map(EngineState *s, Common::Rect abs_zone) { GfxBox *box; gfx_color_t color; gfxop_set_color(s->gfx_state, &color, -1, -1, -1, -1, -1, 0xf); debugC(2, kDebugLevelGraphics, " adding control block (%d,%d)to(%d,%d)\n", abs_zone.left, abs_zone.top, abs_zone.right, abs_zone.bottom); box = gfxw_new_box(s->gfx_state, gfx_rect(abs_zone.left, abs_zone.top, abs_zone.width(), abs_zone.height()), color, color, GFX_BOX_SHADE_FLAT); assert_primary_widget_lists(s); ADD_TO_CURRENT_PICTURE_PORT(box); } static void draw_obj_to_control_map(EngineState *s, GfxDynView *view) { reg_t obj = make_reg(view->_ID, view->_subID); if (!s->segMan->isObject(obj)) warning("View %d does not contain valid object reference %04x:%04x", view->_ID, PRINT_REG(obj)); reg_t* sp = view->signalp.getPointer(s->segMan); if (!(sp && (sp->offset & _K_VIEW_SIG_FLAG_IGNORE_ACTOR))) { Common::Rect abs_zone = get_nsrect(s, make_reg(view->_ID, view->_subID), 1); draw_rect_to_control_map(s, abs_zone); } } static void _k_view_list_do_postdraw(EngineState *s, GfxList *list) { SegManager *segMan = s->segMan; GfxDynView *widget = (GfxDynView *) list->_contents; while (widget) { reg_t obj = make_reg(widget->_ID, widget->_subID); /* * this fixes a few problems, but doesn't match SSCI's logic. * The semantics of the private flag need to be verified before this can be uncommented. * Fixes bug #326 (CB1, ego falls down stairs) * if ((widget->signal & (_K_VIEW_SIG_FLAG_PRIVATE | _K_VIEW_SIG_FLAG_REMOVE | _K_VIEW_SIG_FLAG_NO_UPDATE)) == _K_VIEW_SIG_FLAG_PRIVATE) { */ if ((widget->signal & (_K_VIEW_SIG_FLAG_REMOVE | _K_VIEW_SIG_FLAG_NO_UPDATE)) == 0) { int has_nsrect = lookup_selector(s->segMan, obj, ((SciEngine*)g_engine)->getKernel()->_selectorMap.nsBottom, NULL, NULL) == kSelectorVariable; if (has_nsrect) { int temp; temp = GET_SEL32V(obj, nsLeft); PUT_SEL32V(obj, lsLeft, temp); temp = GET_SEL32V(obj, nsRight); PUT_SEL32V(obj, lsRight, temp); temp = GET_SEL32V(obj, nsTop); PUT_SEL32V(obj, lsTop, temp); temp = GET_SEL32V(obj, nsBottom); PUT_SEL32V(obj, lsBottom, temp); #ifdef DEBUG_LSRECT fprintf(stderr, "lsRected %04x:%04x\n", PRINT_REG(obj)); #endif } #ifdef DEBUG_LSRECT else fprintf(stderr, "Not lsRecting %04x:%04x because %d\n", PRINT_REG(obj), lookup_selector(s->segMan, obj, ((SciEngine*)g_engine)->getKernel()->_selectorMap.nsBottom, NULL, NULL)); #endif if (widget->signal & _K_VIEW_SIG_FLAG_HIDDEN) widget->signal |= _K_VIEW_SIG_FLAG_REMOVE; } #ifdef DEBUG_LSRECT fprintf(stderr, "obj %04x:%04x has pflags %x\n", PRINT_REG(obj), (widget->signal & (_K_VIEW_SIG_FLAG_REMOVE | _K_VIEW_SIG_FLAG_NO_UPDATE))); #endif reg_t* sp = widget->signalp.getPointer(s->segMan); if (sp) { *sp = make_reg(0, widget->signal & 0xffff); /* Write back signal */ } widget = (GfxDynView *)widget->_next; } } void _k_view_list_mark_free(EngineState *s, reg_t off) { if (s->dyn_views) { GfxDynView *w = (GfxDynView *)s->dyn_views->_contents; while (w) { if (w->_ID == off.segment && w->_subID == off.offset) { w->under_bitsp.obj = NULL_REG; } w = (GfxDynView *)w->_next; } } } static bool _k_animate_ran = false; // FIXME: Avoid non-const global vars int _k_view_list_dispose_loop(EngineState *s, List *list, GfxDynView *widget, int argc, reg_t *argv) { // disposes all list members flagged for disposal // returns non-zero IFF views were dropped int signal; int dropped = 0; SegManager *segMan = s->segMan; _k_animate_ran = false; if (widget) { int retval; // Recurse: retval = _k_view_list_dispose_loop(s, list, (GfxDynView *)widget->_next, argc, argv); if (retval == -1) // Bail out on annihilation, rely on re-start from Animate() return -1; if (GFXW_IS_DYN_VIEW(widget) && (widget->_ID != GFXW_NO_ID)) { signal = widget->signalp.getPointer(segMan)->offset; if (signal & _K_VIEW_SIG_FLAG_DISPOSE_ME) { reg_t obj = make_reg(widget->_ID, widget->_subID); reg_t under_bits = NULL_REG; if (!s->segMan->isObject(obj)) { error("Non-object %04x:%04x present in view list during delete time", PRINT_REG(obj)); obj = NULL_REG; } else { reg_t *ubp = widget->under_bitsp.getPointer(segMan); if (ubp) { // Is there a bg picture left to clean? reg_t mem_handle = *ubp; if (mem_handle.segment) { if (!kfree(s->segMan, mem_handle)) { *ubp = make_reg(0, widget->under_bits = 0); } else { warning("Treating viewobj %04x:%04x as no longer present", PRINT_REG(obj)); obj = NULL_REG; } } } } if (segMan->isObject(obj)) { if (invoke_selector(INV_SEL(obj, delete_, kContinueOnInvalidSelector), 0)) warning("Object at %04x:%04x requested deletion, but does not have a delete funcselector", PRINT_REG(obj)); if (_k_animate_ran) { warning("Object at %04x:%04x invoked kAnimate() during deletion", PRINT_REG(obj)); return dropped; } reg_t *ubp = widget->under_bitsp.getPointer(segMan); if (ubp) under_bits = *ubp; if (under_bits.segment) { *ubp = make_reg(0, 0); graph_restore_box(s, under_bits); } debugC(2, kDebugLevelGraphics, "Freeing %04x:%04x with signal=%04x\n", PRINT_REG(obj), signal); if (!(signal & _K_VIEW_SIG_FLAG_HIDDEN)) { debugC(2, kDebugLevelGraphics, "Adding view at %04x:%04x to background\n", PRINT_REG(obj)); if (!(gfxw_remove_id(widget->_parent, widget->_ID, widget->_subID) == widget)) { error("Attempt to remove view with ID %x:%x from list failed", widget->_ID, widget->_subID); } s->drop_views->add((GfxContainer *)s->drop_views, gfxw_picviewize_dynview(widget)); draw_obj_to_control_map(s, widget); widget->draw_bounds.y += s->dyn_views->_bounds.y - widget->_parent->_bounds.y; widget->draw_bounds.x += s->dyn_views->_bounds.x - widget->_parent->_bounds.x; dropped = 1; } else { debugC(2, kDebugLevelGraphics, "Deleting view at %04x:%04x\n", PRINT_REG(obj)); widget->_flags |= GFXW_FLAG_VISIBLE; gfxw_annihilate(widget); return -1; // restart: Done in Animate() } } } } } return dropped; } enum { _K_MAKE_VIEW_LIST_CYCLE = 1, _K_MAKE_VIEW_LIST_CALC_PRIORITY = 2, _K_MAKE_VIEW_LIST_DRAW_TO_CONTROL_MAP = 4 }; static GfxDynView *_k_make_dynview_obj(EngineState *s, reg_t obj, int options, int nr, int argc, reg_t *argv) { SegManager *segMan = s->segMan; short oldloop, oldcel; int cel, loop, view_nr = (int16)GET_SEL32V(obj, view); int palette; int signal; reg_t under_bits; Common::Point pos; int z; GfxDynView *widget; debugC(2, kDebugLevelGraphics, " - Adding %04x:%04x\n", PRINT_REG(obj)); obj = obj; pos.x = (int16)GET_SEL32V(obj, x); pos.y = (int16)GET_SEL32V(obj, y); pos.y++; // magic: Sierra appears to do something like this z = (int16)GET_SEL32V(obj, z); // !-- nsRect used to be checked here! loop = oldloop = sign_extend_byte(GET_SEL32V(obj, loop)); cel = oldcel = sign_extend_byte(GET_SEL32V(obj, cel)); if (((SciEngine*)g_engine)->getKernel()->_selectorMap.palette) palette = GET_SEL32V(obj, palette); else palette = 0; // Clip loop and cel, write back if neccessary gfxop_check_cel(s->gfx_state, view_nr, &loop, &cel); if (loop != oldloop) loop = 0; if (cel != oldcel) cel = 0; if (oldloop != loop) PUT_SEL32V(obj, loop, loop); if (oldcel != cel) { PUT_SEL32V(obj, cel, cel); } ObjVarRef under_bitsp; if (lookup_selector(s->segMan, obj, ((SciEngine*)g_engine)->getKernel()->_selectorMap.underBits, &(under_bitsp), NULL) != kSelectorVariable) { under_bitsp.obj = NULL_REG; under_bits = NULL_REG; debugC(2, kDebugLevelGraphics, "Object at %04x:%04x has no underBits\n", PRINT_REG(obj)); } else under_bits = *under_bitsp.getPointer(s->segMan); ObjVarRef signalp; if (lookup_selector(s->segMan, obj, ((SciEngine*)g_engine)->getKernel()->_selectorMap.signal, &(signalp), NULL) != kSelectorVariable) { signalp.obj = NULL_REG; signal = 0; debugC(2, kDebugLevelGraphics, "Object at %04x:%04x has no signal selector\n", PRINT_REG(obj)); } else { signal = signalp.getPointer(s->segMan)->offset; debugC(2, kDebugLevelGraphics, " with signal = %04x\n", signal); } widget = gfxw_new_dyn_view(s->gfx_state, pos, z, view_nr, loop, cel, palette, -1, -1, ALIGN_CENTER, ALIGN_BOTTOM, nr); if (widget) { widget = (GfxDynView *) gfxw_set_id(widget, obj.segment, obj.offset); widget = gfxw_dyn_view_set_params(widget, under_bits.segment, under_bitsp, signal, signalp); widget->_flags |= GFXW_FLAG_IMMUNE_TO_SNAPSHOTS; // Only works the first time 'round' return widget; } else { warning("Could not generate dynview widget for %d/%d/%d", view_nr, loop, cel); return NULL; } } static void _k_make_view_list(EngineState *s, GfxList **widget_list, List *list, int options, int argc, reg_t *argv) { /* Creates a view_list from a node list in heap space. Returns the list, stores the ** number of list entries in *list_nr. Calls doit for each entry if cycle is set. ** argc, argv should be the same as in the calling kernel function. */ SegManager *segMan = s->segMan; Node *node; int sequence_nr = 0; GfxDynView *widget; if (!*widget_list) { error("make_view_list with widget_list == ()"); }; assert_primary_widget_lists(s); // In case one of the views' doit() does a DrawPic... // Yes, this _does_ happen! if (!list) { // list sanity check error("Attempt to make list from non-list"); } reg_t next_node = list->first; node = lookup_node(s, next_node); while (node) { reg_t obj = node->value; // The object we're using GfxDynView *tempWidget; if (options & _K_MAKE_VIEW_LIST_CYCLE) { unsigned int signal = GET_SEL32V(obj, signal); if (!(signal & _K_VIEW_SIG_FLAG_FROZEN)) { debugC(2, kDebugLevelGraphics, " invoking %04x:%04x::doit()\n", PRINT_REG(obj)); invoke_selector(INV_SEL(obj, doit, kContinueOnInvalidSelector), 0); // Call obj::doit() if neccessary // Lookup node again, since the NodeTable it was in may // have been re-allocated. node = lookup_node(s, next_node); } } next_node = node->succ; // In case the cast list was changed if (list->first.segment == 0 && list->first.offset == 0) // The cast list was completely emptied! break; tempWidget = _k_make_dynview_obj(s, obj, options, sequence_nr--, argc, argv); if (tempWidget) (*widget_list)->add((GfxContainer *)(*widget_list), tempWidget); node = lookup_node(s, next_node); // Next node } widget = (GfxDynView *)(*widget_list)->_contents; while (widget) { // Read back widget values reg_t *sp = widget->signalp.getPointer(s->segMan); if (sp) widget->signal = sp->offset; widget = (GfxDynView *)widget->_next; } } static void _k_prepare_view_list(EngineState *s, GfxList *list, int options) { SegManager *segMan = s->segMan; GfxDynView *view = (GfxDynView *) list->_contents; while (view) { reg_t obj = make_reg(view->_ID, view->_subID); int priority, _priority; int has_nsrect = (view->_ID <= 0) ? 0 : lookup_selector(s->segMan, obj, ((SciEngine*)g_engine)->getKernel()->_selectorMap.nsBottom, NULL, NULL) == kSelectorVariable; int oldsignal = view->signal; _k_set_now_seen(s, obj); _priority = /*GET_SELECTOR(obj, y); */((view->_pos.y)); _priority = _find_view_priority(s, _priority - 1); if (options & _K_MAKE_VIEW_LIST_DRAW_TO_CONTROL_MAP) { // Picview priority = (int16)GET_SEL32V(obj, priority); if (priority < 0) priority = _priority; // Always for picviews } else { // Dynview if (has_nsrect && !(view->signal & _K_VIEW_SIG_FLAG_FIX_PRI_ON)) { // Calculate priority if (options & _K_MAKE_VIEW_LIST_CALC_PRIORITY) PUT_SEL32V(obj, priority, _priority); priority = _priority; } else // DON'T calculate the priority priority = (int16)GET_SEL32V(obj, priority); } view->_color.priority = priority; if (priority > -1) view->_color.mask |= GFX_MASK_PRIORITY; else view->_color.mask &= ~GFX_MASK_PRIORITY; // CR (from :Bob Heitman:) stopupdated views (like pic views) have // their clipped nsRect drawn to the control map if (view->signal & _K_VIEW_SIG_FLAG_STOP_UPDATE) { view->signal |= _K_VIEW_SIG_FLAG_STOPUPD; debugC(2, kDebugLevelGraphics, "Setting magic STOP_UPD for %04x:%04x\n", PRINT_REG(obj)); } if ((options & _K_MAKE_VIEW_LIST_DRAW_TO_CONTROL_MAP)) draw_obj_to_control_map(s, view); // Extreme Pattern Matching ugliness ahead... if (view->signal & _K_VIEW_SIG_FLAG_NO_UPDATE) { if (((view->signal & (_K_VIEW_SIG_FLAG_UPDATED | _K_VIEW_SIG_FLAG_FORCE_UPDATE))) // 9.1.1.1 || ((view->signal & (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_REMOVE)) == _K_VIEW_SIG_FLAG_HIDDEN) || ((view->signal & (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_REMOVE)) == _K_VIEW_SIG_FLAG_REMOVE) // 9.1.1.2 || ((view->signal & (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_REMOVE | _K_VIEW_SIG_FLAG_ALWAYS_UPDATE)) == _K_VIEW_SIG_FLAG_ALWAYS_UPDATE) // 9.1.1.3 || ((view->signal & (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_ALWAYS_UPDATE)) == (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_ALWAYS_UPDATE))) { // 9.1.1.4 s->pic_not_valid++; view->signal &= ~_K_VIEW_SIG_FLAG_STOP_UPDATE; } else if (((view->signal & (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_REMOVE | _K_VIEW_SIG_FLAG_ALWAYS_UPDATE)) == 0) || ((view->signal & (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_REMOVE | _K_VIEW_SIG_FLAG_ALWAYS_UPDATE)) == (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_REMOVE)) || ((view->signal & (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_ALWAYS_UPDATE)) == (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_ALWAYS_UPDATE)) || ((view->signal & (_K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_ALWAYS_UPDATE)) == _K_VIEW_SIG_FLAG_HIDDEN)) { view->signal &= ~_K_VIEW_SIG_FLAG_STOP_UPDATE; } } else { if (view->signal & _K_VIEW_SIG_FLAG_STOP_UPDATE) { s->pic_not_valid++; view->signal &= ~_K_VIEW_SIG_FLAG_FORCE_UPDATE; } else { // if not STOP_UPDATE if (view->signal & _K_VIEW_SIG_FLAG_ALWAYS_UPDATE) s->pic_not_valid++; view->signal &= ~_K_VIEW_SIG_FLAG_FORCE_UPDATE; } } debugC(2, kDebugLevelGraphics, " dv[%04x:%04x]: signal %04x -> %04x\n", PRINT_REG(obj), oldsignal, view->signal); // Never happens /* if (view->signal & 0) { view->signal &= ~_K_VIEW_SIG_FLAG_STOPUPD; fprintf(stderr, "Unsetting magic StopUpd for view %04x:%04x\n", PRINT_REG(obj)); } */ view = (GfxDynView *)view->_next; } } static void _k_update_signals_in_view_list(GfxList *old_list, GfxList *new_list) { // O(n^2)... a bit painful, but much faster than the redraws it helps prevent GfxDynView *old_widget = (GfxDynView *)old_list->_contents; /* Traverses all old widgets, updates them with signals from the new widgets. ** This is done to avoid evil hacks in widget.c; widgets with unique IDs are ** replaced there iff they are NOT equal_to a new widget with the same ID. ** If they were replaced every time, we'd be doing far too many redraws. */ while (old_widget) { GfxDynView *new_widget = (GfxDynView *) new_list->_contents; while (new_widget && (new_widget->_ID != old_widget->_ID || new_widget->_subID != old_widget->_subID)) new_widget = (GfxDynView *)new_widget->_next; if (new_widget) { int carry = old_widget->signal & _K_VIEW_SIG_FLAG_STOPUPD; // Transfer 'stopupd' flag if ((new_widget->_pos.x != old_widget->_pos.x) || (new_widget->_pos.y != old_widget->_pos.y) // No idea why this is supposed to be bad /* || (new_widget->z != old_widget->z) || (new_widget->view != old_widget->view) || (new_widget->loop != old_widget->loop) || (new_widget->cel != old_widget->cel) */) carry = 0; old_widget->signal = new_widget->signal |= carry; } old_widget = (GfxDynView *)old_widget->_next; } } static void _k_view_list_kryptonize(GfxWidget *v) { if (v) { v->_flags &= ~GFXW_FLAG_IMMUNE_TO_SNAPSHOTS; _k_view_list_kryptonize(v->_next); } } static void _k_raise_topmost_in_view_list(EngineState *s, GfxList *list, GfxDynView *view) { if (view) { GfxDynView *next = (GfxDynView *)view->_next; // step 11 if ((view->signal & (_K_VIEW_SIG_FLAG_NO_UPDATE | _K_VIEW_SIG_FLAG_HIDDEN | _K_VIEW_SIG_FLAG_ALWAYS_UPDATE)) == 0) { debugC(2, kDebugLevelGraphics, "Forcing precedence 2 at [%04x:%04x] with %04x\n", PRINT_REG(make_reg(view->_ID, view->_subID)), view->signal); view->force_precedence = 2; if ((view->signal & (_K_VIEW_SIG_FLAG_REMOVE | _K_VIEW_SIG_FLAG_HIDDEN)) == _K_VIEW_SIG_FLAG_REMOVE) { view->signal &= ~_K_VIEW_SIG_FLAG_REMOVE; } } gfxw_remove_widget_from_container(view->_parent, view); if (view->signal & _K_VIEW_SIG_FLAG_HIDDEN) gfxw_hide_widget(view); else gfxw_show_widget(view); list->add((GfxContainer *)list, view); _k_raise_topmost_in_view_list(s, list, next); } } static void _k_redraw_view_list(EngineState *s, GfxList *list) { GfxDynView *view = (GfxDynView *) list->_contents; while (view) { debugC(2, kDebugLevelGraphics, " dv[%04x:%04x]: signal %04x\n", PRINT_REG(make_reg(view->_ID, view->_subID)), view->signal); // step 1 of subalgorithm if (view->signal & _K_VIEW_SIG_FLAG_NO_UPDATE) { if (view->signal & _K_VIEW_SIG_FLAG_FORCE_UPDATE) view->signal &= ~_K_VIEW_SIG_FLAG_FORCE_UPDATE; if (view->signal & _K_VIEW_SIG_FLAG_UPDATED) view->signal &= ~(_K_VIEW_SIG_FLAG_UPDATED | _K_VIEW_SIG_FLAG_NO_UPDATE); } else { // NO_UPD is not set if (view->signal & _K_VIEW_SIG_FLAG_STOP_UPDATE) { view->signal &= ~_K_VIEW_SIG_FLAG_STOP_UPDATE; view->signal |= _K_VIEW_SIG_FLAG_NO_UPDATE; } } debugC(2, kDebugLevelGraphics, " at substep 6: signal %04x\n", view->signal); if (view->signal & _K_VIEW_SIG_FLAG_ALWAYS_UPDATE) view->signal &= ~(_K_VIEW_SIG_FLAG_STOP_UPDATE | _K_VIEW_SIG_FLAG_UPDATED | _K_VIEW_SIG_FLAG_NO_UPDATE | _K_VIEW_SIG_FLAG_FORCE_UPDATE); debugC(2, kDebugLevelGraphics, " at substep 11/14: signal %04x\n", view->signal); if (view->signal & _K_VIEW_SIG_FLAG_NO_UPDATE) { if (view->signal & _K_VIEW_SIG_FLAG_HIDDEN) view->signal |= _K_VIEW_SIG_FLAG_REMOVE; else view->signal &= ~_K_VIEW_SIG_FLAG_REMOVE; } else if (!(view->signal & _K_VIEW_SIG_FLAG_HIDDEN)) view->force_precedence = 1; debugC(2, kDebugLevelGraphics, " -> signal %04x\n", view->signal); view = (GfxDynView *)view->_next; } } // Flags for _k_draw_view_list // Whether some magic with the base object's "signal" selector should be done: #define _K_DRAW_VIEW_LIST_USE_SIGNAL 1 // This flag draws all views with the "DISPOSE_ME" flag set: #define _K_DRAW_VIEW_LIST_DISPOSEABLE 2 // Use this one to draw all views with "DISPOSE_ME" NOT set: #define _K_DRAW_VIEW_LIST_NONDISPOSEABLE 4 // Draw as picviews #define _K_DRAW_VIEW_LIST_PICVIEW 8 void _k_draw_view_list(EngineState *s, GfxList *list, int flags) { // Draws list_nr members of list to s->pic. GfxDynView *widget = (GfxDynView *) list->_contents; if ((GfxContainer *)s->port != (GfxContainer *)s->dyn_views->_parent) return; // Return if the pictures are meant for a different port while (widget) { if (flags & _K_DRAW_VIEW_LIST_PICVIEW) widget = gfxw_picviewize_dynview(widget); if (GFXW_IS_DYN_VIEW(widget) && widget->_ID) { uint16 signal = (flags & _K_DRAW_VIEW_LIST_USE_SIGNAL) ? widget->signalp.getPointer(s->segMan)->offset : 0; if (signal & _K_VIEW_SIG_FLAG_HIDDEN) gfxw_hide_widget(widget); else gfxw_show_widget(widget); if (!(flags & _K_DRAW_VIEW_LIST_USE_SIGNAL) || ((flags & _K_DRAW_VIEW_LIST_DISPOSEABLE) && (signal & _K_VIEW_SIG_FLAG_DISPOSE_ME)) || ((flags & _K_DRAW_VIEW_LIST_NONDISPOSEABLE) && !(signal & _K_VIEW_SIG_FLAG_DISPOSE_ME))) { if (flags & _K_DRAW_VIEW_LIST_USE_SIGNAL) { signal &= ~(_K_VIEW_SIG_FLAG_STOP_UPDATE | _K_VIEW_SIG_FLAG_UPDATED | _K_VIEW_SIG_FLAG_NO_UPDATE | _K_VIEW_SIG_FLAG_FORCE_UPDATE); // Clear all of those flags if (signal & _K_VIEW_SIG_FLAG_HIDDEN) gfxw_hide_widget(widget); else gfxw_show_widget(widget); *widget->signalp.getPointer(s->segMan) = make_reg(0, signal); // Write the changes back }; } // ...if we're drawing disposeables and this one is disposeable, or if we're drawing non- // disposeables and this one isn't disposeable } widget = (GfxDynView *)widget->_next; } // while (widget) } reg_t kAddToPic(EngineState *s, int, int argc, reg_t *argv) { GfxList *pic_views; reg_t list_ref = argv[0]; assert_primary_widget_lists(s); if (argc > 1) { int view, cel, loop, x, y, priority, control; GfxWidget *widget; view = argv[0].toUint16(); loop = argv[1].toUint16(); cel = argv[2].toUint16(); x = argv[3].toSint16(); y = argv[4].toSint16() + 1 /* magic + 1 */; priority = argv[5].toSint16(); control = argv[6].toSint16(); widget = gfxw_new_dyn_view(s->gfx_state, Common::Point(x, y), 0, view, loop, cel, 0, priority, -1 /* No priority */ , ALIGN_CENTER, ALIGN_BOTTOM, 0); if (!widget) { error("Attempt to single-add invalid picview (%d/%d/%d)", view, loop, cel); } else { widget->_ID = -1; if (control >= 0) { Common::Rect abs_zone = nsrect_clip(s, y, calculate_nsrect(s, x, y, view, loop, cel), priority); draw_rect_to_control_map(s, abs_zone); } ADD_TO_CURRENT_PICTURE_PORT(gfxw_picviewize_dynview((GfxDynView *) widget)); } } else { List *list; if (!list_ref.segment) { warning("Attempt to AddToPic single non-list: %04x:%04x", PRINT_REG(list_ref)); return s->r_acc; } list = lookup_list(s, list_ref); pic_views = gfxw_new_list(s->picture_port->_bounds, 1); debugC(2, kDebugLevelGraphics, "Preparing picview list...\n"); _k_make_view_list(s, &pic_views, list, 0, argc, argv); _k_prepare_view_list(s, pic_views, _K_MAKE_VIEW_LIST_DRAW_TO_CONTROL_MAP); // Store pic views for later re-use debugC(2, kDebugLevelGraphics, "Drawing picview list...\n"); ADD_TO_CURRENT_PICTURE_PORT(pic_views); _k_draw_view_list(s, pic_views, _K_DRAW_VIEW_LIST_NONDISPOSEABLE | _K_DRAW_VIEW_LIST_DISPOSEABLE | _K_DRAW_VIEW_LIST_PICVIEW); // Draw relative to the bottom center debugC(2, kDebugLevelGraphics, "Returning.\n"); } reparentize_primary_widget_lists(s, s->port); return s->r_acc; } reg_t kGetPort(EngineState *s, int, int argc, reg_t *argv) { return make_reg(0, s->port->_ID); } reg_t kSetPort(EngineState *s, int, int argc, reg_t *argv) { if (activated_icon_bar && argc == 6) { port_origin_x = port_origin_y = 0; activated_icon_bar = false; return s->r_acc; } switch (argc) { case 1 : { unsigned int port_nr = argv[0].toSint16(); GfxPort *new_port; /* We depart from official semantics here, sorry! Reasoning: Sierra SCI does not clip ports while we do. Therefore a draw to the titlebar port (which is the official semantics) would cut off the lower part of the icons in an SCI1 icon bar. Instead we have an iconbar_port that does not exist in SSCI. */ if (port_nr == (unsigned int) - 1) port_nr = s->iconbar_port->_ID; new_port = s->visual->getPort(port_nr); if (!new_port) { warning("Invalid port %04x requested", port_nr); return NULL_REG; } s->port->draw(gfxw_point_zero); // Update the port we're leaving s->port = new_port; return s->r_acc; } case 6 : { port_origin_y = argv[0].toSint16(); port_origin_x = argv[1].toSint16(); if (argv[0].toSint16() == -10) { s->port->draw(gfxw_point_zero); // Update the port we're leaving s->port = s->iconbar_port; activated_icon_bar = true; return s->r_acc; } // Notify the graphics resource manager that the pic port bounds changed s->gfx_state->gfxResMan->changePortBounds(argv[5].toUint16(), argv[4].toUint16(), argv[3].toUint16() + argv[5].toUint16(), argv[2].toUint16() + argv[4].toUint16()); // LSL6 calls kSetPort to extend the screen to draw the GUI. If we free all resources // here, the background picture is freed too, and this makes everything a big mess. // FIXME/TODO: This code really needs to be rewritten to conform to the original behavior if (s->_gameName != "lsl6") { s->gfx_state->pic_port_bounds = gfx_rect(argv[5].toUint16(), argv[4].toUint16(), argv[3].toUint16(), argv[2].toUint16()); // FIXME: Should really only invalidate all loaded pic resources here; // this is overkill s->gfx_state->gfxResMan->freeAllResources(); } else { // WORKAROUND for LSL6 printf("SetPort case 6 called in LSL6. Origin: %d, %d - Clip rect: %d, %d, %d, %d\n", argv[1].toSint16(), argv[0].toSint16(), argv[5].toUint16(), argv[4].toUint16(), argv[3].toUint16(), argv[2].toUint16()); } break; } default : error("SetPort was called with %d parameters", argc); break; } return NULL_REG; } reg_t kDrawCel(EngineState *s, int, int argc, reg_t *argv) { int view = argv[0].toSint16(); int loop = argv[1].toSint16(); int cel = argv[2].toSint16(); int x = argv[3].toSint16(); int y = argv[4].toSint16(); int priority = (argc > 5) ? argv[5].toSint16() : -1; GfxView *new_view; gfxop_check_cel(s->gfx_state, view, &loop, &cel); debugC(2, kDebugLevelGraphics, "DrawCel((%d,%d), (view.%d, %d, %d), p=%d)\n", x, y, view, loop, cel, priority); new_view = gfxw_new_view(s->gfx_state, Common::Point(x, y), view, loop, cel, 0, priority, -1, ALIGN_LEFT, ALIGN_TOP, GFXW_VIEW_FLAG_DONT_MODIFY_OFFSET); ADD_TO_CURRENT_PICTURE_PORT(new_view); FULL_REDRAW(); return s->r_acc; } reg_t kDisposeWindow(EngineState *s, int, int argc, reg_t *argv) { unsigned int goner_nr = argv[0].toSint16(); GfxPort *goner; GfxPort *pred; goner = s->visual->getPort(goner_nr); if ((goner_nr < 3) || (goner == NULL)) { error("Removal of invalid window %04x requested", goner_nr); return s->r_acc; } if (s->dyn_views && (GfxContainer *)s->dyn_views->_parent == (GfxContainer *)goner) { reparentize_primary_widget_lists(s, (GfxPort *) goner->_parent); } if (s->drop_views && (GfxContainer *)s->drop_views->_parent == (GfxContainer *)goner) s->drop_views = NULL; // Kill it pred = gfxw_remove_port(s->visual, goner); if (goner == s->port) // Did we kill the active port? s->port = pred; // Find the last port that exists and that isn't marked no-switch int id = s->visual->_portRefs.size() - 1; while (id > 0 && (!s->visual->_portRefs[id] || (s->visual->_portRefs[id]->_flags & GFXW_FLAG_NO_IMPLICIT_SWITCH))) id--; debugC(2, kDebugLevelGraphics, "Activating port %d after disposing window %d\n", id, goner_nr); s->port = (id >= 0) ? s->visual->_portRefs[id] : 0; if (!s->port) s->port = gfxw_find_default_port(s->visual); gfxop_update(s->gfx_state); return s->r_acc; } reg_t kNewWindow(EngineState *s, int, int argc, reg_t *argv) { GfxPort *window; int x, y, xl, yl, flags; gfx_color_t bgcolor; gfx_color_t fgcolor; gfx_color_t black; gfx_color_t lWhite; int priority; int argextra = argc == 13 ? 4 : 0; // Triggers in PQ3 and SCI1.1 games y = argv[0].toSint16(); x = argv[1].toSint16(); yl = argv[2].toSint16() - y; xl = argv[3].toSint16() - x; y += s->wm_port->_bounds.y; if (x + xl > 319) x -= ((x + xl) - 319); flags = argv[5 + argextra].toSint16(); priority = (argc > 6 + argextra) ? argv[6 + argextra].toSint16() : -1; bgcolor.mask = 0; int16 bgColor = (argc > 8 + argextra) ? argv[8 + argextra].toSint16() : 255; if (bgColor >= 0) { if (!s->resMan->isVGA()) bgcolor.visual = get_pic_color(s, MIN(bgColor, 15)); else bgcolor.visual = get_pic_color(s, bgColor); bgcolor.mask = GFX_MASK_VISUAL; } else { bgcolor.visual = PaletteEntry(0,0,0); } bgcolor.priority = priority; bgcolor.mask |= priority >= 0 ? GFX_MASK_PRIORITY : 0; bgcolor.alpha = 0; bgcolor.control = -1; debugC(2, kDebugLevelGraphics, "New window with params %d, %d, %d, %d\n", argv[0].toSint16(), argv[1].toSint16(), argv[2].toSint16(), argv[3].toSint16()); int16 visualColor = (argc > 7 + argextra) ? argv[7 + argextra].toSint16() : 0; fgcolor.visual = get_pic_color(s, visualColor); fgcolor.mask = GFX_MASK_VISUAL; fgcolor.control = -1; fgcolor.priority = -1; fgcolor.alpha = 0; black.visual = get_pic_color(s, 0); black.mask = GFX_MASK_VISUAL; black.alpha = 0; black.control = -1; black.priority = -1; lWhite.visual = get_pic_color(s, !s->resMan->isVGA() ? 15 : 255); lWhite.mask = GFX_MASK_VISUAL; lWhite.alpha = 0; lWhite.priority = -1; lWhite.control = -1; const char *title = argv[4 + argextra].segment ? s->segMan->derefString(argv[4 + argextra]) : NULL; window = sciw_new_window(s, gfx_rect(x, y, xl, yl), s->titlebar_port->_font, fgcolor, bgcolor, s->titlebar_port->_font, lWhite, black, title ? s->strSplit(title, NULL).c_str() : NULL, flags); // PQ3 and SCI1.1 games have the interpreter store underBits implicitly if (argextra) gfxw_port_auto_restore_background(s->visual, window, gfx_rect(argv[5].toSint16(), argv[4].toSint16() + s->wm_port->_bounds.y, argv[7].toSint16() - argv[5].toSint16(), argv[6].toSint16() - argv[4].toSint16())); ADD_TO_WINDOW_PORT(window); FULL_REDRAW(); window->draw(gfxw_point_zero); gfxop_update(s->gfx_state); s->port = window; // Set active port return make_reg(0, window->_ID); } #define K_ANIMATE_CENTER_OPEN_H 0 // horizontally open from center #define K_ANIMATE_CENTER_OPEN_V 1 // vertically open from center #define K_ANIMATE_RIGHT_OPEN 2 // open from right #define K_ANIMATE_LEFT_OPEN 3 // open from left #define K_ANIMATE_BOTTOM_OPEN 4 // open from bottom #define K_ANIMATE_TOP_OPEN 5 // open from top #define K_ANIMATE_BORDER_OPEN_F 6 // open from edges to center #define K_ANIMATE_CENTER_OPEN_F 7 // open from center to edges #define K_ANIMATE_OPEN_CHECKERS 8 // open random checkboard #define K_ANIMATE_BORDER_CLOSE_H_CENTER_OPEN_H 9 // horizontally close to center,reopen from center #define K_ANIMATE_BORDER_CLOSE_V_CENTER_OPEN_V 10 // vertically close to center, reopen from center #define K_ANIMATE_LEFT_CLOSE_RIGHT_OPEN 11 // close to right, reopen from right #define K_ANIMATE_RIGHT_CLOSE_LEFT_OPEN 12 // close to left, reopen from left #define K_ANIMATE_TOP_CLOSE_BOTTOM_OPEN 13 // close to bottom, reopen from bottom #define K_ANIMATE_BOTTOM_CLOSE_TOP_OPEN 14 // close to top, reopen from top #define K_ANIMATE_CENTER_CLOSE_F_BORDER_OPEN_F 15 // close from center to edges, // reopen from edges to center #define K_ANIMATE_BORDER_CLOSE_F_CENTER_OPEN_F 16 // close from edges to center, reopen from // center to edges */ #define K_ANIMATE_CLOSE_CHECKERS_OPEN_CHECKERS 17 // close random checkboard, reopen #define K_ANIMATE_PALETTE_FADEOUT_FADEIN 0x1e #define K_ANIMATE_SCROLL_LEFT 0x28 #define K_ANIMATE_SCROLL_RIGHT 0x29 #define K_ANIMATE_SCROLL_DOWN 0x2a #define K_ANIMATE_SCROLL_UP 0x2b #define GRAPH_BLANK_BOX(s, x, y, xl, yl, color) gfxop_fill_box(s->gfx_state, \ gfx_rect(x, (((y) < 10)? 10 : (y)), xl, (((y) < 10)? ((y) - 10) : 0) + (yl)), s->ega_colors[color]); #define GRAPH_UPDATE_BOX(s, x, y, xl, yl) gfxop_draw_pixmap(s->gfx_state, newscreen, \ gfx_rect(x, (((y) < 10)? 10 : (y)) - 10, xl, (((y) < 10)? ((y) - 10) : 0) + (yl)), Common::Point(x, ((y) < 10)? 10 : (y) )); static void animate_do_animation(EngineState *s, int argc, reg_t *argv) { long animation_delay = 5; int i, remaining_checkers; int update_counter; // Number of animation steps to perform betwen updates for transition animations int animation_granularity = 4; int granularity0 = animation_granularity << 1; int granularity1 = animation_granularity; int granularity2 = animation_granularity >> 2; int granularity3 = animation_granularity >> 4; char checkers[32 * 19]; gfx_pixmap_t *newscreen = gfxop_grab_pixmap(s->gfx_state, gfx_rect(0, 10, 320, 190)); if (!granularity2) granularity2 = 1; if (!granularity3) granularity3 = 1; gfxop_set_clip_zone(s->gfx_state, gfx_rect_fullscreen); if (!newscreen) { error("Failed to allocate 'newscreen'"); return; } gfxop_draw_pixmap(s->gfx_state, s->old_screen, gfx_rect(0, 0, 320, 190), Common::Point(0, 10)); gfxop_update_box(s->gfx_state, gfx_rect(0, 0, 320, 200)); //debugC(2, kDebugLevelGraphics, "Animating pic opening type %x\n", s->pic_animate); gfxop_enable_dirty_frames(s->gfx_state); switch (s->pic_animate) { case K_ANIMATE_BORDER_CLOSE_H_CENTER_OPEN_H : for (i = 0; i < 159 + granularity1; i += granularity1) { GRAPH_BLANK_BOX(s, i, 10, granularity1, 190, 0); gfxop_update(s->gfx_state); GRAPH_BLANK_BOX(s, 319 - i, 10, granularity1, 190, 0); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, animation_delay / 1000); process_sound_events(s); } GRAPH_BLANK_BOX(s, 0, 10, 320, 190, 0); case K_ANIMATE_CENTER_OPEN_H : for (i = 159; i >= 1 - granularity1; i -= granularity1) { GRAPH_UPDATE_BOX(s, i, 10, granularity1, 190); gfxop_update(s->gfx_state); GRAPH_UPDATE_BOX(s, 319 - i, 10, granularity1, 190); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, animation_delay / 1000); process_sound_events(s); } break; case K_ANIMATE_BORDER_CLOSE_V_CENTER_OPEN_V : for (i = 0; i < 94 + granularity2; i += granularity2) { GRAPH_BLANK_BOX(s, 0, i + 10, 320, granularity2, 0); gfxop_update(s->gfx_state); GRAPH_BLANK_BOX(s, 0, 199 - i, 320, granularity2, 0); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, 2 * animation_delay / 1000); process_sound_events(s); } GRAPH_BLANK_BOX(s, 0, 10, 320, 190, 0); case K_ANIMATE_CENTER_OPEN_V : for (i = 94; i >= 1 - granularity2; i -= granularity2) { GRAPH_UPDATE_BOX(s, 0, i + 10, 320, granularity2); gfxop_update(s->gfx_state); GRAPH_UPDATE_BOX(s, 0, 199 - i, 320, granularity2); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, 2 * animation_delay / 1000); process_sound_events(s); } break; case K_ANIMATE_LEFT_CLOSE_RIGHT_OPEN : for (i = 0; i < 319 + granularity0; i += granularity0) { GRAPH_BLANK_BOX(s, i, 10, granularity0, 190, 0); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, animation_delay / 2 / 1000); process_sound_events(s); } GRAPH_BLANK_BOX(s, 0, 10, 320, 190, 0); case K_ANIMATE_RIGHT_OPEN : for (i = 319; i >= 1 - granularity0; i -= granularity0) { GRAPH_UPDATE_BOX(s, i, 10, granularity0, 190); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, animation_delay / 2 / 1000); process_sound_events(s); } break; case K_ANIMATE_RIGHT_CLOSE_LEFT_OPEN : for (i = 319; i >= 1 - granularity0; i -= granularity0) { GRAPH_BLANK_BOX(s, i, 10, granularity0, 190, 0); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, animation_delay / 2 / 1000); process_sound_events(s); } GRAPH_BLANK_BOX(s, 0, 10, 320, 190, 0); case K_ANIMATE_LEFT_OPEN : for (i = 0; i < 319 + granularity0; i += granularity0) { GRAPH_UPDATE_BOX(s, i, 10, granularity0, 190); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, animation_delay / 2 / 1000); process_sound_events(s); } break; case K_ANIMATE_TOP_CLOSE_BOTTOM_OPEN : for (i = 10; i < 199 + granularity1; i += granularity1) { GRAPH_BLANK_BOX(s, 0, i, 320, granularity1, 0); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, animation_delay / 1000); process_sound_events(s); } GRAPH_BLANK_BOX(s, 0, 10, 320, 190, 0); case K_ANIMATE_BOTTOM_OPEN : for (i = 199; i >= 11 - granularity1; i -= granularity1) { GRAPH_UPDATE_BOX(s, 0, i, 320, granularity1); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, animation_delay / 1000); process_sound_events(s); } break; case K_ANIMATE_BOTTOM_CLOSE_TOP_OPEN : for (i = 199; i >= 11 - granularity1; i -= granularity1) { GRAPH_BLANK_BOX(s, 0, i, 320, granularity1, 0); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, animation_delay / 1000); process_sound_events(s); } GRAPH_BLANK_BOX(s, 0, 10, 320, 190, 0); case K_ANIMATE_TOP_OPEN : for (i = 10; i < 199 + granularity1; i += granularity1) { GRAPH_UPDATE_BOX(s, 0, i, 320, granularity1); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, animation_delay / 1000); process_sound_events(s); } break; case K_ANIMATE_CENTER_CLOSE_F_BORDER_OPEN_F : for (i = 31; i >= 1 - granularity3; i -= granularity3) { int real_i = (i < 0) ? 0 : i; int height_l = 3 * (granularity3 - real_i + i); int width_l = 5 * (granularity3 - real_i + i); int height = real_i * 3; int width = real_i * 5; GRAPH_BLANK_BOX(s, width, 10 + height, width_l, 190 - 2 * height, 0); gfxop_update(s->gfx_state); GRAPH_BLANK_BOX(s, 320 - width_l - width, 10 + height, width_l, 190 - 2 * height, 0); gfxop_update(s->gfx_state); GRAPH_BLANK_BOX(s, width, 10 + height, 320 - 2 * width, height_l, 0); gfxop_update(s->gfx_state); GRAPH_BLANK_BOX(s, width, 200 - height_l - height, 320 - 2 * width, height_l, 0); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, 4 * animation_delay / 1000); process_sound_events(s); } case K_ANIMATE_BORDER_OPEN_F : for (i = 0; i < 31 + granularity3; i += granularity3) { int real_i = (i < 0) ? 0 : i; int height_l = 3 * (granularity3 - real_i + i); int width_l = 5 * (granularity3 - real_i + i); int height = real_i * 3; int width = real_i * 5; GRAPH_UPDATE_BOX(s, width, 10 + height, width_l, 190 - 2 * height); gfxop_update(s->gfx_state); GRAPH_UPDATE_BOX(s, 320 - width_l - width, 10 + height, width_l, 190 - 2 * height); gfxop_update(s->gfx_state); GRAPH_UPDATE_BOX(s, width, 10 + height, 320 - 2 * width, height_l); gfxop_update(s->gfx_state); GRAPH_UPDATE_BOX(s, width, 200 - height_l - height, 320 - 2 * width, height_l); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, 4 * animation_delay / 1000); process_sound_events(s); } break; case K_ANIMATE_BORDER_CLOSE_F_CENTER_OPEN_F : for (i = 0; i < 31 + granularity3; i += granularity3) { int real_i = (i < 0) ? 0 : i; int height_l = 3 * (granularity3 - real_i + i); int width_l = 5 * (granularity3 - real_i + i); int height = real_i * 3; int width = real_i * 5; GRAPH_BLANK_BOX(s, width, 10 + height, width_l, 190 - 2 * height, 0); gfxop_update(s->gfx_state); GRAPH_BLANK_BOX(s, 320 - width_l - width, 10 + height, width_l, 190 - 2 * height, 0); gfxop_update(s->gfx_state); GRAPH_BLANK_BOX(s, width, 10 + height, 320 - 2 * width, height_l, 0); gfxop_update(s->gfx_state); GRAPH_BLANK_BOX(s, width, 200 - height_l - height, 320 - 2 * width, height_l, 0); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, 7 * animation_delay / 1000); process_sound_events(s); } case K_ANIMATE_CENTER_OPEN_F : for (i = 31; i >= 1 - granularity3; i -= granularity3) { int real_i = (i < 0) ? 0 : i; int height_l = 3 * (granularity3 - real_i + i); int width_l = 5 * (granularity3 - real_i + i); int height = real_i * 3; int width = real_i * 5; GRAPH_UPDATE_BOX(s, width, 10 + height, width_l, 190 - 2 * height); gfxop_update(s->gfx_state); GRAPH_UPDATE_BOX(s, 320 - width_l - width, 10 + height, width_l, 190 - 2*height); gfxop_update(s->gfx_state); GRAPH_UPDATE_BOX(s, width, 10 + height, 320 - 2 * width, height_l); gfxop_update(s->gfx_state); GRAPH_UPDATE_BOX(s, width, 200 - height_l - height, 320 - 2 * width, height_l); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, 7 * animation_delay / 1000); process_sound_events(s); } break; case K_ANIMATE_PALETTE_FADEOUT_FADEIN: warning("TODO: Palette fadeout/fadein"); GRAPH_UPDATE_BOX(s, 0, 10, 320, 190); break; case K_ANIMATE_CLOSE_CHECKERS_OPEN_CHECKERS : memset(checkers, 0, sizeof(checkers)); remaining_checkers = 19 * 32; update_counter = granularity1; while (remaining_checkers) { int x, y, checker = 1 + (int)(1.0 * remaining_checkers * rand() / (RAND_MAX + 1.0)); i = -1; while (checker) if (checkers[++i] == 0) --checker; checkers[i] = 1; // Mark checker as used x = i % 32; y = i / 32; GRAPH_BLANK_BOX(s, x * 10, 10 + y * 10, 10, 10, 0); if (!(update_counter--) || (remaining_checkers == 1)) { gfxop_update(s->gfx_state); update_counter = granularity1; } if (remaining_checkers & 1) { gfxop_sleep(s->gfx_state, animation_delay / 4 / 1000); } --remaining_checkers; process_sound_events(s); } case K_ANIMATE_OPEN_CHECKERS : memset(checkers, 0, sizeof(checkers)); remaining_checkers = 19 * 32; update_counter = granularity1; while (remaining_checkers) { int x, y, checker = 1 + (int)(1.0 * remaining_checkers * rand() / (RAND_MAX + 1.0)); i = -1; while (checker) if (checkers[++i] == 0) --checker; checkers[i] = 1; // Mark checker as used x = i % 32; y = i / 32; GRAPH_UPDATE_BOX(s, x * 10, 10 + y * 10, 10, 10); if (!(update_counter--) || (remaining_checkers == 1)) { gfxop_update(s->gfx_state); update_counter = granularity1; } if (remaining_checkers & 1) { gfxop_sleep(s->gfx_state, animation_delay / 4 / 1000); } --remaining_checkers; process_sound_events(s); } break; case K_ANIMATE_SCROLL_LEFT : for (i = 0; i < 319; i += granularity0) { gfxop_draw_pixmap(s->gfx_state, newscreen, gfx_rect(320 - i, 0, i, 190), Common::Point(0, 10)); gfxop_draw_pixmap(s->gfx_state, s->old_screen, gfx_rect(0, 0, 320 - i, 190), Common::Point(i, 10)); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, (animation_delay >> 3) / 1000); } GRAPH_UPDATE_BOX(s, 0, 10, 320, 190); break; case K_ANIMATE_SCROLL_RIGHT : for (i = 0; i < 319; i += granularity0) { gfxop_draw_pixmap(s->gfx_state, newscreen, gfx_rect(0, 0, i, 190), Common::Point(319 - i, 10)); gfxop_draw_pixmap(s->gfx_state, s->old_screen, gfx_rect(i, 0, 320 - i, 190), Common::Point(0, 10)); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, (animation_delay >> 3) / 1000); } GRAPH_UPDATE_BOX(s, 0, 10, 320, 190); break; case K_ANIMATE_SCROLL_UP : for (i = 0; i < 189; i += granularity0) { gfxop_draw_pixmap(s->gfx_state, newscreen, gfx_rect(0, 190 - i, 320, i), Common::Point(0, 10)); gfxop_draw_pixmap(s->gfx_state, s->old_screen, gfx_rect(0, 0, 320, 190 - i), Common::Point(0, 10 + i)); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, (animation_delay >> 3) / 1000); } GRAPH_UPDATE_BOX(s, 0, 10, 320, 190); break; case K_ANIMATE_SCROLL_DOWN : for (i = 0; i < 189; i += granularity0) { gfxop_draw_pixmap(s->gfx_state, newscreen, gfx_rect(0, 0, 320, i), Common::Point(0, 200 - i)); gfxop_draw_pixmap(s->gfx_state, s->old_screen, gfx_rect(0, i, 320, 190 - i), Common::Point(0, 10)); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, (animation_delay >> 3) / 1000); } GRAPH_UPDATE_BOX(s, 0, 10, 320, 190); break; default: warning("Unknown opening animation 0x%02x", s->pic_animate); GRAPH_UPDATE_BOX(s, 0, 10, 320, 190); } gfxop_free_pixmap(s->gfx_state, s->old_screen); gfxop_free_pixmap(s->gfx_state, newscreen); s->old_screen = NULL; } reg_t kAnimate(EngineState *s, int, int argc, reg_t *argv) { // Animations are supposed to take a maximum of animation_delay milliseconds. reg_t cast_list_ref = (argc > 0) ? argv[0] : NULL_REG; int cycle = (argc > 1) ? argv[1].toUint16() : 0; List *cast_list = NULL; int open_animation = 0; process_sound_events(s); // Take care of incoming events (kAnimate is called semi-regularly) _k_animate_ran = true; // Used by some of the invoked functions to check for recursion, which may, // after all, damage the cast list if (cast_list_ref.segment) { cast_list = lookup_list(s, cast_list_ref); if (!cast_list) return s->r_acc; } open_animation = (s->pic_is_new) && (s->pic_not_valid); s->pic_is_new = 0; assert_primary_widget_lists(s); if (!s->dyn_views->_contents // Only reparentize empty dynview list && (((GfxContainer *)s->port != (GfxContainer *)s->dyn_views->_parent) // If dynviews are on other port... || (s->dyn_views->_next))) // ... or not on top of the view list reparentize_primary_widget_lists(s, s->port); if (cast_list) { GfxList *templist = gfxw_new_list(s->dyn_views->_bounds, 0); _k_make_view_list(s, &(templist), cast_list, (cycle ? _K_MAKE_VIEW_LIST_CYCLE : 0) | _K_MAKE_VIEW_LIST_CALC_PRIORITY, argc, argv); // Make sure that none of the doits() did something evil assert_primary_widget_lists(s); if (!s->dyn_views->_contents // Only reparentize empty dynview list && (((GfxContainer *)s->port != (GfxContainer *)s->dyn_views->_parent) // If dynviews are on other port... || (s->dyn_views->_next))) // ... or not on top of the view list reparentize_primary_widget_lists(s, s->port); // End of doit() recovery code if (s->pic_is_new) { // Happens if DrawPic() is executed by a dynview (yes, that happens) kAnimate(s, WAS_FUNCT_NR, argc, argv); /* Tail-recurse */ return s->r_acc; } debugC(2, kDebugLevelGraphics, "Handling Dynviews (..step 9 inclusive):\n"); _k_prepare_view_list(s, templist, _K_MAKE_VIEW_LIST_CALC_PRIORITY); if (s->pic_not_valid) { debugC(2, kDebugLevelGraphics, "PicNotValid=%d -> Subalgorithm:\n", s->pic_not_valid); _k_redraw_view_list(s, templist); } _k_update_signals_in_view_list(s->dyn_views, templist); s->dyn_views->tag(); _k_raise_topmost_in_view_list(s, s->dyn_views, (GfxDynView *)templist->_contents); delete templist; s->dyn_views->free_tagged((GfxContainer *)s->dyn_views); // Free obsolete dynviews } // if (cast_list) if (open_animation) { gfxop_clear_box(s->gfx_state, gfx_rect(0, 10, 320, 190)); // Propagate pic s->visual->add_dirty_abs((GfxContainer *)s->visual, gfx_rect_fullscreen, 0); // Mark screen as dirty so picviews will be drawn correctly FULL_REDRAW(); animate_do_animation(s, argc, argv); } // if (open_animation) if (cast_list) { int retval; int reparentize = 0; s->pic_not_valid = 0; _k_view_list_do_postdraw(s, s->dyn_views); // _k_view_list_dispose_loop() returns -1 if it requested a re-start, so we do just that. while ((retval = _k_view_list_dispose_loop(s, cast_list, (GfxDynView *) s->dyn_views->_contents, argc, argv) < 0)) reparentize = 1; if (s->drop_views->_contents) { s->drop_views = gfxw_new_list(s->dyn_views->_bounds, GFXW_LIST_SORTED); s->drop_views->_flags |= GFXW_FLAG_IMMUNE_TO_SNAPSHOTS; ADD_TO_CURRENT_PICTURE_PORT(s->drop_views); } else { assert(s->drop_views); gfxw_remove_widget_from_container(s->drop_views->_parent, s->drop_views); ADD_TO_CURRENT_PICTURE_PORT(s->drop_views); } if ((reparentize | retval) && ((GfxContainer *)s->port == (GfxContainer *)s->dyn_views->_parent) // If dynviews are on the same port... && (s->dyn_views->_next)) // ... and not on top of the view list... reparentize_primary_widget_lists(s, s->port); // ...then reparentize. _k_view_list_kryptonize(s->dyn_views->_contents); } FULL_REDRAW(); return s->r_acc; } #define SHAKE_DOWN 1 #define SHAKE_RIGHT 2 reg_t kShakeScreen(EngineState *s, int, int argc, reg_t *argv) { int shakes = (argc > 0) ? argv[0].toSint16() : 1; int directions = (argc > 1) ? argv[1].toSint16() : 1; gfx_pixmap_t *screen = gfxop_grab_pixmap(s->gfx_state, gfx_rect(0, 0, 320, 200)); int i; if (directions & ~3) debugC(2, kDebugLevelGraphics, "ShakeScreen(): Direction bits are %x (unknown)\n", directions); gfxop_set_clip_zone(s->gfx_state, gfx_rect_fullscreen); for (i = 0; i < shakes; i++) { int shake_down = (directions & SHAKE_DOWN) ? 10 : 0; int shake_right = (directions & SHAKE_RIGHT) ? 10 : 0; if (directions & SHAKE_DOWN) gfxop_draw_box(s->gfx_state, gfx_rect(0, 0, 320, 10), s->ega_colors[0], s->ega_colors[0], GFX_BOX_SHADE_FLAT); if (directions & SHAKE_RIGHT) gfxop_draw_box(s->gfx_state, gfx_rect(0, 0, 10, 200), s->ega_colors[0], s->ega_colors[0], GFX_BOX_SHADE_FLAT); gfxop_draw_pixmap(s->gfx_state, screen, gfx_rect(0, 0, 320 - shake_right, 200 - shake_down), Common::Point(shake_right, shake_down)); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, 50); gfxop_draw_pixmap(s->gfx_state, screen, gfx_rect(0, 0, 320, 200), Common::Point(0, 0)); gfxop_update(s->gfx_state); gfxop_sleep(s->gfx_state, 50); } gfxop_free_pixmap(s->gfx_state, screen); gfxop_update(s->gfx_state); return s->r_acc; } #define K_DISPLAY_SET_COORDS 100 #define K_DISPLAY_SET_ALIGNMENT 101 #define K_DISPLAY_SET_COLOR 102 #define K_DISPLAY_SET_BGCOLOR 103 #define K_DISPLAY_SET_GRAYTEXT 104 #define K_DISPLAY_SET_FONT 105 #define K_DISPLAY_WIDTH 106 #define K_DISPLAY_SAVE_UNDER 107 #define K_DISPLAY_RESTORE_UNDER 108 #define K_DONT_UPDATE_IMMEDIATELY 121 reg_t kDisplay(EngineState *s, int, int argc, reg_t *argv) { int argpt; reg_t textp = argv[0]; int index = (argc > 1) ? argv[1].toUint16() : 0; int temp; bool save_under = false; gfx_color_t transparent = { PaletteEntry(), 0, -1, -1, 0 }; char *text; GfxPort *port = (s->port) ? s->port : s->picture_port; bool update_immediately = true; gfx_color_t color0, *color1, bg_color; gfx_alignment_t halign = ALIGN_LEFT; rect_t area = gfx_rect(port->draw_pos.x, port->draw_pos.y, 320 - port->draw_pos.x, 200 - port->draw_pos.y); int gray = port->gray_text; int font_nr = port->_font; GfxText *text_handle; color0 = port->_color; bg_color = port->_bgcolor; // TODO: in SCI1VGA the default colors for text and background are #0 (black) // SCI0 case should be checked if (s->resMan->isVGA()) { // This priority check fixes the colors in the menus in KQ5 // TODO/FIXME: Is this correct? if (color0.priority >= 0) color0.visual = get_pic_color(s, 0); if (bg_color.priority >= 0) bg_color.visual = get_pic_color(s, 0); } if (textp.segment) { argpt = 1; text = s->segMan->derefString(textp); } else { argpt = 2; text = kernel_lookup_text(s, textp, index); } if (!text) { error("Display with invalid reference %04x:%04x", PRINT_REG(textp)); return NULL_REG; } while (argpt < argc) { switch (argv[argpt++].toUint16()) { case K_DISPLAY_SET_COORDS: area.x = argv[argpt++].toUint16(); area.y = argv[argpt++].toUint16(); debugC(2, kDebugLevelGraphics, "Display: set_coords(%d, %d)\n", area.x, area.y); break; case K_DISPLAY_SET_ALIGNMENT: halign = (gfx_alignment_t)argv[argpt++].toSint16(); debugC(2, kDebugLevelGraphics, "Display: set_align(%d)\n", halign); break; case K_DISPLAY_SET_COLOR: temp = argv[argpt++].toSint16(); debugC(2, kDebugLevelGraphics, "Display: set_color(%d)\n", temp); if (!s->resMan->isVGA() && temp >= 0 && temp <= 15) color0 = (s->ega_colors[temp]); else if (s->resMan->isVGA() && temp >= 0 && temp < 256) { color0.visual = get_pic_color(s, temp); color0.mask = GFX_MASK_VISUAL; } else if (temp == -1) color0 = transparent; else warning("Display: Attempt to set invalid fg color %d", temp); break; case K_DISPLAY_SET_BGCOLOR: temp = argv[argpt++].toSint16(); debugC(2, kDebugLevelGraphics, "Display: set_bg_color(%d)\n", temp); if (!s->resMan->isVGA() && temp >= 0 && temp <= 15) bg_color = s->ega_colors[temp]; else if (s->resMan->isVGA() && temp >= 0 && temp <= 256) { bg_color.visual = get_pic_color(s, temp); bg_color.mask = GFX_MASK_VISUAL; } else if (temp == -1) bg_color = transparent; else warning("Display: Attempt to set invalid fg color %d", temp); break; case K_DISPLAY_SET_GRAYTEXT: gray = argv[argpt++].toSint16(); debugC(2, kDebugLevelGraphics, "Display: set_graytext(%d)\n", gray); break; case K_DISPLAY_SET_FONT: font_nr = argv[argpt++].toUint16(); debugC(2, kDebugLevelGraphics, "Display: set_font(\"font.%03d\")\n", font_nr); break; case K_DISPLAY_WIDTH: area.width = argv[argpt++].toUint16(); if (area.width == 0) area.width = MAX_TEXT_WIDTH_MAGIC_VALUE; debugC(2, kDebugLevelGraphics, "Display: set_width(%d)\n", area.width); break; case K_DISPLAY_SAVE_UNDER: save_under = true; debugC(2, kDebugLevelGraphics, "Display: set_save_under()\n"); break; case K_DISPLAY_RESTORE_UNDER: debugC(2, kDebugLevelGraphics, "Display: restore_under(%04x)\n", argv[argpt].toUint16()); graph_restore_box(s, argv[argpt++]); update_immediately = true; argpt++; return s->r_acc; case K_DONT_UPDATE_IMMEDIATELY: update_immediately = false; debugC(2, kDebugLevelGraphics, "Display: set_dont_update()\n"); argpt++; break; default: debugC(2, kDebugLevelGraphics, "Unknown Display() command %x\n", argv[argpt - 1].toUint16()); return NULL_REG; } } if (halign == ALIGN_LEFT) { // If the text does not fit on the screen, move it to the left and upwards until it does gfxop_get_text_params(s->gfx_state, font_nr, text, area.width, &area.width, &area.height, 0, NULL, NULL, NULL); // Make the text fit on the screen if (area.x + area.width > 320) area.x += 320 - area.x - area.width; // Plus negative number = subtraction if (area.y + area.height > 200) area.y += 200 - area.y - area.height; // Plus negative number = subtraction } else { // If the text does not fit on the screen, clip it till it does if (area.x + area.width > s->gfx_state->pic_port_bounds.width) area.width = s->gfx_state->pic_port_bounds.width - area.x; if (area.y + area.height > s->gfx_state->pic_port_bounds.height) area.height = s->gfx_state->pic_port_bounds.height - area.y; } if (gray) color1 = &bg_color; else color1 = &color0; assert_primary_widget_lists(s); text_handle = gfxw_new_text(s->gfx_state, area, font_nr, s->strSplit(text).c_str(), halign, ALIGN_TOP, color0, *color1, bg_color, 0); if (!text_handle) { error("Display: Failed to create text widget"); return NULL_REG; } if (save_under) { // Backup rect_t save_area = text_handle->_bounds; save_area.x += port->_bounds.x; save_area.y += port->_bounds.y; s->r_acc = graph_save_box(s, save_area); text_handle->_serial++; // This is evil! debugC(2, kDebugLevelGraphics, "Saving (%d, %d) size (%d, %d) as %04x:%04x\n", save_area.x, save_area.y, save_area.width, save_area.height, PRINT_REG(s->r_acc)); } debugC(2, kDebugLevelGraphics, "Display: Commiting text '%s'\n", text); //ADD_TO_CURRENT_PICTURE_PORT(text_handle); ADD_TO_CURRENT_PICTURE_PORT(text_handle); if ((!s->pic_not_valid) && update_immediately) { // Refresh if drawn to valid picture FULL_REDRAW(); debugC(2, kDebugLevelGraphics, "Refreshing display...\n"); } return s->r_acc; } static reg_t kShowMovie_Windows(EngineState *s, int argc, reg_t *argv) { const char *filename = s->segMan->derefString(argv[1]); Graphics::AVIPlayer *player = new Graphics::AVIPlayer(g_system); if (!player->open(filename)) { warning("Failed to open movie file %s", filename); return s->r_acc; } uint32 startTime = g_system->getMillis(); bool play = true; while (play && player->getCurFrame() < player->getFrameCount()) { uint32 elapsed = g_system->getMillis() - startTime; if (elapsed >= player->getCurFrame() * 1000 / player->getFrameRate()) { Graphics::Surface *surface = player->getNextFrame(); Palette *palette = NULL; if (player->dirtyPalette()) { byte *rawPalette = player->getPalette(); Palette *colors = new Palette(256); byte r, g, b; for (uint16 i = 0; i < 256; i++) { r = rawPalette[i * 4]; g = rawPalette[i * 4 + 1]; b = rawPalette[i * 4 + 2]; colors->setColor(i, r, g, b); } palette->forceInto(s->gfx_state->driver->getMode()->palette); } if (surface) { // Allocate a pixmap gfx_pixmap_t *pixmap = gfx_new_pixmap(surface->w, surface->h, 0, 0, 0); assert(pixmap); gfx_pixmap_alloc_index_data(pixmap); // Copy data from the surface memcpy(pixmap->index_data, surface->pixels, surface->w * surface->h); pixmap->xoffset = (g_system->getWidth() - surface->w) / 2; pixmap->yoffset = (g_system->getHeight() - surface->h) / 2; pixmap->palette = palette; // Copy the frame to the screen gfx_xlate_pixmap(pixmap, s->gfx_state->driver->getMode()); gfxop_draw_pixmap(s->gfx_state, pixmap, gfx_rect(0, 0, 320, 200), Common::Point(pixmap->xoffset, pixmap->yoffset)); gfxop_update_box(s->gfx_state, gfx_rect(0, 0, 320, 200)); gfx_free_pixmap(pixmap); // Surface is freed when the codec in the video is deleted } } Common::Event event; while (g_system->getEventManager()->pollEvent(event)) { switch (event.type) { case Common::EVENT_QUIT: play = false; quit_vm(); break; default: break; } } g_system->delayMillis(10); } delete player; return s->r_acc; } static reg_t kShowMovie_DOS(EngineState *s, int argc, reg_t *argv) { const char *filename = s->segMan->derefString(argv[0]); int delay = argv[1].toUint16(); // Time between frames in ticks int frameNr = 0; SeqDecoder seq; if (!seq.loadFile(filename) && !seq.loadFile(Common::String("SEQ/") + filename)) { warning("Failed to open movie file %s", filename); return s->r_acc; } bool play = true; while (play) { uint32 startTime = g_system->getMillis(); gfx_pixmap_t *pixmap = seq.getFrame(play); if (frameNr++ == 0) pixmap->palette->forceInto(s->gfx_state->driver->getMode()->palette); gfx_xlate_pixmap(pixmap, s->gfx_state->driver->getMode()); gfxop_draw_pixmap(s->gfx_state, pixmap, gfx_rect(0, 0, 320, 200), Common::Point(pixmap->xoffset, pixmap->yoffset)); gfxop_update_box(s->gfx_state, gfx_rect(0, 0, 320, 200)); gfx_free_pixmap(pixmap); // Wait before showing the next frame while (play && (g_system->getMillis() < startTime + (delay * 1000 / 60))) { // FIXME: we should probably make a function that handles quitting in these kinds of situations Common::Event curEvent; Common::EventManager *eventMan = g_system->getEventManager(); // Process quit events while (eventMan->pollEvent(curEvent)) { if (curEvent.type == Common::EVENT_QUIT) { play = false; quit_vm(); } } g_system->delayMillis(10); } } return s->r_acc; } reg_t kShowMovie(EngineState *s, int, int argc, reg_t *argv) { // KQ6 Windows calls this with one argument. It doesn't seem // to have a purpose... if (argc == 1) return NULL_REG; // The Windows and DOS versions use different video format as well // as a different argument set. if (argv[0].toUint16() == 0) return kShowMovie_Windows(s, argc, argv); return kShowMovie_DOS(s, argc, argv); } reg_t kSetVideoMode(EngineState *s, int, int argc, reg_t *argv) { // This call is used for KQ6's intro. It has one parameter, which is // 1 when the intro begins, and 0 when it ends. It is suspected that // this is actually a flag to enable video planar memory access, as // the video decoder in KQ6 is specifically written for the planar // memory model. Planar memory mode access was used for VGA "Mode X" // (320x240 resolution, although the intro in KQ6 is 320x200). // Refer to http://en.wikipedia.org/wiki/Mode_X warning("STUB: SetVideoMode %d", argv[0].toUint16()); return s->r_acc; } } // End of namespace Sci