/* 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/scummsys.h" #include "common/system.h" #include "graphics/cursorman.h" #include "graphics/primitives.h" #include "sci/sci.h" #include "sci/gfx/gfx_driver.h" #include "sci/gfx/gfx_tools.h" namespace Sci { GfxDriver::GfxDriver(int xfact, int yfact, int bytespp) { int i; Graphics::PixelFormat format = { bytespp, 0, 0, 0, 0, 0, 0, 0, 0 }; _mode = gfx_new_mode(xfact, yfact, format, new Palette(256), 0); _mode->xsize = xfact * 320; _mode->ysize = yfact * 200; for (i = 0; i < 2; i++) { _priority[i] = gfx_pixmap_alloc_index_data(gfx_new_pixmap(_mode->xsize, _mode->ysize, GFX_RESID_NONE, -i, -777)); if (!_priority[i]) { error("Out of memory: Could not allocate priority maps! (%dx%d)\n", _mode->xsize, _mode->ysize); } } // create the visual buffers for (i = 0; i < 2; i++) { _visual[i] = NULL; _visual[i] = new byte[_mode->xsize * _mode->ysize]; if (!_visual[i]) { error("Out of memory: Could not allocate visual buffers! (%dx%d)\n", _mode->xsize, _mode->ysize); } memset(_visual[i], 0, _mode->xsize * _mode->ysize); } _mode->palette->name = "global"; } GfxDriver::~GfxDriver() { int i; for (i = 0; i < 2; i++) { gfx_free_pixmap(_priority[i]); _priority[i] = NULL; } for (i = 0; i < 2; i++) { delete[] _visual[i]; _visual[i] = NULL; } } // Drawing operations static void drawProc(int x, int y, int c, void *data) { GfxDriver *drv = (GfxDriver *)data; byte *p = drv->getVisual0(); p[y * 320* drv->getMode()->xfact + x] = c; } int GfxDriver::drawLine(Common::Point start, Common::Point end, gfx_color_t color, gfx_line_mode_t line_mode, gfx_line_style_t line_style) { uint32 scolor = color.visual.parent_index; int xfact = (line_mode == GFX_LINE_MODE_FINE)? 1: _mode->xfact; int yfact = (line_mode == GFX_LINE_MODE_FINE)? 1: _mode->yfact; int xsize = _mode->xsize; int ysize = _mode->ysize; if (color.mask & GFX_MASK_VISUAL) { Common::Point nstart, nend; for (int xc = 0; xc < xfact; xc++) { for (int yc = 0; yc < yfact; yc++) { nstart.x = CLIP(start.x + xc, 0, xsize); nstart.y = CLIP(start.y + yc, 0, ysize); nend.x = CLIP(end.x + xc, 0, xsize - 1); nend.y = CLIP(end.y + yc, 0, ysize - 1); Graphics::drawLine(nstart.x, nstart.y, nend.x, nend.y, scolor, drawProc, this); if (color.mask & GFX_MASK_PRIORITY) { gfx_draw_line_pixmap_i(_priority[0], nstart, nend, color.priority); } } } } return GFX_OK; } int GfxDriver::drawFilledRect(rect_t rect, gfx_color_t color1, gfx_color_t color2, gfx_rectangle_fill_t shade_mode) { if (color1.mask & GFX_MASK_VISUAL) { for (int i = rect.y; i < rect.y + rect.height; i++) { memset(_visual[0] + i * _mode->xsize + rect.x, color1.visual.parent_index, rect.width); } } if (color1.mask & GFX_MASK_PRIORITY) gfx_draw_box_pixmap_i(_priority[0], rect, color1.priority); return GFX_OK; } // Pixmap operations int GfxDriver::drawPixmap(gfx_pixmap_t *pxm, int priority, rect_t src, rect_t dest, gfx_buffer_t buffer) { int bufnr = (buffer == GFX_BUFFER_STATIC) ? 1 : 0; if (dest.width != src.width || dest.height != src.height) { printf("Attempt to scale pixmap (%dx%d)->(%dx%d): Not supported\n", src.width, src.height, dest.width, dest.height); return GFX_ERROR; } gfx_crossblit_pixmap(_mode, pxm, priority, src, dest, _visual[bufnr], _mode->xsize, _priority[bufnr]->index_data, _priority[bufnr]->index_width, 1, 0); return GFX_OK; } int GfxDriver::grabPixmap(rect_t src, gfx_pixmap_t *pxm, gfx_map_mask_t map) { if (src.x < 0 || src.y < 0) { printf("Attempt to grab pixmap from invalid coordinates (%d,%d)\n", src.x, src.y); return GFX_ERROR; } if (!pxm->data) { printf("Attempt to grab pixmap to unallocated memory\n"); return GFX_ERROR; } switch (map) { case GFX_MASK_VISUAL: pxm->width = src.width; pxm->height = src.height; for (int i = 0; i < src.height; i++) { memcpy(pxm->data + i * src.width, _visual[0] + (i + src.y) * _mode->xsize + src.x, src.width); } break; case GFX_MASK_PRIORITY: printf("FIXME: priority map grab not implemented yet!\n"); break; default: printf("Attempt to grab pixmap from invalid map 0x%02x\n", map); return GFX_ERROR; } return GFX_OK; } // Buffer operations int GfxDriver::update(rect_t src, Common::Point dest, gfx_buffer_t buffer) { //TODO /* if (src.x != dest.x || src.y != dest.y) { printf("Updating %d (%d,%d)(%dx%d) to (%d,%d) on %d\n", buffer, src.x, src.y, src.width, src.height, dest.x, dest.y, data_dest); } else { printf("Updating %d (%d,%d)(%dx%d) to %d\n", buffer, src.x, src.y, src.width, src.height, data_dest); } */ switch (buffer) { case GFX_BUFFER_BACK: for (int i = 0; i < src.height; i++) { memcpy(_visual[0] + (dest.y + i) * _mode->xsize + dest.x, _visual[1] + (src.y + i) * _mode->xsize + src.x, src.width); } if ((src.x == dest.x) && (src.y == dest.y)) gfx_copy_pixmap_box_i(_priority[0], _priority[1], src); break; case GFX_BUFFER_FRONT: g_system->copyRectToScreen(_visual[0] + src.x + src.y * _mode->xsize, _mode->xsize, dest.x, dest.y, src.width, src.height); g_system->updateScreen(); break; default: error("Invalid buffer %d in update", buffer); return GFX_ERROR; } return GFX_OK; } int GfxDriver::setStaticBuffer(gfx_pixmap_t *pic, gfx_pixmap_t *priority) { memcpy(_visual[1], pic->data, _mode->xsize * _mode->ysize); gfx_copy_pixmap_box_i(_priority[1], priority, gfx_rect(0, 0, _mode->xsize, _mode->ysize)); return GFX_OK; } // Mouse pointer operations // Scale cursor and map its colors to the global palette byte *GfxDriver::createCursor(gfx_pixmap_t *pointer) { int linewidth = pointer->width; int lines = pointer->height; byte *data = new byte[linewidth*lines]; byte *linebase = data, *pos; byte *src = pointer->index_data; for (int yc = 0; yc < pointer->index_height; yc++) { pos = linebase; for (int xc = 0; xc < pointer->index_width; xc++) { byte color = *src; // FIXME: The palette size check is a workaround for cursors using non-palette colour GFX_CURSOR_TRANSPARENT // Note that some cursors don't have a palette in SQ5 if (pointer->palette && color < pointer->palette->size()) color = pointer->palette->getColor(color).parent_index; for (int scalectr = 0; scalectr < _mode->xfact; scalectr++) { *pos++ = color; } src++; } for (int scalectr = 1; scalectr < _mode->yfact; scalectr++) memcpy(linebase + linewidth * scalectr, linebase, linewidth); linebase += linewidth * _mode->yfact; } return data; } int GfxDriver::setPointer(gfx_pixmap_t *pointer, Common::Point *hotspot) { if ((pointer == NULL) || (hotspot == NULL)) { CursorMan.showMouse(false); } else { byte *cursorData = createCursor(pointer); // FIXME: The palette size check is a workaround for cursors using non-palette color GFX_CURSOR_TRANSPARENT // Note that some cursors don't have a palette (e.g. in SQ5 and QFG3) byte color_key = GFX_CURSOR_TRANSPARENT; if ((pointer->color_key != GFX_PIXMAP_COLOR_KEY_NONE) && (pointer->palette && (unsigned int)pointer->color_key < pointer->palette->size())) color_key = pointer->palette->getColor(pointer->color_key).parent_index; // Some cursors don't have a palette, so we set the color key directly if (!pointer->palette) color_key = pointer->color_key; CursorMan.replaceCursor(cursorData, pointer->width, pointer->height, hotspot->x, hotspot->y, color_key); CursorMan.showMouse(true); delete[] cursorData; cursorData = 0; } return GFX_OK; } } // End of namespace Sci