/* 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" #ifdef ENABLE_VKEYBD #include "backends/vkeybd/virtual-keyboard-gui.h" #include "graphics/cursorman.h" #include "graphics/fontman.h" #include "gui/gui-manager.h" namespace Common { static void blit(Graphics::Surface *surf_dst, Graphics::Surface *surf_src, int16 x, int16 y, OverlayColor transparent) { if (surf_dst->format.bytesPerPixel != sizeof(OverlayColor) || surf_src->format.bytesPerPixel != sizeof(OverlayColor)) return; const OverlayColor *src = (const OverlayColor *)surf_src->pixels; int blitW = surf_src->w; int blitH = surf_src->h; // clip co-ordinates if (x < 0) { blitW += x; src -= x; x = 0; } if (y < 0) { blitH += y; src -= y * surf_src->w; y = 0; } if (blitW > surf_dst->w - x) blitW = surf_dst->w - x; if (blitH > surf_dst->h - y) blitH = surf_dst->h - y; if (blitW <= 0 || blitH <= 0) return; OverlayColor *dst = (OverlayColor *)surf_dst->getBasePtr(x, y); int dstAdd = surf_dst->w - blitW; int srcAdd = surf_src->w - blitW; for (int i = 0; i < blitH; ++i) { for (int j = 0; j < blitW; ++j, ++dst, ++src) { OverlayColor col = *src; if (col != transparent) *dst = col; } dst += dstAdd; src += srcAdd; } } VirtualKeyboardGUI::VirtualKeyboardGUI(VirtualKeyboard *kbd) : _kbd(kbd), _displaying(false), _drag(false), _drawCaret(false), _displayEnabled(false), _firstRun(true), _cursorAnimateTimer(0), _cursorAnimateCounter(0) { assert(_kbd); assert(g_system); _system = g_system; _lastScreenChanged = _system->getScreenChangeID(); _screenW = _system->getOverlayWidth(); _screenH = _system->getOverlayHeight(); memset(_cursor, 0xFF, sizeof(_cursor)); } VirtualKeyboardGUI::~VirtualKeyboardGUI() { _overlayBackup.free(); _dispSurface.free(); } void VirtualKeyboardGUI::initMode(VirtualKeyboard::Mode *mode) { assert(mode->image); _kbdSurface = mode->image; _kbdTransparentColor = mode->transparentColor; _kbdBound.setWidth(_kbdSurface->w); _kbdBound.setHeight(_kbdSurface->h); setupDisplayArea(mode->displayArea, mode->displayFontColor); if (_displaying) { extendDirtyRect(_kbdBound); redraw(); } } void VirtualKeyboardGUI::setupDisplayArea(Rect& r, OverlayColor forecolor) { _dispFont = FontMan.getFontByUsage(Graphics::FontManager::kBigGUIFont); if (!fontIsSuitable(_dispFont, r)) { _dispFont = FontMan.getFontByUsage(Graphics::FontManager::kGUIFont); if (!fontIsSuitable(_dispFont, r)) { /* FIXME: We 'ab'use the kConsoleFont to get a font that fits in a small display_area on 320*240 keyboard images */ _dispFont = FontMan.getFontByUsage(Graphics::FontManager::kConsoleFont); if (!fontIsSuitable(_dispFont, r)) { _displayEnabled = false; return; } } } _dispX = _kbdBound.left + r.left; _dispY = _kbdBound.top + r.top + (r.height() - _dispFont->getFontHeight()) / 2; _dispI = 0; _dispForeColor = forecolor; _dispBackColor = _dispForeColor + 0xFF; _dispSurface.create(r.width(), _dispFont->getFontHeight(), _system->getOverlayFormat()); _dispSurface.fillRect(Rect(_dispSurface.w, _dispSurface.h), _dispBackColor); _displayEnabled = true; } bool VirtualKeyboardGUI::fontIsSuitable(const Graphics::Font *font, const Rect& rect) { return (font->getMaxCharWidth() < rect.width() && font->getFontHeight() < rect.height()); } void VirtualKeyboardGUI::checkScreenChanged() { if (_lastScreenChanged != _system->getScreenChangeID()) screenChanged(); } void VirtualKeyboardGUI::initSize(int16 w, int16 h) { _screenW = w; _screenH = h; } void VirtualKeyboardGUI::run() { if (_firstRun) { _firstRun = false; moveToDefaultPosition(); } if (!g_gui.isActive()) { _system->showOverlay(); _system->clearOverlay(); } _overlayBackup.create(_screenW, _screenH, _system->getOverlayFormat()); _system->grabOverlay((OverlayColor*)_overlayBackup.pixels, _overlayBackup.w); setupCursor(); forceRedraw(); _displaying = true; mainLoop(); removeCursor(); _system->copyRectToOverlay((OverlayColor*)_overlayBackup.pixels, _overlayBackup.w, 0, 0, _overlayBackup.w, _overlayBackup.h); if (!g_gui.isActive()) _system->hideOverlay(); _overlayBackup.free(); _dispSurface.free(); } void VirtualKeyboardGUI::close() { _displaying = false; } void VirtualKeyboardGUI::reset() { _kbdBound.left = _kbdBound.top = _kbdBound.right = _kbdBound.bottom = 0; _displaying = _drag = false; _firstRun = true; _lastScreenChanged = _system->getScreenChangeID(); _kbdSurface = 0; } void VirtualKeyboardGUI::moveToDefaultPosition() { int16 kbdW = _kbdBound.width(), kbdH = _kbdBound.height(); int16 x = 0, y = 0; if (_screenW != kbdW) { switch (_kbd->_hAlignment) { case VirtualKeyboard::kAlignLeft: x = 0; break; case VirtualKeyboard::kAlignCenter: x = (_screenW - kbdW) / 2; break; case VirtualKeyboard::kAlignRight: x = _screenW - kbdW; break; } } if (_screenH != kbdH) { switch (_kbd->_vAlignment) { case VirtualKeyboard::kAlignTop: y = 0; break; case VirtualKeyboard::kAlignMiddle: y = (_screenH - kbdH) / 2; break; case VirtualKeyboard::kAlignBottom: y = _screenH - kbdH; break; } } move(x, y); } void VirtualKeyboardGUI::move(int16 x, int16 y) { // add old position to dirty area if (_displaying) extendDirtyRect(_kbdBound); // snap to edge of screen if (ABS(x) < SNAP_WIDTH) x = 0; int16 x2 = _screenW - _kbdBound.width(); if (ABS(x - x2) < SNAP_WIDTH) x = x2; if (ABS(y) < SNAP_WIDTH) y = 0; int16 y2 = _screenH - _kbdBound.height(); if (ABS(y - y2) < SNAP_WIDTH) y = y2; _dispX += x - _kbdBound.left; _dispY += y - _kbdBound.top; _kbdBound.moveTo(x, y); if (_displaying) { // add new position to dirty area extendDirtyRect(_kbdBound); redraw(); } } void VirtualKeyboardGUI::screenChanged() { g_gui.checkScreenChange(); _lastScreenChanged = _system->getScreenChangeID(); int16 newScreenW = _system->getOverlayWidth(); int16 newScreenH = _system->getOverlayHeight(); if (_screenW != newScreenW || _screenH != newScreenH) { _screenW = newScreenW; _screenH = newScreenH; _overlayBackup.create(_screenW, _screenH, _system->getOverlayFormat()); _system->grabOverlay((OverlayColor*)_overlayBackup.pixels, _overlayBackup.w); if (!_kbd->checkModeResolutions()) { _displaying = false; return; } moveToDefaultPosition(); } } void VirtualKeyboardGUI::mainLoop() { Common::EventManager *eventMan = _system->getEventManager(); while (_displaying) { if (_kbd->_keyQueue.hasStringChanged()) updateDisplay(); animateCaret(); animateCursor(); redraw(); _system->updateScreen(); Common::Event event; while (eventMan->pollEvent(event)) { switch (event.type) { case Common::EVENT_LBUTTONDOWN: if (_kbdBound.contains(event.mouse)) { _kbd->handleMouseDown(event.mouse.x - _kbdBound.left, event.mouse.y - _kbdBound.top); } break; case Common::EVENT_LBUTTONUP: if (_kbdBound.contains(event.mouse)) { _kbd->handleMouseUp(event.mouse.x - _kbdBound.left, event.mouse.y - _kbdBound.top); } break; case Common::EVENT_MOUSEMOVE: if (_drag) move(event.mouse.x - _dragPoint.x, event.mouse.y - _dragPoint.y); break; case Common::EVENT_SCREEN_CHANGED: screenChanged(); break; case Common::EVENT_QUIT: _system->quit(); return; default: break; } } // Delay for a moment _system->delayMillis(10); } } void VirtualKeyboardGUI::startDrag(int16 x, int16 y) { _drag = true; _dragPoint.x = x; _dragPoint.y = y; } void VirtualKeyboardGUI::endDrag() { _drag = false; } void VirtualKeyboardGUI::extendDirtyRect(const Rect &r) { if (_dirtyRect.isValidRect()) { _dirtyRect.extend(r); } else { _dirtyRect = r; } _dirtyRect.clip(Rect(_overlayBackup.w, _overlayBackup.h)); } void VirtualKeyboardGUI::resetDirtyRect() { _dirtyRect.setWidth(-1); } void VirtualKeyboardGUI::forceRedraw() { updateDisplay(); extendDirtyRect(Rect(_overlayBackup.w, _overlayBackup.h)); redraw(); } void VirtualKeyboardGUI::redraw() { assert(_kbdSurface); int16 w = _dirtyRect.width(); int16 h = _dirtyRect.height(); if (w <= 0 || h <= 0) return; Graphics::Surface surf; surf.create(w, h, _system->getOverlayFormat()); OverlayColor *dst = (OverlayColor *)surf.pixels; const OverlayColor *src = (OverlayColor *) _overlayBackup.getBasePtr(_dirtyRect.left, _dirtyRect.top); while (h--) { memcpy(dst, src, surf.w * sizeof(OverlayColor)); dst += surf.w; src += _overlayBackup.w; } blit(&surf, _kbdSurface, _kbdBound.left - _dirtyRect.left, _kbdBound.top - _dirtyRect.top, _kbdTransparentColor); if (_displayEnabled) { blit(&surf, &_dispSurface, _dispX - _dirtyRect.left, _dispY - _dirtyRect.top, _dispBackColor); } _system->copyRectToOverlay((OverlayColor*)surf.pixels, surf.w, _dirtyRect.left, _dirtyRect.top, surf.w, surf.h); surf.free(); resetDirtyRect(); } uint VirtualKeyboardGUI::calculateEndIndex(const String& str, uint startIndex) { int16 w = 0; while (w <= _dispSurface.w && startIndex < str.size()) { w += _dispFont->getCharWidth(str[startIndex++]); } if (w > _dispSurface.w) startIndex--; return startIndex; } void VirtualKeyboardGUI::animateCaret() { if (!_displayEnabled) return; if (_system->getMillis() % kCaretBlinkTime < kCaretBlinkTime / 2) { if (!_drawCaret) { _drawCaret = true; _dispSurface.drawLine(_caretX, 0, _caretX, _dispSurface.h, _dispForeColor); extendDirtyRect(Rect(_dispX + _caretX, _dispY, _dispX + _caretX + 1, _dispY + _dispSurface.h)); } } else { if (_drawCaret) { _drawCaret = false; _dispSurface.drawLine(_caretX, 0, _caretX, _dispSurface.h, _dispBackColor); extendDirtyRect(Rect(_dispX + _caretX, _dispY, _dispX + _caretX + 1, _dispY + _dispSurface.h)); } } } void VirtualKeyboardGUI::updateDisplay() { if (!_displayEnabled) return; // calculate the text to display uint cursorPos = _kbd->_keyQueue.getInsertIndex(); String wholeText = _kbd->_keyQueue.getString(); uint dispTextEnd; if (_dispI > cursorPos) _dispI = cursorPos; dispTextEnd = calculateEndIndex(wholeText, _dispI); while (cursorPos > dispTextEnd) dispTextEnd = calculateEndIndex(wholeText, ++_dispI); String dispText = String(wholeText.c_str() + _dispI, wholeText.c_str() + dispTextEnd); // draw to display surface _dispSurface.fillRect(Rect(_dispSurface.w, _dispSurface.h), _dispBackColor); _dispFont->drawString(&_dispSurface, dispText, 0, 0, _dispSurface.w, _dispForeColor); String beforeCaret(wholeText.c_str() + _dispI, wholeText.c_str() + cursorPos); _caretX = _dispFont->getStringWidth(beforeCaret); if (_drawCaret) _dispSurface.drawLine(_caretX, 0, _caretX, _dispSurface.h, _dispForeColor); extendDirtyRect(Rect(_dispX, _dispY, _dispX + _dispSurface.w, _dispY + _dispSurface.h)); } void VirtualKeyboardGUI::setupCursor() { const byte palette[] = { 255, 255, 255, 0, 255, 255, 255, 0, 171, 171, 171, 0, 87, 87, 87, 0 }; CursorMan.pushCursorPalette(palette, 0, 4); CursorMan.pushCursor(NULL, 0, 0, 0, 0, 0); CursorMan.showMouse(true); } void VirtualKeyboardGUI::animateCursor() { int time = _system->getMillis(); if (time > _cursorAnimateTimer + kCursorAnimateDelay) { for (int i = 0; i < 15; i++) { if ((i < 6) || (i > 8)) { _cursor[16 * 7 + i] = _cursorAnimateCounter; _cursor[16 * i + 7] = _cursorAnimateCounter; } } CursorMan.replaceCursor(_cursor, 16, 16, 7, 7, 255); _cursorAnimateTimer = time; _cursorAnimateCounter = (_cursorAnimateCounter + 1) % 4; } } void VirtualKeyboardGUI::removeCursor() { CursorMan.popCursor(); CursorMan.popCursorPalette(); } } // End of namespace Common #endif // #ifdef ENABLE_VKEYBD