/* 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 "stdafx.h" #include "common/scummsys.h" #include "common/system.h" #include "common/rect.h" #include "common/savefile.h" #include "common/config-manager.h" #include "graphics/surface.h" #include "gp32_osys.h" #include "globals.h" static const OSystem::GraphicsMode s_supportedGraphicsModes[] = { {0, 0, 0} }; OSystem_GP32::OSystem_GP32() : _screenWidth(0), _screenHeight(0), _gameScreen(NULL), _hwScreen(NULL), _overlayVisible(false), _forceFull(false), _adjustAspectRatio(false), /*_paletteDirtyStart(0), _paletteDirtyEnd(0),*/ _mouseBuf(NULL), _mouseHeight(0), _mouseWidth(0), _mouseKeyColor(0), _mouseHotspotX(0), _mouseHotspotY(0) { NP("OSys::OSystem_GP32()"); // allocate palette storage memset(_currentPalette, 0, 256 * sizeof(uint16)); memset(&_km, 0, sizeof(_km)); // HACK: bring mouse cursor to center _mouseX = 160; _mouseY = 120; } OSystem_GP32::~OSystem_GP32() { NP("OSys::~OSystem_GP32()"); } bool OSystem_GP32::hasFeature(Feature f) { NP("OSys::hasFeature()"); return false; } void OSystem_GP32::setFeatureState(Feature f, bool enable) { NP("OSys::setFeatureState()"); } bool OSystem_GP32::getFeatureState(Feature f) { NP("OSys::getFeatureState()"); return false; } const OSystem::GraphicsMode* OSystem_GP32::getSupportedGraphicsModes() const { NP("OSys::getSupportedGraphicsModes()"); return s_supportedGraphicsModes; } int OSystem_GP32::getDefaultGraphicsMode() const { NP("OSys::getSupportedGraphicsModes()"); return -1; } bool OSystem_GP32::setGraphicsMode(int mode) { NP("OSys::setGraphicsMode()"); return true; } bool OSystem_GP32::setGraphicsMode(const char *name) { NP("OSys::setGraphicsMode()"); return true; } int OSystem_GP32::getGraphicsMode() const { NP("OSys::getGraphicsMode()"); return -1; } void OSystem_GP32::initSize(uint width, uint height) { NP("OSys::initSize()"); if (width == _screenWidth && height == _screenHeight) return; _screenWidth = width; _screenHeight = height; if (height != 200) _adjustAspectRatio = false; _overlayWidth = width; _overlayHeight = height; // _overlayWidth = 320; // _overlayHeight = 240; // Create the surface that contains the 8 bit game data _gameScreen = new uint8[_screenWidth * _screenHeight]; // Create the surface that contains the scaled graphics in 16 bit mode _tmpScreen = frameBuffer2; // Create the surface that is connected with hardware screen _hwScreen = frameBuffer1; _overlayBuffer = new OverlayColor[_overlayWidth * _overlayHeight]; _km.x_max = _screenWidth - 1; _km.y_max = _screenHeight - 1; _km.x = _mouseX; _km.y = _mouseY; _km.delay_time = 25; _km.last_time = 0; // Clear Screen gp_fillRect(_hwScreen, 0, 0, 320, 240, 0xFFFF); } int16 OSystem_GP32::getHeight() { //NP("OSys::getHeight()"); return _screenHeight; } int16 OSystem_GP32::getWidth() { //NP("OSys::getWidth()"); return _screenWidth; } void OSystem_GP32::setPalette(const byte *colors, uint start, uint num) { //NP("OSys::setPalette()"); const byte *b = colors; uint i; uint16 *base = _currentPalette + start; for (i = 0; i < num; i++) { base[i] = gp_RGBTo16(b[0], b[1], b[2]); b += 4; } // if (start < _paletteDirtyStart) // _paletteDirtyStart = start; // if (start + num > _paletteDirtyEnd) // _paletteDirtyEnd = start + num; } void OSystem_GP32::grabPalette(byte *colors, uint start, uint num) { NP("OSys::grabPalette()"); } void OSystem_GP32::copyRectToScreen(const byte *src, int pitch, int x, int y, int w, int h) { //NP("OSys::copyRectToScreen()"); //Clip the coordinates if (x < 0) { w += x; src -= x; x = 0; } if (y < 0) { h += y; src -= y * pitch; y = 0; } if (w > _screenWidth - x) { w = _screenWidth - x; } if (h > _screenHeight - y) { h = _screenHeight - y; } if (w <= 0 || h <= 0) return; byte *dst = _gameScreen + y * _screenWidth + x; if (_screenWidth == pitch && pitch == w) { memcpy(dst, src, h * w); } else { do { memcpy(dst, src, w); src += pitch; dst += _screenWidth; } while (--h); } } Graphics::Surface *OSystem_GP32::lockScreen() { _framebuffer.pixels = _gameScreen; _framebuffer.w = _screenWidth; _framebuffer.h = _screenHeight; _framebuffer.pitch = _screenWidth; _framebuffer.bytesPerPixel = 1; return &_framebuffer; } void OSystem_GP32::unlockScreen() { // The screen is always completely update anyway, so we don't have to force a full update here. } //TODO: Implement Dirty rect? void OSystem_GP32::updateScreen() { uint16 *buffer; //TODO: adjust shakePos // draw gamescreen buffer = &_tmpScreen[240 - _screenHeight]; for (int x = 0; x < _screenWidth; x++) { for (int y = 0; y < _screenHeight; y++) { *buffer++ = _currentPalette[_gameScreen[((_screenHeight - 1) - y) * _screenWidth + x]]; } buffer += 240 - _screenHeight; } // draw overlay if (_overlayVisible) { buffer = &_tmpScreen[240 - _overlayHeight]; for (int x = 0; x < _overlayWidth; x++) { for (int y = 0; y < _overlayHeight; y++) { *buffer++ = _overlayBuffer[((_overlayHeight - 1) - y) * _overlayWidth + x]; } buffer += 240 - _overlayHeight; } } // draw mouse //adjust cursor position int mX = _mouseX - _mouseHotspotX; int mY = _mouseY - _mouseHotspotY; //if (_overlayVisible) //else if (_mouseVisible) for (int y = 0; y < _mouseHeight; y++) { for (int x = 0; x < _mouseWidth; x++) { if (mX + x < _screenWidth && mY + y < _screenHeight && mX + x >= 0 && mY + y >= 0) if (_mouseBuf[y * _mouseWidth + x] != _mouseKeyColor) gpd_drawPixel16(_tmpScreen, mX + x, mY + y, _currentPalette[_mouseBuf[y * _mouseWidth + x]]); } } //TODO: draw softkeyboard //gp_flipScreen(); //_hwScreen = frameBuffer1; //_tmpScreen = frameBuffer2; memcpy(_hwScreen, _tmpScreen, LCD_WIDTH * LCD_HEIGHT * sizeof(uint16)); } void OSystem_GP32::setShakePos(int shakeOffset) { //NP("OSys::setShakePos()"); } void OSystem_GP32::showOverlay() { //NP("OSys::showOverlay()"); _overlayVisible = true; clearOverlay(); } void OSystem_GP32::hideOverlay() { //NP("OSys::hideOverlay()"); _overlayVisible = false; clearOverlay(); _forceFull = true; } // Clear overlay with game screen //TODO: Optimize? void OSystem_GP32::clearOverlay() { //NP("OSys::clearOverlay()"); if (!_overlayVisible) return; uint8 *s = _gameScreen; OverlayColor *d = _overlayBuffer; uint8 c; for (int y = 0; y < _overlayHeight; y++) { for (int x = 0; x < _overlayWidth; x++) { c = *s; *d++ = _currentPalette[c]; s++; } } _forceFull = true; } void OSystem_GP32::grabOverlay(OverlayColor *buf, int pitch) { //NP("OSys::grabOverlay()"); int h = _overlayHeight; OverlayColor *src = _overlayBuffer; do { memcpy(buf, src, _overlayWidth * sizeof(OverlayColor)); src += _overlayWidth; buf += pitch; } while (--h); } void OSystem_GP32::copyRectToOverlay(const OverlayColor *buf, int pitch, int x, int y, int w, int h) { //NP("OSys::copyRectToOverlay()"); //Clip the coordinates if (x < 0) { w += x; buf -= x; x = 0; } if (y < 0) { h += y; buf -= y * pitch; y = 0; } if (w > _overlayWidth - x) { w = _overlayWidth - x; } if (h > _overlayHeight - y) { h = _overlayHeight - y; } if (w <= 0 || h <= 0) return; OverlayColor *dst = _overlayBuffer + y * _overlayWidth + x; if (_overlayWidth == pitch && pitch == w) { memcpy(dst, buf, h * w * sizeof(OverlayColor)); } else { do { memcpy(dst, buf, w * sizeof(OverlayColor)); buf += pitch; dst += _overlayWidth; } while (--h); } } int16 OSystem_GP32::getOverlayHeight() { return getHeight(); } int16 OSystem_GP32::getOverlayWidth() { return getWidth(); } OverlayColor OSystem_GP32::RGBToColor(uint8 r, uint8 g, uint8 b) { return gp_RGBTo16(r, g, b); } void OSystem_GP32::colorToRGB(OverlayColor color, uint8 &r, uint8 &g, uint8 &b) { gp_16ToRGB(color, &r, &g, &b); } bool OSystem_GP32::showMouse(bool visible) { NP("OSys::showMouse()"); if (_mouseVisible == visible) return visible; bool last = _mouseVisible; _mouseVisible = visible; updateScreen(); return last; } void OSystem_GP32::warpMouse(int x, int y) { //NP("OSys::warpMouse()"); //assert(x > 0 && x < _screenWidth); //assert(y > 0 && y < _screenHeight); _mouseX = x; _mouseY = y; } void OSystem_GP32::setMouseCursor(const byte *buf, uint w, uint h, int hotspotX, int hotspotY, byte keycolor, int cursorTargetScale) { //NP("OSys::setMouseCursor()"); _mouseWidth = w; _mouseHeight = h; _mouseHotspotX = hotspotX; _mouseHotspotY = hotspotY; _mouseKeyColor = keycolor; if (_mouseBuf) free(_mouseBuf); _mouseBuf = (byte *)malloc(w * h); memcpy(_mouseBuf, buf, w * h); } void OSystem_GP32::handleKbdMouse() { uint32 curTime = getMillis(); if (curTime >= _km.last_time + _km.delay_time) { _km.last_time = curTime; if (_km.x_down_count == 1) { _km.x_down_time = curTime; _km.x_down_count = 2; } if (_km.y_down_count == 1) { _km.y_down_time = curTime; _km.y_down_count = 2; } if (_km.x_vel || _km.y_vel) { if (_km.x_down_count) { if (curTime > _km.x_down_time + _km.delay_time * 12) { if (_km.x_vel > 0) _km.x_vel++; else _km.x_vel--; } else if (curTime > _km.x_down_time + _km.delay_time * 8) { if (_km.x_vel > 0) _km.x_vel = 5; else _km.x_vel = -5; } } if (_km.y_down_count) { if (curTime > _km.y_down_time + _km.delay_time * 12) { if (_km.y_vel > 0) _km.y_vel++; else _km.y_vel--; } else if (curTime > _km.y_down_time + _km.delay_time * 8) { if (_km.y_vel > 0) _km.y_vel = 5; else _km.y_vel = -5; } } //GPDEBUG("%d %d - %d %d", _km.x, _km.y, _km.x_vel, _km.y_vel); _km.x += _km.x_vel; _km.y += _km.y_vel; if (_km.x < 0) { _km.x = 0; _km.x_vel = -1; _km.x_down_count = 1; } else if (_km.x > _km.x_max) { _km.x = _km.x_max; _km.x_vel = 1; _km.x_down_count = 1; } if (_km.y < 0) { _km.y = 0; _km.y_vel = -1; _km.y_down_count = 1; } else if (_km.y > _km.y_max) { _km.y = _km.y_max; _km.y_vel = 1; _km.y_down_count = 1; } warpMouse(_km.x, _km.y); } } } void OSystem_GP32::fillMouseEvent(Common::Event &event, int x, int y) { event.mouse.x = x; event.mouse.y = y; // Update the "keyboard mouse" coords _km.x = x; _km.y = y; // Optionally perform aspect ratio adjusting //if (_adjustAspectRatio) // event.mouse.y = aspect2Real(event.mouse.y); } bool OSystem_GP32::pollEvent(Common::Event &event) { //NP("OSys::pollEvent()"); GP32BtnEvent ev; handleKbdMouse(); if (!gp_pollButtonEvent(&ev)) return false; switch(ev.type) { case BUTTON_DOWN: if (ev.button == GPC_VK_LEFT) { _km.x_vel = -1; _km.x_down_count = 1; } if (ev.button == GPC_VK_RIGHT) { _km.x_vel = 1; _km.x_down_count = 1; } if (ev.button == GPC_VK_UP) { _km.y_vel = -1; _km.y_down_count = 1; } if (ev.button == GPC_VK_DOWN) { _km.y_vel = 1; _km.y_down_count = 1; } if (ev.button == GPC_VK_START) { // START = menu/enter event.type = Common::EVENT_KEYDOWN; if (_overlayVisible) event.kbd.keycode = event.kbd.ascii = 13; else { event.kbd.keycode = Common::KEYCODE_F5; event.kbd.ascii = Common::ASCII_F5; } return true; } if (ev.button == GPC_VK_SELECT) { // SELECT = pause event.type = Common::EVENT_KEYDOWN; event.kbd.keycode = event.kbd.ascii = 32; return true; } if (ev.button == GPC_VK_FL) { event.type = Common::EVENT_KEYDOWN; event.kbd.keycode = event.kbd.ascii = '0'; return true; } if (ev.button == GPC_VK_FR) { // R = ESC event.type = Common::EVENT_KEYDOWN; event.kbd.keycode = event.kbd.ascii = 27; return true; } if (ev.button == GPC_VK_FA) { event.type = Common::EVENT_LBUTTONDOWN; fillMouseEvent(event, _km.x, _km.y); return true; } if (ev.button == GPC_VK_FB) { event.type = Common::EVENT_RBUTTONDOWN; fillMouseEvent(event, _km.x, _km.y); return true; } break; case BUTTON_UP: if (ev.button == GPC_VK_LEFT) { if (_km.x_vel < 0) { _km.x_vel = 0; _km.x_down_count = 0; } event.type = Common::EVENT_MOUSEMOVE; fillMouseEvent(event, _km.x, _km.y); return true; } if (ev.button == GPC_VK_RIGHT) { if (_km.x_vel > 0) { _km.x_vel = 0; _km.x_down_count = 0; } event.type = Common::EVENT_MOUSEMOVE; fillMouseEvent(event, _km.x, _km.y); return true; } if (ev.button == GPC_VK_UP) { if (_km.y_vel < 0) { _km.y_vel = 0; _km.y_down_count = 0; } event.type = Common::EVENT_MOUSEMOVE; fillMouseEvent(event, _km.x, _km.y); return true; } if (ev.button == GPC_VK_DOWN) { if (_km.y_vel > 0) { _km.y_vel = 0; _km.y_down_count = 0; } event.type = Common::EVENT_MOUSEMOVE; fillMouseEvent(event, _km.x, _km.y); return true; } if (ev.button == GPC_VK_START) { event.type = Common::EVENT_KEYUP; if (_overlayVisible) event.kbd.keycode = event.kbd.ascii = 13; else { event.kbd.keycode = Common::KEYCODE_F5; event.kbd.ascii = Common::ASCII_F5; } return true; } if (ev.button == GPC_VK_SELECT) { event.type = Common::EVENT_KEYUP; event.kbd.keycode = event.kbd.ascii = 32; return true; } if (ev.button == GPC_VK_FL) { event.type = Common::EVENT_KEYUP; event.kbd.keycode = event.kbd.ascii = '0'; return true; } if (ev.button == GPC_VK_FR) { event.type = Common::EVENT_KEYUP; event.kbd.keycode = event.kbd.ascii = 27; return true; } if (ev.button == GPC_VK_FA) { event.type = Common::EVENT_LBUTTONUP; fillMouseEvent(event, _km.x, _km.y); return true; } if (ev.button == GPC_VK_FB) { event.type = Common::EVENT_RBUTTONUP; fillMouseEvent(event, _km.x, _km.y); return true; } break; default: error("Unknown Common::Event!"); } if (gp_getButtonPressed(GPC_VK_LEFT) || gp_getButtonPressed(GPC_VK_RIGHT) || gp_getButtonPressed(GPC_VK_UP) || gp_getButtonPressed(GPC_VK_DOWN)) { event.type = Common::EVENT_MOUSEMOVE; fillMouseEvent(event, _km.x, _km.y); return true; } return false; } uint32 OSystem_GP32::getMillis() { return GpTickCountGet(); } void OSystem_GP32::delayMillis(uint msecs) { int startTime = GpTickCountGet(); while (GpTickCountGet() < startTime + msecs); } // Add a new callback timer //FIXME: Add to member int _timerInterval; int (*_timerCallback)(int); static void _timerCallbackVoid() { //NP("timer running"); _timerCallback(_timerInterval); //FIXME ?? (*_timercallback)(_timerinterval); } void OSystem_GP32::setTimerCallback(TimerProc callback, int interval) { //NP("OSys::setTimerCallback()"); int timerNo = 1; if (callback == NULL) { GpTimerKill(timerNo); return; } if (GpTimerOptSet(timerNo, interval, 0, _timerCallbackVoid) == GPOS_ERR_ALREADY_USED) { error("Timer slot is already used"); } _timerInterval = interval; _timerCallback = callback; GpTimerSet(timerNo); } OSystem::MutexRef OSystem_GP32::createMutex() { // NP("OSys::createMutex()"); return NULL; } void OSystem_GP32::lockMutex(MutexRef mutex) { // NP("OSys::lockMutex()"); } void OSystem_GP32::unlockMutex(MutexRef mutex) { // NP("OSys::unlockMutex()"); } void OSystem_GP32::deleteMutex(MutexRef mutex) { // NP("OSys::deleteMutex()"); } bool OSystem_GP32::setSoundCallback(SoundProc proc, void *param) { //NP("OSys::setSoundCallback()"); GPSOUNDBUF gpSoundBuf; ConfMan.setBool("FM_medium_quality", (g_vars.fmQuality == FM_QUALITY_MED)); ConfMan.setBool("FM_high_quality", (g_vars.fmQuality == FM_QUALITY_HI)); //ConfMan.set("output_rate", (int)g_vars.sampleRate); if (ConfMan.hasKey("output_rate")) _samplesPerSec = ConfMan.getInt("output_rate"); _samplesPerSec = (int)g_vars.sampleRate; //hack if (_samplesPerSec == 0) { return false; } if (_samplesPerSec < 0) _samplesPerSec = SAMPLES_PER_SEC; // Originally, we always used 2048 samples. This loop will produce the // same result at 22050 Hz, and should hopefully produce something // sensible for other frequencies. Note that it must be a power of two. uint32 samples = 0x8000; for (;;) { if ((1000 * samples) / _samplesPerSec < 100) break; samples >>= 1; } switch(_samplesPerSec) { case 44100: case 22050: case 11025: break; default: _samplesPerSec = 11025; } gpSoundBuf.freq = _samplesPerSec; gpSoundBuf.format = 16; gpSoundBuf.channels = 2; gpSoundBuf.samples = samples; gpSoundBuf.userdata = param; gpSoundBuf.callback = proc; gp_soundBufStart(&gpSoundBuf); // For Safety... GPDEBUG("_samplesPerSec = %d, samples = %d", _samplesPerSec, samples); gp_delay(1000); return true; } void OSystem_GP32::clearSoundCallback() { //NP("OSys::clearSoundCallback()"); if (_samplesPerSec != 0) gp_soundBufStop(); } int OSystem_GP32::getOutputSampleRate() const { //NP("OSys::getOutputSampleRate()"); return _samplesPerSec; } void OSystem_GP32::quit() { //NP("OSys::quit()"); clearSoundCallback(); setTimerCallback(0, 0); exit(0); } void OSystem_GP32::setWindowCaption(const char *caption) { NP("OSys::setWindowCaption(%s)", caption); } void OSystem_GP32::displayMessageOnOSD(const char *msg) { NP("OSys::displayMessageOnOSD(%s)", msg); } OSystem *OSystem_GP32_create() { NP("OSys::OSystem_GP32_create()"); return new OSystem_GP32(); }