#include "qemuscreen.h" #include #include #include extern int __lcd_mode; extern unsigned int *__lcd_buffer; #define min(a,b) (((a)>(b))? (b):(a)) QEmuScreen::QEmuScreen(QWidget *parent) : QGraphicsView(parent), annHourglass(QString(":/bitmap/bitmap/ann_busy.xbm")), annComms(QString(":/bitmap/bitmap/ann_io.xbm")), annAlpha(QString(":/bitmap/bitmap/ann_alpha.xbm")), annBattery(QString(":/bitmap/bitmap/ann_battery.xbm")), annLShift(QString(":/bitmap/bitmap/ann_left.xbm")), annRShift(QString(":/bitmap/bitmap/ann_right.xbm")) { int i,j; screen_height=80; screen_width=131; BkgndColor=QColor(162,209,148); MainColor=QColor(0,0,0); for(i=0;i<16;++i) { Grays[i].setRed((MainColor.red()-BkgndColor.red())*((qreal)i)/((qreal)15.0)+BkgndColor.red()); Grays[i].setGreen((MainColor.green()-BkgndColor.green())*((qreal)i)/((qreal)15.0)+BkgndColor.green()); Grays[i].setBlue((MainColor.blue()-BkgndColor.blue())*((qreal)i)/((qreal)15.0)+BkgndColor.blue()); Grays[i].setAlpha(255); GrayBrush[i].setColor(Grays[i]); GrayBrush[i].setStyle(Qt::SolidPattern); } Pixels=new QGraphicsRectItem *[screen_height*screen_width]; scr.clear(); scr.setBackgroundBrush(QBrush(BkgndColor)); for(j=0;jsetBrush(GrayBrush[i&15]); } } // ADD SOME ANNUNCIATORS annHourglass.setMask(annHourglass.createMaskFromColor(Qt::white)); annBattery.setMask(annBattery.createMaskFromColor(Qt::white)); annComms.setMask(annComms.createMaskFromColor(Qt::white)); annAlpha.setMask(annAlpha.createMaskFromColor(Qt::white)); annLShift.setMask(annLShift.createMaskFromColor(Qt::white)); annRShift.setMask(annRShift.createMaskFromColor(Qt::white)); /* * (131, 0) - Comms * (131, 1) - Left Shift * (131, 2) - Right Shift * (131, 3) - Alpha * (131, 4) - Low Battery * (131, 5) - Wait */ Annunciators[0]=scr.addPixmap(annComms); Annunciators[0]->setScale(0.25); Annunciators[0]->setOffset(120*4-0*80,-20); Annunciators[0]->setOpacity(1.0); Annunciators[1]=scr.addPixmap(annLShift); Annunciators[1]->setScale(0.25); Annunciators[1]->setOffset(120*4-5*80,-20); Annunciators[1]->setOpacity(1.0); Annunciators[2]=scr.addPixmap(annRShift); Annunciators[2]->setScale(0.25); Annunciators[2]->setOffset(120*4-4*80,-20); Annunciators[2]->setOpacity(1.0); Annunciators[3]=scr.addPixmap(annAlpha); Annunciators[3]->setScale(0.25); Annunciators[3]->setOffset(120*4-3*80,-20); Annunciators[3]->setOpacity(1.0); Annunciators[4]=scr.addPixmap(annBattery); Annunciators[4]->setScale(0.25); Annunciators[4]->setOffset(120*4-2*80,-20); Annunciators[4]->setOpacity(1.0); Annunciators[5]=scr.addPixmap(annHourglass); Annunciators[5]->setScale(0.25); Annunciators[5]->setOffset(120*4-1*80,-20); Annunciators[5]->setOpacity(1.0); setScene(&scr); setSceneRect(0,-10,screen_width,screen_height+10); centerOn(qreal(screen_width)/2,qreal(screen_height)/2); scale(4.0,4.0); show(); } // SET A PIXEL IN THE SPECIFIED COLOR void QEmuScreen::setPixel(int offset,int color) { Pixels[offset]->setBrush(GrayBrush[color&15]); } void QEmuScreen::setWord(int offset,unsigned int color) { int f; for(f=0;f<32;++f) { Pixels[offset+f]->setBrush(GrayBrush[(color>>(f*4))&15]); } } void QEmuScreen::update() { int i,j; unsigned int color; if(__lcd_mode==0) { // MONOCHROME SCREEN unsigned int *ptr; int mask; for(i=0;i>5)*i; for(j=0;jsetBrush(GrayBrush[ (color? 15:0)]); mask<<=1; if(!mask) { mask=1; ++ptr; } } } // UPDATE ANNUNCIATORS mask=1<<3; for(i=0;i<6;++i) { ptr=__lcd_buffer+(LCD_W>>5)*i; color=(*ptr&mask)>>3; Annunciators[i]->setOpacity(color? 1.0:0.0); } return; } if(__lcd_mode==2) { // 16-GRAYS SCREEN unsigned int *ptr; int mask; for(i=0;i>3)*i; for(j=0;j>((j&7)*4); Pixels[i*screen_width+j]->setBrush(GrayBrush[color]); mask<<=4; if(!mask) { mask=0xf; ++ptr; } } } // UPDATE ANNUNCIATORS mask=0xf<<12; for(i=0;i<6;++i) { ptr=__lcd_buffer+16+(LCD_W>>3)*i; color=(*ptr&mask)>>12; Annunciators[i]->setOpacity(((qreal)color)/15.0); } return; } // ANY OTHER MODE IS UNSUPPORTED, SHOW BLANK SCREEN for(i=0;isetBrush(GrayBrush[0]); } // UPDATE ANNUNCIATORS for(i=0;i<6;++i) { Annunciators[i]->setOpacity(0.0); } } }