public RegistersPPU() { PpuCtrl = new ControlRegister(0); PpuMask = new MaskRegister(0); PpuStat = new StatusRegister(0); PpuScrl = new ScrollRegister(0); }
internal Ak8975Registers(IRegisterManagerAdapter adapter) : base(adapter, true) { wia = new WiaRegister(this); _registers.Add(wia); info = new InfoRegister(this); _registers.Add(info); status1 = new Status1Register(this); _registers.Add(status1); hx = new HxRegister(this); _registers.Add(hx); hy = new HyRegister(this); _registers.Add(hy); hz = new HzRegister(this); _registers.Add(hz); status2 = new Status2Register(this); _registers.Add(status2); control = new ControlRegister(this); _registers.Add(control); sensitivityX = new SensitivityXRegister(this); _registers.Add(sensitivityX); sensitivityY = new SensitivityYRegister(this); _registers.Add(sensitivityY); sensitivityZ = new SensitivityZRegister(this); _registers.Add(sensitivityZ); }
public CPUx86() { EIP = new Register32Bit("EIP", 0, RegisterType.InstructionPointer, false); EFLAGS = new FlagsRegister(); EAX = new GeneralPurposeRegister("EAX", 0); EBX = new GeneralPurposeRegister("EBX", 1); ECX = new GeneralPurposeRegister("ECX", 2); EDX = new GeneralPurposeRegister("EDX", 3); ESP = new GeneralPurposeRegister("ESP", 4); EBP = new GeneralPurposeRegister("EBP", 5); ESI = new GeneralPurposeRegister("ESI", 6); EDI = new GeneralPurposeRegister("EDI", 7); CR0 = new CR0(); CR2 = new ControlRegister("CR2", 2); CR3 = new ControlRegister("CR3", 3); CR4 = new ControlRegister("CR3", 4); AX = new Legacy16BitRegister("AX", EAX); BX = new Legacy16BitRegister("BX", EBX); CX = new Legacy16BitRegister("CX", ECX); DX = new Legacy16BitRegister("DX", EDX); SI = new Legacy16BitRegister("SI", ESI); DI = new Legacy16BitRegister("DI", EDI); BP = new Legacy16BitRegister("BP", EBP); AL = new Legacy8BitLowRegister("AL", EAX); BL = new Legacy8BitLowRegister("BL", EBX); CL = new Legacy8BitLowRegister("CL", ECX); DL = new Legacy8BitLowRegister("DL", EDX); AH = new Legacy8BitHighRegister("AH", EAX); BH = new Legacy8BitHighRegister("BH", EBX); CH = new Legacy8BitHighRegister("CH", ECX); DH = new Legacy8BitHighRegister("DH", EDX); XMM0 = new RegisterFloatingPoint("XMM0", 0, RegisterType.FloatingPoint); XMM1 = new RegisterFloatingPoint("XMM1", 1, RegisterType.FloatingPoint); XMM2 = new RegisterFloatingPoint("XMM2", 2, RegisterType.FloatingPoint); XMM3 = new RegisterFloatingPoint("XMM3", 3, RegisterType.FloatingPoint); XMM4 = new RegisterFloatingPoint("XMM4", 4, RegisterType.FloatingPoint); XMM5 = new RegisterFloatingPoint("XMM5", 5, RegisterType.FloatingPoint); XMM6 = new RegisterFloatingPoint("XMM6", 6, RegisterType.FloatingPoint); XMM7 = new RegisterFloatingPoint("XMM7", 7, RegisterType.FloatingPoint); ST0 = new RegisterFloatingPoint("ST0", -1, RegisterType.FloatingPoint); CS = new SegmentRegister("CS", 0); DS = new SegmentRegister("DS", 1); ES = new SegmentRegister("ES", 2); FS = new SegmentRegister("FS", 3); GS = new SegmentRegister("GS", 4); SS = new SegmentRegister("SS", 5); Reset(); }
public ES1370(PCIDevice device) : base(device) { isr = (InterruptStatusRegister.Load(getMemReference())); sir = (SerialInterfaceRegister.Load(getMemReference())); uir = (UARTInterfaceRegister.Load(getMemReference())); cr = (ControlRegister.Load(getMemReference())); //dacs.Add(new AK(new DACak4531(), cr.DAC1Enabled,(byte)MainRegister.Bit.SerialIntContr,MainRegister.Bit.Dac1FrameAddr, (byte)MainRegister.Bit.Dac1FrameSize)); //dacs.Add(new DACManager(new DACak4531(), cr.DAC2Enabled, (byte)MainRegister.Bit.SerialIntContr, (byte)MainRegister.Bit.Dac2FrameAddr, (byte)MainRegister.Bit.Dac2FrameSize)); }
internal Tsl2561Registers(IRegisterManagerAdapter adapter) : base(adapter, true) { control = new ControlRegister(this); _registers.Add(control); timing = new TimingRegister(this); _registers.Add(timing); interruptThresholdLow = new InterruptThresholdLowRegister(this); _registers.Add(interruptThresholdLow); interruptThresholdHigh = new InterruptThresholdHighRegister(this); _registers.Add(interruptThresholdHigh); interruptControl = new InterruptControlRegister(this); _registers.Add(interruptControl); id = new IdRegister(this); _registers.Add(id); data0 = new Data0Register(this); _registers.Add(data0); data1 = new Data1Register(this); _registers.Add(data1); }
public void ControlRegisterTest() { var state = new FixtureState { pc = 0x77 }; var cr = new ControlRegister(state); Assert.AreEqual(0x77, cr.Recoil()); cr.Branch(0x95); Assert.AreEqual(0x95, cr.Recoil()); Assert.AreEqual(0x77, cr.Recoil()); cr.Branch(0x95); cr.Branch(0x145); cr.Branch(0x175); Assert.AreEqual(0x77, cr.Recoil(3)); cr.Branch(0x95); cr.Branch(0x145); cr.Branch(0x175); Assert.AreEqual(0x95, cr.Recoil(2)); }
/// <summary> /// Initializes a new instance of the <see cref="GetControlRegisterBase"/> class. /// </summary> /// <param name="control">The control.</param> protected GetControlRegisterBase(ControlRegister control) { _control = control; }
/// <summary> /// Initializes a new instance of the <see cref="SetControlRegisterBase"/> class. /// </summary> /// <param name="control">The control.</param> protected SetControlRegisterBase(ControlRegister control) { this.control = control; }
public void Reset() { ReloadValue = 0; Control = new ControlRegister(); CoreTimer.Reset(); }