package apple2 import ( "bufio" "encoding/binary" "fmt" "io" "os" "time" "github.com/ivanizag/apple2/core6502" ) // Apple2 represents all the components and state of the emulated machine type Apple2 struct { Name string cpu *core6502.State mmu *memoryManager io *ioC0Page cg *CharacterGenerator cards [8]card isApple2e bool commandChannel chan int cycleDurationNs float64 // Current speed. Inverse of the cpu clock in Ghz isColor bool fastMode bool fastRequestsCounter int profile bool showSpeed bool paused bool traceMLI *traceProDOS } const ( // CPUClockMhz is the actual Apple II clock speed CPUClockMhz = 14.318 / 14 cpuClockEuroMhz = 14.238 / 14 ) const maxWaitDuration = 100 * time.Millisecond // Run starts the Apple2 emulation func (a *Apple2) Run() { // Start the processor a.cpu.Reset() referenceTime := time.Now() speedReferenceTime := referenceTime speedReferenceCycles := uint64(0) for { // Run a 6502 step if !a.paused { a.cpu.ExecuteInstruction() a.executionTrace() } else { time.Sleep(200 * time.Millisecond) } // Execute meta commands commandsPending := true for commandsPending { select { case command := <-a.commandChannel: switch command { case CommandKill: return case CommandPauseUnpauseEmulator: a.paused = !a.paused referenceTime = time.Now() speedReferenceTime = referenceTime default: // Execute the other commands a.executeCommand(command) } default: commandsPending = false } } if a.cycleDurationNs != 0 && a.fastRequestsCounter <= 0 { // Wait until next 6502 step has to run clockDuration := time.Since(referenceTime) simulatedDuration := time.Duration(float64(a.cpu.GetCycles()) * a.cycleDurationNs) waitDuration := simulatedDuration - clockDuration if waitDuration > maxWaitDuration || -waitDuration > maxWaitDuration { // We have to wait too long or are too much behind. Let's fast forward referenceTime = referenceTime.Add(-waitDuration) waitDuration = 0 } if waitDuration > 0 { time.Sleep(waitDuration) } } if a.showSpeed && a.cpu.GetCycles()-speedReferenceCycles > 1000000 { // Calculate speed in MHz every million cycles newTime := time.Now() newCycles := a.cpu.GetCycles() elapsedCycles := float64(newCycles - speedReferenceCycles) freq := 1000.0 * elapsedCycles / float64(newTime.Sub(speedReferenceTime).Nanoseconds()) fmt.Printf("Freq: %f Mhz\n", freq) speedReferenceTime = newTime speedReferenceCycles = newCycles } } } // IsPaused returns true when emulator is paused func (a *Apple2) IsPaused() bool { return a.paused } func (a *Apple2) setProfiling(value bool) { a.profile = value } // IsProfiling returns true when profiling func (a *Apple2) IsProfiling() bool { return a.profile } const ( // CommandToggleSpeed toggles cpu speed between full speed and actual Apple II speed CommandToggleSpeed = iota + 1 // CommandShowSpeed toggles printinf the current freq in Mhz CommandShowSpeed // CommandToggleColor toggles between NTSC color TV and Green phospor monitor CommandToggleColor // CommandSaveState stores the state to file CommandSaveState // CommandLoadState reload the last state CommandLoadState // CommandDumpDebugInfo dumps usefull info CommandDumpDebugInfo // CommandNextCharGenPage cycles the CharGen page if several CommandNextCharGenPage // CommandToggleCPUTrace toggle tracing of CPU execution CommandToggleCPUTrace // CommandKill stops the cpu execution loop CommandKill // CommandReset executes a 6502 reset CommandReset // CommandPauseUnpauseEmulator allows the Pause button to freeze the emulator for a coffee break CommandPauseUnpauseEmulator ) // SendCommand enqueues a command to the emulator thread func (a *Apple2) SendCommand(command int) { a.commandChannel <- command } func (a *Apple2) executeCommand(command int) { switch command { case CommandToggleSpeed: if a.cycleDurationNs == 0 { fmt.Println("Slow") a.cycleDurationNs = 1000.0 / CPUClockMhz } else { fmt.Println("Fast") a.cycleDurationNs = 0 } case CommandShowSpeed: a.showSpeed = !a.showSpeed case CommandToggleColor: a.isColor = !a.isColor case CommandSaveState: fmt.Println("Saving state") err := a.save("apple2.state") if err != nil { fmt.Printf("Error loadind state: %v.", err) } case CommandLoadState: fmt.Println("Loading state") err := a.load("apple2.state") if err != nil { fmt.Printf("Error loadind state: %v.", err) } case CommandDumpDebugInfo: a.dumpDebugInfo() case CommandNextCharGenPage: a.cg.nextPage() fmt.Printf("Chargen page %v\n", a.cg.page) case CommandToggleCPUTrace: a.cpu.SetTrace(!a.cpu.GetTrace()) case CommandReset: a.cpu.Reset() } } func (a *Apple2) requestFastMode() { // Note: if the fastMode is shorter than maxWaitDuration, there won't be any gain. if a.fastMode { a.fastRequestsCounter++ } } func (a *Apple2) releaseFastMode() { if a.fastMode { a.fastRequestsCounter-- } } func (a *Apple2) executionTrace() { if a.traceMLI != nil { a.traceMLI.inspect() } } type persistent interface { save(io.Writer) error load(io.Reader) error } func (a *Apple2) save(filename string) error { f, err := os.Create(filename) if err != nil { return err } defer f.Close() w := bufio.NewWriter(f) defer w.Flush() err = a.cpu.Save(w) if err != nil { return err } err = a.mmu.save(w) if err != nil { return err } err = a.io.save(w) if err != nil { return err } err = binary.Write(w, binary.BigEndian, a.isColor) if err != nil { return err } err = binary.Write(w, binary.BigEndian, a.fastMode) if err != nil { return err } err = binary.Write(w, binary.BigEndian, a.fastRequestsCounter) if err != nil { return err } for _, c := range a.cards { if c != nil { err = c.save(w) if err != nil { return err } } } return nil } func (a *Apple2) load(filename string) error { f, err := os.Open(filename) if err != nil { return err } defer f.Close() r := bufio.NewReader(f) err = a.cpu.Load(r) if err != nil { return err } err = a.mmu.load(r) if err != nil { return err } err = a.io.load(r) if err != nil { return err } err = binary.Read(r, binary.BigEndian, &a.isColor) if err != nil { return err } err = binary.Read(r, binary.BigEndian, &a.fastMode) if err != nil { return err } err = binary.Read(r, binary.BigEndian, &a.fastRequestsCounter) if err != nil { return err } for _, c := range a.cards { if c != nil { err = c.load(r) if err != nil { return err } } } return nil } func (a *Apple2) dumpDebugInfo() { // See "Apple II Monitors Peeled" pageZeroSymbols := map[int]string{ 0x36: "CSWL", 0x37: "CSWH", 0x38: "KSWL", 0x39: "KSWH", } fmt.Printf("Page zero values:\n") for _, k := range []int{0x36, 0x37, 0x38, 0x39} { d := a.mmu.physicalMainRAM.data[k] fmt.Printf(" %v(0x%x): 0x%02x\n", pageZeroSymbols[k], k, d) } }