doxygen/VDP_8hh_source.html

 #ifndef VDP_HH

 #define VDP_HH


 #include "MSXDevice.hh"

 #include "Schedulable.hh"

 #include "VideoSystemChangeListener.hh"

 #include "SimpleDebuggable.hh"

 #include "TclCallback.hh"

 #include "InfoTopic.hh"

 #include "IRQHelper.hh"

 #include "Clock.hh"

 #include "DisplayMode.hh"

 #include "Observer.hh"

 #include "openmsx.hh"

 #include "outer.hh"

 #include <memory>

 #include <array>


 namespace openmsx {


 class PostProcessor;

 class Renderer;

 class VDPCmdEngine;

 class VDPVRAM;

 class MSXCPU;

 class SpriteChecker;

 class Display;

 class RawFrame;

 class Setting;

 template<typename> class EnumSetting;

 namespace VDPAccessSlots {

         enum Delta : int;

         class Calculator;

 }


 class VDP final : public MSXDevice, private VideoSystemChangeListener

                 , private Observer<Setting>

 {

 public:

         static constexpr int TICKS_PER_SECOND = 3579545 * 6; // 21.5MHz;

         using VDPClock = Clock<TICKS_PER_SECOND>;


         static constexpr int TICKS_PER_LINE = 1368;


         explicit VDP(const DeviceConfig& config);

         ~VDP() override;


         void powerUp(EmuTime::param time) override;

         void reset(EmuTime::param time) override;

         [[nodiscard]] byte readIO(word port, EmuTime::param time) override;

         [[nodiscard]] byte peekIO(word port, EmuTime::param time) const override;

         void writeIO(word port, byte value, EmuTime::param time) override;


         [[nodiscard]] PostProcessor* getPostProcessor() const;


         [[nodiscard]] inline bool isMSX1VDP() const {

                 return (version & VM_MSX1) != 0;

         }


         [[nodiscard]] inline bool isVDPwithPALonly() const {

                 return (version & VM_PAL) != 0;

         }


         [[nodiscard]] inline bool vdpLacksMirroring() const {

                 return (version & VM_NO_MIRRORING) != 0;

         }


         [[nodiscard]] inline bool vdpHasPatColMirroring() const {

                 return (version & VM_PALCOL_MIRRORING) != 0;

         }


         [[nodiscard]] inline bool isVDPwithVRAMremapping() const {

                 return (version & VM_VRAM_REMAPPING) != 0;

         }


         [[nodiscard]] inline bool hasYJK() const {

                 return (version & VM_YJK) != 0;

         }


         [[nodiscard]] std::array<std::array<uint8_t, 3>, 16> getMSX1Palette() const;


         [[nodiscard]] inline DisplayMode getDisplayMode() const {

                 return displayMode;

         }


         [[nodiscard]] inline VDPVRAM& getVRAM() {

                 return *vram;

         }


         [[nodiscard]] inline const RawFrame* isSuperimposing() const {

                 // Note that bit 0 of r#0 has no effect on an V9938 or higher,

                 // but this bit is masked out. Also note that on an MSX1, if

                 // bit 0 of r#0 is enabled and there is no external video

                 // source, then we lose sync.

                 // Also note that because this property is fixed per frame we

                 // cannot (re)calculate it from register values.

                 return superimposing;

         }


         [[nodiscard]] inline SpriteChecker& getSpriteChecker() {

                 return *spriteChecker;

         }


         [[nodiscard]] inline bool getTransparency() const {

                 return (controlRegs[8] & 0x20) == 0;

         }


         [[nodiscard]] bool canSpriteColor0Collide() const {

                 // On MSX1 (so far only tested a TMS9129(?)) sprites with

                 // color=0 can always collide with other sprites. Though on

                 // V99x8 (only tested V9958) collisions only occur when color 0

                 // is not transparent. For more details see:

                 //   https://github.com/openMSX/openMSX/issues/1198

                 return isMSX1VDP() || !getTransparency();

         }


         [[nodiscard]] inline int getForegroundColor() const {

                 return controlRegs[7] >> 4;

         }


         [[nodiscard]] inline int getBackgroundColor() const {

                 byte reg7 = controlRegs[7];

                 if (displayMode.getByte() == DisplayMode::GRAPHIC7) {

                         return reg7;

                 } else {

                         return reg7 & 0x0F;

                 }

         }


         [[nodiscard]] inline int getBlinkForegroundColor() const {

                 return controlRegs[12] >> 4;

         }


         [[nodiscard]] inline int getBlinkBackgroundColor() const {

                 return controlRegs[12] & 0x0F;

         }


         [[nodiscard]] inline bool getBlinkState() const {

                 return blinkState;

         }


         [[nodiscard]] inline word getPalette(int index) const {

                 return palette[index];

         }


         [[nodiscard]] inline bool isDisplayEnabled() const {

                 return isDisplayArea && displayEnabled;

         }


         [[nodiscard]] inline bool spritesEnabled() const {

                 return displayEnabled &&

                        (displayMode.getSpriteMode(isMSX1VDP()) != 0) &&

                        spriteEnabled;

         }


         [[nodiscard]] inline bool spritesEnabledFast() const {

                 assert(displayMode.getSpriteMode(isMSX1VDP()) != 0);

                 return displayEnabled && spriteEnabled;

         }


         [[nodiscard]] inline bool spritesEnabledRegister() const {

                 return spriteEnabled;

         }


         [[nodiscard]] inline byte getVerticalScroll() const {

                 return controlRegs[23];

         }


         [[nodiscard]] inline byte getHorizontalScrollLow() const {

                 return controlRegs[27];

         }


         [[nodiscard]] inline byte getHorizontalScrollHigh() const {

                 return controlRegs[26];

         }


         [[nodiscard]] inline bool isBorderMasked() const {

                 return (controlRegs[25] & 0x02) != 0;

         }


         [[nodiscard]] inline bool isMultiPageScrolling() const {

                 return (controlRegs[25] & 0x01) && (controlRegs[2] & 0x20);

         }


         [[nodiscard]] inline int getLineZero() const {

                 return displayStart / TICKS_PER_LINE;

         }


         [[nodiscard]] inline bool isPalTiming() const {

                 return palTiming;

         }


         [[nodiscard]] inline bool isInterlaced() const {

                 return interlaced;

         }


         [[nodiscard]] inline bool isFastBlinkEnabled() const {

                 return (controlRegs[1] & 4) != 0;

         }


         [[nodiscard]] inline bool isEvenOddEnabled() const {

                 if (isFastBlinkEnabled()) return false;

                 return (controlRegs[9] & 4) != 0;

         }


         [[nodiscard]] inline bool getEvenOdd() const {

                 return (statusReg2 & 2) != 0;

         }


         [[nodiscard]] inline int getEvenOddMask() const {

                 // TODO: Verify which page is displayed on even fields.

                 assert(!isFastBlinkEnabled());

                 return (((~controlRegs[9] & 4) << 6) | ((statusReg2 & 2) << 7)) &

                        (!blinkState << 8);

         }


         [[nodiscard]] inline int getEvenOddMask(int line) const {

                 if (isFastBlinkEnabled()) {

                         // EO and IL not considered in this mode

                         auto p = calculateLineBlinkState(line);

                         return (!p.first) << 8;

                 } else {

                         return getEvenOddMask();

                 }

         }


         [[nodiscard]] inline std::pair<bool, int> calculateLineBlinkState(unsigned line) const {

                 assert(isFastBlinkEnabled());


                 if (blinkCount == 0) { // not changing

                         return {blinkState, blinkCount};

                 }


                 unsigned evenLen = ((controlRegs[13] >> 4) & 0x0F) * 10;

                 unsigned oddLen  = ((controlRegs[13] >> 0) & 0x0F) * 10;

                 unsigned totalLen = evenLen + oddLen;

                 assert(totalLen != 0); // because this implies 'blinkCount == 0'

                 line %= totalLen; // reduce double flips


                 bool resultState = blinkState; // initial guess, adjusted later

                 if (blinkState) {

                         // We start in the 'even' period -> check first for

                         // even/odd transition, next for odd/even

                 } else {

                         // We start in the 'odd' period -> do the opposite

                         std::swap(evenLen, oddLen);

                 }

                 int newCount = blinkCount - line;

                 if (newCount <= 0) {

                         // switch even->odd    (or odd->even)

                         resultState = !resultState;

                         newCount += oddLen;

                         if (newCount <= 0) {

                                 // switch odd->even   (or even->odd)

                                 resultState = !resultState;

                                 newCount += evenLen;

                                 assert(newCount > 0);

                         }

                 }

                 return {resultState, newCount};

         }


         [[nodiscard]] inline int getTicksThisFrame(EmuTime::param time) const {

                 return frameStartTime.getTicksTill_fast(time);

         }


         [[nodiscard]] inline EmuTime::param getFrameStartTime() const {

                 return frameStartTime.getTime();

         }


         [[nodiscard]] inline int getSpriteSize() const {

                 return ((controlRegs[1] & 2) << 2) + 8;

         }


         [[nodiscard]] inline bool isSpriteMag() const {

                 return controlRegs[1] & 1;

         }


         [[nodiscard]] inline bool getCmdBit() const {

                 return (controlRegs[25] & 0x40) != 0;

         }


         [[nodiscard]] inline int getLinesPerFrame() const {

                 return palTiming ? 313 : 262;

         }


         [[nodiscard]] inline int getTicksPerFrame() const {

                 return getLinesPerFrame() * TICKS_PER_LINE;

         }


         [[nodiscard]] inline bool isInsideFrame(EmuTime::param time) const {

                 return time >= frameStartTime.getTime() &&

                         getTicksThisFrame(time) <= getTicksPerFrame();

         }


         [[nodiscard]] inline int getHorizontalAdjust() const {

                 return horizontalAdjust;

         }


         [[nodiscard]] inline int getLeftSprites() const {

                 return 100 + 102 + 56

                         + (horizontalAdjust - 7) * 4

                         + (displayMode.isTextMode() ? 36 : 0);

         }


         [[nodiscard]] inline int getLeftBorder() const {

                 return getLeftSprites() + (isBorderMasked() ? 8 * 4 : 0);

         }


         [[nodiscard]] inline int getRightBorder() const {

                 return getLeftSprites()

                         + (displayMode.isTextMode() ? 960 : 1024);

         }


         [[nodiscard]] inline int getLeftBackground() const {

                 return getLeftSprites() + getHorizontalScrollLow() * 4;

         }


         [[nodiscard]] byte getStatusReg0() const { return statusReg0; }


         void setSpriteStatus(byte value)

         {

                 statusReg0 = (statusReg0 & 0x80) | (value & 0x7F);

         }


         [[nodiscard]] bool getVRMode() const {

                 return (controlRegs[8] & 8) != 0;

         }


         void setExternalVideoSource(const RawFrame* externalSource) {

                 externalVideo = externalSource;

         }


         [[nodiscard]] bool getBrokenCmdTiming() const {

                 return brokenCmdTiming;

         }


         [[nodiscard]] EmuTime getAccessSlot(EmuTime::param time, VDPAccessSlots::Delta delta) const;


         [[nodiscard]] VDPAccessSlots::Calculator getAccessSlotCalculator(

                 EmuTime::param time, EmuTime::param limit) const;


         void scheduleCmdSync(EmuTime t) {

                 auto now = getCurrentTime();

                 if (t <= now) {

                         // The largest amount of VDP cycles between 'progress'

                         // in command emulation:

                         // - worst case the LMMM takes 120+64 cycles to fully process one pixel

                         // - the largest gap between access slots is 70 cycles

                         // - but if we're unlucky the CPU steals that slot

                         int LARGEST_STALL = 184 + 2 * 70;


                         t = now + VDPClock::duration(LARGEST_STALL);

                 }

                 syncCmdDone.setSyncPoint(t);

         }


         template<typename Archive>

         void serialize(Archive& ar, unsigned version);


 private:

         void initTables();


         // VdpVersion bitmasks

         static constexpr unsigned VM_MSX1             =   1; // set-> MSX1,       unset-> MSX2 or MSX2+

         static constexpr unsigned VM_PAL              =   2; // set-> fixed PAL,  unset-> fixed NTSC or switchable

         static constexpr unsigned VM_NO_MIRRORING     =   4; // set-> no (screen2) mirroring

         static constexpr unsigned VM_PALCOL_MIRRORING =   8; // set-> pattern/color-table mirroring

         static constexpr unsigned VM_VRAM_REMAPPING   =  16; // set-> 4k,8/16k VRAM remapping

         static constexpr unsigned VM_TOSHIBA_PALETTE  =  32; // set-> has Toshiba palette

         static constexpr unsigned VM_YJK              =  64; // set-> has YJK (MSX2+)

         static constexpr unsigned VM_YM2220_PALETTE   = 128; // set-> has YM2220 palette


         enum VdpVersion {

                 TMS99X8A   = VM_MSX1 | VM_PALCOL_MIRRORING | VM_VRAM_REMAPPING,


                 TMS9929A   = VM_MSX1 | VM_PALCOL_MIRRORING | VM_VRAM_REMAPPING | VM_PAL,


                 TMS9129    = VM_MSX1 | VM_PAL,


                 TMS91X8    = VM_MSX1,


                 T6950PAL   = VM_MSX1 | VM_TOSHIBA_PALETTE | VM_NO_MIRRORING | VM_PAL,


                 T6950NTSC  = VM_MSX1 | VM_TOSHIBA_PALETTE | VM_NO_MIRRORING,


                 T7937APAL  = VM_MSX1 | VM_TOSHIBA_PALETTE | VM_PAL,


                 T7937ANTSC = VM_MSX1 | VM_TOSHIBA_PALETTE,


                 YM2220PAL  = VM_MSX1 | VM_YM2220_PALETTE | VM_PALCOL_MIRRORING | VM_PAL,


                 YM2220NTSC = VM_MSX1 | VM_YM2220_PALETTE | VM_PALCOL_MIRRORING,


                 V9938      = 0,


                 V9958      = VM_YJK,

         };


         struct SyncBase : public Schedulable {

                 explicit SyncBase(VDP& vdp_) : Schedulable(vdp_.getScheduler()) {}

                 using Schedulable::removeSyncPoint;

                 using Schedulable::setSyncPoint;

                 using Schedulable::pendingSyncPoint;

         protected:

                 ~SyncBase() = default;

         };


         struct SyncVSync final : public SyncBase {

                 explicit SyncVSync(VDP& vdp) : SyncBase(vdp) {}

                 void executeUntil(EmuTime::param time) override {

                         auto& vdp = OUTER(VDP, syncVSync);

                         vdp.execVSync(time);

                 }

         } syncVSync;


         struct SyncDisplayStart final : public SyncBase {

                 explicit SyncDisplayStart(VDP& vdp) : SyncBase(vdp) {}

                 void executeUntil(EmuTime::param time) override {

                         auto& vdp = OUTER(VDP, syncDisplayStart);

                         vdp.execDisplayStart(time);

                 }

         } syncDisplayStart;


         struct SyncVScan final : public SyncBase {

                 explicit SyncVScan(VDP& vdp) : SyncBase(vdp) {}

                 void executeUntil(EmuTime::param time) override {

                         auto& vdp = OUTER(VDP, syncVScan);

                         vdp.execVScan(time);

                 }

         } syncVScan;


         struct SyncHScan final : public SyncBase {

                 explicit SyncHScan(VDP& vdp) : SyncBase(vdp) {}

                 void executeUntil(EmuTime::param /*time*/) override {

                         auto& vdp = OUTER(VDP, syncHScan);

                         vdp.execHScan();

                 }

         } syncHScan;


         struct SyncHorAdjust final : public SyncBase {

                 explicit SyncHorAdjust(VDP& vdp) : SyncBase(vdp) {}

                 void executeUntil(EmuTime::param time) override {

                         auto& vdp = OUTER(VDP, syncHorAdjust);

                         vdp.execHorAdjust(time);

                 }

         } syncHorAdjust;


         struct SyncSetMode final : public SyncBase {

                 explicit SyncSetMode(VDP& vdp) : SyncBase(vdp) {}

                 void executeUntil(EmuTime::param time) override {

                         auto& vdp = OUTER(VDP, syncSetMode);

                         vdp.execSetMode(time);

                 }

         } syncSetMode;


         struct SyncSetBlank final : public SyncBase {

                 explicit SyncSetBlank(VDP& vdp) : SyncBase(vdp) {}

                 void executeUntil(EmuTime::param time) override {

                         auto& vdp = OUTER(VDP, syncSetBlank);

                         vdp.execSetBlank(time);

                 }

         } syncSetBlank;


         struct SyncSetSprites final : public SyncBase {

                 explicit SyncSetSprites(VDP& vdp) : SyncBase(vdp) {}

                 void executeUntil(EmuTime::param time) override {

                         auto& vdp = OUTER(VDP, syncSetSprites);

                         vdp.execSetSprites(time);

                 }

         } syncSetSprites;


         struct SyncCpuVramAccess final : public SyncBase {

                 explicit SyncCpuVramAccess(VDP& vdp) : SyncBase(vdp) {}

                 void executeUntil(EmuTime::param time) override {

                         auto& vdp = OUTER(VDP, syncCpuVramAccess);

                         vdp.execCpuVramAccess(time);

                 }

         } syncCpuVramAccess;


         struct SyncCmdDone final : public SyncBase {

                 explicit SyncCmdDone(VDP& vdp) : SyncBase(vdp) {}

                 void executeUntil(EmuTime::param time) override {

                         auto& vdp = OUTER(VDP, syncCmdDone);

                         vdp.execSyncCmdDone(time);

                 }

         } syncCmdDone;


         void execVSync(EmuTime::param time);

         void execDisplayStart(EmuTime::param time);

         void execVScan(EmuTime::param time);

         void execHScan();

         void execHorAdjust(EmuTime::param time);

         void execSetMode(EmuTime::param time);

         void execSetBlank(EmuTime::param time);

         void execSetSprites(EmuTime::param time);

         void execCpuVramAccess(EmuTime::param time);

         void execSyncCmdDone(EmuTime::param time);


         [[nodiscard]] inline int getNumberOfLines() const {

                 return controlRegs[9] & 0x80 ? 212 : 192;

         }


         [[nodiscard]] int getVerticalAdjust() const {

                 return (controlRegs[18] >> 4) ^ 0x07;

         }


         [[nodiscard]] inline bool getHR(int ticksThisFrame) const {

                 // Note: These constants are located inside this function because

                 //       GCC 4.0.x won't link if they are in the class scope.

                 static constexpr int HBLANK_LEN_TXT = 404;

                 static constexpr int HBLANK_LEN_GFX = 312;

                 return (ticksThisFrame + TICKS_PER_LINE - getRightBorder()) % TICKS_PER_LINE

                      < (displayMode.isTextMode() ? HBLANK_LEN_TXT : HBLANK_LEN_GFX);

         }


         // VideoSystemChangeListener interface:

         void preVideoSystemChange() noexcept override;

         void postVideoSystemChange() noexcept override;


         void resetInit();


         void resetMasks(EmuTime::param time);


         void frameStart(EmuTime::param time);


         void scheduleDisplayStart(EmuTime::param time);


         void scheduleVScan(EmuTime::param time);


         void scheduleHScan(EmuTime::param time);


         void vramWrite(byte value, EmuTime::param time);


         [[nodiscard]] byte vramRead(EmuTime::param time);


         void scheduleCpuVramAccess(bool isRead, byte write, EmuTime::param time);

         void executeCpuVramAccess(EmuTime::param time);


         [[nodiscard]] byte peekStatusReg(byte reg, EmuTime::param time) const;

         [[nodiscard]] byte readStatusReg(byte reg, EmuTime::param time);


         void changeRegister(byte reg, byte val, EmuTime::param time);


         void syncAtNextLine(SyncBase& type, EmuTime::param time);


         void createRenderer();


         void updateNameBase(EmuTime::param time);


         void updateColorBase(EmuTime::param time);


         void updatePatternBase(EmuTime::param time);


         void updateSpriteAttributeBase(EmuTime::param time);


         void updateSpritePatternBase(EmuTime::param time);


         void updateDisplayMode(DisplayMode newMode, bool cmdBit, EmuTime::param time);


         void setPalette(int index, word grb, EmuTime::param time);


         // Observer<Setting>

         void update(const Setting& setting) noexcept override;


 private:

         Display& display;

         EnumSetting<bool>& cmdTiming;

         EnumSetting<bool>& tooFastAccess;


         struct RegDebug final : SimpleDebuggable {

                 explicit RegDebug(VDP& vdp);

                 [[nodiscard]] byte read(unsigned address) override;

                 void write(unsigned address, byte value, EmuTime::param time) override;

         } vdpRegDebug;


         struct StatusRegDebug final : SimpleDebuggable {

                 explicit StatusRegDebug(VDP& vdp);

                 [[nodiscard]] byte read(unsigned address, EmuTime::param time) override;

         } vdpStatusRegDebug;


         struct PaletteDebug final : SimpleDebuggable {

                 explicit PaletteDebug(VDP& vdp);

                 [[nodiscard]] byte read(unsigned address) override;

                 void write(unsigned address, byte value, EmuTime::param time) override;

         } vdpPaletteDebug;


         struct VRAMPointerDebug final : SimpleDebuggable {

                 explicit VRAMPointerDebug(VDP& vdp);

                 [[nodiscard]] byte read(unsigned address) override;

                 void write(unsigned address, byte value, EmuTime::param time) override;

         } vramPointerDebug;


         class Info : public InfoTopic {

         public:

                 void execute(span<const TclObject> tokens,

                              TclObject& result) const override;

                 [[nodiscard]] std::string help(const std::vector<std::string>& tokens) const override;

                 [[nodiscard]] virtual int calc(const EmuTime& time) const = 0;

         protected:

                 Info(VDP& vdp_, const std::string& name, std::string helpText_);

                 ~Info() = default;

                 VDP& vdp;

                 const std::string helpText;

         };


         struct FrameCountInfo final : Info {

                 explicit FrameCountInfo(VDP& vdp);

                 [[nodiscard]] int calc(const EmuTime& time) const override;

         } frameCountInfo;


         struct CycleInFrameInfo final : Info {

                 explicit CycleInFrameInfo(VDP& vdp);

                 [[nodiscard]] int calc(const EmuTime& time) const override;

         } cycleInFrameInfo;


         struct LineInFrameInfo final : Info {

                 explicit LineInFrameInfo(VDP& vdp);

                 [[nodiscard]] int calc(const EmuTime& time) const override;

         } lineInFrameInfo;


         struct CycleInLineInfo final : Info {

                 explicit CycleInLineInfo(VDP& vdp);

                 [[nodiscard]] int calc(const EmuTime& time) const override;

         } cycleInLineInfo;


         struct MsxYPosInfo final : Info {

                 explicit MsxYPosInfo(VDP& vdp);

                 [[nodiscard]] int calc(const EmuTime& time) const override;

         } msxYPosInfo;


         struct MsxX256PosInfo final : Info {

                 explicit MsxX256PosInfo(VDP& vdp);

                 [[nodiscard]] int calc(const EmuTime& time) const override;

         } msxX256PosInfo;


         struct MsxX512PosInfo final : Info {

                 explicit MsxX512PosInfo(VDP& vdp);

                 [[nodiscard]] int calc(const EmuTime& time) const override;

         } msxX512PosInfo;


         std::unique_ptr<Renderer> renderer;


         std::unique_ptr<VDPCmdEngine> cmdEngine;


         std::unique_ptr<SpriteChecker> spriteChecker;


         std::unique_ptr<VDPVRAM> vram;


         const RawFrame* externalVideo;


         const RawFrame* superimposing;


         VDPClock frameStartTime;


         OptionalIRQHelper irqVertical;


         OptionalIRQHelper irqHorizontal;


         EmuTime displayStartSyncTime;


         EmuTime vScanSyncTime;


         EmuTime hScanSyncTime;


         TclCallback tooFastCallback;


         VdpVersion version;


         int saturationPr;


         int saturationPb;


         int frameCount;


         int displayStart;


         int horizontalScanOffset;


         int horizontalAdjust;


         byte controlRegs[32];


         int controlRegMask;


         byte controlValueMasks[32];


         int blinkCount;


         int vramPointer;


         word palette[16];


         bool isDisplayArea;


         bool palTiming;


         bool interlaced;


         byte statusReg0;


         byte statusReg1;


         byte statusReg2;


         bool blinkState;


         byte dataLatch;


         bool registerDataStored;


         bool paletteDataStored;


         byte cpuVramData;


         bool cpuVramReqIsRead;

         bool pendingCpuAccess; // always equal to pendingSyncPoint(CPU_VRAM_ACCESS)


         bool cpuExtendedVram;


         DisplayMode displayMode;


         bool displayEnabled;


         bool spriteEnabled;


         bool warningPrinted;


         bool brokenCmdTiming;

         bool allowTooFastAccess;


         MSXCPU& cpu;

         const byte fixedVDPIOdelayCycles;

 };

 SERIALIZE_CLASS_VERSION(VDP, 9);


 } // namespace openmsx


 #endif

Clock.hh

DisplayMode.hh

IRQHelper.hh

InfoTopic.hh

MSXDevice.hh

Observer.hh

Schedulable.hh

SimpleDebuggable.hh

TclCallback.hh

t
TclObject t
Definition: TclObject_test.cc:264

VideoSystemChangeListener.hh

openmsx::Clock< TICKS_PER_SECOND >

openmsx::Clock< TICKS_PER_SECOND >::duration
static constexpr EmuDuration duration(unsigned ticks)
Calculates the duration of the given number of ticks at this clock's frequency.
Definition: Clock.hh:35

openmsx::Clock::getTicksTill_fast
constexpr unsigned getTicksTill_fast(EmuTime::param e) const
Same as above, only faster, Though the time interval may not be too large.
Definition: Clock.hh:70

openmsx::Clock::getTime
constexpr EmuTime::param getTime() const
Gets the time at which the last clock tick occurred.
Definition: Clock.hh:46

openmsx::DeviceConfig
Definition: DeviceConfig.hh:20

openmsx::DisplayMode
Represents a VDP display mode.
Definition: DisplayMode.hh:16

openmsx::DisplayMode::GRAPHIC7
@ GRAPHIC7
Definition: DisplayMode.hh:38

openmsx::DisplayMode::isTextMode
constexpr bool isTextMode() const
Is the current mode a text mode? Text1 and Text2 are text modes.
Definition: DisplayMode.hh:130

openmsx::DisplayMode::getByte
constexpr byte getByte() const
Get the dispay mode as a byte: YAE YJK M5..M1 combined.
Definition: DisplayMode.hh:101

openmsx::DisplayMode::getSpriteMode
constexpr int getSpriteMode(bool isMSX1) const
Get the sprite mode of this display mode.
Definition: DisplayMode.hh:166

openmsx::MSXDevice
An MSXDevice is an emulated hardware component connected to the bus of the emulated MSX.
Definition: MSXDevice.hh:33

openmsx::MSXDevice::getScheduler
Scheduler & getScheduler() const
Definition: MSXDevice.cc:143

openmsx::MSXDevice::getCurrentTime
EmuTime::param getCurrentTime() const
Definition: MSXDevice.cc:131

openmsx::Observer
Generic Gang-of-Four Observer class, templatized edition.
Definition: Observer.hh:10

openmsx::PostProcessor
Abstract base class for post processors.
Definition: PostProcessor.hh:30

openmsx::RawFrame
A video frame as output by the VDP scanline conversion unit, before any postprocessing filters are ap...
Definition: RawFrame.hh:14

openmsx::Schedulable::setSyncPoint
void setSyncPoint(EmuTime::param timestamp)
Definition: Schedulable.cc:23

openmsx::Schedulable::removeSyncPoint
bool removeSyncPoint()
Definition: Schedulable.cc:28

openmsx::Schedulable::pendingSyncPoint
bool pendingSyncPoint() const
Definition: Schedulable.cc:38

openmsx::SimpleDebuggable::read
virtual byte read(unsigned address, EmuTime::param time)
Definition: SimpleDebuggable.cc:39

openmsx::SimpleDebuggable::read
byte read(unsigned address) override
Definition: SimpleDebuggable.cc:34

openmsx::SimpleDebuggable::write
void write(unsigned address, byte value) override
Definition: SimpleDebuggable.cc:44

openmsx::SpriteChecker
Definition: SpriteChecker.hh:19

openmsx::VDPAccessSlots::Calculator
VDP-VRAM access slot calculator, meant to be used in the inner loops of the VDPCmdEngine commands.
Definition: VDPAccessSlots.hh:38

openmsx::VDPVRAM
Manages VRAM contents and synchronizes the various users of the VRAM.
Definition: VDPVRAM.hh:387

openmsx::VDP
Unified implementation of MSX Video Display Processors (VDPs).
Definition: VDP.hh:63

openmsx::VDP::getHorizontalAdjust
int getHorizontalAdjust() const
This is a combination of the (horizontal) set adjust register and the YJK-mode bit.
Definition: VDP.hh:518

openmsx::VDP::getEvenOdd
bool getEvenOdd() const
Is the even or odd field being displayed?
Definition: VDP.hh:381

openmsx::VDP::getPalette
word getPalette(int index) const
Gets a palette entry.
Definition: VDP.hh:239

openmsx::VDP::getLinesPerFrame
int getLinesPerFrame() const
Gets the number of lines per frame.
Definition: VDP.hh:491

openmsx::VDP::getEvenOddMask
int getEvenOddMask(int line) const
Similar to the above getEvenOddMask() method, but can also be called when 'isFastBlinkEnabled() == tr...
Definition: VDP.hh:409

openmsx::VDP::getEvenOddMask
int getEvenOddMask() const
Expresses the state of even/odd page interchange in a mask on the line number.
Definition: VDP.hh:396

openmsx::VDP::getVRAM
VDPVRAM & getVRAM()
Get the VRAM object for this VDP.
Definition: VDP.hh:147

openmsx::VDP::spritesEnabled
bool spritesEnabled() const
Are sprites enabled?
Definition: VDP.hh:256

openmsx::VDP::getSpriteSize
int getSpriteSize() const
Gets the sprite size in pixels (8/16).
Definition: VDP.hh:472

openmsx::VDP::getLeftBackground
int getLeftBackground() const
Gets the number of VDP clockticks between start of line and the time when the background pixel with X...
Definition: VDP.hh:557

openmsx::VDP::getBackgroundColor
int getBackgroundColor() const
Gets the current background color.
Definition: VDP.hh:204

openmsx::VDP::getBrokenCmdTiming
bool getBrokenCmdTiming() const
Value of the cmdTiming setting, true means commands have infinite speed.
Definition: VDP.hh:594

openmsx::VDP::isEvenOddEnabled
bool isEvenOddEnabled() const
Get even/odd page alternation status.
Definition: VDP.hh:373

openmsx::VDP::writeIO
void writeIO(word port, byte value, EmuTime::param time) override
Write a byte to a given IO port at a certain time to this device.
Definition: VDP.cc:653

openmsx::VDP::scheduleCmdSync
void scheduleCmdSync(EmuTime t)
Only used when there are commandExecuting-probe listeners.
Definition: VDP.hh:631

openmsx::VDP::spritesEnabledRegister
bool spritesEnabledRegister() const
Still faster variant (just looks at the sprite-enabled-bit).
Definition: VDP.hh:273

openmsx::VDP::TICKS_PER_SECOND
static constexpr int TICKS_PER_SECOND
Number of VDP clock ticks per second.
Definition: VDP.hh:67

openmsx::VDP::isFastBlinkEnabled
bool isFastBlinkEnabled() const
Get 'fast-blink' status.
Definition: VDP.hh:358

openmsx::VDP::getMSX1Palette
std::array< std::array< uint8_t, 3 >, 16 > getMSX1Palette() const
Get the (fixed) palette for this MSX1 VDP.
Definition: VDP.cc:1527

openmsx::VDP::getPostProcessor
PostProcessor * getPostProcessor() const
Used by Video9000 to be able to couple the VDP and V9990 output.
Definition: VDP.cc:245

openmsx::VDP::isVDPwithPALonly
bool isVDPwithPALonly() const
Is this a VDP only capable of PAL?
Definition: VDP.hh:100

openmsx::VDP::getCmdBit
bool getCmdBit() const
Are commands possible in non Graphic modes? (V9958 only)
Definition: VDP.hh:485

openmsx::VDP::getAccessSlotCalculator
VDPAccessSlots::Calculator getAccessSlotCalculator(EmuTime::param time, EmuTime::param limit) const
Same as getAccessSlot(), but it can be much faster for repeated calls, e.g.
Definition: VDP.cc:876

openmsx::VDP::reset
void reset(EmuTime::param time) override
This method is called on reset.
Definition: VDP.cc:322

openmsx::VDP::isBorderMasked
bool isBorderMasked() const
Gets the current border mask setting.
Definition: VDP.hh:307

openmsx::VDP::calculateLineBlinkState
std::pair< bool, int > calculateLineBlinkState(unsigned line) const
Calculates what 'blinkState' and 'blinkCount' would be at a specific line.
Definition: VDP.hh:423

openmsx::VDP::getStatusReg0
byte getStatusReg0() const
Should only be used by SpriteChecker.
Definition: VDP.hh:564

openmsx::VDP::spritesEnabledFast
bool spritesEnabledFast() const
Same as spritesEnabled(), but may only be called in sprite mode 1 or 2.
Definition: VDP.hh:265

openmsx::VDP::getForegroundColor
int getForegroundColor() const
Gets the current foreground color.
Definition: VDP.hh:192

openmsx::VDP::TICKS_PER_LINE
static constexpr int TICKS_PER_LINE
Number of VDP clock ticks per line.
Definition: VDP.hh:72

openmsx::VDP::getBlinkBackgroundColor
int getBlinkBackgroundColor() const
Gets the current blinking color for blinking text.
Definition: VDP.hh:223

openmsx::VDP::getTicksPerFrame
int getTicksPerFrame() const
Gets the number of VDP clockticks (21MHz) per frame.
Definition: VDP.hh:497

openmsx::VDP::isInsideFrame
bool isInsideFrame(EmuTime::param time) const
Is the given timestamp inside the current frame? Mainly useful for debugging, because relevant timest...
Definition: VDP.hh:510

openmsx::VDP::serialize
void serialize(Archive &ar, unsigned version)
Definition: VDP.cc:1839

openmsx::VDP::setSpriteStatus
void setSpriteStatus(byte value)
Should only be used by SpriteChecker.
Definition: VDP.hh:574

openmsx::VDP::VDPClock
Clock< TICKS_PER_SECOND > VDPClock
Definition: VDP.hh:68

openmsx::VDP::getHorizontalScrollHigh
byte getHorizontalScrollHigh() const
Gets the current horizontal scroll higher bits.
Definition: VDP.hh:298

openmsx::VDP::getRightBorder
int getRightBorder() const
Gets the number of VDP clockticks between start of line and the start of the right border.
Definition: VDP.hh:547

openmsx::VDP::getDisplayMode
DisplayMode getDisplayMode() const
Get the display mode the VDP is in.
Definition: VDP.hh:141

openmsx::VDP::~VDP
~VDP() override
Definition: VDP.cc:219

openmsx::VDP::getBlinkState
bool getBlinkState() const
Gets the current blink state.
Definition: VDP.hh:230

openmsx::VDP::getLineZero
int getLineZero() const
Get the absolute line number of display line zero.
Definition: VDP.hh:325

openmsx::VDP::getBlinkForegroundColor
int getBlinkForegroundColor() const
Gets the current blinking color for blinking text.
Definition: VDP.hh:216

openmsx::VDP::setExternalVideoSource
void setExternalVideoSource(const RawFrame *externalSource)
Enable superimposing.
Definition: VDP.hh:588

openmsx::VDP::isMSX1VDP
bool isMSX1VDP() const
Is this an MSX1 VDP?
Definition: VDP.hh:93

openmsx::VDP::getVerticalScroll
byte getVerticalScroll() const
Gets the current vertical scroll (line displayed at Y=0).
Definition: VDP.hh:280

openmsx::VDP::isVDPwithVRAMremapping
bool isVDPwithVRAMremapping() const
Does this VDP have VRAM remapping when switching from 4k to 8/16k mode?
Definition: VDP.hh:121

openmsx::VDP::hasYJK
bool hasYJK() const
Does this VDP support YJK display?
Definition: VDP.hh:128

openmsx::VDP::getFrameStartTime
EmuTime::param getFrameStartTime() const
Definition: VDP.hh:466

openmsx::VDP::canSpriteColor0Collide
bool canSpriteColor0Collide() const
Can a sprite which has color=0 collide with some other sprite?
Definition: VDP.hh:180

openmsx::VDP::isMultiPageScrolling
bool isMultiPageScrolling() const
Is multi page scrolling enabled? It is considered enabled if both the multi page scrolling flag is en...
Definition: VDP.hh:317

openmsx::VDP::peekIO
byte peekIO(word port, EmuTime::param time) const override
Read a byte from a given IO port.
Definition: VDP.cc:985

openmsx::VDP::getLeftBorder
int getLeftBorder() const
Gets the number of VDP clockticks between start of line and the end of the left border.
Definition: VDP.hh:540

openmsx::VDP::getAccessSlot
EmuTime getAccessSlot(EmuTime::param time, VDPAccessSlots::Delta delta) const
Get the earliest access slot that is at least 'delta' cycles in the future.
Definition: VDP.cc:870

openmsx::VDP::isSpriteMag
bool isSpriteMag() const
Are sprites magnified?
Definition: VDP.hh:478

openmsx::VDP::vdpHasPatColMirroring
bool vdpHasPatColMirroring() const
Is this a VDP that has pattern/colortable mirroring?
Definition: VDP.hh:114

openmsx::VDP::isPalTiming
bool isPalTiming() const
Is PAL timing active? This setting is fixed at start of frame.
Definition: VDP.hh:333

openmsx::VDP::isInterlaced
bool isInterlaced() const
Get interlace status.
Definition: VDP.hh:344

openmsx::VDP::getTransparency
bool getTransparency() const
Gets the current transparency setting.
Definition: VDP.hh:174

openmsx::VDP::getVRMode
bool getVRMode() const
Returns current VR mode.
Definition: VDP.hh:582

openmsx::VDP::readIO
byte readIO(word port, EmuTime::param time) override
Read a byte from an IO port at a certain time from this device.
Definition: VDP.cc:965

openmsx::VDP::isDisplayEnabled
bool isDisplayEnabled() const
Is the display enabled? Both the regular border and forced blanking by clearing the display enable bi...
Definition: VDP.hh:248

openmsx::VDP::isSuperimposing
const RawFrame * isSuperimposing() const
Are we currently superimposing? In case of superimpose, returns a pointer to the to-be-superimposed f...
Definition: VDP.hh:155

openmsx::VDP::getTicksThisFrame
int getTicksThisFrame(EmuTime::param time) const
Gets the number of VDP clock ticks (21MHz) elapsed between a given time and the start of this frame.
Definition: VDP.hh:462

openmsx::VDP::vdpLacksMirroring
bool vdpLacksMirroring() const
Is this a VDP that lacks mirroring?
Definition: VDP.hh:107

openmsx::VDP::getSpriteChecker
SpriteChecker & getSpriteChecker()
Get the sprite checker for this VDP.
Definition: VDP.hh:167

openmsx::VDP::getHorizontalScrollLow
byte getHorizontalScrollLow() const
Gets the current horizontal scroll lower bits.
Definition: VDP.hh:289

openmsx::VDP::VDP
VDP(const DeviceConfig &config)
Definition: VDP.cc:65

openmsx::VDP::powerUp
void powerUp(EmuTime::param time) override
This method is called when MSX is powered up.
Definition: VDP.cc:316

openmsx::VDP::getLeftSprites
int getLeftSprites() const
Gets the number of VDP clockticks between start of line and the start of the sprite plane.
Definition: VDP.hh:529

openmsx::VideoSystemChangeListener
Definition: VideoSystemChangeListener.hh:7

span
Definition: span.hh:126

openmsx::VDPAccessSlots::Delta
Delta
Definition: VDPAccessSlots.hh:13

openmsx
This file implemented 3 utility functions:
Definition: Autofire.cc:9

openmsx::OptionalIRQHelper
IntHelper< OptionalIRQ > OptionalIRQHelper
Definition: IRQHelper.hh:136

openmsx::MSXCPU
MSXCPU
Definition: MSXCPU.cc:562

openmsx::Schedulable
Schedulable
Definition: Schedulable.cc:69

openmsx::Info
AmdFlash::SectorInfo Info
Definition: RomManbow2.cc:17

openmsx::VDPCmdEngine
VDPCmdEngine
Definition: VDPCmdEngine.cc:2642

openmsx::word
uint16_t word
16 bit unsigned integer
Definition: openmsx.hh:29

openmsx::SpriteChecker
SpriteChecker
Definition: SpriteChecker.cc:520

openmsx::SERIALIZE_CLASS_VERSION
SERIALIZE_CLASS_VERSION(CassettePlayer, 2)

openmsx::VDPVRAM
VDPVRAM
Definition: VDPVRAM.cc:343

openmsx.hh

outer.hh

OUTER
#define OUTER(type, member)
Definition: outer.hh:41