Move GBACart-related global state into objects (#1870)

- RAII will now do the heavy lifting
- Mark some methods as const or noexcept
- Once the `NDS` object is finalized, most of these `assert`s can go away
This commit is contained in:
Jesse Talavera-Greenberg 2023-11-08 16:21:21 -05:00 committed by GitHub
parent b4ff911fa3
commit 8b47178add
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GPG Key ID: 4AEE18F83AFDEB23
5 changed files with 151 additions and 153 deletions

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@ -42,11 +42,6 @@ const char SOLAR_SENSOR_GAMECODES[10][5] =
"A3IJ" // Boktai - The Sun Is in Your Hand (USA) (Sample) "A3IJ" // Boktai - The Sun Is in Your Hand (USA) (Sample)
}; };
std::unique_ptr<CartCommon> Cart;
u16 OpenBusDecay;
CartCommon::CartCommon() CartCommon::CartCommon()
{ {
} }
@ -77,7 +72,7 @@ int CartCommon::SetInput(int num, bool pressed)
return -1; return -1;
} }
u16 CartCommon::ROMRead(u32 addr) u16 CartCommon::ROMRead(u32 addr) const
{ {
return 0; return 0;
} }
@ -243,7 +238,7 @@ void CartGame::LoadSave(const u8* savedata, u32 savelen)
Platform::WriteGBASave(savedata, len, 0, len); Platform::WriteGBASave(savedata, len, 0, len);
} }
u16 CartGame::ROMRead(u32 addr) u16 CartGame::ROMRead(u32 addr) const
{ {
addr &= 0x01FFFFFF; addr &= 0x01FFFFFF;
@ -639,7 +634,7 @@ void CartRAMExpansion::DoSavestate(Savestate* file)
file->Var16(&RAMEnable); file->Var16(&RAMEnable);
} }
u16 CartRAMExpansion::ROMRead(u32 addr) u16 CartRAMExpansion::ROMRead(u32 addr) const
{ {
addr &= 0x01FFFFFF; addr &= 0x01FFFFFF;
@ -696,25 +691,12 @@ void CartRAMExpansion::ROMWrite(u32 addr, u16 val)
} }
} }
void GBACartSlot::Reset() noexcept
bool Init()
{
Cart = nullptr;
return true;
}
void DeInit()
{
Cart = nullptr;
}
void Reset()
{ {
if (Cart) Cart->Reset(); if (Cart) Cart->Reset();
} }
void DoSavestate(Savestate* file) void GBACartSlot::DoSavestate(Savestate* file) noexcept
{ {
file->Section("GBAC"); // Game Boy Advance Cartridge file->Section("GBAC"); // Game Boy Advance Cartridge
@ -816,7 +798,7 @@ std::unique_ptr<CartCommon> ParseROM(const u8* romdata, u32 romlen)
return cart; return cart;
} }
bool InsertROM(std::unique_ptr<CartCommon>&& cart) bool GBACartSlot::InsertROM(std::unique_ptr<CartCommon>&& cart) noexcept
{ {
if (!cart) { if (!cart) {
Log(LogLevel::Error, "Failed to insert invalid GBA cart; existing cart (if any) was not ejected.\n"); Log(LogLevel::Error, "Failed to insert invalid GBA cart; existing cart (if any) was not ejected.\n");
@ -844,14 +826,14 @@ bool InsertROM(std::unique_ptr<CartCommon>&& cart)
return true; return true;
} }
bool LoadROM(const u8* romdata, u32 romlen) bool GBACartSlot::LoadROM(const u8* romdata, u32 romlen) noexcept
{ {
std::unique_ptr<CartCommon> data = ParseROM(romdata, romlen); std::unique_ptr<CartCommon> data = ParseROM(romdata, romlen);
return InsertROM(std::move(data)); return InsertROM(std::move(data));
} }
void LoadSave(const u8* savedata, u32 savelen) void GBACartSlot::LoadSave(const u8* savedata, u32 savelen) noexcept
{ {
if (Cart) if (Cart)
{ {
@ -862,7 +844,7 @@ void LoadSave(const u8* savedata, u32 savelen)
} }
} }
void LoadAddon(int type) void GBACartSlot::LoadAddon(int type) noexcept
{ {
switch (type) switch (type)
{ {
@ -876,13 +858,13 @@ void LoadAddon(int type)
} }
} }
void EjectCart() void GBACartSlot::EjectCart() noexcept
{ {
Cart = nullptr; Cart = nullptr;
} }
int SetInput(int num, bool pressed) int GBACartSlot::SetInput(int num, bool pressed) noexcept
{ {
if (Cart) return Cart->SetInput(num, pressed); if (Cart) return Cart->SetInput(num, pressed);
@ -890,44 +872,28 @@ int SetInput(int num, bool pressed)
} }
void SetOpenBusDecay(u16 val) u16 GBACartSlot::ROMRead(u32 addr) const noexcept
{
OpenBusDecay = val;
}
u16 ROMRead(u32 addr)
{ {
if (Cart) return Cart->ROMRead(addr); if (Cart) return Cart->ROMRead(addr);
return ((addr >> 1) & 0xFFFF) | OpenBusDecay; return ((addr >> 1) & 0xFFFF) | OpenBusDecay;
} }
void ROMWrite(u32 addr, u16 val) void GBACartSlot::ROMWrite(u32 addr, u16 val) noexcept
{ {
if (Cart) Cart->ROMWrite(addr, val); if (Cart) Cart->ROMWrite(addr, val);
} }
u8 SRAMRead(u32 addr) u8 GBACartSlot::SRAMRead(u32 addr) noexcept
{ {
if (Cart) return Cart->SRAMRead(addr); if (Cart) return Cart->SRAMRead(addr);
return 0xFF; return 0xFF;
} }
void SRAMWrite(u32 addr, u8 val) void GBACartSlot::SRAMWrite(u32 addr, u8 val) noexcept
{ {
if (Cart) Cart->SRAMWrite(addr, val); if (Cart) Cart->SRAMWrite(addr, val);
} }
u8* GetSaveMemory()
{
return Cart ? Cart->GetSaveMemory() : nullptr;
}
u32 GetSaveMemoryLength()
{
return Cart ? Cart->GetSaveMemoryLength() : 0;
}
} }

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@ -53,7 +53,7 @@ public:
virtual int SetInput(int num, bool pressed); virtual int SetInput(int num, bool pressed);
virtual u16 ROMRead(u32 addr); virtual u16 ROMRead(u32 addr) const;
virtual void ROMWrite(u32 addr, u16 val); virtual void ROMWrite(u32 addr, u16 val);
virtual u8 SRAMRead(u32 addr); virtual u8 SRAMRead(u32 addr);
@ -83,7 +83,7 @@ public:
virtual void SetupSave(u32 type) override; virtual void SetupSave(u32 type) override;
virtual void LoadSave(const u8* savedata, u32 savelen) override; virtual void LoadSave(const u8* savedata, u32 savelen) override;
virtual u16 ROMRead(u32 addr) override; virtual u16 ROMRead(u32 addr) const override;
virtual void ROMWrite(u32 addr, u16 val) override; virtual void ROMWrite(u32 addr, u16 val) override;
virtual u8 SRAMRead(u32 addr) override; virtual u8 SRAMRead(u32 addr) override;
@ -180,7 +180,7 @@ public:
void DoSavestate(Savestate* file) override; void DoSavestate(Savestate* file) override;
u16 ROMRead(u32 addr) override; u16 ROMRead(u32 addr) const override;
void ROMWrite(u32 addr, u16 val) override; void ROMWrite(u32 addr, u16 val) override;
private: private:
@ -195,13 +195,52 @@ enum
Input_SolarSensorUp, Input_SolarSensorUp,
}; };
extern std::unique_ptr<CartCommon> Cart; class GBACartSlot
{
public:
GBACartSlot() noexcept = default;
~GBACartSlot() noexcept = default;
void Reset() noexcept;
void DoSavestate(Savestate* file) noexcept;
/// Applies the GBACartData to the emulator state and unloads an existing ROM if any.
/// Upon successful insertion, \c cart will be nullptr and the global GBACart state
/// (\c CartROM, CartInserted, etc.) will be updated.
bool InsertROM(std::unique_ptr<CartCommon>&& cart) noexcept;
bool LoadROM(const u8* romdata, u32 romlen) noexcept;
void LoadSave(const u8* savedata, u32 savelen) noexcept;
bool Init(); void LoadAddon(int type) noexcept;
void DeInit();
void Reset();
void DoSavestate(Savestate* file); void EjectCart() noexcept;
// TODO: make more flexible, support nonbinary inputs
int SetInput(int num, bool pressed) noexcept;
void SetOpenBusDecay(u16 val) noexcept { OpenBusDecay = val; }
u16 ROMRead(u32 addr) const noexcept;
void ROMWrite(u32 addr, u16 val) noexcept;
u8 SRAMRead(u32 addr) noexcept;
void SRAMWrite(u32 addr, u8 val) noexcept;
/// This function is intended to allow frontends to save and load SRAM
/// without using melonDS APIs.
/// Modifying the emulated SRAM for any other reason is strongly discouraged.
/// The returned pointer may be invalidated if the emulator is reset,
/// or when a new game is loaded.
/// Consequently, don't store the returned pointer for any longer than necessary.
/// @returns Pointer to this cart's SRAM if a cart is loaded and supports SRAM, otherwise \c nullptr.
[[nodiscard]] u8* GetSaveMemory() noexcept { return Cart ? Cart->GetSaveMemory() : nullptr; }
[[nodiscard]] const u8* GetSaveMemory() const noexcept { return Cart ? Cart->GetSaveMemory() : nullptr; }
/// @returns The length of the buffer returned by ::GetSaveMemory()
/// if a cart is loaded and supports SRAM, otherwise zero.
[[nodiscard]] u32 GetSaveMemoryLength() const noexcept { return Cart ? Cart->GetSaveMemoryLength() : 0; }
private:
std::unique_ptr<CartCommon> Cart = nullptr;
u16 OpenBusDecay = 0;
};
/// Parses the given ROM data and constructs a \c GBACart::CartCommon subclass /// Parses the given ROM data and constructs a \c GBACart::CartCommon subclass
/// that can be inserted into the emulator or used to extract information about the cart beforehand. /// that can be inserted into the emulator or used to extract information about the cart beforehand.
@ -213,45 +252,6 @@ void DoSavestate(Savestate* file);
/// or \c nullptr if the ROM data couldn't be parsed. /// or \c nullptr if the ROM data couldn't be parsed.
std::unique_ptr<CartCommon> ParseROM(const u8* romdata, u32 romlen); std::unique_ptr<CartCommon> ParseROM(const u8* romdata, u32 romlen);
/// Applies the GBACartData to the emulator state and unloads an existing ROM if any.
/// Upon successful insertion, \c cart will be nullptr and the global GBACart state
/// (\c CartROM, CartInserted, etc.) will be updated.
bool InsertROM(std::unique_ptr<CartCommon>&& cart);
bool LoadROM(const u8* romdata, u32 romlen);
void LoadSave(const u8* savedata, u32 savelen);
void LoadAddon(int type);
void EjectCart();
//bool LoadROM(const char* path, const char* sram);
//bool LoadROM(const u8* romdata, u32 filelength, const char *sram);
//void RelocateSave(const char* path, bool write);
// TODO: make more flexible, support nonbinary inputs
int SetInput(int num, bool pressed);
void SetOpenBusDecay(u16 val);
u16 ROMRead(u32 addr);
void ROMWrite(u32 addr, u16 val);
u8 SRAMRead(u32 addr);
void SRAMWrite(u32 addr, u8 val);
/// This function is intended to allow frontends to save and load SRAM
/// without using melonDS APIs.
/// Modifying the emulated SRAM for any other reason is strongly discouraged.
/// The returned pointer may be invalidated if the emulator is reset,
/// or when a new game is loaded.
/// Consequently, don't store the returned pointer for any longer than necessary.
/// @returns Pointer to this cart's SRAM if a cart is loaded and supports SRAM, otherwise \c nullptr.
u8* GetSaveMemory();
/// @returns The length of the buffer returned by ::GetSaveMemory()
/// if a cart is loaded and supports SRAM, otherwise zero.
u32 GetSaveMemoryLength();
} }
#endif // GBACART_H #endif // GBACART_H

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@ -16,6 +16,7 @@
with melonDS. If not, see http://www.gnu.org/licenses/. with melonDS. If not, see http://www.gnu.org/licenses/.
*/ */
#include <assert.h>
#include <stdio.h> #include <stdio.h>
#include <string.h> #include <string.h>
#include <inttypes.h> #include <inttypes.h>
@ -182,7 +183,7 @@ class SPU* SPU;
class SPIHost* SPI; class SPIHost* SPI;
class RTC* RTC; class RTC* RTC;
class Wifi* Wifi; class Wifi* Wifi;
std::unique_ptr<GBACart::GBACartSlot> GBACartSlot;
class AREngine* AREngine; class AREngine* AREngine;
bool Running; bool Running;
@ -226,9 +227,9 @@ bool Init()
SPI = new class SPIHost(); SPI = new class SPIHost();
RTC = new class RTC(); RTC = new class RTC();
Wifi = new class Wifi(); Wifi = new class Wifi();
GBACartSlot = std::make_unique<GBACart::GBACartSlot>();
if (!NDSCart::Init()) return false; if (!NDSCart::Init()) return false;
if (!GBACart::Init()) return false;
if (!GPU::Init()) return false; if (!GPU::Init()) return false;
if (!DSi::Init()) return false; if (!DSi::Init()) return false;
@ -259,7 +260,7 @@ void DeInit()
delete Wifi; Wifi = nullptr; delete Wifi; Wifi = nullptr;
NDSCart::DeInit(); NDSCart::DeInit();
GBACart::DeInit(); GBACartSlot = nullptr;
GPU::DeInit(); GPU::DeInit();
DSi::DeInit(); DSi::DeInit();
@ -644,7 +645,7 @@ void Reset()
RCnt = 0; RCnt = 0;
NDSCart::Reset(); NDSCart::Reset();
GBACart::Reset(); GBACartSlot->Reset();
GPU::Reset(); GPU::Reset();
SPU->Reset(); SPU->Reset();
SPI->Reset(); SPI->Reset();
@ -846,7 +847,7 @@ bool DoSavestate(Savestate* file)
NDSCart::DoSavestate(file); NDSCart::DoSavestate(file);
if (ConsoleType == 0) if (ConsoleType == 0)
GBACart::DoSavestate(file); GBACartSlot->DoSavestate(file);
GPU::DoSavestate(file); GPU::DoSavestate(file);
SPU->DoSavestate(file); SPU->DoSavestate(file);
SPI->DoSavestate(file); SPI->DoSavestate(file);
@ -911,23 +912,28 @@ bool CartInserted()
bool LoadGBACart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen) bool LoadGBACart(const u8* romdata, u32 romlen, const u8* savedata, u32 savelen)
{ {
if (!GBACart::LoadROM(romdata, romlen)) if (!GBACartSlot)
return false;
if (!GBACartSlot->LoadROM(romdata, romlen))
return false; return false;
if (savedata && savelen) if (savedata && savelen)
GBACart::LoadSave(savedata, savelen); GBACartSlot->LoadSave(savedata, savelen);
return true; return true;
} }
void LoadGBAAddon(int type) void LoadGBAAddon(int type)
{ {
GBACart::LoadAddon(type); if (GBACartSlot)
GBACartSlot->LoadAddon(type);
} }
void EjectGBACart() void EjectGBACart()
{ {
GBACart::EjectCart(); if (GBACartSlot)
GBACartSlot->EjectCart();
} }
void LoadBIOS() void LoadBIOS()
@ -1493,7 +1499,8 @@ void SetGBASlotTimings()
// for example, the Cartridge Construction Kit relies on this to determine that // for example, the Cartridge Construction Kit relies on this to determine that
// the GBA slot is empty // the GBA slot is empty
GBACart::SetOpenBusDecay(openbus[(curcnt>>2) & 0x3]); assert(GBACartSlot != nullptr);
GBACartSlot->SetOpenBusDecay(openbus[(curcnt>>2) & 0x3]);
} }
@ -2161,12 +2168,14 @@ u8 ARM9Read8(u32 addr)
case 0x08000000: case 0x08000000:
case 0x09000000: case 0x09000000:
if (ExMemCnt[0] & (1<<7)) return 0x00; // deselected CPU is 00h-filled if (ExMemCnt[0] & (1<<7)) return 0x00; // deselected CPU is 00h-filled
if (addr & 0x1) return GBACart::ROMRead(addr-1) >> 8; assert(GBACartSlot != nullptr);
return GBACart::ROMRead(addr) & 0xFF; if (addr & 0x1) return GBACartSlot->ROMRead(addr-1) >> 8;
return GBACartSlot->ROMRead(addr) & 0xFF;
case 0x0A000000: case 0x0A000000:
if (ExMemCnt[0] & (1<<7)) return 0x00; // deselected CPU is 00h-filled if (ExMemCnt[0] & (1<<7)) return 0x00; // deselected CPU is 00h-filled
return GBACart::SRAMRead(addr); assert(GBACartSlot != nullptr);
return GBACartSlot->SRAMRead(addr);
} }
Log(LogLevel::Debug, "unknown arm9 read8 %08X\n", addr); Log(LogLevel::Debug, "unknown arm9 read8 %08X\n", addr);
@ -2221,12 +2230,14 @@ u16 ARM9Read16(u32 addr)
case 0x08000000: case 0x08000000:
case 0x09000000: case 0x09000000:
if (ExMemCnt[0] & (1<<7)) return 0x0000; // deselected CPU is 00h-filled if (ExMemCnt[0] & (1<<7)) return 0x0000; // deselected CPU is 00h-filled
return GBACart::ROMRead(addr); assert(GBACartSlot != nullptr);
return GBACartSlot->ROMRead(addr);
case 0x0A000000: case 0x0A000000:
if (ExMemCnt[0] & (1<<7)) return 0x0000; // deselected CPU is 00h-filled if (ExMemCnt[0] & (1<<7)) return 0x0000; // deselected CPU is 00h-filled
return GBACart::SRAMRead(addr) | assert(GBACartSlot != nullptr);
(GBACart::SRAMRead(addr+1) << 8); return GBACartSlot->SRAMRead(addr) |
(GBACartSlot->SRAMRead(addr+1) << 8);
} }
//if (addr) Log(LogLevel::Warn, "unknown arm9 read16 %08X %08X\n", addr, ARM9->R[15]); //if (addr) Log(LogLevel::Warn, "unknown arm9 read16 %08X %08X\n", addr, ARM9->R[15]);
@ -2281,15 +2292,17 @@ u32 ARM9Read32(u32 addr)
case 0x08000000: case 0x08000000:
case 0x09000000: case 0x09000000:
if (ExMemCnt[0] & (1<<7)) return 0x00000000; // deselected CPU is 00h-filled if (ExMemCnt[0] & (1<<7)) return 0x00000000; // deselected CPU is 00h-filled
return GBACart::ROMRead(addr) | assert(GBACartSlot != nullptr);
(GBACart::ROMRead(addr+2) << 16); return GBACartSlot->ROMRead(addr) |
(GBACartSlot->ROMRead(addr+2) << 16);
case 0x0A000000: case 0x0A000000:
if (ExMemCnt[0] & (1<<7)) return 0x00000000; // deselected CPU is 00h-filled if (ExMemCnt[0] & (1<<7)) return 0x00000000; // deselected CPU is 00h-filled
return GBACart::SRAMRead(addr) | assert(GBACartSlot != nullptr);
(GBACart::SRAMRead(addr+1) << 8) | return GBACartSlot->SRAMRead(addr) |
(GBACart::SRAMRead(addr+2) << 16) | (GBACartSlot->SRAMRead(addr+1) << 8) |
(GBACart::SRAMRead(addr+3) << 24); (GBACartSlot->SRAMRead(addr+2) << 16) |
(GBACartSlot->SRAMRead(addr+3) << 24);
} }
//Log(LogLevel::Warn, "unknown arm9 read32 %08X | %08X %08X\n", addr, ARM9->R[15], ARM9->R[12]); //Log(LogLevel::Warn, "unknown arm9 read32 %08X | %08X %08X\n", addr, ARM9->R[15], ARM9->R[12]);
@ -2332,7 +2345,8 @@ void ARM9Write8(u32 addr, u8 val)
case 0x0A000000: case 0x0A000000:
if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write
GBACart::SRAMWrite(addr, val); assert(GBACartSlot != nullptr);
GBACartSlot->SRAMWrite(addr, val);
return; return;
} }
@ -2392,13 +2406,15 @@ void ARM9Write16(u32 addr, u16 val)
case 0x08000000: case 0x08000000:
case 0x09000000: case 0x09000000:
if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write
GBACart::ROMWrite(addr, val); assert(GBACartSlot != nullptr);
GBACartSlot->ROMWrite(addr, val);
return; return;
case 0x0A000000: case 0x0A000000:
if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write
GBACart::SRAMWrite(addr, val & 0xFF); assert(GBACartSlot != nullptr);
GBACart::SRAMWrite(addr+1, val >> 8); GBACartSlot->SRAMWrite(addr, val & 0xFF);
GBACartSlot->SRAMWrite(addr+1, val >> 8);
return; return;
} }
@ -2458,16 +2474,18 @@ void ARM9Write32(u32 addr, u32 val)
case 0x08000000: case 0x08000000:
case 0x09000000: case 0x09000000:
if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write
GBACart::ROMWrite(addr, val & 0xFFFF); assert(GBACartSlot != nullptr);
GBACart::ROMWrite(addr+2, val >> 16); GBACartSlot->ROMWrite(addr, val & 0xFFFF);
GBACartSlot->ROMWrite(addr+2, val >> 16);
return; return;
case 0x0A000000: case 0x0A000000:
if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write if (ExMemCnt[0] & (1<<7)) return; // deselected CPU, skip the write
GBACart::SRAMWrite(addr, val & 0xFF); assert(GBACartSlot != nullptr);
GBACart::SRAMWrite(addr+1, (val >> 8) & 0xFF); GBACartSlot->SRAMWrite(addr, val & 0xFF);
GBACart::SRAMWrite(addr+2, (val >> 16) & 0xFF); GBACartSlot->SRAMWrite(addr+1, (val >> 8) & 0xFF);
GBACart::SRAMWrite(addr+3, val >> 24); GBACartSlot->SRAMWrite(addr+2, (val >> 16) & 0xFF);
GBACartSlot->SRAMWrite(addr+3, val >> 24);
return; return;
} }
@ -2559,13 +2577,15 @@ u8 ARM7Read8(u32 addr)
case 0x09000000: case 0x09000000:
case 0x09800000: case 0x09800000:
if (!(ExMemCnt[0] & (1<<7))) return 0x00; // deselected CPU is 00h-filled if (!(ExMemCnt[0] & (1<<7))) return 0x00; // deselected CPU is 00h-filled
if (addr & 0x1) return GBACart::ROMRead(addr-1) >> 8; assert(GBACartSlot != nullptr);
return GBACart::ROMRead(addr) & 0xFF; if (addr & 0x1) return GBACartSlot->ROMRead(addr-1) >> 8;
return GBACartSlot->ROMRead(addr) & 0xFF;
case 0x0A000000: case 0x0A000000:
case 0x0A800000: case 0x0A800000:
if (!(ExMemCnt[0] & (1<<7))) return 0x00; // deselected CPU is 00h-filled if (!(ExMemCnt[0] & (1<<7))) return 0x00; // deselected CPU is 00h-filled
return GBACart::SRAMRead(addr); assert(GBACartSlot != nullptr);
return GBACartSlot->SRAMRead(addr);
} }
Log(LogLevel::Debug, "unknown arm7 read8 %08X %08X %08X/%08X\n", addr, ARM7->R[15], ARM7->R[0], ARM7->R[1]); Log(LogLevel::Debug, "unknown arm7 read8 %08X %08X %08X/%08X\n", addr, ARM7->R[15], ARM7->R[0], ARM7->R[1]);
@ -2625,13 +2645,15 @@ u16 ARM7Read16(u32 addr)
case 0x09000000: case 0x09000000:
case 0x09800000: case 0x09800000:
if (!(ExMemCnt[0] & (1<<7))) return 0x0000; // deselected CPU is 00h-filled if (!(ExMemCnt[0] & (1<<7))) return 0x0000; // deselected CPU is 00h-filled
return GBACart::ROMRead(addr); assert(GBACartSlot != nullptr);
return GBACartSlot->ROMRead(addr);
case 0x0A000000: case 0x0A000000:
case 0x0A800000: case 0x0A800000:
if (!(ExMemCnt[0] & (1<<7))) return 0x0000; // deselected CPU is 00h-filled if (!(ExMemCnt[0] & (1<<7))) return 0x0000; // deselected CPU is 00h-filled
return GBACart::SRAMRead(addr) | assert(GBACartSlot != nullptr);
(GBACart::SRAMRead(addr+1) << 8); return GBACartSlot->SRAMRead(addr) |
(GBACartSlot->SRAMRead(addr+1) << 8);
} }
Log(LogLevel::Debug, "unknown arm7 read16 %08X %08X\n", addr, ARM7->R[15]); Log(LogLevel::Debug, "unknown arm7 read16 %08X %08X\n", addr, ARM7->R[15]);
@ -2691,16 +2713,18 @@ u32 ARM7Read32(u32 addr)
case 0x09000000: case 0x09000000:
case 0x09800000: case 0x09800000:
if (!(ExMemCnt[0] & (1<<7))) return 0x00000000; // deselected CPU is 00h-filled if (!(ExMemCnt[0] & (1<<7))) return 0x00000000; // deselected CPU is 00h-filled
return GBACart::ROMRead(addr) | assert(GBACartSlot != nullptr);
(GBACart::ROMRead(addr+2) << 16); return GBACartSlot->ROMRead(addr) |
(GBACartSlot->ROMRead(addr+2) << 16);
case 0x0A000000: case 0x0A000000:
case 0x0A800000: case 0x0A800000:
if (!(ExMemCnt[0] & (1<<7))) return 0x00000000; // deselected CPU is 00h-filled if (!(ExMemCnt[0] & (1<<7))) return 0x00000000; // deselected CPU is 00h-filled
return GBACart::SRAMRead(addr) | assert(GBACartSlot != nullptr);
(GBACart::SRAMRead(addr+1) << 8) | return GBACartSlot->SRAMRead(addr) |
(GBACart::SRAMRead(addr+2) << 16) | (GBACartSlot->SRAMRead(addr+1) << 8) |
(GBACart::SRAMRead(addr+3) << 24); (GBACartSlot->SRAMRead(addr+2) << 16) |
(GBACartSlot->SRAMRead(addr+3) << 24);
} }
//Log(LogLevel::Warn, "unknown arm7 read32 %08X | %08X\n", addr, ARM7->R[15]); //Log(LogLevel::Warn, "unknown arm7 read32 %08X | %08X\n", addr, ARM7->R[15]);
@ -2765,7 +2789,8 @@ void ARM7Write8(u32 addr, u8 val)
case 0x0A000000: case 0x0A000000:
case 0x0A800000: case 0x0A800000:
if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write
GBACart::SRAMWrite(addr, val); assert(GBACartSlot != nullptr);
GBACartSlot->SRAMWrite(addr, val);
return; return;
} }
@ -2839,14 +2864,15 @@ void ARM7Write16(u32 addr, u16 val)
case 0x09000000: case 0x09000000:
case 0x09800000: case 0x09800000:
if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write
GBACart::ROMWrite(addr, val); assert(GBACartSlot != nullptr);
GBACartSlot->ROMWrite(addr, val);
return; return;
case 0x0A000000: case 0x0A000000:
case 0x0A800000: case 0x0A800000:
if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write
GBACart::SRAMWrite(addr, val & 0xFF); GBACartSlot->SRAMWrite(addr, val & 0xFF);
GBACart::SRAMWrite(addr+1, val >> 8); GBACartSlot->SRAMWrite(addr+1, val >> 8);
return; return;
} }
@ -2920,17 +2946,19 @@ void ARM7Write32(u32 addr, u32 val)
case 0x09000000: case 0x09000000:
case 0x09800000: case 0x09800000:
if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write
GBACart::ROMWrite(addr, val & 0xFFFF); assert(GBACartSlot != nullptr);
GBACart::ROMWrite(addr+2, val >> 16); GBACartSlot->ROMWrite(addr, val & 0xFFFF);
GBACartSlot->ROMWrite(addr+2, val >> 16);
return; return;
case 0x0A000000: case 0x0A000000:
case 0x0A800000: case 0x0A800000:
if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write if (!(ExMemCnt[0] & (1<<7))) return; // deselected CPU, skip the write
GBACart::SRAMWrite(addr, val & 0xFF); assert(GBACartSlot != nullptr);
GBACart::SRAMWrite(addr+1, (val >> 8) & 0xFF); GBACartSlot->SRAMWrite(addr, val & 0xFF);
GBACart::SRAMWrite(addr+2, (val >> 16) & 0xFF); GBACartSlot->SRAMWrite(addr+1, (val >> 8) & 0xFF);
GBACart::SRAMWrite(addr+3, val >> 24); GBACartSlot->SRAMWrite(addr+2, (val >> 16) & 0xFF);
GBACartSlot->SRAMWrite(addr+3, val >> 24);
return; return;
} }

View File

@ -20,11 +20,13 @@
#define NDS_H #define NDS_H
#include <string> #include <string>
#include <memory>
#include <functional> #include <functional>
#include "Platform.h" #include "Platform.h"
#include "Savestate.h" #include "Savestate.h"
#include "types.h" #include "types.h"
#include "GBACart.h"
// when touching the main loop/timing code, pls test a lot of shit // when touching the main loop/timing code, pls test a lot of shit
// with this enabled, to make sure it doesn't desync // with this enabled, to make sure it doesn't desync
@ -257,7 +259,7 @@ extern class SPU* SPU;
extern class SPIHost* SPI; extern class SPIHost* SPI;
extern class RTC* RTC; extern class RTC* RTC;
extern class Wifi* Wifi; extern class Wifi* Wifi;
extern std::unique_ptr<GBACart::GBACartSlot> GBACartSlot;
extern class AREngine* AREngine; extern class AREngine* AREngine;
const u32 ARM7WRAMSize = 0x10000; const u32 ARM7WRAMSize = 0x10000;

View File

@ -384,7 +384,8 @@ void EmuThread::run()
if (Input::HotkeyPressed(HK_SolarSensorDecrease)) if (Input::HotkeyPressed(HK_SolarSensorDecrease))
{ {
int level = GBACart::SetInput(GBACart::Input_SolarSensorDown, true); assert(NDS::GBACartSlot != nullptr);
int level = NDS::GBACartSlot->SetInput(GBACart::Input_SolarSensorDown, true);
if (level != -1) if (level != -1)
{ {
char msg[64]; char msg[64];
@ -394,7 +395,8 @@ void EmuThread::run()
} }
if (Input::HotkeyPressed(HK_SolarSensorIncrease)) if (Input::HotkeyPressed(HK_SolarSensorIncrease))
{ {
int level = GBACart::SetInput(GBACart::Input_SolarSensorUp, true); assert(NDS::GBACartSlot != nullptr);
int level = NDS::GBACartSlot->SetInput(GBACart::Input_SolarSensorUp, true);
if (level != -1) if (level != -1)
{ {
char msg[64]; char msg[64];