vbagx/source/vba/gba/GBAcpu.h

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#ifndef GBACPU_H
#define GBACPU_H
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extern int armExecute();
extern int thumbExecute();
#ifdef __GNUC__
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# define INSN_REGPARM /*nothing*/
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# define LIKELY(x) __builtin_expect(!!(x),1)
# define UNLIKELY(x) __builtin_expect(!!(x),0)
#else
# define INSN_REGPARM /*nothing*/
# define LIKELY(x) (x)
# define UNLIKELY(x) (x)
#endif
#define UPDATE_REG(address, value)\
{\
WRITE16LE(((u16 *)&ioMem[address]),value);\
}\
#define ARM_PREFETCH \
{\
cpuPrefetch[0] = CPUReadMemoryQuick(armNextPC);\
cpuPrefetch[1] = CPUReadMemoryQuick(armNextPC+4);\
}
#define THUMB_PREFETCH \
{\
cpuPrefetch[0] = CPUReadHalfWordQuick(armNextPC);\
cpuPrefetch[1] = CPUReadHalfWordQuick(armNextPC+2);\
}
#define ARM_PREFETCH_NEXT \
cpuPrefetch[1] = CPUReadMemoryQuick(armNextPC+4);
#define THUMB_PREFETCH_NEXT\
cpuPrefetch[1] = CPUReadHalfWordQuick(armNextPC+2);
extern int SWITicks;
extern u32 mastercode;
extern bool busPrefetch;
extern bool busPrefetchEnable;
extern u32 busPrefetchCount;
extern int cpuNextEvent;
extern bool holdState;
extern u32 cpuPrefetch[2];
extern int cpuTotalTicks;
extern u8 memoryWait[16];
extern u8 memoryWait32[16];
extern u8 memoryWaitSeq[16];
extern u8 memoryWaitSeq32[16];
extern u8 cpuBitsSet[256];
extern u8 cpuLowestBitSet[256];
extern void CPUSwitchMode(int mode, bool saveState, bool breakLoop);
extern void CPUSwitchMode(int mode, bool saveState);
extern void CPUUpdateCPSR();
extern void CPUUpdateFlags(bool breakLoop);
extern void CPUUpdateFlags();
extern void CPUUndefinedException();
extern void CPUSoftwareInterrupt();
extern void CPUSoftwareInterrupt(int comment);
// Waitstates when accessing data
inline int dataTicksAccess16(u32 address) // DATA 8/16bits NON SEQ
{
int addr = (address>>24)&15;
int value = memoryWait[addr];
if ((addr>=0x08) || (addr < 0x02))
{
busPrefetchCount=0;
busPrefetch=false;
}
else if (busPrefetch)
{
int waitState = value;
if (!waitState)
waitState = 1;
busPrefetchCount = ((busPrefetchCount+1)<<waitState) - 1;
}
return value;
}
inline int dataTicksAccess32(u32 address) // DATA 32bits NON SEQ
{
int addr = (address>>24)&15;
int value = memoryWait32[addr];
if ((addr>=0x08) || (addr < 0x02))
{
busPrefetchCount=0;
busPrefetch=false;
}
else if (busPrefetch)
{
int waitState = value;
if (!waitState)
waitState = 1;
busPrefetchCount = ((busPrefetchCount+1)<<waitState) - 1;
}
return value;
}
inline int dataTicksAccessSeq16(u32 address)// DATA 8/16bits SEQ
{
int addr = (address>>24)&15;
int value = memoryWaitSeq[addr];
if ((addr>=0x08) || (addr < 0x02))
{
busPrefetchCount=0;
busPrefetch=false;
}
else if (busPrefetch)
{
int waitState = value;
if (!waitState)
waitState = 1;
busPrefetchCount = ((busPrefetchCount+1)<<waitState) - 1;
}
return value;
}
inline int dataTicksAccessSeq32(u32 address)// DATA 32bits SEQ
{
int addr = (address>>24)&15;
int value = memoryWaitSeq32[addr];
if ((addr>=0x08) || (addr < 0x02))
{
busPrefetchCount=0;
busPrefetch=false;
}
else if (busPrefetch)
{
int waitState = value;
if (!waitState)
waitState = 1;
busPrefetchCount = ((busPrefetchCount+1)<<waitState) - 1;
}
return value;
}
// Waitstates when executing opcode
inline int codeTicksAccess16(u32 address) // THUMB NON SEQ
{
int addr = (address>>24)&15;
if ((addr>=0x08) && (addr<=0x0D))
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{
if (busPrefetchCount&0x1)
{
if (busPrefetchCount&0x2)
{
busPrefetchCount = ((busPrefetchCount&0xFF)>>2) | (busPrefetchCount&0xFFFFFF00);
return 0;
}
busPrefetchCount = ((busPrefetchCount&0xFF)>>1) | (busPrefetchCount&0xFFFFFF00);
return memoryWaitSeq[addr]-1;
}
else
{
busPrefetchCount=0;
return memoryWait[addr];
}
}
else
{
busPrefetchCount = 0;
return memoryWait[addr];
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}
}
inline int codeTicksAccess32(u32 address) // ARM NON SEQ
{
int addr = (address>>24)&15;
if ((addr>=0x08) && (addr<=0x0D))
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{
if (busPrefetchCount&0x1)
{
if (busPrefetchCount&0x2)
{
busPrefetchCount = ((busPrefetchCount&0xFF)>>2) | (busPrefetchCount&0xFFFFFF00);
return 0;
}
busPrefetchCount = ((busPrefetchCount&0xFF)>>1) | (busPrefetchCount&0xFFFFFF00);
return memoryWaitSeq[addr] - 1;
}
else
{
busPrefetchCount = 0;
return memoryWait32[addr];
}
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}
else
{
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busPrefetchCount = 0;
return memoryWait32[addr];
}
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}
inline int codeTicksAccessSeq16(u32 address) // THUMB SEQ
{
int addr = (address>>24)&15;
if ((addr>=0x08) && (addr<=0x0D))
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{
if (busPrefetchCount&0x1)
{
busPrefetchCount = ((busPrefetchCount&0xFF)>>1) | (busPrefetchCount&0xFFFFFF00);
return 0;
}
else
if (busPrefetchCount>0xFF)
{
busPrefetchCount=0;
return memoryWait[addr];
}
else
return memoryWaitSeq[addr];
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}
else
{
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busPrefetchCount = 0;
return memoryWaitSeq[addr];
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}
}
inline int codeTicksAccessSeq32(u32 address) // ARM SEQ
{
int addr = (address>>24)&15;
if ((addr>=0x08) && (addr<=0x0D))
{
if (busPrefetchCount&0x1)
{
if (busPrefetchCount&0x2)
{
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busPrefetchCount = ((busPrefetchCount&0xFF)>>2) | (busPrefetchCount&0xFFFFFF00);
return 0;
}
busPrefetchCount = ((busPrefetchCount&0xFF)>>1) | (busPrefetchCount&0xFFFFFF00);
return memoryWaitSeq[addr];
}
else
if (busPrefetchCount>0xFF)
{
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busPrefetchCount=0;
return memoryWait32[addr];
}
else
return memoryWaitSeq32[addr];
}
else
{
return memoryWaitSeq32[addr];
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}
}
// Emulates the Cheat System (m) code
inline void cpuMasterCodeCheck()
{
if((mastercode) && (mastercode == armNextPC))
{
u32 joy = 0;
if(systemReadJoypads())
joy = systemReadJoypad(-1);
u32 ext = (joy >> 10);
cpuTotalTicks += cheatsCheckKeys(P1^0x3FF, ext);
}
}
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#endif // GBACPU_H