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|
#define RegA r4
#define RegX r5
#define RegY r6
#define RegP r7
#define RegCPU r8
#define RegCPUPC r9
#define RegCycles r10
#define RegChecks ip
#ifndef NDEBUG
#define METRICS_GETSETS_OFF 28
#define METRICS_SLOWGETSETS_OFF 32
#endif
#define CPU_FLAGS_OFF 0
#define CPU_PC_OFF 12
#define CPU_PCBASE_OFF 16
#define CPU_PC_AT_OPCODE_START_OFF 20
#define CPU_WAIT_ADDRESS_OFF 24
#define CPU_CYCLES_OFF 32
#define CPU_NEXT_EVENT_OFF 36
#define CPU_ICPU_OFF 0x80
#define CPU_MEMORY_MAP_OFF 0x100
#define ICPU_S9X_OPCODES_OFF (CPU_ICPU_OFF + 4)
#define ICPU_REG_PB_OFF (CPU_ICPU_OFF + 8)
#define ICPU_REG_DB_OFF (CPU_ICPU_OFF + 9)
#define ICPU_REG_P_OFF (CPU_ICPU_OFF + 10)
#define ICPU_REG_A_OFF (CPU_ICPU_OFF + 12)
#define ICPU_REG_D_OFF (CPU_ICPU_OFF + 14)
#define ICPU_REG_S_OFF (CPU_ICPU_OFF + 16)
#define ICPU_REG_X_OFF (CPU_ICPU_OFF + 18)
#define ICPU_REG_Y_OFF (CPU_ICPU_OFF + 20)
#define ICPU_REG_PC_OFF (CPU_ICPU_OFF + 22)
#define ICPU_CARRY_OFF (CPU_ICPU_OFF + 24)
#define ICPU_ZERO_OFF (CPU_ICPU_OFF + 25)
#define ICPU_NEGATIVE_OFF (CPU_ICPU_OFF + 26)
#define ICPU_OVERFLOW_OFF (CPU_ICPU_OFF + 27)
#define MEMORY_MAP_OFF 0x0024
#define MEMORY_MAP_WRITE_MAP_OFF 0x4000
#define MEMORY_MAP_SPEED_OFF 0x8000
#define MEMORY_MAP_BLOCK_IS_RAM_OFF 0x9000
#define MEMORY_WRITE_MAP_SPEED_OFF 0x4000
#define MEMORY_WRITE_MAP_BLOCK_IS_RAM_OFF 0x5000
#define SA1_OPCODES_OFF 0
#define SA1_EXECUTING_OFF 24
#define SA1_WAIT_COUNTER_OFF 52
#define SA1_WAIT_BYTE_ADDRESS_1_OFF 56
#define SA1_WAIT_BYTE_ADDRESS_2_OFF 60
#define FLAG_DECIMAL 0x08
#define FLAG_INDEX 0x10
#define FLAG_MEMORY 0x20
#define FLAG_EMULATION 0x100
#define FUNC(name) \
.global name ; \
name:
.macro S9xCall func
push { ip, lr }
bl S9xRegsToMem
bl \func
bl S9xMemToRegs
pop { ip, pc }
.endm
.text
.align 2
#ifndef NDEBUG
.macro MetricsIncOffset off
push { r0, r1 }
ldr r0, = Metrics
ldr r1, [r0, #\off]
add r1, r1, #1
str r1, [r0, #\off]
pop { r0, r1 }
.endm
FUNC(DynaBreak)
bx lr
#endif
FUNC(BlockEnter)
push { r4-r11, ip, lr }
ldr RegCPU, = CPU
bl S9xMemToRegs
bx r0
FUNC(BlockReturn)
bl S9xRegsToMem
pop { r4-r11, ip, pc }
.macro LoadChecks rs
ldr \rs, [RegCPU, #CPU_NEXT_EVENT_OFF]
ldr RegChecks, [RegCPU, #CPU_FLAGS_OFF]
orr RegChecks, RegChecks, \rs, lsl #16
.endm
.macro PushCPUState
str RegCPUPC, [RegCPU, #CPU_PC_OFF]
str RegCycles, [RegCPU, #CPU_CYCLES_OFF]
.endm
.macro PopCPUState rs
ldr RegCPUPC, [RegCPU, #CPU_PC_OFF]
ldr RegCycles, [RegCPU, #CPU_CYCLES_OFF]
LoadChecks \rs
.endm
.macro S9xUnpackStatusFast
strh RegP, [RegCPU, #ICPU_REG_P_OFF]
mov r3, #1
and r2, r3, RegP, lsr #1
sub r2, r2, #1
strb r2, [RegCPU, #ICPU_ZERO_OFF]
and r2, RegP, #0x80
strb r2, [RegCPU, #ICPU_NEGATIVE_OFF]
and r2, RegP, r3
strb r2, [RegCPU, #ICPU_CARRY_OFF]
and r2, r3, RegP, lsr #6
strb r2, [RegCPU, #ICPU_OVERFLOW_OFF]
.endm
.macro S9xPackStatusFast
ldrh RegP, [RegCPU, #ICPU_REG_P_OFF]
ldrb r2, [RegCPU, #ICPU_ZERO_OFF]
ldrb r3, [RegCPU, #ICPU_NEGATIVE_OFF]
bic RegP, RegP, #0xc3
cmp r2, #0
ldrb r2, [RegCPU, #ICPU_CARRY_OFF]
orreq RegP, RegP, #0x2
tst r3, #0x80
ldrb r3, [RegCPU, #ICPU_OVERFLOW_OFF]
orrne RegP, RegP, #0x80
orr RegP, RegP, r2
orr RegP, RegP, r3, lsl #6
strh RegP, [RegCPU, #ICPU_REG_P_OFF]
.endm
@@ Callers assume r0 is not touched
FUNC(S9xCallUnpackStatusFast)
S9xUnpackStatusFast
bx lr
@@ Preserves scratch and r0, can be used as a wrapper
FUNC(S9xRegsToMem)
push { r0, r1, r2, r3, ip, lr }
str RegCPUPC, [RegCPU, #CPU_PC_OFF]
str RegCycles, [RegCPU, #CPU_CYCLES_OFF]
strh RegA, [RegCPU, #ICPU_REG_A_OFF]
strh RegX, [RegCPU, #ICPU_REG_X_OFF]
strh RegY, [RegCPU, #ICPU_REG_Y_OFF]
S9xUnpackStatusFast
pop { r0, r1, r2, r3, ip, pc }
@@ Preserves scratch and r0, can be used as a wrapper
FUNC(S9xMemToRegs)
push { r0, r1, r2, r3, ip, lr }
ldr RegCPUPC, [RegCPU, #CPU_PC_OFF]
ldr RegCycles, [RegCPU, #CPU_CYCLES_OFF]
S9xPackStatusFast
ldrh RegA, [RegCPU, #ICPU_REG_A_OFF]
ldrh RegX, [RegCPU, #ICPU_REG_X_OFF]
ldrh RegY, [RegCPU, #ICPU_REG_Y_OFF]
pop { r0, r1, r2, r3, ip, lr }
LoadChecks r2
bx lr
FUNC(UpdateSection)
push { RegP, RegCPU, lr }
ldr RegCPU, =CPU
ldrh RegP, [RegCPU, #ICPU_REG_P_OFF]
bl S9xCallUpdateSection
pop { RegP, RegCPU, pc }
FUNC(S9xCallUpdateSection)
ldr r1, =CacheSection
ldrb r0, [RegCPU, #ICPU_REG_PB_OFF]
tst RegP, #FLAG_DECIMAL
lsl r0, #4
orrne r0, r0, #0x8000
tst RegP, #FLAG_EMULATION
orrne r0, r0, #0x4000
bxne lr
tst RegP, #FLAG_INDEX
orrne r0, r0, #0x1000
tst RegP, #FLAG_MEMORY
orrne r0, r0, #0x2000
str r0, [r1]
bx lr
FUNC(LoadChecks)
LoadChecks r2
bx lr
FUNC(S9xCallSA1MainLoop)
push { ip, lr }
bl S9xSA1MainLoop
pop { ip, pc }
FUNC(S9xCallSetPCBase)
push { ip, lr }
bl S9xSetPCBase
pop { ip, pc }
.macro S9xCallHandleHBlank type
FUNC(S9xCallHandleHBlank\type)
@ changes cycles, maybe PC in IRQ
push { ip, lr }
str RegCPUPC, [RegCPU, #CPU_PC_OFF]
str RegCycles, [RegCPU, #CPU_CYCLES_OFF]
bl HandleHBlank\type
ldr RegCPUPC, [RegCPU, #CPU_PC_OFF]
ldr RegCycles, [RegCPU, #CPU_CYCLES_OFF]
pop { ip, lr }
LoadChecks r2
bx lr
.endm
S9xCallHandleHBlank SFX
S9xCallHandleHBlank NoSFX
.macro S9xCallHandleFlags WFI
FUNC(S9xCallHandleFlags\WFI)
@ needs S, changes flags (unpack status needed), changes PC, changes cycles
push { ip, lr }
str RegCPUPC, [RegCPU, #CPU_PC_OFF]
str RegCycles, [RegCPU, #CPU_CYCLES_OFF]
S9xUnpackStatusFast
bl HandleFlags\WFI
ldr RegCPUPC, [RegCPU, #CPU_PC_OFF]
ldr RegCycles, [RegCPU, #CPU_CYCLES_OFF]
S9xPackStatusFast
pop { ip, lr }
LoadChecks r2
bx lr
.endm
S9xCallHandleFlags WFI
S9xCallHandleFlags NoWFI
.macro S9xCallHandleChecks WFI, SFX
FUNC(S9xCallHandleChecks\WFI\SFX)
push { r1, lr }
mov r0, #0
cmp RegCycles, RegChecks, lsr #16
blhs S9xCallHandleHBlank\SFX
cmp r0, #0
popne { r1, lr }
bne BlockReturn
tst RegChecks, #0x880
blne S9xCallHandleFlags\WFI
cmp r0, #0
movne RegCPUPC, r0
popne { r1, lr }
bne JumpIndirect
pop { r1, pc }
.endm
S9xCallHandleChecks WFI, SFX
S9xCallHandleChecks WFI, NoSFX
S9xCallHandleChecks NoWFI, SFX
S9xCallHandleChecks NoWFI, NoSFX
#ifndef NDEBUG
FUNC(S9xCallCheckInstruction)
S9xCall CheckInstruction
#endif
FUNC(JumpIndirect)
push { r1, ip }
ldr r1, [RegCPU, #CPU_PCBASE_OFF]
sub r0, RegCPUPC, r1
bl FetchBlock
pop { r1, ip }
ldr r0, [r0]
bx r0
FUNC(JumpDirectChecks)
push { r1, ip }
mov r0, RegCPUPC
sub r1, lr, #4 @ Patch the opcode at the address of this caller
bl PatchJumpDirectChecks
pop { r1, ip }
bx r0
FUNC(JumpDirect)
push { r1, ip }
mov r0, RegCPUPC
sub r1, lr, #4 @ Patch the opcode at the address of this caller
bl PatchJumpDirect
pop { r1, ip }
bx r0
.macro GetMemFast Type
FUNC(S9xGet\Type\()Fast)
push { r0, r3, ip, lr }
#ifndef NDEBUG
MetricsIncOffset METRICS_GETSETS_OFF
#endif
ldr r2, =0x0fff @ MEMMAP_MASK
.ifc \Type,Word
and r3, r0, r2
cmp r3, r2
beq 9f
.endif
add ip, RegCPU, #CPU_MEMORY_MAP_OFF
and r3, r2, r0, lsr #12 @ MEMMAP_SHIFT
ldr r2, [ip, r3, lsl #2]
add lr, ip, #MEMORY_MAP_BLOCK_IS_RAM_OFF
cmp r2, #18 @ MAP_LAST
blo 9f
ldrb lr, [lr, r3]
add ip, ip, #MEMORY_MAP_SPEED_OFF
ldrb ip, [ip, r3]
cmp lr, #1
streq r1, [RegCPU, #CPU_WAIT_ADDRESS_OFF]
mov r1, r0, lsl #16
mov r1, r1, lsr #16
ldrb r0, [r2, r1]
.ifc \Type,Word
add r1, r1, #1
ldrb r1, [r2, r1]
.endif
.ifc \Type,Byte
add RegCycles, RegCycles, ip
.else
add RegCycles, RegCycles, ip, lsl #1 @ * 2 for GetWord
.endif
.ifc \Type,Word
orr r0, r0, r1, lsl #8
.endif
pop { r1, r3, ip, pc }
9:
#ifndef NDEBUG
MetricsIncOffset METRICS_SLOWGETSETS_OFF
#endif
str r1, [RegCPU, #CPU_PC_AT_OPCODE_START_OFF]
PushCPUState
bl S9xGet\Type
pop { r1, r3, ip, lr }
PopCPUState r2
bx lr
.endm
GetMemFast Byte
GetMemFast Word
.macro SetMemFast Type, SA1
FUNC(S9xSet\Type\()Fast\SA1)
push { r1, r3, ip, lr}
#ifndef NDEBUG
MetricsIncOffset METRICS_GETSETS_OFF
#endif
ldr r2, =0x0fff @ MEMMAP_MASK
mov ip, #0
.ifc \Type,Word
and r3, r1, r2
cmp r3, r2
beq 9f
.endif
str ip, [RegCPU, #CPU_WAIT_ADDRESS_OFF]
and r3, r2, r1, lsr #12 @ MEMMAP_SHIFT
add ip, RegCPU, #(CPU_MEMORY_MAP_OFF + MEMORY_MAP_WRITE_MAP_OFF)
ldr r2, [ip, r3, lsl #2]
cmp r2, #18 @ MAP_LAST
blo 9f
add ip, ip, #MEMORY_WRITE_MAP_SPEED_OFF
ldrb ip, [ip, r3]
.ifc \Type,Byte
add RegCycles, RegCycles, ip
.else
add RegCycles, RegCycles, ip, lsl #1 @ * 2 for GetWord
.endif
mov r1, r1, lsl #16
mov r1, r1, lsr #16
@@ Handle SA1 WaitAddress if needed
.ifc \SA1,SA1
push { r1 }
ldr ip, =SA1
add r1, r1, r2
ldr r3, [ip, #SA1_WAIT_BYTE_ADDRESS_1_OFF]
cmp r3, r1
beq 8f
ldr r3, [ip, #SA1_WAIT_BYTE_ADDRESS_2_OFF]
cmp r3, r1
beq 8f
2:
pop { r1 }
.endif
strb r0, [r2, r1]
.ifc \Type,Word
add r1, r1, #1
mov r0, r0, lsr #8
strb r0, [r2, r1]
.endif
pop { r1, r3, ip, pc }
.ifc \SA1,SA1
8:
ldr r1, [ip, #SA1_OPCODES_OFF]
mov r3, #0
str r3, [ip, #SA1_WAIT_COUNTER_OFF]
cmp r1, #0
movne r3, #1
strb r3, [ip, #SA1_EXECUTING_OFF]
b 2b
.endif
9:
#ifndef NDEBUG
MetricsIncOffset METRICS_SLOWGETSETS_OFF
#endif
PushCPUState
.ifc \Type,Word
mov r0, r0, lsl #16
mov r0, r0, lsr #16
.else
and r0, r0, #0xFF
.endif
bl S9xSet\Type
pop { r1, r3, ip, lr }
PopCPUState r2
bx lr
.endm
SetMemFast Byte, NoSA1
SetMemFast Word, NoSA1
SetMemFast Byte, SA1
SetMemFast Word, SA1
FUNC(S9xCallFixCycles)
tst RegP, #FLAG_EMULATION
ldrne r0, =S9xOpcodesE1
bne 9f
tst RegP, #FLAG_MEMORY
beq 2f
tst RegP, #FLAG_INDEX
ldrne r0, =S9xOpcodesM1X1
ldreq r0, =S9xOpcodesM1X0
b 9f
2:
tst RegP, #FLAG_INDEX
ldrne r0, =S9xOpcodesM0X1
ldreq r0, =S9xOpcodesM0X0
9:
str r0, [RegCPU, #ICPU_S9X_OPCODES_OFF]
bx lr
FUNC(S9xCallCPUShutdown)
push { ip, lr }
str RegCycles, [RegCPU, #CPU_CYCLES_OFF]
bl DynaCPUShutdown
ldr RegCycles, [RegCPU, #CPU_CYCLES_OFF]
pop { ip, pc }
FUNC(S9xCallWAIShutdown)
push { ip, lr }
str RegCycles, [RegCPU, #CPU_CYCLES_OFF]
bl DynaWAIShutdown
ldr RegCycles, [RegCPU, #CPU_CYCLES_OFF]
pop { ip, pc }
.bss
.align 4
.global CPU
CPU:
.space 0x80 @ Actual: 0x50
.global ICPU
ICPU:
.space 0x40 @ Actual: 0x34
.global OpenBus
OpenBus:
.space 0x1
@ padding so Memory.Map is at 0x100
.space 0x3F - 0x24
.global Memory
Memory:
.space 0xb468
|
