romych/Ocean-240.2-Emulator
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refactoring to use different impl of Z80 emu

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This commit is contained in:
Роман Бойков 2026-03-09 15:04:38 +03:00
parent 0742e9969c
commit 87cd077226
16 changed files with 702 additions and 664 deletions
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6
main.go
View File

@ -152,12 +152,12 @@ func screen(computer *okean240.ComputerType, raster *canvas.Raster, label *widge
}
}
const ticksPerTicker = 3
const ticksPerTicker uint64 = 3
func emulator(computer *okean240.ComputerType) {
ticker := time.NewTicker(66 * time.Nanosecond)
var ticks = 0
var nextClock = ticks + ticksPerTicker
var ticks uint64 = 0
var nextClock uint64 = ticks + ticksPerTicker
//var ticksCPU = 3
for range ticker.C {
//for {

12
okean240/computer.go
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@ -8,14 +8,14 @@ import (
"okemu/okean240/pic"
"okemu/okean240/pit"
"okemu/okean240/usart"
"okemu/z80em"
"okemu/z80/js"
"fyne.io/fyne/v2"
log "github.com/sirupsen/logrus"
)
type ComputerType struct {
cpu *z80em.Z80Type
cpu *js.Z80
memory Memory
ioPorts [256]byte
cycles uint64
@ -73,7 +73,7 @@ func New(cfg *config.OkEmuConfig) *ComputerType {
c.memory = Memory{}
c.memory.Init(cfg.MonitorFile, cfg.CPMFile)
c.cpu = z80em.New(&c)
c.cpu = js.New(&c)
c.cycles = 0
c.dd17EnableOut = false
@ -109,17 +109,17 @@ func (c *ComputerType) Reset() {
}
func (c *ComputerType) Do() int {
func (c *ComputerType) Do() uint64 {
//s := c.cpu.GetState()
//if s.PC == 0xe0db {
// log.Debugf("breakpoint")
//}
ticks := uint64(c.cpu.RunInstruction())
ticks := c.cpu.RunInstruction()
c.cycles += ticks
//if c.cpu.PC == 0xFF26 {
// log.Debugf("%4X: H:%X L:%X A:%X B: %X C: %X D: %X E: %X", c.cpu.PC, c.cpu.H, c.cpu.L, c.cpu.A, c.cpu.B, c.cpu.C, c.cpu.D, c.cpu.E)
//}
return int(ticks)
return ticks
}
func (c *ComputerType) GetPixel(x uint16, y uint16) color.RGBA {

2
z80/constants.go → z80/c99/constants.go
View File

@ -1,4 +1,4 @@
package z80
package c99
var cyc_00 = [256]byte{
4, 10, 7, 6, 4, 4, 7, 4, 4, 11, 7, 6, 4, 4, 7, 4,

191
z80/c99/cpu.go Normal file
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@ -0,0 +1,191 @@
package c99
import "okemu/z80"
type MemIoRW interface {
// M1MemRead Read byte from memory for specified address @ M1 cycle
M1MemRead(addr uint16) byte
// MemRead Read byte from memory for specified address
MemRead(addr uint16) byte
// MemWrite Write byte to memory to specified address
MemWrite(addr uint16, val byte)
// IORead Read byte from specified port
IORead(port uint16) byte
// IOWrite Write byte to specified port
IOWrite(port uint16, val byte)
}
type CPUInterface interface {
// Reset CPU to initial state
Reset()
// RunInstruction Run single instruction, return number of CPU cycles
RunInstruction() byte
// GetState Get current CPU state
GetState() *Z80
// SetState Set current CPU state
SetState(state *Z80)
}
type Z80 struct {
// cycle count (t-states)
cyc uint64
inst_cyc byte
// special purpose registers
pc, sp, ix, iy uint16
// "wz" register
mem_ptr uint16
// main registers
a, b, c, d, e, h, l byte
// alternate registers
a_, b_, c_, d_, e_, h_, l_, f_ byte
// interrupt vector, memory refresh
i, r byte
// flags: sign, zero, yf, half-carry, xf, parity/overflow, negative, carry
sf, zf, yf, hf, xf, pf, nf, cf bool
iff_delay byte
interrupt_mode byte
int_data byte
iff1 bool
iff2 bool
halted bool
int_pending bool
nmi_pending bool
core MemIoRW
}
// New initializes a Z80 instance and return pointer to it
func New(core MemIoRW) *Z80 {
z := Z80{}
z.core = core
z.cyc = 0
z.pc = 0
z.sp = 0xFFFF
z.ix = 0
z.iy = 0
z.mem_ptr = 0
// af and sp are set to 0xFFFF after reset,
// and the other values are undefined (z80-documented)
z.a = 0xFF
z.b = 0
z.c = 0
z.d = 0
z.e = 0
z.h = 0
z.l = 0
z.a_ = 0
z.b_ = 0
z.c_ = 0
z.d_ = 0
z.e_ = 0
z.h_ = 0
z.l_ = 0
z.f_ = 0
z.i = 0
z.r = 0
z.sf = true
z.zf = true
z.yf = true
z.hf = true
z.xf = true
z.pf = true
z.nf = true
z.cf = true
z.iff_delay = 0
z.interrupt_mode = 0
z.iff1 = false
z.iff2 = false
z.halted = false
z.int_pending = false
z.nmi_pending = false
z.int_data = 0
return &z
}
// RunInstruction executes the next instruction in memory + handles interrupts
func (z *Z80) RunInstruction() uint64 {
pre := z.cyc
if z.halted {
z.exec_opcode(0x00)
} else {
opcode := z.nextb()
z.exec_opcode(opcode)
}
z.process_interrupts()
return z.cyc - pre
}
func (z *Z80) GetState() *z80.Z80CPU {
return &z80.Z80CPU{
A: z.a,
B: z.b,
C: z.c,
D: z.d,
E: z.e,
H: z.h,
L: z.l,
AAlt: z.a_,
BAlt: z.b_,
CAlt: z.c_,
DAlt: z.d_,
EAlt: z.e_,
HAlt: z.h_,
LAlt: z.l_,
IX: z.ix,
IY: z.iy,
I: z.i,
R: z.r,
SP: z.sp,
PC: z.pc,
Flags: z.getFlags(),
FlagsAlt: z.getAltFlags(),
IMode: z.interrupt_mode,
Iff1: z.iff1,
Iff2: z.iff2,
Halted: z.halted,
DoDelayedDI: z.int_pending,
DoDelayedEI: z.int_pending,
CycleCounter: z.inst_cyc,
InterruptOccurred: false,
}
}
func (z *Z80) getFlags() z80.FlagsType {
return z80.FlagsType{
S: z.sf,
Z: z.zf,
Y: z.yf,
H: z.hf,
X: z.xf,
P: z.pf,
N: z.nf,
C: z.cf,
}
}
func (z *Z80) getAltFlags() z80.FlagsType {
return z80.FlagsType{
S: z.f_&0x80 != 0,
Z: z.f_&0x40 != 0,
Y: z.f_&0x20 != 0,
H: z.f_&0x10 != 0,
X: z.f_&0x08 != 0,
P: z.f_&0x04 != 0,
N: z.f_&0x02 != 0,
C: z.f_&0x01 != 0,
}
}

4
z80/helper.go → z80/c99/helper.go
View File

@ -1,4 +1,4 @@
package z80
package c99
import log "github.com/sirupsen/logrus"
@ -155,7 +155,7 @@ func (z *Z80) updateXY(result byte) {
z.xf = result&0x08 != 0
}
func (z *Z80) debug_output() {
func (z *Z80) debugOutput() {
log.Debugf("PC: %04X, AF: %04X, BC: %04X, DE: %04X, HL: %04X, SP: %04X, IX: %04X, IY: %04X, I: %02X, R: %02X",
z.pc, (uint16(z.a)<<8)|uint16(z.get_f()), z.get_bc(), z.get_de(), z.get_hl(), z.sp,
z.ix, z.iy, z.i, z.r)

2
z80/opcodes.go → z80/c99/opcodes.go
View File

@ -1,4 +1,4 @@
package z80
package c99
import log "github.com/sirupsen/logrus"

2
z80/opcodesCB.go → z80/c99/opcodesCB.go
View File

@ -1,4 +1,4 @@
package z80
package c99
import log "github.com/sirupsen/logrus"

2
z80/opcodesDDFD.go → z80/c99/opcodesDDFD.go
View File

@ -1,4 +1,4 @@
package z80
package c99
// executes a DD/FD opcode (IZ = IX or IY)
func (z *Z80) exec_opcode_ddfd(opcode byte, iz *uint16) {

2
z80/opcodesED.go → z80/c99/opcodesED.go
View File

@ -1,4 +1,4 @@
package z80
package c99
import log "github.com/sirupsen/logrus"

194
z80/cpu.go
View File

@ -17,158 +17,56 @@ type CPUInterface interface {
// Reset CPU to initial state
Reset()
// RunInstruction Run single instruction, return number of CPU cycles
RunInstruction() byte
RunInstruction() uint64
// GetState Get current CPU state
GetState() *Z80
GetState() *Z80CPU
// SetState Set current CPU state
SetState(state *Z80)
SetState(state *Z80CPU)
}
type Z80 struct {
// cycle count (t-states)
cyc uint64
// special purpose registers
pc, sp, ix, iy uint16
// "wz" register
mem_ptr uint16
// main registers
a, b, c, d, e, h, l byte
// alternate registers
a_, b_, c_, d_, e_, h_, l_, f_ byte
// interrupt vector, memory refresh
i, r byte
// flags: sign, zero, yf, half-carry, xf, parity/overflow, negative, carry
sf, zf, yf, hf, xf, pf, nf, cf bool
iff_delay byte
interrupt_mode byte
int_data byte
iff1 bool
iff2 bool
halted bool
int_pending bool
nmi_pending bool
core MemIoRW
// FlagsType - Processor flags
type FlagsType struct {
S bool
Z bool
Y bool
H bool
X bool
P bool
N bool
C bool
}
// New initializes a Z80 instance and return pointer to it
func New(core MemIoRW) *Z80 {
z := Z80{}
z.core = core
z.cyc = 0
z.pc = 0
z.sp = 0xFFFF
z.ix = 0
z.iy = 0
z.mem_ptr = 0
// af and sp are set to 0xFFFF after reset,
// and the other values are undefined (z80-documented)
z.a = 0xFF
z.b = 0
z.c = 0
z.d = 0
z.e = 0
z.h = 0
z.l = 0
z.a_ = 0
z.b_ = 0
z.c_ = 0
z.d_ = 0
z.e_ = 0
z.h_ = 0
z.l_ = 0
z.f_ = 0
z.i = 0
z.r = 0
z.sf = true
z.zf = true
z.yf = true
z.hf = true
z.xf = true
z.pf = true
z.nf = true
z.cf = true
z.iff_delay = 0
z.interrupt_mode = 0
z.iff1 = false
z.iff2 = false
z.halted = false
z.int_pending = false
z.nmi_pending = false
z.int_data = 0
return &z
}
// RunInstruction executes the next instruction in memory + handles interrupts
func (z *Z80) RunInstruction() {
if z.halted {
z.exec_opcode(0x00)
} else {
opcode := z.nextb()
z.exec_opcode(opcode)
}
z.process_interrupts()
}
func (z *Z80) GetState() *Z80 {
return &Z80{
cyc: z.cyc,
pc: z.pc,
sp: z.sp,
ix: z.ix,
iy: z.iy,
mem_ptr: z.mem_ptr,
a: z.a,
b: z.b,
c: z.c,
d: z.d,
e: z.e,
h: z.h,
l: z.l,
a_: z.a_,
b_: z.b_,
c_: z.c_,
d_: z.d_,
e_: z.e_,
h_: z.h_,
l_: z.l_,
f_: z.f_,
i: z.i,
r: z.r,
sf: z.sf,
zf: z.zf,
yf: z.yf,
hf: z.hf,
xf: z.xf,
pf: z.pf,
nf: z.nf,
cf: z.cf,
iff1: z.iff1,
iff2: z.iff2,
iff_delay: z.iff_delay,
interrupt_mode: z.interrupt_mode,
halted: z.halted,
int_pending: z.int_pending,
nmi_pending: z.nmi_pending,
core: z.core,
}
// Z80CPU - Processor state
type Z80CPU struct {
A byte
B byte
C byte
D byte
E byte
H byte
L byte
AAlt byte
BAlt byte
CAlt byte
DAlt byte
EAlt byte
HAlt byte
LAlt byte
IX uint16
IY uint16
I byte
R byte
SP uint16
PC uint16
Flags FlagsType
FlagsAlt FlagsType
IMode byte
Iff1 bool
Iff2 bool
Halted bool
DoDelayedDI bool
DoDelayedEI bool
CycleCounter byte
InterruptOccurred bool
//core MemIoRW
}

2
z80em/constants.go → z80/js/constants.go
View File

@ -1,4 +1,4 @@
package z80em
package js
const OpHalt = 0x76
const OpLdBB = 0x40

283
z80em/z80em.go → z80/js/cpu.go
View File

@ -1,81 +1,19 @@
package z80em
package js
import "fmt"
import (
"fmt"
"okemu/z80"
//const SpDefault uint16 = 0xffff
log "github.com/sirupsen/logrus"
)
// FlagsType - Processor flags
type FlagsType struct {
S bool
Z bool
Y bool
H bool
X bool
P bool
N bool
C bool
// const SpDefault uint16 = 0xffff
type Z80 struct {
z80.Z80CPU
core z80.MemIoRW
}
// Z80Type - Processor state
type Z80Type struct {
A byte
B byte
C byte
D byte
E byte
H byte
L byte
AAlt byte
BAlt byte
CAlt byte
DAlt byte
EAlt byte
HAlt byte
LAlt byte
IX uint16
IY uint16
I byte
R byte
SP uint16
PC uint16
Flags FlagsType
FlagsAlt FlagsType
IMode byte
Iff1 byte
Iff2 byte
Halted bool
DoDelayedDI bool
DoDelayedEI bool
CycleCounter byte
interruptOccurred bool
core MemIoRW
}
type MemIoRW interface {
// M1MemRead Read byte from memory for specified address @ M1 cycle
M1MemRead(addr uint16) byte
// MemRead Read byte from memory for specified address
MemRead(addr uint16) byte
// MemWrite Write byte to memory to specified address
MemWrite(addr uint16, val byte)
// IORead Read byte from specified port
IORead(port uint16) byte
// IOWrite Write byte to specified port
IOWrite(port uint16, val byte)
}
type CPUInterface interface {
// Reset CPU to initial state
Reset()
// RunInstruction Run single instruction, return number of CPU cycles
RunInstruction() byte
// GetState Get current CPU state
GetState() *Z80Type
// SetState Set current CPU state
SetState(state *Z80Type)
}
func (z *Z80Type) Reset() {
func (z *Z80) Reset() {
z.A = 0
z.R = 0
z.SP = 0xff
@ -83,9 +21,9 @@ func (z *Z80Type) Reset() {
z.setFlagsRegister(0xff)
// Interrupts disabled
z.IMode = 0
z.Iff1 = 0
z.Iff2 = 0
z.interruptOccurred = false
z.Iff1 = false
z.Iff2 = false
z.InterruptOccurred = false
// Start not halted
z.Halted = false
@ -96,8 +34,8 @@ func (z *Z80Type) Reset() {
fmt.Println("CPUInterface State Reset")
}
func (z *Z80Type) GetState() *Z80Type {
return &Z80Type{
func (z *Z80) GetState() *z80.Z80CPU {
return &z80.Z80CPU{
A: z.A,
B: z.B,
C: z.C,
@ -128,7 +66,7 @@ func (z *Z80Type) GetState() *Z80Type {
}
}
func (z *Z80Type) SetState(state *Z80Type) {
func (z *Z80) SetState(state *Z80) {
z.A = state.A
z.B = state.B
z.C = state.C
@ -160,8 +98,9 @@ func (z *Z80Type) SetState(state *Z80Type) {
}
// New Create new
func New(memIoRW MemIoRW) *Z80Type {
return &Z80Type{
func New(memIoRW z80.MemIoRW) *Z80 {
return &Z80{
Z80CPU: z80.Z80CPU{
A: 0,
B: 0,
C: 0,
@ -182,21 +121,22 @@ func New(memIoRW MemIoRW) *Z80Type {
R: 0,
SP: 0xffff,
PC: 0,
Flags: FlagsType{true, true, true, true, true, true, true, true},
FlagsAlt: FlagsType{true, true, true, true, true, true, true, true},
Flags: z80.FlagsType{S: true, Z: true, Y: true, H: true, X: true, P: true, N: true, C: true},
FlagsAlt: z80.FlagsType{S: true, Z: true, Y: true, H: true, X: true, P: true, N: true, C: true},
IMode: 0,
Iff1: 0,
Iff2: 0,
Iff1: false,
Iff2: false,
Halted: false,
DoDelayedDI: false,
DoDelayedEI: false,
CycleCounter: 0,
interruptOccurred: false,
InterruptOccurred: false,
},
core: memIoRW,
}
}
func (z *Z80Type) RunInstruction() byte {
func (z *Z80) RunInstruction() uint64 {
z.incR()
@ -225,18 +165,18 @@ func (z *Z80Type) RunInstruction() byte {
// Actually do the delayed interrupt disable/enable if we have one.
if doingDelayedDi {
z.Iff1 = 0
z.Iff2 = 0
z.Iff1 = false
z.Iff2 = false
} else if doingDelayedEi {
z.Iff1 = 1
z.Iff2 = 1
z.Iff1 = true
z.Iff2 = true
}
// And finally clear out the cycle counter for the next instruction
// before returning it to the emulator core.
cycleCounter := z.CycleCounter
z.CycleCounter = 0
return cycleCounter
return uint64(cycleCounter)
}
// HALTED
@ -250,7 +190,7 @@ func (z *Z80Type) RunInstruction() byte {
//
// nonMaskable - true if this is a non-maskable interrupt
// data - the value to be placed on the data bus, if needed
func (z *Z80Type) interrupt(nonMaskable bool, data byte) {
func (z *Z80) interrupt(nonMaskable bool, data byte) {
if nonMaskable {
// An interrupt, if halted, does increase the PC
if z.Halted {
@ -267,12 +207,12 @@ func (z *Z80Type) interrupt(nonMaskable bool, data byte) {
z.Halted = false
z.Iff2 = z.Iff1
z.Iff1 = 0
z.Iff1 = false
z.pushWord(z.PC)
z.PC = 0x66
z.CycleCounter += 11
} else if z.Iff1 != 0 {
} else if z.Iff1 {
// An interrupt, if halted, does increase the PC
if z.Halted {
z.PC++
@ -283,8 +223,8 @@ func (z *Z80Type) interrupt(nonMaskable bool, data byte) {
z.incR()
z.Halted = false
z.Iff1 = 0
z.Iff2 = 0
z.Iff1 = false
z.Iff2 = false
if z.IMode == 0 {
// In the 8080-compatible interrupt mode,
@ -312,19 +252,19 @@ func (z *Z80Type) interrupt(nonMaskable bool, data byte) {
z.PC = z.getWord(vectorAddress) //uint16( z.core.MemRead(vectorAddress)) | (uint16(z.core.MemRead(vectorAddress+1)) << 8)
z.CycleCounter += 19
// A "notification" is generated so that the calling program can break on it.
z.interruptOccurred = true
z.InterruptOccurred = true
}
}
}
func (z *Z80Type) pushWord(operand uint16) {
func (z *Z80) pushWord(operand uint16) {
z.SP--
z.core.MemWrite(z.SP, byte(operand>>8))
z.SP--
z.core.MemWrite(z.SP, byte(operand&0x00ff))
}
func (z *Z80Type) getOperand(opcode byte) byte {
func (z *Z80) getOperand(opcode byte) byte {
switch opcode & 0x07 {
case 0:
return z.B
@ -345,7 +285,7 @@ func (z *Z80Type) getOperand(opcode byte) byte {
}
}
func (z *Z80Type) decodeInstruction(opcode byte) {
func (z *Z80) decodeInstruction(opcode byte) {
// Handle HALT right up front, because it fouls up our LD decoding
// by falling where LD (HL), (HL) ought to be.
if opcode == OpHalt {
@ -363,7 +303,7 @@ func (z *Z80Type) decodeInstruction(opcode byte) {
z.CycleCounter += CycleCounts[opcode]
}
func (z *Z80Type) load8bit(opcode byte, operand byte) {
func (z *Z80) load8bit(opcode byte, operand byte) {
switch (opcode & 0x38) >> 3 {
case 0:
z.B = operand
@ -385,7 +325,7 @@ func (z *Z80Type) load8bit(opcode byte, operand byte) {
}
// alu8bit Handle ALU Operations, ADD, ADC SUB, SBC, AND, XOR, OR
func (z *Z80Type) alu8bit(opcode byte, operand byte) {
func (z *Z80) alu8bit(opcode byte, operand byte) {
switch (opcode & 0x38) >> 3 {
case 0:
z.doAdd(operand)
@ -407,16 +347,16 @@ func (z *Z80Type) alu8bit(opcode byte, operand byte) {
}
// getFlagsRegister return whole F register
func (z *Z80Type) getFlagsRegister() byte {
func (z *Z80) getFlagsRegister() byte {
return getFlags(&z.Flags)
}
// getFlagsRegister return whole F' register
func (z *Z80Type) getFlagsPrimeRegister() byte {
func (z *Z80) getFlagsPrimeRegister() byte {
return getFlags(&z.FlagsAlt)
}
func getFlags(f *FlagsType) byte {
func getFlags(f *z80.FlagsType) byte {
var flags byte = 0
if f.S {
flags |= 0x80
@ -446,15 +386,15 @@ func getFlags(f *FlagsType) byte {
}
func (z *Z80Type) setFlagsRegister(flags byte) {
func (z *Z80) setFlagsRegister(flags byte) {
setFlags(flags, &z.Flags)
}
func (z *Z80Type) setFlagsPrimeRegister(flags byte) {
func (z *Z80) setFlagsPrimeRegister(flags byte) {
setFlags(flags, &z.FlagsAlt)
}
func setFlags(flags byte, f *FlagsType) {
func setFlags(flags byte, f *z80.FlagsType) {
f.S = flags&0x80 != 0
f.Z = flags&0x40 != 0
f.Y = flags&0x20 != 0
@ -466,13 +406,13 @@ func setFlags(flags byte, f *FlagsType) {
}
// updateXYFlags Set flags X and Y based on result bits
func (z *Z80Type) updateXYFlags(result byte) {
func (z *Z80) updateXYFlags(result byte) {
z.Flags.Y = result&0x20 != 0
z.Flags.X = result&0x08 != 0
}
// PushWord - Decrement stack pointer and put specified word value to stack
func (z *Z80Type) PushWord(operand uint16) {
func (z *Z80) PushWord(operand uint16) {
z.SP--
z.core.MemWrite(z.SP, byte((operand&0xff00)>>8))
z.SP--
@ -480,7 +420,7 @@ func (z *Z80Type) PushWord(operand uint16) {
}
// PopWord - Get word value from top of stack and increment stack pointer
func (z *Z80Type) PopWord() uint16 {
func (z *Z80) PopWord() uint16 {
result := uint16(z.core.MemRead(z.SP))
z.SP++
result |= uint16(z.core.MemRead(z.SP)) << 8
@ -489,7 +429,7 @@ func (z *Z80Type) PopWord() uint16 {
}
// doConditionalAbsoluteJump - Implements the JP [condition],nn instructions.
func (z *Z80Type) doConditionalAbsoluteJump(condition bool) {
func (z *Z80) doConditionalAbsoluteJump(condition bool) {
if condition {
// We're taking this jump, so write the new PC,
// and then decrement the thing we just wrote,
@ -505,7 +445,7 @@ func (z *Z80Type) doConditionalAbsoluteJump(condition bool) {
}
// doConditionalRelativeJump - Implements the JR [condition],nn instructions.
func (z *Z80Type) doConditionalRelativeJump(condition bool) {
func (z *Z80) doConditionalRelativeJump(condition bool) {
if condition {
// We need a few more cycles to actually take the jump.
z.CycleCounter += 5
@ -524,7 +464,7 @@ func (z *Z80Type) doConditionalRelativeJump(condition bool) {
}
// doConditionalCall - Implements CALL [condition],nn instructions.
func (z *Z80Type) doConditionalCall(condition bool) {
func (z *Z80) doConditionalCall(condition bool) {
if condition {
z.CycleCounter += 7
z.PushWord(z.PC + 3)
@ -535,7 +475,7 @@ func (z *Z80Type) doConditionalCall(condition bool) {
}
}
func (z *Z80Type) doConditionalReturn(condition bool) {
func (z *Z80) doConditionalReturn(condition bool) {
if condition {
z.CycleCounter += 6
z.PC = z.PopWord() - 1
@ -543,13 +483,13 @@ func (z *Z80Type) doConditionalReturn(condition bool) {
}
// doReset - Implements RST [address] instructions.
func (z *Z80Type) doReset(address uint16) {
func (z *Z80) doReset(address uint16) {
z.PushWord(z.PC + 1)
z.PC = address - 1
}
// doAdd Handle ADD A, [operand] instructions.
func (z *Z80Type) doAdd(operand byte) {
func (z *Z80) doAdd(operand byte) {
var result = uint16(z.A) + uint16(operand)
z.Flags.S = result&0x80 != 0
@ -564,7 +504,7 @@ func (z *Z80Type) doAdd(operand byte) {
}
// doAdc Handle ADC A, [operand] instructions.
func (z *Z80Type) doAdc(operand byte) {
func (z *Z80) doAdc(operand byte) {
add := byte(0)
if z.Flags.C {
add = 1
@ -583,7 +523,7 @@ func (z *Z80Type) doAdc(operand byte) {
}
// doSub Handle SUB A, [operand] instructions.
func (z *Z80Type) doSub(operand byte) {
func (z *Z80) doSub(operand byte) {
var result = uint16(z.A) - uint16(operand)
z.Flags.S = result&0x80 != 0
@ -598,7 +538,7 @@ func (z *Z80Type) doSub(operand byte) {
}
// doSbc Handle SBC A, [operand] instructions.
func (z *Z80Type) doSbc(operand byte) {
func (z *Z80) doSbc(operand byte) {
sub := byte(0)
if z.Flags.C {
sub = 1
@ -617,7 +557,7 @@ func (z *Z80Type) doSbc(operand byte) {
}
// setLogicFlags Set common flags for logic ALU Ops
func (z *Z80Type) setLogicFlags() {
func (z *Z80) setLogicFlags() {
z.Flags.S = z.A&0x80 != 0
z.Flags.Z = z.A == 0
z.Flags.P = ParityBits[z.A]
@ -626,7 +566,7 @@ func (z *Z80Type) setLogicFlags() {
}
// doAnd handle AND [operand] instructions.
func (z *Z80Type) doAnd(operand byte) {
func (z *Z80) doAnd(operand byte) {
z.A &= operand
z.setLogicFlags()
z.Flags.H = true
@ -634,7 +574,7 @@ func (z *Z80Type) doAnd(operand byte) {
}
// doXor handle XOR [operand] instructions.
func (z *Z80Type) doXor(operand byte) {
func (z *Z80) doXor(operand byte) {
z.A ^= operand
z.setLogicFlags()
z.Flags.H = false
@ -642,7 +582,7 @@ func (z *Z80Type) doXor(operand byte) {
}
// doOr handle OR [operand] instructions.
func (z *Z80Type) doOr(operand byte) {
func (z *Z80) doOr(operand byte) {
z.A |= operand
z.setLogicFlags()
z.Flags.H = false
@ -650,7 +590,7 @@ func (z *Z80Type) doOr(operand byte) {
}
// doCp handle CP [operand] instructions.
func (z *Z80Type) doCp(operand byte) {
func (z *Z80) doCp(operand byte) {
tmp := z.A
z.doSub(operand)
z.A = tmp
@ -658,7 +598,7 @@ func (z *Z80Type) doCp(operand byte) {
}
// doInc handle INC [operand] instructions.
func (z *Z80Type) doInc(operand byte) byte {
func (z *Z80) doInc(operand byte) byte {
var result = uint16(operand) + 1
r8 := byte(result & 0xff)
@ -673,7 +613,7 @@ func (z *Z80Type) doInc(operand byte) byte {
}
// doDec handle DEC [operand] instructions.
func (z *Z80Type) doDec(operand byte) byte {
func (z *Z80) doDec(operand byte) byte {
var result = uint16(operand) - 1
r8 := byte(result & 0xff)
@ -688,7 +628,7 @@ func (z *Z80Type) doDec(operand byte) byte {
}
// doHlAdd handle ADD HL,[operand] instructions.
func (z *Z80Type) doHlAdd(operand uint16) {
func (z *Z80) doHlAdd(operand uint16) {
// The HL arithmetic instructions are the same as the A ones,
// just with twice as many bits happening.
hl := z.hl() //uint16(z.L) | (uint16(z.H) << 8)
@ -705,7 +645,7 @@ func (z *Z80Type) doHlAdd(operand uint16) {
}
// doHlAdc handle ADC HL,[operand] instructions.
func (z *Z80Type) doHlAdc(operand uint16) {
func (z *Z80) doHlAdc(operand uint16) {
if z.Flags.C {
operand++
}
@ -728,7 +668,7 @@ func (z *Z80Type) doHlAdc(operand uint16) {
}
// doHlSbc handle SBC HL,[operand] instructions.
func (z *Z80Type) doHlSbc(operand uint16) {
func (z *Z80) doHlSbc(operand uint16) {
if z.Flags.C {
operand++
}
@ -750,7 +690,7 @@ func (z *Z80Type) doHlSbc(operand uint16) {
z.updateXYFlags(z.H)
}
func (z *Z80Type) doIn(port uint16) byte {
func (z *Z80) doIn(port uint16) byte {
var result = z.core.IORead(port)
z.Flags.S = result&0x80 != 0
@ -762,7 +702,7 @@ func (z *Z80Type) doIn(port uint16) byte {
return result
}
func (z *Z80Type) doNeg() {
func (z *Z80) doNeg() {
// This instruction is defined to not alter the register if it === 0x80.
a := int8(z.A)
if z.A != 0x80 {
@ -778,7 +718,7 @@ func (z *Z80Type) doNeg() {
z.updateXYFlags(z.A)
}
func (z *Z80Type) doLdi() {
func (z *Z80) doLdi() {
// Copy the value that we're supposed to copy.
readValue := z.core.MemRead(z.hl())
z.core.MemWrite(z.de(), readValue)
@ -794,14 +734,14 @@ func (z *Z80Type) doLdi() {
z.Flags.X = ((z.A+readValue)&0x08)>>3 != 0
}
func (z *Z80Type) fhv() byte {
func (z *Z80) fhv() byte {
if z.Flags.H {
return 1
}
return 0
}
func (z *Z80Type) doCpi() {
func (z *Z80) doCpi() {
tempCarry := z.Flags.C
readValue := z.core.MemRead(z.hl())
z.doCp(readValue)
@ -815,21 +755,21 @@ func (z *Z80Type) doCpi() {
z.Flags.P = (z.B | z.C) != 0
}
func (z *Z80Type) doIni() {
func (z *Z80) doIni() {
z.core.MemWrite(z.hl(), z.core.IORead(z.bc()))
z.incHl()
z.B = z.doDec(z.B)
z.Flags.N = true
}
func (z *Z80Type) doOuti() {
func (z *Z80) doOuti() {
z.B = z.doDec(z.B)
z.core.IOWrite(z.bc(), z.core.MemRead(z.hl()))
z.incHl()
z.Flags.N = true
}
func (z *Z80Type) doLdd() {
func (z *Z80) doLdd() {
z.Flags.N = false
z.Flags.H = false
readValue := z.core.MemRead(z.hl())
@ -842,7 +782,7 @@ func (z *Z80Type) doLdd() {
z.Flags.X = ((z.A + readValue) & 0x08) != 0
}
func (z *Z80Type) doCpd() {
func (z *Z80) doCpd() {
tempCarry := z.Flags.C
readValue := z.core.MemRead(z.hl())
z.doCp(readValue)
@ -860,14 +800,14 @@ func (z *Z80Type) doCpd() {
z.Flags.P = (z.B | z.C) != 0
}
func (z *Z80Type) doInd() {
func (z *Z80) doInd() {
z.core.MemWrite(z.hl(), z.core.IORead(z.bc()))
z.decHl()
z.B = z.doDec(z.B)
z.Flags.N = true
}
func (z *Z80Type) doOutd() {
func (z *Z80) doOutd() {
z.B = z.doDec(z.B)
z.core.IOWrite(z.bc(), z.core.MemRead(z.hl()))
z.decHl()
@ -876,7 +816,7 @@ func (z *Z80Type) doOutd() {
type OpShift func(operand byte) byte
func (z *Z80Type) doRlc(operand byte) byte {
func (z *Z80) doRlc(operand byte) byte {
z.Flags.C = operand&0x80 != 0
var fc byte = 0
if z.Flags.C {
@ -887,7 +827,7 @@ func (z *Z80Type) doRlc(operand byte) byte {
return operand
}
func (z *Z80Type) doRrc(operand byte) byte {
func (z *Z80) doRrc(operand byte) byte {
z.Flags.C = operand&1 != 0
var fc byte = 0
if z.Flags.C {
@ -898,7 +838,7 @@ func (z *Z80Type) doRrc(operand byte) byte {
return operand
}
func (z *Z80Type) doRl(operand byte) byte {
func (z *Z80) doRl(operand byte) byte {
var fc byte = 0
if z.Flags.C {
fc = 1
@ -909,7 +849,7 @@ func (z *Z80Type) doRl(operand byte) byte {
return operand
}
func (z *Z80Type) doRr(operand byte) byte {
func (z *Z80) doRr(operand byte) byte {
var fc byte = 0
if z.Flags.C {
fc = 0x80
@ -920,28 +860,28 @@ func (z *Z80Type) doRr(operand byte) byte {
return operand
}
func (z *Z80Type) doSla(operand byte) byte {
func (z *Z80) doSla(operand byte) byte {
z.Flags.C = operand&0x80 != 0
operand = operand << 1
z.setShiftFlags(operand)
return operand
}
func (z *Z80Type) doSra(operand byte) byte {
func (z *Z80) doSra(operand byte) byte {
z.Flags.C = operand&1 != 0
operand = ((operand >> 1) & 0x7f) | (operand & 0x80)
z.setShiftFlags(operand)
return operand
}
func (z *Z80Type) doSll(operand byte) byte {
func (z *Z80) doSll(operand byte) byte {
z.Flags.C = operand&0x80 != 0
operand = (operand << 1) | 1
z.setShiftFlags(operand)
return operand
}
func (z *Z80Type) doSrl(operand byte) byte {
func (z *Z80) doSrl(operand byte) byte {
z.Flags.C = operand&1 != 0
operand = (operand >> 1) & 0x7f
z.setShiftFlags(operand)
@ -949,7 +889,7 @@ func (z *Z80Type) doSrl(operand byte) byte {
return operand
}
func (z *Z80Type) doIxAdd(operand uint16) {
func (z *Z80) doIxAdd(operand uint16) {
z.Flags.N = false
result := uint32(z.IX) + uint32(operand)
z.Flags.C = result > 0xffff
@ -959,7 +899,7 @@ func (z *Z80Type) doIxAdd(operand uint16) {
z.IX = uint16(result & 0xffff)
}
func (z *Z80Type) setShiftFlags(operand byte) {
func (z *Z80) setShiftFlags(operand byte) {
z.Flags.N = false
z.Flags.H = false
z.Flags.Z = operand == 0
@ -970,55 +910,55 @@ func (z *Z80Type) setShiftFlags(operand byte) {
// ============== get register pairs
func (z *Z80Type) bc() uint16 {
func (z *Z80) bc() uint16 {
return (uint16(z.B) << 8) | uint16(z.C)
}
func (z *Z80Type) de() uint16 {
func (z *Z80) de() uint16 {
return (uint16(z.D) << 8) | uint16(z.E)
}
func (z *Z80Type) hl() uint16 {
func (z *Z80) hl() uint16 {
return (uint16(z.H) << 8) | uint16(z.L)
}
// ============ helper fn
func (z *Z80Type) incBc() {
func (z *Z80) incBc() {
z.setBc(z.bc() + 1)
}
func (z *Z80Type) decBc() {
func (z *Z80) decBc() {
z.setBc(z.bc() - 1)
}
func (z *Z80Type) incDe() {
func (z *Z80) incDe() {
z.setDe(z.de() + 1)
}
func (z *Z80Type) decDe() {
func (z *Z80) decDe() {
z.setDe(z.de() - 1)
}
func (z *Z80Type) incHl() {
func (z *Z80) incHl() {
z.setHl(z.hl() + 1)
}
func (z *Z80Type) decHl() {
func (z *Z80) decHl() {
z.setHl(z.hl() - 1)
}
func (z *Z80Type) setHl(val uint16) {
func (z *Z80) setHl(val uint16) {
z.L = byte(val & 0xff)
z.H = byte(val >> 8)
}
func (z *Z80Type) setDe(val uint16) {
func (z *Z80) setDe(val uint16) {
z.E = byte(val & 0xff)
z.D = byte(val >> 8)
}
func (z *Z80Type) setBc(val uint16) {
func (z *Z80) setBc(val uint16) {
z.C = byte(val & 0xff)
z.B = byte(val >> 8)
}
@ -1027,16 +967,25 @@ func (z *Z80Type) setBc(val uint16) {
// The high bit of R is not affected by this increment,
// it can only be changed using the LD R, A instruction.
// Note: also a HALT does increment the R register.
func (z *Z80Type) incR() {
func (z *Z80) incR() {
z.R = (z.R & 0x80) | (((z.R & 0x7f) + 1) & 0x7f)
}
// getWord Return 16bit value from memory by specified address
func (z *Z80Type) getWord(address uint16) uint16 {
func (z *Z80) getWord(address uint16) uint16 {
return (uint16(z.core.MemRead(address+1)) << 8) | uint16(z.core.MemRead(address))
}
func (z *Z80Type) setWord(address uint16, value uint16) {
func (z *Z80) setWord(address uint16, value uint16) {
z.core.MemWrite(address, byte(value))
z.core.MemWrite(address+1, byte(value>>8))
}
func (z *Z80) debugOutput() {
log.Debugf("PC: %04X, AF: %04X, BC: %04X, DE: %04X, HL: %04X, SP: %04X, IX: %04X, IY: %04X, I: %02X, R: %02X",
z.PC, (uint16(z.A)<<8)|uint16(z.getFlagsRegister()), z.bc(), z.de(), z.hl(), z.SP,
z.IX, z.IY, z.I, z.R)
log.Debugf("\t(%02X %02X %02X %02X), cyc: %d\n", z.core.MemRead(z.PC), z.core.MemRead(z.PC+1),
z.core.MemRead(z.PC+2), z.core.MemRead(z.PC+3), z.CycleCounter)
}

262
z80em/opcode.go → z80/js/opcode.go
View File

@ -1,40 +1,40 @@
package z80em
package js
var instructions = []func(s *Z80Type){
var instructions = []func(s *Z80){
// NOP
0x00: func(s *Z80Type) {
0x00: func(s *Z80) {
// NOP
},
// LD BC, nn
0x01: func(s *Z80Type) {
0x01: func(s *Z80) {
s.PC++
s.C = s.core.MemRead(s.PC)
s.PC++
s.B = s.core.MemRead(s.PC)
},
// LD (BC), A
0x02: func(s *Z80Type) {
0x02: func(s *Z80) {
s.core.MemWrite(s.bc(), s.A)
},
// 0x03 : INC BC
0x03: func(s *Z80Type) {
0x03: func(s *Z80) {
s.incBc()
},
// 0x04 : INC B
0x04: func(s *Z80Type) {
0x04: func(s *Z80) {
s.B = s.doInc(s.B)
},
// 0x05 : DEC B
0x05: func(s *Z80Type) {
0x05: func(s *Z80) {
s.B = s.doDec(s.B)
},
// 0x06 : LD B, n
0x06: func(s *Z80Type) {
0x06: func(s *Z80) {
s.PC++
s.B = s.core.MemRead(s.PC)
},
// 0x07 : RLCA
0x07: func(s *Z80Type) {
0x07: func(s *Z80) {
// This instruction is implemented as a special case of the
// more general Z80-specific RLC instruction.
// Specifially, RLCA is a version of RLC A that affects fewer flags.
@ -48,39 +48,39 @@ var instructions = []func(s *Z80Type){
s.Flags.P = tempP
},
// 0x08 : EX AF, AF'
0x08: func(s *Z80Type) {
0x08: func(s *Z80) {
s.A, s.AAlt = s.AAlt, s.A
temp := s.getFlagsRegister()
s.setFlagsRegister(s.getFlagsPrimeRegister())
s.setFlagsPrimeRegister(temp)
},
// 0x09 : ADD HL, BC
0x09: func(s *Z80Type) {
0x09: func(s *Z80) {
s.doHlAdd(s.bc())
},
// 0x0a : LD A, (BC)
0x0A: func(s *Z80Type) {
0x0A: func(s *Z80) {
s.A = s.core.MemRead(s.bc())
},
// 0x0b : DEC BC
0x0B: func(s *Z80Type) {
0x0B: func(s *Z80) {
s.decBc()
},
// 0x0c : INC C
0x0C: func(s *Z80Type) {
0x0C: func(s *Z80) {
s.C = s.doInc(s.C)
},
// 0x0d : DEC C
0x0D: func(s *Z80Type) {
0x0D: func(s *Z80) {
s.C = s.doDec(s.C)
},
// 0x0e : LD C, n
0x0E: func(s *Z80Type) {
0x0E: func(s *Z80) {
s.PC++
s.C = s.core.MemRead(s.PC)
},
// 0x0f : RRCA
0x0F: func(s *Z80Type) {
0x0F: func(s *Z80) {
tempS := s.Flags.S
tempZ := s.Flags.Z
tempP := s.Flags.P
@ -90,40 +90,40 @@ var instructions = []func(s *Z80Type){
s.Flags.P = tempP
},
// 0x10 : DJNZ nn
0x10: func(s *Z80Type) {
0x10: func(s *Z80) {
s.B--
s.doConditionalRelativeJump(s.B != 0)
},
// 0x11 : LD DE, nn
0x11: func(s *Z80Type) {
0x11: func(s *Z80) {
s.PC++
s.E = s.core.MemRead(s.PC)
s.PC++
s.D = s.core.MemRead(s.PC)
},
// 0x12 : LD (DE), A
0x12: func(s *Z80Type) {
0x12: func(s *Z80) {
s.core.MemWrite(s.de(), s.A)
},
// 0x13 : INC DE
0x13: func(s *Z80Type) {
0x13: func(s *Z80) {
s.incDe()
},
// 0x14 : INC D
0x14: func(s *Z80Type) {
0x14: func(s *Z80) {
s.D = s.doInc(s.D)
},
// 0x15 : DEC D
0x15: func(s *Z80Type) {
0x15: func(s *Z80) {
s.D = s.doDec(s.D)
},
// 0x16 : LD D, n
0x16: func(s *Z80Type) {
0x16: func(s *Z80) {
s.PC++
s.D = s.core.MemRead(s.PC)
},
// 0x17 : RLA
0x17: func(s *Z80Type) {
0x17: func(s *Z80) {
tempS := s.Flags.S
tempZ := s.Flags.Z
tempP := s.Flags.P
@ -133,7 +133,7 @@ var instructions = []func(s *Z80Type){
s.Flags.P = tempP
},
// 0x18 : JR n
0x18: func(s *Z80Type) {
0x18: func(s *Z80) {
var o = int8(s.core.MemRead(s.PC + 1))
if o > 0 {
s.PC += uint16(o)
@ -143,32 +143,32 @@ var instructions = []func(s *Z80Type){
s.PC++
},
// 0x19 : ADD HL, DE
0x19: func(s *Z80Type) {
0x19: func(s *Z80) {
s.doHlAdd(s.de())
},
// 0x1a : LD A, (DE)
0x1A: func(s *Z80Type) {
0x1A: func(s *Z80) {
s.A = s.core.MemRead(s.de())
},
// 0x1b : DEC DE
0x1B: func(s *Z80Type) {
0x1B: func(s *Z80) {
s.decDe()
},
// 0x1c : INC E
0x1C: func(s *Z80Type) {
0x1C: func(s *Z80) {
s.E = s.doInc(s.E)
},
// 0x1d : DEC E
0x1D: func(s *Z80Type) {
0x1D: func(s *Z80) {
s.E = s.doDec(s.E)
},
// 0x1e : LD E, n
0x1E: func(s *Z80Type) {
0x1E: func(s *Z80) {
s.PC++
s.E = s.core.MemRead(s.PC)
},
// 0x1f : RRA
0x1F: func(s *Z80Type) {
0x1F: func(s *Z80) {
tempS := s.Flags.S
tempZ := s.Flags.Z
tempP := s.Flags.P
@ -178,41 +178,41 @@ var instructions = []func(s *Z80Type){
s.Flags.P = tempP
},
// 0x20 : JR NZ, n
0x20: func(s *Z80Type) {
0x20: func(s *Z80) {
s.doConditionalRelativeJump(!s.Flags.Z)
},
// 0x21 : LD HL, nn
0x21: func(s *Z80Type) {
0x21: func(s *Z80) {
s.PC++
s.L = s.core.MemRead(s.PC)
s.PC++
s.H = s.core.MemRead(s.PC)
},
// 0x22 : LD (nn), HL
0x22: func(s *Z80Type) {
0x22: func(s *Z80) {
addr := s.nextWord()
s.core.MemWrite(addr, s.L)
s.core.MemWrite(addr+1, s.H)
},
// 0x23 : INC HL
0x23: func(s *Z80Type) {
0x23: func(s *Z80) {
s.incHl()
},
// 0x24 : INC H
0x24: func(s *Z80Type) {
0x24: func(s *Z80) {
s.H = s.doInc(s.H)
},
// 0x25 : DEC H
0x25: func(s *Z80Type) {
0x25: func(s *Z80) {
s.H = s.doDec(s.H)
},
// 0x26 : LD H, n
0x26: func(s *Z80Type) {
0x26: func(s *Z80) {
s.PC++
s.H = s.core.MemRead(s.PC)
},
// 0x27 : DAA
0x27: func(s *Z80Type) {
0x27: func(s *Z80) {
temp := s.A
if !s.Flags.N {
if s.Flags.H || ((s.A & 0x0f) > 9) {
@ -243,231 +243,231 @@ var instructions = []func(s *Z80Type){
s.updateXYFlags(s.A)
},
// 0x28 : JR Z, n
0x28: func(s *Z80Type) {
0x28: func(s *Z80) {
s.doConditionalRelativeJump(s.Flags.Z)
},
// 0x29 : ADD HL, HL
0x29: func(s *Z80Type) {
0x29: func(s *Z80) {
s.doHlAdd(s.hl())
},
// 0x2a : LD HL, (nn)
0x2A: func(s *Z80Type) {
0x2A: func(s *Z80) {
addr := s.nextWord()
s.L = s.core.MemRead(addr)
s.H = s.core.MemRead(addr + 1)
},
// 0x2b : DEC HL
0x2B: func(s *Z80Type) {
0x2B: func(s *Z80) {
s.decHl()
},
// 0x2c : INC L
0x2C: func(s *Z80Type) {
0x2C: func(s *Z80) {
s.L = s.doInc(s.L)
},
// 0x2d : DEC L
0x2D: func(s *Z80Type) {
0x2D: func(s *Z80) {
s.L = s.doDec(s.L)
},
// 0x2e : LD L, n
0x2E: func(s *Z80Type) {
0x2E: func(s *Z80) {
s.PC++
s.L = s.core.MemRead(s.PC)
},
// 0x2f : CPL
0x2F: func(s *Z80Type) {
0x2F: func(s *Z80) {
s.A = ^s.A
s.Flags.N = true
s.Flags.H = true
s.updateXYFlags(s.A)
},
// 0x30 : JR NC, n
0x30: func(s *Z80Type) {
0x30: func(s *Z80) {
s.doConditionalRelativeJump(!s.Flags.C)
},
// 0x31 : LD SP, nn
0x31: func(s *Z80Type) {
0x31: func(s *Z80) {
s.PC++
lo := s.core.MemRead(s.PC)
s.PC++
s.SP = (uint16(s.core.MemRead(s.PC)) << 8) | uint16(lo)
},
// 0x32 : LD (nn), A
0x32: func(s *Z80Type) {
0x32: func(s *Z80) {
s.core.MemWrite(s.nextWord(), s.A)
},
// 0x33 : INC SP
0x33: func(s *Z80Type) {
0x33: func(s *Z80) {
s.SP++
},
// 0x34 : INC (HL)
0x34: func(s *Z80Type) {
0x34: func(s *Z80) {
s.core.MemWrite(s.hl(), s.doInc(s.core.MemRead(s.hl())))
},
// 0x35 : DEC (HL)
0x35: func(s *Z80Type) {
0x35: func(s *Z80) {
s.core.MemWrite(s.hl(), s.doDec(s.core.MemRead(s.hl())))
},
// 0x36 : LD (HL), n
0x36: func(s *Z80Type) {
0x36: func(s *Z80) {
s.PC++
s.core.MemWrite(s.hl(), s.core.MemRead(s.PC))
},
// 0x37 : SCF
0x37: func(s *Z80Type) {
0x37: func(s *Z80) {
s.Flags.N = false
s.Flags.H = false
s.Flags.C = true
s.updateXYFlags(s.A)
},
// 0x38 : JR C, n
0x38: func(s *Z80Type) {
0x38: func(s *Z80) {
s.doConditionalRelativeJump(s.Flags.C)
},
// 0x39 : ADD HL, SP
0x39: func(s *Z80Type) {
0x39: func(s *Z80) {
s.doHlAdd(s.SP)
},
// 0x3a : LD A, (nn)
0x3A: func(s *Z80Type) {
0x3A: func(s *Z80) {
s.A = s.core.MemRead(s.nextWord())
},
// 0x3b : DEC SP
0x3B: func(s *Z80Type) {
0x3B: func(s *Z80) {
s.SP--
},
// 0x3c : INC A
0x3C: func(s *Z80Type) {
0x3C: func(s *Z80) {
s.A = s.doInc(s.A)
},
// 0x3d : DEC A
0x3D: func(s *Z80Type) {
0x3D: func(s *Z80) {
s.A = s.doDec(s.A)
},
// 0x3e : LD A, n
0x3E: func(s *Z80Type) {
0x3E: func(s *Z80) {
s.PC++
s.A = s.core.MemRead(s.PC)
},
// 0x3f : CCF
0x3F: func(s *Z80Type) {
0x3F: func(s *Z80) {
s.Flags.N = false
s.Flags.H = s.Flags.C
s.Flags.C = !s.Flags.C
s.updateXYFlags(s.A)
},
// 0xc0 : RET NZ
0xC0: func(s *Z80Type) {
0xC0: func(s *Z80) {
s.doConditionalReturn(!s.Flags.Z)
},
// 0xc1 : POP BC
0xC1: func(s *Z80Type) {
0xC1: func(s *Z80) {
result := s.PopWord()
s.C = byte(result & 0xff)
s.B = byte((result & 0xff00) >> 8)
},
// 0xc2 : JP NZ, nn
0xC2: func(s *Z80Type) {
0xC2: func(s *Z80) {
s.doConditionalAbsoluteJump(!s.Flags.Z)
},
// 0xc3 : JP nn
0xC3: func(s *Z80Type) {
0xC3: func(s *Z80) {
s.PC = uint16(s.core.MemRead(s.PC+1)) | (uint16(s.core.MemRead(s.PC+2)) << 8)
s.PC--
},
// 0xc4 : CALL NZ, nn
0xC4: func(s *Z80Type) {
0xC4: func(s *Z80) {
s.doConditionalCall(!s.Flags.Z)
},
// 0xc5 : PUSH BC
0xC5: func(s *Z80Type) {
0xC5: func(s *Z80) {
s.pushWord((uint16(s.B) << 8) | uint16(s.C))
},
// 0xc6 : ADD A, n
0xC6: func(s *Z80Type) {
0xC6: func(s *Z80) {
s.PC++
s.doAdd(s.core.MemRead(s.PC))
},
// 0xc7 : RST 00h
0xC7: func(s *Z80Type) {
0xC7: func(s *Z80) {
s.doReset(0x0000)
},
// 0xc8 : RET Z
0xC8: func(s *Z80Type) {
0xC8: func(s *Z80) {
s.doConditionalReturn(s.Flags.Z)
},
// 0xc9 : RET
0xC9: func(s *Z80Type) {
0xC9: func(s *Z80) {
s.PC = s.PopWord() - 1
},
// 0xca : JP Z, nn
0xCA: func(s *Z80Type) {
0xCA: func(s *Z80) {
s.doConditionalAbsoluteJump(s.Flags.Z)
},
// 0xcb : CB Prefix
0xCB: func(s *Z80Type) {
0xCB: func(s *Z80) {
s.opcodeCB()
},
// 0xcc : CALL Z, nn
0xCC: func(s *Z80Type) {
0xCC: func(s *Z80) {
s.doConditionalCall(s.Flags.Z)
},
// 0xcd : CALL nn
0xCD: func(s *Z80Type) {
0xCD: func(s *Z80) {
s.pushWord(s.PC + 3)
s.PC = uint16(s.core.MemRead(s.PC+1)) | (uint16(s.core.MemRead(s.PC+2)) << 8)
s.PC--
},
// 0xce : ADC A, n
0xCE: func(s *Z80Type) {
0xCE: func(s *Z80) {
s.PC++
s.doAdc(s.core.MemRead(s.PC))
},
// 0xcf : RST 08h
0xCF: func(s *Z80Type) {
0xCF: func(s *Z80) {
s.doReset(0x0008)
},
// 0xd0 : RET NC
0xD0: func(s *Z80Type) {
0xD0: func(s *Z80) {
s.doConditionalReturn(!s.Flags.C)
},
// 0xd1 : POP DE
0xD1: func(s *Z80Type) {
0xD1: func(s *Z80) {
result := s.PopWord()
s.E = byte(result & 0xff)
s.D = byte((result & 0xff00) >> 8)
},
// 0xd2 : JP NC, nn
0xD2: func(s *Z80Type) {
0xD2: func(s *Z80) {
s.doConditionalAbsoluteJump(!s.Flags.C)
},
// 0xd3 : OUT (n), A
0xD3: func(s *Z80Type) {
0xD3: func(s *Z80) {
s.PC++
s.core.IOWrite((uint16(s.A)<<8)|uint16(s.core.MemRead(s.PC)), s.A)
},
// 0xd4 : CALL NC, nn
0xD4: func(s *Z80Type) {
0xD4: func(s *Z80) {
s.doConditionalCall(!s.Flags.C)
},
// 0xd5 : PUSH DE
0xD5: func(s *Z80Type) {
0xD5: func(s *Z80) {
s.pushWord((uint16(s.D) << 8) | uint16(s.E))
},
// 0xd6 : SUB n
0xD6: func(s *Z80Type) {
0xD6: func(s *Z80) {
s.PC++
s.doSub(s.core.MemRead(s.PC))
},
// 0xd7 : RST 10h
0xD7: func(s *Z80Type) {
0xD7: func(s *Z80) {
s.doReset(0x0010)
},
// 0xd8 : RET C
0xD8: func(s *Z80Type) {
0xD8: func(s *Z80) {
s.doConditionalReturn(s.Flags.C)
},
// 0xd9 : EXX
0xD9: func(s *Z80Type) {
0xD9: func(s *Z80) {
s.B, s.BAlt = s.BAlt, s.B
s.C, s.CAlt = s.CAlt, s.C
s.D, s.DAlt = s.DAlt, s.D
@ -476,47 +476,47 @@ var instructions = []func(s *Z80Type){
s.L, s.LAlt = s.LAlt, s.L
},
// 0xda : JP C, nn
0xDA: func(s *Z80Type) {
0xDA: func(s *Z80) {
s.doConditionalAbsoluteJump(s.Flags.C)
},
// 0xdb : IN A, (n)
0xDB: func(s *Z80Type) {
0xDB: func(s *Z80) {
s.PC++
s.A = s.core.IORead((uint16(s.A) << 8) | uint16(s.core.MemRead(s.PC)))
},
// 0xdc : CALL C, nn
0xDC: func(s *Z80Type) {
0xDC: func(s *Z80) {
s.doConditionalCall(s.Flags.C)
},
// 0xdd : DD Prefix (IX instructions)
0xDD: func(s *Z80Type) {
0xDD: func(s *Z80) {
s.opcodeDD()
},
// 0xde : SBC n
0xDE: func(s *Z80Type) {
0xDE: func(s *Z80) {
s.PC++
s.doSbc(s.core.MemRead(s.PC))
},
// 0xdf : RST 18h
0xDF: func(s *Z80Type) {
0xDF: func(s *Z80) {
s.doReset(0x0018)
},
// 0xe0 : RET PO
0xE0: func(s *Z80Type) {
0xE0: func(s *Z80) {
s.doConditionalReturn(!s.Flags.P)
},
// 0xe1 : POP HL
0xE1: func(s *Z80Type) {
0xE1: func(s *Z80) {
result := s.PopWord()
s.L = byte(result & 0xff)
s.H = byte((result & 0xff00) >> 8)
},
// 0xe2 : JP PO, (nn)
0xE2: func(s *Z80Type) {
0xE2: func(s *Z80) {
s.doConditionalAbsoluteJump(!s.Flags.P)
},
// 0xe3 : EX (SP), HL
0xE3: func(s *Z80Type) {
0xE3: func(s *Z80) {
temp := s.core.MemRead(s.SP)
s.core.MemWrite(s.SP, s.L)
s.L = temp
@ -525,130 +525,130 @@ var instructions = []func(s *Z80Type){
s.H = temp
},
// 0xe4 : CALL PO, nn
0xE4: func(s *Z80Type) {
0xE4: func(s *Z80) {
s.doConditionalCall(!s.Flags.P)
},
// 0xe5 : PUSH HL
0xE5: func(s *Z80Type) {
0xE5: func(s *Z80) {
s.pushWord((uint16(s.H) << 8) | uint16(s.L))
},
// 0xe6 : AND n
0xE6: func(s *Z80Type) {
0xE6: func(s *Z80) {
s.PC++
s.doAnd(s.core.MemRead(s.PC))
},
// 0xe7 : RST 20h
0xE7: func(s *Z80Type) {
0xE7: func(s *Z80) {
s.doReset(0x0020)
},
// 0xe8 : RET PE
0xE8: func(s *Z80Type) {
0xE8: func(s *Z80) {
s.doConditionalReturn(s.Flags.P)
},
// 0xe9 : JP (HL)
0xE9: func(s *Z80Type) {
0xE9: func(s *Z80) {
s.PC = uint16(s.H)<<8 | uint16(s.L)
s.PC--
},
// 0xea : JP PE, nn
0xEA: func(s *Z80Type) {
0xEA: func(s *Z80) {
s.doConditionalAbsoluteJump(s.Flags.P)
},
// 0xeb : EX DE, HL
0xEB: func(s *Z80Type) {
0xEB: func(s *Z80) {
s.D, s.H = s.H, s.D
s.E, s.L = s.L, s.E
},
// 0xec : CALL PE, nn
0xEC: func(s *Z80Type) {
0xEC: func(s *Z80) {
s.doConditionalCall(s.Flags.P)
},
// 0xed : ED Prefix
0xED: func(s *Z80Type) {
0xED: func(s *Z80) {
s.opcodeED()
},
// 0xee : XOR n
0xEE: func(s *Z80Type) {
0xEE: func(s *Z80) {
s.PC++
s.doXor(s.core.MemRead(s.PC))
},
// 0xef : RST 28h
0xEF: func(s *Z80Type) {
0xEF: func(s *Z80) {
s.doReset(0x0028)
},
// 0xf0 : RET P
0xF0: func(s *Z80Type) {
0xF0: func(s *Z80) {
s.doConditionalReturn(!s.Flags.S)
},
// 0xf1 : POP AF
0xF1: func(s *Z80Type) {
0xF1: func(s *Z80) {
var result = s.PopWord()
s.setFlagsRegister(byte(result & 0xff))
s.A = byte((result & 0xff00) >> 8)
},
// 0xf2 : JP P, nn
0xF2: func(s *Z80Type) {
0xF2: func(s *Z80) {
s.doConditionalAbsoluteJump(!s.Flags.S)
},
// 0xf3 : DI
0xF3: func(s *Z80Type) {
0xF3: func(s *Z80) {
// DI doesn't actually take effect until after the next instruction.
s.DoDelayedDI = true
},
// 0xf4 : CALL P, nn
0xF4: func(s *Z80Type) {
0xF4: func(s *Z80) {
s.doConditionalCall(!s.Flags.S)
},
// 0xf5 : PUSH AF
0xF5: func(s *Z80Type) {
0xF5: func(s *Z80) {
s.pushWord(uint16(s.getFlagsRegister()) | (uint16(s.A) << 8))
},
// 0xf6 : OR n
0xF6: func(s *Z80Type) {
0xF6: func(s *Z80) {
s.PC++
s.doOr(s.core.MemRead(s.PC))
},
// 0xf7 : RST 30h
0xF7: func(s *Z80Type) {
0xF7: func(s *Z80) {
s.doReset(0x0030)
},
// 0xf8 : RET M
0xF8: func(s *Z80Type) {
0xF8: func(s *Z80) {
s.doConditionalReturn(s.Flags.S)
},
// 0xf9 : LD SP, HL
0xF9: func(s *Z80Type) {
0xF9: func(s *Z80) {
s.SP = uint16(s.H)<<8 | uint16(s.L)
},
// 0xfa : JP M, nn
0xFA: func(s *Z80Type) {
0xFA: func(s *Z80) {
s.doConditionalAbsoluteJump(s.Flags.S)
},
// 0xfb : EI
0xFB: func(s *Z80Type) {
0xFB: func(s *Z80) {
// EI doesn't actually take effect until after the next instruction.
s.DoDelayedEI = true
},
// 0xfc : CALL M, nn
0xFC: func(s *Z80Type) {
0xFC: func(s *Z80) {
s.doConditionalCall(s.Flags.S)
},
// 0xfd : FD Prefix (IY instructions)
0xFD: func(s *Z80Type) {
0xFD: func(s *Z80) {
s.opcodeFD()
},
// 0xfe : CP n
0xFE: func(s *Z80Type) {
0xFE: func(s *Z80) {
s.PC++
s.doCp(s.core.MemRead(s.PC))
},
// 0xff : RST 38h
0xFF: func(s *Z80Type) {
0xFF: func(s *Z80) {
s.doReset(0x0038)
},
}
func (z *Z80Type) nextWord() uint16 {
func (z *Z80) nextWord() uint16 {
z.PC++
word := uint16(z.core.MemRead(z.PC))
z.PC++

4
z80em/opcodeCB.go → z80/js/opcodeCB.go
View File

@ -1,6 +1,6 @@
package z80em
package js
func (z *Z80Type) opcodeCB() {
func (z *Z80) opcodeCB() {
z.incR()
z.PC++
opcode := z.core.M1MemRead(z.PC)

182
z80em/opcodeDD.go → z80/js/opcodeDD.go
View File

@ -1,361 +1,361 @@
package z80em
package js
var ddInstructions = []func(s *Z80Type){
var ddInstructions = []func(s *Z80){
// 0x09 : ADD IX, BC
0x09: func(s *Z80Type) {
0x09: func(s *Z80) {
s.doIxAdd(s.bc())
},
// 0x19 : ADD IX, DE
0x19: func(s *Z80Type) {
0x19: func(s *Z80) {
s.doIxAdd(s.de())
},
// 0x21 : LD IX, nn
0x21: func(s *Z80Type) {
0x21: func(s *Z80) {
s.IX = s.nextWord()
},
// 0x22 : LD (nn), IX
0x22: func(s *Z80Type) {
0x22: func(s *Z80) {
s.setWord(s.nextWord(), s.IX)
},
// 0x23 : INC IX
0x23: func(s *Z80Type) {
0x23: func(s *Z80) {
s.IX++
},
// 0x24 : INC IXH (Undocumented)
0x24: func(s *Z80Type) {
0x24: func(s *Z80) {
s.IX = (uint16(s.doInc(byte(s.IX>>8))) << 8) | (s.IX & 0x00ff)
},
// 0x25 : DEC IXH (Undocumented)
0x25: func(s *Z80Type) {
0x25: func(s *Z80) {
s.IX = (uint16(s.doDec(byte(s.IX>>8))) << 8) | (s.IX & 0x00ff)
},
// 0x26 : LD IXH, n (Undocumented)
0x26: func(s *Z80Type) {
0x26: func(s *Z80) {
s.PC++
s.IX = (uint16(s.core.MemRead(s.PC)) << 8) | (s.IX & 0x00ff)
},
// 0x29 : ADD IX, IX
0x29: func(s *Z80Type) {
0x29: func(s *Z80) {
s.doIxAdd(s.IX)
},
// 0x2a : LD IX, (nn)
0x2A: func(s *Z80Type) {
0x2A: func(s *Z80) {
s.IX = s.getWord(s.nextWord())
},
// 0x2b : DEC IX
0x2B: func(s *Z80Type) {
0x2B: func(s *Z80) {
s.IX--
},
// 0x2c : INC IXL (Undocumented)
0x2C: func(s *Z80Type) {
0x2C: func(s *Z80) {
s.IX = (uint16(s.doInc(byte(s.IX & 0x00ff)))) | (s.IX & 0xff00)
},
// 0x2d : DEC IXL (Undocumented)
0x2D: func(s *Z80Type) {
0x2D: func(s *Z80) {
s.IX = (uint16(s.doDec(byte(s.IX & 0x00ff)))) | (s.IX & 0xff00)
},
// 0x2e : LD IXL, n (Undocumented)
0x2E: func(s *Z80Type) {
0x2E: func(s *Z80) {
s.PC++
s.IX = (uint16(s.core.MemRead(s.PC))) | (s.IX & 0xff00)
},
// 0x34 : INC (IX+n)
0x34: func(s *Z80Type) {
0x34: func(s *Z80) {
offset := s.getOffset(s.IX)
value := s.core.MemRead(offset)
s.core.MemWrite(offset, s.doInc(value))
},
// 0x35 : DEC (IX+n)
0x35: func(s *Z80Type) {
0x35: func(s *Z80) {
offset := s.getOffset(s.IX)
value := s.core.MemRead(offset)
s.core.MemWrite(offset, s.doDec(value))
},
// 0x36 : LD (IX+n), n
0x36: func(s *Z80Type) {
0x36: func(s *Z80) {
offset := s.getOffset(s.IX)
s.PC++
s.core.MemWrite(offset, s.core.MemRead(s.PC))
},
// 0x39 : ADD IX, SP
0x39: func(s *Z80Type) {
0x39: func(s *Z80) {
s.doIxAdd(s.SP)
},
// 0x44 : LD B, IXH (Undocumented)
0x44: func(s *Z80Type) {
0x44: func(s *Z80) {
s.B = byte(s.IX >> 8)
},
// 0x45 : LD B, IXL (Undocumented)
0x45: func(s *Z80Type) {
0x45: func(s *Z80) {
s.B = byte(s.IX & 0x00ff)
},
// 0x46 : LD B, (IX+n)
0x46: func(s *Z80Type) {
0x46: func(s *Z80) {
s.B = s.core.MemRead(s.getOffset(s.IX))
},
// 0x4c : LD C, IXH (Undocumented)
0x4C: func(s *Z80Type) {
0x4C: func(s *Z80) {
s.C = byte(s.IX >> 8)
},
// 0x4d : LD C, IXL (Undocumented)
0x4D: func(s *Z80Type) {
0x4D: func(s *Z80) {
s.C = byte(s.IX & 0x00ff)
},
// 0x4e : LD C, (IX+n)
0x4E: func(s *Z80Type) {
0x4E: func(s *Z80) {
s.C = s.core.MemRead(s.getOffset(s.IX))
},
// 0x54 : LD D, IXH (Undocumented)
0x54: func(s *Z80Type) {
0x54: func(s *Z80) {
s.D = byte(s.IX >> 8)
},
// 0x55 : LD D, IXL (Undocumented)
0x55: func(s *Z80Type) {
0x55: func(s *Z80) {
s.D = byte(s.IX)
},
// 0x56 : LD D, (IX+n)
0x56: func(s *Z80Type) {
0x56: func(s *Z80) {
offset := s.getOffset(s.IX)
s.D = s.core.MemRead(offset)
},
// 0x5d : LD E, IXL (Undocumented)
0x5D: func(s *Z80Type) {
0x5D: func(s *Z80) {
s.E = byte(s.IX)
},
// 0x5e : LD E, (IX+n)
0x5E: func(s *Z80Type) {
0x5E: func(s *Z80) {
s.E = s.core.MemRead(s.getOffset(s.IX))
},
// 0x60 : LD IXH, B (Undocumented)
0x60: func(s *Z80Type) {
0x60: func(s *Z80) {
s.IX = uint16(s.B)<<8 | s.IX&0x00ff
},
// 0x61 : LD IXH, C (Undocumented)
0x61: func(s *Z80Type) {
0x61: func(s *Z80) {
s.IX = uint16(s.C)<<8 | s.IX&0x00ff
},
// 0x62 : LD IXH, D (Undocumented)
0x62: func(s *Z80Type) {
0x62: func(s *Z80) {
s.IX = uint16(s.D)<<8 | s.IX&0x00ff
},
// 0x63 : LD IXH, E (Undocumented)
0x63: func(s *Z80Type) {
0x63: func(s *Z80) {
s.IX = uint16(s.E)<<8 | s.IX&0x00ff
},
// 0x64 : LD IXH, IXH (Undocumented)
0x64: func(s *Z80Type) {
0x64: func(s *Z80) {
// NOP
},
// 0x65 : LD IXH, IXL (Undocumented)
0x65: func(s *Z80Type) {
0x65: func(s *Z80) {
s.IX = (s.IX << 8) | (s.IX & 0x00ff)
},
// 0x66 : LD H, (IX+n)
0x66: func(s *Z80Type) {
0x66: func(s *Z80) {
s.H = s.core.MemRead(s.getOffset(s.IX))
},
// 0x67 : LD IXH, A (Undocumented)
0x67: func(s *Z80Type) {
0x67: func(s *Z80) {
s.IX = (uint16(s.A) << 8) | (s.IX & 0x00ff)
},
// 0x68 : LD IXL, B (Undocumented)
0x68: func(s *Z80Type) {
0x68: func(s *Z80) {
s.IX = (s.IX & 0xff00) | uint16(s.B)
},
// 0x69 : LD IXL, C (Undocumented)
0x69: func(s *Z80Type) {
0x69: func(s *Z80) {
s.IX = (s.IX & 0xff00) | uint16(s.C)
},
// 0x6a : LD IXL, D (Undocumented)
0x6a: func(s *Z80Type) {
0x6a: func(s *Z80) {
s.IX = (s.IX & 0xff00) | uint16(s.D)
},
// 0x6b : LD IXL, E (Undocumented)
0x6b: func(s *Z80Type) {
0x6b: func(s *Z80) {
s.IX = (s.IX & 0xff00) | uint16(s.E)
},
// 0x6c : LD IXL, IXH (Undocumented)
0x6c: func(s *Z80Type) {
0x6c: func(s *Z80) {
s.IX = (s.IX >> 8) | (s.IX & 0xff00)
},
// 0x6d : LD IXL, IXL (Undocumented)
0x6d: func(s *Z80Type) {
0x6d: func(s *Z80) {
// NOP
},
// 0x6e : LD L, (IX+n)
0x6e: func(s *Z80Type) {
0x6e: func(s *Z80) {
s.L = s.core.MemRead(s.getOffset(s.IX))
},
// 0x6f : LD IXL, A (Undocumented)
0x6f: func(s *Z80Type) {
0x6f: func(s *Z80) {
s.IX = uint16(s.A) | (s.IX & 0xff00)
},
// 0x70 : LD (IX+n), B
0x70: func(s *Z80Type) {
0x70: func(s *Z80) {
s.core.MemWrite(s.getOffset(s.IX), s.B)
},
// 0x71 : LD (IX+n), C
0x71: func(s *Z80Type) {
0x71: func(s *Z80) {
s.core.MemWrite(s.getOffset(s.IX), s.C)
},
// 0x72 : LD (IX+n), D
0x72: func(s *Z80Type) {
0x72: func(s *Z80) {
s.core.MemWrite(s.getOffset(s.IX), s.D)
},
// 0x73 : LD (IX+n), E
0x73: func(s *Z80Type) {
0x73: func(s *Z80) {
s.core.MemWrite(s.getOffset(s.IX), s.E)
},
// 0x74 : LD (IX+n), H
0x74: func(s *Z80Type) {
0x74: func(s *Z80) {
s.core.MemWrite(s.getOffset(s.IX), s.H)
},
// 0x75 : LD (IX+n), L
0x75: func(s *Z80Type) {
0x75: func(s *Z80) {
s.core.MemWrite(s.getOffset(s.IX), s.L)
},
// 0x77 : LD (IX+n), A
0x77: func(s *Z80Type) {
0x77: func(s *Z80) {
s.core.MemWrite(s.getOffset(s.IX), s.A)
},
// 0x7c : LD A, IXH (Undocumented)
0x7C: func(s *Z80Type) {
0x7C: func(s *Z80) {
s.A = byte(s.IX >> 8)
},
// 0x7d : LD A, IXL (Undocumented)
0x7D: func(s *Z80Type) {
0x7D: func(s *Z80) {
s.A = byte(s.IX & 0x00ff)
},
// 0x7e : LD A, (IX+n)
0x7E: func(s *Z80Type) {
0x7E: func(s *Z80) {
s.A = s.core.MemRead(s.getOffset(s.IX))
},
// 0x84 : ADD A, IXH (Undocumented)
0x84: func(s *Z80Type) {
0x84: func(s *Z80) {
s.doAdd(byte(s.IX >> 8))
},
// 0x85 : ADD A, IXL (Undocumented)
0x85: func(s *Z80Type) {
0x85: func(s *Z80) {
s.doAdd(byte(s.IX))
},
// 0x86 : ADD A, (IX+n)
0x86: func(s *Z80Type) {
0x86: func(s *Z80) {
s.doAdd(s.core.MemRead(s.getOffset(s.IX)))
},
// 0x8c : ADC A, IXH (Undocumented)
0x8C: func(s *Z80Type) {
0x8C: func(s *Z80) {
s.doAdc(byte(s.IX >> 8))
},
// 0x8d : ADC A, IXL (Undocumented)
0x8D: func(s *Z80Type) {
0x8D: func(s *Z80) {
s.doAdc(byte(s.IX))
},
// 0x8e : ADC A, (IX+n)
0x8E: func(s *Z80Type) {
0x8E: func(s *Z80) {
s.doAdc(s.core.MemRead(s.getOffset(s.IX)))
},
// 0x94 : SUB IXH (Undocumented)
0x94: func(s *Z80Type) {
0x94: func(s *Z80) {
s.doSub(byte(s.IX >> 8))
},
// 0x95 : SUB IXL (Undocumented)
0x95: func(s *Z80Type) {
0x95: func(s *Z80) {
s.doSub(byte(s.IX))
},
// 0x96 : SUB A, (IX+n)
0x96: func(s *Z80Type) {
0x96: func(s *Z80) {
s.doSub(s.core.MemRead(s.getOffset(s.IX)))
},
// 0x9c : SBC IXH (Undocumented)
0x9C: func(s *Z80Type) {
0x9C: func(s *Z80) {
s.doSbc(byte(s.IX >> 8))
},
// 0x9d : SBC IXL (Undocumented)
0x9D: func(s *Z80Type) {
0x9D: func(s *Z80) {
s.doSbc(byte(s.IX))
},
// 0x9e : SBC A, (IX+n)
0x9E: func(s *Z80Type) {
0x9E: func(s *Z80) {
s.doSbc(s.core.MemRead(s.getOffset(s.IX)))
},
// 0xa4 : AND IXH (Undocumented)
0xA4: func(s *Z80Type) {
0xA4: func(s *Z80) {
s.doAnd(byte(s.IX >> 8))
},
// 0xa5 : AND IXL (Undocumented)
0xA5: func(s *Z80Type) {
0xA5: func(s *Z80) {
s.doAnd(byte(s.IX))
},
// 0xa6 : AND A, (IX+n)
0xA6: func(s *Z80Type) {
0xA6: func(s *Z80) {
s.doAnd(s.core.MemRead(s.getOffset(s.IX)))
},
// 0xac : XOR IXH (Undocumented)
0xAC: func(s *Z80Type) {
0xAC: func(s *Z80) {
s.doXor(byte(s.IX >> 8))
},
// 0xad : XOR IXL (Undocumented)
0xAD: func(s *Z80Type) {
0xAD: func(s *Z80) {
s.doXor(byte(s.IX))
},
// 0xae : XOR A, (IX+n)
0xAE: func(s *Z80Type) {
0xAE: func(s *Z80) {
s.doXor(s.core.MemRead(s.getOffset(s.IX)))
},
// 0xb4 : OR IXH (Undocumented)
0xB4: func(s *Z80Type) {
0xB4: func(s *Z80) {
s.doOr(byte(s.IX >> 8))
},
// 0xb5 : OR IXL (Undocumented)
0xB5: func(s *Z80Type) {
0xB5: func(s *Z80) {
s.doOr(byte(s.IX))
},
// 0xb6 : OR A, (IX+n)
0xB6: func(s *Z80Type) {
0xB6: func(s *Z80) {
s.doOr(s.core.MemRead(s.getOffset(s.IX)))
},
// 0xbc : CP IXH (Undocumented)
0xBC: func(s *Z80Type) {
0xBC: func(s *Z80) {
s.doCp(byte(s.IX >> 8))
},
// 0xbd : CP IXL (Undocumented)
0xBD: func(s *Z80Type) {
0xBD: func(s *Z80) {
s.doCp(byte(s.IX))
},
// 0xbe : CP A, (IX+n)
0xBE: func(s *Z80Type) {
0xBE: func(s *Z80) {
s.doCp(s.core.MemRead(s.getOffset(s.IX)))
},
// 0xcb : CB Prefix (IX bit instructions)
0xCB: func(s *Z80Type) {
0xCB: func(s *Z80) {
s.opcodeDDCB()
},
// 0xe1 : POP IX
0xE1: func(s *Z80Type) {
0xE1: func(s *Z80) {
s.IX = s.PopWord()
},
// 0xe3 : EX (SP), IX
0xE3: func(s *Z80Type) {
0xE3: func(s *Z80) {
ix := s.IX
s.IX = s.getWord(s.SP)
s.setWord(s.SP, ix)
},
// 0xe5 : PUSH IX
0xE5: func(s *Z80Type) {
0xE5: func(s *Z80) {
s.pushWord(s.IX)
},
// 0xe9 : JP (IX)
0xE9: func(s *Z80Type) {
0xE9: func(s *Z80) {
s.PC = s.IX - 1
},
// 0xf9 : LD SP, IX
0xf9: func(s *Z80Type) {
0xf9: func(s *Z80) {
s.SP = s.IX
},
}
// =====================================================
func (z *Z80Type) getOffset(reg uint16) uint16 {
func (z *Z80) getOffset(reg uint16) uint16 {
z.PC++
offset := z.core.MemRead(z.PC)
if offset < 0 {
@ -366,7 +366,7 @@ func (z *Z80Type) getOffset(reg uint16) uint16 {
return reg
}
func (z *Z80Type) opcodeDD() {
func (z *Z80) opcodeDD() {
z.incR()
z.PC++
opcode := z.core.M1MemRead(z.PC)
@ -387,7 +387,7 @@ func (z *Z80Type) opcodeDD() {
}
}
func (z *Z80Type) opcodeDDCB() {
func (z *Z80) opcodeDDCB() {
offset := z.getOffset(z.IX)
z.PC++
@ -456,7 +456,7 @@ func (z *Z80Type) opcodeDDCB() {
}
// opcodeFD do same for IY as for IX (DD prefix)
func (z *Z80Type) opcodeFD() {
func (z *Z80) opcodeFD() {
z.incR()
z.PC++
opcode := z.core.M1MemRead(z.PC)

166
z80em/opcodeED.go → z80/js/opcodeED.go
View File

@ -1,182 +1,182 @@
package z80em
package js
var edInstructions = []func(s *Z80Type){
var edInstructions = []func(s *Z80){
// 0x40 : IN B, (C)
0x40: func(s *Z80Type) {
0x40: func(s *Z80) {
s.B = s.doIn(s.bc())
},
// 0x41 : OUT (C), B
0x41: func(s *Z80Type) {
0x41: func(s *Z80) {
s.core.IOWrite(s.bc(), s.B)
},
// 0x42 : SBC HL, BC
0x42: func(s *Z80Type) {
0x42: func(s *Z80) {
s.doHlSbc(s.bc())
},
// 0x43 : LD (nn), BC
0x43: func(s *Z80Type) {
0x43: func(s *Z80) {
s.setWord(s.nextWord(), s.bc())
},
// 0x44 : NEG
0x44: func(s *Z80Type) {
0x44: func(s *Z80) {
s.doNeg()
},
// 0x45 : RETN
0x45: func(s *Z80Type) {
0x45: func(s *Z80) {
s.PC = s.PopWord() - 1
s.Iff1 = s.Iff2
},
// 0x46 : IM 0
0x46: func(s *Z80Type) {
0x46: func(s *Z80) {
s.IMode = 0
},
// 0x47 : LD I, A
0x47: func(s *Z80Type) {
0x47: func(s *Z80) {
s.I = s.A
},
// 0x48 : IN C, (C)
0x48: func(s *Z80Type) {
0x48: func(s *Z80) {
s.C = s.doIn(s.bc())
},
// 0x49 : OUT (C), C
0x49: func(s *Z80Type) {
0x49: func(s *Z80) {
s.core.IOWrite(s.bc(), s.C)
},
// 0x4a : ADC HL, BC
0x4A: func(s *Z80Type) {
0x4A: func(s *Z80) {
s.doHlAdc(s.bc())
},
// 0x4b : LD BC, (nn)
0x4B: func(s *Z80Type) {
0x4B: func(s *Z80) {
s.setBc(s.getWord(s.nextWord()))
},
// 0x4c : NEG (Undocumented)
0x4C: func(s *Z80Type) {
0x4C: func(s *Z80) {
s.doNeg()
},
// 0x4d : RETI
0x4D: func(s *Z80Type) {
0x4D: func(s *Z80) {
s.PC = s.PopWord() - 1
},
// 0x4e : IM 0 (Undocumented)
0x4E: func(s *Z80Type) {
0x4E: func(s *Z80) {
s.IMode = 0
},
// 0x4f : LD R, A
0x4F: func(s *Z80Type) {
0x4F: func(s *Z80) {
s.R = s.A
},
// 0x50 : IN D, (C)
0x50: func(s *Z80Type) {
0x50: func(s *Z80) {
s.D = s.doIn(s.bc())
},
// 0x51 : OUT (C), D
0x51: func(s *Z80Type) {
0x51: func(s *Z80) {
s.core.IOWrite(s.bc(), s.D)
},
// 0x52 : SBC HL, DE
0x52: func(s *Z80Type) {
0x52: func(s *Z80) {
s.doHlSbc(s.de())
},
// 0x53 : LD (nn), DE
0x53: func(s *Z80Type) {
0x53: func(s *Z80) {
s.setWord(s.nextWord(), s.de())
},
// 0x54 : NEG (Undocumented)
0x54: func(s *Z80Type) {
0x54: func(s *Z80) {
s.doNeg()
},
// 0x55 : RETN
0x55: func(s *Z80Type) {
0x55: func(s *Z80) {
s.PC = s.PopWord() - 1
s.Iff1 = s.Iff2
},
// 0x56 : IM 1
0x56: func(s *Z80Type) {
0x56: func(s *Z80) {
s.IMode = 1
},
// 0x57 : LD A, I
0x57: func(s *Z80Type) {
0x57: func(s *Z80) {
s.A = s.I
s.Flags.S = s.A&0x80 != 0
s.Flags.Z = s.A == 0
s.Flags.H = false
s.Flags.P = s.Iff2 != 0
s.Flags.P = s.Iff2
s.Flags.N = false
s.updateXYFlags(s.A)
},
// 0x58 : IN E, (C)
0x58: func(s *Z80Type) {
0x58: func(s *Z80) {
s.E = s.doIn(s.bc())
},
// 0x59 : OUT (C), E
0x59: func(s *Z80Type) {
0x59: func(s *Z80) {
s.core.IOWrite(s.bc(), s.E)
},
// 0x5a : ADC HL, DE
0x5A: func(s *Z80Type) {
0x5A: func(s *Z80) {
s.doHlAdc(s.de())
},
// 0x5b : LD DE, (nn)
0x5B: func(s *Z80Type) {
0x5B: func(s *Z80) {
s.setDe(s.getWord(s.nextWord()))
},
// 0x5c : NEG (Undocumented)
0x5C: func(s *Z80Type) {
0x5C: func(s *Z80) {
s.doNeg()
},
// 0x5d : RETN
0x5D: func(s *Z80Type) {
0x5D: func(s *Z80) {
s.PC = s.PopWord() - 1
s.Iff1 = s.Iff2
},
// 0x5e : IM 2
0x5E: func(s *Z80Type) {
0x5E: func(s *Z80) {
s.IMode = 2
},
// 0x5f : LD A, R
0x5F: func(s *Z80Type) {
0x5F: func(s *Z80) {
s.A = s.R
s.Flags.S = s.A&0x80 != 0
s.Flags.Z = s.A == 0
s.Flags.H = false
s.Flags.P = s.Iff2 != 0
s.Flags.P = s.Iff2
s.Flags.N = false
s.updateXYFlags(s.A)
},
// 0x60 : IN H, (C)
0x60: func(s *Z80Type) {
0x60: func(s *Z80) {
s.H = s.doIn(s.bc())
},
// 0x61 : OUT (C), H
0x61: func(s *Z80Type) {
0x61: func(s *Z80) {
s.core.IOWrite(s.bc(), s.H)
},
// 0x62 : SBC HL, HL
0x62: func(s *Z80Type) {
0x62: func(s *Z80) {
s.doHlSbc(s.hl())
},
// 0x63 : LD (nn), HL (Undocumented)
0x63: func(s *Z80Type) {
0x63: func(s *Z80) {
s.setWord(s.nextWord(), s.hl())
},
// 0x64 : NEG (Undocumented)
0x64: func(s *Z80Type) {
0x64: func(s *Z80) {
s.doNeg()
},
// 0x65 : RETN
0x65: func(s *Z80Type) {
0x65: func(s *Z80) {
s.PC = s.PopWord() - 1
s.Iff1 = s.Iff2
},
// 0x66 : IM 0
0x66: func(s *Z80Type) {
0x66: func(s *Z80) {
s.IMode = 0
},
// 0x67 : RRD
0x67: func(s *Z80Type) {
0x67: func(s *Z80) {
hlValue := s.core.M1MemRead(s.hl())
temp1 := hlValue & 0x0f
temp2 := s.A & 0x0f
@ -192,36 +192,36 @@ var edInstructions = []func(s *Z80Type){
},
// 0x68 : IN L, (C)
0x68: func(s *Z80Type) {
0x68: func(s *Z80) {
s.L = s.doIn(s.bc())
},
// 0x69 : OUT (C), L
0x69: func(s *Z80Type) {
0x69: func(s *Z80) {
s.core.IOWrite(s.bc(), s.L)
},
// 0x6a : ADC HL, HL
0x6A: func(s *Z80Type) {
0x6A: func(s *Z80) {
s.doHlAdc(s.hl())
},
// 0x6b : LD HL, (nn) (Undocumented)
0x6B: func(s *Z80Type) {
0x6B: func(s *Z80) {
s.setHl(s.getWord(s.nextWord()))
},
// 0x6C : NEG (Undocumented)
0x6C: func(s *Z80Type) {
0x6C: func(s *Z80) {
s.doNeg()
},
// 0x6D : RETN
0x6D: func(s *Z80Type) {
0x6D: func(s *Z80) {
s.PC = s.PopWord() - 1
s.Iff1 = s.Iff2
},
// 0x6E : IM 0
0x6E: func(s *Z80Type) {
0x6E: func(s *Z80) {
s.IMode = 0
},
// 0x6f : RLD
0x6F: func(s *Z80Type) {
0x6F: func(s *Z80) {
hlValue := s.core.MemRead(s.hl())
temp1 := hlValue & 0xf0
temp2 := s.A & 0x0f
@ -237,97 +237,97 @@ var edInstructions = []func(s *Z80Type){
s.updateXYFlags(s.A)
},
// 0x70 : INF
0x70: func(s *Z80Type) {
0x70: func(s *Z80) {
s.doIn(s.bc())
},
// 0x71 : OUT (C), 0 (Undocumented)
0x71: func(s *Z80Type) {
0x71: func(s *Z80) {
s.core.IOWrite(s.bc(), 0)
},
// 0x72 : SBC HL, SP
0x72: func(s *Z80Type) {
0x72: func(s *Z80) {
s.doHlSbc(s.SP)
},
// 0x73 : LD (nn), SP
0x73: func(s *Z80Type) {
0x73: func(s *Z80) {
s.setWord(s.nextWord(), s.SP)
},
// 0x74 : NEG (Undocumented)
0x74: func(s *Z80Type) {
0x74: func(s *Z80) {
s.doNeg()
},
// 0x75 : RETN
0x75: func(s *Z80Type) {
0x75: func(s *Z80) {
s.PC = s.PopWord() - 1
s.Iff1 = s.Iff2
},
// 0x76 : IM 1
0x76: func(s *Z80Type) {
0x76: func(s *Z80) {
s.IMode = 1
},
// 0x78 : IN A, (C)
0x78: func(s *Z80Type) {
0x78: func(s *Z80) {
s.A = s.core.IORead(s.bc())
},
// 0x79 : OUT (C), A
0x79: func(s *Z80Type) {
0x79: func(s *Z80) {
s.core.IOWrite(s.bc(), s.A)
},
// 0x7a : ADC HL, SP
0x7A: func(s *Z80Type) {
0x7A: func(s *Z80) {
s.doHlAdc(s.SP)
},
// 0x7b : LD SP, (nn)
0x7B: func(s *Z80Type) {
0x7B: func(s *Z80) {
s.SP = s.getWord(s.nextWord())
},
// 0x7c : NEG (Undocumented)
0x7C: func(s *Z80Type) {
0x7C: func(s *Z80) {
s.doNeg()
},
// 0x7d : RETN
0x7D: func(s *Z80Type) {
0x7D: func(s *Z80) {
s.PC = s.PopWord() - 1
s.Iff1 = s.Iff2
},
// 0x7e : IM 2
0x7E: func(s *Z80Type) {
0x7E: func(s *Z80) {
s.IMode = 2
},
// 0xa0 : LDI
0xA0: func(s *Z80Type) {
0xA0: func(s *Z80) {
s.doLdi()
},
// 0xa1 : CPI
0xA1: func(s *Z80Type) {
0xA1: func(s *Z80) {
s.doCpi()
},
// 0xa2 : INI
0xA2: func(s *Z80Type) {
0xA2: func(s *Z80) {
s.doIni()
},
// 0xa3 : OUTI
0xA3: func(s *Z80Type) {
0xA3: func(s *Z80) {
s.doOuti()
},
// 0xa8 : LDD
0xA8: func(s *Z80Type) {
0xA8: func(s *Z80) {
s.doLdd()
},
// 0xa9 : CPD
0xA9: func(s *Z80Type) {
0xA9: func(s *Z80) {
s.doCpd()
},
// 0xaa : IND
0xAA: func(s *Z80Type) {
0xAA: func(s *Z80) {
s.doInd()
},
// 0xab : OUTD
0xAB: func(s *Z80Type) {
0xAB: func(s *Z80) {
s.doOutd()
},
// 0xb0 : LDIR
0xB0: func(s *Z80Type) {
0xB0: func(s *Z80) {
s.doLdi()
if (s.B | s.C) != 0 {
s.CycleCounter += 5
@ -335,7 +335,7 @@ var edInstructions = []func(s *Z80Type){
}
},
// 0xb1 : CPIR
0xB1: func(s *Z80Type) {
0xB1: func(s *Z80) {
s.doCpi()
if !s.Flags.Z && (s.B|s.C) != 0 {
s.CycleCounter += 5
@ -343,7 +343,7 @@ var edInstructions = []func(s *Z80Type){
}
},
// 0xb2 : INIR
0xB2: func(s *Z80Type) {
0xB2: func(s *Z80) {
s.doIni()
if s.B != 0 {
s.CycleCounter += 5
@ -351,7 +351,7 @@ var edInstructions = []func(s *Z80Type){
}
},
// 0xb3 : OTIR
0xB3: func(s *Z80Type) {
0xB3: func(s *Z80) {
s.doOuti()
if s.B != 0 {
s.CycleCounter += 5
@ -359,7 +359,7 @@ var edInstructions = []func(s *Z80Type){
}
},
// 0xb8 : LDDR
0xB8: func(s *Z80Type) {
0xB8: func(s *Z80) {
s.doLdd()
if (s.B | s.C) != 0 {
s.CycleCounter += 5
@ -367,7 +367,7 @@ var edInstructions = []func(s *Z80Type){
}
},
// 0xb9 : CPDR
0xB9: func(s *Z80Type) {
0xB9: func(s *Z80) {
s.doCpd()
if !s.Flags.Z && (s.B|s.C) != 0 {
s.CycleCounter += 5
@ -375,7 +375,7 @@ var edInstructions = []func(s *Z80Type){
}
},
// 0xba : INDR
0xBA: func(s *Z80Type) {
0xBA: func(s *Z80) {
s.doInd()
if s.B != 0 {
s.CycleCounter += 5
@ -383,7 +383,7 @@ var edInstructions = []func(s *Z80Type){
}
},
// 0xbb : OTDR
0xBB: func(s *Z80Type) {
0xBB: func(s *Z80) {
s.doOutd()
if s.B != 0 {
s.CycleCounter += 5
@ -392,7 +392,7 @@ var edInstructions = []func(s *Z80Type){
},
}
func (z *Z80Type) opcodeED() {
func (z *Z80) opcodeED() {
z.incR()
z.PC++