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- package main
-
- import (
- "fmt"
- "math"
- "os"
- // "sort"
- "strings"
- //"code.beefchicken.com/68kdisasm"
- "encoding/json"
- "path/filepath"
- )
-
- //var externs = make([]int, 0)
-
- type romInfo struct {
- Roms []struct {
- File string `json:"file"`
- Start string `json:"start"`
- End string `json:"end"`
- Version string `json:"version"`
- Device string `json:"device"`
- Checksum string `json:"checksum"`
- } `json:"roms"`
- Labels []struct {
- Address string `json:"address"`
- Label string `json:"label"`
- } `json:"labels"`
- }
-
- type memBlock struct {
- lowFile string
- highFile string
- start uint32
- end uint32
- }
-
- type output struct {
- mnemonic string
- operands string
- comment string
- }
-
- type call struct {
- function uint32
- instrAddr uint32
- computedAddr uint32
- targetAddr uint32
- native bool
- }
-
- func main() {
-
- if len(os.Args) < 2 {
- fmt.Printf("Usage: %s <path to rom directory>\n", os.Args[0])
- os.Exit(1)
- }
- romDir := os.Args[1]
- romMapFilename := filepath.Join(romDir, "map.json")
- info := &romInfo{}
-
- b, _ := os.ReadFile(romMapFilename)
-
- fmt.Printf("Loading ROM info from '%s'...\n", romMapFilename)
- err := json.Unmarshal(b, &info)
- if err != nil {
- fmt.Printf("unable to load rom map from '%s': %v\n", romMapFilename, err)
- os.Exit(1)
- }
-
- d := NewDisassembler()
-
- for _, rom := range info.Roms {
- var start, end uint32
- var checksum int
-
- _, err := fmt.Sscanf(rom.Start, "0x%X", &start)
- if err != nil {
- fmt.Printf("Unable to parse start address '%s' for rom '%s'!\n", rom.Start, rom.File)
- os.Exit(1)
- }
- _, err = fmt.Sscanf(rom.End, "0x%X", &end)
- if err != nil {
- fmt.Printf("Unable to parse end address '%s' for rom '%s'!\n", rom.End, rom.File)
- os.Exit(1)
- }
- _, err = fmt.Sscanf(rom.Checksum, "0x%X", &checksum)
- if err != nil {
- fmt.Printf("Unable to checksum '%s' for rom '%s'!\n", rom.Checksum, rom.File)
- os.Exit(1)
- }
- file := filepath.Join(romDir, rom.File)
- fmt.Printf("Loading '%s' (0x%06X-0x%06X)...\n", file, start, end)
- d.AddRom(file, start, end, checksum)
- }
-
- for _, label := range info.Labels {
-
- var address uint32
- _, err := fmt.Sscanf(label.Address, "0x%X", &address)
- if err != nil {
- fmt.Printf("Unable to parse address '%s' for label '%s!\n", label.Address, label.Label)
- os.Exit(1)
- }
- fmt.Printf("Adding label %s = 0x%06X\n", label.Label, address)
- d.AddLabel(address, label.Label)
-
- }
-
- // look for the two kinds of header functions and queue
- // the vm code up for disassembly
- queue := []uint32{} //0xe6d // 0xa0435 <- week // 0x00001631 <- WRNO FIX // 0x0009324d
- for _, block := range d.roms {
- for i := block.start; i <= block.end-3; i++ {
- inst := d.read32(i)
- if inst == 0x4EB82144 || inst == 0x4EB82164 || inst == 0x4EB82102 {
- queue = append(queue, i)
- }
- }
- }
-
- dests := make(map[uint32][]call)
-
- // first pass to gather all of the JSR.68Ks
- for _, addr := range queue {
- externs, _ := d.disassemble(addr, nil, true)
- for _, c := range externs {
- if !c.native {
- dests[c.targetAddr] = append(dests[c.targetAddr], c)
- }
- }
- }
-
- // disassemble with output
- for _, vpc := range queue {
- d.disassemble(vpc, dests, false)
- }
-
- }
-
- type disassembler struct {
- pc uint32
- labels map[uint32]string
- roms []*memBlock
- prog []byte
- caseStmts map[uint32]caseStmt
- }
-
- type caseStmt struct {
- switchAddr uint32
- keys []byte
- }
-
- func NewDisassembler() *disassembler {
- return &disassembler{
- labels: make(map[uint32]string),
- roms: make([]*memBlock, 0),
- prog: make([]byte, 0),
- caseStmts: make(map[uint32]caseStmt),
- }
- }
-
- func (d *disassembler) AddLabel(addr uint32, l string) {
- d.labels[addr] = l
- }
-
- func addx(x, y uint16, xf *uint16) uint16 {
- t := x + y + *xf
- if int(t) < int(x)+int(y)+int(*xf) {
- *xf = 1
- } else {
- *xf = 0
- }
- return t
- }
-
- func (d *disassembler) AddRom(file string, start uint32, end uint32, checksum int) error {
-
- if len(d.prog) < int(end)+1 {
- newProg := make([]byte, end+1)
- copy(newProg, d.prog)
- d.prog = newProg
- }
-
- b, err := os.ReadFile(file)
- if err != nil {
- return err
- }
-
- var cs uint16 = 0
- var cs2 uint16 = 0
-
- var xf uint16
-
- for i := 0; i < len(b); i++ {
- d.prog[int(start)+i*2] = b[i]
- if i < len(b)-4 {
- cs = addx(uint16(b[i]), cs, &xf)
- }
- cs2 += uint16(b[i])
- }
- cs = ^cs
-
- internalStoredChecksum := uint16(b[len(b)-1])<<8 + uint16(b[len(b)-2])
-
- fmt.Printf("%s INTERNAL CHECKSUM: GOT 0x%04X EXPECTED 0x%04X\n", file, cs, internalStoredChecksum)
- fmt.Printf("%s EXTERNAL CHECKSUM: GOT 0x%04X EXPECTED 0x%04X\n", file, cs2, checksum)
-
- // check if we've already loaded the pair for this rom
- var block *memBlock
- for _, rom := range d.roms {
- if start&0xFFFFFFFE == rom.start&0xFFFFFFFE {
- block = rom
- if start < block.start {
- block.start = start
- }
- if end > block.end {
- block.end = end
- }
- break
- }
- }
-
- if block == nil {
- // this is the first ROM of this pair, so create the block
- block = &memBlock{
- start: start,
- end: end,
- }
- d.roms = append(d.roms, block)
- }
-
- if start%2 == 0 {
- block.lowFile = file
- } else {
- block.highFile = file
- }
-
- return nil
- }
-
- func (d *disassembler) read8(addr uint32) byte {
- return d.prog[addr]
- }
-
- func (d *disassembler) read16(addr uint32) uint16 {
- return uint16(d.prog[addr])<<8 | uint16(d.prog[addr+1])
- }
-
- func (d *disassembler) read32(addr uint32) uint32 {
- return uint32(d.prog[addr])<<24 | uint32(d.prog[addr+1])<<16 | uint32(d.prog[addr+2])<<8 | uint32(d.prog[addr+3])
- }
-
- func (d *disassembler) readFloat64(addr uint32) float64 {
- return math.Float64frombits(d.read64(addr))
- }
-
- func (d *disassembler) read64(addr uint32) uint64 {
- var ret uint64
-
- ret |= uint64(d.prog[addr]) << 56
- ret |= uint64(d.prog[addr+1]) << 48
- ret |= uint64(d.prog[addr+2]) << 40
- ret |= uint64(d.prog[addr+3]) << 32
- ret |= uint64(d.prog[addr+4]) << 24
- ret |= uint64(d.prog[addr+5]) << 16
- ret |= uint64(d.prog[addr+6]) << 8
- ret |= uint64(d.prog[addr+7])
-
- return ret
- }
-
- func (d *disassembler) disassemble(start uint32, dests map[uint32][]call, silent bool) ([]call, error) {
-
- externs := make([]call, 0)
-
- signature := d.read32(start)
-
- var headerInfo string
-
- // 13fff = no branch
- // 14000 = branch
- // 14001 = branch
-
- if signature == 0x4EB82102 {
- if !silent {
- stackMax := 0x17fff
- vsp := stackMax + 1 - int(d.read16(start+4))
- if vsp < 0x14000 {
- vsp -= 0xc000
- }
-
- headerInfo = fmt.Sprintf("; A0 = $%06X; (A0) = $%04X; A6 = $%06X\n\n", 0x4000, vsp, vsp)
-
- // A0 = A6
- }
- d.pc = start + 6
- } else if signature == 0x4EB82144 {
- if !silent {
- a6 := 0
- a1 := a6 + int(d.read16(start+4)) - 1
- a0 := 0x4000 + (int(d.read8(start+6)) << 2)
-
- //(a0) = a1
- if a1 >= 0 {
- headerInfo = fmt.Sprintf("; A0 = $%06X; (A0) = SP + $%X\n\n", a0, a1)
- } else {
- headerInfo = fmt.Sprintf("; A0 = $%06X; (A0) = SP - $%X\n\n", a0, -a1)
- }
- }
- d.pc = start + 7
- } else if signature == 0x4EB82164 {
-
- // movea.l (SP)+,A5
- // move.w (A5)+,D0w
- // move.w (A5)+,D1w
- // moveq #0x0,D2
- // move.b (A5)+,D2b
- // lsl.w #0x2,D2w
- // movea.w #0x4000,A0
- // adda.w D2w,A0
- // move.l (A0),-(SP)=>DAT_00004000
- // move.w A0w,-(SP)=>local_2
- // movea.l A6,A1
- // adda.w D0w,A1
- // subq.l #0x1,A1
- // move.l A1,(A0)=>DAT_00004000
- // movea.l A6,A0
- // suba.w D1w,A6
- // tst.w D0w
- // beq.b LAB_00002196
- // movea.l A6,A1
- // lsr.w #0x1,D0w
- // subq.w #0x1,D0w
- // LAB_00002190
- // move.w (A0)+,(A1)+
- // dbf D0w,LAB_00002190
- // LAB_00002196
- // bra.w FUN_00002000
-
- if !silent {
- d0 := uint32(d.read16(start + 4))
- a6 := uint32(0)
- a1 := a6 + d0 - 1
- d1 := uint32(d.read16(start + 6))
- a0 := 0x4000 + (int(d.read8(start+8)) << 2)
-
- headerInfo = fmt.Sprintf("; P0 = $%04X; P1 = $%04X; P2 = $%02X\n", d.read16(start+4), d.read16(start+6), d.read8(start+8))
-
- if d0 > 0 {
- d0 = (d0 << 1) - 1
- }
-
- if a1 >= 0 {
- headerInfo += fmt.Sprintf("; A0 = $%06X; (A0) = A6 + $%X; D1 = $%06X\n\n", a0, a1, d1)
- } else {
- headerInfo += fmt.Sprintf("; A0 = $%06X; (A0) = A6 - $%X; D1 = $%06X\n\n", a0, -a1, d1)
- }
- }
- d.pc = start + 9
- }
-
- if !silent {
-
- fmt.Printf("\n; ---------------- Begin %04X Function $%06X ---------------- \n\n%s", signature&0xFFFF, start, headerInfo)
- for _, dest := range dests[start] {
- fmt.Printf("; called from $%06X:$%06X\n", dest.function, dest.instrAddr)
-
- }
-
- fmt.Printf("\n%6s %-14s %-8s\t%-20s%s\n\n", "; addr", "bytes", "opcode", "operands", "comment")
-
- }
-
- var err error
-
- for {
-
- instPC := d.pc
- inst := d.prog[d.pc]
- d.pc++
- o := output{}
-
- if cs, ok := d.caseStmts[instPC]; ok {
- if len(cs.keys) > 0 {
- o.mnemonic = fmt.Sprintf("CASE")
- o.comment = fmt.Sprintf("SWITCH $%06X", cs.switchAddr)
- keysStr := make([]string, len(cs.keys))
- for i, v := range cs.keys {
- keysStr[i] = fmt.Sprintf("$%02X", v)
- }
- o.operands = strings.Join(keysStr, ", ")
-
- d.pc += 1 + uint32(len(cs.keys))
- } else {
- o.mnemonic = fmt.Sprintf("DEFAULT")
- o.comment = fmt.Sprintf("SWITCH $%06X", cs.switchAddr)
- }
- delete(d.caseStmts, instPC)
- } else if inst == 0x01 {
- o.mnemonic = "NOP"
- } else if inst == 0x02 {
- o.mnemonic = "INLINE"
-
- if d.pc%2 != 0 {
- d.pc++
- }
- //startPC := d.pc
- machineCodeBytes := make([]byte, 0)
- for {
- machineCodeBytes = append(machineCodeBytes, d.prog[d.pc])
- if d.read16(d.pc) == 0x4e75 {
- machineCodeBytes = append(machineCodeBytes, d.prog[d.pc+1])
- d.pc += 2
- break
- }
- d.pc++
- }
-
- // bus := disasm.NewAddressBus(d.prog)
- // doneBytes := 0
- //
- // for {
- // s, n := disasm.Disassemble(disasm.M68K_CPU_TYPE_68000, int32(startPC+doneBytes), bus)
- // fmt.Println(s)
- // doneBytes+=int(n)
- // if doneBytes == len(machineCodeBytes) {
- // break
- // }
- // }
-
- //fmt.Printf("%d % 02X\n",len(machineCodeBytes),machineCodeBytes)
- o.operands = fmt.Sprintf("%d Bytes", len(machineCodeBytes)) //d.getOpr32())
- } else if inst == 0x03 {
- op := d.getOpr8()
- if op <= 0x30 {
- o, externs, err = d.handle2090(d.pc-2, op, externs)
- } else {
- err = fmt.Errorf("bad 0x03 instruction")
- }
- } else if inst >= 0x04 && inst <= 0x07 {
- o.mnemonic = "PUSH.10"
- o.operands = fmt.Sprintf("$%03X", d.getOpr10())
- } else if inst >= 0x08 && inst <= 0x0F {
- o.mnemonic = fmt.Sprintf("?_$%02X", inst)
- op1 := d.getOpr16()
- op2 := d.getOpr16()
-
- if inst&(1<<2) == 0 && d.prog[d.pc] == 0 {
- d.pc++
- o.operands = fmt.Sprintf("$%04X, $%04X, $0", op1, op2)
- } else {
- o.operands = fmt.Sprintf("$%04X, $%04X", op1, op2)
- }
-
- } else if inst >= 0x10 && inst <= 0x17 {
- o.mnemonic = "BR"
- jd := int(d.getSignedOpr11())
- o.operands = fmt.Sprintf("$%03X", jd)
- o.comment = fmt.Sprintf("=> $%06X", uint32(int(d.pc)+jd))
- } else if inst >= 0x18 && inst <= 0x1F {
- o.mnemonic = "BRZ"
- jd := int(d.getSignedOpr11())
- o.operands = fmt.Sprintf("$%03X", jd)
- o.comment = fmt.Sprintf("=> $%06X", uint32(int(d.pc)+jd))
- } else if inst >= 0x20 && inst <= 0x3F {
- o, externs, err = d.handle2090(d.pc-1, inst-0x20, externs)
- } else if inst >= 0x40 && inst <= 0x7f {
- o.mnemonic = "PUSH.6"
- o.operands = fmt.Sprintf("$%02X", d.getOpr6())
- } else if inst >= 0x80 && inst <= 0xFF {
- w := []string{"B", "W", "L", "F"}[inst&0x03]
-
- if (inst & 0x10) == 0 {
- o.mnemonic = fmt.Sprintf("READ.%s", w)
- } else {
- o.mnemonic = fmt.Sprintf("WRITE.%s", w)
- }
-
- if inst >= 0xc0 {
- o.operands = fmt.Sprintf("$%04X", d.getOpr16())
- } else {
- o.operands = fmt.Sprintf("$%02X", d.getOpr8())
- }
-
- if (inst & 0x10) == 0 {
- if d.prog[d.pc] == 0 {
- d.pc++
- }
- }
- } else {
- err = fmt.Errorf("bad instruction")
- }
-
- // var hex string
-
- // if !silent {
- // if d.pc-instPC < 6 {
- // hex = fmt.Sprintf("% 02X", d.prog[instPC:d.pc])
- // } else {
- // hex = fmt.Sprintf("% 02X...", d.prog[instPC:instPC+4])
- // }
- // fmt.Printf("%06X % -14s ", instPC, hex)
- // }
- //
- // if err != nil {
- // break
- // }
- //
- // if !silent {
- // var comment string
- // if o.comment != "" {
- // comment = "; " + o.comment
- // }
- // fmt.Printf("%-8s\t%-20s%s\n", o.mnemonic, o.operands, comment)
- // }
-
- if err == nil {
- if !silent {
- d.printInstr(instPC, o)
- }
- }
-
- if err != nil {
- if !silent {
- fmt.Printf("Disassembly failed at $%06X\n", instPC)
- }
- break
- }
-
- if o.mnemonic == "RETURN" {
- break
- }
-
- }
- for i := range externs {
- externs[i].function = start
- }
-
- if !silent {
- if err != nil {
- fmt.Printf("\n; ---------------- Disassemly Terminated: %v ---------------- \n", err)
-
- } else {
- fmt.Printf("\n; ---------------- End Function $%06X ---------------- \n\n\n", start)
- }
- }
- return externs, err
- }
-
- func (d *disassembler) printInstr(instPC uint32, o output) {
-
- // var hex, comment string
- // if o.comment != "" {
- // comment = "; " + o.comment
- // }
- //
- // if d.pc-instPC < 6 {
- // hex = fmt.Sprintf("% 02X", d.prog[instPC:d.pc])
- // } else {
- // hex = fmt.Sprintf("% 02X...", d.prog[instPC:instPC+4])
- // }
- // fmt.Printf("%06X % -14s ", instPC, hex)
- //
- //
- // fmt.Printf("%-8s\t%-20s%s\n", o.mnemonic, o.operands, comment)
-
- var hex, comment string
- if o.comment != "" {
- comment = "; " + o.comment
- }
-
- if d.pc-instPC < 6 {
- hex = fmt.Sprintf("% 02X", d.prog[instPC:d.pc])
- fmt.Printf("%06X % -14s %-8s\t%-20s%s\n", instPC, hex, o.mnemonic, o.operands, comment)
- } else {
- for i := instPC; i < d.pc; i += 5 {
- if i == instPC {
- hex = fmt.Sprintf("% 02X", d.prog[i:i+5])
- fmt.Printf("%06X % -14s %-8s\t%-20s%s\n", i, hex, o.mnemonic, o.operands, comment)
- } else {
- endAddr := i + 5
- if endAddr > d.pc {
- endAddr = d.pc
- }
- hex = fmt.Sprintf("% 02X", d.prog[i:endAddr])
- //fmt.Printf("%06X % -14s %-8s\n", i, hex, "")
- fmt.Printf("%6s % -14s %-8s\n", "", hex, "")
-
- }
-
- }
-
- }
-
- }
-
- func (d *disassembler) getOpr6() byte {
- return d.prog[d.pc-1] & 0x3F
- }
-
- func (d *disassembler) getOpr8() byte {
- v := d.prog[d.pc]
- d.pc += 1
- return v
- }
-
- func (d *disassembler) getOpr10() uint16 {
- v := uint16(d.prog[d.pc-1]&0x03)<<8 | uint16(d.prog[d.pc])
- d.pc += 1
- return v
- }
-
- func (d *disassembler) getOpr11() uint16 {
- v := uint16(d.prog[d.pc-1]&0x07)<<8 | uint16(d.prog[d.pc])
- d.pc += 1
- return v
- }
-
- func (d *disassembler) getSignedOpr11() int16 {
- v := uint16(d.prog[d.pc-1]&0x07)<<8 | uint16(d.prog[d.pc])
- d.pc += 1
- if v&0x0400 != 0 {
- return int16(v | 0xF800)
- }
- return int16(v)
- }
-
- func (d *disassembler) getOpr16() uint16 {
- v := uint16(d.prog[d.pc])<<8 | uint16(d.prog[d.pc+1])
- d.pc += 2
- return v
- }
-
- func (d *disassembler) getOpr32() uint32 {
- v := uint32(d.prog[d.pc])<<24 | uint32(d.prog[d.pc+1])<<16 | uint32(d.prog[d.pc+2])<<8 | uint32(d.prog[d.pc+3])
- d.pc += 4
- return v
- }
-
- func (d *disassembler) getOpr64() uint64 {
- v := uint64(d.prog[d.pc]) << 56
- v |= uint64(d.prog[d.pc+1]) << 48
- v |= uint64(d.prog[d.pc+2]) << 40
- v |= uint64(d.prog[d.pc+3]) << 32
- v |= uint64(d.prog[d.pc+4]) << 24
- v |= uint64(d.prog[d.pc+5]) << 16
- v |= uint64(d.prog[d.pc+6]) << 8
- v |= uint64(d.prog[d.pc+7])
- d.pc += 8
- return v
- }
-
- func (d *disassembler) handle2090(instAddr uint32, inst byte, externs []call) (output, []call, error) {
- o := output{}
- switch inst {
- case 0x00:
- o.mnemonic = "ADD.F"
- case 0x01:
- o.mnemonic = "SUB.F"
- case 0x02:
- o.mnemonic = "MUL.F"
- case 0x03:
- o.mnemonic = "DIV.F"
- case 0x04:
- o.mnemonic = "GT.F"
- case 0x05:
- o.mnemonic = "GTE.F"
- case 0x06:
- o.mnemonic = "EQ.F"
- case 0x07:
- o.mnemonic = "ADD.L"
- case 0x08:
- o.mnemonic = "SUB.L"
- case 0x09:
- o.mnemonic = "MUL.L"
- case 0x0A:
- o.mnemonic = "EQ.L"
- case 0x0B:
- o.mnemonic = "NEQ.L"
- case 0x0C:
- o.mnemonic = "AND.L"
- case 0x0D:
- o.mnemonic = "OR.L"
- case 0x0E:
- o.mnemonic = "NOT.L"
- case 0x0F:
- o.mnemonic = "MOD.L"
- case 0x10:
- o.mnemonic = "BSR.68K"
- off := int(d.getOpr16())
- o.operands = fmt.Sprintf("$%04X", off)
-
- c := call{
- instrAddr: instAddr,
- computedAddr: uint32(int(d.pc) - off),
- }
-
- var targetAddrStr string
-
- if d.read16(c.computedAddr) == 0x4EF9 {
- c.targetAddr = d.read32(c.computedAddr + 2)
- targetAddrStr = fmt.Sprintf(" => $%06X", c.targetAddr)
- } else {
- c.targetAddr = c.computedAddr
- }
-
- label := d.labels[c.targetAddr]
- if label != "" {
- label = fmt.Sprintf(" (%s)", label)
- }
-
- var native string
- if d.read32(c.targetAddr) != 0x4EB82144 && d.read32(c.targetAddr) != 0x4EB82164 {
- native = " (NATIVE)"
- c.native = true
- }
-
- o.comment = fmt.Sprintf("=> $%06X%s%s%s", c.computedAddr, targetAddrStr, label, native)
-
- externs = append(externs, c)
- case 0x11:
- o.mnemonic = "SUBSP.B"
- o.operands = fmt.Sprintf("$%02X", d.getOpr8())
- case 0x12:
- o.mnemonic = "ADDSP.B"
- o.operands = fmt.Sprintf("$%02X", d.getOpr8())
- case 0x13:
- o.mnemonic = "_2300"
- case 0x14:
- o.mnemonic = "RETURN"
- case 0x15:
- o.mnemonic = "SWITCH"
- switchAddr := d.pc - 1
- tpc := d.pc
- for d.prog[tpc] != 0 {
- caseAddr := tpc
- op := d.read16(tpc)
- tpc += 2
- numKey := int(op & 0xF000 >> 12)
- recLen := int(op & 0xfff)
- keys := make([]byte, numKey)
- for i := 0; i < numKey; i++ {
- keys[i] = d.read8(tpc + uint32(i))
- }
- d.caseStmts[caseAddr] = caseStmt{
- switchAddr: switchAddr,
- keys: keys,
- }
- tpc += uint32(recLen)
- }
- d.caseStmts[tpc] = caseStmt{
- switchAddr: switchAddr,
- }
- case 0x16:
- o.mnemonic = "_2362"
- op := d.getOpr16() & 0xfff
- a0 := 0x4000 + ((op & 0x0C00) >> 8)
-
- o.comment = fmt.Sprintf("A0 = $%06X; (A0) = A6 + $%X\n\n", a0, 0)
-
- o.operands = fmt.Sprintf("$%04X", op)
- case 0x17:
- o.mnemonic = "_23d2"
- op := d.getOpr16() & 0xfff
- op2 := d.getOpr16()
- o.operands = fmt.Sprintf("$%04X, $%04X", op, op2)
- case 0x18:
- op := d.getOpr16()
- o.mnemonic = []string{"BLS.B", "BLS.W", "BLS.L", "BLS.W"}[op&0xc000>>14]
- o.operands = fmt.Sprintf("$%04X", op&0x3fff)
- o.comment = fmt.Sprintf("=> $%06X", int(d.pc)+int(op&0x3fff))
-
- case 0x19:
- o.mnemonic = "_23fc"
- op := d.getOpr16()
- op2 := d.getOpr16()
- o.operands = fmt.Sprintf("$%04X, $%04X", op, op2)
- case 0x1A:
- op := d.getOpr16()
- o.mnemonic = []string{"BGT.B", "BGT.W", "BGT.L", "BGT.W"}[op&0xc000>>14]
- o.operands = fmt.Sprintf("$%04X", op&0x3fff)
- o.comment = fmt.Sprintf("=> $%06X", int(d.pc)+int(op&0x3fff))
- case 0x1B:
- o.mnemonic = "PUSH.F"
- v := d.getOpr64()
- fv := math.Float64frombits(v)
- o.operands = fmt.Sprintf("$%016X", v)
- o.comment = fmt.Sprintf("float = %f", fv)
- case 0x1C:
- o.mnemonic = "PUSH.W"
- op := int(d.getOpr16())
- o.operands = fmt.Sprintf("$%04X", op)
- case 0x1D:
- o.mnemonic = "PUSH.L"
- op := int(d.getOpr32())
- o.operands = fmt.Sprintf("$%08X", op)
- case 0x1E:
- o.mnemonic = "PUSH.W"
- o.operands = "$0000"
- case 0x1F:
- o.mnemonic = "DISP"
- strlen := uint32(d.getOpr8())
- str := d.prog[d.pc : d.pc+strlen]
- o.operands = fmt.Sprintf(`"%s"`, string(str))
- d.pc += strlen
- case 0x20:
- o.mnemonic = "NEG.W"
- case 0x21:
- o.mnemonic = "LT.F"
- case 0x22:
- o.mnemonic = "LTE.F"
- case 0x23:
- o.mnemonic = "NEQ.F"
- case 0x24:
- o.mnemonic = "DIV.L"
- case 0x25:
- o.mnemonic = "LT.L"
- case 0x26:
- o.mnemonic = "GT.L"
- case 0x27:
- o.mnemonic = "LTE.L"
- case 0x28:
- o.mnemonic = "GTE.L"
- case 0x29:
- o.mnemonic = "FLOAT2LONG"
- case 0x2A:
- o.mnemonic = "LONG2FLOAT"
- case 0x2B:
- o.mnemonic = "COMPARE"
- op := d.getOpr16()
- o.operands = fmt.Sprintf("$%04X", op)
- case 0x2C:
- o.mnemonic = "NOTCOMPARE"
- op := d.getOpr16()
- o.operands = fmt.Sprintf("$%04X", op)
- case 0x2D:
- o.mnemonic = "SUBSP.W"
- op := d.getOpr16()
- o.operands = fmt.Sprintf("$%04X", op)
- case 0x2E:
- o.mnemonic = "ADDSP.W"
- op := d.getOpr16()
- o.operands = fmt.Sprintf("$%04X", op)
- case 0x2F:
- o.mnemonic = "XORL.L"
- case 0x30:
- o.mnemonic = "TRAP1"
- strlen := uint32(d.getOpr8())
- str := d.prog[d.pc : d.pc+strlen]
- o.operands = fmt.Sprintf("\"%s\"", string(str))
- d.pc += strlen
- default:
- return o, externs, fmt.Errorf("unrecognized 2090 instruction $%02X", inst)
- }
- return o, externs, nil
- }
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