mirror of https://github.com/status-im/op-geth.git
268 lines
6.4 KiB
Go
268 lines
6.4 KiB
Go
package main
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import (
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_"math"
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"math/big"
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"fmt"
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_"strconv"
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_ "encoding/hex"
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"strconv"
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)
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// Op codes
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const (
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oSTOP int = 0x00
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oPUSH int = 0x30
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oPOP int = 0x31
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oLOAD int = 0x36
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/*
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oADD int = 0x10
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oSUB int = 0x11
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oMUL int = 0x12
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oDIV int = 0x13
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oSDIV int = 0x14
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oMOD int = 0x15
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oSMOD int = 0x16
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oEXP int = 0x17
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oNEG int = 0x18
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oLT int = 0x20
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oLE int = 0x21
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oGT int = 0x22
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oGE int = 0x23
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oEQ int = 0x24
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oNOT int = 0x25
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oSHA256 int = 0x30
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oRIPEMD160 int = 0x31
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oECMUL int = 0x32
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oECADD int = 0x33
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oSIGN int = 0x34
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oRECOVER int = 0x35
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oCOPY int = 0x40
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oST int = 0x41
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oLD int = 0x42
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oSET int = 0x43
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oJMP int = 0x50
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oJMPI int = 0x51
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oIND int = 0x52
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oEXTRO int = 0x60
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oBALANCE int = 0x61
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oMKTX int = 0x70
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oDATA int = 0x80
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oDATAN int = 0x81
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oMYADDRESS int = 0x90
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oSUICIDE int = 0xff
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*/
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)
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type OpType int
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const (
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tNorm = iota
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tData
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tExtro
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tCrypto
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)
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type TxCallback func(opType OpType) bool
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// Simple push/pop stack mechanism
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type Stack struct {
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data []string
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}
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func NewStack() *Stack {
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return &Stack{}
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}
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func (st *Stack) Pop() string {
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s := len(st.data)
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str := st.data[s-1]
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st.data = st.data[:s-1]
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return str
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}
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func (st *Stack) Push(d string) {
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st.data = append(st.data, d)
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}
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type Vm struct {
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// Stack
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stack *Stack
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}
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func NewVm() *Vm {
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return &Vm{
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stack: NewStack(),
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}
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}
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func (vm *Vm) ProcContract(tx *Transaction, block *Block, cb TxCallback) {
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// Instruction pointer
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iptr := 0
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contract := block.GetContract(tx.Hash())
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if contract == nil {
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fmt.Println("Contract not found")
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return
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}
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fmt.Printf("# op arg\n")
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out:
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for {
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// The base big int for all calculations. Use this for any results.
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base := new(big.Int)
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base.SetString("0",0) // so it doesn't whine about it
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// XXX Should Instr return big int slice instead of string slice?
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// Get the next instruction from the contract
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op, args, _ := Instr(contract.state.Get(string(Encode(uint32(iptr)))))
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if Debug {
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fmt.Printf("%-3d %-4d %v\n", iptr, op, args)
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}
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switch op {
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case oPUSH:
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// Get the next entry and pushes the value on the stack
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iptr++
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vm.stack.Push(contract.state.Get(string(Encode(uint32(iptr)))))
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case oPOP:
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// Pop current value of the stack
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vm.stack.Pop()
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case oLOAD:
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// Load instruction X on the stack
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i, _ := strconv.Atoi(vm.stack.Pop())
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vm.stack.Push(contract.state.Get(string(Encode(uint32(i)))))
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case oSTOP:
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break out
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}
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iptr++
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}
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}
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/*
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type Vm struct {
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// Memory stack
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stack map[string]string
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memory map[string]map[string]string
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}
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func NewVm() *Vm {
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//stackSize := uint(256)
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return &Vm{
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stack: make(map[string]string),
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memory: make(map[string]map[string]string),
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}
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}
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func (vm *Vm) RunTransaction(tx *Transaction, cb TxCallback) {
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if Debug {
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fmt.Printf(`
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# processing Tx (%v)
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# fee = %f, ops = %d, sender = %s, value = %d
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`, tx.addr, float32(tx.fee) / 1e8, len(tx.data), tx.sender, tx.value)
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}
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vm.stack = make(map[string]string)
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vm.stack["0"] = tx.sender
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vm.stack["1"] = "100" //int(tx.value)
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vm.stack["1"] = "1000" //int(tx.fee)
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// Stack pointer
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stPtr := 0
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//vm.memory[tx.addr] = make([]int, 256)
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vm.memory[tx.addr] = make(map[string]string)
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// Define instruction 'accessors' for the instruction, which makes it more readable
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// also called register values, shorthanded as Rx/y/z. Memory address are shorthanded as Mx/y/z.
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// Instructions are shorthanded as Ix/y/z
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x := 0; y := 1; z := 2; //a := 3; b := 4; c := 5
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out:
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for stPtr < len(tx.data) {
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// The base big int for all calculations. Use this for any results.
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base := new(big.Int)
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// XXX Should Instr return big int slice instead of string slice?
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op, args, _ := Instr(tx.data[stPtr])
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if Debug {
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fmt.Printf("%-3d %d %v\n", stPtr, op, args)
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}
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opType := OpType(tNorm)
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// Determine the op type (used for calculating fees by the block manager)
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switch op {
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case oEXTRO, oBALANCE:
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opType = tExtro
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case oSHA256, oRIPEMD160, oECMUL, oECADD: // TODO add rest
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opType = tCrypto
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}
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// If the callback yielded a negative result abort execution
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if !cb(opType) { break out }
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nptr := stPtr
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switch op {
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case oSTOP:
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fmt.Println("exiting (oSTOP), idx =", nptr)
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break out
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case oADD:
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// (Rx + Ry) % 2 ** 256
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base.Add(Big(vm.stack[args[ x ]]), Big(vm.stack[args[ y ]]))
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base.Mod(base, big.NewInt(int64(math.Pow(2, 256))))
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// Set the result to Rz
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vm.stack[args[ z ]] = base.String()
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case oSUB:
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// (Rx - Ry) % 2 ** 256
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base.Sub(Big(vm.stack[args[ x ]]), Big(vm.stack[args[ y ]]))
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base.Mod(base, big.NewInt(int64(math.Pow(2, 256))))
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// Set the result to Rz
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vm.stack[args[ z ]] = base.String()
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case oMUL:
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// (Rx * Ry) % 2 ** 256
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base.Mul(Big(vm.stack[args[ x ]]), Big(vm.stack[args[ y ]]))
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base.Mod(base, big.NewInt(int64(math.Pow(2, 256))))
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// Set the result to Rz
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vm.stack[args[ z ]] = base.String()
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case oDIV:
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// floor(Rx / Ry)
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base.Div(Big(vm.stack[args[ x ]]), Big(vm.stack[args[ y ]]))
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// Set the result to Rz
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vm.stack[args[ z ]] = base.String()
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case oSET:
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// Set the (numeric) value at Iy to Rx
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vm.stack[args[ x ]] = args[ y ]
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case oLD:
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// Load the value at Mx to Ry
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vm.stack[args[ y ]] = vm.memory[tx.addr][vm.stack[args[ x ]]]
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case oLT:
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cmp := Big(vm.stack[args[ x ]]).Cmp( Big(vm.stack[args[ y ]]) )
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// Set the result as "boolean" value to Rz
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if cmp < 0 { // a < b
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vm.stack[args[ z ]] = "1"
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} else {
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vm.stack[args[ z ]] = "0"
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}
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case oJMP:
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// Set the instruction pointer to the value at Rx
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ptr, _ := strconv.Atoi( vm.stack[args[ x ]] )
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nptr = ptr
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case oJMPI:
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// Set the instruction pointer to the value at Ry if Rx yields true
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if vm.stack[args[ x ]] != "0" {
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ptr, _ := strconv.Atoi( vm.stack[args[ y ]] )
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nptr = ptr
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}
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default:
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fmt.Println("Error op", op)
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break
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}
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if stPtr == nptr {
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stPtr++
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} else {
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stPtr = nptr
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if Debug { fmt.Println("... JMP", nptr, "...") }
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}
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}
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}
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*/
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