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aoc2019/intcode.go

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package aoc2019
import (
"context"
"log"
"reflect"
"strconv"
"strings"
"github.com/pkg/errors"
)
var intcodeDebugging = false
type opCodeFlag int64
const (
opCodeFlagPosition opCodeFlag = iota
opCodeFlagImmediate
opCodeFlagRelative
)
type opCodeType int64
const (
opCodeTypeAddition opCodeType = 1 // Day 02
opCodeTypeMultiplication opCodeType = 2 // Day 02
opCodeTypeInput opCodeType = 3 // Day 05 P1
opCodeTypeOutput opCodeType = 4 // Day 05 P1
opCodeTypeJumpIfTrue opCodeType = 5 // Day 05 P2
opCodeTypeJumpIfFalse opCodeType = 6 // Day 05 P2
opCodeTypeLessThan opCodeType = 7 // Day 05 P2
opCodeTypeEquals opCodeType = 8 // Day 05 P2
opCodeTypeAdjRelBase opCodeType = 9 // Day 09
opCodeTypeExit opCodeType = 99 // Day 02
)
type opCode struct {
Type opCodeType
flags []opCodeFlag
}
func (o opCode) GetFlag(param int64) opCodeFlag {
if param-1 >= int64(len(o.flags)) {
return opCodeFlagPosition
}
return o.flags[param-1]
}
func (o opCode) eq(in opCode) bool {
return o.Type == in.Type && reflect.DeepEqual(o.flags, in.flags)
}
func parseOpCode(in int64) opCode {
out := opCode{}
out.Type = opCodeType(in % 100)
var paramFactor int64 = 100
for {
if in < paramFactor {
break
}
out.flags = append(out.flags, opCodeFlag((in % (paramFactor * 10) / paramFactor)))
paramFactor *= 10
}
return out
}
func cloneIntcode(in []int64) []int64 {
out := make([]int64, len(in))
for i, v := range in {
out[i] = v
}
return out
}
func parseIntcode(code string) ([]int64, error) {
parts := strings.Split(code, ",")
var out []int64
for _, n := range parts {
v, err := strconv.ParseInt(n, 10, 64)
if err != nil {
return nil, err
}
out = append(out, v)
}
return out, nil
}
type intcodeParams struct {
// Intcode program to execute
Code []int64
// Context to execute the program in (program might hang on input if context is closed during input directive)
Context context.Context
// Channel / Callback to query on input directive
In interface{}
// Channel to use for output directive
Out chan int64
}
func executeIntcode(code []int64, in interface{}, out chan int64) ([]int64, error) {
return executeIntcodeWithParams(intcodeParams{
Code: code,
Context: context.Background(),
In: in,
Out: out,
})
}
func executeIntcodeWithParams(params intcodeParams) ([]int64, error) {
var (
code = params.Code
inCB func() (int64, error)
pos int64
relativeBase int64
)
if params.Out != nil {
defer close(params.Out)
}
switch params.In.(type) {
case nil:
inCB = func() (int64, error) { return 0, errors.New("No input available") }
case chan int64:
inCB = func() (int64, error) { return <-(params.In.(chan int64)), nil }
case func() (int64, error):
inCB = params.In.(func() (int64, error))
default:
return nil, errors.New("Unsupported input type")
}
transformPos := func(param int64, op opCode, write bool) int64 {
var addr int64
switch op.GetFlag(param) {
case opCodeFlagImmediate:
if write {
addr = code[pos+param]
} else {
addr = pos + param
}
case opCodeFlagPosition:
addr = code[pos+param]
case opCodeFlagRelative:
addr = code[pos+param] + int64(relativeBase)
default:
panic(errors.Errorf("Unexpected opCodeFlag %d", op.GetFlag(param)))
}
return addr
}
getParamValue := func(param int64, op opCode) int64 {
var addr = transformPos(param, op, false)
if addr >= int64(len(code)) {
return 0
}
return code[addr]
}
setParamValue := func(param, value int64, op opCode) {
var addr = transformPos(param, op, false)
if addr >= int64(len(code)) {
// Write outside memory, increase memory
var tmp = make([]int64, addr+1)
for i, v := range code {
tmp[i] = v
}
code = tmp
}
code[addr] = value
}
for {
if pos >= int64(len(code)) {
return nil, errors.Errorf("Code position out of bounds: %d (len=%d)", pos, len(code))
}
if err := params.Context.Err(); err != nil {
return nil, errors.Wrap(err, "Context closed")
}
// Position is expected to be an OpCode
op := parseOpCode(code[pos])
if intcodeDebugging {
log.Printf("OpCode execution: %#v", op)
}
switch op.Type {
case opCodeTypeAddition: // p1 + p2 => p3
setParamValue(3, getParamValue(1, op)+getParamValue(2, op), op)
pos += 4
case opCodeTypeMultiplication: // p1 * p2 => p3
setParamValue(3, getParamValue(1, op)*getParamValue(2, op), op)
pos += 4
case opCodeTypeInput: // in => p1
v, err := inCB()
if err != nil {
return nil, errors.Wrap(err, "Unable to read input")
}
setParamValue(1, v, op)
pos += 2
case opCodeTypeOutput: // p1 => out
params.Out <- getParamValue(1, op)
pos += 2
case opCodeTypeJumpIfTrue: // p1 != 0 => jmp
if getParamValue(1, op) != 0 {
pos = getParamValue(2, op)
continue
}
pos += 3
case opCodeTypeJumpIfFalse: // p1 == 0 => jmp
if getParamValue(1, op) == 0 {
pos = getParamValue(2, op)
continue
}
pos += 3
case opCodeTypeLessThan: // p1 < p2 => p3
var res int64
if getParamValue(1, op) < getParamValue(2, op) {
res = 1
}
setParamValue(3, res, op)
pos += 4
case opCodeTypeEquals: // p1 == p2 => p3
var res int64
if getParamValue(1, op) == getParamValue(2, op) {
res = 1
}
setParamValue(3, res, op)
pos += 4
case opCodeTypeAdjRelBase:
relativeBase += getParamValue(1, op)
pos += 2
case opCodeTypeExit: // exit
return code, nil
default:
return nil, errors.Errorf("Encountered invalid operation %d (parsed %#v)", code[pos], op)
}
}
}