KoboldSim/koboldsim/cardtypes.go

package koboldsim

import (
	"errors"

	"git.chromaticdragon.app/kistaro/CardSimEngine/cardsim"
)

var (
	ErrOptionNotEnabled = errors.New("option not enabled")
	ErrPolicyNotEnacted = errors.New("cannot unenact policy that is not enacted")

	// ErrUnimplemented and ErrKeepMessaage are "non-errors". They are used
	// as special signals that the result needs to be handled in a special way;
	// VerbosePolicy uses these to decide when to use the Default instead.
	// If these are returned in a context that does not know how to respond
	// to them, then they're just errors.
	ErrUnimplemented = errors.New("unimplemented policy element")
	ErrKeepMessaage  = errors.New("use the default behavior but this message")
)

type Policy interface {
	cardsim.CardOption[*KoboldMine]
	// Unenact reverses the previous enactment of this policy.
	Unenact(p *Player) error

	// LastEnacted informs this Policy which choice was last enacted and
	// which index it is under; this allows it to prepare to describe
	// itself differently depending on the last selected policy. If no
	// option has ever been chosen for this card, the index is -1.
	//
	// The Card that would present this Policy as an option must use this,
	// and provide the active policy that this is a candidate to replace,
	LastEnacted(int, Policy)

	// Is returns whether this policy is this other policy. This is a strict
	// identity equality check, don't do anything clever here.
	Is(Policy) bool
}

// A SwitchingCard is an issue card that remembers which option was selected
// previously, and undoes it before doing a different one. It is always valid
// to draw.
type SwitchingCard struct {
	Name       cardsim.Message
	Desc       cardsim.Message
	IsUrgent   bool
	After      func(Card, *Player, CardOption) error
	Policies   []Policy
	lastPolicy Policy
}

// Title implements Card.
func (s *SwitchingCard) Title(*Player) cardsim.Message {
	return s.Name
}

// Urgent implements Card.
func (s *SwitchingCard) Urgent(*Player) bool {
	return s.IsUrgent
}

// Drawn implements Card.
func (s *SwitchingCard) Drawn(*Player) bool {
	return true
}

// EventText implements Card.
func (s *SwitchingCard) EventText(*Player) (cardsim.Message, error) {
	return s.Desc, nil
}

// Options implements Card.
func (s *SwitchingCard) Options(*Player) ([]CardOption, error) {
	lastIdx := -1
	for i, p := range s.Policies {
		if p.Is(s.lastPolicy) {
			lastIdx = i
			break
		}
	}
	ret := make([]CardOption, len(s.Policies))
	for i, p := range s.Policies {
		p.LastEnacted(lastIdx, s.lastPolicy)
		ret[i] = p
	}
	return ret, nil
}

// Then implements Card.
func (s *SwitchingCard) Then(p *Player, o CardOption) error {
	newPolicy := o.(Policy)
	var errs cardsim.ErrorCollector
	if s.lastPolicy != nil && !newPolicy.Is(s.lastPolicy) {
		err := s.lastPolicy.Unenact(p)
		if cardsim.IsSeriousError(err) {
			return err
		}
		errs.Add(err)
	}
	s.lastPolicy = o.(Policy)
	if s.After != nil {
		errs.Add(s.After(s, p, o))
	}
	return errs.Emit()
}

// BasicPolicy is a straightfoward implementation of Policy. If the currently
// enacted option is re-enacted, it refunds the player's action point.
type BasicPolicy struct {
	Desc           cardsim.Message
	UnenactedDesc  cardsim.Message
	EnactedDesc    cardsim.Message
	NothingChanged cardsim.Message
	Do             func(*Player) (cardsim.Message, error)
	Undo           func(*Player) error
	CanDo          func(*Player) bool

	currentlyEnacted bool
}

// YesWeCan returns true. It's the default value for BasicPolicy.CanDo / BasicPolicy.CanUndo.
func YesWeCan(*Player) bool {
	return true
}

// LastEnacted notifies b about the last-enacted policy in its group. It updates
// b.currentlyEnacted accordingly.
func (b *BasicPolicy) LastEnacted(_ int, p Policy) {
	b.currentlyEnacted = b.Is(p)
}

// OptionText implements CardOption.
func (b *BasicPolicy) OptionText(*Player) (cardsim.Message, error) {
	if b.currentlyEnacted {
		if b.EnactedDesc == nil {
			return nil, ErrUnimplemented
		}
		return b.EnactedDesc, nil
	}
	if b.UnenactedDesc == nil {
		return nil, ErrUnimplemented
	}
	return b.UnenactedDesc, nil
}

// Enact implements CardOption.
func (b *BasicPolicy) Enact(p *Player) (cardsim.Message, error) {
	if b.Do == nil {
		return nil, ErrUnimplemented
	}
	if b.currentlyEnacted {
		p.ActionsRemaining++
		if b.NothingChanged == nil {
			b.NothingChanged = cardsim.MsgStr("You continue your current approach.")
		}
		return b.NothingChanged, nil
	}
	if b.Enabled(p) {
		return b.Do(p)
	}
	return nil, ErrOptionNotEnabled
}

// Unenact implements Policy.
func (b *BasicPolicy) Unenact(p *Player) error {
	if !b.currentlyEnacted {
		return ErrPolicyNotEnacted
	}
	if b.Undo == nil {
		return ErrUnimplemented
	}
	return b.Undo(p)
}

// Enabled implements CardOption.
func (b *BasicPolicy) Enabled(p *Player) bool {
	if b.currentlyEnacted {
		return true
	}
	if b.CanDo == nil {
		panic(ErrUnimplemented)
	}
	return b.CanDo(p)
}

func (b *BasicPolicy) Is(p Policy) bool {
	if o, ok := p.(*BasicPolicy); ok {
		return o == b
	}
	return false
}

// A VerbosePolicy is a group of related policies pretending to all be the same
// policy. Which policy is used is determined by what the previous policy for
// the card was (as reported via a call to LastEnacted):
//
// * If no policy has yet been enacted, use FirstTime.
// * If a policy has been enacted, use the Policy at the slot in Variants
//   that corresponds to the slot (on the Card) of the currently-enacted policy.
// * If the policy retrieved in this way returns ErrUnimplemented, throw away
//   its response and use Default instead. For Enabled, which does not have
//   an error component to its return value, look for ErrUnimplemented as the
//   argument to a Panic call, instead.
// * If the policy retrieved in this way returns ErrKeepMessage when Enact
//   is called, it calls Default for the side effects but ignores its message,
//   retaining the message from the original call. This is to avoid having to
//   repeat the same Enact function except with different text each time.
//   OptionText does this too, even though OptionText doesn't have side effects,
//   so the same helper function can create a "constant message" callback
//   that works the same for both fields so someone implementing a card won't
//   accidentally fail to enact their policy's effects by using the wrong one
//   in the wrong slot.
type VerbosePolicy struct {
	Default     Policy
	FirstTime   Policy
	lastIdx     int
	lastWasMe   bool
	lastEnacted Policy
	Variants    []Policy
}

func (v *VerbosePolicy) LastEnacted(i int, p Policy) {
	v.lastIdx = i
	v.lastEnacted = p
	v.lastWasMe = v.Is(p)

	// make sure we can just assume that there is a policy in this slot,
	// inserting the default if there is none.
	v.fillDefaults()

	// Tell the potential candidate policy about this, too. Two special cases:
	// * first time -- use first-time policy
	// * lastWasMe -- tell the polcy that the last encated policy was itself,
	//   since it doesn't know it's wrapped in another policy and would not
	//   recognize itself as v
	if i < 0 {
		v.FirstTime.LastEnacted(i, p) // p should be nil here...
	} else if v.lastWasMe {
		v.Variants[i].LastEnacted(i, v.Variants[i])
	} else {
		v.Variants[i].LastEnacted(i, p)
	}

	// In case we need it, also prepare the Default for use.
	if v.lastWasMe {
		v.Default.LastEnacted(i, v.Default)
	} else {
		v.Default.LastEnacted(i, p)
	}
}

func (v *VerbosePolicy) fillDefaults() {
	if v.FirstTime == nil {
		v.FirstTime = v.Default
	}
	for len(v.Variants) <= v.lastIdx {
		v.Variants = append(v.Variants, v.Default)
	}
	if v.Variants[v.lastIdx] == nil {
		v.Variants[v.lastIdx] = v.Default
	}
}

func (v *VerbosePolicy) OptionText(p *Player) (cardsim.Message, error) {
	var msg cardsim.Message
	var err error
	if v.lastIdx < 0 {
		msg, err = v.FirstTime.OptionText(p)
	} else {
		msg, err = v.Variants[v.lastIdx].OptionText(p)
	}
	if errors.Is(err, ErrUnimplemented) {
		msg, err = v.Default.OptionText(p)
	}
	return msg, err
}

func (v *VerbosePolicy) Enact(p *Player) (cardsim.Message, error) {
	var msg cardsim.Message
	var err error
	if v.lastIdx < 0 {
		msg, err = v.FirstTime.Enact(p)
	} else {
		msg, err = v.Variants[v.lastIdx].Enact(p)
	}
	if errors.Is(err, ErrUnimplemented) {
		msg, err = v.Default.Enact(p)
	}
	return msg, err
}

func (v *VerbosePolicy) Unenact(p *Player) error {
	if !v.lastWasMe {
		return ErrPolicyNotEnacted
	}
	var err error
	if v.lastIdx < 0 {
		err = v.FirstTime.Unenact(p)
	} else {
		err = v.Variants[v.lastIdx].Unenact(p)
	}
	if errors.Is(err, ErrUnimplemented) {
		err = v.Default.Unenact(p)
	}
	return err
}

func (v *VerbosePolicy) Is(p Policy) bool {
	if o, ok := p.(*VerbosePolicy); ok {
		return o == v
	}
	return false
}

func (v *VerbosePolicy) Enabled(p *Player) (result bool) {
	// oops, enablement isn't designed to error out. so we have to use
	// panic/recover for this.
	defer func() {
		if x := recover(); x != nil {
			if e, ok := x.(error); ok {
				if errors.Is(e, ErrUnimplemented) {
					// Recover and use the Default to cover for the missing
					// Enabled method.
					result = v.Default.Enabled(p)
					return
				}
			}
			// Whatever we caught, it's not something we're actually ready to recover from.
			panic(x)
		}
	}()

	if v.lastIdx < 0 {
		result = v.FirstTime.Enabled(p)
		return
	}
	result = v.Variants[v.lastIdx].Enabled(p)
	return
}

// FuncPolicy implements Policy by calling specified functions. If they're
// missing, it returns ErrUnimplemented. It handles Is itself. It also tracks
// LastEnacted data (last index, which policy, is policy self) itself.
type FuncPolicy struct {
	OptionTextFunc func(*Player) (cardsim.Message, error)
	EnactFunc      func(*Player) (cardsim.Message, error)
	EnabledFunc    func(*Player) bool
	UnenactFunc    func(*Player) error

	// These three fields are assigned by LastEnacted and typically should not
	// be set in the initializer.
	LastEnactedIdx    int
	LastEnactedPolicy Policy
	WasEnactedLast    bool
}

func (f *FuncPolicy) OptionText(p *Player) (cardsim.Message, error) {
	if f.OptionTextFunc == nil {
		return nil, ErrUnimplemented
	}
	return f.OptionTextFunc(p)
}

func (f *FuncPolicy) Enact(p *Player) (cardsim.Message, error) {
	if f.EnactFunc == nil {
		return nil, ErrUnimplemented
	}
	return f.EnactFunc(p)
}

func (f *FuncPolicy) Enabled(p *Player) bool {
	if f.EnabledFunc == nil {
		panic(ErrUnimplemented)
	}
	return f.EnabledFunc(p)
}

func (f *FuncPolicy) Unenact(p *Player) error {
	if f.UnenactFunc == nil {
		return ErrUnimplemented
	}
	return f.UnenactFunc(p)
}

func (f *FuncPolicy) LastEnacted(i int, p Policy) {
	f.LastEnactedIdx = i
	f.LastEnactedPolicy = p
	f.WasEnactedLast = f.Is(p)
}

func (f *FuncPolicy) Is(p Policy) bool {
	fp, ok := p.(*FuncPolicy)
	return ok && (f == fp)
}

// ShuffleIntoBottomHalf is a common "what to do with the card after?" behavior.
func ShuffleIntoBottomHalf(c Card, p *Player, _ CardOption) error {
	p.Deck.InsertRandomBottom(0.5, c)
	return nil
}