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kistaro:v0.5.1
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kistaro:v0.4.0
kistaro:v0.3.0
kistaro:v0.2.1
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compare: kistaro:abb00e30c31143f57639ac4f1e093220e5f697d9
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kistaro:main
kistaro:debug-actions
kistaro:statupgrade
kistaro:v0.5.1
kistaro:v0.5.0
kistaro:v0.4.0
kistaro:v0.3.0
kistaro:v0.2.1
kistaro:v0.2.0
kistaro:v0.2
kistaro:v0.1.3
kistaro:v0.1.2
kistaro:v0.1.1
kistaro:v0.1.0
kistaro:0.1.0

10 Commits
8d9303c8bc ... abb00e30c3

Author SHA1 Message Date
Kistaro Windrider
abb00e30c3
Debug action to adjust debug level. 2023-04-15 20:16:54 -07:00
Kistaro Windrider
65c01318f0
Fix UI urgency handling. 
Only cards can block other cards or actions from being used due to urgency, so only display the `[URGENT!]` header for cards. Debug actions can't be blocked, so skip the "urgency conflict" check for those.
 2023-04-15 19:43:11 -07:00
Kistaro Windrider
2b788f517c
Add action counter spoofer. 2023-04-15 19:36:53 -07:00
Kistaro Windrider
8d1aa0141f
Don't stomp on the default debugers in SmokeTest. 2023-04-15 19:17:34 -07:00
Kistaro Windrider
74fac625f2
Implement standard debuggers. 
These debug actions are added to all players by default.
 2023-04-15 19:16:08 -07:00
Kistaro Windrider
22c4718faf
Include the Number in the smoke test display. 2023-04-15 17:30:08 -07:00
Kistaro Windrider
deb3b1c5a1
Don't charge an action point for debug drawing. 2023-04-15 17:26:02 -07:00
Kistaro Windrider
4a91230376
Smoke testing for debug actions. 
Just moves one of the existing actions to a debug action slot.
 2023-04-15 17:21:28 -07:00
Kistaro Windrider
54711b36a8
Display debug enactables. 
Includes some refactoring work to pull out common code and express the idea of "wait, which panel, exactly?".
 2023-04-15 17:17:51 -07:00
Kistaro Windrider
6c3c936dbd
Debug Actions: Another set of permanent actions. 
These are only reachable in debug mode.
 2023-04-15 16:06:55 -07:00
10 changed files with 528 additions and 92 deletions
Show Stats Expand all files Collapse all files

71
cardsim/card.go
View File

@ -101,6 +101,63 @@ func (b *BasicCard[C]) Drawn(_ *Player[C]) bool {
return true
}
// RefundAction returns a func that can be used as an AfterOption, which returns
// the player's action point.
func RefundAction[C StatsCollection]() func(c Card[C], p *Player[C], option CardOption[C]) error {
return func(c Card[C], p *Player[C], option CardOption[C]) error {
p.ActionsRemaining++
return nil
}
}
// A PanelCard is a Card that takes its title and text from an InfoPanel,
// while options, urgency, and the post-option callback are specified
// (like a BasicCard). It never does anything in particular when drawn.
//
// Omitting all options yields an inactionable card, which can be displayed
// but not played. This can be useful for adding an info panel as a debug action.
type PanelCard[C StatsCollection] struct {
Panel InfoPanel[C]
IsUrgent bool
CardOptions []CardOption[C]
// AfterOption is given the card itself as its first argument.
AfterOption func(c Card[C], p *Player[C], option CardOption[C]) error
}
// Title implements Card.
func (c *PanelCard[C]) Title(p *Player[C]) Message {
return c.Panel.Title(p)
}
// Urgent implements Card.
func (c *PanelCard[C]) Urgent(_ *Player[C]) bool {
return c.IsUrgent
}
// EventText implements Card.
func (c *PanelCard[C]) EventText(p *Player[C]) (Message, error) {
msgs, err := c.Panel.Info(p)
return MultiMessage(msgs), err
}
// Options implements Card.
func (c *PanelCard[C]) Options(_ *Player[C]) ([]CardOption[C], error) {
return c.CardOptions, nil
}
// Then implements Card.
func (c *PanelCard[C]) Then(p *Player[C], option CardOption[C]) error {
if c.AfterOption == nil {
return nil
}
return c.AfterOption(c, p, option)
}
// Drawn implements Card.
func (c *PanelCard[C]) Drawn(_ *Player[C]) bool {
return true
}
// A BasicOption is a CardOption with fixed text, effects, and output.
// It's always enabled.
type BasicOption[C StatsCollection] struct {
@ -151,3 +208,17 @@ func (o *optionFunc[C]) Enact(p *Player[C]) (Message, error) {
func (o *optionFunc[C]) Enabled(p *Player[C]) bool {
return true
}
// OnlyDiscardFree returns a []CardOption[C] providing a single option, which
// returns the action point. It does not shuffle the card back into the deck
// or draw a replacement (consider the AfterFunc for that if needed). This
// can be used for cards that are displayable but not actionable, but show up
// as cards rather than permanent or debug actions for some reason.
func OnlyDiscardFree[C StatsCollection](msg Message) []CardOption[C] {
return []CardOption[C]{
OptionFunc(msg, func(p *Player[C]) (Message, error) {
p.ActionsRemaining++
return MsgStr("Okay."), nil
}),
}
}

103
cardsim/debugging.go Normal file
View File

@ -0,0 +1,103 @@
package cardsim
// Named debug verbosity levels. Using the raw constants is fine too. This
// is roughly consistent with "standard" meanings for these debug levels.
const (
HideWarnings = -1
NotDebugging = 0
DebugWarning = 1
DebugInfo = 2
DebugDetail = 3
DebugFine = 4
DebugSuperfine = 5
)
// ActionCounterDebugCard constructs a BasicCard intended for use only as a
// Debug Action that tinkers with the player's action counter.
func ActionCounterDebugCard[C StatsCollection]() Card[C] {
return &BasicCard[C]{
CardTitle: MsgStr("Adjust Action Counter"),
CardText: MsgStr("Change the number of actions you have available this turn."),
CardOptions: []CardOption[C]{
&BasicOption[C]{
Text: MsgStr("Get an extra action."),
Effect: func(p *Player[C]) error {
p.ActionsRemaining += 2 // counteract the one this costs
return nil
},
Output: MsgStr("Gotten."),
},
&BasicOption[C]{
Text: MsgStr("Waste an action."),
Effect: func(p *Player[C]) error {
return nil
},
Output: MsgStr("Wasted."),
},
&BasicOption[C]{
Text: MsgStr("Get a thousand actions."),
Effect: func(p *Player[C]) error {
p.ActionsRemaining = 1000
return nil
},
Output: MsgStr("ActionsRemaining set to 1000."),
},
&BasicOption[C]{
Text: MsgStr("Go to exactly 1 action remaining."),
Effect: func(p *Player[C]) error {
p.ActionsRemaining = 1
return nil
},
Output: MsgStr("ActionsRemaining set to 1."),
},
&BasicOption[C]{
Text: MsgStr("End the turn. (Set actions to 0.)"),
Effect: func(p *Player[C]) error {
p.ActionsRemaining = 0
return nil
},
Output: MsgStr("ActionsRemaining zeroed out."),
},
},
}
}
// DebugModeCard constructs a BasicCard to change the player's debug level.
// It is intended for use only as a Debug Action.
func DebugModeCard[C StatsCollection]() Card[C] {
return &BasicCard[C]{
CardTitle: MsgStr("Change Debug Level"),
CardText: MsgStr("Adjust verbosity of output, or exit debug mode entirely (not recommended)."),
CardOptions: []CardOption[C]{
debugLevelOption[C]{1, "Enable debug mode. Show warnings."},
debugLevelOption[C]{2, "Enable debug mode. Show info messages."},
debugLevelOption[C]{3, "Enable debug mode. Show detailed messages."},
debugLevelOption[C]{4, "Enable debug mode. Show individual details of operations."},
debugLevelOption[C]{5, "Enable debug mode. Show every event in excruciating detail."},
debugLevelOption[C]{0, "NOT RECOMMENDED. Disable debugging (show warnings). IT CAN'T BE TURNED BACK ON."},
debugLevelOption[C]{-1, "NOT RECOMMENDED. Disable debugging (hide warnings). IT CAN'T BE TURNED BACK ON."},
},
AfterOption: RefundAction[C](),
}
}
type debugLevelOption[C StatsCollection] struct {
level int
description string
}
// OptionText implements CardOption[C].
func (d debugLevelOption[C]) OptionText(*Player[C]) (Message, error) {
return Msgf("Set debug level %d: %s", d.level, d.description), nil
}
// Enact implements CardOption[C].
func (d debugLevelOption[C]) Enact(p *Player[C]) (Message, error) {
p.DebugLevel = d.level
return Msgf("Debug level is now %d.", d.level), nil
}
// Enabled implements CardOption[C].
func (d debugLevelOption[C]) Enabled(p *Player[C]) bool {
return true
}

142
cardsim/deck.go
View File

@ -279,3 +279,145 @@ func (d *Deck[C]) Strip(shouldRemove func(idx int, c Card[C]) bool) int {
d.cards = Strip(d.cards, shouldRemove)
return origLen - d.Len()
}
// DeckDebugger is a Card[C], intended for use only as a debug action, that
// lists the top 10 cards of the deck (without checking if they are drawable)
// and allows various sorts of deck manipulation for free. It can't be drawn.
type DeckDebugger[C StatsCollection] struct{}
// Title implements Card[C].
func (DeckDebugger[C]) Title(p *Player[C]) Message {
return MsgStr("Debug Mode Deck Controls")
}
// Urgent implements Card[C] as used in permanent actions. It's always valid
// to use the deck debugger. Debug actions do not check urgency flags, but this
// marks itself as urgent-compatible just in case.
func (DeckDebugger[C]) Urgent(p *Player[C]) bool {
return true
}
// Drawn implements Card[C]. It can't be drawn.
func (DeckDebugger[C]) Drawn(p *Player[C]) bool {
return false
}
// EventText implements Card[C]. It lists the top ten cards of the deck and
// a few deck-related and hand-related stats.
func (DeckDebugger[C]) EventText(p *Player[C]) (Message, error) {
var msgs []Message
msgs = append(msgs, Msgf("The Deck contains %d cards.", p.Deck.Len()))
if p.Deck.Len() > 0 {
portion := p.Deck.cards
msgs = append(msgs, nil)
topness := "All"
if p.Deck.Len() > 10 {
portion = p.Deck.cards[:10]
topness = "Top 10"
}
msgs = append(msgs, Msgf("%s cards in the Deck:", topness))
for i, c := range portion {
urgency := " "
if c.Urgent(p) {
urgency = "!"
}
msgs = append(msgs, Msgf(" %s %2d) %v", urgency, i+1, c.Title(p)))
}
}
msgs = append(msgs, nil)
msgs = append(msgs, Msgf("At the start of each turn, the Player draws to %d cards. The player has %d cards in hand.", p.HandLimit, len(p.Hand)))
return MultiMessage(msgs), nil
}
// Options implements Card[C]. It offers many possible actions.
func (DeckDebugger[C]) Options(p *Player[C]) ([]CardOption[C], error) {
ret := []CardOption[C]{
&BasicOption[C]{
Text: MsgStr("Draw a card."),
Effect: func(p *Player[C]) error {
return p.Draw()
},
Output: MsgStr("Done."),
},
&BasicOption[C]{
Text: MsgStr("Shuffle the deck."),
Effect: func(p *Player[C]) error {
return p.Deck.Shuffle()
},
Output: MsgStr("Done."),
},
&BasicOption[C]{
Text: MsgStr("Shuffle top half."),
Effect: func(p *Player[C]) error {
return p.Deck.ShuffleTop(0.5)
},
Output: MsgStr("Done."),
},
&BasicOption[C]{
Text: MsgStr("Shuffle bottom half."),
Effect: func(p *Player[C]) error {
return p.Deck.ShuffleBottom(0.5)
},
Output: MsgStr("Done."),
},
}
for _, n := range []int{1, 3, 5, 10} {
if p.Deck.Len() <= n {
break
}
// We don't want the functions we're creating to all share the same "n"
// field -- we want to create distinct functions that move distinct
// numbers of cards. For more information on what's going on here, see
// https://eli.thegreenplace.net/2019/go-internals-capturing-loop-variables-in-closures/
//
// For the curious, the Go developers don't like the gotcha that
// this "shadow variable with itself" workaround patches over either.
// Here's the guy who implemented apologizing for it and discussing
// changing it: https://github.com/golang/go/discussions/56010
//
// "Loop variables being per-loop instead of per-iteration is the only
// design decision I know of in Go that makes programs incorrect more
// often than it makes them correct." -- Russ Cox (rsc)
n := n
invN := p.Deck.Len() - n
ret = append(ret,
&BasicOption[C]{
Text: Msgf("Move the top %d card(s) to the bottom of the deck, in order.", n),
Effect: func(p *Player[C]) error {
p.Deck.cards = append(p.Deck.cards, p.Deck.cards[:n]...)
p.Deck.cards = p.Deck.cards[n:]
return nil
},
Output: MsgStr("Done."),
},
&BasicOption[C]{
Text: Msgf("Move the bottom %d card(s) to the top of the deck, in order.", n),
Effect: func(p *Player[C]) error {
p.Deck.cards = append(p.Deck.cards, p.Deck.cards[:invN]...)
p.Deck.cards = p.Deck.cards[invN:]
return nil
},
Output: MsgStr("Done."),
},
)
if n > 1 {
ret = append(ret, &BasicOption[C]{
Text: Msgf("Shuffle the top %d card(s) of the deck.", n),
Effect: func(p *Player[C]) error {
return p.Deck.ShufflePart(0, n)
},
Output: MsgStr("Done."),
})
}
}
return ret, nil
}
// Then implements Card[C]. It refunds the action point.
func (DeckDebugger[C]) Then(p *Player[C], o CardOption[C]) error {
p.ActionsRemaining++
return nil
}

6
cardsim/messages.go
View File

@ -12,6 +12,12 @@ type Message interface {
fmt.Stringer
}
// Titled desccribes any type that returns a Message as a title, given a Player
// (which it may ignore).
type Titled[C StatsCollection] interface {
Title(*Player[C]) Message
}
type stringMessage string
func (s stringMessage) String() string {

74
cardsim/player.go
View File

@ -13,6 +13,7 @@ var (
ErrInvalidChoice = errors.New("invalid choice specified")
ErrNotUrgent = errors.New("action not urgent when urgent card is available")
ErrNoActions = errors.New("no actions remaining")
ErrNotDebugging = errors.New("this is a debug-only feature and you're not in debug mode")
WarningStalemate = errors.New("no actions can be taken")
)
@ -104,6 +105,10 @@ type Player[C StatsCollection] struct {
// card is in the hand.
PermanentActions []Card[C]
// DebugActions are PermanentActions only available when the player is in
// debug mode. InitPlayer adds some standard debugging actions by default.
DebugActions []Card[C]
// InfoPanels lists informational views available to the player. The Prompt
// is the InfoPanel shown before the main action menu.
InfoPanels []InfoPanel[C]
@ -170,6 +175,12 @@ func InitPlayer[C StatsCollection](stats C) *Player[C] {
HandLimit: 1,
ActionsPerTurn: 1,
Rules: NewRuleCollection[C](),
DebugActions: []Card[C]{
&DeckDebugger[C]{},
&PanelCard[C]{Panel: RuleDumper[C]{}},
ActionCounterDebugCard[C](),
DebugModeCard[C](),
},
}
}
@ -308,6 +319,38 @@ func (p *Player[C]) HasUrgentCards() bool {
return false
}
// EnactableType is an enumeration representing a category of enactable thing.
// Debug actions, permanent actions, and cards behave equivalently in many ways,
// so EnactableType allows parts of the program to work with any of these and
// represent which one they apply to.
type EnactableType int
const (
// InvalidEnactable is an uninitialized EnactableType value with no meaning.
// Using it is generally an error. If you initialize EnactableType fields
// with this value when your program has not yet calculated what type of
// enactable will be used, CardSimEngine will be able to detect bugs where
// such a calcualation, inadvertently, does not come to any conclusion.
// Unlike NothingEnactable, there are no circumstances where this has a
// specific valid meaning.
InvalidEnactable = EnactableType(iota)
// NothingEnactable specifically represents not enacting anything. In some
// contexts, it's an error to use it; in others, it is a sentinel value
// for "do not enact anything". Unlike InvalidEnactable, this has a specific
// valid meaning, it's just that the meaning is specifically "nothing".
NothingEnactable
// CardEnactable refers to a card in the hand.
CardEnactable
// PermanentActionEnactable refers to an item in the permanent actions list.
PermanentActionEnactable
// DebugActionEnactable refers to an item in the debug actions list.
DebugActionEnactable
)
// EnactCardUnchecked executes a card choice, removes it from the hand, and
// decrements the ActionsRemaining. It does not check for conflicting Urgent
// cards or already being out of actions. If no such card or card choice
@ -381,10 +424,31 @@ func (p *Player[C]) EnactCard(cardIdx, choiceIdx int) (Message, error) {
// result of enacting the permanent action. If enacting the card causes a
// serious error, the State becomes GameCrashed.
func (p *Player[C]) EnactPermanentActionUnchecked(actionIdx, choiceIdx int) (Message, error) {
if actionIdx < 0 || actionIdx >= len(p.PermanentActions) {
return nil, fmt.Errorf("%w: no action #%d when %d permanent actions exist", ErrInvalidCard, actionIdx, len(p.PermanentActions))
return p.enactActionUnchecked(p.PermanentActions, actionIdx, choiceIdx)
}
// EnactDebugActionUnchecked executes a debug action and decrements the
// ActionsRemaining, even though most debug actions will want to refund that
// action point. (Consistency with other actions is important.) It does not
// check for Urgent cards or for already being out of actions. If no such action
// or card option exists, or the option is not enabled, this returns nil and
// ErrInvalidCard or ErrInvalidChoice without changing anything. If the player
// is not in debug mode (DebugLevel >= 1), this returns ErrNotDebugging.
// Otherwise, this returns the result of enacting the debug action. If enacting
// the action causes a serious error, the State becomes GameCrashed.
func (p *Player[C]) EnactDebugActionUnchecked(actionIdx, choiceIdx int) (Message, error) {
if p.DebugLevel < 1 {
return nil, ErrNotDebugging
}
card := p.PermanentActions[actionIdx]
return p.enactActionUnchecked(p.DebugActions, actionIdx, choiceIdx)
}
// enactActionUnchecked implements EnactPermanentActionUnchecked and EnactDebugActionUnchecked.
func (p *Player[C]) enactActionUnchecked(actionSource []Card[C], actionIdx, choiceIdx int) (Message, error) {
if actionIdx < 0 || actionIdx >= len(actionSource) {
return nil, fmt.Errorf("%w: no action #%d when %d actions exist", ErrInvalidCard, actionIdx, len(actionSource))
}
card := actionSource[actionIdx]
var errs ErrorCollector
options, err := card.Options(p)
if IsSeriousError(err) {
@ -393,12 +457,12 @@ func (p *Player[C]) EnactPermanentActionUnchecked(actionIdx, choiceIdx int) (Mes
}
errs.Add(err)
if choiceIdx < 0 || choiceIdx > len(options) {
errs.Add(fmt.Errorf("%w: no option #%d on permanent action #%d with %d options", ErrInvalidChoice, choiceIdx, actionIdx, len(options)))
errs.Add(fmt.Errorf("%w: no option #%d on action #%d with %d options", ErrInvalidChoice, choiceIdx, actionIdx, len(options)))
return nil, errs.Emit()
}
chosen := options[choiceIdx]
if !chosen.Enabled(p) {
errs.Add(fmt.Errorf("%w: option #%d on permanent action #%d is not enabled", ErrInvalidChoice, choiceIdx, actionIdx))
errs.Add(fmt.Errorf("%w: option #%d on action #%d is not enabled", ErrInvalidChoice, choiceIdx, actionIdx))
return nil, errs.Emit()
}

13
cardsim/rules.go
View File

@ -4,6 +4,8 @@ import (
"errors"
"fmt"
"sort"
"github.com/kr/pretty"
)
// A Rule implements an operation run on every game turn.
@ -402,3 +404,14 @@ func (r *RuleCollection[C]) applyDelayedUpdates() {
r.RemoveID(id)
}
}
// RuleDumper is an InfoPanel[C] that dumps all rules in P.
type RuleDumper[C StatsCollection] struct{}
func (RuleDumper[C]) Title(p *Player[C]) Message {
return MsgStr("Rule Dumper")
}
func (RuleDumper[C]) Info(p *Player[C]) ([]Message, error) {
return []Message{Msgf("%# v", pretty.Formatter(p.Rules))}, nil
}

18
cardsim/sliceutil.go
View File

@ -145,3 +145,21 @@ func Strip[T any](slice []T, removeWhen func(idx int, t T) bool) []T {
}
return slice[:to]
}
// EnsureCapacity checks if `cap(slice)` is at least req. If so, it returns
// slice unchanged. Otherwise, it copies `slice` to a new slice that is at least
// capacity `req` (but may be larger) and returns the copy.
//
// It is reasonably efficient to use EnsureCapacity consecutively without
// regard for the final overall capacity that a specific slice will need to be.
func EnsureCapacity[T any](slice []T, req int) []T {
if cap(slice) >= req {
return slice
}
if req < 2*cap(slice) {
req = 2 * cap(slice)
}
ret := make([]T, len(slice), req)
copy(ret, slice)
return ret
}

156
cardsim/terminalui.go
View File

@ -17,7 +17,7 @@ func RunSimpleTerminalUI[C StatsCollection](p *Player[C]) error {
for {
for p.CanAct() {
isCard, cardIdx, choiceIdx, err := pickNextAction(p)
actionType, cardIdx, choiceIdx, err := pickNextAction(p)
p.ReportError(err)
if IsSeriousError(err) {
if p.DebugLevel < 1 {
@ -26,10 +26,18 @@ func RunSimpleTerminalUI[C StatsCollection](p *Player[C]) error {
continue
}
var msg Message
if isCard {
switch actionType {
case CardEnactable:
msg, err = p.EnactCard(cardIdx, choiceIdx)
} else {
case DebugActionEnactable:
msg, err = p.EnactDebugActionUnchecked(cardIdx, choiceIdx)
case PermanentActionEnactable:
msg, err = p.EnactPermanentAction(cardIdx, choiceIdx)
case NothingEnactable:
continue
default:
msg = nil
err = fmt.Errorf("invalid enaction type in action loop: %d", actionType)
}
p.ReportError(err)
if IsSeriousError(err) {
@ -77,7 +85,7 @@ func wait() {
fmt.Scanln()
}
func displayMainMenu[C StatsCollection](p *Player[C]) (actionsOffset, handOffset, max int) {
func displayMainMenu[C StatsCollection](p *Player[C]) (debugOffset, actionsOffset, handOffset, max int) {
cls()
needsDivider := displayMessageSection(p)
if needsDivider {
@ -85,10 +93,14 @@ func displayMainMenu[C StatsCollection](p *Player[C]) (actionsOffset, handOffset
}
displayOnePanel(p, p.Prompt)
divider()
actionsOffset = displayStatsMenu(p)
if actionsOffset > 0 {
debugOffset = displayStatsMenu(p)
if debugOffset > 0 {
divider()
}
actionsOffset = displayDebugActionsMenu(p, debugOffset)
if actionsOffset > debugOffset {
fmt.Println()
}
handOffset = displayPermanentActionsMenu(p, actionsOffset)
if handOffset > actionsOffset {
fmt.Println()
@ -97,9 +109,9 @@ func displayMainMenu[C StatsCollection](p *Player[C]) (actionsOffset, handOffset
return // uses named return values
}
func pickNextAction[C StatsCollection](p *Player[C]) (isCard bool, cardIdx int, choiceIdx int, err error) {
func pickNextAction[C StatsCollection](p *Player[C]) (actionType EnactableType, cardIdx int, choiceIdx int, err error) {
for {
actionsOffset, handOffset, max := displayMainMenu(p)
debugOffset, actionsOffset, handOffset, max := displayMainMenu(p)
divider()
fmt.Printf("%d actions remaining.\n", p.ActionsRemaining)
@ -117,9 +129,8 @@ func pickNextAction[C StatsCollection](p *Player[C]) (isCard bool, cardIdx int,
case "s", "stat", "stats", "i", "info", "p", "panel", "panels", "infopanel", "infopanels":
statsMode(p)
case "a", "act", "actions":
var committed bool
isCard, cardIdx, choiceIdx, committed, err = actionsMode(p, true)
if committed {
actionType, cardIdx, choiceIdx, err = actionsMode(p, true)
if actionType != NothingEnactable {
return
}
case "q", "quit", "exit":
@ -132,21 +143,27 @@ func pickNextAction[C StatsCollection](p *Player[C]) (isCard bool, cardIdx int,
} else if i > max {
fmt.Println("That's not on this menu. If the menu is too big to read, choose a detail view.")
wait()
} else if i <= actionsOffset {
} else if i <= debugOffset {
cls()
displayOnePanel(p, p.InfoPanels[i-1])
wait()
} else if i <= actionsOffset {
i = i - debugOffset - 1
option, promptErr := promptCard(p, p.DebugActions[i], DebugActionEnactable)
if option >= 0 || IsSeriousError(promptErr) {
return DebugActionEnactable, i, option, promptErr
}
} else if i <= handOffset {
i = i - actionsOffset - 1
option, promptErr := promptCard(p, p.PermanentActions[i])
option, promptErr := promptCard(p, p.PermanentActions[i], PermanentActionEnactable)
if option >= 0 || IsSeriousError(promptErr) {
return false, i, option, promptErr
return PermanentActionEnactable, i, option, promptErr
}
} else {
i = i - handOffset - 1
option, promptErr := promptCard(p, p.Hand[i])
option, promptErr := promptCard(p, p.Hand[i], CardEnactable)
if option >= 0 || IsSeriousError(promptErr) {
return true, i, option, nil
return CardEnactable, i, option, nil
}
}
}
@ -222,9 +239,7 @@ func displayStatsMenu[C StatsCollection](p *Player[C]) int {
}
fmt.Println("Info Panels")
fmt.Println("-----------")
for i, s := range p.InfoPanels {
fmt.Printf("[%2d]: %s\n", i+1, s.Title(p).String())
}
displayNumberedTitles(p, p.InfoPanels, 0)
return len(p.InfoPanels)
}
@ -234,30 +249,42 @@ func displayPermanentActionsMenu[C StatsCollection](p *Player[C], offset int) in
}
fmt.Println("Always Available")
fmt.Println("----------------")
for i, s := range p.PermanentActions {
fmt.Printf("[%2d]: %s\n", i+offset+1, s.Title(p))
}
displayNumberedTitles(p, p.PermanentActions, offset)
return offset + len(p.PermanentActions)
}
func displayDebugActionsMenu[C StatsCollection](p *Player[C], offset int) int {
if p.DebugLevel < 1 || len(p.DebugActions) == 0 {
return offset
}
fmt.Println("Debug Mode")
fmt.Println("----------")
displayNumberedTitles(p, p.DebugActions, offset)
return offset + len(p.DebugActions)
}
func displayHandMenu[C StatsCollection](p *Player[C], offset int) int {
if len(p.Hand) == 0 {
return offset
}
fmt.Println("Hand")
fmt.Println("----")
for i, s := range p.Hand {
displayNumberedTitles(p, p.Hand, offset)
return offset + len(p.Hand)
}
func displayNumberedTitles[C StatsCollection, T Titled[C]](p *Player[C], cards []T, offset int) {
for i, s := range cards {
fmt.Printf("[%2d]: %s\n", i+offset+1, s.Title(p))
}
return offset + len(p.Hand)
}
// promptCard asks the player to take an action on a card. Returns the option
// they chose, or -1 if there was a serious error or they cancelled selection.
func promptCard[C StatsCollection](p *Player[C], card Card[C]) (optionIdx int, err error) {
func promptCard[C StatsCollection](p *Player[C], card Card[C], cardType EnactableType) (optionIdx int, err error) {
// Iterate until the player makes a valid choice.
for {
opts, valid, err := displayCard(p, card, true)
opts, valid, err := displayCard(p, card, cardType, true)
if IsSeriousError(err) {
return -1, err
}
@ -295,11 +322,11 @@ func promptCard[C StatsCollection](p *Player[C], card Card[C]) (optionIdx int, e
}
}
func displayCard[C StatsCollection](p *Player[C], card Card[C], canAct bool) ([]CardOption[C], bool, error) {
func displayCard[C StatsCollection](p *Player[C], card Card[C], cardType EnactableType, canAct bool) ([]CardOption[C], bool, error) {
cls()
t := card.Title(p).String()
urgent := card.Urgent(p)
if urgent {
if urgent && cardType == CardEnactable {
t = "[URGENT!] " + t
}
fmt.Println(t)
@ -315,7 +342,7 @@ func displayCard[C StatsCollection](p *Player[C], card Card[C], canAct bool) ([]
fmt.Println()
fmt.Println(SectionBreak.String())
fmt.Println()
if !urgent && p.HasUrgentCards() {
if !urgent && cardType != DebugActionEnactable && p.HasUrgentCards() {
fmt.Println("<You have more urgent matters to attend to! You cannot act on this right now.>")
fmt.Println()
canAct = false
@ -385,12 +412,16 @@ func statsMode[C StatsCollection](p *Player[C]) error {
}
}
func actionsMode[C StatsCollection](p *Player[C], canAct bool) (isCard bool, cardIdx, choiceIdx int, committed bool, err error) {
func actionsMode[C StatsCollection](p *Player[C], canAct bool) (actionType EnactableType, cardIdx, choiceIdx int, err error) {
var errs ErrorCollector
for {
cls()
pOff := displayPermanentActionsMenu(p, 0)
if pOff > 0 {
dOff := displayDebugActionsMenu(p, 0)
if dOff > 0 {
fmt.Println()
}
pOff := displayPermanentActionsMenu(p, dOff)
if pOff > dOff {
fmt.Println()
}
max := displayHandMenu(p, pOff)
@ -400,7 +431,7 @@ func actionsMode[C StatsCollection](p *Player[C], canAct bool) (isCard bool, car
fmt.Println("That's a problem. The game is stuck.")
confirmQuit()
errs.Add(WarningStalemate)
return false, -1, -1, true, errs.Emit()
return NothingEnactable, -1, -1, errs.Emit()
}
fmt.Println()
@ -412,7 +443,7 @@ func actionsMode[C StatsCollection](p *Player[C], canAct bool) (isCard bool, car
input := getResponse()
switch input {
case "b", "back":
return false, -1, -1, false, errs.Emit()
return NothingEnactable, -1, -1, errs.Emit()
case "q", "quit":
confirmQuit()
default:
@ -423,35 +454,51 @@ func actionsMode[C StatsCollection](p *Player[C], canAct bool) (isCard bool, car
} else if v < 1 || v > max {
fmt.Println("That's not a card or action.")
wait()
} else if v <= pOff {
} else if v <= dOff {
v--
if canAct {
optIdx, err := promptCard(p, p.PermanentActions[v])
optIdx, err := promptCard(p, p.DebugActions[v], DebugActionEnactable)
errs.Add(err)
if optIdx >= 0 || IsSeriousError(err) {
return false, v, optIdx, true, errs.Emit()
return DebugActionEnactable, v, optIdx, errs.Emit()
}
} else {
_, _, err := displayCard(p, p.PermanentActions[v], false)
_, _, err := displayCard(p, p.DebugActions[v], DebugActionEnactable, false)
errs.Add(err)
if IsSeriousError(err) {
return false, -1, -1, true, errs.Emit()
return DebugActionEnactable, -1, -1, errs.Emit()
}
wait()
}
} else if v <= pOff {
v = v - dOff - 1
if canAct {
optIdx, err := promptCard(p, p.PermanentActions[v], PermanentActionEnactable)
errs.Add(err)
if optIdx >= 0 || IsSeriousError(err) {
return PermanentActionEnactable, v, optIdx, errs.Emit()
}
} else {
_, _, err := displayCard(p, p.PermanentActions[v], PermanentActionEnactable, false)
errs.Add(err)
if IsSeriousError(err) {
return PermanentActionEnactable, -1, -1, errs.Emit()
}
wait()
}
} else {
v = v - pOff - 1
if canAct {
optIdx, err := promptCard(p, p.Hand[v])
optIdx, err := promptCard(p, p.Hand[v], CardEnactable)
errs.Add(err)
if optIdx >= 0 || IsSeriousError(err) {
return true, v, optIdx, false, errs.Emit()
return CardEnactable, v, optIdx, errs.Emit()
}
} else {
_, _, err := displayCard(p, p.Hand[v], false)
_, _, err := displayCard(p, p.Hand[v], CardEnactable, false)
errs.Add(err)
if IsSeriousError(err) {
return false, -1, -1, false, errs.Emit()
return CardEnactable, -1, -1, errs.Emit()
}
wait()
}
@ -464,7 +511,7 @@ func actionsMode[C StatsCollection](p *Player[C], canAct bool) (isCard bool, car
func review[C StatsCollection](p *Player[C]) error {
var errs ErrorCollector
for {
actionsOffset, handOffset, max := displayMainMenu(p)
debugOffset, actionsOffset, handOffset, max := displayMainMenu(p)
divider()
fmt.Println("No actions remaining.")
fmt.Printf("(C)ontinue, review just (M)essages, (I)nfo Panels, (A)ctions, or an item (1-%d), or (Q)uit? > ", max)
@ -485,7 +532,7 @@ func review[C StatsCollection](p *Player[C]) error {
return errs.Emit()
}
case "a", "act", "actions":
_, _, _, _, err := actionsMode(p, false)
_, _, _, err := actionsMode(p, false)
errs.Add(err)
if IsSeriousError(err) {
return errs.Emit()
@ -498,31 +545,34 @@ func review[C StatsCollection](p *Player[C]) error {
i, err := strconv.Atoi(input)
if err != nil {
fmt.Println("Sorry, I don't understand.")
wait()
} else if i <= 0 || i > max {
fmt.Println("That's not on this menu. If the menu is too big to read, choose a detail view.")
wait()
} else if i <= actionsOffset {
} else if i <= debugOffset {
cls()
displayOnePanel(p, p.InfoPanels[i-1])
wait()
} else if i <= actionsOffset {
i = i - debugOffset - 1
_, _, err := displayCard(p, p.DebugActions[i], DebugActionEnactable, false)
errs.Add(err)
if IsSeriousError(err) {
return errs.Emit()
}
} else if i <= handOffset {
i = i - actionsOffset - 1
_, _, err := displayCard(p, p.PermanentActions[i], false)
_, _, err := displayCard(p, p.PermanentActions[i], PermanentActionEnactable, false)
errs.Add(err)
if IsSeriousError(err) {
return errs.Emit()
}
wait()
} else {
i = i - handOffset - 1
_, _, err := displayCard(p, p.Hand[i], false)
_, _, err := displayCard(p, p.Hand[i], CardEnactable, false)
errs.Add(err)
if IsSeriousError(err) {
return errs.Emit()
}
wait()
}
wait()
}
}
}

23
smoketest/cards.go
View File

@ -119,8 +119,8 @@ func initDeck(d *cardsim.Deck[*SmokeTestCollection]) {
func installPermanentActions(pa *[]card) {
*pa = []card{
&cardsim.BasicCard[*SmokeTestCollection]{
CardTitle: cardsim.MsgStr("Reset to 0"),
CardText: cardsim.MsgStr("Resets Number to 0."),
CardTitle: cardsim.MsgStr("Reset Number"),
CardText: cardsim.MsgStr("Resets Number to a fixed value."),
CardOptions: []cardOption{
&cardsim.BasicOption[*SmokeTestCollection]{
Text: cardsim.MsgStr("Reset to 0."),
@ -130,12 +130,6 @@ func installPermanentActions(pa *[]card) {
},
Output: cardsim.MsgStr("Done."),
},
},
},
&cardsim.BasicCard[*SmokeTestCollection]{
CardTitle: cardsim.MsgStr("Reset to 1000000"),
CardText: cardsim.MsgStr("Resets Number to one million."),
CardOptions: []cardOption{
&cardsim.BasicOption[*SmokeTestCollection]{
Text: cardsim.MsgStr("Reset to 1,000,000"),
Effect: func(p *player) error {
@ -146,18 +140,5 @@ func installPermanentActions(pa *[]card) {
},
},
},
&cardsim.BasicCard[*SmokeTestCollection]{
CardTitle: cardsim.MsgStr("Draw a card"),
CardText: cardsim.MsgStr("Draw an extra card."),
CardOptions: []cardOption{
&cardsim.BasicOption[*SmokeTestCollection]{
Text: cardsim.MsgStr("Draw an extra card."),
Effect: func(p *player) error {
return p.Draw()
},
Output: cardsim.MsgStr("Drawn. Probably."),
},
},
},
}
}

14
smoketest/main.go
View File

@ -5,8 +5,6 @@ import (
"fmt"
"git.chromaticdragon.app/kistaro/CardSimEngine/cardsim"
"github.com/kr/pretty"
)
func main() {
@ -45,7 +43,6 @@ func main() {
Name: cardsim.MsgStr("Stats"),
Intro: cardsim.MsgStr("Hi! These are the smoke test stats."),
},
ruledumper{},
}
p.Prompt = prompt{}
p.DebugLevel = 5
@ -69,15 +66,6 @@ func (prompt) Info(p *cardsim.Player[*SmokeTestCollection]) ([]cardsim.Message,
return []cardsim.Message{
cardsim.MsgStr("Here, have some stuff."),
cardsim.Msgf("It's turn %d according to the player and turn %d according to me.", p.TurnNumber, p.Stats.Turns.Value),
cardsim.Msgf("The current Number is %d. It tastes like %s.", p.Stats.Number.Value, p.Stats.Flavor.Value),
}, nil
}
type ruledumper struct{}
func (ruledumper) Title(p *player) cardsim.Message {
return cardsim.MsgStr("Rule Dumper")
}
func (ruledumper) Info(p *player) ([]cardsim.Message, error) {
return []cardsim.Message{cardsim.Msgf("%# v", pretty.Formatter(p.Rules))}, nil
}