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d569e77fc9
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b806264154
Author | SHA1 | Date | |
---|---|---|---|
b806264154 | |||
b8c0e5603a | |||
20561c574c | |||
99e9e35b1d | |||
fd35090b34 |
@ -10,9 +10,19 @@ type Card[C StatsCollection] interface {
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Title(p *Player[C]) (Message, error)
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Title(p *Player[C]) (Message, error)
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// Urgent reports whether the card is considered urgent. If
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// Urgent reports whether the card is considered urgent. If
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// the player hasa any
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// the player has any urgent cards in hand, they cannot choose to act
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// on a non-urgent card.
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Urgent(p *Player[C]) bool
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Urgent(p *Player[C]) bool
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// Drawn is invoked after a card is drawn, before presenting it to the
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// player. If Drawn returns `false`, the card is discarded without being
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// put into the hand or shown to the player and a replacement is drawn
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// instead. To put a card back on the bottom of the deck (or similar)
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// use p.Deck.Insert (or a related function) to put it back explicitly
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// in the right position. Do not put it right back on top of the deck or
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// you'll create an infinite loop.
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Drawn(p *Player[C]) bool
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// EventText returns the text to display on the card. If it returns an
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// EventText returns the text to display on the card. If it returns an
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// error that is not a warning, the game crashes.
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// error that is not a warning, the game crashes.
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EventText(p *Player[C]) (Message, error)
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EventText(p *Player[C]) (Message, error)
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@ -44,7 +54,8 @@ type CardOption[C StatsCollection] interface {
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Enact(p *Player[C]) (Message, error)
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Enact(p *Player[C]) (Message, error)
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}
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}
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// A BasicCard is a Card with fixed title, text, options, and optional post-option callback.
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// A BasicCard is a Card with fixed title, text, options, and optional
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// post-option callback. It never does anything in particular when drawn.
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type BasicCard[C StatsCollection] struct {
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type BasicCard[C StatsCollection] struct {
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CardTitle Message
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CardTitle Message
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IsUrgent bool
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IsUrgent bool
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@ -76,6 +87,10 @@ func (b *BasicCard[C]) Then(p *Player[C], option CardOption[C]) error {
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return b.AfterOption(p, option)
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return b.AfterOption(p, option)
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}
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}
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func (b *BasicCard[C]) Drawn(p *Player[C]) bool {
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return true
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}
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// A BasicOption is a CardOption with fixed text, effects, and output.
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// A BasicOption is a CardOption with fixed text, effects, and output.
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type BasicOption[C StatsCollection] struct {
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type BasicOption[C StatsCollection] struct {
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Text Message
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Text Message
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@ -23,7 +23,7 @@ const (
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// The Deck stores cards yet-to-be-dealt.
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// The Deck stores cards yet-to-be-dealt.
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type Deck[C StatsCollection] struct {
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type Deck[C StatsCollection] struct {
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cards []Card[C]
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cards []Card[C]
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rand rand.Rand
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rand *rand.Rand
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}
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}
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// Len returns the number of cards in the Deck.
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// Len returns the number of cards in the Deck.
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@ -31,8 +31,8 @@ func (d *Deck[C]) Len() int {
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return len(d.cards)
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return len(d.cards)
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}
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}
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// Insert puts a card at a specific location in the Deck. The card previously
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// Insert puts one or more cards at a specific location in the Deck. Cards
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// at that location and all locations after are shifted one card later.
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// at that location and all locations after are shifted deeper into the deck.
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// Negative indexes are counted from the bottom of the deck. BottomOfDeck is
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// Negative indexes are counted from the bottom of the deck. BottomOfDeck is
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// a sentinel value for the bottommost position; -1 is one card above.
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// a sentinel value for the bottommost position; -1 is one card above.
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//
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//
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@ -44,7 +44,7 @@ func (d *Deck[C]) Len() int {
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// WarningTopClamped. Like all warnings, these can be safely ignored and the
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// WarningTopClamped. Like all warnings, these can be safely ignored and the
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// program is in a well-defined state, but you may want to check for them
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// program is in a well-defined state, but you may want to check for them
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// if you expect some other behavior.
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// if you expect some other behavior.
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func (d *Deck[C]) Insert(idx int, card Card[C]) error {
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func (d *Deck[C]) Insert(idx int, card ...Card[C]) error {
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var errs ErrorCollector
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var errs ErrorCollector
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// Calculate actual target index.
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// Calculate actual target index.
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switch {
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switch {
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@ -60,14 +60,7 @@ func (d *Deck[C]) Insert(idx int, card Card[C]) error {
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idx += d.Len()
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idx += d.Len()
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}
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}
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// remaining case: 0 <= idx <= d.Len(), which is a normal forward insert index.
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// remaining case: 0 <= idx <= d.Len(), which is a normal forward insert index.
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d.cards = InsertInto(d.cards, idx, card...)
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// Place new card on bottom and "bubble" into position.
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// Takes O(N) time. If this turns out to be a problem, implement a more
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// efficient data structure.
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d.cards = append(d.cards, card)
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for i := len(d.cards) - 1; i > idx; i-- {
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d.cards[i], d.cards[i-1] = d.cards[i-1], d.cards[i]
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}
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return errs.Emit()
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return errs.Emit()
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}
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}
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@ -203,3 +196,77 @@ func (d *Deck[C]) InsertRandomRange(loFrac, hiFrac float64, card Card[C]) error
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errs.Add(d.Insert(slot, card))
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errs.Add(d.Insert(slot, card))
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return errs.Emit()
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return errs.Emit()
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}
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}
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// Shuffle completely shuffles the deck. If the deck has one or fewer cards,
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// this returns WarningTooFewCards since nothing can be shuffled.
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func (d *Deck[C]) Shuffle() error {
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if len(d.cards) < 2 {
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return WarningTooFewCards
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}
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ShuffleAll(d.cards, d.rand)
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return nil
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}
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// ShufflePart shuffles the `n` cards of the deck starting at `loc`.
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// If the provided range doesn't fit in the deck, this returns
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// WarningTopClamped and/or WarningBottomClamped. If the eventual range
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// of cards to be shuffled (after any off-the-end issues are corrected)
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// is one or less, this returns WarningTooFewCards since nothing can
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// be shuffled.
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func (d *Deck[C]) ShufflePart(loc, n int) error {
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if n < 2 {
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// Nothing to do.
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return WarningTooFewCards
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}
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var errs ErrorCollector
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if loc < 0 {
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errs.Add(Warningf("%w: loc was %d", WarningTopClamped, loc))
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loc = 0
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}
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if loc+n > d.Len() {
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errs.Add(Warningf("%w: deck size %d does not have %d cards at and after location %d",
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WarningBottomClamped, len(d.cards), n, loc))
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n = d.Len() - loc
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// Now is there anything to do?
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if n < 2 {
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errs.Add(WarningTooFewCards)
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return errs.Emit()
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}
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}
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ShufflePart(d.cards, d.rand, loc, n)
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return nil
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}
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// ShuffleRange shuffles the cards between the specified fractions of
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// the deck; the top of the deck is 0.0 and the bottom of the deck is
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// 1.0. This rounds "outward" -- "partial" cards at each end are counted.
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// This can return the same warnings ShufflePart can in the same circumstances
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// and may also complain about a backwards range.
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func (d *Deck[C]) ShuffleRange(loFrac, hiFrac float64) error {
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var errs ErrorCollector
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if loFrac > hiFrac {
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errs.Add(Warningf("%w: %f > %f", WarningBackwardsRange, loFrac, hiFrac))
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loFrac, hiFrac = hiFrac, loFrac
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}
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low := int(math.Floor(loFrac * float64(d.Len())))
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high := int(math.Ceil(hiFrac * float64(d.Len())))
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n := 1 + high - low
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errs.Add(d.ShufflePart(low, n))
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return errs.Emit()
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}
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// ShuffleTop uses ShuffleRange to shuffle the top frac (between 0.0 and 1.0)
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// of the deck. See ShuffleRange and ShufflePart for information on
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// rounding and warnings.
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func (d *Deck[C]) ShuffleTop(frac float64) error {
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return d.ShuffleRange(0.0, frac)
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}
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// Shufflebottom uses ShuffleRange to shuffle the bottom frac (between 0.0 and
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// 1.0) of the deck. See ShuffleRange and ShufflePart for information on
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// rounding and warnings.
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func (d *Deck[C]) ShuffleBottom(frac float64) error {
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return d.ShuffleRange(frac, 1.0)
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}
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@ -7,6 +7,27 @@ import (
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)
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)
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// A Rule implements an operation run on every game turn.
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// A Rule implements an operation run on every game turn.
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//
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// Rule[C] is a generic interface. Like any other generic type, it describes a
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// family of related types: each different kind of StatsCollection that Rule
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// could pertain to is the basis of a distinct type of Rule.
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//
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// When implementing a generic interface, you do not need to implement a
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// generic type. In the case of Rule, you are likely to be writing rules for a
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// specific simulation. That simulation will have some associated
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// StatsCollection type. The rules you write will only need to implement the
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// variation of Rule that pertains specifically to that type.
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//
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// For example, if your `StatsCollection` type is `KoboldMineData`, then rules
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// for the simulation referring to it would implement `Rule[KoboldMineData]`
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// only. So the `Enact` function you implment would take an argument of type
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// `*Player[KoboldMineData]`, not some undefined type `C` that could be any
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// StatsCollection. Since it takes a `*Player[KoboldMineData]` as an argument,
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// you then know that the player's `Stats` field is not just any
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// StatsCollection, it is KoboldMineData specifically. The compiler won't
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// require you to convert from "some `StatsCollection`" to "`KoboldMineData`
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// specifically" when using the `Player[KoboldMineData].Stats` field,
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// because the type of that field is already `KoboldMineData`.
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type Rule[C StatsCollection] interface {
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type Rule[C StatsCollection] interface {
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// Label is an internal name the rule can be recognized by.
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// Label is an internal name the rule can be recognized by.
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// Some things may be easier if it is unique, but it does not have to be.
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// Some things may be easier if it is unique, but it does not have to be.
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128
cardsim/sliceutil.go
Normal file
128
cardsim/sliceutil.go
Normal file
@ -0,0 +1,128 @@
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package cardsim
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import (
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"fmt"
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"math/rand"
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)
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// InsertInto inserts one or more items into a slice at an arbitrary index.
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// Items already in the slice past the target position move to later positons.
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//
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// Like `append`, this may move the underlying array and it produces a new
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// slice header (under the hood, it uses `append`). It returns the new slice
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// (the original is in an undefined state and should no longer be used).
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//
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// If loc is negative or more than one past the end of T, Insert panics.
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func InsertInto[T any](slice []T, loc int, elements ...T) []T {
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if loc < 0 || loc > len(slice) {
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panic(fmt.Sprintf("can't Insert at location %d in %d-element slice", loc, len(slice)))
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}
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// is this a no-op?
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if len(elements) == 0 {
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return slice
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}
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// is this just an append?
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if loc == len(slice) {
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return append(slice, elements...)
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}
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offset := len(elements)
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oldLen := len(slice)
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newSize := oldLen + offset
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if newSize <= cap(slice) {
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// We can reslice in place.
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slice = slice[:newSize]
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// Scoot trailing to their new positions.
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copy(slice[loc+offset:], slice[loc:oldLen])
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// Insert the new elements.
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copy(slice[loc:], elements)
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return slice
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}
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// Reallocate. Do the normal thing of doubling the size as a minimum
|
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// when increasing space for a dynamic array; this amortizes the
|
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// cost of repeatedly reallocating and moving the slice.
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newCap := cap(slice) * 2
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if newCap < newSize {
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newCap = newSize
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}
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newSlice := make([]T, newSize, newCap)
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if loc > 0 {
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copy(newSlice, slice[0:loc])
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}
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copy(newSlice[loc:], elements)
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copy(newSlice[loc+offset:], slice[loc:])
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return newSlice
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|
}
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|
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// DeleteFrom deletes an item from a slice at an arbitrary index. Items after it
|
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// scoot up to close the gap. This returns the modified slice (like Append).
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//
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// If the provided location is not a valid location in the slice, this panics.
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func DeleteFrom[T any](slice []T, loc int) []T {
|
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|
return DeleteNFrom(slice, loc, 1)
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|
}
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|
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|
// DeleteNFrom deletes N items from a slice at an arbitrary index. Items after
|
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|
// it scoot up to close the gap. This returns the modified slice (like Append).
|
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//
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// If the range of items that would be deleted is not entirely valid within the
|
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// slice, this panics.
|
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func DeleteNFrom[T any](slice []T, loc, n int) []T {
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|
if loc < 0 || loc+n > len(slice) {
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panic(fmt.Sprintf("can't delete %d elements from a %d-element slice at location %d", n, len(slice), loc))
|
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|
}
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|
|
||||||
|
// Easy cases.
|
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|
if n == 0 {
|
||||||
|
return slice
|
||||||
|
}
|
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|
if loc == 0 {
|
||||||
|
return slice[n:]
|
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|
}
|
||||||
|
if loc+n == len(slice) {
|
||||||
|
return slice[0:loc]
|
||||||
|
}
|
||||||
|
|
||||||
|
// Is it shorter to move up or move down?
|
||||||
|
if len(slice)-loc-n > loc {
|
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|
// Move forward -- the end is big.
|
||||||
|
copy(slice[n:], slice[:loc])
|
||||||
|
return slice[n:]
|
||||||
|
}
|
||||||
|
// Move backward -- the beginnng is big or they're the same size
|
||||||
|
// (and moving backwards preserves more usable append capacity later).
|
||||||
|
copy(slice[loc:], slice[loc+n:])
|
||||||
|
return slice[:len(slice)-n]
|
||||||
|
}
|
||||||
|
|
||||||
|
// ShuffleAll shuffles everything in slice, using the provided rand.Rand.
|
||||||
|
// If no rand.Rand is provided, this uses the default source.
|
||||||
|
func ShuffleAll[T any](slice []T, r *rand.Rand) {
|
||||||
|
shuffle := rand.Shuffle
|
||||||
|
if r != nil {
|
||||||
|
shuffle = r.Shuffle
|
||||||
|
}
|
||||||
|
shuffle(len(slice), func(i, j int) {
|
||||||
|
slice[i], slice[j] = slice[j], slice[i]
|
||||||
|
})
|
||||||
|
}
|
||||||
|
|
||||||
|
// ShufflePart shuffles the `n` elements of `slice` starting at `loc`
|
||||||
|
// in-place, using the provided rand.Rand. If the range of items to
|
||||||
|
// shuffle is not entirely within `slice`, this panics.
|
||||||
|
//
|
||||||
|
// If no rand.Rand is provided, this uses the default source.
|
||||||
|
func ShufflePart[T any](slice []T, r *rand.Rand, loc, n int) {
|
||||||
|
if loc < 0 || loc+n > len(slice) {
|
||||||
|
panic(fmt.Sprintf("can't shuffle %d elements from a %d-element slice at location %d", n, len(slice), loc))
|
||||||
|
}
|
||||||
|
if n < 1 {
|
||||||
|
return
|
||||||
|
}
|
||||||
|
ShuffleAll(slice[loc:loc+n], r)
|
||||||
|
}
|
Loading…
Reference in New Issue
Block a user