Completed all seven deck requests

This commit is contained in:
Nathan Anderson 2024-07-08 11:51:39 -06:00
parent 777e07035b
commit 653b309825
3 changed files with 595 additions and 224 deletions

View File

@ -1,16 +1,11 @@
const std = @import("std"); const std = @import("std");
pub fn build(b: *std.Build) void { pub fn build(b: *std.Build) void {
const target = b.standardTargetOptions(.{ const target = b.standardTargetOptions(.{});
.whitelist = &[_]std.Target.Query{
std.Target.Query{ .cpu_arch = .aarch64, .os_tag = .macos },
std.Target.Query{ .cpu_arch = .x86_64, .os_tag = .linux },
},
});
// TODO // TODO
// Prefer small size binaries for optimization // Prefer small size binaries for optimization
const optimize = b.standardOptimizeOption(.{ .preferred_optimize_mode = .Debug }); const optimize = b.standardOptimizeOption(.{ .preferred_optimize_mode = .ReleaseSmall });
const exe = b.addExecutable(.{ const exe = b.addExecutable(.{
.name = "genius_deck", .name = "genius_deck",
@ -25,11 +20,12 @@ pub fn build(b: *std.Build) void {
.openssl = false, .openssl = false,
}); });
exe.root_module.addImport("zap", zap.module("zap")); exe.root_module.addImport("zap", zap.module("zap"));
b.installArtifact(exe); b.installArtifact(exe);
// Create Check step for zls // Create Check step for zls
const exe_check = b.addExecutable(.{ const exe_check = b.addExecutable(.{
.name = "zerver", .name = "genius_deck",
.root_source_file = b.path("src/main.zig"), .root_source_file = b.path("src/main.zig"),
.target = target, .target = target,
.optimize = optimize, .optimize = optimize,

View File

@ -2,11 +2,12 @@ const std = @import("std");
const assert = std.debug.assert; const assert = std.debug.assert;
pub const DeckError = error{ pub const DeckError = error{
DuplicateDiscard, DuplicateInDiscard,
Overflow, DuplicateInDeck,
OutOfRangeCut,
}; };
pub const Card = struct { suite: Suit, faceValue: Face }; pub const Card = struct { suit: Suit, face_value: Face };
pub const Suit = enum(u4) { Diamonds = 0, Clubs = 1, Hearts = 2, Spades = 3 }; pub const Suit = enum(u4) { Diamonds = 0, Clubs = 1, Hearts = 2, Spades = 3 };
@ -26,40 +27,36 @@ pub const Face = enum(u4) {
Ace = 14, Ace = 14,
}; };
pub const ShuffleOptions = struct {
seed: ?u64 = null,
};
comptime { comptime {
if (@typeInfo(Suit).Enum.fields.len != 4) { if (@typeInfo(Suit).Enum.fields.len != 4) {
@compileError("Only four suites allowed"); @compileError("Only four suits allowed");
} }
if (@typeInfo(Face).Enum.fields.len != 13) { if (@typeInfo(Face).Enum.fields.len != 13) {
@compileError("Only 13 face cards permitted"); @compileError("Only 13 face cards permitted");
} }
} }
const NUM_SUITES = @typeInfo(Suit).Enum.fields.len; const NUM_SUITS: u8 = @typeInfo(Suit).Enum.fields.len;
const NUM_CARDS_IN_SUITE = @typeInfo(Face).Enum.fields.len; const NUM_CARDS_IN_SUIT: u8 = @typeInfo(Face).Enum.fields.len;
const MAX_CARDS = NUM_SUITES * NUM_CARDS_IN_SUITE; const MAX_CARDS: u8 = NUM_SUITS * NUM_CARDS_IN_SUIT;
const CARD_STRUCT_SIZE = @sizeOf(Card) / 2; const CARD_STRUCT_SIZE: u8 = @sizeOf(Card) / 2;
/// A Bounded Array with a fixed size to fit 52 `Card` structs inside it. pub fn printDeck(deck: *Deck, options: bufPrintCardOptions) void {
/// Requires no allocations because of the fixed max size known at compile time.
// pub fn printCards(cards: CardSlice, options: bufPrintCardOptions) void {
// std.debug.print("Deck with {d} cards\tBuf len: {d}\n", .{ cards.len, cards.buffer.len });
// std.debug.print("--- Bottom of Deck ---\n", .{});
// var buf: [18]u8 = undefined;
// for (0..cards.len) |cardIdx| {
// const card = cards.get(cardIdx);
// std.debug.print(" - {d}: {s}\n", .{ cardIdx, bufPrintCard(card, &buf, options) });
// }
// std.debug.print("--- Top of Deck ---\n", .{});
// }
pub fn printDeck(deck: Deck, options: bufPrintCardOptions) void {
std.debug.print("Deck with {d} cards\n", .{deck.num_cards}); std.debug.print("Deck with {d} cards\n", .{deck.num_cards});
printCards(deck.cards, deck.num_cards, options);
std.debug.print("\nDiscard pile with {d} cards\n", .{deck.num_discards});
printCards(deck.discard_pile, deck.num_discards, options);
}
pub fn printCards(cards: []?Card, num_cards: u8, options: bufPrintCardOptions) void {
std.debug.print("--- Bottom of Deck ---\n", .{}); std.debug.print("--- Bottom of Deck ---\n", .{});
var buf: [18]u8 = undefined; var buf: [18]u8 = undefined;
for (0..deck.num_cards) |cardIdx| { for (0..num_cards) |card_idx| {
std.debug.print(" - {d}: {s}\n", .{ cardIdx, bufPrintCard(deck.cards[cardIdx], &buf, options) }); std.debug.print(" - {d}: {s}\n", .{ card_idx, bufPrintCard(cards[card_idx].?, &buf, options) });
} }
std.debug.print("--- Top of Deck ---\n", .{}); std.debug.print("--- Top of Deck ---\n", .{});
} }
@ -70,12 +67,12 @@ pub const bufPrintCardOptions = struct {
/// Returns a string representation of the card in the `buffer` /// Returns a string representation of the card in the `buffer`
pub fn bufPrintCard(card: Card, buffer: []u8, options: bufPrintCardOptions) []const u8 { pub fn bufPrintCard(card: Card, buffer: []u8, options: bufPrintCardOptions) []const u8 {
// std.debug.print("\n\t{any}", .{card}); // std.debug.print("\n\t{any}", .{card});
const fv = @tagName(card.faceValue); const fv = @tagName(card.face_value);
const icon = if (options.use_icon) suiteToIcon(card.suite) else @tagName(card.suite); const icon = if (options.use_icon) suitToIcon(card.suit) else @tagName(card.suit);
return std.fmt.bufPrint(buffer, "{s} of {s}", .{ fv, icon }) catch return "*err printing card"; return std.fmt.bufPrint(buffer, "{s} of {s}", .{ fv, icon }) catch return "*err printing card";
} }
fn suiteToIcon(s: Suit) []const u8 { pub fn suitToIcon(s: Suit) []const u8 {
return switch (s) { return switch (s) {
.Spades => "󰣑", .Spades => "󰣑",
.Hearts => "", .Hearts => "",
@ -87,117 +84,146 @@ fn suiteToIcon(s: Suit) []const u8 {
pub const Deck = struct { pub const Deck = struct {
num_cards: u8 = 0, num_cards: u8 = 0,
num_discards: u8 = 0, num_discards: u8 = 0,
cb1: [MAX_CARDS]Card = [_]Card{Card{ .suite = .Diamonds, .faceValue = .Two }} ** MAX_CARDS, _cb1: [MAX_CARDS]?Card = [_]?Card{null} ** MAX_CARDS,
cb2: [MAX_CARDS]Card = [_]Card{Card{ .suite = .Diamonds, .faceValue = .Two }} ** MAX_CARDS, _cb2: [MAX_CARDS]?Card = [_]?Card{null} ** MAX_CARDS,
cards: []Card = undefined, cards: []?Card = undefined,
discard_pile: []Card = undefined, discard_pile: []?Card = undefined,
pub fn init(self: *Deck) DeckError!void { /// Populates the `Deck.cards` with the default sort order of face cards.
// var cardBuf = [_]Card{Card{ .suite = .Diamonds, .faceValue = .Two }} ** MAX_CARDS; pub fn init(self: *Deck) void {
self.cards = &self.cb1; self.cards = &self._cb1;
// var discardBuf = [_]Card{Card{ .suite = .Diamonds, .faceValue = .Two }} ** MAX_CARDS; self.discard_pile = &self._cb2;
self.discard_pile = &self.cb2;
// Construct the deck // Construct the deck
for (0..NUM_SUITES) |suiteIdx| { for (0..NUM_SUITS) |suit_idx| {
const suite: Suit = @enumFromInt(suiteIdx); const suit: Suit = @enumFromInt(suit_idx);
for (0..NUM_CARDS_IN_SUITE) |f| { for (0..NUM_CARDS_IN_SUIT) |f| {
const faceIdx = NUM_CARDS_IN_SUITE - f + 1; const face_idx = NUM_CARDS_IN_SUIT - f + 1;
const face: Face = @enumFromInt(faceIdx); const face: Face = @enumFromInt(face_idx);
self.cards[self.num_cards] = Card{ .suite = suite, .faceValue = face }; self.cards[self.num_cards] = Card{ .suit = suit, .face_value = face };
self.num_cards += 1; self.num_cards += 1;
} }
} }
assert(self.num_cards == MAX_CARDS); assert(self.num_cards == MAX_CARDS);
} }
/// Pops and returns the top card off the deck, `null` if none are left.
pub fn deal(self: *Deck) ?Card { pub fn deal(self: *Deck) ?Card {
if (self.num_cards == 0) return null; if (self.num_cards == 0) return null;
self.num_cards -= 1; self.num_cards -= 1;
return self.cards[self.num_cards]; const card = self.cards[self.num_cards];
self.cards[self.num_cards] = null;
return card;
} }
/// Returns the top card off the deck without affecting the deck,
/// `null` if none are left.
pub fn peak(self: *Deck) ?Card { pub fn peak(self: *Deck) ?Card {
if (self.num_cards == 0) return null; if (self.num_cards == 0) return null;
return self.cards[self.num_cards - 1]; return self.cards[self.num_cards - 1];
} }
/// Places the `card` into the `Deck.discard_pile` slice of cards.
/// Returns an error if the card already exists in the `Deck.cards` or
/// `Deck.discard_pile`.
pub fn discard(self: *Deck, card: Card) DeckError!void { pub fn discard(self: *Deck, card: Card) DeckError!void {
// Check a duplicate isnt introduced // Check a duplicate isnt introduced
for (0..self.num_discards) |discardIdx| { for (0..self.num_discards) |discard_idx| {
if (std.meta.eql(self.discard_pile[discardIdx], card)) { if (std.meta.eql(self.discard_pile[discard_idx], card)) {
return DeckError.DuplicateDiscard; return DeckError.DuplicateInDiscard;
}
}
for (0..self.num_cards) |card_idx| {
if (std.meta.eql(self.cards[card_idx], card)) {
return DeckError.DuplicateInDeck;
} }
} }
self.discard_pile[self.num_discards] = card; self.discard_pile[self.num_discards] = card;
self.num_discards += 1; self.num_discards += 1;
} }
pub fn rebuild(self: *Deck) DeckError!void { pub fn cut(self: *Deck, index: u8) DeckError!void {
const newTotal = self.num_cards + self.num_discards; if (index >= self.num_cards or index < 0) return DeckError.OutOfRangeCut;
assert(newTotal <= MAX_CARDS); if (index == 0) return;
for (0..self.num_discards) |disIdx| { const index_from_top: u8 = self.num_cards - index;
self.cards[self.num_cards + disIdx]; var cb = [_]?Card{null} ** MAX_CARDS;
var top_cards: []?Card = cb[index_from_top..MAX_CARDS];
for (0..index) |top_idx| {
top_cards[top_idx] = self.cards[index_from_top + top_idx];
}
for (0..index_from_top) |bot_idx| {
self.cards[self.num_cards - bot_idx - 1] = self.cards[index_from_top - bot_idx - 1];
}
for (0..index) |top_idx| {
self.cards[top_idx] = top_cards[top_idx];
}
}
/// Empties the `Deck.discard_pile` into the `Deck.cards` and
/// sorts the resulting `[]Card` slice.
pub fn rebuild(self: *Deck) void {
const new_total = self.num_cards + self.num_discards;
assert(new_total <= MAX_CARDS);
const back_of_cards_idx = self.num_cards;
for (0..self.num_discards) |dis_idx| {
const card_idx = back_of_cards_idx + dis_idx;
self.cards[card_idx] = self.discard_pile[dis_idx];
self.num_cards += 1; self.num_cards += 1;
} }
self.num_discards = 0; self.num_discards = 0;
assert(self.num_cards == newTotal); assert(self.num_cards == new_total);
try sort(self.cards); self.sort();
} }
pub fn order_deck(self: *Deck) DeckError!void { /// Sorts the `Deck.cards` slice in place
try sort(self.cards); pub fn order_deck(self: *Deck) void {
self.sort();
} }
fn sort(cards: []Card, numCards: u8) DeckError!void { /// Sorts a `Deck.cards` in place
if (cards.len <= 1) return; /// We can sort the deck quickly because we
var cb = [MAX_CARDS]?Card{null} ** MAX_CARDS; /// know the index of each card by default,
var sortedGapsDeck: []?Card = cb[0..MAX_CARDS]; /// the sorting takes N time, and 2N space
///
/// Default Order from Top to Bottom is:
/// Suits: Spades > Hearts > Clubs > Diamonds
/// FaceValue: 2 > 10 > Jack > Queen > King > Ace
/// 2 of Spades is on top, Ace of Diamonds is the bottom card
fn sort(self: *Deck) void {
if (self.num_cards <= 1) return;
var cb = [_]?Card{null} ** MAX_CARDS;
var sorted_gaps_deck: []?Card = cb[0..MAX_CARDS];
var idx_used = [_]bool{false} ** MAX_CARDS;
for (cards) |card| { var cards_added: u8 = 0;
const cardIdx = faceValueIdx(card.faceValue) + suiteValueIdx(card.suite); for (self.cards) |maybe_card| {
sortedGapsDeck[cardIdx] = card; if (maybe_card) |card| {
} const card_idx = faceValueIdx(card.face_value) + suitValueIdx(card.suit);
var cb2: [MAX_CARDS]Card = undefined; assert(!idx_used[card_idx]);
var sortedGaplessDeck = cb2[0..numCards]; idx_used[card_idx] = true;
var glIdx: u8 = 0; sorted_gaps_deck[card_idx] = card;
for (0..sortedGapsDeck.len) |gIdx| { cards_added += 1;
if (sortedGapsDeck[gIdx] != null) {
sortedGaplessDeck[glIdx] = sortedGapsDeck[gIdx];
glIdx += 1;
} }
} }
assert(cards_added == self.num_cards);
var newCards = []Card.init(0) catch return DeckError.Overflow; self.num_cards = 0;
for (sortedGaplessDeck) |card| { for (0..MAX_CARDS) |g_idx| {
newCards.append(card) catch return DeckError.Overflow; if (sorted_gaps_deck[g_idx] != null) {
} self.cards[self.num_cards] = sorted_gaps_deck[g_idx].?;
} self.num_cards += 1;
}
fn cloneDeck(deck: *[]Card) DeckError![]Card {
var newDeck = []Card.init(0) catch return DeckError.Overflow;
for (deck.buffer) |card| {
newDeck.append(card) catch return DeckError.Overflow;
}
return newDeck;
}
test "Deck.cloneDeck" {
var deck = Deck{};
try deck.init();
const clonedCards = try Deck.cloneDeck(&deck.cards);
try std.testing.expectEqual(deck.cards.len, clonedCards.len);
for (deck.cards, 0..) |card, i| {
try std.testing.expectEqual(card, clonedCards[i]);
} }
assert(self.num_cards == cards_added);
} }
/// Gives the index within the suit for a given `Face`
fn faceValueIdx(f: Face) u8 { fn faceValueIdx(f: Face) u8 {
const negIdx: i16 = @intCast(@intFromEnum(f)); const neg_idx: i16 = @intCast(@intFromEnum(f));
return @intCast(@abs(negIdx - 14)); return @intCast(@abs(neg_idx - 14));
} }
test "Deck.faceValueIdx" { test "Deck.faceValueIdx" {
@ -205,83 +231,40 @@ pub const Deck = struct {
try std.testing.expectEqual(1, faceValueIdx(Face.King)); try std.testing.expectEqual(1, faceValueIdx(Face.King));
} }
fn suiteValueIdx(s: Suit) u8 { fn suitValueIdx(s: Suit) u8 {
const cards: u8 = @intCast(NUM_CARDS_IN_SUITE); const cards: u8 = @intCast(NUM_CARDS_IN_SUIT);
return @intFromEnum(s) * cards; return @intFromEnum(s) * cards;
} }
// fn mergeSplit(a: *BoundedArrayOfCards, b: *BoundedArrayOfCards, iBegin: u8, iEnd: u8) void { pub fn shuffle(self: *Deck, shuffle_options: ShuffleOptions) void {
// if (iEnd - iBegin <= 1) return; const seed: u64 = if (shuffle_options.seed) |s| s else @intCast(std.time.milliTimestamp());
// const iMiddle: u8 = (iBegin + iEnd) / 2; var prng = std.Random.DefaultPrng.init(seed);
// mergeSplit(a, b, iBegin, iMiddle); const random = prng.random();
// mergeSplit(a, b, iMiddle, iEnd); var i: u8 = 0;
// merge(b, a, iBegin, iMiddle, iEnd); while (i < self.num_cards - 1) : (i += 1) {
// } const j = random.intRangeLessThan(u8, 0, self.num_cards);
std.mem.swap(Card, &self.cards[i].?, &self.cards[j].?);
// /// Merges two arrays of cards, deck `a` is merged into deck `b`
// fn merge(a: *BoundedArrayOfCards, b: *BoundedArrayOfCards, iBegin: u8, iMiddle: u8, iEnd: u8) void {
// var i = iBegin;
// var j = iMiddle;
// for (iBegin..iEnd) |k| {
// if (i < iMiddle and (j >= iEnd or gt(a.get(j), a.get(i)))) {
// b.set(k, a.get(i));
// i = i + 1;
// } else {
// b.set(k, a.get(j));
// j = j + 1;
// }
// }
// }
/// Greater than comparison function for two cards
/// A card is considered greater, if it is found closer
/// to the top of the deck when set to the default sort order
///
/// Default Order from Top to Bottom is:
/// Suites: Spades > Hearts > Clubs > Diamonds
/// FaceValue: 2 > 10 > Jack > Queen > King > Ace
/// 2 of Spades is on top, Ace of Diamonds is the bottom card
fn gt(l: Card, r: Card) bool {
const lSuite: u4 = @intFromEnum(l.suite);
const lFace: u4 = @intFromEnum(l.faceValue);
const rSuite: u4 = @intFromEnum(r.suite);
const rFace: u4 = @intFromEnum(r.faceValue);
if (lSuite != rSuite) {
return lSuite > rSuite;
} }
// reverse comparison for face value, because 3 (3) is > ace (14)
return lFace < rFace;
}
test "Deck.gt" {
const twoHearts = Card{ .suite = .Hearts, .faceValue = .Two };
const kingSpades = Card{ .suite = .Spades, .faceValue = .King };
const aceSpades = Card{ .suite = .Spades, .faceValue = .Ace };
try std.testing.expect(Deck.gt(kingSpades, twoHearts));
try std.testing.expect(Deck.gt(kingSpades, aceSpades));
try std.testing.expect(!Deck.gt(aceSpades, aceSpades));
} }
}; };
test "Deck.init" { test "Deck.init" {
var deck = Deck{}; var deck = Deck{};
try deck.init(); deck.init();
try std.testing.expectEqual(MAX_CARDS, deck.num_cards); try std.testing.expectEqual(MAX_CARDS, deck.num_cards);
try std.testing.expectEqual(Card{ .suite = .Diamonds, .faceValue = .Ace }, deck.cards[0]); try std.testing.expectEqual(Card{ .suit = .Diamonds, .face_value = .Ace }, deck.cards[0]);
try std.testing.expectEqual(Card{ .suite = .Spades, .faceValue = .Two }, deck.cards[51]); try std.testing.expectEqual(Card{ .suit = .Spades, .face_value = .Two }, deck.cards[51]);
} }
test "Deck.deal" { test "Deck.deal" {
var deck = Deck{}; var deck = Deck{};
try deck.init(); deck.init();
try std.testing.expectEqual(deck.deal(), Card{ .suite = .Spades, .faceValue = .Two }); try std.testing.expectEqual(deck.deal(), Card{ .suit = .Spades, .face_value = .Two });
try std.testing.expectEqual(51, deck.num_cards); try std.testing.expectEqual(51, deck.num_cards);
try std.testing.expectEqual(deck.deal(), Card{ .suite = .Spades, .faceValue = .Three }); try std.testing.expectEqual(deck.deal(), Card{ .suit = .Spades, .face_value = .Three });
try std.testing.expectEqual(50, deck.num_cards); try std.testing.expectEqual(50, deck.num_cards);
for (0..50) |_| { for (0..50) |_| {
@ -294,9 +277,9 @@ test "Deck.deal" {
test "Deck.peak" { test "Deck.peak" {
var deck = Deck{}; var deck = Deck{};
try deck.init(); deck.init();
try std.testing.expectEqual(Card{ .suite = .Spades, .faceValue = .Two }, deck.peak()); try std.testing.expectEqual(Card{ .suit = .Spades, .face_value = .Two }, deck.peak());
try std.testing.expectEqual(MAX_CARDS, deck.num_cards); try std.testing.expectEqual(MAX_CARDS, deck.num_cards);
// Deal out 20 cards // Deal out 20 cards
@ -304,7 +287,7 @@ test "Deck.peak" {
_ = deck.deal(); _ = deck.deal();
} }
try std.testing.expectEqual(deck.peak(), Card{ .suite = .Hearts, .faceValue = .Nine }); try std.testing.expectEqual(deck.peak(), Card{ .suit = .Hearts, .face_value = .Nine });
try std.testing.expectEqual(deck.num_cards, 32); try std.testing.expectEqual(deck.num_cards, 32);
// Try to peak empty deck // Try to peak empty deck
@ -316,12 +299,12 @@ test "Deck.peak" {
test "Deck.discard" { test "Deck.discard" {
var deck = Deck{}; var deck = Deck{};
try deck.init(); deck.init();
const twoSpadesCard = deck.deal(); const twoSpadesCard = deck.deal();
try std.testing.expect(twoSpadesCard != null); try std.testing.expect(twoSpadesCard != null);
try std.testing.expect(twoSpadesCard.?.suite == .Spades); try std.testing.expect(twoSpadesCard.?.suit == .Spades);
try std.testing.expect(twoSpadesCard.?.faceValue == .Two); try std.testing.expect(twoSpadesCard.?.face_value == .Two);
// Deal out 13 cards // Deal out 13 cards
for (0..12) |_| { for (0..12) |_| {
@ -329,8 +312,8 @@ test "Deck.discard" {
} }
const twoHeartsCard = deck.deal(); const twoHeartsCard = deck.deal();
try std.testing.expect(twoHeartsCard != null); try std.testing.expect(twoHeartsCard != null);
try std.testing.expect(twoHeartsCard.?.suite == .Hearts); try std.testing.expect(twoHeartsCard.?.suit == .Hearts);
try std.testing.expect(twoHeartsCard.?.faceValue == .Two); try std.testing.expect(twoHeartsCard.?.face_value == .Two);
// Discard two cards // Discard two cards
try deck.discard(twoSpadesCard.?); try deck.discard(twoSpadesCard.?);
@ -340,12 +323,12 @@ test "Deck.discard" {
try std.testing.expectEqual(twoSpadesCard.?, deck.discard_pile[0]); try std.testing.expectEqual(twoSpadesCard.?, deck.discard_pile[0]);
// Fails to add duplicate card // Fails to add duplicate card
try std.testing.expectError(DeckError.DuplicateDiscard, deck.discard(twoSpadesCard.?)); try std.testing.expectError(DeckError.DuplicateInDiscard, deck.discard(twoSpadesCard.?));
} }
test "Deck.rebuild" { test "Deck.rebuild" {
var deck = Deck{}; var deck = Deck{};
try deck.init(); deck.init();
var buf1 = [_]?Card{null} ** 5; var buf1 = [_]?Card{null} ** 5;
var buf2 = [_]?Card{null} ** 5; var buf2 = [_]?Card{null} ** 5;
var buf3 = [_]?Card{null} ** 5; var buf3 = [_]?Card{null} ** 5;
@ -355,7 +338,7 @@ test "Deck.rebuild" {
// Alternate dealing player one and two hands // Alternate dealing player one and two hands
for (0..10) |i| { for (0..10) |i| {
if (i % 2 == 0) try playerOneHand.append(deck.deal().?) else try playerTwoHand.append(deck.deal().?); if (i % 2 == 0) playerOneHand[i / 2] = deck.deal().? else playerTwoHand[i / 2] = deck.deal().?;
} }
try std.testing.expectEqual(5, playerOneHand.len); try std.testing.expectEqual(5, playerOneHand.len);
@ -372,66 +355,131 @@ test "Deck.rebuild" {
try std.testing.expectEqual(5, playerThreeHand.len); try std.testing.expectEqual(5, playerThreeHand.len);
try std.testing.expectEqual(10, deck.discard_pile.len); try std.testing.expectEqual(10, deck.num_discards);
try std.testing.expectEqual(27, deck.cards.len); try std.testing.expectEqual(27, deck.num_cards);
for (0..15) |i| { for (0..15) |i| {
switch (i % 3) { switch (i % 3) {
0 => try deck.discard(playerThreeHand.pop()), 0 => try deck.discard(playerThreeHand[i / 3].?),
1 => try deck.discard(playerOneHand.pop()), 1 => try deck.discard(playerOneHand[i / 3].?),
2 => try deck.discard(playerTwoHand.pop()), 2 => try deck.discard(playerTwoHand[i / 3].?),
else => unreachable, else => unreachable,
} }
} }
try std.testing.expectEqual(25, deck.discard_pile.len); try std.testing.expectEqual(25, deck.num_discards);
try deck.rebuild(); deck.rebuild();
try std.testing.expectEqual(0, deck.discard_pile.len); try std.testing.expectEqual(0, deck.num_discards);
try std.testing.expectEqual(52, deck.cards.len); try std.testing.expectEqual(52, deck.num_cards);
try std.testing.expectEqual(Card{ .suite = .Diamonds, .faceValue = .Ace }, deck.cards[0]); try std.testing.expectEqual(Card{ .suit = .Diamonds, .face_value = .Ace }, deck.cards[0]);
try std.testing.expectEqual(Card{ .suite = .Spades, .faceValue = .Two }, deck.cards[51]); try std.testing.expectEqual(Card{ .suit = .Spades, .face_value = .Two }, deck.cards[51]);
} }
// test "Deck.rebuild with missing cards" { test "Deck.rebuild with missing cards" {
// var deck = Deck{}; var deck = Deck{};
// try deck.init(); deck.init();
// // var playerOneHand = []Card.init(0) catch unreachable; var buf1 = [_]?Card{null} ** 13;
// // var playerTwoHand = []Card.init(0) catch unreachable; var buf2 = [_]?Card{null} ** 13;
var player_one_hand: []?Card = &(buf1);
var player_two_hand: []?Card = &(buf2);
// // Alternate dealing player one discarding cards // Mix up the cards, throw some away
// for (0..52) |i| { for (0..MAX_CARDS) |i| {
// switch (i % 4) { switch (i % 4) {
// 0 => try playerTwoHand.append(deck.deal().?), 0 => player_two_hand[i / 4] = deck.deal().?,
// 1 => try deck.discard(deck.deal().?), 1 => try deck.discard(deck.deal().?),
// 2 => try playerOneHand.append(deck.deal().?), 2 => player_one_hand[i / 4] = deck.deal().?,
// 3 => { 3 => {
// _ = deck.deal(); _ = deck.deal();
// }, },
// else => unreachable, else => unreachable,
// } }
// } }
// try std.testing.expectEqual(13, playerOneHand.len); try std.testing.expectEqual(13, deck.num_discards);
// try std.testing.expectEqual(13, playerTwoHand.len); try std.testing.expectEqual(0, deck.num_cards);
// try std.testing.expectEqual(13, deck.discard_pile.len);
// try std.testing.expectEqual(0, deck.cards.len);
// for (0..26) |i| { for (0..26) |i| {
// switch (i % 2) { switch (i % 2) {
// 0 => try deck.discard(playerOneHand.pop()), 0 => try deck.discard(player_one_hand[i / 2].?),
// 1 => try deck.discard(playerTwoHand.pop()), 1 => try deck.discard(player_two_hand[i / 2].?),
// else => unreachable, else => unreachable,
// } }
// } }
// try std.testing.expectEqual(39, deck.discard_pile.len); try std.testing.expectEqual(39, deck.num_discards);
// try deck.rebuild(); deck.rebuild();
// try std.testing.expectEqual(0, deck.discard_pile.len); try std.testing.expectEqual(0, deck.num_discards);
// try std.testing.expectEqual(39, deck.cards.len); try std.testing.expectEqual(39, deck.num_cards);
// try std.testing.expectEqual(Card{ .suite = .Diamonds, .faceValue = .Ace }, deck.cards[0]); try std.testing.expectEqual(Card{ .suit = .Diamonds, .face_value = .King }, deck.cards[0]);
// try std.testing.expectEqual(Card{ .suite = .Spades, .faceValue = .Two }, deck.cards[38]); try std.testing.expectEqual(Card{ .suit = .Spades, .face_value = .Two }, deck.cards[38]);
// } }
test "Deck.cut" {
var deck = Deck{};
deck.init();
try deck.cut(1);
try std.testing.expectEqual(Card{ .suit = .Spades, .face_value = .Three }, deck.peak());
try deck.cut(0);
try std.testing.expectEqual(Card{ .suit = .Spades, .face_value = .Three }, deck.peak());
try deck.cut(21);
try std.testing.expectEqual(Card{ .suit = .Hearts, .face_value = .Jack }, deck.peak());
// lots of cuts to get back to sorted
try deck.cut(5);
try deck.cut(0);
try deck.cut(2);
try deck.cut(8);
try deck.cut(12);
try deck.cut(3);
try std.testing.expectEqual(Card{ .suit = .Spades, .face_value = .Two }, deck.peak());
var deck2 = Deck{};
deck2.init();
try std.testing.expectEqual(deck2.num_cards, deck.num_cards);
// Should be just like a new deck at this point
for (0..deck2.num_cards) |idx| {
try std.testing.expectEqual(deck2.cards[idx], deck.cards[idx]);
}
// Invalid cuts
for (0..10) |_| {
_ = deck.deal();
}
try std.testing.expectEqual(42, deck.num_cards);
try std.testing.expectError(DeckError.OutOfRangeCut, deck.cut(50));
try std.testing.expectError(DeckError.OutOfRangeCut, deck.cut(42));
try deck.cut(41);
try std.testing.expectEqual(Card{ .suit = .Diamonds, .face_value = .Ace }, deck.peak());
}
test "Deck.shuffle" {
var deck = Deck{};
deck.init();
deck.shuffle(.{ .seed = 0 });
try std.testing.expectEqual(Card{ .suit = .Diamonds, .face_value = .Five }, deck.peak());
for (0..25) |_| {
_ = deck.deal();
}
deck.shuffle(.{ .seed = 0 });
try std.testing.expectEqual(Card{ .suit = .Diamonds, .face_value = .Ace }, deck.peak());
deck.sort();
deck.shuffle(.{ .seed = 0 });
try std.testing.expectEqual(Card{ .suit = .Hearts, .face_value = .Nine }, deck.peak());
}

View File

@ -1,6 +1,333 @@
const std = @import("std"); const std = @import("std");
const deck = @import("deck.zig"); const zap = @import("zap");
pub fn main() !void { const d = @import("deck.zig");
std.debug.print("It works!\n", .{}); const DeckHttpType = enum { GET, POST };
const DeckHttpRoute = union(DeckHttpType) {
GET: *const fn (*DeckContext) void,
POST: *const fn (*DeckContext) void,
};
const DeckContext = struct {
deck: *d.Deck,
request: zap.Request,
};
var routes: std.StringHashMap(DeckHttpRoute) = undefined;
var deck: d.Deck = undefined;
var verbose = false;
var very_verbose = false;
pub fn main() void {
// Setup stack allocator
var buf: [1024]u8 = undefined;
var buf_allocator = std.heap.FixedBufferAllocator.init(&buf);
var arena = std.heap.ArenaAllocator.init(buf_allocator.allocator());
const allocator = arena.allocator();
defer arena.deinit();
// Parse Args
var args_iter = std.process.argsWithAllocator(allocator) catch {
std.debug.print("ERR: Unable to initialize args parser");
};
var port_or_err: error{ BadPort, MissingPort }!u16 = 8081;
_ = args_iter.skip();
while (args_iter.next()) |arg| {
if (std.mem.eql(u8, arg, "-h")) {
printHelp();
return;
} else if (std.mem.eql(u8, arg, "-p")) {
const port_slice = args_iter.next();
if (port_slice) |ps| {
port_or_err = std.fmt.parseInt(u16, ps, 10) catch error.BadPort;
} else {
port_or_err = error.MissingPort;
}
} else if (std.mem.eql(u8, arg, "-v")) {
verbose = true;
} else if (std.mem.eql(u8, arg, "-vv")) {
verbose = true;
very_verbose = true;
}
}
if (port_or_err == error.BadPort) {
std.debug.print("The port provided is not a valid number.", .{});
return;
} else if (port_or_err == error.MissingPort) {
std.debug.print("A port was not provided after the cli -p option, try `-p 8000`\n", .{});
return;
}
const port: usize = @intCast(port_or_err catch 8081);
std.debug.print("Starting deck server on port {d}\n", .{port});
deck = d.Deck{};
deck.init();
routes = std.StringHashMap(DeckHttpRoute).init(allocator);
routes.put("/deal", DeckHttpRoute{ .GET = deal }) catch return;
routes.put("/cheat", DeckHttpRoute{ .GET = cheat }) catch return;
routes.put("/discard", DeckHttpRoute{ .POST = discard }) catch return;
routes.put("/cut", DeckHttpRoute{ .POST = cut }) catch return;
routes.put("/rebuild", DeckHttpRoute{ .POST = rebuild }) catch return;
routes.put("/sort", DeckHttpRoute{ .POST = sort }) catch return;
routes.put("/shuffle", DeckHttpRoute{ .POST = shuffle }) catch return;
var listener = zap.HttpListener.init(.{ .port = port, .on_request = onRequest, .log = verbose });
std.debug.print("Listening\n", .{});
listener.listen() catch |err| {
std.debug.print("Unable to start http server: {any}\n", .{err});
};
zap.start(.{ .threads = 1, .workers = 1 });
}
fn onRequest(request: zap.Request) void {
if (request.path == null) {
return;
}
var found_route = false;
if (routes.get(request.path.?)) |route| {
switch (route) {
.GET => {
if (request.method == null) return;
if (!std.mem.eql(u8, request.method.?, "GET")) return;
var ctx = DeckContext{ .deck = &deck, .request = request };
found_route = true;
route.GET(&ctx);
if (very_verbose) {
d.printDeck(&deck, .{});
}
},
.POST => {
if (request.method == null) return;
if (!std.mem.eql(u8, request.method.?, "POST")) return;
var ctx = DeckContext{ .deck = &deck, .request = request };
found_route = true;
route.POST(&ctx);
if (very_verbose) {
d.printDeck(&deck, .{});
}
},
}
}
if (!found_route) {
sendErrorMessage(request, "Unknown route", .not_found);
}
}
pub const DealGetRequest = struct {
cards_in_deck: u8,
face_value: []const u8,
suit: []const u8,
suit_unicode: []const u8,
};
fn deal(ctx: *DeckContext) void {
const card_or_null = ctx.deck.deal();
if (card_or_null) |card| {
var buf: [200]u8 = undefined;
const card_json = zap.stringifyBuf(&buf, DealGetRequest{
.cards_in_deck = ctx.deck.num_cards,
.face_value = @tagName(card.face_value),
.suit = @tagName(card.suit),
.suit_unicode = d.suitToIcon(card.suit),
}, .{});
if (card_json == null) {
ctx.request.sendError(error.BadJsonStringify, if (@errorReturnTrace()) |t| t.* else null, 500);
return;
}
ctx.request.sendJson(card_json.?) catch |err| {
std.debug.print("{any}", .{err});
return;
};
} else {
ctx.request.sendBody("No cards left") catch return;
}
}
fn cheat(ctx: *DeckContext) void {
const card_or_null = ctx.deck.peak();
if (card_or_null) |card| {
var buf: [200]u8 = undefined;
const card_json = zap.stringifyBuf(&buf, DealGetRequest{
.cards_in_deck = ctx.deck.num_cards,
.face_value = @tagName(card.face_value),
.suit = @tagName(card.suit),
.suit_unicode = d.suitToIcon(card.suit),
}, .{});
if (card_json == null) {
ctx.request.sendError(error.BadJsonStringify, if (@errorReturnTrace()) |t| t.* else null, 500);
return;
}
ctx.request.sendJson(card_json.?) catch |err| {
std.debug.print("{any}", .{err});
return;
};
} else {
ctx.request.sendBody("No cards left") catch return;
}
}
fn discard(ctx: *DeckContext) void {
ctx.request.parseBody() catch return;
if (ctx.request.body == null) {
ctx.request.setStatus(.bad_request);
ctx.request.sendJson("{\"success\" = false, \"error\": \"Missing card data\"}") catch return;
return;
}
var gpa = std.heap.GeneralPurposeAllocator(.{}){};
const allocator = gpa.allocator();
const json_body = std.json.parseFromSlice(d.Card, allocator, ctx.request.body.?, .{}) catch |err| {
if (err == error.InvalidEnumTag) {
ctx.request.setStatus(.bad_request);
ctx.request.sendJson("{\"success\" = false, \"error\": \"Invalid card value provided\"}") catch return;
return;
}
ctx.request.sendError(err, if (@errorReturnTrace()) |t| t.* else null, 500);
return;
};
defer json_body.deinit();
ctx.deck.discard(json_body.value) catch |err| {
switch (err) {
d.DeckError.DuplicateInDiscard => {
ctx.request.setStatus(.bad_request);
ctx.request.sendJson("{\"success\": false, \"error\": \"Unable to add to discard, already exists.\"}") catch return;
return;
},
d.DeckError.DuplicateInDeck => {
ctx.request.setStatus(.bad_request);
ctx.request.sendJson("{\"success\": false, \"error\": \"Unable to add to discard, card exists in deck.\"}") catch return;
return;
},
else => unreachable,
}
};
ctx.request.setStatus(.ok);
var buf: [100]u8 = undefined;
const json = zap.stringifyBuf(&buf, .{ .success = true }, .{});
if (json == null) {
return;
}
ctx.request.sendJson(json.?) catch return;
}
pub const CutPostRequest = struct {
index: u8,
};
fn cut(ctx: *DeckContext) void {
if (ctx.request.body == null and ctx.request.query == null) {
ctx.request.setStatus(.bad_request);
ctx.request.sendJson("{\"success\" = false, \"error\": \"Missing cut index\"}") catch return;
return;
}
var index: u8 = undefined;
var gpa = std.heap.GeneralPurposeAllocator(.{}){};
const allocator = gpa.allocator();
// use json body
if (ctx.request.body != null) {
ctx.request.parseBody() catch return;
const json_body = std.json.parseFromSlice(CutPostRequest, allocator, ctx.request.body.?, .{}) catch |err| {
if (err == error.Overflow) {
ctx.request.setStatus(.bad_request);
ctx.request.sendJson("{\"success\": false, \"error\": \"Expecting unsigned 8 bit integer as index\"}") catch return;
return;
}
ctx.request.sendError(err, if (@errorReturnTrace()) |t| t.* else null, 500);
return;
};
defer json_body.deinit();
index = json_body.value.index;
}
// use query params
else {
ctx.request.parseQuery();
var params = ctx.request.parametersToOwnedList(allocator, false) catch |err| {
ctx.request.sendError(err, if (@errorReturnTrace()) |t| t.* else null, 500);
return;
};
defer params.deinit();
if (params.items.len != 1 or !std.mem.eql(u8, "index", params.items[0].key.str)) {
sendErrorMessage(ctx.request, "Only key 'index' allowed in query params", .bad_request);
return;
}
index = @intCast(params.items[0].value.?.Int);
}
ctx.deck.cut(index) catch |err| {
switch (err) {
d.DeckError.OutOfRangeCut => {
ctx.request.setStatus(.bad_request);
ctx.request.sendJson("{\"success\": false, \"error\": \"Index provided is out of range\"}") catch return;
return;
},
else => unreachable,
}
};
ctx.request.setStatus(.ok);
var buf: [100]u8 = undefined;
const json = zap.stringifyBuf(&buf, .{ .success = true }, .{});
if (json == null) {
return;
}
ctx.request.sendJson(json.?) catch return;
}
fn rebuild(ctx: *DeckContext) void {
ctx.deck.rebuild();
ctx.request.setStatus(.ok);
var buf: [100]u8 = undefined;
const json = zap.stringifyBuf(&buf, .{ .success = true }, .{});
if (json == null) {
return;
}
ctx.request.sendJson(json.?) catch return;
}
fn sort(ctx: *DeckContext) void {
ctx.deck.order_deck();
ctx.request.setStatus(.ok);
var buf: [100]u8 = undefined;
const json = zap.stringifyBuf(&buf, .{ .success = true }, .{});
if (json == null) {
return;
}
ctx.request.sendJson(json.?) catch return;
}
fn shuffle(ctx: *DeckContext) void {
ctx.deck.shuffle(.{});
ctx.request.setStatus(.ok);
var buf: [100]u8 = undefined;
const json = zap.stringifyBuf(&buf, .{ .success = true }, .{});
if (json == null) {
return;
}
ctx.request.sendJson(json.?) catch return;
}
const DeckErrorMessage = struct {
success: bool,
message: []const u8,
};
fn sendErrorMessage(request: zap.Request, msg: []const u8, status: zap.StatusCode) void {
request.setStatus(status);
var buf: [300]u8 = undefined;
const json = zap.stringifyBuf(&buf, DeckErrorMessage{ .success = false, .message = msg }, .{});
if (json == null) {
return;
}
request.sendJson(json.?) catch return;
}
fn printHelp() void {
const menu_text =
\\Help Menu
\\ -v Verbose logging
\\ -vv Very verbose logging
\\ -p <PORT> Specify a port other than the default 8081
\\ -h Prints this help menu
;
std.debug.print("{s}\n", .{menu_text});
} }