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Ilia Denisov a9c8f1ecfe test(offline): real-dictionary move-generator conformance in CI
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Phase A (A4): prove the ported move generator (#188) against the FULL shipped
dictionaries, not just the tiny samples — the deep graphs and complete 26/33-letter
alphabets the samples cannot reach.

- backend/cmd/movegen: add a -dawg-dir mode that emits per-variant golden move-gen
  vectors from the real dawgs (a bounded first-move + a blank case + a deep 7-tile
  mid-game position). Regenerated in CI to /tmp, never committed (like the
  dictgen/validategen vectors), so no dictionary version is pinned into the repo.
- ui/src/lib/dict/generate.realparity.test.ts: env-gated (DICT_DAWG_DIR +
  DICT_MOVEGEN_DIR) parity against that golden — 9 positions across scrabble_en /
  scrabble_ru / erudit_ru match the Go solver exactly. Skips cleanly when unset.
- .gitea/workflows/ci.yaml: the conformance job now generates the movegen golden
  and points the gated vitest at it (DICT_MOVEGEN_DIR).
2026-07-06 02:16:50 +02:00
developer d694ead7b6 Merge pull request 'feat(offline): robot move-choice strategy in TS (parity-pinned)' (#189) from feature/offline-robot-strategy into development
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2026-07-05 23:59:06 +00:00
Ilia Denisov 8c5995c076 feat(offline): port robot move-choice strategy to TS (parity-pinned)
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Phase A (2/2) of PWA offline mode: the offline robot picks its move exactly as the
server does, so a local vs_ai game plays the same. Builds on the move generator
from #188; not wired into a game loop yet (Phase B).

- ui/src/lib/robot/strategy.ts: port of backend/internal/robot/strategy.go's
  move-choice slice — mix (FNV-1a, via BigInt for bit-exact uint64), playToWin
  (~40% play-to-win), deviates (the fading off-strategy wobble) and selectMove
  (pick the candidate whose resulting margin lands closest to the +/-[1,30] band,
  conservative tie-break), composed by decide(). The generator's ranked moves feed
  straight in. Think-time/sleep/nudge scheduling is server-only and not ported.
- backend/internal/robot/strategyfixture_test.go: an in-package, env-gated emitter
  (EMIT_STRATEGY_FIXTURES=1) writing golden fixtures from the real Go strategy — it
  reaches the unexported mix/playToWin/deviates/selectMove.
- strategy.parity.test.ts: 21 mix + 56 decision cases match Go exactly (play/
  exchange/pass, the deviate flip, tie-break, band overshoot).

Pure additive library code; no runtime behavior change (unused at runtime, so the
bundle is unchanged).
2026-07-06 01:54:20 +02:00
developer cedc9ffae1 Merge pull request 'feat(offline): DAWG cursor + move generator in TS (parity-pinned)' (#188) from feature/offline-movegen into development
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2026-07-05 23:42:58 +00:00
Ilia Denisov c334a9d7b7 feat(offline): port DAWG cursor + move generator to TS (parity-pinned)
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First engine-first step of PWA offline mode (Phase A): the client-side move
generator — the "robot brain" a local vs_ai game will run on-device — with no
runtime wiring yet (Phase B).

- dawg.ts: add the step-by-step cursor (root/final/next/arcs), a faithful port
  of dafsa traverse.go over the reader's existing bitstream.
- generate.ts: the Appel-Jacobson generator (leftPart/extendRight + cross-sets +
  counts-rack + board transpose + moveKey ranking), reusing the cursor and
  validate.ts evaluate/connected. A cross-set LetterSet is a Uint8Array, so the
  33-letter Russian alphabet (index 32) is exact under JS bit ops.
- validate.ts: export connected for the generator's connectivity filter.
- backend/cmd/movegen: dev tool building small sample dictionaries and emitting
  golden move-generation fixtures from the real Go solver (EN + RU).
- tests: dawg.cursor.test.ts (enumeration bijection vs indexOf) and
  generate.parity.test.ts (7/7 vs the Go solver: empty board, mid-game, blank,
  single-word rule, Russian index-32 cross-set). The committed EN sample also
  unblocks the existing skipped dawg.parity.test.ts once wired with DICT_* in CI.

Pure additive library code; no runtime behavior change.
2026-07-06 01:35:11 +02:00
developer 3a85f64726 Merge pull request 'fix(metrics): second-scale buckets for edge_request_duration' (#186) from fix/edge-latency-histogram-buckets into development
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2026-07-05 20:55:31 +00:00
Ilia Denisov 00bb66ba0f fix(metrics): second-scale buckets for edge_request_duration
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The edge request-latency histogram records seconds but used the OTel SDK's
default millisecond-calibrated bucket boundaries (first boundary 5), so every
sub-5s request fell into one bucket and histogram_quantile(0.99) interpolated
to ~4.95s for every message type — regardless of the real (millisecond)
latency. That tripped the >1s "Gateway request latency p99 high" alert on
essentially every request, flapping fire/resolve on each app open (seen on the
test and prod contours).

Set explicit second-scale bucket boundaries (0.005 … 10s) straddling the 1s SLO
so the p99 reflects real latency and the alert fires only on genuine slowness.
Regression test asserts the histogram carries a sub-second boundary.
2026-07-05 22:49:04 +02:00
developer a2c79c149a Merge pull request 'feat(email): PWA login sends code only; drop admin link from alert emails' (#185) from feature/pwa-login-code-only into development
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2026-07-05 20:26:04 +00:00
Ilia Denisov 061366da5a feat(email): PWA login sends code only; drop admin link from alert emails
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Two email changes, per the owner:

1. Code-only login from an installed PWA. A login requested while running as a
   standalone PWA now omits the one-tap confirm link from the email — the link
   would open in a separate browser whose minted session cannot reach the PWA,
   stranding the login. The code is typed in the same window instead. The client
   sends a `pwa` flag (isStandalone) on the email-code request (a new FBS field,
   threaded through the gateway); the backend omits the deeplink when it is set,
   reusing the existing deletion-code link-omission path. Non-PWA browser logins
   keep the one-tap link. No polling, no migration.

2. Security: the operator alert digest no longer embeds the admin-console (/_gm)
   URL. An admin link must never travel in an email, where a mail provider could
   cache or index it; the operator opens the console directly.

Tests: an inttest asserting the PWA login email omits the link (and a browser one
keeps it); a codec round-trip of the new pwa field; the alert-digest test flipped
to guard the admin link is absent. Docs: ARCHITECTURE + FUNCTIONAL (+ru).
2026-07-05 22:13:21 +02:00
developer d19609f87d Merge pull request 'feat(pwa): installable web app + landing web entry' (#184) from feature/pwa-install-cta into development
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2026-07-05 19:36:37 +00:00
Ilia Denisov 51147a1429 feat(pwa): installable web app + landing web entry
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Make the web SPA an installable PWA and surface it to users:

- manifest.webmanifest + an install-only service worker + 192/512/maskable
  icons (ui/public); PWA head tags in index.html; the .webmanifest MIME type
  registered in the gateway (the distroless image has no /etc/mime.types).
- Platform-adaptive install CTA (components/InstallApp.svelte + lib/pwa):
  one-tap on Chromium, manual Add-to-Home-Screen instructions on iOS Safari,
  hidden elsewhere / once installed / inside a Mini App. Shown under the
  logged-out login card and at the bottom of Settings.
- The landing gains a third entry linking /app/ (the brand tile), with a
  caption under all three (Telegram / VK / Веб-версия).

The service worker is navigation-only (network-first, cached-shell fallback);
hashed assets and the Connect stream are untouched. It exists to satisfy
Chromium's installability requirement and is the single growth point for a
future opt-in offline mode.

Tests: pwa.ts unit tests; a webui probe (manifest/sw.js content-type + the
SPA-fallback-to-HTML trap); e2e for the one-tap CTA, the iOS instructions
modal and the landing web entry. Docs: ARCHITECTURE §13, FUNCTIONAL (+ru),
gateway README.
2026-07-05 21:11:41 +02:00
63 changed files with 14663 additions and 89 deletions
+2
View File
@@ -252,6 +252,7 @@ jobs:
run: |
go run ./backend/cmd/dictgen -dawg-dir "${GITHUB_WORKSPACE}/dawg" -out /tmp/dictgold
go run ./backend/cmd/validategen -dawg-dir "${GITHUB_WORKSPACE}/dawg" -out /tmp/validgold
go run ./backend/cmd/movegen -dawg-dir "${GITHUB_WORKSPACE}/dawg" -out "${GITHUB_WORKSPACE}/movegold"
- name: Set up Node
uses: actions/setup-node@v4
@@ -271,6 +272,7 @@ jobs:
DICT_DAWG_DIR: ${{ github.workspace }}/dawg
DICT_GOLD_DIR: /tmp/dictgold
DICT_VALID_DIR: /tmp/validgold
DICT_MOVEGEN_DIR: ${{ github.workspace }}/movegold
run: pnpm exec vitest run src/lib/dict/
# gate is the single branch-protection required check. It always runs and passes
+3 -6
View File
@@ -12,7 +12,6 @@ import (
"fmt"
"log"
"os/signal"
"strings"
"syscall"
"time"
@@ -216,11 +215,9 @@ func run(ctx context.Context, cfg config.Config, logger *zap.Logger) error {
// Operator alert emails on new feedback / word complaints, coalesced into one digest
// per interval. Inert unless a distinct admin sender and recipient are configured.
if cfg.SMTP.AdminFrom != "" && cfg.SMTP.AdminTo != "" {
consoleURL := ""
if cfg.PublicBaseURL != "" {
consoleURL = strings.TrimRight(cfg.PublicBaseURL, "/") + "/_gm"
}
alerts := adminalert.New(mailer, feedbackSvc, games, cfg.SMTP.AdminFrom, cfg.SMTP.AdminTo, consoleURL, logger)
// The alert digest carries no admin-console link on purpose — an admin URL must not
// travel in an email (a mail provider could cache or index it); see adminalert.New.
alerts := adminalert.New(mailer, feedbackSvc, games, cfg.SMTP.AdminFrom, cfg.SMTP.AdminTo, logger)
go alerts.Run(ctx, adminAlertInterval)
logger.Info("admin alert worker started", zap.Duration("interval", adminAlertInterval))
}
+374
View File
@@ -0,0 +1,374 @@
// Command movegen emits golden conformance fixtures for the client-side move
// generator port (ui/src/lib/dict). It is a dev tool, run by hand; its output is
// committed so the TypeScript parity tests run without a Go toolchain.
//
// For each small sample dictionary (English and Russian — the latter reaches
// alphabet index 32, exercising the 33-letter cross-set boundary) it writes:
//
// - sample_<tag>.dawg the serialized dictionary (the reader/cursor fixture)
// - sample_<tag>.words.json the stored words + their alphabet indexes
// - sample_<tag>.gen.json ranked move-generation results from the real solver,
// for a handful of positions, plus the ruleset the TS
// side rebuilds to score identically
//
// Positions are built with only the solver's public API: an empty board, and
// two-ply positions reached by applying the solver's own top move (so no internal
// encoding is needed). Regenerate with:
//
// go run ./backend/cmd/movegen -out ui/src/lib/dict/testdata
package main
import (
"bytes"
"encoding/json"
"flag"
"log"
"os"
"path/filepath"
"gitea.iliadenisov.ru/developer/scrabble-solver/board"
"gitea.iliadenisov.ru/developer/scrabble-solver/rack"
"gitea.iliadenisov.ru/developer/scrabble-solver/rules"
"gitea.iliadenisov.ru/developer/scrabble-solver/scrabble"
dawg "github.com/iliadenisov/dafsa"
)
// sampleWordsEN is the English sample dictionary, in strictly increasing
// alphabet-index order (the builder requires it). Shared prefixes (car/care/cars),
// shared suffixes (cats/dogs), internal-final nodes (do, an) and a one-letter word.
var sampleWordsEN = []string{
"a", "an", "and", "ant",
"car", "care", "cared", "cares", "cars", "cat", "cats",
"do", "doe", "does", "dog", "dogs", "done", "dot",
}
// sampleWordsRU is the Russian sample dictionary, in strictly increasing index
// order. It deliberately includes words starting with я (index 32) so the ported
// cross-set handles alphabet indexes past JS's 31-bit shift boundary.
var sampleWordsRU = []string{"ад", "ар", "оса", "я", "яд", "яр"}
// sampleFixture is the JSON committed with the .dawg so the TypeScript cursor test
// knows the exact word set (as alphabet indexes) to expect from enumeration.
type sampleFixture struct {
Alphabet string `json:"alphabet"`
NumAdded int `json:"numAdded"`
Words []string `json:"words"`
Indexes [][]int `json:"indexes"`
}
// genFixture is the move-generation golden set for one sample dictionary.
type genFixture struct {
Ruleset genRuleset `json:"ruleset"`
Cases []genCase `json:"cases"`
}
// genRuleset is the scoring data the TS side rebuilds so evaluate() matches the Go
// solver: letter values, premium multipliers per square, the centre, rack size and bonus.
type genRuleset struct {
Size int `json:"size"`
Cols int `json:"cols"`
Center int `json:"center"`
RackSize int `json:"rackSize"`
Bingo int `json:"bingo"`
Values []int `json:"values"`
LetterMult [][]int `json:"letterMult"`
WordMult [][]int `json:"wordMult"`
}
// genTile is one placed tile (a board tile or a move placement).
type genTile struct {
Row int `json:"row"`
Col int `json:"col"`
Letter int `json:"letter"`
Blank bool `json:"blank"`
}
// genRack is a rack as a multiset of letter indexes plus a blank count.
type genRack struct {
Letters []int `json:"letters"`
Blanks int `json:"blanks"`
}
// genMove is one ranked generated play: its orientation, placed tiles and total score.
type genMove struct {
Dir int `json:"dir"`
Tiles []genTile `json:"tiles"`
Score int `json:"score"`
}
// genCase is one generation position: the tiles already on the board (empty when
// none), the rack, the mode/rule and the ranked moves the solver returns.
type genCase struct {
Name string `json:"name"`
Placed []genTile `json:"placed"`
Rack genRack `json:"rack"`
Mode int `json:"mode"`
IgnoreCrossWords bool `json:"ignoreCrossWords"`
Moves []genMove `json:"moves"`
}
func main() {
out := flag.String("out", "ui/src/lib/dict/testdata", "output directory for fixtures")
dawgDir := flag.String("dawg-dir", "", "when set, emit real-dictionary move-gen golden from the .dawg files in this dir (conformance mode) instead of the committed samples")
flag.Parse()
if err := os.MkdirAll(*out, 0o755); err != nil {
log.Fatalf("movegen: mkdir %s: %v", *out, err)
}
if *dawgDir != "" {
buildReal(*dawgDir, *out)
return
}
buildSample(*out, "en", rules.English(), sampleWordsEN, []genCase{
emptyCase("empty-cared", englishRack("caredts", 0), scrabble.Both, false),
emptyCase("empty-dogs", englishRack("dogsent", 0), scrabble.Both, false),
emptyCase("empty-blank", englishRack("caret", 1), scrabble.Both, false),
emptyCase("empty-single-word", englishRack("caredts", 0), scrabble.Both, true),
})
buildSample(*out, "ru", rules.RussianScrabble(), sampleWordsRU, []genCase{
emptyCase("empty-yad", russianRack("ядрасо", 0), scrabble.Both, false),
})
}
// buildSample writes the dawg, the word fixture and the generation golden set for
// one sample dictionary. Two-ply cases are appended: the solver's own top move from
// the first non-empty result is applied, then generation runs again on the new rack.
func buildSample(out, tag string, rs *rules.Ruleset, words []string, cases []genCase) {
idx := rs.Alphabet
b := dawg.New(idx)
indexes := make([][]int, 0, len(words))
for _, w := range words {
if err := b.Add(w); err != nil {
log.Fatalf("movegen[%s]: add %q: %v", tag, w, err)
}
enc, err := idx.Encode(w)
if err != nil {
log.Fatalf("movegen[%s]: encode %q: %v", tag, w, err)
}
ints := make([]int, len(enc))
for i, x := range enc {
ints[i] = int(x)
}
indexes = append(indexes, ints)
}
finder := b.Finish()
writeJSON(filepath.Join(out, "sample_"+tag+".words.json"), sampleFixture{
Alphabet: tag, NumAdded: finder.NumAdded(), Words: words, Indexes: indexes,
})
dawgPath := filepath.Join(out, "sample_"+tag+".dawg")
if _, err := finder.Save(dawgPath); err != nil {
log.Fatalf("movegen[%s]: save %s: %v", tag, dawgPath, err)
}
s := scrabble.NewSolver(rs, finder)
for i := range cases {
runCase(s, rs, &cases[i], nil)
}
// A two-ply position from the first standard case that produced a move.
if two := twoPly(s, rs, cases); two != nil {
cases = append(cases, *two)
}
writeJSON(filepath.Join(out, "sample_"+tag+".gen.json"), genFixture{
Ruleset: rulesetOf(rs), Cases: cases,
})
log.Printf("movegen[%s]: %d words, %d cases", tag, finder.NumAdded(), len(cases))
}
// realVariant maps a shipped dictionary file to the ruleset that scores it and the racks
// the conformance positions use. smallRack/blankRack keep the first-move (empty board)
// lists bounded on a dense dictionary; fullRack drives a deep 7-tile mid-game position,
// kept small by the anchors around the already-placed word.
type realVariant struct {
file, variant, smallRack, blankRack, fullRack string
rs *rules.Ruleset
}
// buildReal emits move-generation golden from the real shipped dictionaries in dawgDir —
// the full alphabets and deep graphs the tiny samples cannot reach — one
// <variant>.movegen.json per variant. Like the dictgen/validategen vectors it is
// regenerated in CI and never committed, so it pins no dictionary version into the repo.
func buildReal(dawgDir, out string) {
reals := []realVariant{
{"en_sowpods", "scrabble_en", "aine", "ain", "aeinrst", rules.English()},
{"ru_scrabble", "scrabble_ru", "аеин", "аен", "аеиноср", rules.RussianScrabble()},
{"ru_erudit", "erudit_ru", "аеин", "аен", "аеиноср", rules.Erudit()},
}
for _, v := range reals {
data, err := os.ReadFile(filepath.Join(dawgDir, v.file+".dawg"))
if err != nil {
log.Fatalf("movegen[%s]: read dawg: %v", v.variant, err)
}
finder, err := dawg.Read(bytes.NewReader(data), 0)
if err != nil {
log.Fatalf("movegen[%s]: parse dawg: %v", v.variant, err)
}
s := scrabble.NewSolver(v.rs, finder)
cases := []genCase{
emptyCase("first-move", encRack(v.rs, v.smallRack, 0), scrabble.Both, false),
emptyCase("first-move-blank", encRack(v.rs, v.blankRack, 1), scrabble.Both, false),
}
for i := range cases {
runCase(s, v.rs, &cases[i], nil)
}
// A deep 7-tile mid-game: place the top first move, then generate again. The
// anchors around the placed word bound the list while still exercising a full rack,
// deep left/right extension and wide cross-sets over the real graph.
full := encRack(v.rs, v.fullRack, 0)
b := board.New(v.rs.Rows, v.rs.Cols)
if m1 := s.GenerateMovesOpts(b, toRack(v.rs.Size(), full), scrabble.Both, scrabble.PlayOptions{}); len(m1) > 0 {
mid := genCase{Name: "mid-game", Rack: full, Mode: int(scrabble.Both)}
runCase(s, v.rs, &mid, tilesOf(m1[0].Tiles))
cases = append(cases, mid)
}
writeJSON(filepath.Join(out, v.variant+".movegen.json"), genFixture{Ruleset: rulesetOf(v.rs), Cases: cases})
total := 0
for _, c := range cases {
total += len(c.Moves)
}
_ = finder.Close()
log.Printf("movegen[%s]: %d cases, %d golden moves", v.variant, len(cases), total)
}
}
// encRack encodes a rack given as the variant's letters (plus a blank count) into the
// index-based genRack the fixtures carry.
func encRack(rs *rules.Ruleset, letters string, blanks int) genRack {
enc, err := rs.Alphabet.Encode(letters)
if err != nil {
log.Fatalf("movegen: encode rack %q: %v", letters, err)
}
idx := make([]int, len(enc))
for i, b := range enc {
idx[i] = int(b)
}
return genRack{Letters: idx, Blanks: blanks}
}
// runCase fills a case's Moves by generating on a board holding the given placed
// tiles (nil = empty board).
func runCase(s *scrabble.Solver, rs *rules.Ruleset, c *genCase, placed []genTile) {
bd := board.New(rs.Rows, rs.Cols)
for _, t := range placed {
bd.Set(t.Row, t.Col, cellByte(t.Letter, t.Blank))
}
c.Placed = placed
rk := toRack(rs.Size(), c.Rack)
moves := s.GenerateMovesOpts(bd, rk, scrabble.Mode(c.Mode), scrabble.PlayOptions{IgnoreCrossWords: c.IgnoreCrossWords})
c.Moves = movesOf(moves)
}
// twoPly reaches a mid-game position by applying the top move of the first standard
// case that generated one, then generates again with a fresh rack of the same tiles.
func twoPly(s *scrabble.Solver, rs *rules.Ruleset, cases []genCase) *genCase {
for _, c := range cases {
if c.IgnoreCrossWords || len(c.Moves) == 0 {
continue
}
placed := c.Moves[0].Tiles
next := genCase{Name: "two-ply", Rack: c.Rack, Mode: int(scrabble.Both)}
runCase(s, rs, &next, placed)
return &next
}
return nil
}
// cellByte encodes a board cell the way internal/encoding.Cell does (bits 0-5 hold
// letter+1, bit 7 marks a blank). Duplicated here because that package is internal
// to the solver module and cannot be imported.
func cellByte(letter int, blank bool) byte {
v := byte(letter+1) & 0x3f
if blank {
v |= 0x80
}
return v
}
func toRack(size int, r genRack) rack.Rack {
rk := rack.New(size)
for _, l := range r.Letters {
rk.Add(byte(l))
}
for i := 0; i < r.Blanks; i++ {
rk.AddBlank()
}
return rk
}
func rulesetOf(rs *rules.Ruleset) genRuleset {
lm := make([][]int, rs.Rows)
wm := make([][]int, rs.Rows)
for r := 0; r < rs.Rows; r++ {
lm[r] = make([]int, rs.Cols)
wm[r] = make([]int, rs.Cols)
for c := 0; c < rs.Cols; c++ {
p := rs.Premium(r, c)
lm[r][c] = p.LetterMult()
wm[r][c] = p.WordMult()
}
}
return genRuleset{
Size: rs.Size(), Cols: rs.Cols, Center: rs.Center, RackSize: rs.RackSize,
Bingo: rs.Bingo, Values: rs.Values, LetterMult: lm, WordMult: wm,
}
}
func movesOf(ms []scrabble.Move) []genMove {
out := make([]genMove, len(ms))
for i, m := range ms {
out[i] = genMove{Dir: int(m.Dir), Tiles: tilesOf(m.Tiles), Score: m.Score}
}
return out
}
func tilesOf(ps []scrabble.Placement) []genTile {
out := make([]genTile, len(ps))
for i, p := range ps {
out[i] = genTile{Row: p.Row, Col: p.Col, Letter: int(p.Letter), Blank: p.Blank}
}
return out
}
// emptyCase builds an empty-board case (Moves filled later by runCase).
func emptyCase(name string, r genRack, mode scrabble.Mode, ignoreCross bool) genCase {
return genCase{Name: name, Rack: r, Mode: int(mode), IgnoreCrossWords: ignoreCross}
}
// englishRack builds a rack from lowercase a-z letters (index = letter-'a').
func englishRack(letters string, blanks int) genRack {
idx := make([]int, 0, len(letters))
for _, ch := range letters {
idx = append(idx, int(ch-'a'))
}
return genRack{Letters: idx, Blanks: blanks}
}
// russianRack builds a rack from the Russian sample letters used above.
func russianRack(letters string, blanks int) genRack {
m := map[rune]int{'а': 0, 'д': 4, 'о': 15, 'р': 17, 'с': 18, 'я': 32}
idx := make([]int, 0, len([]rune(letters)))
for _, ch := range letters {
i, ok := m[ch]
if !ok {
log.Fatalf("movegen: russianRack: no index for %q", string(ch))
}
idx = append(idx, i)
}
return genRack{Letters: idx, Blanks: blanks}
}
func writeJSON(path string, v any) {
data, err := json.MarshalIndent(v, "", " ")
if err != nil {
log.Fatalf("movegen: marshal %s: %v", path, err)
}
if err := os.WriteFile(path, append(data, '\n'), 0o644); err != nil {
log.Fatalf("movegen: write %s: %v", path, err)
}
}
+16 -11
View File
@@ -105,9 +105,10 @@ func (s *EmailService) allowSend(email string) bool {
// issueCode generates a fresh confirm-code and one-tap deeplink token for (accountID,
// email), replaces any prior pending confirmation, and mails the branded code in
// locale; purpose selects the email wording and what verifying does. Only the SHA-256
// hashes of the code and token are stored.
func (s *EmailService) issueCode(ctx context.Context, accountID uuid.UUID, email, purpose, locale string) error {
// locale; purpose selects the email wording and what verifying does. omitLink drops the
// one-tap deeplink from the email (account deletion, or a login requested from an installed
// PWA). Only the SHA-256 hashes of the code and token are stored.
func (s *EmailService) issueCode(ctx context.Context, accountID uuid.UUID, email, purpose, locale string, omitLink bool) error {
code, codeHash, err := generateCode()
if err != nil {
return err
@@ -119,11 +120,12 @@ func (s *EmailService) issueCode(ctx context.Context, accountID uuid.UUID, email
if err := s.store.replacePendingConfirmation(ctx, accountID, email, codeHash, tokenHash, purpose, s.now().Add(emailCodeTTL)); err != nil {
return err
}
// Account deletion is never a one-tap link (a prefetch or a stray click must not delete
// an account): the delete code is entered in the app only, so the email omits the
// deeplink and ConfirmByToken refuses a delete token.
// Omit the one-tap deeplink when asked: for a login from an installed PWA (the link would
// open in a separate browser whose minted session cannot reach the PWA), or for account
// deletion (a prefetch or stray click must not delete an account — the delete code is entered
// in the app only, and ConfirmByToken refuses a delete token).
deeplink := s.confirmURL(token, locale)
if purpose == purposeDelete {
if purpose == purposeDelete || omitLink {
deeplink = ""
}
msg, err := renderConfirmationEmail(purpose, code, deeplink, s.baseURL, locale)
@@ -175,7 +177,7 @@ func (s *EmailService) RequestCode(ctx context.Context, accountID uuid.UUID, ema
}
return ErrEmailTaken
}
return s.issueCode(ctx, accountID, addr, purposeLink, s.accountLocale(ctx, accountID))
return s.issueCode(ctx, accountID, addr, purposeLink, s.accountLocale(ctx, accountID), false)
}
// ConfirmCode verifies code for accountID and email. On success it attaches a
@@ -221,8 +223,11 @@ func (s *EmailService) ConfirmCode(ctx context.Context, accountID uuid.UUID, ema
// the ordinary returning-user login. The code is mailed to the address, so only its
// real owner can complete the login. On first contact browserTZ (the client's
// detected "±HH:MM" UTC offset) seeds the new account's time zone and language its UI
// language. It returns the target account id for the subsequent LoginWithCode.
func (s *EmailService) RequestLoginCode(ctx context.Context, email, browserTZ, language string) (uuid.UUID, error) {
// language. When pwa is set (the request came from an installed PWA) the login email omits the
// one-tap confirm link — it would open in a separate browser, out of the PWA's reach — so the
// code is entered in the same window. It returns the target account id for the subsequent
// LoginWithCode.
func (s *EmailService) RequestLoginCode(ctx context.Context, email, browserTZ, language string, pwa bool) (uuid.UUID, error) {
addr, err := normalizeEmail(email)
if err != nil {
return uuid.UUID{}, err
@@ -234,7 +239,7 @@ func (s *EmailService) RequestLoginCode(ctx context.Context, email, browserTZ, l
if err != nil {
return uuid.UUID{}, err
}
if err := s.issueCode(ctx, acc.ID, addr, purposeLogin, language); err != nil {
if err := s.issueCode(ctx, acc.ID, addr, purposeLogin, language, pwa); err != nil {
return uuid.UUID{}, err
}
return acc.ID, nil
+3 -3
View File
@@ -92,7 +92,7 @@ func (s *EmailService) RequestLinkCode(ctx context.Context, accountID uuid.UUID,
if !s.allowSend(addr) {
return ErrTooManyRequests
}
return s.issueCode(ctx, accountID, addr, purposeLink, s.accountLocale(ctx, accountID))
return s.issueCode(ctx, accountID, addr, purposeLink, s.accountLocale(ctx, accountID), false)
}
// ConfirmLink verifies code for (accountID, email) and reports the address's
@@ -140,7 +140,7 @@ func (s *EmailService) RequestChangeCode(ctx context.Context, accountID uuid.UUI
if !s.allowSend(addr) {
return ErrTooManyRequests
}
return s.issueCode(ctx, accountID, addr, purposeChange, s.accountLocale(ctx, accountID))
return s.issueCode(ctx, accountID, addr, purposeChange, s.accountLocale(ctx, accountID), false)
}
// ConfirmChange verifies code for (accountID, newEmail) and atomically replaces the
@@ -199,7 +199,7 @@ func (s *EmailService) RequestDeleteCode(ctx context.Context, accountID uuid.UUI
if !s.allowSend(addr) {
return ErrTooManyRequests
}
return s.issueCode(ctx, accountID, addr, purposeDelete, s.accountLocale(ctx, accountID))
return s.issueCode(ctx, accountID, addr, purposeDelete, s.accountLocale(ctx, accountID), false)
}
// VerifyDeleteCode verifies the account-deletion code against the account's own email and
+8 -9
View File
@@ -33,21 +33,21 @@ type Notifier struct {
complaints ComplaintCounter
from string
to string
consoleURL string
clock func() time.Time
log *zap.Logger
last time.Time
}
// New constructs a Notifier. from and to are the alert sender and recipient(s); consoleURL,
// when non-empty, is the admin-console link included in the email. log may be nil. The
// watermark starts at "now", so only items arriving after start-up are reported.
func New(mailer account.Mailer, fb FeedbackCounter, cp ComplaintCounter, from, to, consoleURL string, log *zap.Logger) *Notifier {
// New constructs a Notifier. from and to are the alert sender and recipient(s); log may be
// nil. The watermark starts at "now", so only items arriving after start-up are reported. The
// digest deliberately carries no admin-console link — an admin URL must never travel in an
// email, where a mail provider could cache or index it.
func New(mailer account.Mailer, fb FeedbackCounter, cp ComplaintCounter, from, to string, log *zap.Logger) *Notifier {
if log == nil {
log = zap.NewNop()
}
return &Notifier{
mailer: mailer, feedback: fb, complaints: cp, from: from, to: to, consoleURL: consoleURL,
mailer: mailer, feedback: fb, complaints: cp, from: from, to: to,
clock: func() time.Time { return time.Now().UTC() }, log: log, last: time.Now().UTC(),
}
}
@@ -103,10 +103,9 @@ func (n *Notifier) digest(fb, cp int) account.Message {
parts = append(parts, fmt.Sprintf("%d new word complaint(s)", cp))
}
summary := strings.Join(parts, ", ")
// No admin-console link in the body: an admin URL must never travel in an email (a mail
// provider could cache or index it). The operator opens the console directly.
text := summary + "."
if n.consoleURL != "" {
text += "\n\nOpen the admin console: " + n.consoleURL
}
return account.Message{
From: n.from,
To: n.to,
+6 -4
View File
@@ -28,7 +28,7 @@ func (m *recordingMailer) Send(_ context.Context, msg account.Message) error {
func TestNotifierSkipsWhenNothingNew(t *testing.T) {
mailer := &recordingMailer{}
n := New(mailer, fbCounter{0}, cpCounter{0}, "alerts@erudit-game.ru", "op@x.ru", "", nil)
n := New(mailer, fbCounter{0}, cpCounter{0}, "alerts@erudit-game.ru", "op@x.ru", nil)
n.tick(context.Background())
if len(mailer.sent) != 0 {
t.Fatalf("sent %d emails, want 0 when nothing is new", len(mailer.sent))
@@ -37,7 +37,7 @@ func TestNotifierSkipsWhenNothingNew(t *testing.T) {
func TestNotifierDigestsNewItems(t *testing.T) {
mailer := &recordingMailer{}
n := New(mailer, fbCounter{2}, cpCounter{1}, "alerts@erudit-game.ru", "op@x.ru, two@x.ru", "https://erudit-game.ru/_gm", nil)
n := New(mailer, fbCounter{2}, cpCounter{1}, "alerts@erudit-game.ru", "op@x.ru, two@x.ru", nil)
n.tick(context.Background())
if len(mailer.sent) != 1 {
t.Fatalf("sent %d emails, want 1 digest", len(mailer.sent))
@@ -49,7 +49,9 @@ func TestNotifierDigestsNewItems(t *testing.T) {
if !strings.Contains(msg.Subject, "2 new feedback") || !strings.Contains(msg.Subject, "1 new word complaint") {
t.Errorf("digest subject = %q, want the feedback + complaint counts", msg.Subject)
}
if !strings.Contains(msg.Text, "/_gm") {
t.Errorf("digest body = %q, want the console link", msg.Text)
// The digest must never carry an admin-console link — an admin URL in an email is a leak
// (mail providers cache/index it).
if strings.Contains(msg.Text, "/_gm") || strings.Contains(strings.ToLower(msg.Text), "admin console") {
t.Errorf("digest body = %q, must not carry an admin-console link", msg.Text)
}
}
+33 -5
View File
@@ -206,7 +206,7 @@ func TestEmailLoginFlow(t *testing.T) {
svc := account.NewEmailService(account.NewStore(testDB), mailer, "https://erudit-game.ru")
email := "login-" + uuid.NewString() + "@example.com"
accountID, err := svc.RequestLoginCode(ctx, email, "+02:00", "en")
accountID, err := svc.RequestLoginCode(ctx, email, "+02:00", "en", false)
if err != nil {
t.Fatalf("request login code: %v", err)
}
@@ -233,7 +233,7 @@ func TestEmailLoginFlow(t *testing.T) {
}
// A second login for the same email is the returning user: same account.
if _, err := svc.RequestLoginCode(ctx, email, "", "ru"); err != nil {
if _, err := svc.RequestLoginCode(ctx, email, "", "ru", false); err != nil {
t.Fatalf("second request: %v", err)
}
acc2, err := svc.LoginWithCode(ctx, email, sixDigit.FindString(mailer.lastBody))
@@ -255,7 +255,7 @@ func TestEmailLoginProvisionsGuestUntilConfirmed(t *testing.T) {
svc := account.NewEmailService(store, mailer, "https://erudit-game.ru")
email := "squat-" + uuid.NewString() + "@example.com"
id, err := svc.RequestLoginCode(ctx, email, "", "en")
id, err := svc.RequestLoginCode(ctx, email, "", "en", false)
if err != nil {
t.Fatalf("request login code: %v", err)
}
@@ -279,6 +279,34 @@ func TestEmailLoginProvisionsGuestUntilConfirmed(t *testing.T) {
}
}
// TestEmailLoginPWAOmitsLink: a login requested from an installed PWA (pwa=true) mails only the
// code — no one-tap confirm link, which would otherwise open in a separate browser out of the
// PWA's reach. A non-PWA request keeps the link.
func TestEmailLoginPWAOmitsLink(t *testing.T) {
ctx := context.Background()
mailer := &capturingMailer{}
svc := account.NewEmailService(account.NewStore(testDB), mailer, "https://erudit-game.ru")
pwaEmail := "pwa-login-" + uuid.NewString() + "@example.com"
if _, err := svc.RequestLoginCode(ctx, pwaEmail, "", "en", true); err != nil {
t.Fatalf("pwa request login: %v", err)
}
if sixDigit.FindString(mailer.lastBody) == "" {
t.Errorf("pwa login mail must still carry the code, body %q", mailer.lastBody)
}
if confirmToken.MatchString(mailer.lastBody) {
t.Errorf("pwa login mail must omit the one-tap confirm link, body %q", mailer.lastBody)
}
webEmail := "web-login-" + uuid.NewString() + "@example.com"
if _, err := svc.RequestLoginCode(ctx, webEmail, "", "en", false); err != nil {
t.Fatalf("web request login: %v", err)
}
if !confirmToken.MatchString(mailer.lastBody) {
t.Errorf("non-pwa login mail must keep the one-tap confirm link, body %q", mailer.lastBody)
}
}
// confirmToken extracts the one-tap deeplink token from the /app/#/confirm/<token> link
// the branded email carries.
var confirmToken = regexp.MustCompile(`/confirm/([A-Za-z0-9_-]+)`)
@@ -301,7 +329,7 @@ func TestConfirmByTokenLogin(t *testing.T) {
svc := account.NewEmailService(store, mailer, "https://erudit-game.ru")
email := "tok-login-" + uuid.NewString() + "@example.com"
id, err := svc.RequestLoginCode(ctx, email, "", "en")
id, err := svc.RequestLoginCode(ctx, email, "", "en", false)
if err != nil {
t.Fatalf("request login: %v", err)
}
@@ -382,7 +410,7 @@ func TestEmailAccountSeedsDisplayName(t *testing.T) {
svc := account.NewEmailService(store, &capturingMailer{}, "https://erudit-game.ru")
local := "kaya-" + uuid.NewString()[:8]
id, err := svc.RequestLoginCode(ctx, local+"@example.com", "", "en")
id, err := svc.RequestLoginCode(ctx, local+"@example.com", "", "en", false)
if err != nil {
t.Fatalf("request login: %v", err)
}
@@ -0,0 +1,146 @@
package robot
import (
"encoding/json"
"os"
"path/filepath"
"strconv"
"testing"
"scrabble/backend/internal/engine"
)
// The client-side offline robot (ui/src/lib/robot) reproduces the robot's move choice
// so a local vs_ai game plays the same way as the server. These golden fixtures pin that
// TS port to the real Go strategy. Being in-package, this emitter can exercise the
// unexported mix / playToWin / deviates / selectMove that the port mirrors.
type mixCase struct {
Seed string `json:"seed"`
Salt string `json:"salt"`
Nums []int `json:"nums"`
Value string `json:"value"` // the mix() uint64, as a decimal string (exceeds JS safe ints)
}
type decisionCase struct {
Seed string `json:"seed"`
MoveCount int `json:"moveCount"`
MyScore int `json:"myScore"`
OppScore int `json:"oppScore"`
CandScores []int `json:"candScores"`
RackLen int `json:"rackLen"`
BagLen int `json:"bagLen"`
PlayToWin bool `json:"playToWin"`
Win bool `json:"win"` // the per-turn intent after the deviate flip
Kind string `json:"kind"`
Index int `json:"index"` // chosen candidate index for a play, else -1
}
type strategyFixture struct {
PlayToWinPercent int `json:"playToWinPercent"`
Mix []mixCase `json:"mix"`
Decisions []decisionCase `json:"decisions"`
}
// scenario is one selectMove situation exercised across several seeds.
type scenario struct {
moveCount, myScore, oppScore, rackLen, bagLen int
cands []int
}
// TestEmitStrategyFixtures regenerates ui/src/lib/robot/testdata/strategy.json. It is
// gated by EMIT_STRATEGY_FIXTURES so a normal `go test` skips it; the committed output is
// what the TS parity test consumes. Regenerate with:
//
// EMIT_STRATEGY_FIXTURES=1 go test ./backend/internal/robot -run TestEmitStrategyFixtures
func TestEmitStrategyFixtures(t *testing.T) {
if os.Getenv("EMIT_STRATEGY_FIXTURES") == "" {
t.Skip("set EMIT_STRATEGY_FIXTURES=1 to regenerate ui/src/lib/robot/testdata/strategy.json")
}
seeds := []int64{1, 42, -7, 1000003, 9999999999, 123456789, -123456789}
mixCases := []mixCase{}
addMix := func(seed int64, salt string, nums ...int) {
mixCases = append(mixCases, mixCase{
Seed: strconv.FormatInt(seed, 10),
Salt: salt,
Nums: append([]int{}, nums...),
Value: strconv.FormatUint(mix(seed, salt, nums...), 10),
})
}
for _, sd := range seeds {
addMix(sd, "win")
addMix(sd, "deviate", 0)
addMix(sd, "deviate", 7)
}
scenarios := []scenario{
{3, 40, 55, 7, 20, []int{30, 12, 8}}, // behind, mid-game
{10, 120, 90, 7, 8, []int{25, 18, 5}}, // ahead, late
{1, 0, 0, 7, 30, []int{60, 30, 15, 7}}, // first move, big spread
{20, 200, 40, 5, 2, []int{50, 20}}, // big lead, bag near empty (no deviate)
{5, 30, 30, 7, 14, []int{20, 20, 20}}, // equal margins (tie-break)
{8, 50, 60, 7, 20, []int{}}, // no play, bag can refill -> exchange
{8, 50, 60, 3, 2, []int{}}, // no play, bag can't refill -> pass
{15, 300, 10, 7, 6, []int{80, 40, 10}}, // overshoots the band -> nearest to +30
}
decisions := []decisionCase{}
for _, sd := range seeds {
for _, sc := range scenarios {
cands := make([]engine.MoveRecord, len(sc.cands))
for i, s := range sc.cands {
cands[i] = engine.MoveRecord{Score: s, Player: i}
}
rack := make([]string, sc.rackLen)
for i := range rack {
rack[i] = "a"
}
ptw := playToWin(sd)
win := ptw
if deviates(sd, sc.moveCount, sc.bagLen) {
win = !win
}
d := selectMove(cands, sc.myScore, sc.oppScore, win, defaultBand, rack, sc.bagLen)
kind, index := "pass", -1
switch d.kind {
case decidePlay:
kind, index = "play", d.move.Player
case decideExchange:
kind = "exchange"
}
decisions = append(decisions, decisionCase{
Seed: strconv.FormatInt(sd, 10),
MoveCount: sc.moveCount,
MyScore: sc.myScore,
OppScore: sc.oppScore,
CandScores: append([]int{}, sc.cands...),
RackLen: sc.rackLen,
BagLen: sc.bagLen,
PlayToWin: ptw,
Win: win,
Kind: kind,
Index: index,
})
}
}
fx := strategyFixture{PlayToWinPercent: playToWinPercent, Mix: mixCases, Decisions: decisions}
dir := filepath.Join("..", "..", "..", "ui", "src", "lib", "robot", "testdata")
if err := os.MkdirAll(dir, 0o755); err != nil {
t.Fatalf("mkdir %s: %v", dir, err)
}
data, err := json.MarshalIndent(fx, "", " ")
if err != nil {
t.Fatalf("marshal: %v", err)
}
path := filepath.Join(dir, "strategy.json")
if err := os.WriteFile(path, append(data, '\n'), 0o644); err != nil {
t.Fatalf("write %s: %v", path, err)
}
t.Logf("wrote %s (%d mix, %d decisions)", path, len(mixCases), len(decisions))
}
+5 -1
View File
@@ -174,6 +174,10 @@ type emailRequest struct {
Email string `json:"email"`
BrowserTZ string `json:"browser_tz"`
Language string `json:"language"`
// Pwa marks a request from an installed PWA (standalone display mode): the login email then
// omits the one-tap confirm link so the code is typed in the same window (the link would open
// in a separate browser whose session cannot reach the PWA). See EmailService.RequestLoginCode.
Pwa bool `json:"pwa"`
}
// handleEmailRequest issues a login confirm-code to the email. It always reports
@@ -185,7 +189,7 @@ func (s *Server) handleEmailRequest(c *gin.Context) {
abortBadRequest(c, "email is required")
return
}
if _, err := s.emails.RequestLoginCode(c.Request.Context(), req.Email, req.BrowserTZ, req.Language); err != nil {
if _, err := s.emails.RequestLoginCode(c.Request.Context(), req.Email, req.BrowserTZ, req.Language, req.Pwa); err != nil {
s.abortErr(c, err)
return
}
+14 -3
View File
@@ -244,7 +244,9 @@ arrive from a platform rather than completing a mandatory registration).
256-bit token stored only as its SHA-256, 12-hour TTL): a login mints a session in the
browser that opens it (magic-link), a link confirms the identity and emits a `notify`
profile-refresh to the in-app session, a change switches the account's email in place,
and a would-be merge is deferred to the interactive flow. The confirm runs on load; the token rides the URL fragment (never
and a would-be merge is deferred to the interactive flow. A login requested from an installed **PWA** omits the deeplink
entirely — its email carries the code only, typed in the same window, since the link would open
in a separate browser whose minted session cannot reach the PWA. The confirm runs on load; the token rides the URL fragment (never
sent to the server), so a plain link prefetch cannot reach it, and the manual
six-digit code is the fallback if an aggressive scanner runs the page. An
**email-login** account is created flagged `is_guest` and stays reapable until the
@@ -1041,7 +1043,9 @@ link — misses the event; while an add-email confirmation is pending the client
(`internal/adminalert`, started from `main`) emails the operator (`ADMIN_EMAIL`, from a
distinct `SMTP_RELAY_ADMIN_FROM`) when new player feedback or word complaints arrive,
**coalescing** a burst into one digest per interval; both recipients may be several
comma-separated addresses. Both paths are inert unless configured.
comma-separated addresses. The digest carries **no admin-console link** — an admin URL must
never travel in an email, where a mail provider could cache or index it; the operator opens the
console directly. Both paths are inert unless configured.
- Per-request server-side timing via gin middleware from day one (the access log
carries method, route, status, latency and the active trace id). A
client-measured RTT piggybacked on the next request is a later enhancement.
@@ -1233,7 +1237,14 @@ origin, so the test contour canonicalises to production instead of being indexed
separate site; the SPA shell is `noindex`, and the landing always boots in Russian (no
browser-language detection — crawlers render with arbitrary languages). The favicon set,
`og-image.png` and `robots.txt` ship unhashed from `ui/public/` (generated by
`assets/icons/`, same tile design as the VK loader). Hash-named `/assets/*` are served
`assets/icons/`, same tile design as the VK loader). On the web (`/app/`) the SPA is an installable **PWA**:
`manifest.webmanifest` and an install-only **service worker** (`sw.js`) ship unhashed from
`ui/public/`, and the client registers the worker **web-only** — never inside a Mini App or the
mock build. The worker intercepts only top-level navigations (network-first with a cached-shell
fallback), leaving `/assets/*` and the Connect stream untouched; it exists to satisfy Chromium's
installability requirement (a registered SW, needed for install on Android) and is the single
growth point for a future opt-in offline mode. The gateway registers the `.webmanifest` MIME type
in-process (the distroless image has no `/etc/mime.types`). Hash-named `/assets/*` are served
`immutable` (a relaunch is a cache hit, not a re-download); the HTML shells are
`no-cache` so a new deploy is picked up — both containers apply the same caching. An
in-compose **caddy** is the contour's edge: it owns a single `/_gm` Basic-Auth and
+10 -2
View File
@@ -21,7 +21,8 @@ Settings also pick the board's bonus-label style (beginner / classic / none). A
costs nothing when the rack has no legal move. The word-check accepts only the
variant's alphabet, remembers answers within the session and rate-limits repeats.
A public **landing page** at the site root introduces the game, switches language and
theme, and links to the Telegram game channel and the VK Mini App; the game itself runs at
theme, and links to the Telegram game channel, the VK Mini App and the **web version**
(`/app/`) — each under a caption (Telegram / VK / Веб-версия); the game itself runs at
`/app/` (web), `/telegram/` (the Telegram Mini App) and `/vk/` (the VK Mini App). The landing's theme is ephemeral
(it follows the system scheme, not the saved preference); its language choice is saved. The
landing always opens in **Russian** — the browser language is never auto-detected (crawlers
@@ -31,6 +32,11 @@ nondeterministic); a saved 🌐 choice still wins. The page carries a static Rus
pinned to the production origin, JSON-LD, the favicon set and `robots.txt`), while the SPA
shell is `noindex` — the landing is the only indexable page.
On the plain web the client is an **installable PWA**: a logged-out player sees an install
call-to-action under the login form (and at the bottom of Settings) that installs the app to the
home screen / desktop in one tap where the browser supports it (Chromium), or shows manual
Add-to-Home-Screen steps on iOS Safari; it is hidden once installed and inside the Mini Apps.
### First-run onboarding
The first time a player opens the app it walks them through the interface with a light
**coachmark overlay**: a dimmed layer draws one hint bubble at a time, each pointing — with a
@@ -70,7 +76,9 @@ per address), so a mistyped address or an impatient tap cannot flood an inbox. T
also carries a **one-tap link** that confirms the address — or signs the player straight
in — in a single tap; opening it in another browser reflects in the app at once, and a
mail scanner that merely fetches the link cannot reach it — the token rides the URL
fragment, which is never sent to the server.
fragment, which is never sent to the server. A sign-in requested from an **installed PWA** omits
this link: the email carries only the code, entered in the same window, since the link would open
in a separate browser the app cannot reach.
Telegram runs a **single bot**: every player uses
the same bot, and all of its chat and out-of-app notifications are written in the
player's own **interface language** (en/ru). A separate optional **promo bot** can run alongside the
+10 -2
View File
@@ -22,7 +22,8 @@ top-1 подсказку, безлимитную проверку слова с
Проверка слова принимает только алфавит варианта, запоминает ответы в рамках сессии
и ограничивает частоту повторов.
Публичная **посадочная страница** в корне сайта представляет игру, переключает язык и
тему и ведёт в Telegram-канал игры и в VK Mini App; сама игра живёт по адресам
тему и ведёт в Telegram-канал игры, в VK Mini App и в **веб-версию** (`/app/`) — каждая под
подписью (Telegram / VK / Веб-версия); сама игра живёт по адресам
`/app/` (веб), `/telegram/` (Telegram Mini App) и `/vk/` (VK Mini App). Тема на странице эфемерна (берётся из
системной настройки, а не из сохранённой), выбор языка сохраняется. Страница всегда
открывается на **русском** — язык браузера не определяется автоматически (роботы
@@ -33,6 +34,11 @@ Open Graph, которую используют превью ссылок в Tel
продакшен-домена, JSON-LD, набор favicon и `robots.txt`), а оболочка SPA помечена
`noindex` — индексируется только посадочная страница.
В обычном вебе клиент — **устанавливаемое PWA**: незалогиненный игрок видит призыв к установке
под формой входа (и внизу «Настроек»), который в один тап ставит приложение на рабочий стол
(домашний экран) там, где браузер это умеет (Chromium), либо показывает ручные шаги
«На экран „Домой“» в Safari на iOS; он скрыт после установки и внутри Mini App.
### Первый запуск: онбординг
При первом открытии приложения игрока один раз проводят по интерфейсу лёгким
**coachmark-оверлеем**: затемнённый слой показывает по одной подсказке-«облачку» за раз, каждое
@@ -74,7 +80,9 @@ launch-параметрам VK (их проверяет gateway), и при пе
не завалили почтовый ящик. В письме также есть **ссылка одного нажатия**, которая подтверждает
адрес — или сразу выполняет вход — в один тап; открытие её в другом браузере тут же отражается в
приложении, а почтовый сканер, который просто загружает ссылку, до токена не дотянется —
он едет в URL-фрагменте, который не уходит на сервер.
он едет в URL-фрагменте, который не уходит на сервер. Вход, запрошенный из **установленного
PWA**, эту ссылку не содержит: в письме только код, который вводится в том же окне (ссылка
открылась бы в отдельном браузере, недоступном приложению).
Telegram держит **единого бота**: все игроки пользуются одним
и тем же ботом, а весь его чат и внеприложенческие уведомления пишутся на **языке
интерфейса** самого игрока (en/ru). Рядом с основным может работать отдельный опциональный
+3
View File
@@ -8,6 +8,9 @@ backend over REST/JSON, and bridges the backend's gRPC push stream to each
client's in-app live channel. It **embeds the static UI build** (`go:embed`, baked
in by the gateway image's node stage) and serves a **landing page** at `/` and the game
**SPA** at `/app/` (web), `/telegram/` (the Telegram Mini App) and `/vk/` (the VK Mini App) — the single-origin model.
The web SPA is an installable **PWA**: it serves `manifest.webmanifest` (with the `.webmanifest`
MIME type registered in-process — the distroless image has no `/etc/mime.types`) and the
install-only `sw.js`, both shipped unhashed from `ui/public/`.
Hash-named `/assets/*` are served `immutable`; the HTML shells are `no-cache`. It can also serve the
backend's admin console at `/_gm` behind HTTP Basic-Auth for a local non-caddy run;
in the deployed contour the front caddy owns `/_gm` (see
+4 -3
View File
@@ -289,10 +289,11 @@ func (c *Client) GuestAuth(ctx context.Context, browserTz string) (SessionResp,
// EmailRequest asks the backend to mail a login code, provisioning the account on
// first contact; browserTz (the client's detected "±HH:MM" UTC offset) seeds the new
// account's time zone, since the email account is created here, not at login.
func (c *Client) EmailRequest(ctx context.Context, email, browserTz, language string) error {
// account's time zone, since the email account is created here, not at login. pwa marks a
// request from an installed PWA, so the backend omits the one-tap confirm link from the email.
func (c *Client) EmailRequest(ctx context.Context, email, browserTz, language string, pwa bool) error {
return c.do(ctx, http.MethodPost, "/api/v1/internal/sessions/email/request", "", "",
map[string]string{"email": email, "browser_tz": browserTz, "language": language}, nil)
map[string]any{"email": email, "browser_tz": browserTz, "language": language, "pwa": pwa}, nil)
}
// EmailLogin verifies a login code and mints a session.
+7 -1
View File
@@ -46,7 +46,13 @@ func newServerMetrics(meter metric.Meter) *serverMetrics {
}
h, err := meter.Float64Histogram("edge_request_duration",
metric.WithUnit("s"),
metric.WithDescription("Seconds to serve one Connect Execute call, by message type and result."))
metric.WithDescription("Seconds to serve one Connect Execute call, by message type and result."),
// Explicit second-scale buckets. The durations are recorded in seconds, so the SDK's
// default millisecond-calibrated boundaries (first boundary 5) would bin every sub-5s
// request into one bucket — making histogram_quantile(0.99) interpolate to ~4.95s
// regardless of the real latency, which flapped the >1s edge-latency alert. These
// boundaries straddle the 1s SLO so the p99 reflects real (mostly sub-second) latency.
metric.WithExplicitBucketBoundaries(0.005, 0.01, 0.025, 0.05, 0.1, 0.25, 0.5, 1, 2.5, 5, 10))
if err != nil {
h, _ = noop.NewMeterProvider().Meter(meterName).Float64Histogram("edge_request_duration")
}
@@ -29,6 +29,7 @@ func TestEdgeMetric(t *testing.T) {
type key struct{ messageType, result string }
counts := map[key]uint64{}
var bounds []float64
for _, sm := range rm.ScopeMetrics {
for _, md := range sm.Metrics {
if md.Name != "edge_request_duration" {
@@ -42,6 +43,7 @@ func TestEdgeMetric(t *testing.T) {
mt, _ := dp.Attributes.Value(attribute.Key("message_type"))
res, _ := dp.Attributes.Value(attribute.Key("result"))
counts[key{mt.AsString(), res.AsString()}] += dp.Count
bounds = dp.Bounds
}
}
}
@@ -51,6 +53,19 @@ func TestEdgeMetric(t *testing.T) {
if got := counts[key{"auth.guest", "domain"}]; got != 1 {
t.Errorf("edge auth.guest/domain = %d, want 1", got)
}
// The buckets must be second-scaled. The default (millisecond-calibrated) boundaries have no
// boundary between 0 and 5, so every sub-5s request bins into one bucket and p99 interpolates
// to ~4.95s, flapping the >1s alert. Require at least one sub-second boundary.
subSecond := false
for _, b := range bounds {
if b > 0 && b < 1 {
subSecond = true
break
}
}
if !subSecond {
t.Errorf("edge_request_duration bounds = %v, want sub-second boundaries (seconds-scaled)", bounds)
}
}
// TestRateLimitedMetric records limiter rejections through a manual reader and
+1 -1
View File
@@ -253,7 +253,7 @@ func authGuestHandler(backend *backendclient.Client) Handler {
func authEmailRequestHandler(backend *backendclient.Client) Handler {
return func(ctx context.Context, req Request) ([]byte, error) {
in := fb.GetRootAsEmailRequestRequest(req.Payload, 0)
if err := backend.EmailRequest(ctx, string(in.Email()), string(in.BrowserTz()), string(in.Language())); err != nil {
if err := backend.EmailRequest(ctx, string(in.Email()), string(in.BrowserTz()), string(in.Language()), in.Pwa()); err != nil {
return nil, err
}
return encodeAck(true), nil
+19 -6
View File
@@ -17,6 +17,7 @@ package webui
import (
"embed"
"io/fs"
"mime"
"net/http"
"path"
"strings"
@@ -35,13 +36,25 @@ func distFS() fs.FS {
return sub
}
// Handler serves the embedded UI. An existing file is served directly (hash-named assets get
// an immutable cache); every other path falls back to indexName (the SPA shell) so a
// client-side deep link still loads. When stripPrefix is non-empty it is removed from the
// request path before lookup, so the same build serves under a sub-path (e.g. "/app/" or
// "/telegram/").
// init registers the MIME type for .webmanifest, which Go's built-in table lacks and the
// distroless runtime image has no /etc/mime.types to supply. Without it the PWA Web App Manifest
// served under /app/ would be content-sniffed to text/plain, which some browsers reject.
func init() {
_ = mime.AddExtensionType(".webmanifest", "application/manifest+json")
}
// Handler serves the compile-time embedded UI build over the public edge — the game SPA under
// /app/, /telegram/ and /vk/. It delegates to handlerFor over the embedded dist/.
func Handler(stripPrefix, indexName string) http.Handler {
content := distFS()
return handlerFor(distFS(), stripPrefix, indexName)
}
// handlerFor serves content as the UI: an existing file is served directly (hash-named assets get
// an immutable cache); every other path falls back to indexName (the SPA shell) so a client-side
// deep link still loads. When stripPrefix is non-empty it is removed from the request path before
// lookup, so the same build serves under a sub-path (e.g. "/app/" or "/telegram/"). Split from
// Handler so it can be exercised over an in-memory fs.FS in tests.
func handlerFor(content fs.FS, stripPrefix, indexName string) http.Handler {
files := http.FileServer(http.FS(content))
h := http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
name := strings.TrimPrefix(path.Clean("/"+r.URL.Path), "/")
+54
View File
@@ -6,6 +6,7 @@ import (
"net/http/httptest"
"strings"
"testing"
"testing/fstest"
)
// get drives the handler with a GET for the given path and returns the response.
@@ -55,3 +56,56 @@ func TestAppMountServesShellStripsPrefixAndCachesAssets(t *testing.T) {
}
}
}
// testFS mirrors what Vite emits into dist/: the SPA shell, the PWA manifest + service worker at
// the root (copied from ui/public), and a hash-named asset. The compile-time embedded dist/ holds
// only a placeholder shell, so the manifest/sw.js serving is exercised over this in-memory FS.
func testFS() fstest.MapFS {
return fstest.MapFS{
"index.html": {Data: []byte("<!doctype html><title>shell</title>")},
"manifest.webmanifest": {Data: []byte(`{"name":"Эрудит"}`)},
"sw.js": {Data: []byte("self.addEventListener('fetch', () => {});")},
"assets/app-abc123.js": {Data: []byte("export const x = 1;")},
}
}
// TestHandlerServesManifestWithManifestType: the PWA manifest is served with the manifest MIME
// type (registered in init, since the distroless image has no /etc/mime.types), not sniffed to
// text/plain, which some browsers reject.
func TestHandlerServesManifestWithManifestType(t *testing.T) {
h := handlerFor(testFS(), "/app/", "index.html")
resp := get(t, h, "/app/manifest.webmanifest")
if resp.StatusCode != http.StatusOK {
t.Fatalf("status = %d, want 200", resp.StatusCode)
}
if ct := resp.Header.Get("Content-Type"); !strings.HasPrefix(ct, "application/manifest+json") {
t.Errorf("Content-Type = %q, want application/manifest+json", ct)
}
}
// TestHandlerServesServiceWorkerAsJavaScript: sw.js is served as JavaScript from the root, so its
// registration (scope /app/) succeeds.
func TestHandlerServesServiceWorkerAsJavaScript(t *testing.T) {
h := handlerFor(testFS(), "/app/", "index.html")
resp := get(t, h, "/app/sw.js")
if resp.StatusCode != http.StatusOK {
t.Fatalf("status = %d, want 200", resp.StatusCode)
}
if ct := resp.Header.Get("Content-Type"); !strings.HasPrefix(ct, "text/javascript") {
t.Errorf("Content-Type = %q, want text/javascript", ct)
}
}
// TestHandlerFallsBackToShellForUnknownManifestPath guards the trap: a manifest/sw path NOT emitted
// into dist/ falls back to the SPA shell as text/html, on which SW registration would fail. The two
// tests above pin that the real files are served instead of the shell.
func TestHandlerFallsBackToShellForUnknownManifestPath(t *testing.T) {
h := handlerFor(testFS(), "/app/", "index.html")
resp := get(t, h, "/app/not-emitted.webmanifest")
if resp.StatusCode != http.StatusOK {
t.Fatalf("status = %d, want 200", resp.StatusCode)
}
if ct := resp.Header.Get("Content-Type"); !strings.HasPrefix(ct, "text/html") {
t.Errorf("Content-Type = %q, want text/html (SPA shell fallback)", ct)
}
}
+5
View File
@@ -138,6 +138,11 @@ table EmailRequestRequest {
email:string;
browser_tz:string;
language:string;
// Set when the request originates from an installed PWA (standalone display mode): the
// backend then omits the one-tap confirm link from the login email so the code is typed in
// the same window, avoiding a link that opens in a separate browser (a different storage
// context) where the minted session could not reach the PWA.
pwa:bool;
}
// EmailLoginRequest logs in to the account owning email (provisioned at the
+16 -1
View File
@@ -65,8 +65,20 @@ func (rcv *EmailRequestRequest) Language() []byte {
return nil
}
func (rcv *EmailRequestRequest) Pwa() bool {
o := flatbuffers.UOffsetT(rcv._tab.Offset(10))
if o != 0 {
return rcv._tab.GetBool(o + rcv._tab.Pos)
}
return false
}
func (rcv *EmailRequestRequest) MutatePwa(n bool) bool {
return rcv._tab.MutateBoolSlot(10, n)
}
func EmailRequestRequestStart(builder *flatbuffers.Builder) {
builder.StartObject(3)
builder.StartObject(4)
}
func EmailRequestRequestAddEmail(builder *flatbuffers.Builder, email flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(0, flatbuffers.UOffsetT(email), 0)
@@ -77,6 +89,9 @@ func EmailRequestRequestAddBrowserTz(builder *flatbuffers.Builder, browserTz fla
func EmailRequestRequestAddLanguage(builder *flatbuffers.Builder, language flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(2, flatbuffers.UOffsetT(language), 0)
}
func EmailRequestRequestAddPwa(builder *flatbuffers.Builder, pwa bool) {
builder.PrependBoolSlot(3, pwa, false)
}
func EmailRequestRequestEnd(builder *flatbuffers.Builder) flatbuffers.UOffsetT {
return builder.EndObject()
}
+59
View File
@@ -0,0 +1,59 @@
import { expect, test } from './fixtures';
// The install CTA (components/InstallApp.svelte) is platform-adaptive: a one-tap button where the
// browser offers a beforeinstallprompt (Chromium), a manual instructions modal on iOS Safari, and
// nothing elsewhere / once installed / inside a Mini App. The native OS install dialog is
// browser-level and not drivable from Playwright, so these assert the CTA's presence and branch.
const IPHONE_SAFARI =
'Mozilla/5.0 (iPhone; CPU iPhone OS 17_0 like Mac OS X) AppleWebKit/605.1.15 (KHTML, like Gecko) Version/17.0 Mobile/15E148 Safari/604.1';
test('web: a captured install prompt shows the one-tap CTA and clicking it prompts', async ({ page }) => {
await page.goto('/');
// The web login screen is shown (an ordinary browser tab, not a Mini App).
await expect(page.getByRole('button', { name: /guest/i })).toBeVisible();
// Hidden until the browser offers installation (Playwright never fires beforeinstallprompt).
await expect(page.getByRole('button', { name: /Install the app/i })).toHaveCount(0);
// Simulate Chromium offering the install: dispatch a beforeinstallprompt the app can capture.
await page.evaluate(() => {
const e = new Event('beforeinstallprompt') as Event & {
prompt?: () => Promise<void>;
userChoice?: Promise<unknown>;
};
(window as unknown as { __promptCalled: boolean }).__promptCalled = false;
e.prompt = () => {
(window as unknown as { __promptCalled: boolean }).__promptCalled = true;
return Promise.resolve();
};
e.userChoice = Promise.resolve({ outcome: 'accepted', platform: '' });
window.dispatchEvent(e);
});
const cta = page.getByRole('button', { name: /Install the app/i });
await expect(cta).toBeVisible();
await cta.click();
// Clicking calls the captured prompt (the native dialog itself is not observable here).
await expect
.poll(() => page.evaluate(() => (window as unknown as { __promptCalled: boolean }).__promptCalled))
.toBe(true);
});
test.describe('iOS Safari', () => {
test.use({ userAgent: IPHONE_SAFARI });
test('shows manual Add-to-Home-Screen instructions (no programmatic install)', async ({ page }) => {
await page.goto('/');
await expect(page.getByRole('button', { name: /guest/i })).toBeVisible();
// On iOS Safari the CTA shows at once (no beforeinstallprompt is ever fired there).
const cta = page.getByRole('button', { name: /Install the app/i });
await expect(cta).toBeVisible();
await cta.click();
// It opens the app's own instructions modal (not a native / Telegram popup).
await expect(page.getByRole('heading', { name: 'Add to Home Screen' })).toBeVisible();
await expect(page.getByText(/Tap the Share button/)).toBeVisible();
});
});
+12
View File
@@ -46,3 +46,15 @@ test('the landing is a normal scrolling document (the SPA document-pin does not
expect(state.shell).toBe(false);
expect(state.bodyPosition).not.toBe('fixed');
});
// The web-version entry (/app/) is always present, alongside the build-var-gated Telegram/VK ones
// (absent here, since e2e sets no VITE_* vars), each with a caption.
test('the landing shows a web-version entry linking /app/, with a caption', async ({ page }) => {
await page.goto('/landing.html');
await expect(page.getByText(/Играй в «Эрудита»/)).toBeVisible(); // Russian by default
const web = page.getByRole('link', { name: 'Играть в браузере' });
await expect(web).toBeVisible();
expect(await web.getAttribute('href')).toContain('/app/');
await expect(page.getByText('Веб-версия')).toBeVisible();
});
+12
View File
@@ -256,6 +256,18 @@
<link rel="icon" href="favicon.ico" sizes="32x32" />
<link rel="icon" type="image/svg+xml" href="favicon.svg" />
<link rel="apple-touch-icon" href="apple-touch-icon.png" />
<!-- PWA installability (web /app/ only): the manifest + a service worker (registered from
lib/pwa, web-only) let the app be added to the home screen / desktop. The relative href
resolves per serving path; these tags are inert inside the Telegram/VK Mini App webviews,
which manage their own chrome. theme-color mirrors the light/dark --bg tokens (app.css). -->
<link rel="manifest" href="manifest.webmanifest" />
<meta name="theme-color" content="#f3f4f6" media="(prefers-color-scheme: light)" />
<meta name="theme-color" content="#0f1115" media="(prefers-color-scheme: dark)" />
<meta name="mobile-web-app-capable" content="yes" />
<meta name="apple-mobile-web-app-capable" content="yes" />
<meta name="apple-mobile-web-app-status-bar-style" content="default" />
<meta name="apple-mobile-web-app-title" content="Эрудит" />
<meta name="application-name" content="Эрудит" />
</head>
<body>
<div id="app"></div>
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+17
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@@ -0,0 +1,17 @@
{
"name": "Эрудит (Скрэббл)",
"short_name": "Эрудит",
"description": "Игра в слова «Эрудит» (Скрэббл): играйте с друзьями, случайным соперником или ИИ-роботом.",
"lang": "ru",
"dir": "ltr",
"start_url": ".",
"scope": ".",
"display": "standalone",
"background_color": "#f3f4f6",
"theme_color": "#f3f4f6",
"icons": [
{ "src": "icon-192.png", "sizes": "192x192", "type": "image/png", "purpose": "any" },
{ "src": "icon-512.png", "sizes": "512x512", "type": "image/png", "purpose": "any" },
{ "src": "icon-maskable-512.png", "sizes": "512x512", "type": "image/png", "purpose": "maskable" }
]
}
+53
View File
@@ -0,0 +1,53 @@
// Install-only service worker.
//
// Its sole job today is to satisfy Chromium's PWA installability requirement (a registered
// service worker with a fetch handler) so the web app can be installed to the home screen /
// desktop — notably on Android, where the manifest alone is not enough. It deliberately does
// NOT cache assets or the Connect-RPC stream: only top-level navigations are handled,
// network-first with a cached-shell fallback, so the live app, its immutable hashed assets and
// the live event stream are never served stale.
//
// This is the single designated growth point for the planned offline mode (a Settings toggle,
// default online — see docs/ARCHITECTURE.md). Extend the fetch router here; keep the same
// /app/ scope; gate any real caching behind the toggle and coordinate updates with the boot
// version guard.
const SHELL = 'scrabble-shell-v1'; // bump only when the SW strategy itself changes.
self.addEventListener('install', () => {
// No cached content to migrate carefully, so activate the new worker immediately.
self.skipWaiting();
});
self.addEventListener('activate', (event) => {
event.waitUntil(
(async () => {
const keys = await caches.keys();
await Promise.all(keys.filter((k) => k !== SHELL).map((k) => caches.delete(k)));
await self.clients.claim();
})(),
);
});
self.addEventListener('fetch', (event) => {
const req = event.request;
// Only top-level navigations are handled. Hashed assets and the Connect-RPC requests are
// left untouched (no respondWith -> the browser performs its default fetch), so the worker
// can never break the live stream or serve a stale immutable asset.
if (req.mode !== 'navigate') return;
event.respondWith(
(async () => {
try {
const res = await fetch(req);
const cache = await caches.open(SHELL);
// One shell entry regardless of the deep-link path: the hash router resolves the route
// client-side, so any offline navigation can be served the same cached shell.
cache.put('shell', res.clone());
return res;
} catch {
const cache = await caches.open(SHELL);
const cached = await cache.match('shell');
return cached ?? Response.error();
}
})(),
);
});
+5 -4
View File
@@ -19,10 +19,11 @@ import { join } from 'node:path';
const DIST = 'dist';
// Per-chunk gzip budgets in KB. The app entry was raised to 110 when the local
// move-preview wiring landed (the heavy dict subsystem stays in lazy chunks; this
// covers the small in-entry game/debug wiring it needs).
const BUDGET = { app: 110, shared: 30, landing: 5 };
// Per-chunk gzip budgets in KB. The app entry was raised to 110 for the local move-preview
// wiring, then to 112 for the PWA install feature (the install CTA + the pwa detection /
// service-worker registration live in the app entry; the heavy dict subsystem stays in lazy
// chunks). Its scoped CSS lands in the CSS chunk, not this JS budget.
const BUDGET = { app: 112, shared: 30, landing: 5 };
// gzipped returns the gzipped byte size of a built asset, or 0 when the reference is not a
// local file (e.g. the Telegram SDK loaded from a CDN) or is missing.
+31 -16
View File
@@ -80,20 +80,26 @@
<section class="hero">
<h1>{about.title}</h1>
<p class="tagline">{t('landing.tagline')}</p>
{#if tgLink || vkLink}
<div class="entries">
{#if tgLink}
<a class="entry" href={tgLink} target="_blank" rel="noopener noreferrer" aria-label={t('landing.playTelegram')}>
<img src="telegram-logo.svg" alt="" width="64" height="64" />
</a>
{/if}
{#if vkLink}
<a class="entry" href={vkLink} target="_blank" rel="noopener noreferrer" aria-label={t('landing.playVK')}>
<img src="vk-logo.svg" alt="" width="64" height="64" />
</a>
{/if}
</div>
{/if}
<!-- Platform entries: Telegram/VK are gated by their build vars; the web version (/app/) is
always available. A caption under each clarifies what it opens. -->
<div class="entries">
{#if tgLink}
<a class="entry" href={tgLink} target="_blank" rel="noopener noreferrer" aria-label={t('landing.playTelegram')}>
<img src="telegram-logo.svg" alt="" width="64" height="64" />
<span class="caption">{t('landing.captionTelegram')}</span>
</a>
{/if}
{#if vkLink}
<a class="entry" href={vkLink} target="_blank" rel="noopener noreferrer" aria-label={t('landing.playVK')}>
<img src="vk-logo.svg" alt="" width="64" height="64" />
<span class="caption">{t('landing.captionVK')}</span>
</a>
{/if}
<a class="entry" href="/app/" aria-label={t('landing.playWeb')}>
<img src="favicon.svg" alt="" width="64" height="64" />
<span class="caption">{t('landing.captionWeb')}</span>
</a>
</div>
</section>
<section class="info">
@@ -207,8 +213,8 @@
color: var(--text-muted);
font-size: 1.05rem;
}
/* The platform entries are just the bigger logos in a row (no button chrome, no captions);
each link keeps an aria-label for assistive tech. */
/* The platform entries are the bigger logos in a row, each with a short caption below; the
link keeps an aria-label for assistive tech. */
.entries {
align-self: center;
display: flex;
@@ -217,6 +223,11 @@
}
.entry {
display: inline-flex;
flex-direction: column;
align-items: center;
gap: 8px;
text-decoration: none;
color: var(--text);
}
.entry img {
display: block;
@@ -225,6 +236,10 @@
.entry:hover img {
transform: scale(1.06);
}
.caption {
font-size: 0.9rem;
color: var(--text-muted);
}
.info {
background: var(--surface-2);
border-radius: var(--radius-sm);
+85
View File
@@ -0,0 +1,85 @@
<script lang="ts">
import { t } from '../lib/i18n/index.svelte';
import { installMode, promptInstall } from '../lib/pwa.svelte';
import Modal from './Modal.svelte';
// Platform-adaptive: 'oneTap' fires the native Chromium install dialog; 'iosInstructions' opens
// the manual Share -> Add-to-Home-Screen guide (iOS Safari has no programmatic install); 'hidden'
// renders nothing (already installed, inside a Telegram/VK Mini App, or an unsupported browser).
const mode = $derived(installMode());
let showIos = $state(false);
function onClick(): void {
// promptInstall must run synchronously from this gesture — the deferred prompt is gated on it.
if (mode === 'oneTap') void promptInstall();
else if (mode === 'iosInstructions') showIos = true;
}
</script>
{#if mode !== 'hidden'}
<button type="button" class="install" onclick={onClick}>
<img src="favicon.svg" alt="" width="40" height="40" />
<span class="text">
<span class="title">{t('install.title')}</span>
<span class="subtitle">{t('install.subtitle')}</span>
</span>
</button>
{/if}
{#if showIos}
<Modal title={t('install.iosTitle')} onclose={() => (showIos = false)}>
<ol class="steps">
<li>{t('install.iosStep1')}</li>
<li>{t('install.iosStep2')}</li>
<li>{t('install.iosStep3')}</li>
</ol>
<button type="button" class="ok" onclick={() => (showIos = false)}>{t('common.ok')}</button>
</Modal>
{/if}
<style>
.install {
display: flex;
align-items: center;
gap: 12px;
width: 100%;
text-align: left;
padding: 12px;
border: 1px solid var(--border);
border-radius: var(--radius-sm);
background: var(--surface);
color: var(--text);
cursor: pointer;
}
.install img {
flex: none;
border-radius: 8px;
}
.text {
display: flex;
flex-direction: column;
gap: 2px;
min-width: 0;
}
.title {
font-weight: 600;
}
.subtitle {
font-size: 0.85rem;
color: var(--text-muted);
line-height: 1.35;
}
.steps {
margin: 0 0 16px;
padding-left: 1.25rem;
line-height: 1.6;
}
.ok {
width: 100%;
padding: 10px 12px;
border: 1px solid var(--accent);
background: var(--accent);
color: var(--accent-text);
border-radius: var(--radius-sm);
}
</style>
@@ -41,8 +41,13 @@ language(optionalEncoding?:any):string|Uint8Array|null {
return offset ? this.bb!.__string(this.bb_pos + offset, optionalEncoding) : null;
}
pwa():boolean {
const offset = this.bb!.__offset(this.bb_pos, 10);
return offset ? !!this.bb!.readInt8(this.bb_pos + offset) : false;
}
static startEmailRequestRequest(builder:flatbuffers.Builder) {
builder.startObject(3);
builder.startObject(4);
}
static addEmail(builder:flatbuffers.Builder, emailOffset:flatbuffers.Offset) {
@@ -57,16 +62,21 @@ static addLanguage(builder:flatbuffers.Builder, languageOffset:flatbuffers.Offse
builder.addFieldOffset(2, languageOffset, 0);
}
static addPwa(builder:flatbuffers.Builder, pwa:boolean) {
builder.addFieldInt8(3, +pwa, +false);
}
static endEmailRequestRequest(builder:flatbuffers.Builder):flatbuffers.Offset {
const offset = builder.endObject();
return offset;
}
static createEmailRequestRequest(builder:flatbuffers.Builder, emailOffset:flatbuffers.Offset, browserTzOffset:flatbuffers.Offset, languageOffset:flatbuffers.Offset):flatbuffers.Offset {
static createEmailRequestRequest(builder:flatbuffers.Builder, emailOffset:flatbuffers.Offset, browserTzOffset:flatbuffers.Offset, languageOffset:flatbuffers.Offset, pwa:boolean):flatbuffers.Offset {
EmailRequestRequest.startEmailRequestRequest(builder);
EmailRequestRequest.addEmail(builder, emailOffset);
EmailRequestRequest.addBrowserTz(builder, browserTzOffset);
EmailRequestRequest.addLanguage(builder, languageOffset);
EmailRequestRequest.addPwa(builder, pwa);
return EmailRequestRequest.endEmailRequestRequest(builder);
}
}
+8 -1
View File
@@ -35,6 +35,8 @@ import {
} from './telegram';
import { onVKPath, insideVK, vkInit, vkClose, vkDisableSwipeBack, vkLaunchParams, vkUserName, vkStartParam, vkOnScheme, vkOnInsets, vkSetViewSettings, appearanceForBg } from './vk';
import { pendingVKLink, type VKLinkCallback } from './vkid';
import { isStandalone } from './pwa';
import { registerServiceWorker } from './pwa.svelte';
import { haptic } from './haptics';
import { CLOUD_PREFS_KEY, decodeClientPrefs, encodeClientPrefs } from './cloudprefs';
import { parseStartParam } from './deeplink';
@@ -783,6 +785,11 @@ export async function bootstrap(): Promise<void> {
return;
}
// On the plain web (both Mini-App branches returned above) register the install-only service
// worker so the app is installable — Chromium needs a registered SW, notably on Android. Web-only
// and skipped in the mock build; see lib/pwa.svelte.
registerServiceWorker();
const saved = await loadSession();
// A VK ID web-link callback (?code&device_id&state) rides the URL after the redirect back
// from VK; capture and clear it here (it needs the restored session to link against).
@@ -974,7 +981,7 @@ export async function loginGuest(): Promise<void> {
export async function requestEmailCode(email: string): Promise<boolean> {
try {
await gateway.authEmailRequest(email, app.locale);
await gateway.authEmailRequest(email, app.locale, isStandalone());
return true;
} catch (err) {
handleError(err);
+1 -1
View File
@@ -65,7 +65,7 @@ export interface GatewayClient {
* cosmetic seed for a brand-new account). */
authVK(params: string, displayName: string): Promise<Session>;
authGuest(locale?: string): Promise<Session>;
authEmailRequest(email: string, language: string): Promise<void>;
authEmailRequest(email: string, language: string, pwa: boolean): Promise<void>;
authEmailLogin(email: string, code: string): Promise<Session>;
/** Confirm a one-tap email deeplink token: a login returns a session to adopt; a
* link returns a status ('confirmed' | 'merge_required'). */
+2 -1
View File
@@ -122,10 +122,11 @@ describe('codec', () => {
expect(guest.browserTz()).toBe('-05:30');
const email = fb.EmailRequestRequest.getRootAsEmailRequestRequest(
new ByteBuffer(encodeEmailRequest('a@example.com', '+00:00', 'en')),
new ByteBuffer(encodeEmailRequest('a@example.com', '+00:00', 'en', true)),
);
expect(email.email()).toBe('a@example.com');
expect(email.browserTz()).toBe('+00:00');
expect(email.pwa()).toBe(true);
expect(email.language()).toBe('en');
const confirm = fb.EmailConfirmLinkRequest.getRootAsEmailConfirmLinkRequest(
+7 -1
View File
@@ -214,7 +214,12 @@ export function encodeGuestLogin(locale: string, browserTz: string): Uint8Array
return finish(b, fb.GuestLoginRequest.endGuestLoginRequest(b));
}
export function encodeEmailRequest(email: string, browserTz: string, language: string): Uint8Array {
export function encodeEmailRequest(
email: string,
browserTz: string,
language: string,
pwa: boolean,
): Uint8Array {
const b = new Builder(128);
const e = b.createString(email);
const tz = b.createString(browserTz);
@@ -223,6 +228,7 @@ export function encodeEmailRequest(email: string, browserTz: string, language: s
fb.EmailRequestRequest.addEmail(b, e);
fb.EmailRequestRequest.addBrowserTz(b, tz);
fb.EmailRequestRequest.addLanguage(b, l);
fb.EmailRequestRequest.addPwa(b, pwa);
return finish(b, fb.EmailRequestRequest.endEmailRequestRequest(b));
}
+68
View File
@@ -0,0 +1,68 @@
import { describe, it, expect } from 'vitest';
import { readFileSync } from 'node:fs';
import { Dawg } from './dawg';
// The step-by-step DAWG cursor (root/final/next/arcs) is the primitive the move
// generator walks. These fast unit tests pin it against a small committed sample
// dictionary (backend/cmd/movegen); the full parity vs the Go solver lands with
// the generator's conformance fixtures.
const bytes = new Uint8Array(readFileSync(new URL('./testdata/sample_en.dawg', import.meta.url)));
const fixture = JSON.parse(
readFileSync(new URL('./testdata/sample_en.words.json', import.meta.url), 'utf8'),
) as { numAdded: number; words: string[]; indexes: number[][] };
const key = (w: number[]): string => w.join(',');
// enumerateWords walks the whole automaton depth-first, collecting the index path
// at every accepting node — i.e. every stored word.
function enumerateWords(d: Dawg): number[][] {
const out: number[][] = [];
const path: number[] = [];
const visit = (node: number): void => {
d.arcs(node, (label, dest, final) => {
path.push(label);
if (final) out.push(path.slice());
visit(dest);
path.pop();
return true;
});
};
if (d.final(d.root())) out.push([]);
visit(d.root());
return out;
}
describe('dawg cursor', () => {
it('parses the sample fixture', () => {
const d = new Dawg(bytes);
expect(d.numAdded).toBe(fixture.numAdded);
});
it('root is not an accepting state (the sample has no empty word)', () => {
const d = new Dawg(bytes);
expect(d.final(d.root())).toBe(false);
});
it('enumerates exactly the stored words', () => {
const d = new Dawg(bytes);
const got = enumerateWords(d).map(key).sort();
const want = fixture.indexes.map(key).sort();
expect(got).toEqual(want);
});
it('next walks a stored word to an accepting node and rejects a non-edge', () => {
const d = new Dawg(bytes);
let node = d.root();
for (const ch of [2, 0, 17, 4, 3]) {
// "cared"
node = d.next(node, ch);
expect(node).toBeGreaterThanOrEqual(0);
}
expect(d.final(node)).toBe(true);
// "care" (index [2,0,17,4]) is an internal accepting node on the way to "cared".
const care = [2, 0, 17, 4].reduce((n, ch) => d.next(n, ch), d.root());
expect(d.final(care)).toBe(true);
// No stored word starts with 'z' (index 25).
expect(d.next(d.root(), 25)).toBe(-1);
});
});
+79
View File
@@ -95,6 +95,85 @@ export class Dawg {
return this.indexOf(word) >= 0;
}
// --- Step-by-step traversal (the move generator's primitive) ---------------
//
// A `Node` is a bit offset into the graph; 0 denotes the root (which resolves
// to firstNodeOffset). These mirror dafsa's traverse.go Cursor (Root/Final/
// Next/Arcs) over the same bitstream this reader already decodes, so the ported
// generator can drive the automaton one transition at a time. Single-threaded
// JS shares this reader's position across calls; every method re-seeks to its
// node on entry, and arcs brackets the callback with a save/restore, so nested
// use during a walk is safe. Mirrors dafsa (*Cursor).
/** root returns the start state of the automaton. */
root(): number {
return 0;
}
/** final reports whether node is an accepting state (a stored word ends there). */
final(node: number): boolean {
if (this.numEdges <= 0) {
return this.hasEmptyWord && node === 0;
}
this.p = node === 0 ? this.firstNodeOffset : node;
return this.readBits(1) === 1;
}
/**
* next follows the edge labelled ch (an alphabet index) from node, returning the
* destination node, or -1 when no such edge exists.
*/
next(node: number, ch: number): number {
return this.getEdge(node, ch) ? this.eNode : -1;
}
/**
* arcs calls fn for each out-edge of node in ascending label order, passing the
* edge's label, its destination node and whether that destination is accepting.
* It stops early if fn returns false. Mirrors dafsa (*Cursor).Arcs.
*/
arcs(node: number, fn: (label: number, dest: number, final: boolean) => boolean): void {
if (this.numEdges <= 0) {
return;
}
this.p = node === 0 ? this.firstNodeOffset : node;
this.readBits(1); // node final flag — not needed here
const fallthrough = this.readBits(1);
if (fallthrough === 1) {
const label = this.readBits(this.cbits);
// The reader now sits at the destination node, whose first bit is its final flag.
const dest = this.p;
const final = this.readBits(1) === 1;
fn(label, dest, final);
return;
}
const nskiplen = bitsLen(this.wbits);
let nskip = 0;
let numEdges = 1;
if (this.readBits(1) !== 1) {
// not a single edge
numEdges = this.readUnsigned();
nskip = this.readBits(nskiplen);
}
for (let i = 0; i < numEdges; i++) {
const label = this.readBits(this.cbits);
if (i > 0) {
this.readBits(nskip); // per-edge skip count, unused for traversal
}
const dest = this.readBits(this.abits);
const resume = this.p;
this.p = dest;
const final = this.readBits(1) === 1;
if (!fn(label, dest, final)) {
return;
}
this.p = resume;
}
}
// getEdge resolves the outgoing edge for ch from the node at the given bit
// offset. On success it fills eNode/eCount/eFinal and returns true. Mirrors
// dafsa (*dawg).getEdge.
+99
View File
@@ -0,0 +1,99 @@
import { describe, it, expect } from 'vitest';
import { readFileSync } from 'node:fs';
import { Dawg } from './dawg';
import { generateMoves, GenRack, type GenBoard, type Mode } from './generate';
import type { Ruleset } from './validate';
// Conformance gate for the ported move generator: for each committed position it must
// return exactly the ranked play list the real Go solver returns (backend/cmd/movegen).
// The Russian sample reaches alphabet index 32, exercising the 33-letter cross-set.
interface Tile {
row: number;
col: number;
letter: number;
blank: boolean;
}
interface GenMove {
dir: number;
tiles: Tile[];
score: number;
}
interface Fixture {
ruleset: {
size: number;
cols: number;
center: number;
rackSize: number;
bingo: number;
values: number[];
letterMult: number[][];
wordMult: number[][];
};
cases: {
name: string;
placed: Tile[] | null;
rack: { letters: number[]; blanks: number };
mode: number;
ignoreCrossWords: boolean;
moves: GenMove[];
}[];
}
function load(tag: string): { dawg: Dawg; fx: Fixture } {
const bytes = new Uint8Array(readFileSync(new URL(`./testdata/sample_${tag}.dawg`, import.meta.url)));
const fx = JSON.parse(
readFileSync(new URL(`./testdata/sample_${tag}.gen.json`, import.meta.url), 'utf8'),
) as Fixture;
return { dawg: new Dawg(bytes), fx };
}
function buildBoard(placed: Tile[], cols: number): GenBoard {
const grid: ({ letter: number; blank: boolean } | null)[] = new Array(cols * cols).fill(null);
for (const t of placed) grid[t.row * cols + t.col] = { letter: t.letter, blank: t.blank };
const inBounds = (r: number, c: number): boolean => r >= 0 && r < cols && c >= 0 && c < cols;
return {
rows: cols,
cols,
inBounds,
filled: (r, c) => inBounds(r, c) && grid[r * cols + c] !== null,
cellAt: (r, c) => grid[r * cols + c]!,
isEmpty: () => placed.length === 0,
};
}
function rulesetFor(fx: Fixture, ignoreCrossWords: boolean): Ruleset {
const r = fx.ruleset;
return {
cols: r.cols,
center: r.center,
rackSize: r.rackSize,
bingo: r.bingo,
values: r.values,
letterMult: (row, col) => r.letterMult[row][col],
wordMult: (row, col) => r.wordMult[row][col],
ignoreCrossWords,
};
}
// sig is an order-stable signature of a move: orientation, score and its placed tiles
// sorted by square — so two lists compare equal iff they rank the same plays the same way.
function sig(m: GenMove): string {
const ts = m.tiles.slice().sort((a, b) => (a.row !== b.row ? a.row - b.row : a.col - b.col));
return `${m.dir}#${m.score}#` + ts.map((t) => `${t.row},${t.col},${t.letter}${t.blank ? '*' : ''}`).join(';');
}
for (const tag of ['en', 'ru']) {
describe(`move generator parity vs Go solver (${tag})`, () => {
const { dawg, fx } = load(tag);
for (const c of fx.cases) {
it(c.name, () => {
const board = buildBoard(c.placed ?? [], fx.ruleset.cols);
const rack = GenRack.from(fx.ruleset.size, c.rack.letters, c.rack.blanks);
const rs = rulesetFor(fx, c.ignoreCrossWords);
const got = generateMoves(dawg, board, rack, rs, c.mode as Mode);
expect(got.map(sig)).toEqual(c.moves.map(sig));
});
}
});
}
+113
View File
@@ -0,0 +1,113 @@
import { describe, it, expect } from 'vitest';
import { readFileSync, existsSync } from 'node:fs';
import { join } from 'node:path';
import { Dawg } from './dawg';
import { generateMoves, GenRack, type GenBoard, type Mode } from './generate';
import type { Ruleset } from './validate';
// Full-dictionary conformance for the ported move generator: for positions over the real
// shipped dictionaries (deep graphs and full 26/33-letter alphabets the tiny committed
// samples cannot reach) it must return exactly the ranked list the Go solver does. The
// golden vectors come from `go run ./backend/cmd/movegen -dawg-dir <dawg> -out <dir>` and
// the CI conformance job wires the two directories in; the suite skips when they are unset.
const dawgDir = process.env.DICT_DAWG_DIR;
const goldDir = process.env.DICT_MOVEGEN_DIR;
const ready = !!dawgDir && !!goldDir && existsSync(dawgDir) && existsSync(goldDir);
// variant -> the release dawg file name (matches dawg.parity.test.ts / the movegen tool).
const variants = [
{ variant: 'scrabble_en', dawg: 'en_sowpods' },
{ variant: 'scrabble_ru', dawg: 'ru_scrabble' },
{ variant: 'erudit_ru', dawg: 'ru_erudit' },
];
interface Tile {
row: number;
col: number;
letter: number;
blank: boolean;
}
interface GenMove {
dir: number;
tiles: Tile[];
score: number;
}
interface Fixture {
ruleset: {
size: number;
cols: number;
center: number;
rackSize: number;
bingo: number;
values: number[];
letterMult: number[][];
wordMult: number[][];
};
cases: {
name: string;
placed: Tile[] | null;
rack: { letters: number[]; blanks: number };
mode: number;
ignoreCrossWords: boolean;
moves: GenMove[];
}[];
}
function buildBoard(placed: Tile[], cols: number): GenBoard {
const grid: ({ letter: number; blank: boolean } | null)[] = new Array(cols * cols).fill(null);
for (const t of placed) grid[t.row * cols + t.col] = { letter: t.letter, blank: t.blank };
const inBounds = (r: number, c: number): boolean => r >= 0 && r < cols && c >= 0 && c < cols;
return {
rows: cols,
cols,
inBounds,
filled: (r, c) => inBounds(r, c) && grid[r * cols + c] !== null,
cellAt: (r, c) => grid[r * cols + c]!,
isEmpty: () => placed.length === 0,
};
}
function rulesetFor(fx: Fixture, ignoreCrossWords: boolean): Ruleset {
const r = fx.ruleset;
return {
cols: r.cols,
center: r.center,
rackSize: r.rackSize,
bingo: r.bingo,
values: r.values,
letterMult: (row, col) => r.letterMult[row][col],
wordMult: (row, col) => r.wordMult[row][col],
ignoreCrossWords,
};
}
function sig(m: GenMove): string {
const ts = m.tiles.slice().sort((a, b) => (a.row !== b.row ? a.row - b.row : a.col - b.col));
return `${m.dir}#${m.score}#` + ts.map((t) => `${t.row},${t.col},${t.letter}${t.blank ? '*' : ''}`).join(';');
}
describe.skipIf(!ready)('move generator parity vs Go on the real dictionaries', () => {
for (const v of variants) {
describe(v.variant, () => {
// Guard the collection-time reads: the block is skipped when the dirs are unset, but
// the describe callback still runs to register tests, so touch the filesystem only
// when ready (otherwise join(undefined, …) would throw during a normal unit run).
if (!ready) return;
const fx = JSON.parse(readFileSync(join(goldDir!, `${v.variant}.movegen.json`), 'utf8')) as Fixture;
const dawg = new Dawg(new Uint8Array(readFileSync(join(dawgDir!, `${v.dawg}.dawg`))));
for (const c of fx.cases) {
it(
c.name,
() => {
const board = buildBoard(c.placed ?? [], fx.ruleset.cols);
const rack = GenRack.from(fx.ruleset.size, c.rack.letters, c.rack.blanks);
const rs = rulesetFor(fx, c.ignoreCrossWords);
const got = generateMoves(dawg, board, rack, rs, c.mode as Mode);
expect(got.map(sig)).toEqual(c.moves.map(sig));
},
60_000,
);
}
});
}
});
+418
View File
@@ -0,0 +1,418 @@
// Local move generator: every legal play for a rack on a board, ranked by
// descending score. Ported from the scrabble-solver engine — the Appel-Jacobson
// two-phase algorithm (LeftPart then ExtendRight) over a plain left-to-right DAWG
// (scrabble/gen_dawg.go, gen.go, crossset.go, solver.go, key.go). It walks the DAWG
// with the cursor from dawg.ts and scores each play with evaluate() from validate.ts,
// so the whole robot brain runs on-device. Faithfulness to the Go solver is pinned by
// generate.parity.test.ts against golden fixtures (backend/cmd/movegen).
//
// Everything works in alphabet-index space, mirroring the Go engine. A letterSet is
// a per-square cross-set (the letters that form a legal perpendicular word there);
// it is a boolean membership array rather than a uint64, so alphabet indexes past
// JS's 31-bit shift boundary (Russian has 33 letters) are handled exactly.
import { Dawg } from './dawg';
import {
evaluate,
connected,
Horizontal,
Vertical,
type Board,
type Ruleset,
type Move,
type Placement,
type Direction,
} from './validate';
/** Both generates across plays (on the board) and down plays (on its transpose). */
export const Both = 0;
/** OnlyHorizontal generates across plays only. */
export const OnlyHorizontal = 1;
/** OnlyVertical generates down plays only (Эрудит plays a single orientation per turn). */
export const OnlyVertical = 2;
export type Mode = typeof Both | typeof OnlyHorizontal | typeof OnlyVertical;
function modeIncludes(mode: Mode, dir: Direction): boolean {
if (mode === Both) return true;
if (mode === OnlyHorizontal) return dir === Horizontal;
return dir === Vertical;
}
/**
* GenBoard is the board view the generator needs: the validator's read view plus the
* dimensions it iterates over. The whole board is square, so a transposed view (below)
* satisfies the same shape.
*/
export interface GenBoard extends Board {
rows: number;
cols: number;
}
/**
* GenRack is a rack as per-letter tile counts plus a blank slot, mirroring
* scrabble-solver/rack. The generator mutates a single rack in place — removing a
* tile, recursing, putting it back — so the operations are O(1) and allocation-free.
*/
export class GenRack {
private readonly counts: Int32Array;
/** Construct an empty rack for an alphabet of the given size (a trailing blank slot). */
constructor(size: number) {
this.counts = new Int32Array(size + 1);
}
/** from builds a rack from a multiset of letter indexes plus a blank count. */
static from(size: number, letters: readonly number[], blanks: number): GenRack {
const r = new GenRack(size);
for (const l of letters) r.counts[l]++;
r.counts[size] += blanks;
return r;
}
/** has reports whether at least one tile of the letter index is on the rack. */
has(letter: number): boolean {
return this.counts[letter] > 0;
}
/** blanks returns how many blank tiles are on the rack. */
blanks(): number {
return this.counts[this.counts.length - 1];
}
remove(letter: number): void {
this.counts[letter]--;
}
add(letter: number): void {
this.counts[letter]++;
}
removeBlank(): void {
this.counts[this.counts.length - 1]--;
}
addBlank(): void {
this.counts[this.counts.length - 1]++;
}
/** clone returns an independent copy. */
clone(): GenRack {
const c = new GenRack(this.counts.length - 1);
c.counts.set(this.counts);
return c;
}
}
// --- cross-sets ------------------------------------------------------------------
//
// A LetterSet is membership over alphabet letter indexes. Mirrors scrabble.letterSet
// (a uint64) but as a Uint8Array so index 32 (Russian) is exact under JS bit ops.
type LetterSet = Uint8Array;
function fullSet(size: number): LetterSet {
return new Uint8Array(size).fill(1);
}
// walk follows word (alphabet indexes) left to right from the root; -1 if it derails.
function walk(dawg: Dawg, word: readonly number[]): number {
let n = dawg.root();
for (const l of word) {
n = dawg.next(n, l);
if (n < 0) return -1;
}
return n;
}
// completers returns the letters X (< size) whose arc from state leads directly to an
// accepting node — the deterministic cross-set primitive. Mirrors scrabble.completers.
function completers(dawg: Dawg, state: number, size: number): LetterSet {
const set = new Uint8Array(size);
dawg.arcs(state, (label, _dest, final) => {
if (final && label < size) set[label] = 1;
return true;
});
return set;
}
// dawgCrossSet returns the letters X for which above·X·below is a stored word. Mirrors
// scrabble.dawgCrossSet: a right extension (no tiles below) just completes the prefix
// above; a left extension (tiles below) probes each X. above/below are letter indexes.
function dawgCrossSet(dawg: Dawg, above: number[], below: number[], size: number): LetterSet {
if (above.length === 0 && below.length === 0) return fullSet(size);
if (below.length === 0) {
const node = walk(dawg, above);
if (node < 0) return new Uint8Array(size);
return completers(dawg, node, size);
}
let node = dawg.root();
if (above.length > 0) {
node = walk(dawg, above);
if (node < 0) return new Uint8Array(size);
}
const set = new Uint8Array(size);
for (let x = 0; x < size; x++) {
let m = dawg.next(node, x);
if (m < 0) continue;
let ok = true;
for (const l of below) {
m = dawg.next(m, l);
if (m < 0) {
ok = false;
break;
}
}
if (ok && dawg.final(m)) set[x] = 1;
}
return set;
}
// columnContext returns the contiguous run of filled cells immediately above and below
// the empty square (r, c), each top to bottom, as letter indexes — the tiles a
// perpendicular word through (r, c) would include. Mirrors scrabble.columnContext.
function columnContext(b: GenBoard, r: number, c: number): { above: number[]; below: number[] } {
const above: number[] = [];
let start = r;
while (start - 1 >= 0 && b.filled(start - 1, c)) start--;
for (let rr = start; rr < r; rr++) above.push(b.cellAt(rr, c).letter);
const below: number[] = [];
let end = r;
while (end + 1 < b.rows && b.filled(end + 1, c)) end++;
for (let rr = r + 1; rr <= end; rr++) below.push(b.cellAt(rr, c).letter);
return { above, below };
}
// transpose returns a view of b with rows and columns swapped, so down-play generation
// runs as across generation. Mirrors board.Transpose (as a lazy view).
function transpose(b: GenBoard): GenBoard {
return {
rows: b.cols,
cols: b.rows,
inBounds: (r, c) => b.inBounds(c, r),
filled: (r, c) => b.filled(c, r),
cellAt: (r, c) => b.cellAt(c, r),
isEmpty: () => b.isEmpty(),
};
}
// A tentatively placed left-part tile; its column is fixed only at record time.
interface TileInfo {
letter: number;
blank: boolean;
}
// AcrossGen carries one across-generation pass over a board. Mirrors scrabble.acrossGen.
class AcrossGen {
private row = 0;
private readonly left: TileInfo[] = [];
private readonly right: Placement[] = [];
constructor(
private readonly dawg: Dawg,
private readonly bd: GenBoard,
private readonly rk: GenRack,
private readonly cross: (r: number, c: number) => LetterSet,
private readonly emit: (placements: Placement[]) => void,
) {}
generateRow(row: number, firstMove: boolean, centerRow: number, centerCol: number): void {
this.row = row;
let limit = 0;
for (let col = 0; col < this.bd.cols; col++) {
if (this.bd.filled(row, col)) {
limit = 0;
continue;
}
const anchor = firstMove ? row === centerRow && col === centerCol : this.hasFilledNeighbor(row, col);
if (!anchor) {
limit++;
continue;
}
this.left.length = 0;
this.right.length = 0;
if (col > 0 && this.bd.filled(row, col - 1)) {
const pre = this.walkPrefix(row, col);
if (pre.ok) this.extendRight(pre.node, col, col);
} else {
this.leftPart(this.dawg.root(), col, limit);
}
limit = 0;
}
}
private hasFilledNeighbor(r: number, c: number): boolean {
return this.bd.filled(r - 1, c) || this.bd.filled(r + 1, c) || this.bd.filled(r, c - 1) || this.bd.filled(r, c + 1);
}
// walkPrefix walks the DAWG through the filled run ending at col-1, returning the
// node reached and whether that prefix exists. Mirrors scrabble.acrossGen.walkPrefix.
private walkPrefix(row: number, col: number): { node: number; ok: boolean } {
let start = col - 1;
while (start - 1 >= 0 && this.bd.filled(row, start - 1)) start--;
let node = this.dawg.root();
for (let c = start; c < col; c++) {
node = this.dawg.next(node, this.bd.cellAt(row, c).letter);
if (node < 0) return { node, ok: false };
}
return { node, ok: true };
}
// leftPart places left-part tiles from the rack (up to limit), calling extendRight
// after each prefix. Mirrors scrabble.acrossGen.leftPart.
private leftPart(node: number, anchorCol: number, limit: number): void {
this.extendRight(node, anchorCol, anchorCol);
if (limit === 0) return;
this.dawg.arcs(node, (label, dest) => {
if (this.rk.has(label)) {
this.rk.remove(label);
this.left.push({ letter: label, blank: false });
this.leftPart(dest, anchorCol, limit - 1);
this.left.pop();
this.rk.add(label);
}
if (this.rk.blanks() > 0) {
this.rk.removeBlank();
this.left.push({ letter: label, blank: true });
this.leftPart(dest, anchorCol, limit - 1);
this.left.pop();
this.rk.addBlank();
}
return true;
});
}
// extendRight extends the word rightward from col, placing rack tiles on empty
// squares (constrained by cross-sets) and following board tiles. A word is recorded
// only past the anchor. Mirrors scrabble.acrossGen.extendRight.
private extendRight(node: number, col: number, anchorCol: number): void {
if (col >= this.bd.cols) {
if (col > anchorCol && this.dawg.final(node)) this.record(anchorCol);
return;
}
if (this.bd.filled(this.row, col)) {
const dest = this.dawg.next(node, this.bd.cellAt(this.row, col).letter);
if (dest >= 0) this.extendRight(dest, col + 1, anchorCol);
return;
}
if (col > anchorCol && this.dawg.final(node)) this.record(anchorCol);
const cross = this.cross(this.row, col);
this.dawg.arcs(node, (label, dest) => {
if (cross[label] !== 1) return true;
if (this.rk.has(label)) {
this.rk.remove(label);
this.right.push({ row: this.row, col, letter: label, blank: false });
this.extendRight(dest, col + 1, anchorCol);
this.right.pop();
this.rk.add(label);
}
if (this.rk.blanks() > 0) {
this.rk.removeBlank();
this.right.push({ row: this.row, col, letter: label, blank: true });
this.extendRight(dest, col + 1, anchorCol);
this.right.pop();
this.rk.addBlank();
}
return true;
});
}
// record assembles the play (left part at fixed columns, then the right part) and
// reports it, skipping plays that lay no new tile. Mirrors scrabble.acrossGen.record.
private record(anchorCol: number): void {
if (this.left.length + this.right.length === 0) return;
const placements: Placement[] = [];
const leftStart = anchorCol - this.left.length;
for (let i = 0; i < this.left.length; i++) {
placements.push({ row: this.row, col: leftStart + i, letter: this.left[i].letter, blank: this.left[i].blank });
}
for (const p of this.right) placements.push(p);
this.emit(placements);
}
}
// runAcross generates all across plays on bd and reports each via emit in bd's
// coordinates. Cross-sets are computed lazily (vertical words on bd) and cached.
// Mirrors DAWGGenerator.runAcross.
function runAcross(
dawg: Dawg,
bd: GenBoard,
rk: GenRack,
size: number,
rs: Ruleset,
centerRow: number,
centerCol: number,
emit: (placements: Placement[]) => void,
): void {
let crossFn: (r: number, c: number) => LetterSet;
if (rs.ignoreCrossWords) {
const full = fullSet(size);
crossFn = () => full;
} else {
const cache = new Array<LetterSet | undefined>(bd.rows * bd.cols);
crossFn = (r, c) => {
const i = r * bd.cols + c;
let s = cache[i];
if (!s) {
const { above, below } = columnContext(bd, r, c);
s = dawgCrossSet(dawg, above, below, size);
cache[i] = s;
}
return s;
};
}
const ag = new AcrossGen(dawg, bd, rk, crossFn, emit);
const firstMove = bd.isEmpty();
for (let row = 0; row < bd.rows; row++) {
ag.generateRow(row, firstMove, centerRow, centerCol);
}
}
// moveKey is a canonical string identifying a play (direction plus its placed tiles),
// used to de-duplicate and rank generated moves. Mirrors scrabble.moveKey.
export function moveKey(dir: Direction, placements: readonly Placement[]): string {
const ps = placements.slice().sort((a, b) => (a.row !== b.row ? a.row - b.row : a.col - b.col));
let s = String(dir);
for (const p of ps) s += `;${p.row},${p.col},${p.letter}${p.blank ? '*' : ''}`;
return s;
}
/**
* generateMoves returns every legal play for rack on board in the mode's orientations,
* ranked by descending score (ties broken by the canonical move key). It walks the DAWG
* with the cursor and scores each play with evaluate(); the alphabet size is taken from
* the ruleset's value table. Mirrors (*Solver).GenerateMovesOpts (the ruleset carries
* ignoreCrossWords for the single-word rule).
*/
export function generateMoves(dawg: Dawg, board: GenBoard, rack: GenRack, rs: Ruleset, mode: Mode = Both): Move[] {
const size = rs.values.length;
const rk = rack.clone(); // generation mutates the rack in place and restores it
const centerRow = Math.floor(rs.center / rs.cols);
const centerCol = rs.center % rs.cols;
const moves: Move[] = [];
const seen = new Set<string>();
const emit = (dir: Direction, placements: Placement[]): void => {
const key = moveKey(dir, placements);
if (seen.has(key)) return;
const res = evaluate(board, rs, dir, placements);
if (res.err || !res.move) return;
seen.add(key);
moves.push(res.move);
};
if (modeIncludes(mode, Horizontal)) {
runAcross(dawg, board, rk, size, rs, centerRow, centerCol, (p) => emit(Horizontal, p));
}
if (modeIncludes(mode, Vertical)) {
const tb = transpose(board);
runAcross(dawg, tb, rk, size, rs, centerCol, centerRow, (p) => {
const rp = p.map((pl) => ({ row: pl.col, col: pl.row, letter: pl.letter, blank: pl.blank }));
emit(Vertical, rp);
});
}
const kept = moves.filter((m) => connected(board, rs, m));
kept.sort((a, b) => {
if (a.score !== b.score) return b.score - a.score;
const ka = moveKey(a.dir, a.tiles);
const kb = moveKey(b.dir, b.tiles);
return ka < kb ? -1 : ka > kb ? 1 : 0;
});
return kept;
}
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+122
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@@ -0,0 +1,122 @@
{
"alphabet": "en",
"numAdded": 18,
"words": [
"a",
"an",
"and",
"ant",
"car",
"care",
"cared",
"cares",
"cars",
"cat",
"cats",
"do",
"doe",
"does",
"dog",
"dogs",
"done",
"dot"
],
"indexes": [
[
0
],
[
0,
13
],
[
0,
13,
3
],
[
0,
13,
19
],
[
2,
0,
17
],
[
2,
0,
17,
4
],
[
2,
0,
17,
4,
3
],
[
2,
0,
17,
4,
18
],
[
2,
0,
17,
18
],
[
2,
0,
19
],
[
2,
0,
19,
18
],
[
3,
14
],
[
3,
14,
4
],
[
3,
14,
4,
18
],
[
3,
14,
6
],
[
3,
14,
6,
18
],
[
3,
14,
13,
4
],
[
3,
14,
19
]
]
}
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{
"alphabet": "ru",
"numAdded": 6,
"words": [
"ад",
"ар",
"оса",
"я",
"яд",
"яр"
],
"indexes": [
[
0,
4
],
[
0,
17
],
[
15,
18,
0
],
[
32
],
[
32,
4
],
[
32,
17
]
]
}
+3 -2
View File
@@ -297,8 +297,9 @@ export function validatePlay(
}
// connected reports whether the play connects to the position (or covers the
// centre on the first move). Mirrors (*Solver).connected.
function connected(b: Board, rs: Ruleset, m: Move): boolean {
// centre on the first move). Mirrors (*Solver).connected. Exported so the move
// generator can apply the same post-generation connectivity filter.
export function connected(b: Board, rs: Ruleset, m: Move): boolean {
if (b.isEmpty()) {
const cr = Math.floor(rs.center / rs.cols);
const cc = rs.center % rs.cols;
+11
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@@ -234,6 +234,17 @@ export const en = {
'landing.tagline': 'Play Scrabble with friends, random opponent or an AI.',
'landing.playTelegram': 'Play in Telegram',
'landing.playVK': 'Play on VK',
'landing.playWeb': 'Play in your browser',
'landing.captionTelegram': 'Telegram',
'landing.captionVK': 'VK',
'landing.captionWeb': 'Web',
'install.title': 'Install the app',
'install.subtitle': 'Put the app icon on your desktop (home screen) to open the game in one tap.',
'install.iosTitle': 'Add to Home Screen',
'install.iosStep1': 'Tap the Share button in the browser toolbar.',
'install.iosStep2': 'Choose “Add to Home Screen”.',
'install.iosStep3': 'Tap “Add”.',
'lang.en': 'English',
'lang.ru': 'Русский',
+11
View File
@@ -234,6 +234,17 @@ export const ru: Record<MessageKey, string> = {
'landing.tagline': 'Играй в «Эрудита» с друзьями, случайным соперником или ИИ-роботом.',
'landing.playTelegram': 'Играть в Telegram',
'landing.playVK': 'Играть во ВКонтакте',
'landing.playWeb': 'Играть в браузере',
'landing.captionTelegram': 'Telegram',
'landing.captionVK': 'VK',
'landing.captionWeb': 'Веб-версия',
'install.title': 'Установить приложение',
'install.subtitle': 'Поместите иконку приложения на рабочий стол (домашний экран), чтобы открывать игру одним нажатием.',
'install.iosTitle': 'На экран «Домой»',
'install.iosStep1': 'Нажмите кнопку «Поделиться» на панели браузера.',
'install.iosStep2': 'Выберите «На экран „Домой“».',
'install.iosStep3': 'Нажмите «Добавить».',
'lang.en': 'English',
'lang.ru': 'Русский',
+1 -1
View File
@@ -150,7 +150,7 @@ export class MockGateway implements GatewayClient {
async authGuest(): Promise<Session> {
return { ...SESSION };
}
async authEmailRequest(_email: string, _language: string): Promise<void> {}
async authEmailRequest(_email: string, _language: string, _pwa: boolean): Promise<void> {}
async confirmEmailLink(_token: string): Promise<ConfirmLinkResult> {
return { purpose: 'link', status: 'confirmed', session: null };
}
+88
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@@ -0,0 +1,88 @@
// Reactive PWA install runtime: captures the Chromium install prompt, tracks the installed
// state, and registers the install-only service worker. The pure platform branching lives in
// pwa.ts. Structured after the other reactive lib modules (app.svelte.ts, router.svelte.ts).
import { isIosSafari, isStandalone, resolveInstallMode, type InstallMode } from './pwa';
import { insideTelegram } from './telegram';
import { insideVK } from './vk';
/** inMiniApp reports whether the app runs inside a Telegram or VK Mini App webview, where a web
* install makes no sense (the platform manages its own launcher). Kept here, out of the pure
* pwa.ts, so that module stays free of app imports for the node unit tests. */
function inMiniApp(): boolean {
return insideTelegram() || insideVK();
}
// beforeinstallprompt is a Chromium-only event, absent from the DOM lib types.
interface BeforeInstallPromptEvent extends Event {
readonly userChoice: Promise<{ outcome: 'accepted' | 'dismissed'; platform: string }>;
prompt(): Promise<void>;
}
declare global {
interface WindowEventMap {
beforeinstallprompt: BeforeInstallPromptEvent;
appinstalled: Event;
}
}
// Not named `state` (a Svelte-check hazard: `$state` would then read as a store subscription).
const install = $state<{ deferred: BeforeInstallPromptEvent | null; installed: boolean }>({
deferred: null,
installed: isStandalone(),
});
/**
* installMode is the reactive install-CTA mode for the current platform and any captured prompt.
* Read inside a component's markup / $derived so the CTA updates when a Chromium prompt arrives
* (beforeinstallprompt fires shortly after load) or the app is installed.
*/
export function installMode(): InstallMode {
return resolveInstallMode({
deferredAvailable: install.deferred !== null,
standalone: install.installed,
iosSafari: isIosSafari(),
inMiniApp: inMiniApp(),
});
}
/**
* initInstallListeners wires the Chromium install prompt and the installed event. Harmless on
* any platform — the events fire only in an installable browser — so it may run unconditionally
* at startup, early enough to catch a prompt that fires before the CTA mounts.
*/
export function initInstallListeners(): void {
if (typeof window === 'undefined') return;
window.addEventListener('beforeinstallprompt', (e) => {
// Suppress Chromium's mini-infobar; the app presents its own CTA instead.
e.preventDefault();
install.deferred = e;
});
window.addEventListener('appinstalled', () => {
install.deferred = null;
install.installed = true;
});
}
/**
* promptInstall shows the native Chromium install dialog. It MUST be called directly from a user
* gesture (the deferred prompt is gesture-gated — no await before it). A deferred prompt is
* single-use, so it is cleared here; a no-op when nothing was captured.
*/
export async function promptInstall(): Promise<void> {
const deferred = install.deferred;
if (!deferred) return;
install.deferred = null;
await deferred.prompt();
}
/**
* registerServiceWorker registers the install-only worker (ui/public/sw.js). Web-only: skipped in
* the mock build (a real worker would perturb the Playwright run) and inside a Telegram/VK Mini
* App. Best-effort — a failed registration only means the app is not installable.
*/
export function registerServiceWorker(): void {
if (typeof navigator === 'undefined' || !('serviceWorker' in navigator)) return;
if (import.meta.env.MODE === 'mock') return;
if (inMiniApp()) return;
void navigator.serviceWorker.register('sw.js').catch(() => {});
}
+96
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@@ -0,0 +1,96 @@
import { afterEach, describe, expect, it, vi } from 'vitest';
import { isIosSafari, isStandalone, resolveInstallMode } from './pwa';
describe('resolveInstallMode', () => {
const base = { deferredAvailable: false, standalone: false, iosSafari: false, inMiniApp: false };
it('hides inside a Mini App even with a captured prompt', () => {
expect(resolveInstallMode({ ...base, inMiniApp: true, deferredAvailable: true })).toBe('hidden');
});
it('hides once the app is installed (standalone)', () => {
expect(resolveInstallMode({ ...base, standalone: true, deferredAvailable: true })).toBe('hidden');
});
it('offers one-tap when a Chromium prompt was captured', () => {
expect(resolveInstallMode({ ...base, deferredAvailable: true })).toBe('oneTap');
});
it('offers iOS instructions on iOS Safari without a prompt', () => {
expect(resolveInstallMode({ ...base, iosSafari: true })).toBe('iosInstructions');
});
it('prefers one-tap over iOS instructions when both apply', () => {
expect(resolveInstallMode({ ...base, deferredAvailable: true, iosSafari: true })).toBe('oneTap');
});
it('hides on an unsupported browser (no prompt, not iOS)', () => {
expect(resolveInstallMode(base)).toBe('hidden');
});
});
describe('isStandalone', () => {
afterEach(() => vi.unstubAllGlobals());
it('is true when the display-mode media query matches', () => {
vi.stubGlobal('window', {
matchMedia: (q: string) => ({ matches: q.includes('standalone') }),
navigator: {},
});
expect(isStandalone()).toBe(true);
});
it('is true for the iOS navigator.standalone flag', () => {
vi.stubGlobal('window', {
matchMedia: () => ({ matches: false }),
navigator: { standalone: true },
});
expect(isStandalone()).toBe(true);
});
it('is false in an ordinary browser tab', () => {
vi.stubGlobal('window', {
matchMedia: () => ({ matches: false }),
navigator: { standalone: false },
});
expect(isStandalone()).toBe(false);
});
});
describe('isIosSafari', () => {
afterEach(() => vi.unstubAllGlobals());
const IPHONE_SAFARI =
'Mozilla/5.0 (iPhone; CPU iPhone OS 17_0 like Mac OS X) AppleWebKit/605.1.15 (KHTML, like Gecko) Version/17.0 Mobile/15E148 Safari/604.1';
const IPHONE_CHROME =
'Mozilla/5.0 (iPhone; CPU iPhone OS 17_0 like Mac OS X) AppleWebKit/605.1.15 (KHTML, like Gecko) CriOS/120.0 Mobile/15E148 Safari/604.1';
const ANDROID_CHROME =
'Mozilla/5.0 (Linux; Android 13) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/120.0 Mobile Safari/537.36';
const IPAD_SAFARI =
'Mozilla/5.0 (Macintosh; Intel Mac OS X 10_15) AppleWebKit/605.1.15 (KHTML, like Gecko) Version/17.0 Safari/605.1.15';
it('is true for Safari on iPhone', () => {
vi.stubGlobal('navigator', { userAgent: IPHONE_SAFARI, maxTouchPoints: 5 });
expect(isIosSafari()).toBe(true);
});
it('is true for Safari on iPadOS (Mac UA + touch points)', () => {
vi.stubGlobal('navigator', { userAgent: IPAD_SAFARI, maxTouchPoints: 5 });
expect(isIosSafari()).toBe(true);
});
it('is false for a desktop Mac (no touch points)', () => {
vi.stubGlobal('navigator', { userAgent: IPAD_SAFARI, maxTouchPoints: 0 });
expect(isIosSafari()).toBe(false);
});
it('is false for Chrome on iOS (CriOS)', () => {
vi.stubGlobal('navigator', { userAgent: IPHONE_CHROME, maxTouchPoints: 5 });
expect(isIosSafari()).toBe(false);
});
it('is false for Android Chrome', () => {
vi.stubGlobal('navigator', { userAgent: ANDROID_CHROME, maxTouchPoints: 5 });
expect(isIosSafari()).toBe(false);
});
});
+57
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@@ -0,0 +1,57 @@
// Pure PWA install helpers, kept out of the Svelte layer (and free of app imports) so the
// platform branching is unit-testable in the node test env. The reactive runtime (the captured
// install prompt, the Mini-App gate, the service-worker registration) lives in pwa.svelte.ts.
/** InstallMode is how the install call-to-action resolves for the current platform. */
export type InstallMode = 'oneTap' | 'iosInstructions' | 'hidden';
/**
* isStandalone reports whether the app is already running as an installed PWA — launched from
* the home screen / desktop rather than a browser tab. Both the standard display-mode media
* query and the iOS-only navigator.standalone flag are checked. Returns false with no window
* (e.g. under the unit tests).
*/
export function isStandalone(): boolean {
if (typeof window === 'undefined') return false;
const displayMode = window.matchMedia?.('(display-mode: standalone)').matches ?? false;
const iosStandalone =
(window.navigator as Navigator & { standalone?: boolean }).standalone === true;
return displayMode || iosStandalone;
}
/**
* isIosSafari reports whether the app runs in Safari on iOS / iPadOS — the only browser there
* that can add a site to the home screen, and one with no programmatic install (it never fires
* beforeinstallprompt). In-app webviews (Telegram, VK) and the iOS Chrome/Firefox/Edge wrappers
* are excluded, as is desktop Safari. Used to switch the CTA to manual Share -> Add-to-Home-Screen
* instructions.
*/
export function isIosSafari(): boolean {
if (typeof navigator === 'undefined') return false;
const ua = navigator.userAgent;
// iPadOS 13+ reports a Mac UA but exposes touch points — catch that as iOS too.
const isIos =
/iPhone|iPod|iPad/.test(ua) || (/Macintosh/.test(ua) && (navigator.maxTouchPoints ?? 0) > 1);
if (!isIos) return false;
// Safari only: the iOS Chrome (CriOS), Firefox (FxiOS), Edge (EdgiOS), Opera (OPiOS) and the
// Google-app (GSA) wrappers all carry "Safari" but cannot add to the home screen from our CTA.
return /Safari/.test(ua) && !/CriOS|FxiOS|EdgiOS|OPiOS|GSA/.test(ua);
}
/**
* resolveInstallMode chooses how the install CTA should behave from the platform facts:
* `deferredAvailable` — a beforeinstallprompt event was captured (Chromium one-tap); `standalone`
* — already installed; `iosSafari` — manual instructions apply; `inMiniApp` — running inside a
* Telegram/VK Mini App. The CTA is offered only on the plain web and never once installed.
*/
export function resolveInstallMode(facts: {
deferredAvailable: boolean;
standalone: boolean;
iosSafari: boolean;
inMiniApp: boolean;
}): InstallMode {
if (facts.inMiniApp || facts.standalone) return 'hidden';
if (facts.deferredAvailable) return 'oneTap';
if (facts.iosSafari) return 'iosInstructions';
return 'hidden';
}
+68
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@@ -0,0 +1,68 @@
import { describe, it, expect } from 'vitest';
import { readFileSync } from 'node:fs';
import { mix, playToWin, deviates, decide, DEFAULT_BAND } from './strategy';
// Conformance gate for the ported robot strategy: the client must fold the game seed and
// choose its action exactly as backend/internal/robot/strategy.go does, so a local vs_ai
// game plays the same. Golden fixtures come from the in-package emitter
// (backend/internal/robot/strategyfixture_test.go).
interface MixCase {
seed: string;
salt: string;
nums: number[];
value: string;
}
interface DecisionCase {
seed: string;
moveCount: number;
myScore: number;
oppScore: number;
candScores: number[];
rackLen: number;
bagLen: number;
playToWin: boolean;
win: boolean;
kind: string;
index: number;
}
interface Fixture {
playToWinPercent: number;
mix: MixCase[];
decisions: DecisionCase[];
}
const fx = JSON.parse(
readFileSync(new URL('./testdata/strategy.json', import.meta.url), 'utf8'),
) as Fixture;
describe('robot strategy parity vs Go', () => {
it('mix folds the seed like Go FNV-1a', () => {
for (const c of fx.mix) {
expect(mix(BigInt(c.seed), c.salt, ...c.nums), `${c.seed}/${c.salt}/${c.nums}`).toBe(BigInt(c.value));
}
});
it('chooses the same action as the Go robot', () => {
for (const c of fx.decisions) {
const seed = BigInt(c.seed);
const cands = c.candScores.map((score, index) => ({ score, index }));
const rack = new Array<string>(c.rackLen).fill('a');
expect(playToWin(seed), `playToWin ${c.seed}`).toBe(c.playToWin);
// the per-turn intent after the occasional off-strategy deviation
let win = playToWin(seed);
if (deviates(seed, c.moveCount, c.bagLen)) win = !win;
expect(win, `win ${c.seed}/${c.moveCount}/${c.bagLen}`).toBe(c.win);
const dec = decide(seed, c.moveCount, cands, c.myScore, c.oppScore, rack, c.bagLen, DEFAULT_BAND);
expect(dec.kind, `kind ${JSON.stringify(c)}`).toBe(c.kind);
if (dec.kind === 'play') {
expect(dec.move.index, `index ${JSON.stringify(c)}`).toBe(c.index);
} else if (dec.kind === 'exchange') {
expect(dec.exchange.length).toBe(c.rackLen);
}
}
});
});
+180
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@@ -0,0 +1,180 @@
// The offline robot's move choice, ported from backend/internal/robot/strategy.go so a
// local vs_ai game plays exactly as the server robot does: it picks the candidate whose
// resulting score margin lands closest to a target band (playing to win ~40% of games and
// to lose the rest), with an occasional off-strategy "wobble" that fades as the bag empties.
//
// Everything derives deterministically from the game's bag seed, folded by FNV-1a (mix),
// so the choice is reproducible. The 64-bit hash is computed with BigInt to stay bit-exact
// with Go's uint64 arithmetic; faithfulness is pinned by strategy.parity.test.ts against
// golden fixtures. Only the move-choice slice of strategy.go is ported — the server's
// think-time, sleep-window and nudge scheduling are irrelevant to on-device play.
// playToWinPercent is the probability, in percent, that the robot plays to win for a whole
// game; the rest of the time it plays to lose, so the human wins about 60% of games.
const playToWinPercent = 40;
// deviateMaxProb is the peak probability of a single off-strategy move, held through the
// opening and midgame; it tapers linearly to 0 over the last deviateTaperTiles bag tiles.
const deviateMaxProb = 0.2;
const deviateTaperTiles = 14;
const FNV_OFFSET = 14695981039346656037n;
const FNV_PRIME = 1099511628211n;
const TWO_POW_64 = 1n << 64n;
const MASK64 = TWO_POW_64 - 1n;
// u64le returns the 8 little-endian bytes of v reduced mod 2^64, matching Go's
// binary.LittleEndian.PutUint64(uint64(int64(v))) — negatives wrap two's-complement.
function u64le(v: bigint): number[] {
let x = ((v % TWO_POW_64) + TWO_POW_64) % TWO_POW_64;
const out: number[] = [];
for (let i = 0; i < 8; i++) {
out.push(Number(x & 0xffn));
x >>= 8n;
}
return out;
}
/**
* mix folds the game seed and a salt (a label plus optional integers such as the move
* index) into a stable 64-bit value, mirroring robot.mix (FNV-1a over the seed's 8 bytes,
* the salt bytes, then each number's 8 bytes). seed is the game's bag seed.
*/
export function mix(seed: bigint, salt: string, ...nums: number[]): bigint {
let h = FNV_OFFSET;
const feed = (b: number): void => {
h = ((h ^ BigInt(b & 0xff)) * FNV_PRIME) & MASK64;
};
for (const b of u64le(seed)) feed(b);
for (let i = 0; i < salt.length; i++) feed(salt.charCodeAt(i));
for (const n of nums) for (const b of u64le(BigInt(n))) feed(b);
return h;
}
/** unitFloat maps a mixed value to a float in [0, 1), mirroring robot.unitFloat. */
export function unitFloat(v: bigint): number {
return Number(v) / Number(TWO_POW_64);
}
/**
* playToWin reports the robot's once-per-game decision to play to win, derived from the
* seed so it is fixed for the whole game. Mirrors robot.playToWin.
*/
export function playToWin(seed: bigint): boolean {
return mix(seed, 'win') % 100n < BigInt(playToWinPercent);
}
// deviateProb is the probability of a single off-strategy move given the tiles left in the
// bag: deviateMaxProb through the midgame, tapering to 0 over the last deviateTaperTiles.
function deviateProb(bagLen: number): number {
if (bagLen <= 0) return 0;
if (bagLen >= deviateTaperTiles) return deviateMaxProb;
return (deviateMaxProb * bagLen) / deviateTaperTiles;
}
/**
* deviates reports whether the robot plays a single move against its per-game intent at
* moveCount, given the tiles left in the bag — a deterministic per-turn draw, never firing
* once the bag is empty. Mirrors robot.deviates.
*/
export function deviates(seed: bigint, moveCount: number, bagLen: number): boolean {
const p = deviateProb(bagLen);
if (p <= 0) return false;
return unitFloat(mix(seed, 'deviate', moveCount)) < p;
}
/** MarginBand is an inclusive target range for the resulting score margin (own score after
* the move minus the opponent's). */
export interface MarginBand {
lo: number;
hi: number;
}
/** DEFAULT_BAND aims to lead by 1..30 when playing to win (negated when playing to lose),
* matching robot.defaultBand. */
export const DEFAULT_BAND: MarginBand = { lo: 1, hi: 30 };
/**
* Decision is the robot's chosen action: a play (the picked candidate), an exchange of the
* listed tiles, or a pass. Generic over the candidate type (needs only a score) and the
* rack tile type.
*/
export type Decision<C, R> =
| { kind: 'play'; move: C }
| { kind: 'exchange'; exchange: R[] }
| { kind: 'pass' };
// distanceToBand is how far m lies outside [lo, hi], or 0 when inside.
function distanceToBand(m: number, lo: number, hi: number): number {
if (m < lo) return lo - m;
if (m > hi) return m - hi;
return 0;
}
/**
* selectMove chooses the robot's action from the ranked candidate plays and the current
* scores. With at least one legal play it picks the candidate whose resulting margin
* (myScore + score - oppScore) is closest to the band (negated when not playing to win),
* breaking ties toward the conservative edge (smallest lead when winning, smallest deficit
* when losing). With no legal play it exchanges the whole rack when the bag can refill it,
* else passes. Mirrors robot.selectMove.
*/
export function selectMove<C extends { score: number }, R>(
cands: readonly C[],
myScore: number,
oppScore: number,
win: boolean,
band: MarginBand,
rack: readonly R[],
bagLen: number,
): Decision<C, R> {
if (cands.length === 0) {
if (rack.length > 0 && bagLen >= rack.length) {
return { kind: 'exchange', exchange: [...rack] };
}
return { kind: 'pass' };
}
let lo = band.lo;
let hi = band.hi;
if (!win) {
lo = -band.hi;
hi = -band.lo;
}
const margin = (c: C): number => myScore + c.score - oppScore;
let best = 0;
let bestDist = Infinity;
for (let i = 0; i < cands.length; i++) {
const m = margin(cands[i]);
const dist = distanceToBand(m, lo, hi);
if (dist < bestDist) {
best = i;
bestDist = dist;
} else if (dist === bestDist) {
// Conservative tie-break: keep the lead (win) or the deficit (lose) small.
if ((win && m < margin(cands[best])) || (!win && m > margin(cands[best]))) best = i;
}
}
return { kind: 'play', move: cands[best] };
}
/**
* decide is the robot's whole per-turn choice: the once-per-game play-to-win intent, flipped
* for this move by the occasional deviation, fed to selectMove. Mirrors the decision slice of
* robot (*Service).act. seed is the game's bag seed; cands are the ranked legal plays.
*/
export function decide<C extends { score: number }, R>(
seed: bigint,
moveCount: number,
cands: readonly C[],
myScore: number,
oppScore: number,
rack: readonly R[],
bagLen: number,
band: MarginBand = DEFAULT_BAND,
): Decision<C, R> {
let win = playToWin(seed);
if (deviates(seed, moveCount, bagLen)) win = !win;
return selectMove(cands, myScore, oppScore, win, band, rack, bagLen);
}
File diff suppressed because it is too large Load Diff
+2 -2
View File
@@ -118,8 +118,8 @@ export function createTransport(baseUrl: string): GatewayClient {
async authGuest(locale) {
return codec.decodeSession(await exec('auth.guest', codec.encodeGuestLogin(locale ?? '', browserOffset())));
},
async authEmailRequest(email, language) {
await exec('auth.email.request', codec.encodeEmailRequest(email, browserOffset(), language));
async authEmailRequest(email, language, pwa) {
await exec('auth.email.request', codec.encodeEmailRequest(email, browserOffset(), language, pwa));
},
async confirmEmailLink(token) {
return codec.decodeConfirmLinkResult(await exec('auth.email.confirm_link', codec.encodeEmailConfirmLink(token)));
+5
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@@ -1,10 +1,15 @@
import { mount } from 'svelte';
import './app.css';
import App from './App.svelte';
import { initInstallListeners } from './lib/pwa.svelte';
// Pin the document for the game SPA (see app.css `html.app-shell`) so iOS/WKWebView — notably
// the Telegram Mini App — cannot rubber-band the whole page on a vertical drag. The standalone
// landing page (landing.ts) is a normal scrolling document and deliberately omits this class.
document.documentElement.classList.add('app-shell');
// Capture the PWA install prompt as early as possible — before the install CTA mounts. Harmless
// where it never fires (Firefox, Safari, the Telegram/VK Mini App webviews).
initInstallListeners();
export default mount(App, { target: document.getElementById('app')! });
+11
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@@ -1,6 +1,7 @@
<script lang="ts">
import { loginEmail, loginGuest, requestEmailCode } from '../lib/app.svelte';
import { t } from '../lib/i18n/index.svelte';
import InstallApp from '../components/InstallApp.svelte';
let email = $state('');
let code = $state('');
@@ -55,6 +56,9 @@
</button>
{/if}
</div>
<!-- Web-only install call-to-action, under the login card. Renders nothing unless the app is
installable here (see components/InstallApp.svelte / lib/pwa). -->
<div class="promo"><InstallApp /></div>
</main>
<style>
@@ -62,8 +66,15 @@
height: 100%;
display: grid;
place-items: center;
/* Centre the card + install promo as a group, with a gap between them. */
align-content: center;
gap: 16px;
padding: 16px;
}
/* Match the card width so the install CTA lines up under it. */
.promo {
width: min(94vw, 360px);
}
.card {
width: min(94vw, 360px);
background: var(--surface);
+5
View File
@@ -10,6 +10,7 @@
import type { ThemePref } from '../lib/theme';
import type { BoardLabelMode } from '../lib/boardlabels';
import { insideTelegram } from '../lib/telegram';
import InstallApp from '../components/InstallApp.svelte';
const themes: ThemePref[] = ['auto', 'light', 'dark'];
const themeLabel: Record<ThemePref, MessageKey> = {
@@ -73,6 +74,10 @@
/>
</label>
</section>
<!-- Web-only install call-to-action at the bottom of Settings (renders nothing unless the app
is installable here — see components/InstallApp.svelte / lib/pwa). -->
<InstallApp />
</div>
<style>