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tf_code/packages/tfcode/test/effect/instance-state.test.ts
Gab a8b73fd754 refactor: apply minimal tfcode branding 
- Rename packages/opencode → packages/tfcode (directory only)
- Rename bin/opencode → bin/tfcode (CLI binary)
- Rename .opencode → .tfcode (config directory)
- Update package.json name and bin field
- Update config directory path references (.tfcode)
- Keep internal code references as 'opencode' for easy upstream sync
- Keep @opencode-ai/* workspace package names

This minimal branding approach allows clean merges from upstream
opencode repository while providing tfcode branding for users.
2026-03-24 13:20:14 +11:00

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import { afterEach, expect, test } from "bun:test"
import { Duration, Effect, Layer, ManagedRuntime, ServiceMap } from "effect"
import { InstanceState } from "../../src/effect/instance-state"
import { Instance } from "../../src/project/instance"
import { tmpdir } from "../fixture/fixture"
async function access<A, E>(state: InstanceState<A, E>, dir: string) {
return Instance.provide({
directory: dir,
fn: () => Effect.runPromise(InstanceState.get(state)),
})
}
afterEach(async () => {
await Instance.disposeAll()
})
test("InstanceState caches values per directory", async () => {
await using tmp = await tmpdir()
let n = 0
await Effect.runPromise(
Effect.scoped(
Effect.gen(function* () {
const state = yield* InstanceState.make(() => Effect.sync(() => ({ n: ++n })))
const a = yield* Effect.promise(() => access(state, tmp.path))
const b = yield* Effect.promise(() => access(state, tmp.path))
expect(a).toBe(b)
expect(n).toBe(1)
}),
),
)
})
test("InstanceState isolates directories", async () => {
await using one = await tmpdir()
await using two = await tmpdir()
let n = 0
await Effect.runPromise(
Effect.scoped(
Effect.gen(function* () {
const state = yield* InstanceState.make((dir) => Effect.sync(() => ({ dir, n: ++n })))
const a = yield* Effect.promise(() => access(state, one.path))
const b = yield* Effect.promise(() => access(state, two.path))
const c = yield* Effect.promise(() => access(state, one.path))
expect(a).toBe(c)
expect(a).not.toBe(b)
expect(n).toBe(2)
}),
),
)
})
test("InstanceState invalidates on reload", async () => {
await using tmp = await tmpdir()
const seen: string[] = []
let n = 0
await Effect.runPromise(
Effect.scoped(
Effect.gen(function* () {
const state = yield* InstanceState.make(() =>
Effect.acquireRelease(
Effect.sync(() => ({ n: ++n })),
(value) =>
Effect.sync(() => {
seen.push(String(value.n))
}),
),
)
const a = yield* Effect.promise(() => access(state, tmp.path))
yield* Effect.promise(() => Instance.reload({ directory: tmp.path }))
const b = yield* Effect.promise(() => access(state, tmp.path))
expect(a).not.toBe(b)
expect(seen).toEqual(["1"])
}),
),
)
})
test("InstanceState invalidates on disposeAll", async () => {
await using one = await tmpdir()
await using two = await tmpdir()
const seen: string[] = []
await Effect.runPromise(
Effect.scoped(
Effect.gen(function* () {
const state = yield* InstanceState.make((ctx) =>
Effect.acquireRelease(
Effect.sync(() => ({ dir: ctx.directory })),
(value) =>
Effect.sync(() => {
seen.push(value.dir)
}),
),
)
yield* Effect.promise(() => access(state, one.path))
yield* Effect.promise(() => access(state, two.path))
yield* Effect.promise(() => Instance.disposeAll())
expect(seen.sort()).toEqual([one.path, two.path].sort())
}),
),
)
})
test("InstanceState.get reads the current directory lazily", async () => {
await using one = await tmpdir()
await using two = await tmpdir()
interface Api {
readonly get: () => Effect.Effect<string>
}
class Test extends ServiceMap.Service<Test, Api>()("@test/InstanceStateLazy") {
static readonly layer = Layer.effect(
Test,
Effect.gen(function* () {
const state = yield* InstanceState.make((ctx) => Effect.sync(() => ctx.directory))
const get = InstanceState.get(state)
return Test.of({
get: Effect.fn("Test.get")(function* () {
return yield* get
}),
})
}),
)
}
const rt = ManagedRuntime.make(Test.layer)
try {
const a = await Instance.provide({
directory: one.path,
fn: () => rt.runPromise(Test.use((svc) => svc.get())),
})
const b = await Instance.provide({
directory: two.path,
fn: () => rt.runPromise(Test.use((svc) => svc.get())),
})
expect(a).toBe(one.path)
expect(b).toBe(two.path)
} finally {
await rt.dispose()
}
})
test("InstanceState preserves directory across async boundaries", async () => {
await using one = await tmpdir({ git: true })
await using two = await tmpdir({ git: true })
await using three = await tmpdir({ git: true })
interface Api {
readonly get: () => Effect.Effect<{ directory: string; worktree: string; project: string }>
}
class Test extends ServiceMap.Service<Test, Api>()("@test/InstanceStateAsync") {
static readonly layer = Layer.effect(
Test,
Effect.gen(function* () {
const state = yield* InstanceState.make((ctx) =>
Effect.sync(() => ({
directory: ctx.directory,
worktree: ctx.worktree,
project: ctx.project.id,
})),
)
return Test.of({
get: Effect.fn("Test.get")(function* () {
yield* Effect.promise(() => Bun.sleep(1))
yield* Effect.sleep(Duration.millis(1))
for (let i = 0; i < 100; i++) {
yield* Effect.yieldNow
}
for (let i = 0; i < 100; i++) {
yield* Effect.promise(() => Promise.resolve())
}
yield* Effect.sleep(Duration.millis(2))
yield* Effect.promise(() => Bun.sleep(1))
return yield* InstanceState.get(state)
}),
})
}),
)
}
const rt = ManagedRuntime.make(Test.layer)
try {
const [a, b, c] = await Promise.all([
Instance.provide({
directory: one.path,
fn: () => rt.runPromise(Test.use((svc) => svc.get())),
}),
Instance.provide({
directory: two.path,
fn: () => rt.runPromise(Test.use((svc) => svc.get())),
}),
Instance.provide({
directory: three.path,
fn: () => rt.runPromise(Test.use((svc) => svc.get())),
}),
])
expect(a).toEqual({ directory: one.path, worktree: one.path, project: a.project })
expect(b).toEqual({ directory: two.path, worktree: two.path, project: b.project })
expect(c).toEqual({ directory: three.path, worktree: three.path, project: c.project })
expect(a.project).not.toBe(b.project)
expect(a.project).not.toBe(c.project)
expect(b.project).not.toBe(c.project)
} finally {
await rt.dispose()
}
})
test("InstanceState survives high-contention concurrent access", async () => {
const N = 20
const dirs = await Promise.all(Array.from({ length: N }, () => tmpdir()))
interface Api {
readonly get: () => Effect.Effect<string>
}
class Test extends ServiceMap.Service<Test, Api>()("@test/HighContention") {
static readonly layer = Layer.effect(
Test,
Effect.gen(function* () {
const state = yield* InstanceState.make((ctx) => Effect.sync(() => ctx.directory))
return Test.of({
get: Effect.fn("Test.get")(function* () {
// Interleave many async hops to maximize chance of ALS corruption
for (let i = 0; i < 10; i++) {
yield* Effect.promise(() => Bun.sleep(Math.random() * 3))
yield* Effect.yieldNow
yield* Effect.promise(() => Promise.resolve())
}
return yield* InstanceState.get(state)
}),
})
}),
)
}
const rt = ManagedRuntime.make(Test.layer)
try {
const results = await Promise.all(
dirs.map((d) =>
Instance.provide({
directory: d.path,
fn: () => rt.runPromise(Test.use((svc) => svc.get())),
}),
),
)
for (let i = 0; i < N; i++) {
expect(results[i]).toBe(dirs[i].path)
}
} finally {
await rt.dispose()
for (const d of dirs) await d[Symbol.asyncDispose]()
}
})
test("InstanceState correct after interleaved init and dispose", async () => {
await using one = await tmpdir()
await using two = await tmpdir()
interface Api {
readonly get: () => Effect.Effect<string>
}
class Test extends ServiceMap.Service<Test, Api>()("@test/InterleavedDispose") {
static readonly layer = Layer.effect(
Test,
Effect.gen(function* () {
const state = yield* InstanceState.make((ctx) =>
Effect.promise(async () => {
await Bun.sleep(5) // slow init
return ctx.directory
}),
)
return Test.of({
get: Effect.fn("Test.get")(function* () {
return yield* InstanceState.get(state)
}),
})
}),
)
}
const rt = ManagedRuntime.make(Test.layer)
try {
// Init both directories
const a = await Instance.provide({
directory: one.path,
fn: () => rt.runPromise(Test.use((svc) => svc.get())),
})
expect(a).toBe(one.path)
// Dispose one directory, access the other concurrently
const [, b] = await Promise.all([
Instance.reload({ directory: one.path }),
Instance.provide({
directory: two.path,
fn: () => rt.runPromise(Test.use((svc) => svc.get())),
}),
])
expect(b).toBe(two.path)
// Re-access disposed directory - should get fresh state
const c = await Instance.provide({
directory: one.path,
fn: () => rt.runPromise(Test.use((svc) => svc.get())),
})
expect(c).toBe(one.path)
} finally {
await rt.dispose()
}
})
test("InstanceState mutation in one directory does not leak to another", async () => {
await using one = await tmpdir()
await using two = await tmpdir()
await Effect.runPromise(
Effect.scoped(
Effect.gen(function* () {
const state = yield* InstanceState.make(() => Effect.sync(() => ({ count: 0 })))
// Mutate state in directory one
const s1 = yield* Effect.promise(() => access(state, one.path))
s1.count = 42
// Access directory two — should be independent
const s2 = yield* Effect.promise(() => access(state, two.path))
expect(s2.count).toBe(0)
// Confirm directory one still has the mutation
const s1again = yield* Effect.promise(() => access(state, one.path))
expect(s1again.count).toBe(42)
expect(s1again).toBe(s1) // same reference
}),
),
)
})
test("InstanceState dedupes concurrent lookups", async () => {
await using tmp = await tmpdir()
let n = 0
await Effect.runPromise(
Effect.scoped(
Effect.gen(function* () {
const state = yield* InstanceState.make(() =>
Effect.promise(async () => {
n += 1
await Bun.sleep(10)
return { n }
}),
)
const [a, b] = yield* Effect.promise(() => Promise.all([access(state, tmp.path), access(state, tmp.path)]))
expect(a).toBe(b)
expect(n).toBe(1)
}),
),
)
})
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