Use this skill to diagnose Jetpack Compose stability problems by enabling and reading the Compose Compiler Reports (classes.txt, composables.txt, composables.csv, module.json). Covers the Gradle DSL, the release-only build requirement, and how to interpret per-class and per-composable stability annotations including stable, unstable, runtime, restartable, skippable, readonly, @static, and @dynamic markers. Use when the developer asks "why does this recompose", reports jank, dropped frames, slow scroll, high recomposition count, suspects an unstable parameter, mentions Compose Compiler Reports, classes.txt, composables.txt, module.json, or wants to know which composables are non-skippable. The fix lives in a sibling skill — this one only diagnoses.
インストール
Codex または Claude でインストール この Prompt をコピーして Codex、Claude、または他のアシスタントに貼り付けると、Skill ページを確認してインストールできます。
Use this skill to diagnose Jetpack Compose stability problems by enabling and reading the Compose Compiler Reports (classes.txt, composables.txt, composables.csv, module.json). Covers the Gradle DSL, the release-only build requirement, and how to interpret per-class and per-composable stability annotations including stable, unstable, runtime, restartable, skippable, readonly, @static, and @dynamic markers. Use when the developer asks "why does this recompose", reports jank, dropped frames, slow scroll, high recomposition count, suspects an unstable parameter, mentions Compose Compiler Reports, classes.txt, composables.txt, module.json, or wants to know which composables are non-skippable. The fix lives in a sibling skill — this one only diagnoses.
license
Apache-2.0. See LICENSE for complete terms.
metadata
{"author":"Jaewoong Eum (skydoves)","keywords":["jetpack-compose","performance","stability","compose-compiler-reports","recomposition","skippability","classes-txt","composables-txt","diagnostics"]}
Diagnosing Compose Stability — Read the Compiler Reports First
Compose skips recomposition by comparing parameters. When a parameter is unstable, skipping is disabled — this skill tells Claude how to find out which parameters are unstable and why. The output is a prioritized list of unstable types and non-skippable composables; the fix lives in ../stabilizing-compose-types/SKILL.md.
When to use this skill
The developer asks "why does this recompose?", reports jank, dropped frames, or scroll stutter.
A @TraceRecomposition log shows recomposition counts that exceed the number of meaningful state changes.
The developer mentions Compose Compiler Reports, classes.txt, composables.txt, composables.csv, module.json, or "non-skippable".
The developer asks how to find unstable parameters, or whether List<Foo>, LocalDateTime, or a domain type is stable.
A reviewer asks for evidence that a perf-sensitive composable is skippable.
When NOT to use this skill
The unstable types are already known — jump straight to ../stabilizing-compose-types/SKILL.md.
The symptom is a wrong-phase state read (Modifier.alpha(state.value)); use ../../recomposition/deferring-state-reads/SKILL.md.
The symptom is a derivedStateOf misuse; use ../../recomposition/choosing-derivedstateof/SKILL.md.
The developer wants CI gating instead of one-shot diagnosis; use ../enforcing-stability-in-ci/SKILL.md.
Prerequisites
Kotlin 2.0.0+ with the Compose Compiler Gradle plugin applied: id("org.jetbrains.kotlin.plugin.compose"). The pre-2.0 kotlinCompilerExtensionVersion flow is obsolete.
A buildable release variant of the target module. Reports MUST be produced in release; debug adds Live Literals which makes constants look dynamic and skews every report.
Apply the org.jetbrains.kotlin.plugin.compose Gradle plugin (Kotlin 2.0+). The composeCompiler { … } extension is owned by that plugin; AGP version is incidental.
Optional but PREFERRED: the developer has a stability baseline goal, not a 100-percent-skippable goal (skydoves hot take #1 — skippability is a diagnostic, not a KPI).
Workflow
1. Enable the reports in the module's build.gradle.kts. Scope to release only — debug builds emit misleading data.
// app/build.gradle.kts (or any compose module)
plugins {
id("com.android.application")
id("org.jetbrains.kotlin.android")
id("org.jetbrains.kotlin.plugin.compose")
}
composeCompiler {
// Only emit reports for release to avoid Live Literals noise.val isReleaseBuild = providers.gradleProperty("composeCompilerReports").orNull == "true"if (isReleaseBuild) {
reportsDestination = layout.buildDirectory.dir("compose_compiler")
metricsDestination = layout.buildDirectory.dir("compose_compiler")
}
}
If any file is missing, the plugin did not run for that variant — re-check that composeCompiler { reportsDestination = ... } is on the right module and that the build was release.
4. Open composables.txt first. This is the highest-signal file. Search for restartable lines that are not followed by skippable. Each one is a recomposition entry point that cannot be skipped. Inside each block, read the per-parameter prefix: stable, unstable, @static, @dynamic. Any unstable parameter blocks skipping. See references/reading-composables-txt.md for the full grammar.
5. Open classes.txt to learn why a class is unstable. For every type flagged unstable in composables.txt, find its declaration in classes.txt. The line tells you whether a var field, a generic parameter, or an unstable nested type is the cause. The runtime stable class Box { stable val value: T } shape means "this class is stable iff the runtime $stable: Int field of the substituted T says so" — see references/reading-classes-txt.md.
6. Open module.json for triage numbers. Counts of skippable composables, restartable composables, stable classes, etc. Use this to compare before/after a fix or to decide which module to attack first. DO NOT treat these counts as a target — they exist to spot regressions, not to chase 100 percent.
7. Prioritize by hot path. A non-skippable composable that runs once at startup is irrelevant; one inside a LazyColumn item is critical. Cross-reference with measurement (@TraceRecomposition from skydoves/compose-stability-analyzer, or Macrobenchmark FrameTimingMetric) before fixing — see ../../measurement/tracing-recompositions-at-runtime/SKILL.md.
8. Hand off to the fix skill. Produce a list of unstable types + offending composables and apply ../stabilizing-compose-types/SKILL.md.
Patterns
Pattern: HighlightedSnacks — read a non-skippable composable
The compiler reports surface the cause directly inside the function signature. Walk the developer through this real shape.
The function is restartable but NOT prefixed with skippable. Therefore it always recomposes when its parent does.
The cause is the unstable snacks: List<Snack> parameter. kotlin.collections.List is an interface; the compiler cannot prove its implementations are immutable.
Open classes.txt and find Snack. If Snack itself is unstable, fix the data class first; if it is stable then only the List wrapper is the problem.
Hand off to the fix skill: replace List<Snack> with kotlinx.collections.immutable.ImmutableList<Snack>, or add kotlin.collections.* to stability_config.conf if the developer is comfortable with that contract.
Pattern: "stable but runtime" — what runtime means
runtime stable class Box {
stable val value: T
}
This is not unstable. The compiler emits a synthetic $stable: Int field at runtime and queries it during composition. The class is stable iff the substituted T reports stable. DO NOT annotate runtime classes with @Stable to "promote" them — the runtime check is the correct mechanism.
Pattern: WRONG vs RIGHT — running the build
# WRONG
./gradlew :app:assembleDebug
# WRONG because: debug enables Live Literals; constant 0 dp becomes a getter, every literal looks dynamic, and counts in module.json drift versus what ships to users.
# RIGHT
./gradlew :app:assembleRelease -PcomposeCompilerReports=true
Pattern: WRONG vs RIGHT — reading the report file
// WRONG — reading composables.txt without checking the leading flags
fun MyScreen(...)
// WRONG because: skipping the `restartable`/`skippable` prefix discards the only data point that determines whether unstable params actually cost anything.
// RIGHT — every diagnosis quotes the full prefix and per-param annotations
restartable skippable scheme("[androidx.compose.ui.UiComposable]") fun MyScreen(
stable user: User,
stable onClick: Function0<Unit>,
)
Pattern: empty output directory
If build/compose_compiler/ is missing or empty after a release build:
Confirm the org.jetbrains.kotlin.plugin.compose plugin is applied to this module — the extension is per-module.
Confirm the build actually compiled Kotlin sources (not an up-to-date no-op). Touch a file or run ./gradlew :app:clean :app:assembleRelease.
Confirm reportsDestination is set inside a composeCompiler { } block, not the legacy kotlinOptions freeCompilerArgs flow.
Mandatory rules
MUST build the release variant. Debug builds emit Live Literals which makes constants look dynamic and inflates the report's "unstable" surface area.
MUST read composables.txt per-parameter annotations (stable/unstable/@static/@dynamic), not just the function name. The flag prefix is the diagnosis.
MUST cross-reference unstable params back to classes.txt to identify the root cause (a var, a generic, an unstable field type, or an interface).
MUST NOT chase 100 percent skippability. Skydoves hot take #1: skippability is a diagnostic, not a KPI. A composable that runs once at startup does not need to be skippable.
MUST NOT annotate a class as @Stable based on a report alone — that decision belongs to the fix skill, which evaluates the contract.
MUST NOT read composables.csv line counts and call it done. The counts are a regression sentinel; the per-line annotations are the actual diagnosis.
PREFERRED: wire the same flags into CI via ../enforcing-stability-in-ci/SKILL.md (skydoves compose-stability-analyzer plugin or the community ComposeGuard plugin) so regressions surface on PR review.
PREFERRED: record a baseline module.json per release so future regressions are visible by diff.
Verification
./gradlew :app:assembleRelease (or module-specific) completes successfully with the org.jetbrains.kotlin.plugin.compose plugin applied.
All four files exist: <module>_release-classes.txt, <module>_release-composables.txt, <module>_release-composables.csv, <module>_release-module.json.
At least one of: a list of unstable parameter sites copied from composables.txt, OR a confirmed-zero count from module.json justifying that no fix is needed.
Each unstable parameter has been traced back to a class in classes.txt so the fix skill receives a concrete root cause (a var, a List, a LocalDateTime, etc.).
The developer understands that runtime stable class … is not a problem — it is the compiler's correct lazy-stability emission.
references/reading-classes-txt.md — full grammar for classes.txt with worked examples (stable / unstable / runtime / generic).
references/reading-composables-txt.md — full grammar for composables.txt including restartable, skippable, readonly, scheme, and per-parameter stable / unstable / @static / @dynamic.