| name | narrow-bare-rescue |
| description | Narrow bare rescue in Elixir so real errors like KeyError and typos propagate instead of being swallowed. Use to audit rescues and refactor error handling. |
| effort | medium |
| user-invocable | true |
| argument-hint | [file_path | directory | --all] |
| paths | ["**/*.ex","**/*.exs"] |
Narrow Bare Rescue
Turn rescue _ -> fallback into rescue _ in [ExceptionType1, ExceptionType2] -> fallback
so programmer bugs propagate while known failure modes stay handled.
Why this matters
Bare rescues (rescue _ ->, rescue e -> — any form without an in clause) swallow
every exception, including UndefinedFunctionError from typos, KeyError from
misspelled map keys, and CompileError from bad HEEx templates. The symptom isn't a stack
trace — it's a silent {:error, :generic} or a nil fallback. Bugs that should surface
in tests or error reporters become quiet degradations.
The Erlang Secure Coding Guide makes
the same case at the BEAM level — rule LNG-002 ("Do Not Use catch") warns that the
legacy catch-all form conflates normal returns, throws, and errors. Bare rescue in Elixir
is the direct analogue.
Iron Laws
- Never leave
rescue _ -> or rescue e -> without an in clause. Every rescue must
list exact exception types. The Credo check enforces this after cleanup lands.
- Cover every exception the code path can actually raise. Narrowing that drops a real
exception is a behavioral regression — trace each call in the body before committing.
- Never include programmer-bug exceptions in the list.
UndefinedFunctionError,
CompileError, BadFunctionError, and BadArityError must propagate.
- Use
reraise e, __STACKTRACE__, never reraise e, []. Preserve the original stack
trace so Oban retry metadata and error reporters show the real origin.
- Run
mix compile --warnings-as-errors before committing. Typos in exception module
names only surface at compile time — the code looks fine until it loads.
The core transform
# Before — masks programmer bugs
def parse(body) do
Jason.decode!(body)
rescue
_ -> %{}
end
# After — catches only what can actually fail here
def parse(body) do
Jason.decode!(body)
rescue
_ in [Jason.DecodeError, ArgumentError] -> %{}
end
Applies identically to try … rescue … and to function-body def … rescue ….
Workflow
The skill operates in three modes depending on scope:
- Single file —
/narrow-bare-rescue path/to/file.ex
- Directory —
/narrow-bare-rescue lib/my_app/util/
- Whole project —
/narrow-bare-rescue --all
Whatever the scope, follow this sequence.
Step 1 — Find the sites
grep -rn "^\s*rescue\s*$" <scope> | head -200
For each hit, read the 3 lines after to classify:
rescue _ -> or rescue var -> — bare, needs narrowing
rescue _ in [...] -> or rescue var in Something -> — already typed, skip
rescue ExceptionType -> (no variable binding) — already typed, skip
Step 2 — Determine the exception set for each bare site
Read the try / def body and trace what each call can raise. Don't guess from the
function name — verify. Consult order:
-
Check ${CLAUDE_SKILL_DIR}/references/taxonomy.md for the work type (JSON, Ecto, Money, HTTP, etc.).
Most sites map cleanly to one row.
-
Grep deps for defexception when a specific library isn't in the taxonomy:
grep -rn "defexception" deps/<libname>/lib/ | head -10
-
Check raise calls in the code path itself — if the body explicitly raises
RuntimeError, include it.
Priorities: cover everything the code can actually raise, exclude programmer-bug
exceptions (see Iron Law #3), and prefer specific types (Jason.DecodeError beats
ArgumentError if both could apply).
Step 3 — Apply the narrowing
For files with ≥3 rescues sharing a taxonomy, hoist to a module attribute — see
${CLAUDE_SKILL_DIR}/references/patterns.md for the module-attribute pattern, Oban reraise, ExCmd exit
errors, and is_exception/1 replacements.
Step 4 — Verify
After changes in each file (or cluster of files), run:
mix compile --warnings-as-errors
mix format <files_changed>
mix test <test_files_for_affected_modules>
The compile step catches typos in exception module names — a real risk since you're writing
module names from memory.
Scope
This skill narrows bare rescue clauses. It does not:
- Auto-narrow blindly — behavior preservation matters; trace each call path first
- Touch rescues that are already typed (
rescue e in [X] ->) — those are correct
- Cover
catch clauses — throws and exits from the process are a separate concern
- Replace
try/rescue with with or error-tuple plumbing — that's a larger refactor
References
${CLAUDE_SKILL_DIR}/references/taxonomy.md — verified exception types per work
category, plus library-specific gotchas (NimbleCSV, Plug, Phoenix LiveView tokenizer)
${CLAUDE_SKILL_DIR}/references/patterns.md — special patterns: is_exception/1,
Oban reraise, ExCmd exit errors, module-attribute hoisting, partitioning large
cleanups, the regression-prevention Credo check
- Erlang Secure Coding Guide — LNG-002: Do Not Use
catch
— BEAM-level rationale for preferring narrow try ... catch / try ... rescue over
the legacy catch-all form