一键导入
ce-sessions
Search coding agent session history across Claude Code, Codex, and Cursor. Use for past work, previous attempts, or prior investigations.
用 Codex 或 Claude 帮你安装 复制这段 Prompt,粘贴到 Codex、Claude 或其他助手里,让它检查 Skill 页面并帮你完成安装。
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Search coding agent session history across Claude Code, Codex, and Cursor. Use for past work, previous attempts, or prior investigations.
用 Codex 或 Claude 帮你安装 复制这段 Prompt,粘贴到 Codex、Claude 或其他助手里,让它检查 Skill 页面并帮你完成安装。
基于 SOC 职业分类
Normalize a consequential or ambiguous request when missing context, boundaries, or proof could materially change the work. Explicit invocation previews the improved prompt.
Explore requirements and approaches through collaborative dialogue, then write a right-sized requirements document. Use when the user says "let's brainstorm", "what should we build", or "help me think through X", presents a vague or ambitious feature request, or seems unsure about scope or direction -- even without explicitly asking to brainstorm.
Find root causes and fix bugs. Use for errors, failing tests, issue repros, stack traces, "debug this", or "why is this failing".
Create structured plans for multi-step tasks once the goal is clear enough to plan. Use after ce-brainstorm or ce-grill, or directly for clear planning requests. If the request has branchy product/scope ambiguity, run ce-grill first. After markdown plans, document-review runs before handoff.
Review recent code changes for bugs, regressions, product fit, conventions, performance, security, and blast radius.
Execute implementation work with a compact product-contract loop. Use when the user asks to build, fix, implement, polish, or finish a scoped task. Favor reasoning, prior art, smallest correct changes, focused tests, and real-surface proof. Do not run autonomous PR, CI, ticket, or residual-work pipelines.
| name | ce-sessions |
| description | Search coding agent session history across Claude Code, Codex, and Cursor. Use for past work, previous attempts, or prior investigations. |
Search session history across Claude Code, Codex, and Cursor and synthesize findings about what was worked on, tried, decided, or learned in prior sessions.
/ce-sessions [question or topic]
/ce-sessions
Git branch (pre-resolved): !git rev-parse --abbrev-ref HEAD 2>/dev/null || true
If the line above resolved to a plain branch name (like feat/my-branch), use it for branch filtering and pass it to the synthesis subagent. If it still contains a backtick command string or is empty, derive the branch at runtime instead.
Repo root (pre-resolved): !git rev-parse --show-toplevel 2>/dev/null || true
If the line above resolved to a path, take its last path component as the repo folder name and use that for session discovery. If it is empty or still contains a backtick command string, derive the repo name at runtime instead.
Today (pre-resolved): !date +%Y-%m-%d
Use this when interpreting session timestamps and recency windows (e.g. "last 7 days"). If the line above still contains a backtick command string, use the date your harness provides instead.
These rules apply at all times during orchestration and synthesis.
If no question argument is provided, ask what the user wants to know about their session history. Use the platform's blocking question tool: AskUserQuestion in Claude Code (call ToolSearch with select:AskUserQuestion first if its schema isn't loaded), request_user_input in Codex, ask_user in Gemini, ask_user in Pi (requires the pi-ask-user extension). Fall back to asking in plain text only when no blocking tool exists in the harness or the call errors (e.g., Codex edit modes) — not because a schema load is required. Never silently skip the question.
Infer a time range from the user's question. Start narrow; widen only if a narrow scan finds nothing relevant.
| Signal | Initial scan window |
|---|---|
| "today", "this morning" | 1 day |
| "recently", "last few days", "this week", or no time signal | 7 days |
| "last few weeks", "this month" | 30 days |
| "last few months", broad feature history | 90 days |
Claude Code retains session history for ~30 days by default. Wider windows may find nothing on Claude Code unless the user has extended retention.
Run the discovery + metadata pipeline (preserving the null-delimited xargs hardening that lets extract-metadata.py run in batch mode):
bash scripts/discover-sessions.sh <repo> <days> | tr '\n' '\0' | xargs -0 python3 scripts/extract-metadata.py --cwd-filter <repo>
Each output line is a JSON object describing a session (platform, file, size, ts, session, plus platform-specific fields). The final _meta line carries files_processed and parse_errors.
If the inventory's _meta line shows files_processed: 0, return "no relevant prior sessions" and stop.
If parse_errors > 0, note that some sessions could not be parsed and proceed with what was returned.
To narrow the platform set, add --platform claude, --platform codex, or --platform cursor to the discover-sessions.sh invocation. Default to all three.
Apply these filters in order to pick the sessions worth deep-diving:
Branch filter (Claude Code only). Keep sessions where branch == dispatch_branch exactly, or where the branch name contains a keyword from the question's topic (e.g., a question about "auth middleware" matches branches feat/auth-fix, chore/auth-refactor). Codex sessions don't carry gitBranch — skip this filter for them.
If the branch filter returned zero sessions, or you're processing Codex sessions:
auth,middleware,session,token (or similar).--keyword K1,K2,... appended to the extract-metadata.py invocation. The script returns sessions with non-zero match_count plus per-keyword counts.files_matched: 0, return "no relevant prior sessions" and stop. Do not extract anything.files_matched > 0, treat those sessions as candidates. Rank by match_count, break ties by per-keyword counts.Drop sessions outside the scan window. Use last_ts when available, fall back to ts. Discard sessions where both fall before the window start.
Exclude the current session — its conversation history is already available to the caller.
Apply the deep-dive cap. Take at most 5 sessions total across all platforms. Narrow by branch-match → match_count → file size > 30KB → recency.
Proceed only if at least one session remains after filtering. Otherwise return "no relevant prior sessions" and stop.
Note: gitBranch is captured at the first user message only. A session that began on main and did substantive work on a feature branch via mid-session git checkout records branch: "main". Branch-match returning nothing is not conclusive evidence — that's why the keyword-filter fallback in step 2 is required.
Create a per-run throwaway scratch directory:
SCRATCH=$(mktemp -d -t ce-sessions-XXXXXX)
Capture the absolute path; thread it into Step 5 and Step 6. The OS handles cleanup on session end; an explicit rm -rf "$SCRATCH" at the end of Step 7 is harmless and makes intent explicit.
For each selected session, run the skeleton extractor with --output so content writes directly to the scratch file — extraction bytes never round-trip through the orchestrator's tool results:
python3 scripts/extract-skeleton.py --output "$SCRATCH/<session-id>.skeleton.txt" < <session-file>
Stdout receives only a one-line JSON status ({"_meta": true, "wrote": "...", "bytes": N, ...}). Capture bytes and parse_errors from each status line.
Conditional tail-extract — if a skeleton terminates mid-investigation (last visible turn is a tool call with no resolution, or the assistant is mid-debugging without a conclusion), re-extract with a tail shape:
python3 scripts/extract-skeleton.py --output "$SCRATCH/<session-id>.skeleton.tail.txt" < <session-file>
(The skeleton script does not accept a tail:N cap directly; if a tail-only view is needed, post-process the scratch file in shell with tail -n 50 after extraction. Use this only when the head output suggests the session was truncated mid-investigation.)
Conditional errors-mode — for sessions where investigation dead-ends are likely valuable:
python3 scripts/extract-errors.py --output "$SCRATCH/<session-id>.errors.txt" < <session-file>
Use selectively — only when understanding what went wrong adds value. Cursor agent transcripts don't log tool results, so errors-mode produces nothing for Cursor sessions.
Dispatch the session-historian subagent via the platform's subagent primitive (Agent in Claude Code, spawn_agent in Codex, subagent in Pi via the pi-subagents extension). Omit the mode parameter so the user's configured permission settings apply. Run on the mid-tier model (e.g., model: "sonnet" in Claude Code) — the synthesizer doesn't need frontier reasoning.
The dispatch prompt is the agent's input contract. Pass these fields:
problem_topic — one sentence naming the concrete question. Lift from the user's argument or, if missing, from the answer to the no-arg prompt.scratch_dir — absolute path to $SCRATCH.sessions — an array of objects, one per extracted session, each with:
path — absolute path to the skeleton file (and optionally errors_path for the errors file when extracted)platform — claude, codex, or cursorbranch — git branch when present (Claude Code only)cwd — working directory when present (Codex only)ts and last_ts — session timestampsmatch_count and keyword_matches — when keyword filtering was usedoutput_schema — the structure the agent's response should follow. Default schema:
Structure your response with these sections (omit any with no findings):
- What was tried before
- What didn't work
- Key decisions
- Related context
When the caller (e.g., ce-compound) supplies a schema in the skill argument, pass it through verbatim.Example dispatch shape:
Synthesize findings from these prior sessions:
Problem topic: <one-line topic>
Sessions to read (paths in $SCRATCH):
1. /tmp/ce-sessions-XXXX/abc123.skeleton.txt
platform=claude branch=feat/auth-fix ts=2026-05-01
2. /tmp/ce-sessions-XXXX/def456.skeleton.txt errors=/tmp/ce-sessions-XXXX/def456.errors.txt
platform=codex cwd=/Users/.../my-project ts=2026-05-03
...
Output schema:
- What was tried before
- What didn't work
- Key decisions
- Related context
Filter rule: only surface findings directly relevant to this specific problem.
Ignore unrelated work from the same sessions or branches.
The agent reads each path via the platform's native file-read tool and returns prose findings. Bulk extraction content lives only in the agent's subagent context — the orchestrator's working state stays at file paths plus small inventory metadata.
Return the synthesizer's output text to the caller verbatim. If discovery or keyword filtering returned zero sessions (Step 2 or Step 3), return the literal string no relevant prior sessions instead.
Optionally clean up scratch:
rm -rf "$SCRATCH"
The OS handles cleanup eventually regardless; the explicit cleanup is for readers who expect it.
When the caller (typically a user typing /ce-sessions, or another skill invoking ce-sessions via the platform's skill-invocation primitive) does not specify an output format, include a brief header noting what was searched:
**Sessions searched**: [count] ([N] Claude Code, [N] Codex, [N] Cursor) | [date range]
Then the synthesizer's prose findings. When the caller supplies a schema, honor it verbatim and omit the default header.
Stop as soon as a complete answer is available. A confident "no relevant prior sessions" within seconds is a complete answer; do not extend the search to fill time. The structural caps in Step 3 (max 5 sessions deep-dived) and Step 5 (conditional tail/errors extraction) bound runtime by construction.
If the discovery pipeline fails (e.g., unreadable home directory, permission failure), surface the error to the caller. Do not substitute git log, file listings, or other sources — this skill's contract is session metadata and synthesis.
If extraction --output write fails (disk full, permission), surface a clear error and do not dispatch the synthesizer with partial paths.
If _meta reports parse_errors > 0 from any script, note partial extraction in the dispatch prompt and proceed; the synthesizer flags partial in findings.