Run Pipeline
Pick a "Ready" issue from the GitHub Project board, claim it into "In Progress", run issue-to-pr, then move it to "Review pool". The separate review-pipeline handles agentic review (structural check, quality check, agentic feature tests).
Invocation
/run-pipeline -- pick the highest-ranked Ready issue (ranked by importance, relatedness, pending rules)/run-pipeline 97 -- process a specific issue number from the Ready column
For Codex, open this SKILL.md directly and treat the slash-command forms above as aliases. The Makefile run-pipeline target already does this translation.
Constants
GitHub Project board IDs (for gh project item-edit):
| Constant | Value |
|---|
PROJECT_ID | PVT_kwDOBrtarc4BRNVy |
STATUS_FIELD_ID | PVTSSF_lADOBrtarc4BRNVyzg_GmQc |
STATUS_READY | f37d0d80 |
STATUS_IN_PROGRESS | a12cfc9c |
STATUS_REVIEW_POOL | 7082ed60 |
STATUS_UNDER_REVIEW | f04790ca |
STATUS_FINAL_REVIEW | 51a3d8bb |
STATUS_DONE | 6aca54fa |
Autonomous Mode
This skill runs fully autonomously — no confirmation prompts, no user questions. It picks the next issue and processes it end-to-end. All sub-skills (issue-to-pr, check-issue, add-model, add-rule, etc.) should also auto-approve any confirmation prompts.
Steps
0. Generate the Project-Pipeline Report
Step 0 should be a single report-generation step. Do not manually list Ready items, list In-progress items, grep model declarations, or re-derive blocked rules with separate shell commands.
The expensive full-context call here is python3 scripts/pipeline_skill_context.py project-pipeline ... (backed by build_project_pipeline_context()). For a single top-level run-pipeline invocation, call it once and reuse the packet for scoring, ranking, and choosing the issue. Do not rerun it in the single-issue path after the packet exists.
bash
1set -- python3 scripts/pipeline_skill_context.py project-pipeline --repo CodingThrust/problem-reductions --repo-root . --format text
2
3# If a specific issue number was provided, validate it through the same bundle:
4# set -- "$@" --issue <number>
5
6REPORT=$("$@")
7printf '%s\n' "$REPORT"
The report is the Step 0 packet. It should already include:
- Queue Summary
- Eligible Ready Issues
- Blocked Ready Issues
- In Progress Issues
- Requested Issue validation when a specific issue was supplied
Branch from the report:
Bundle status: empty => STOP with No Ready issues are currently available.Bundle status: no-eligible-issues => STOP with Ready issues exist, but all current rule candidates are blocked by missing models on main.Bundle status: requested-missing => STOP with Issue #N is not currently in the Ready column.Bundle status: requested-blocked => STOP with the blocking reason from the reportBundle status: ready => continue
The report already handled the deterministic setup:
- it loaded the Ready and In-progress issue sets
- it scanned existing problems on main
- it marked blocked
[Rule] issues whose source or target model is still missing
- it computed the pending-rule unblock counts used for C3
0a. Score Eligible Issues
Short-circuit: If there is only 1 eligible issue, skip scoring and pick it directly. Print "Only 1 eligible issue, picking it." and jump to Step 0c.
Score only eligible issues on three criteria. For [Model] issues, extract the problem name. For [Rule] issues, extract both source and target problem names.
| Criterion | Weight | How to Assess |
|---|
| C1: Industrial/Theoretical Importance | 3 | Read the report's issue summary for each eligible issue. Score 0-2: 2 = widely used in industry or foundational in complexity theory (e.g., ILP, SAT, MaxFlow, TSP, GraphColoring); 1 = moderately important or well-studied (e.g., SubsetSum, SetCover, Knapsack); 0 = niche or primarily academic |
| C2: Related to Existing Problems | 2 | Use the report's Ready/In-progress context plus pred list if needed. Score 0-2: 2 = directly related (shares input structure or has known reductions to/from ≥2 existing problems, but is NOT a trivial variant of an existing one); 1 = loosely related (same domain, connects to 1 existing problem); 0 = isolated or is essentially a variant/renaming of an existing problem |
| C3: Unblocks Pending Rules | 2 | Read the Pending rules unblocked count already printed in the report for each eligible issue. Score 0-2: 2 = unblocks ≥2 pending rules; 1 = unblocks 1 pending rule; 0 = does not unblock any pending rule |
Final score = C1 × 3 + C2 × 2 + C3 × 2 (max = 12)
Tie-breaking: Models before Rules, then by lower issue number.
Important for C2: A problem that is merely a weighted/unweighted variant or a graph-subtype specialization of an existing problem scores 0 on C2, not 2. The goal is to add genuinely new problem types that expand the graph's reach.
0b. Print Ranked List
Print all Ready issues with their scores for visibility (no confirmation needed). Blocked rules appear at the bottom with their reason:
Ready issues (ranked):
Score Issue Title C1 C2 C3
─────────────────────────────────────────────────────────────
10 #117 [Model] GraphPartitioning 2 2 2
8 #129 [Model] MultivariateQuadratic 2 1 1
7 #97 [Rule] BinPacking to ILP 1 2 1
6 #110 [Rule] LCS to ILP 1 1 1
4 #126 [Rule] KSatisfiability to SubsetSum 0 2 0
Blocked:
3 #130 [Rule] MultivariateQuadratic to ILP -- model "MultivariateQuadratic" not yet implemented
0c. Pick Issues
If a specific issue number was provided: validate and claim it through the scripted bundle:
bash
1STATE_FILE=/tmp/problemreductions-ready-selection.json
2CLAIM=$(python3 scripts/pipeline_board.py claim-next ready "$STATE_FILE" --number <number> --format json)
The report should already have stopped you before this point if the requested issue was missing or blocked.
After successful validation, extract ITEM_ID, ISSUE, and TITLE from CLAIM using the same commands shown below.
Otherwise (no args): score the eligible issues from the report, pick the highest-scored one, and proceed immediately (no confirmation). After picking the issue number, claim it through the scripted bundle:
bash
1STATE_FILE=/tmp/problemreductions-ready-selection.json
2CLAIM=$(python3 scripts/pipeline_board.py claim-next ready "$STATE_FILE" --number <chosen-issue-number> --format json)
Extract the board item metadata from CLAIM:
bash
1ITEM_ID=$(printf '%s\n' "$CLAIM" | python3 -c "import sys,json; print(json.load(sys.stdin)['item_id'])")
2ISSUE=$(printf '%s\n' "$CLAIM" | python3 -c "import sys,json; data=json.load(sys.stdin); print(data['issue_number'] or data['number'])")
3TITLE=$(printf '%s\n' "$CLAIM" | python3 -c "import sys,json; print(json.load(sys.stdin)['title'])")
1. Create Worktree
Create an isolated worktree for this issue:
bash
1REPO_ROOT=$(pwd)
2WORKTREE_JSON=$(python3 scripts/pipeline_worktree.py enter --name "issue-$ISSUE" --format json)
3WORKTREE_DIR=$(printf '%s\n' "$WORKTREE_JSON" | python3 -c "import sys,json; print(json.load(sys.stdin)['worktree_dir'])")
4cd "$WORKTREE_DIR"
All subsequent steps run inside the worktree. This ensures the user's main checkout is never modified.
issue-to-pr (Step 3) handles all PR detection and branch management — if an existing open PR exists, it checks out that branch and resumes; otherwise it creates a fresh branch from origin/main.
2. Claim Result
claim-next ready has already moved the selected issue from Ready to In progress. Keep using ITEM_ID from the CLAIM JSON payload for later board transitions.
3. Run issue-to-pr
Invoke the issue-to-pr skill (working directory is the worktree):
/issue-to-pr "$ISSUE"
This handles the full pipeline: fetch issue, verify Good label, research, write plan, create PR, implement. If an existing open PR is detected, issue-to-pr will resume it (skip plan creation, jump to execution).
If issue-to-pr fails: move the issue to OnHold with a diagnostic comment (see Step 4).
4. Move to "Review pool"
After issue-to-pr fully succeeds, move the issue to the Review pool column. "Fully succeeds" means the implementation work is committed, the temporary plan file has been deleted, the PR implementation summary comment has been posted, the branch has been pushed, and the working tree is clean aside from ignored/generated files:
bash
1python3 scripts/pipeline_board.py move <ITEM_ID> review-pool
If issue-to-pr failed (whether or not a PR was created): move the issue to OnHold with a diagnostic comment explaining what went wrong:
bash
1gh issue comment <ISSUE> --body "run-pipeline: implementation failed. <brief reason>"
2python3 scripts/pipeline_board.py move <ITEM_ID> on-hold
Forward-only rule: never move items backward (e.g., back to Ready). All failures go to OnHold for human triage.
5. Clean Up Worktree
After the issue is processed (success or failure), clean up the worktree:
bash
1cd "$REPO_ROOT"
2python3 scripts/pipeline_worktree.py cleanup --worktree "$WORKTREE_DIR"
6. Report
Print a summary:
Pipeline complete:
Issue: #97 [Rule] BinPacking to ILP
PR: #200
Status: Awaiting agentic review
Board: Moved Ready -> In Progress -> Review pool
Common Mistakes
| Mistake | Fix |
|---|
| Issue not in Ready column | Verify status before processing; STOP if not Ready |
| Picking a Rule whose model doesn't exist | Hard constraint: both source and target models must exist on main — pending Model issues do NOT count |
| Missing project scopes | Run gh auth refresh -s read:project,project |
| Moving items backward to Ready | Never move backward — all failures go to OnHold with diagnostic comment |
| Scoring a variant as "related" | Weighted/unweighted variants or graph-subtype specializations of existing problems score 0 on C2 |
| Worktree left behind on failure | Always run pipeline_worktree.py cleanup in Step 5 |
| Working in main checkout | All work happens in the worktree — never modify the main checkout |
| Missing items from project board | gh project item-list defaults to 30 items — always use --limit 500 |
Inventing pipeline_board.py subcommands | Only next, claim-next, ack, list, move, backlog exist |
