skill-meeting
- Repo stars 435
- Author updated Live
- Author repo nvim
- Domain
- Data
- Compatible agents
-
- Claude Code
- Cursor
- Cline
- Codex
- Windsurf
- Gemini CLI
- +20
- Trust score
- 88 / 100 · community maintained
- Author / version / license
- @benbrastmckie · no license declared
- Token usage
- Lean
- Setup complexity
- Guided setup
- External API key
- Not required
- Operating systems
- Unspecified (assume cross-platform)
- Runtime requirements
- No special requirements
- Permissions
-
- Read-only
- Write / modify
- Shell exec
- Network behavior
- Local-only
- Install commands
- 26 variants
Profile is derived at build time from SKILL.md and install vectors. Subject to drift from author intent.
Heads up: 未限定 allowed-tools,默认拥有全部工具权限。
---
name: skill-meeting
description: Investor meeting note processing and CSV tracking Thin wrapper that routes investor meeting note…
category: data
runtime: no special runtime
---
# skill-meeting output preview
## PART A: Task fit
- Use case: Investor meeting note processing and CSV tracking Thin wrapper that routes investor meeting note processing requests to the meeting-agent. this skill handles all postflight operations (status update, artifact linking, git commit) before returning. runs entirely locally. Works with Claude Code, Cursor, Cline and 23 more..
- Inputs: target material, constraints, expected output, and acceptance criteria.
- Evidence boundary: follow “Context Pointers / Trigger Conditions / Direct Invocation” and do not present inference as author intent.
## PART B: Execution result
- **01** The card summarizes the use case; runtime output centers on “Investor meeting note processing and CSV tracking Thin wrapper that routes investor meeting note processing requests to the meeting-agent. this skill handles all postflight operations (status update, artifact linking, git commit) before returning. runs entirely locally. Works with Claude Code, Cursor, Cline and 23 more.”.
- **02** When the source has headings, the agent prioritizes “Context Pointers / Trigger Conditions / Direct Invocation” so the result follows the author’s structure.
- **03** Typical output includes task judgment, concrete steps, required commands or file edits, validation, and follow-up options.
- **04** Risk context follows the fingerprint: read files, write/modify files, run shell commands; mostly runs locally; usually needs no extra API key.
## Running Rules
- read files, write/modify files, run shell commands; mostly runs locally; usually needs no extra API key.
- Validate with a small sample before expanding scope.
- Return the result, validation criteria, and next iteration options. The source mentions slash commands such as `/meeting`, `/research`; use them first when your agent supports command triggers.
Name target files or source material, expected output, forbidden changes, and whether network or shell access is allowed. Permission fingerprint: read files, write/modify files, run shell commands.
Start with a small task and check whether the result follows “Context Pointers / Trigger Conditions / Direct Invocation”. Inspect diffs, logs, previews, or tests before expanding scope.
Confirm the final output includes a concrete result, evidence, and next action. If it stays generic, tighten inputs, boundaries, and acceptance criteria.
---
name: skill-meeting
description: Investor meeting note processing and CSV tracking Thin wrapper that routes investor meeting note…
category: data
source: benbrastmckie/nvim
---
# skill-meeting
## When to use
- Investor meeting note processing and CSV tracking Thin wrapper that routes investor meeting note processing requests t…
- Use it when the task has clear inputs, repeatable steps, and validation criteria.
## What to provide
- Target material, scope, expected result, and forbidden changes.
- Whether network, commands, file writes, or external services are allowed.
## Execution rules
- Organize steps around “Context Pointers / Trigger Conditions / Direct Invocation” and keep inference separate from source facts.
- read files, write/modify files, run shell commands; mostly runs locally; usually needs no extra API key.
- Validate with a small sample before expanding the task.
## Output requirements
- Return the deliverable, key evidence, validation method, and next action.
- Mark missing information as unknown; do not invent commands, platforms, or dependencies. The author source anchors workflow facts; repository files anchor sources and commands; Fluxly only adds fit, limitations, and quality judgment.
skill "skill-meeting" {
input -> user goal + target files + boundaries + acceptance criteria
context -> Context Pointers / Trigger Conditions / Direct Invocation
rules -> SKILL.md triggers / order / output contract
runtime -> no special runtime | read files, write/modify files, run shell commands | mostly runs locally
guardrails -> usually needs no extra API key + small-sample validation + diff/log review
output -> copyable result + checklist + next iteration
} Meeting Skill
Thin wrapper that routes investor meeting note processing requests to the meeting-agent.
IMPORTANT: This skill implements the skill-internal postflight pattern. After the subagent returns, this skill handles all postflight operations (status update, artifact linking, git commit) before returning.
Context Pointers
Reference (do not load eagerly):
- Path:
.claude/context/formats/subagent-return.md - Purpose: Return validation
- Load at: Subagent execution only
Note: This skill is a thin wrapper. Context is loaded by the delegated agent, not this skill.
Trigger Conditions
This skill activates when:
Direct Invocation
- User explicitly runs
/meetingcommand with task number - User runs
/researchon a founder task withtask_type: "meeting"
Implicit Invocation (during task implementation)
When an implementing agent encounters any of these patterns:
Plan step language patterns:
- "Process meeting notes"
- "Create investor meeting file"
- "Update investor CSV"
- "Meeting report"
Target mentions:
- "meeting notes"
- "investor meeting"
- "CSV tracker"
- "investor profile"
When NOT to trigger
Do not invoke for:
- Market sizing (use skill-market)
- Competitive analysis (use skill-analyze)
- GTM strategy (use skill-strategy)
- Contract review (use skill-legal)
- Financial analysis (use skill-finance)
Execution Flow
Stage 1: Input Validation
Validate required inputs:
task_number- Must be provided and exist in state.jsonnotes_path- Optional, file path to meeting notes or structured meeting fileupdate_only- Optional, boolean (default: false)
# Lookup task
task_data=$(jq -r --argjson num "$task_number" \
'.active_projects[] | select(.project_number == $num)' \
specs/state.json)
# Validate exists
if [ -z "$task_data" ]; then
return error "Task $task_number not found"
fi
# Extract fields
task_type=$(echo "$task_data" | jq -r '.task_type // "founder"')
status=$(echo "$task_data" | jq -r '.status')
project_name=$(echo "$task_data" | jq -r '.project_name')
description=$(echo "$task_data" | jq -r '.description // ""')
# Extract notes_path from task metadata (stored at task creation)
stored_notes_path=$(echo "$task_data" | jq -r '.notes_path // null')
# Use provided notes_path or fall back to stored one
notes_path="${notes_path:-$stored_notes_path}"
if [ -z "$notes_path" ] || [ "$notes_path" = "null" ]; then
return error "No notes_path found. Provide a file path or ensure task has notes_path stored."
fi
# Validate file exists
if [ ! -f "$notes_path" ]; then
return error "File not found: $notes_path"
fi
Stage 2: Preflight Status Update
Update task status to "researching" BEFORE invoking subagent.
Update state.json:
jq --arg ts "$(date -u +%Y-%m-%dT%H:%M:%SZ)" \
--arg status "researching" \
--arg sid "$session_id" \
'(.active_projects[] | select(.project_number == '$task_number')) |= . + {
status: $status,
last_updated: $ts,
session_id: $sid
}' specs/state.json > specs/tmp/state.json && mv specs/tmp/state.json specs/state.json
Update TODO.md: Use Edit tool to change status marker to [RESEARCHING].
Stage 3: Create Postflight Marker
padded_num=$(printf "%03d" "$task_number")
mkdir -p "specs/${padded_num}_${project_name}"
cat > "specs/${padded_num}_${project_name}/.postflight-pending" << EOF
{
"session_id": "${session_id}",
"skill": "skill-meeting",
"task_number": ${task_number},
"operation": "research",
"reason": "Postflight pending: status update, artifact linking, git commit",
"created": "$(date -u +%Y-%m-%dT%H:%M:%SZ)"
}
EOF
Stage 4: Prepare Delegation Context
{
"task_context": {
"task_number": N,
"project_name": "{project_name}",
"description": "{description}",
"task_type": "founder",
"task_type": "meeting"
},
"notes_path": "/absolute/path/to/meeting-notes.md",
"update_only": false,
"metadata_file_path": "specs/{NNN}_{SLUG}/.return-meta.json",
"metadata": {
"session_id": "sess_{timestamp}_{random}",
"delegation_depth": 1,
"delegation_path": ["orchestrator", "meeting", "skill-meeting"]
}
}
Stage 5: Invoke Agent
CRITICAL: You MUST use the Agent tool to spawn the agent.
Required Tool Invocation:
Tool: Agent (NOT Skill, NOT Plan)
Parameters:
- subagent_type: "meeting-agent"
- prompt: [Include task_context, notes_path, update_only, metadata_file_path, metadata]
- description: "Investor meeting note processing"
The agent will:
- Read raw meeting notes from
notes_path - Web research the investor for profile data
- Generate structured meeting file with YAML frontmatter + markdown body
- Update CSV tracker in the same directory
- Write metadata file
- Return brief text summary
Stage 5b: Self-Execution Fallback
CRITICAL: If you performed the work above WITHOUT using the Agent tool (i.e., you read files,
wrote artifacts, or updated metadata directly instead of spawning a subagent), you MUST write a
.return-meta.json file now before proceeding to postflight. Use the schema from
return-metadata-file.md with the appropriate status value for this operation.
If you DID use the Agent tool, skip this stage -- the subagent already wrote the metadata.
Postflight (ALWAYS EXECUTE)
The following stages MUST execute after work is complete, whether the work was done by a subagent or inline (Stage 5b). Do NOT skip these stages for any reason.
Stage 6: Read Metadata File
padded_num=$(printf "%03d" "$task_number")
metadata_file="specs/${padded_num}_${project_name}/.return-meta.json"
if [ -f "$metadata_file" ] && jq empty "$metadata_file" 2>/dev/null; then
status=$(jq -r '.status' "$metadata_file")
artifact_path=$(jq -r '.artifacts[0].path // ""' "$metadata_file")
artifact_type=$(jq -r '.artifacts[0].type // ""' "$metadata_file")
artifact_summary=$(jq -r '.artifacts[0].summary // ""' "$metadata_file")
else
status="failed"
fi
Stage 7: Update Task Status (Postflight)
If status is "researched", update state.json and TODO.md.
Update state.json:
jq --arg ts "$(date -u +%Y-%m-%dT%H:%M:%SZ)" \
--arg status "researched" \
'(.active_projects[] | select(.project_number == '$task_number')) |= . + {
status: $status,
last_updated: $ts
}' specs/state.json > specs/tmp/state.json && mv specs/tmp/state.json specs/state.json
Update TODO.md: Use Edit tool to change status marker to [RESEARCHED].
Stage 8: Link Artifacts
Add artifact to state.json with summary.
IMPORTANT: Use two-step jq pattern to avoid escaping issues.
if [ -n "$artifact_path" ]; then
# Step 1: Filter out existing research artifacts (use "| not" pattern)
jq '(.active_projects[] | select(.project_number == '$task_number')).artifacts =
[(.active_projects[] | select(.project_number == '$task_number')).artifacts // [] | .[] | select(.type == "research" | not)]' \
specs/state.json > specs/tmp/state.json && mv specs/tmp/state.json specs/state.json
# Step 2: Add new research artifact
jq --arg path "$artifact_path" \
--arg type "$artifact_type" \
--arg summary "$artifact_summary" \
'(.active_projects[] | select(.project_number == '$task_number')).artifacts += [{"path": $path, "type": $type, "summary": $summary}]' \
specs/state.json > specs/tmp/state.json && mv specs/tmp/state.json specs/state.json
fi
Update TODO.md: Link artifact using count-aware format.
Apply the four-case Edit logic from @.claude/context/patterns/artifact-linking-todo.md
with field_name=**Research**, next_field=**Plan**.
Stage 9: Git Commit
git add -A
git commit -m "task ${task_number}: complete research
Session: ${session_id}
Stage 10: Cleanup
rm -f "specs/${padded_num}_${project_name}/.postflight-pending"
rm -f "specs/${padded_num}_${project_name}/.postflight-loop-guard"
rm -f "specs/${padded_num}_${project_name}/.return-meta.json"
Stage 11: Return Brief Summary
Meeting notes processed for task {N}:
- Investor: {investor_name}
- Meeting date: {meeting_date}
- Meeting file: {output_path}
- Action items: {count}
- CSV tracker: {updated|created|skipped}
- Update-only mode: {yes|no}
- Research report: {artifact_path}
- Status updated to [RESEARCHED]
- Changes committed
- Next: Review meeting file for accuracy
Return Format
Brief text summary (NOT JSON).
Error Handling
Input Validation Errors
Return immediately if task not found or notes_path missing.
File Not Found
Return error if notes_path does not exist on disk.
Metadata File Missing
Keep status as "researching" for resume.
User Abandonment
Return partial status with progress made.
Git Commit Failure
Non-blocking: Log failure but continue.
Decide Fit First
Design Intent
How To Use It
Boundaries And Review