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name, description, argument-hint, allowed-tools
| name | description | argument-hint | allowed-tools |
|---|---|---|---|
| workflow-execute | Autonomous workflow execution pipeline with CSV wave engine. Session discovery → plan validation → IMPL-*.json → CSV conversion → wave execution via spawn_agents_on_csv → results sync. Task JSONs remain the rich data source; CSV is brief + execution state. | [-y|--yes] [-c|--concurrency N] [--resume-session=ID] [--with-commit] | spawn_agents_on_csv, AskUserQuestion, Read, Write, Edit, Bash, Glob, Grep |
Auto Mode
When --yes or -y: Auto-select first session, auto-complete session after all tasks, skip all confirmations.
Workflow Execute
Usage
$workflow-execute
$workflow-execute --yes
$workflow-execute --resume-session=WFS-auth
$workflow-execute -y --with-commit
$workflow-execute -y -c 4 --with-commit
$workflow-execute -y --with-commit --resume-session=WFS-auth
Flags:
-y, --yes: Skip all confirmations (auto mode)-c, --concurrency N: Max concurrent agents per wave (default: 4)--resume-session=ID: Resume specific session (skip Phase 1-2)--with-commit: Auto-commit after each task completion
Overview
Autonomous execution pipeline using spawn_agents_on_csv wave engine. Converts planning artifacts (IMPL-*.json + plan.json) into CSV for wave-based parallel execution, with full task JSON available via task_json_path column.
┌──────────────────────────────────────────────────────────────────┐
│ WORKFLOW EXECUTE PIPELINE │
├──────────────────────────────────────────────────────────────────┤
│ │
│ Phase 1: Session Discovery │
│ ├─ Find active sessions │
│ ├─ Auto-select (1 session) or prompt (multiple) │
│ └─ Load session metadata │
│ │
│ Phase 2: Planning Document Validation │
│ ├─ Verify IMPL_PLAN.md exists │
│ ├─ Verify TODO_LIST.md exists │
│ └─ Verify .task/ contains IMPL-*.json │
│ │
│ Phase 3: JSON → CSV Conversion │
│ ├─ Read all IMPL-*.json + plan.json │
│ ├─ Skip already-completed tasks (resume support) │
│ ├─ Compute waves via Kahn's BFS (deps + plan hints) │
│ ├─ Generate tasks.csv (21 cols) + context.csv │
│ └─ Initialize discoveries.ndjson │
│ │
│ Phase 4: Wave Execute (spawn_agents_on_csv) │
│ ├─ Per wave: build prev_context → wave-{N}.csv │
│ ├─ spawn_agents_on_csv with execute instruction │
│ ├─ Merge results → tasks.csv + task JSON status │
│ ├─ Auto-commit per task (if --with-commit) │
│ └─ Cleanup temp wave CSVs │
│ │
│ Phase 5: Results Sync │
│ ├─ Export results.csv │
│ ├─ Reconcile TODO_LIST.md with tasks.csv status │
│ └─ User choice: Review | Complete Session │
│ │
│ Phase 6: Post-Implementation Review (Optional) │
│ ├─ Select review type (quality/security/architecture) │
│ ├─ CLI-assisted analysis │
│ └─ Generate REVIEW-{type}.md │
│ │
│ Resume Mode (--resume-session): │
│ └─ Skip Phase 1-2 → enter Phase 3 (skip completed tasks) │
│ │
└──────────────────────────────────────────────────────────────────┘
CSV Schemas
tasks.csv (21 columns)
id,title,description,agent,scope,deps,execution_group,context_from,wave,task_json_path,hints,execution_directives,acceptance_criteria,prev_context,status,findings,files_modified,tests_passed,acceptance_met,summary_path,error
| Column | Phase | Source | Description |
|---|---|---|---|
id |
Input | task.id | IMPL-001 etc |
title |
Input | task.title | Short title |
description |
Input | task.description | Full description |
agent |
Input | meta.agent or inferred | @code-developer etc |
scope |
Input | task.scope / focus_paths | File scope glob |
deps |
Input | depends_on.join(';') | Dependency IDs (semicolon-separated) |
execution_group |
Input | meta.execution_group | Parallel group identifier |
context_from |
Computed | deps + completed predecessors | Context source IDs |
wave |
Computed | Kahn's BFS | Wave number (1-based) |
task_json_path |
Input | relative path | .task/IMPL-001.json (agent reads full JSON) |
hints |
Input | artifacts + pre_analysis refs | tips || file1;file2 |
execution_directives |
Input | convergence.verification | Verification commands |
acceptance_criteria |
Input | convergence.criteria.join | Acceptance conditions |
prev_context |
Computed(per-wave) | context_from findings lookup | Predecessor task findings |
status |
Output | agent result | pending→completed/failed/skipped |
findings |
Output | agent result | Key findings (max 500 chars) |
files_modified |
Output | agent result | Modified files (semicolon-separated) |
tests_passed |
Output | agent result | true/false |
acceptance_met |
Output | agent result | Acceptance status |
summary_path |
Output | generated | .summaries/IMPL-X-summary.md |
error |
Output | agent result | Error message |
Key design: task_json_path lets agents read the full task JSON (with pre_analysis, flow_control, convergence etc). CSV is "brief + execution state".
context.csv (4 columns)
key,type,value,source
"tech_stack","array","TypeScript;React 18;Zustand","plan.json"
"conventions","array","Use useIntl;Barrel exports","plan.json"
"context_package_path","path",".process/context-package.json","session"
"discoveries_path","path","discoveries.ndjson","session"
Injected into instruction template as static context — avoids each agent rediscovering project basics.
Session Structure
.workflow/active/WFS-{session}/
├── workflow-session.json # Session state
├── plan.json # Structured plan (machine-readable)
├── IMPL_PLAN.md # Implementation plan (human-readable)
├── TODO_LIST.md # Progress tracking (Phase 5 sync)
├── tasks.csv # Phase 3 generated, Phase 4 updated
├── context.csv # Phase 3 generated
├── results.csv # Phase 5 exported
├── discoveries.ndjson # Phase 3 initialized, Phase 4 agents append
├── .task/ # Task definitions (unchanged)
│ ├── IMPL-1.json
│ └── IMPL-N.json
├── .summaries/ # Agent-generated summaries
│ ├── IMPL-1-summary.md
│ └── IMPL-N-summary.md
├── .process/context-package.json# Unchanged
└── wave-{N}.csv # Phase 4 temporary (cleaned after each wave)
Implementation
Session Initialization
const getUtc8ISOString = () => new Date(Date.now() + 8 * 60 * 60 * 1000).toISOString()
// Parse flags
const AUTO_YES = $ARGUMENTS.includes('--yes') || $ARGUMENTS.includes('-y')
const withCommit = $ARGUMENTS.includes('--with-commit')
const resumeMatch = $ARGUMENTS.match(/--resume-session[=\s]+(\S+)/)
const resumeSessionId = resumeMatch ? resumeMatch[1] : null
const isResumeMode = !!resumeSessionId
const concurrencyMatch = $ARGUMENTS.match(/(?:--concurrency|-c)\s+(\d+)/)
const maxConcurrency = concurrencyMatch ? parseInt(concurrencyMatch[1]) : 4
Phase 1: Session Discovery
Applies to: Normal mode only (skipped if --resume-session).
let sessionId, sessionFolder
if (isResumeMode) {
sessionId = resumeSessionId
sessionFolder = `.workflow/active/${sessionId}`
// Skip to Phase 3
} else {
const sessions = Bash(`ls -d .workflow/active/WFS-* 2>/dev/null`).trim().split('\n').filter(Boolean)
if (sessions.length === 0) {
console.log('ERROR: No active workflow sessions found.')
console.log('Run $workflow-plan "task description" to create a session.')
return
}
if (sessions.length === 1) {
sessionFolder = sessions[0]
sessionId = sessionFolder.split('/').pop()
console.log(`Auto-selected session: ${sessionId}`)
} else {
if (AUTO_YES) {
sessionFolder = sessions[0]
sessionId = sessionFolder.split('/').pop()
console.log(`[--yes] Auto-selected: ${sessionId}`)
} else {
const sessionInfos = sessions.slice(0, 4).map(s => {
const id = s.split('/').pop()
const total = parseInt(Bash(`grep -c '^- \\[' "${s}/TODO_LIST.md" 2>/dev/null || echo 0`).trim()) || 0
const done = parseInt(Bash(`grep -c '^- \\[x\\]' "${s}/TODO_LIST.md" 2>/dev/null || echo 0`).trim()) || 0
return { id, path: s, progress: `${done}/${total} tasks` }
})
const answer = AskUserQuestion({
questions: [{
question: "Select session to execute:",
header: "Session",
multiSelect: false,
options: sessionInfos.map(s => ({
label: s.id,
description: s.progress
}))
}]
})
sessionId = answer.Session
sessionFolder = `.workflow/active/${sessionId}`
}
}
}
Phase 2: Planning Document Validation
Applies to: Normal mode only.
if (!isResumeMode) {
const checks = {
'IMPL_PLAN.md': Bash(`test -f "${sessionFolder}/IMPL_PLAN.md" && echo yes`).trim() === 'yes',
'TODO_LIST.md': Bash(`test -f "${sessionFolder}/TODO_LIST.md" && echo yes`).trim() === 'yes',
'.task/ has files': parseInt(Bash(`ls ${sessionFolder}/.task/IMPL-*.json 2>/dev/null | wc -l`).trim()) > 0
}
const missing = Object.entries(checks).filter(([_, ok]) => !ok).map(([name]) => name)
if (missing.length > 0) {
console.log(`ERROR: Missing planning documents: ${missing.join(', ')}`)
console.log(`Run $workflow-plan --session ${sessionId} to generate plan.`)
return
}
console.log(`Planning documents validated.`)
}
Phase 3: JSON → CSV Conversion
Applies to: Both normal and resume modes (resume entry point).
Objective: Convert IMPL-*.json + plan.json into tasks.csv + context.csv with computed waves.
console.log(`\n## Phase 3: JSON → CSV Conversion\n`)
// Update session status to active
Bash(`cd "${sessionFolder}" && jq '.status = "active" | .execution_started_at = (.execution_started_at // "'"$(date -Iseconds)"'")' workflow-session.json > tmp.json && mv tmp.json workflow-session.json 2>/dev/null || true`)
Bash(`mkdir -p "${sessionFolder}/.summaries"`)
// 3.1: Read all IMPL-*.json
const taskFiles = Bash(`ls ${sessionFolder}/.task/IMPL-*.json 2>/dev/null`).trim().split('\n').filter(Boolean)
if (taskFiles.length === 0) {
console.log('ERROR: No task JSONs found in .task/')
return
}
const taskJsons = taskFiles.map(f => {
const content = Read(f)
const json = JSON.parse(content)
json._filePath = f
return json
})
// 3.2: Skip completed tasks (resume support)
const todoContent = Read(`${sessionFolder}/TODO_LIST.md`)
const completedIds = new Set()
const todoLines = todoContent.match(/^- \[x\] (IMPL-\d+(?:\.\d+)?)/gm) || []
todoLines.forEach(line => {
const match = line.match(/IMPL-\d+(?:\.\d+)?/)
if (match) completedIds.add(match[0])
})
// Also check task JSON status field
taskJsons.forEach(tj => {
if (tj.status === 'completed') completedIds.add(tj.id)
})
const pendingJsons = taskJsons.filter(tj => !completedIds.has(tj.id))
console.log(` Total tasks: ${taskJsons.length}`)
console.log(` Already completed: ${completedIds.size}`)
console.log(` Pending: ${pendingJsons.length}`)
if (pendingJsons.length === 0) {
console.log(`\nAll tasks already completed. Proceeding to Phase 5.`)
// → Jump to Phase 5
}
// 3.3: Read plan.json for execution hints
const planJsonPath = `${sessionFolder}/plan.json`
const planJsonExists = Bash(`test -f "${planJsonPath}" && echo yes`).trim() === 'yes'
const planJson = planJsonExists ? JSON.parse(Read(planJsonPath) || '{}') : {}
// 3.4: Extract fields from task JSONs (handles two schema variants)
function resolveAgent(tj) {
if (tj.meta?.agent) return tj.meta.agent
const typeMap = {
'feature': 'code-developer',
'test-gen': 'code-developer',
'test-fix': 'test-fix-agent',
'review': 'universal-executor',
'docs': 'doc-generator'
}
return typeMap[tj.meta?.type] || 'code-developer'
}
function extractDeps(tj) {
return tj.depends_on || tj.context?.depends_on || []
}
function buildHints(tj) {
const tips = []
const files = []
// Gather artifact references
if (tj.artifacts) {
tj.artifacts.forEach(a => { if (a.path) files.push(a.path) })
}
// Gather pre_analysis Read references
if (tj.pre_analysis) {
tj.pre_analysis.forEach(step => {
if (step.tool === 'Read' && step.path) files.push(step.path)
})
}
// Gather tips from meta or context
if (tj.meta?.hints) tips.push(tj.meta.hints)
if (tj.context?.tips) tips.push(tj.context.tips)
const tipsStr = tips.join('; ')
const filesStr = files.join(';')
if (tipsStr && filesStr) return `${tipsStr} || ${filesStr}`
if (tipsStr) return tipsStr
if (filesStr) return `|| ${filesStr}`
return ''
}
function extractDirectives(tj) {
if (tj.convergence?.verification) {
return Array.isArray(tj.convergence.verification)
? tj.convergence.verification.join('; ')
: tj.convergence.verification
}
if (tj.execution_config?.verification_command) return tj.execution_config.verification_command
return ''
}
function extractAcceptance(tj) {
if (tj.convergence?.criteria) {
return Array.isArray(tj.convergence.criteria)
? tj.convergence.criteria.join('; ')
: tj.convergence.criteria
}
if (tj.context?.acceptance) {
return Array.isArray(tj.context.acceptance)
? tj.context.acceptance.join('; ')
: tj.context.acceptance
}
return ''
}
function extractScope(tj) {
if (tj.scope) return tj.scope
if (tj.focus_paths) {
return Array.isArray(tj.focus_paths) ? tj.focus_paths.join(';') : tj.focus_paths
}
return ''
}
// Build task rows (all tasks — completed ones carry status forward)
const taskRows = taskJsons.map(tj => ({
id: tj.id,
title: tj.title || '',
description: tj.description || '',
agent: resolveAgent(tj),
scope: extractScope(tj),
deps: extractDeps(tj).join(';'),
execution_group: tj.meta?.execution_group || '',
context_from: '', // computed after wave assignment
task_json_path: `.task/${tj.id}.json`,
hints: buildHints(tj),
execution_directives: extractDirectives(tj),
acceptance_criteria: extractAcceptance(tj),
prev_context: '', // computed per-wave in Phase 4
status: completedIds.has(tj.id) ? 'completed' : 'pending',
findings: '',
files_modified: '',
tests_passed: '',
acceptance_met: '',
summary_path: `.summaries/${tj.id}-summary.md`,
error: ''
}))
// 3.5: Compute waves via Kahn's BFS with plan.json hints
function computeWaves(rows, planJson) {
const taskMap = new Map(rows.map(r => [r.id, r]))
const inDegree = new Map(rows.map(r => [r.id, 0]))
const adjList = new Map(rows.map(r => [r.id, []]))
for (const row of rows) {
const deps = row.deps.split(';').filter(Boolean)
for (const dep of deps) {
if (taskMap.has(dep)) {
adjList.get(dep).push(row.id)
inDegree.set(row.id, inDegree.get(row.id) + 1)
}
}
}
// BFS
const queue = []
const waveMap = new Map()
for (const [id, deg] of inDegree) {
if (deg === 0) {
queue.push([id, 1])
waveMap.set(id, 1)
}
}
let maxWave = 1
let idx = 0
while (idx < queue.length) {
const [current, depth] = queue[idx++]
for (const next of adjList.get(current)) {
const newDeg = inDegree.get(next) - 1
inDegree.set(next, newDeg)
const nextDepth = Math.max(waveMap.get(next) || 0, depth + 1)
waveMap.set(next, nextDepth)
if (newDeg === 0) {
queue.push([next, nextDepth])
maxWave = Math.max(maxWave, nextDepth)
}
}
}
// Check for unassigned (circular deps)
for (const row of rows) {
if (!waveMap.has(row.id)) {
console.log(`WARNING: Circular dependency involving ${row.id}, assigning to wave ${maxWave + 1}`)
waveMap.set(row.id, maxWave + 1)
maxWave = maxWave + 1
}
}
// Apply plan.json execution_graph hints if available
if (planJson.execution_graph?.phases) {
planJson.execution_graph.phases.forEach((phase, idx) => {
const phaseWave = idx + 1
const taskIds = phase.tasks || phase.task_ids || []
taskIds.forEach(id => {
if (waveMap.has(id)) {
// Only shift to later wave (never earlier — respect deps)
if (phaseWave > waveMap.get(id)) {
waveMap.set(id, phaseWave)
}
}
})
})
maxWave = Math.max(maxWave, ...waveMap.values())
}
return { waveMap, maxWave }
}
const { waveMap, maxWave } = computeWaves(taskRows, planJson)
// Assign wave + context_from
taskRows.forEach(row => {
row.wave = waveMap.get(row.id) || 1
// context_from = deps + already-completed IDs for resume context
const depIds = row.deps.split(';').filter(Boolean)
const contextIds = [...new Set([...depIds, ...[...completedIds].filter(id => id !== row.id)])]
row.context_from = contextIds.join(';')
})
// 3.6: Write tasks.csv
function csvEscape(val) {
return `"${String(val).replace(/"/g, '""')}"`
}
const tasksCsvHeader = 'id,title,description,agent,scope,deps,execution_group,context_from,wave,task_json_path,hints,execution_directives,acceptance_criteria,prev_context,status,findings,files_modified,tests_passed,acceptance_met,summary_path,error'
const tasksCsvRows = taskRows.map(r =>
[r.id, r.title, r.description, r.agent, r.scope, r.deps, r.execution_group,
r.context_from, r.wave, r.task_json_path, r.hints, r.execution_directives,
r.acceptance_criteria, r.prev_context, r.status, r.findings, r.files_modified,
r.tests_passed, r.acceptance_met, r.summary_path, r.error]
.map(csvEscape).join(',')
)
Write(`${sessionFolder}/tasks.csv`, [tasksCsvHeader, ...tasksCsvRows].join('\n'))
// 3.7: Write context.csv
const contextRows = ['key,type,value,source']
if (planJson.tech_stack) {
const stack = Array.isArray(planJson.tech_stack) ? planJson.tech_stack.join(';') : planJson.tech_stack
contextRows.push(`"tech_stack","array","${stack}","plan.json"`)
}
if (planJson.conventions) {
const conv = Array.isArray(planJson.conventions) ? planJson.conventions.join(';') : planJson.conventions
contextRows.push(`"conventions","array","${conv}","plan.json"`)
}
const ctxPkgExists = Bash(`test -f "${sessionFolder}/.process/context-package.json" && echo yes`).trim() === 'yes'
if (ctxPkgExists) {
contextRows.push(`"context_package_path","path",".process/context-package.json","session"`)
}
contextRows.push(`"discoveries_path","path","discoveries.ndjson","session"`)
Write(`${sessionFolder}/context.csv`, contextRows.join('\n'))
// 3.8: Initialize discoveries.ndjson
Bash(`touch "${sessionFolder}/discoveries.ndjson"`)
// 3.9: User validation (skip if AUTO_YES)
if (!AUTO_YES) {
const pendingRows = taskRows.filter(r => r.status === 'pending')
console.log(`\n## Wave Execution Plan\n`)
console.log(` Tasks: ${pendingRows.length} pending across ${maxWave} waves\n`)
for (let w = 1; w <= maxWave; w++) {
const waveTasks = pendingRows.filter(r => r.wave === w)
if (waveTasks.length === 0) continue
console.log(` Wave ${w}: ${waveTasks.map(t => `${t.id}(${t.agent})`).join(', ')}`)
}
const answer = AskUserQuestion({
questions: [{
question: `Proceed with ${pendingRows.length} tasks across ${maxWave} waves?`,
header: "Confirm",
multiSelect: false,
options: [
{ label: "Execute", description: "Proceed with wave execution" },
{ label: "Modify", description: `Edit ${sessionFolder}/tasks.csv then --resume-session` },
{ label: "Cancel", description: "Abort" }
]
}]
})
if (answer.Confirm === "Modify") {
console.log(`Edit: ${sessionFolder}/tasks.csv\nResume: $workflow-execute --resume-session=${sessionId}`)
return
} else if (answer.Confirm === "Cancel") {
return
}
}
console.log(`\n tasks.csv: ${taskRows.length} rows (${pendingJsons.length} pending)`)
console.log(` context.csv: ${contextRows.length - 1} entries`)
console.log(` Wave plan: ${maxWave} waves`)
Phase 4: Wave Execute (spawn_agents_on_csv)
Objective: Execute tasks wave-by-wave via spawn_agents_on_csv. Each wave builds prev_context from completed predecessors.
console.log(`\n## Phase 4: Wave Execute\n`)
// Determine concurrency from plan.json or flag
let effectiveConcurrency = maxConcurrency
if (planJson.recommended_execution === 'Sequential') {
effectiveConcurrency = 1
console.log(` Sequential mode (from plan.json), concurrency: 1`)
} else {
console.log(` Parallel mode, concurrency: ${effectiveConcurrency}`)
}
// Read context.csv for instruction injection
const contextCsvContent = Read(`${sessionFolder}/context.csv`)
const contextEntries = parseCsv(contextCsvContent)
const contextBlock = contextEntries.map(e => `- **${e.key}** (${e.type}): ${e.value}`).join('\n')
const failedIds = new Set()
const skippedIds = new Set()
for (let wave = 1; wave <= maxWave; wave++) {
console.log(`\n### Wave ${wave}/${maxWave}\n`)
// Re-read master CSV for current state
const masterCsv = parseCsv(Read(`${sessionFolder}/tasks.csv`))
const waveTasks = masterCsv.filter(row =>
parseInt(row.wave) === wave && row.status === 'pending'
)
if (waveTasks.length === 0) {
console.log(` No pending tasks in wave ${wave}`)
continue
}
// Skip tasks whose deps failed/skipped
const executableTasks = []
for (const task of waveTasks) {
const deps = (task.deps || '').split(';').filter(Boolean)
if (deps.some(d => failedIds.has(d) || skippedIds.has(d))) {
skippedIds.add(task.id)
updateMasterCsvRow(`${sessionFolder}/tasks.csv`, task.id, {
status: 'skipped',
error: 'Dependency failed or skipped'
})
console.log(` [${task.id}] ${task.title} → SKIPPED (dependency failed)`)
continue
}
executableTasks.push(task)
}
if (executableTasks.length === 0) {
console.log(` No executable tasks in wave ${wave}`)
continue
}
// Build prev_context for each task
for (const task of executableTasks) {
task.prev_context = buildPrevContext(task.context_from, masterCsv)
}
// Write wave CSV (input columns + prev_context)
const waveHeader = 'id,title,description,agent,scope,deps,execution_group,context_from,wave,task_json_path,hints,execution_directives,acceptance_criteria,prev_context'
const waveRows = executableTasks.map(t =>
[t.id, t.title, t.description, t.agent, t.scope, t.deps, t.execution_group,
t.context_from, t.wave, t.task_json_path, t.hints, t.execution_directives,
t.acceptance_criteria, t.prev_context]
.map(cell => `"${String(cell).replace(/"/g, '""')}"`)
.join(',')
)
Write(`${sessionFolder}/wave-${wave}.csv`, [waveHeader, ...waveRows].join('\n'))
// Execute wave
console.log(` Executing ${executableTasks.length} tasks (concurrency: ${effectiveConcurrency})...`)
spawn_agents_on_csv({
csv_path: `${sessionFolder}/wave-${wave}.csv`,
id_column: "id",
instruction: buildExecuteInstruction(sessionFolder, contextBlock),
max_concurrency: effectiveConcurrency,
max_runtime_seconds: 600,
output_csv_path: `${sessionFolder}/wave-${wave}-results.csv`,
output_schema: {
type: "object",
properties: {
id: { type: "string" },
status: { type: "string", enum: ["completed", "failed"] },
findings: { type: "string" },
files_modified: { type: "array", items: { type: "string" } },
tests_passed: { type: "boolean" },
acceptance_met: { type: "string" },
error: { type: "string" }
},
required: ["id", "status", "findings", "tests_passed"]
}
})
// Merge results into master CSV + update task JSONs
const waveResults = parseCsv(Read(`${sessionFolder}/wave-${wave}-results.csv`))
for (const result of waveResults) {
const filesModified = Array.isArray(result.files_modified)
? result.files_modified.join(';')
: (result.files_modified || '')
updateMasterCsvRow(`${sessionFolder}/tasks.csv`, result.id, {
status: result.status,
findings: result.findings || '',
files_modified: filesModified,
tests_passed: String(result.tests_passed ?? ''),
acceptance_met: result.acceptance_met || '',
error: result.error || ''
})
// Update task JSON status
if (result.status === 'completed' || result.status === 'failed') {
Bash(`cd "${sessionFolder}/.task" && jq '.status="${result.status}" | .status_history=(.status_history // [])+[{"from":"in_progress","to":"${result.status}","changed_at":"'"$(date -Iseconds)"'"}]' "${result.id}.json" > tmp.json && mv tmp.json "${result.id}.json" 2>/dev/null || true`)
}
if (result.status === 'failed') {
failedIds.add(result.id)
console.log(` [${result.id}] → FAILED: ${result.error}`)
} else {
console.log(` [${result.id}] → COMPLETED${result.tests_passed ? ' (tests passed)' : ''}`)
}
// Auto-commit per completed task
if (withCommit && result.status === 'completed' && filesModified) {
const files = filesModified.split(';').filter(Boolean)
if (files.length > 0) {
const taskJson = JSON.parse(Read(`${sessionFolder}/.task/${result.id}.json`) || '{}')
const typeMap = { feature: 'feat', bugfix: 'fix', refactor: 'refactor', 'test-gen': 'test', docs: 'docs' }
const type = typeMap[taskJson.meta?.type] || 'chore'
const title = taskJson.title || result.id
const msg = `${type}: ${title}`
Bash(`git add ${files.map(f => '"' + f + '"').join(' ')} && git commit -m "${msg}" 2>/dev/null || true`)
console.log(` Committed: ${msg}`)
}
}
}
// Cleanup temp wave CSVs
Bash(`rm -f "${sessionFolder}/wave-${wave}.csv" "${sessionFolder}/wave-${wave}-results.csv"`)
const completedCount = waveResults.filter(r => r.status === 'completed').length
const failedCount = waveResults.filter(r => r.status === 'failed').length
console.log(` Wave ${wave} done: ${completedCount} completed, ${failedCount} failed`)
}
prev_context Builder
function buildPrevContext(contextFrom, masterCsv) {
if (!contextFrom) return 'No previous context available'
const ids = contextFrom.split(';').filter(Boolean)
const entries = []
ids.forEach(id => {
const row = masterCsv.find(r => r.id === id)
if (row && row.status === 'completed' && row.findings) {
entries.push(`[${row.id}: ${row.title}] ${row.findings}`)
if (row.files_modified) entries.push(` Modified: ${row.files_modified}`)
}
})
return entries.length > 0 ? entries.join('\n') : 'No previous context available'
}
Execute Instruction Template
function buildExecuteInstruction(sessionFolder, contextBlock) {
return `
## TASK ASSIGNMENT
### MANDATORY FIRST STEPS
1. Read your FULL task JSON: ${sessionFolder}/{task_json_path}
- CSV row is a brief — task JSON has pre_analysis, flow_control, convergence, and full context
2. Read shared discoveries: ${sessionFolder}/discoveries.ndjson (if exists)
3. Read project context: .workflow/project-tech.json (if exists)
---
## Your Task
**Task ID**: {id}
**Title**: {title}
**Description**: {description}
**Agent Type**: {agent}
**Scope**: {scope}
### Task JSON (full details)
Read: ${sessionFolder}/{task_json_path}
### Implementation Hints & Reference Files
{hints}
> Format: \`tips text || file1;file2\`. Read ALL reference files (after ||) before starting. Apply tips (before ||) as guidance.
### Execution Directives
{execution_directives}
> Commands to run for verification, tool restrictions, or environment requirements.
### Acceptance Criteria
{acceptance_criteria}
### Previous Context (from predecessor tasks)
{prev_context}
### Project Context
${contextBlock}
---
## Execution Protocol
1. **Read task JSON**: Load ${sessionFolder}/{task_json_path} for full task details including pre_analysis steps and flow_control
2. **Check execution method**: If task JSON has \`execution_config.method\`, follow it (agent vs cli mode)
3. **Execute pre_analysis**: If task JSON has \`pre_analysis\` steps, run them first to gather context
4. **Read references**: Parse {hints} — read all files listed after \`||\` to understand existing patterns
5. **Read discoveries**: Load ${sessionFolder}/discoveries.ndjson for shared findings
6. **Use context**: Apply predecessor tasks' findings from prev_context above
7. **Stay in scope**: ONLY create/modify files within {scope} — do NOT touch files outside this boundary
8. **Apply hints**: Follow implementation tips from {hints} (before \`||\`)
9. **Execute**: Implement the task as described in the task JSON
10. **Generate summary**: Write execution summary to ${sessionFolder}/.summaries/{id}-summary.md with sections:
## Summary, ## Files Modified (as \`- \\\`path\\\`\` list), ## Key Decisions, ## Tests
11. **Run directives**: Execute commands from {execution_directives} to verify your work
12. **Update TODO**: In ${sessionFolder}/TODO_LIST.md, change \`- [ ] {id}\` to \`- [x] {id}\`
13. **Share discoveries**: Append findings to shared board:
\`\`\`bash
echo '{"ts":"<ISO8601>","worker":"{id}","type":"<type>","data":{...}}' >> ${sessionFolder}/discoveries.ndjson
\`\`\`
14. **Report result**: Return JSON via report_agent_job_result
### Discovery Types to Share
- \`code_pattern\`: {name, file, description} — reusable patterns found
- \`integration_point\`: {file, description, exports[]} — module connection points
- \`convention\`: {naming, imports, formatting} — code style conventions
- \`blocker\`: {issue, severity, impact} — blocking issues encountered
---
## Output (report_agent_job_result)
Return JSON:
{
"id": "{id}",
"status": "completed" | "failed",
"findings": "Key discoveries and implementation notes (max 500 chars)",
"files_modified": ["path1", "path2"],
"tests_passed": true | false,
"acceptance_met": "Summary of which acceptance criteria were met/unmet",
"error": ""
}
**IMPORTANT**: Set status to "completed" ONLY if:
- All acceptance criteria are met
- Verification directives pass (if any)
Otherwise set status to "failed" with details in error field.
`
}
Phase 5: Results Sync
Objective: Export results, reconcile TODO_LIST.md, update session status.
console.log(`\n## Phase 5: Results Sync\n`)
// 5.1: Export results.csv (final copy of tasks.csv)
const finalCsvContent = Read(`${sessionFolder}/tasks.csv`)
Write(`${sessionFolder}/results.csv`, finalCsvContent)
// 5.2: Reconcile TODO_LIST.md with tasks.csv status
const finalTasks = parseCsv(finalCsvContent)
let todoMd = Read(`${sessionFolder}/TODO_LIST.md`)
for (const task of finalTasks) {
if (task.status === 'completed') {
// Ensure marked as [x] in TODO_LIST.md
const uncheckedPattern = new RegExp(`^(- \\[ \\] ${task.id.replace(/[.*+?^${}()|[\]\\]/g, '\\$&')}:.*)$`, 'm')
todoMd = todoMd.replace(uncheckedPattern, (match, line) => line.replace('- [ ]', '- [x]'))
}
}
Write(`${sessionFolder}/TODO_LIST.md`, todoMd)
// 5.3: Summary
const completed = finalTasks.filter(t => t.status === 'completed')
const failed = finalTasks.filter(t => t.status === 'failed')
const skipped = finalTasks.filter(t => t.status === 'skipped')
const pending = finalTasks.filter(t => t.status === 'pending')
console.log(` Results:`)
console.log(` Completed: ${completed.length}`)
console.log(` Failed: ${failed.length}`)
console.log(` Skipped: ${skipped.length}`)
console.log(` Pending: ${pending.length}`)
// 5.4: Update session status
const allDone = failed.length === 0 && skipped.length === 0 && pending.length === 0
const sessionStatus = allDone ? 'completed' : 'partial'
Bash(`cd "${sessionFolder}" && jq '.status = "${sessionStatus}" | .completed_at = "'"$(date -Iseconds)"'"' workflow-session.json > tmp.json && mv tmp.json workflow-session.json 2>/dev/null || true`)
// 5.5: User next step
if (AUTO_YES) {
console.log(` [--yes] Session ${sessionId} ${sessionStatus}.`)
} else {
const nextStep = AskUserQuestion({
questions: [{
question: "Execution complete. What's next?",
header: "Next Step",
multiSelect: false,
options: [
{ label: "Enter Review", description: "Run post-implementation review (security/quality/architecture)" },
{ label: "Complete Session", description: "Archive session and finalize" }
]
}]
})
if (nextStep['Next Step'] === 'Enter Review') {
// → Phase 6
} else {
console.log(` Session ${sessionId} ${sessionStatus}.`)
}
}
Phase 6: Post-Implementation Review (Optional)
Objective: CLI-assisted specialized review of implemented code.
// Phase 6 entry (from Phase 5 "Enter Review" or direct invocation)
console.log(`\n## Phase 6: Post-Implementation Review\n`)
const reviewType = AUTO_YES ? 'quality' : (() => {
const answer = AskUserQuestion({
questions: [{
question: "Select review type:",
header: "Review",
multiSelect: false,
options: [
{ label: "Quality", description: "Code quality, best practices, maintainability" },
{ label: "Security", description: "Security vulnerabilities, OWASP Top 10" },
{ label: "Architecture", description: "Architecture decisions, scalability, patterns" },
{ label: "Action Items", description: "TODO items, tech debt, follow-ups" }
]
}]
})
return answer.Review.toLowerCase()
})()
// Get list of modified files from tasks.csv
const reviewTasks = parseCsv(Read(`${sessionFolder}/tasks.csv`))
const allModifiedFiles = new Set()
reviewTasks.forEach(t => {
(t.files_modified || '').split(';').filter(Boolean).forEach(f => allModifiedFiles.add(f))
})
const fileList = [...allModifiedFiles].join(', ')
Bash({
command: `ccw cli -p "PURPOSE: Post-implementation ${reviewType} review of modified files. Identify issues and generate actionable report.
TASK:
• Review all modified files for ${reviewType} concerns
• Assess overall ${reviewType} posture
• Generate prioritized issue list with severity
• Provide remediation recommendations
MODE: analysis
CONTEXT: @${[...allModifiedFiles].map(f => f).join(' @')}
EXPECTED: Structured ${reviewType} review report with: summary, issue list (severity, file, line, description, fix), overall score
CONSTRAINTS: Focus on ${reviewType} | Review only modified files: ${fileList}" --tool gemini --mode analysis --rule analysis-review-code-quality`,
run_in_background: true
})
// Wait for CLI → review report
Write(`${sessionFolder}/REVIEW-${reviewType}.md`, reviewReport)
console.log(` Review complete: ${sessionFolder}/REVIEW-${reviewType}.md`)
// Post-review options
if (!AUTO_YES) {
const postReview = AskUserQuestion({
questions: [{
question: "Review complete. What's next?",
header: "Post-Review",
multiSelect: false,
options: [
{ label: "Another Review", description: "Run a different review type" },
{ label: "Complete Session", description: "Archive and finalize" }
]
}]
})
if (postReview['Post-Review'] === 'Another Review') {
// Loop back to Phase 6 review type selection
}
}
console.log(`\nSession ${sessionId} execution complete.`)
CSV Helpers
function parseCsv(content) {
const lines = content.trim().split('\n')
if (lines.length < 2) return []
const header = parseCsvLine(lines[0])
return lines.slice(1).map(line => {
const cells = parseCsvLine(line)
const obj = {}
header.forEach((col, i) => { obj[col] = cells[i] || '' })
return obj
})
}
function parseCsvLine(line) {
const cells = []
let current = ''
let inQuotes = false
for (let i = 0; i < line.length; i++) {
const ch = line[i]
if (inQuotes) {
if (ch === '"' && line[i + 1] === '"') {
current += '"'
i++
} else if (ch === '"') {
inQuotes = false
} else {
current += ch
}
} else {
if (ch === '"') {
inQuotes = true
} else if (ch === ',') {
cells.push(current)
current = ''
} else {
current += ch
}
}
}
cells.push(current)
return cells
}
function updateMasterCsvRow(csvPath, taskId, updates) {
const content = Read(csvPath)
const lines = content.split('\n')
const header = parseCsvLine(lines[0])
for (let i = 1; i < lines.length; i++) {
const cells = parseCsvLine(lines[i])
if (cells[0] === taskId) {
for (const [col, val] of Object.entries(updates)) {
const colIdx = header.indexOf(col)
if (colIdx >= 0) {
cells[colIdx] = String(val).replace(/"/g, '""')
}
}
lines[i] = cells.map(c => `"${c}"`).join(',')
break
}
}
Write(csvPath, lines.join('\n'))
}
function csvEscape(val) {
return `"${String(val).replace(/"/g, '""')}"`
}
Agent Assignment Rules
meta.agent specified → Use specified agent file
meta.agent missing → Infer from meta.type:
feature → code-developer
test-gen → code-developer
test-fix → test-fix-agent
review → universal-executor
docs → doc-generator
default → code-developer
Error Handling
| Error | Recovery |
|---|---|
| No active sessions | Guide: run $workflow-plan "description" first |
| Missing planning docs | Guide: run $workflow-plan --session ID |
| Agent failure | Mark failed in tasks.csv, skip dependents, continue wave |
| Dependency cascade | Skip dependent tasks, report at Phase 5 |
| CSV parse error | Validate CSV format, report line number |
| Task JSON corruption | Skip task, mark failed in CSV |
| Commit failure | Log error, continue execution (non-blocking) |
| Circular dependency | Warn and assign to last wave |
| All wave tasks skipped | Log and continue to next wave |
Core Rules
- Wave Order is Sacred: Never execute wave N before wave N-1 completes and results merge
- CSV is Execution State: tasks.csv holds all execution state — always re-read before each wave
- Task JSON is Rich Data: agents read full task JSON via
task_json_path— CSV is brief - Skip on Failure: If a dependency failed, skip the dependent task (cascade)
- Cleanup Temp Files: Remove wave CSVs after results are merged
- TODO_LIST.md Sync: Phase 5 reconciles TODO_LIST.md with tasks.csv final state
- Discovery Board is Append-Only: Never clear, modify, or recreate discoveries.ndjson
- DO NOT STOP: Continuous execution until all waves complete or all remaining tasks are skipped
- Planning Artifacts Unchanged: IMPL-*.json, plan.json, IMPL_PLAN.md formats are preserved
Compact Protection
COMPACT DIRECTIVE: If context compression occurs during execution:
- Re-read
tasks.csvfor current execution state (source of truth)- Re-read
TODO_LIST.mdfor progress display- Re-read
plan.jsonfor execution hints (concurrency, phases)- Task JSONs are read per-wave via
task_json_path, compression has minimal impact- Wave loop state (
failedIds,skippedIds,wave) can be reconstructed from tasks.csv status column