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steven_li
2026-06-08 10:19:57 +08:00
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164
.specify/extensions.yml Normal file
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installed:
- agent-context
- git
settings:
auto_execute_hooks: true
hooks:
before_constitution:
- extension: git
command: speckit.git.initialize
enabled: true
optional: false
prompt: Execute speckit.git.initialize?
description: Initialize Git repository before constitution setup
condition: null
before_specify:
- extension: git
command: speckit.git.feature
enabled: true
optional: false
prompt: Execute speckit.git.feature?
description: Create feature branch before specification
condition: null
before_clarify:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit outstanding changes before clarification?
description: Auto-commit before spec clarification
condition: null
before_plan:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit outstanding changes before planning?
description: Auto-commit before implementation planning
condition: null
before_tasks:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit outstanding changes before task generation?
description: Auto-commit before task generation
condition: null
before_implement:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit outstanding changes before implementation?
description: Auto-commit before implementation
condition: null
before_checklist:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit outstanding changes before checklist?
description: Auto-commit before checklist generation
condition: null
before_analyze:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit outstanding changes before analysis?
description: Auto-commit before analysis
condition: null
before_taskstoissues:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit outstanding changes before issue sync?
description: Auto-commit before tasks-to-issues conversion
condition: null
after_constitution:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit constitution changes?
description: Auto-commit after constitution update
condition: null
after_specify:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit specification changes?
description: Auto-commit after specification
condition: null
- extension: agent-context
command: speckit.agent-context.update
enabled: true
optional: true
prompt: Execute speckit.agent-context.update?
description: Refresh agent context after specification
condition: null
after_clarify:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit clarification changes?
description: Auto-commit after spec clarification
condition: null
after_plan:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit plan changes?
description: Auto-commit after implementation planning
condition: null
- extension: agent-context
command: speckit.agent-context.update
enabled: true
optional: true
prompt: Execute speckit.agent-context.update?
description: Refresh agent context after planning
condition: null
after_tasks:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit task changes?
description: Auto-commit after task generation
condition: null
after_implement:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit implementation changes?
description: Auto-commit after implementation
condition: null
after_checklist:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit checklist changes?
description: Auto-commit after checklist generation
condition: null
after_analyze:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit analysis results?
description: Auto-commit after analysis
condition: null
after_taskstoissues:
- extension: git
command: speckit.git.commit
enabled: true
optional: true
prompt: Commit after syncing issues?
description: Auto-commit after tasks-to-issues conversion
condition: null

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{
"schema_version": "1.0",
"extensions": {
"git": {
"version": "1.0.0",
"source": "local",
"manifest_hash": "sha256:9731aa8143a72fbebfdb440f155038ab42642517c2b2bdbbf67c8fdbe076ed79",
"enabled": true,
"priority": 10,
"registered_commands": {
"agy": [
"speckit.git.feature",
"speckit.git.validate",
"speckit.git.remote",
"speckit.git.initialize",
"speckit.git.commit"
],
"codex": [
"speckit.git.feature",
"speckit.git.validate",
"speckit.git.remote",
"speckit.git.initialize",
"speckit.git.commit"
]
},
"registered_skills": [],
"installed_at": "2026-06-08T01:33:59.604628+00:00"
},
"agent-context": {
"version": "1.0.0",
"source": "local",
"manifest_hash": "sha256:9a1dc02d2d0139bb03860392ecacef79183be2c442feda2f9ccaa4e5907b1e47",
"enabled": true,
"priority": 10,
"registered_commands": {
"agy": [
"speckit.agent-context.update"
],
"codex": [
"speckit.agent-context.update"
]
},
"registered_skills": [],
"installed_at": "2026-06-08T01:33:59.640587+00:00"
}
}
}

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.specify/extensions/agent-context/README.md Normal file
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# Coding Agent Context Extension
This bundled extension manages the **coding agent context/instruction file** (e.g. `CLAUDE.md`, `.github/copilot-instructions.md`, `AGENTS.md`, `GEMINI.md`, …) for the active integration.
It owns the lifecycle of the managed section delimited by the configurable start/end markers (defaults: `<!-- SPECKIT START -->` / `<!-- SPECKIT END -->`).
## Why an extension?
Not every Spec Kit user wants Spec Kit to write into the coding agent's context file. Extracting this behavior into a dedicated extension lets users:
- **Opt out** entirely with `specify extension disable agent-context` — Spec Kit will then never create or modify the agent context file.
- **Customize the markers** by editing `.specify/extensions/agent-context/agent-context-config.yml` — both the Python layer and the bundled scripts honor the same `context_markers` value.
- **Refresh on demand** with `/speckit.agent-context.update`, or automatically through the hooks declared in `extension.yml` (`after_specify`, `after_plan`).
## Commands
| Command | Description |
|---------|-------------|
| `speckit.agent-context.update` | Refresh the managed section in the agent context file with the current plan path. |
## Configuration
All configuration flows through the extension's own config file at
`.specify/extensions/agent-context/agent-context-config.yml`:
```yaml
# Path to the coding agent context file managed by this extension
context_file: CLAUDE.md
# Delimiters for the managed Spec Kit section
context_markers:
start: "<!-- SPECKIT START -->"
end: "<!-- SPECKIT END -->"
```
- `context_file` — the project-relative path to the coding agent context file, written by `specify init` and `specify integration install`.
- `context_markers.start` / `.end` — the delimiters around the managed section. Edit these to use custom markers.
## Requirements
The bundled update scripts require **Python 3** with **PyYAML** for YAML/upsert processing (PowerShell can also use `ConvertFrom-Yaml` when available).
PyYAML ships with the `specify` CLI and is normally available via the same `python3` interpreter. If a hook reports *"PyYAML is required … not available in the current Python environment"*, it means the system `python3` differs from the one used to install Spec Kit. To resolve, run:
```bash
pip install pyyaml
# or target the specific interpreter Spec Kit uses:
/path/to/speckit-python -m pip install pyyaml
```
## Disable
```bash
specify extension disable agent-context
```
When disabled, Spec Kit skips context file creation, updates, and removal (the gates are inside `upsert_context_section()` and `remove_context_section()`).

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.specify/extensions/agent-context/agent-context-config.yml Normal file
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context_file: AGENTS.md
context_markers:
start: <!-- SPECKIT START -->
end: <!-- SPECKIT END -->

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.specify/extensions/agent-context/commands/speckit.agent-context.update.md Normal file
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---
description: "Refresh the managed Spec Kit section in the coding agent context file"
---
# Update Coding Agent Context
Refresh the managed Spec Kit section inside the active coding agent's context/instruction file (e.g. `CLAUDE.md`, `.github/copilot-instructions.md`, `AGENTS.md`).
## Behavior
The script reads the agent-context extension config at
`.specify/extensions/agent-context/agent-context-config.yml` to discover:
- `context_file` — the path of the coding agent context file to manage.
- `context_markers.start` / `.end` — the delimiters surrounding the managed section. Defaults to `<!-- SPECKIT START -->` and `<!-- SPECKIT END -->` when the field is missing.
It then creates, replaces, or appends the managed block so that the section points at the most recent plan path when one can be discovered (`specs/<feature>/plan.md`).
If `context_file` is empty or the file cannot be located, the command reports nothing to do and exits successfully.
## Execution
- **Bash**: `.specify/extensions/agent-context/scripts/bash/update-agent-context.sh [plan_path]`
- **PowerShell**: `.specify/extensions/agent-context/scripts/powershell/update-agent-context.ps1 [plan_path]`
When `plan_path` is omitted, the script auto-detects the most recently modified `specs/*/plan.md`.

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schema_version: "1.0"
extension:
id: agent-context
name: "Coding Agent Context"
version: "1.0.0"
description: "Manages coding agent context/instruction files (e.g., CLAUDE.md, copilot-instructions.md) with project-specific plan references and configurable markers"
author: spec-kit-core
repository: https://github.com/github/spec-kit
license: MIT
requires:
speckit_version: ">=0.2.0"
provides:
commands:
- name: speckit.agent-context.update
file: commands/speckit.agent-context.update.md
description: "Refresh the managed Spec Kit section in the coding agent context file"
hooks:
after_specify:
command: speckit.agent-context.update
optional: true
description: "Refresh agent context after specification"
after_plan:
command: speckit.agent-context.update
optional: true
description: "Refresh agent context after planning"
tags:
- "agent"
- "context"
- "core"

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#!/usr/bin/env bash
# update-agent-context.sh
#
# Refresh the managed Spec Kit section in the coding agent's context file
# (e.g. CLAUDE.md, .github/copilot-instructions.md, AGENTS.md).
#
# Reads `context_file` and `context_markers.{start,end}` from the
# agent-context extension config:
# .specify/extensions/agent-context/agent-context-config.yml
#
# Usage: update-agent-context.sh [plan_path]
#
# When `plan_path` is omitted, the script picks the most recently modified
# `specs/*/plan.md` if any exist, otherwise emits the section without a
# concrete plan path.
set -euo pipefail
PROJECT_ROOT="$(pwd)"
EXT_CONFIG="$PROJECT_ROOT/.specify/extensions/agent-context/agent-context-config.yml"
DEFAULT_START="<!-- SPECKIT START -->"
DEFAULT_END="<!-- SPECKIT END -->"
if [[ ! -f "$EXT_CONFIG" ]]; then
echo "agent-context: $EXT_CONFIG not found; nothing to do." >&2
exit 0
fi
# Locate a suitable Python interpreter (python3, then python).
_python=""
if command -v python3 >/dev/null 2>&1; then
_python="python3"
elif command -v python >/dev/null 2>&1 && python --version 2>&1 | grep -q "^Python 3"; then
_python="python"
fi
if [[ -z "$_python" ]]; then
echo "agent-context: Python 3 not found on PATH; skipping update." >&2
exit 0
fi
# Parse extension config once; emit three newline-separated fields:
# context_file, context_markers.start, context_markers.end
if ! _raw_opts="$("$_python" - "$EXT_CONFIG" <<'PY'
import sys
try:
import yaml
except ImportError:
print(
"agent-context: PyYAML is required to parse extension config but is not available "
"in the current Python environment.\n"
" To resolve: pip install pyyaml (or install it into the environment used by python3).\n"
" Context file will not be updated until PyYAML is importable.",
file=sys.stderr,
)
sys.exit(2)
try:
with open(sys.argv[1], "r", encoding="utf-8") as fh:
data = yaml.safe_load(fh)
except Exception as exc:
print(
f"agent-context: unable to parse {sys.argv[1]} ({exc}); cannot update context.",
file=sys.stderr,
)
sys.exit(2)
if not isinstance(data, dict):
data = {}
def get_str(obj, *keys):
node = obj
for k in keys:
if isinstance(node, dict) and k in node:
node = node[k]
else:
return ""
return node if isinstance(node, str) else ""
print(get_str(data, "context_file"))
print(get_str(data, "context_markers", "start"))
print(get_str(data, "context_markers", "end"))
PY
)"; then
echo "agent-context: skipping update (see above for details)." >&2
exit 0
fi
_opts_lines=()
while IFS= read -r _line || [[ -n "$_line" ]]; do
_opts_lines+=("$_line")
done < <(printf '%s\n' "$_raw_opts")
if (( ${#_opts_lines[@]} < 3 )); then
echo "agent-context: malformed config parser output; expected 3 lines (context_file, marker_start, marker_end), got ${#_opts_lines[@]}; skipping update." >&2
exit 0
fi
CONTEXT_FILE="${_opts_lines[0]}"
MARKER_START="${_opts_lines[1]}"
MARKER_END="${_opts_lines[2]}"
if [[ -z "$CONTEXT_FILE" ]]; then
echo "agent-context: context_file not set in extension config; nothing to do." >&2
exit 0
fi
# Reject absolute paths, backslash separators, and '..' path segments in context_file
if [[ "$CONTEXT_FILE" == /* ]] || [[ "$CONTEXT_FILE" =~ ^[A-Za-z]: ]]; then
echo "agent-context: context_file must be a project-relative path; got '$CONTEXT_FILE'." >&2
exit 1
fi
if [[ "$CONTEXT_FILE" == *\\* ]]; then
echo "agent-context: context_file must not contain backslash separators; got '$CONTEXT_FILE'." >&2
exit 1
fi
IFS='/' read -ra _cf_parts <<< "$CONTEXT_FILE"
for _seg in "${_cf_parts[@]}"; do
if [[ "$_seg" == ".." ]]; then
echo "agent-context: context_file must not contain '..' path segments; got '$CONTEXT_FILE'." >&2
exit 1
fi
done
unset _cf_parts _seg
[[ -z "$MARKER_START" ]] && MARKER_START="$DEFAULT_START"
[[ -z "$MARKER_END" ]] && MARKER_END="$DEFAULT_END"
PLAN_PATH="${1:-}"
if [[ -z "$PLAN_PATH" ]]; then
# Pick the most recently modified plan.md one level deep (specs/<feature>/plan.md).
# Use find + sort by modification time to avoid ls/head fragility with
# spaces in paths or SIGPIPE from pipefail.
_plan_abs="$("$_python" - "$PROJECT_ROOT" <<'PY'
import sys, os
from pathlib import Path
specs = Path(sys.argv[1]) / "specs"
plans = sorted(
specs.glob("*/plan.md"),
key=lambda p: p.stat().st_mtime,
reverse=True,
)
print(plans[0] if plans else "")
PY
)"
if [[ -n "$_plan_abs" ]]; then
PLAN_PATH="${_plan_abs#"$PROJECT_ROOT/"}"
fi
fi
CTX_PATH="$PROJECT_ROOT/$CONTEXT_FILE"
mkdir -p "$(dirname "$CTX_PATH")"
# Build the managed section
TMP_SECTION="$(mktemp)"
trap 'rm -f "$TMP_SECTION"' EXIT
{
echo "$MARKER_START"
echo "For additional context about technologies to be used, project structure,"
echo "shell commands, and other important information, read the current plan"
if [[ -n "$PLAN_PATH" ]]; then
echo "at $PLAN_PATH"
fi
echo "$MARKER_END"
} > "$TMP_SECTION"
"$_python" - "$CTX_PATH" "$MARKER_START" "$MARKER_END" "$TMP_SECTION" <<'PY'
import sys, os
ctx_path, start, end, section_path = sys.argv[1:5]
with open(section_path, "r", encoding="utf-8") as fh:
section = fh.read().rstrip("\n") + "\n"
if os.path.exists(ctx_path):
with open(ctx_path, "r", encoding="utf-8-sig") as fh:
content = fh.read()
s = content.find(start)
e = content.find(end, s if s != -1 else 0)
if s != -1 and e != -1 and e > s:
end_of_marker = e + len(end)
if end_of_marker < len(content) and content[end_of_marker] == "\r":
end_of_marker += 1
if end_of_marker < len(content) and content[end_of_marker] == "\n":
end_of_marker += 1
new_content = content[:s] + section + content[end_of_marker:]
elif s != -1:
new_content = content[:s] + section
elif e != -1:
end_of_marker = e + len(end)
if end_of_marker < len(content) and content[end_of_marker] == "\r":
end_of_marker += 1
if end_of_marker < len(content) and content[end_of_marker] == "\n":
end_of_marker += 1
new_content = section + content[end_of_marker:]
else:
if content and not content.endswith("\n"):
content += "\n"
new_content = (content + "\n" + section) if content else section
else:
new_content = section
new_content = new_content.replace("\r\n", "\n").replace("\r", "\n")
with open(ctx_path, "wb") as fh:
fh.write(new_content.encode("utf-8"))
PY
echo "agent-context: updated $CONTEXT_FILE"

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#!/usr/bin/env pwsh
# update-agent-context.ps1
#
# Refresh the managed Spec Kit section in the coding agent's context file
# (e.g. CLAUDE.md, .github/copilot-instructions.md, AGENTS.md).
#
# Reads `context_file` and `context_markers.{start,end}` from the
# agent-context extension config:
# .specify/extensions/agent-context/agent-context-config.yml
#
# Usage: update-agent-context.ps1 [plan_path]
[CmdletBinding()]
param(
[Parameter(Position = 0)]
[string]$PlanPath
)
function Get-ConfigValue {
param(
[AllowNull()][object]$Object,
[Parameter(Mandatory = $true)][string]$Key
)
if ($null -eq $Object) {
return $null
}
if ($Object -is [System.Collections.IDictionary]) {
return $Object[$Key]
}
$prop = $Object.PSObject.Properties[$Key]
if ($prop) {
return $prop.Value
}
return $null
}
function Test-ConfigObject {
param(
[AllowNull()][object]$Object
)
if ($null -eq $Object) {
return $false
}
if ($Object -is [System.Collections.IDictionary]) {
return $true
}
if ($Object -is [System.Management.Automation.PSCustomObject]) {
return $true
}
return $false
}
$ErrorActionPreference = 'Stop'
$DefaultStart = '<!-- SPECKIT START -->'
$DefaultEnd = '<!-- SPECKIT END -->'
$ProjectRoot = (Get-Location).Path
$ExtConfig = Join-Path $ProjectRoot '.specify/extensions/agent-context/agent-context-config.yml'
if (-not (Test-Path -LiteralPath $ExtConfig)) {
Write-Warning "agent-context: $ExtConfig not found; nothing to do."
exit 0
}
$Options = $null
if (Get-Command ConvertFrom-Yaml -ErrorAction SilentlyContinue) {
try {
$Options = Get-Content -LiteralPath $ExtConfig -Raw | ConvertFrom-Yaml -ErrorAction Stop
} catch {
# fall through to Python fallback
}
}
if ($null -eq $Options) {
# ConvertFrom-Yaml unavailable or failed; fall back to Python+PyYAML.
$pythonCmd = $null
foreach ($candidate in @('python3', 'python')) {
if (Get-Command $candidate -ErrorAction SilentlyContinue) {
# Verify it is Python 3
$verOut = & $candidate --version 2>&1
if ($verOut -match 'Python 3') {
$pythonCmd = $candidate
break
}
}
}
if ($pythonCmd) {
try {
$jsonOut = & $pythonCmd -c @'
import json
import sys
try:
import yaml
except ImportError:
print(
"agent-context: PyYAML is required to parse extension config; cannot update context.",
file=sys.stderr,
)
sys.exit(2)
try:
with open(sys.argv[1], "r", encoding="utf-8") as fh:
data = yaml.safe_load(fh)
except Exception as exc:
print(
f"agent-context: unable to parse {sys.argv[1]} ({exc}); cannot update context.",
file=sys.stderr,
)
sys.exit(2)
if not isinstance(data, dict):
data = {}
print(json.dumps(data))
'@ $ExtConfig
if ($LASTEXITCODE -eq 0 -and $jsonOut) {
$Options = $jsonOut | ConvertFrom-Json -ErrorAction Stop
}
} catch {
$Options = $null
}
}
if (-not $Options) {
Write-Warning "agent-context: unable to parse $ExtConfig; skipping update."
exit 0
}
}
if (-not (Test-ConfigObject -Object $Options)) {
Write-Warning "agent-context: $ExtConfig must contain a YAML mapping; skipping update."
exit 0
}
$ContextFile = Get-ConfigValue -Object $Options -Key 'context_file'
if (-not $ContextFile) {
Write-Warning 'agent-context: context_file not set in extension config; nothing to do.'
exit 0
}
# Reject absolute paths and '..' path segments in context_file
if ([System.IO.Path]::IsPathRooted($ContextFile)) {
Write-Warning "agent-context: context_file must be a project-relative path; got '$ContextFile'."
exit 1
}
$cfSegments = $ContextFile -split '[/\\]'
if ($cfSegments -contains '..') {
Write-Warning "agent-context: context_file must not contain '..' path segments; got '$ContextFile'."
exit 1
}
$MarkerStart = $DefaultStart
$MarkerEnd = $DefaultEnd
$cm = Get-ConfigValue -Object $Options -Key 'context_markers'
if ($cm) {
$cmStart = Get-ConfigValue -Object $cm -Key 'start'
if ($cmStart -is [string] -and $cmStart) {
$MarkerStart = $cmStart
}
$cmEnd = Get-ConfigValue -Object $cm -Key 'end'
if ($cmEnd -is [string] -and $cmEnd) {
$MarkerEnd = $cmEnd
}
}
if (-not $PlanPath) {
# Discover plan.md exactly one level deep (specs/<feature>/plan.md),
# matching the bash glob specs/*/plan.md. Wrap in try/catch so access errors under
# $ErrorActionPreference = 'Stop' don't abort the script.
try {
$specsDir = Join-Path $ProjectRoot 'specs'
$candidate = Get-ChildItem -Path $specsDir -Directory -ErrorAction SilentlyContinue |
ForEach-Object { Get-Item -LiteralPath (Join-Path $_.FullName 'plan.md') -ErrorAction SilentlyContinue } |
Where-Object { $_ } |
Sort-Object LastWriteTime -Descending |
Select-Object -First 1
if ($candidate) {
$PlanPath = [System.IO.Path]::GetRelativePath($ProjectRoot, $candidate.FullName).Replace('\','/')
}
} catch {
# Non-fatal: continue without a plan path.
}
}
$CtxPath = Join-Path $ProjectRoot $ContextFile
$CtxDir = Split-Path -Parent $CtxPath
if ($CtxDir -and -not (Test-Path -LiteralPath $CtxDir)) {
New-Item -ItemType Directory -Path $CtxDir -Force | Out-Null
}
$lines = @($MarkerStart,
'For additional context about technologies to be used, project structure,',
'shell commands, and other important information, read the current plan')
if ($PlanPath) {
$lines += "at $PlanPath"
}
$lines += $MarkerEnd
$Section = ($lines -join "`n") + "`n"
if (Test-Path -LiteralPath $CtxPath) {
$rawBytes = [System.IO.File]::ReadAllBytes($CtxPath)
# Strip UTF-8 BOM if present
if ($rawBytes.Length -ge 3 -and $rawBytes[0] -eq 0xEF -and $rawBytes[1] -eq 0xBB -and $rawBytes[2] -eq 0xBF) {
$content = [System.Text.Encoding]::UTF8.GetString($rawBytes, 3, $rawBytes.Length - 3)
} else {
$content = [System.Text.Encoding]::UTF8.GetString($rawBytes)
}
$s = $content.IndexOf($MarkerStart)
$e = if ($s -ge 0) { $content.IndexOf($MarkerEnd, $s) } else { $content.IndexOf($MarkerEnd) }
if ($s -ge 0 -and $e -ge 0 -and $e -gt $s) {
$endOfMarker = $e + $MarkerEnd.Length
if ($endOfMarker -lt $content.Length -and $content[$endOfMarker] -eq "`r") { $endOfMarker++ }
if ($endOfMarker -lt $content.Length -and $content[$endOfMarker] -eq "`n") { $endOfMarker++ }
$newContent = $content.Substring(0, $s) + $Section + $content.Substring($endOfMarker)
} elseif ($s -ge 0) {
$newContent = $content.Substring(0, $s) + $Section
} elseif ($e -ge 0) {
$endOfMarker = $e + $MarkerEnd.Length
if ($endOfMarker -lt $content.Length -and $content[$endOfMarker] -eq "`r") { $endOfMarker++ }
if ($endOfMarker -lt $content.Length -and $content[$endOfMarker] -eq "`n") { $endOfMarker++ }
$newContent = $Section + $content.Substring($endOfMarker)
} else {
if ($content -and -not $content.EndsWith("`n")) { $content += "`n" }
if ($content) { $newContent = $content + "`n" + $Section } else { $newContent = $Section }
}
} else {
$newContent = $Section
}
$newContent = $newContent.Replace("`r`n", "`n").Replace("`r", "`n")
[System.IO.File]::WriteAllText($CtxPath, $newContent, (New-Object System.Text.UTF8Encoding($false)))
Write-Host "agent-context: updated $ContextFile"

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# Git Branching Workflow Extension
Git repository initialization, feature branch creation, numbering (sequential/timestamp), validation, remote detection, and auto-commit for Spec Kit.
## Overview
This extension provides Git operations as an optional, self-contained module. It manages:
- **Repository initialization** with configurable commit messages
- **Feature branch creation** with sequential (`001-feature-name`) or timestamp (`20260319-143022-feature-name`) numbering
- **Branch validation** to ensure branches follow naming conventions
- **Git remote detection** for GitHub integration (e.g., issue creation)
- **Auto-commit** after core commands (configurable per-command with custom messages)
## Commands
| Command | Description |
|---------|-------------|
| `speckit.git.initialize` | Initialize a Git repository with a configurable commit message |
| `speckit.git.feature` | Create a feature branch with sequential or timestamp numbering |
| `speckit.git.validate` | Validate current branch follows feature branch naming conventions |
| `speckit.git.remote` | Detect Git remote URL for GitHub integration |
| `speckit.git.commit` | Auto-commit changes (configurable per-command enable/disable and messages) |
## Hooks
| Event | Command | Optional | Description |
|-------|---------|----------|-------------|
| `before_constitution` | `speckit.git.initialize` | No | Init git repo before constitution |
| `before_specify` | `speckit.git.feature` | No | Create feature branch before specification |
| `before_clarify` | `speckit.git.commit` | Yes | Commit outstanding changes before clarification |
| `before_plan` | `speckit.git.commit` | Yes | Commit outstanding changes before planning |
| `before_tasks` | `speckit.git.commit` | Yes | Commit outstanding changes before task generation |
| `before_implement` | `speckit.git.commit` | Yes | Commit outstanding changes before implementation |
| `before_checklist` | `speckit.git.commit` | Yes | Commit outstanding changes before checklist |
| `before_analyze` | `speckit.git.commit` | Yes | Commit outstanding changes before analysis |
| `before_taskstoissues` | `speckit.git.commit` | Yes | Commit outstanding changes before issue sync |
| `after_constitution` | `speckit.git.commit` | Yes | Auto-commit after constitution update |
| `after_specify` | `speckit.git.commit` | Yes | Auto-commit after specification |
| `after_clarify` | `speckit.git.commit` | Yes | Auto-commit after clarification |
| `after_plan` | `speckit.git.commit` | Yes | Auto-commit after planning |
| `after_tasks` | `speckit.git.commit` | Yes | Auto-commit after task generation |
| `after_implement` | `speckit.git.commit` | Yes | Auto-commit after implementation |
| `after_checklist` | `speckit.git.commit` | Yes | Auto-commit after checklist |
| `after_analyze` | `speckit.git.commit` | Yes | Auto-commit after analysis |
| `after_taskstoissues` | `speckit.git.commit` | Yes | Auto-commit after issue sync |
## Configuration
Configuration is stored in `.specify/extensions/git/git-config.yml`:
```yaml
# Branch numbering strategy: "sequential" or "timestamp"
branch_numbering: sequential
# Custom commit message for git init
init_commit_message: "[Spec Kit] Initial commit"
# Auto-commit per command (all disabled by default)
# Example: enable auto-commit after specify
auto_commit:
default: false
after_specify:
enabled: true
message: "[Spec Kit] Add specification"
```
## Installation
```bash
# Install the bundled git extension (no network required)
specify extension add git
```
## Disabling
```bash
# Disable the git extension (spec creation continues without branching)
specify extension disable git
# Re-enable it
specify extension enable git
```
## Graceful Degradation
When Git is not installed or the directory is not a Git repository:
- Spec directories are still created under `specs/`
- Branch creation is skipped with a warning
- Branch validation is skipped with a warning
- Remote detection returns empty results
## Scripts
The extension bundles cross-platform scripts:
- `scripts/bash/create-new-feature.sh` — Bash implementation
- `scripts/bash/git-common.sh` — Shared Git utilities (Bash)
- `scripts/powershell/create-new-feature.ps1` — PowerShell implementation
- `scripts/powershell/git-common.ps1` — Shared Git utilities (PowerShell)

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---
description: "Auto-commit changes after a Spec Kit command completes"
---
# Auto-Commit Changes
Automatically stage and commit all changes after a Spec Kit command completes.
## Behavior
This command is invoked as a hook after (or before) core commands. It:
1. Determines the event name from the hook context (e.g., if invoked as an `after_specify` hook, the event is `after_specify`; if `before_plan`, the event is `before_plan`)
2. Checks `.specify/extensions/git/git-config.yml` for the `auto_commit` section
3. Looks up the specific event key to see if auto-commit is enabled
4. Falls back to `auto_commit.default` if no event-specific key exists
5. Uses the per-command `message` if configured, otherwise a default message
6. If enabled and there are uncommitted changes, runs `git add .` + `git commit`
## Execution
Determine the event name from the hook that triggered this command, then run the script:
- **Bash**: `.specify/extensions/git/scripts/bash/auto-commit.sh <event_name>`
- **PowerShell**: `.specify/extensions/git/scripts/powershell/auto-commit.ps1 <event_name>`
Replace `<event_name>` with the actual hook event (e.g., `after_specify`, `before_plan`, `after_implement`).
## Configuration
In `.specify/extensions/git/git-config.yml`:
```yaml
auto_commit:
default: false # Global toggle — set true to enable for all commands
after_specify:
enabled: true # Override per-command
message: "[Spec Kit] Add specification"
after_plan:
enabled: false
message: "[Spec Kit] Add implementation plan"
```
## Graceful Degradation
- If Git is not available or the current directory is not a repository: skips with a warning
- If no config file exists: skips (disabled by default)
- If no changes to commit: skips with a message

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---
description: "Create a feature branch with sequential or timestamp numbering"
---
# Create Feature Branch
Create and switch to a new git feature branch for the given specification. This command handles **branch creation only** — the spec directory and files are created by the core `__SPECKIT_COMMAND_SPECIFY__` workflow.
## User Input
```text
$ARGUMENTS
```
You **MUST** consider the user input before proceeding (if not empty).
## Environment Variable Override
If the user explicitly provided `GIT_BRANCH_NAME` (e.g., via environment variable, argument, or in their request), pass it through to the script by setting the `GIT_BRANCH_NAME` environment variable before invoking the script. When `GIT_BRANCH_NAME` is set:
- The script uses the exact value as the branch name, bypassing all prefix/suffix generation
- `--short-name`, `--number`, and `--timestamp` flags are ignored
- `FEATURE_NUM` is extracted from the name if it starts with a numeric prefix, otherwise set to the full branch name
## Prerequisites
- Verify Git is available by running `git rev-parse --is-inside-work-tree 2>/dev/null`
- If Git is not available, warn the user and skip branch creation
## Branch Numbering Mode
Determine the branch numbering strategy by checking configuration in this order:
1. Check `.specify/extensions/git/git-config.yml` for `branch_numbering` value
2. Check `.specify/init-options.json` for `branch_numbering` value (backward compatibility)
3. Default to `sequential` if neither exists
## Execution
Generate a concise short name (2-4 words) for the branch:
- Analyze the feature description and extract the most meaningful keywords
- Use action-noun format when possible (e.g., "add-user-auth", "fix-payment-bug")
- Preserve technical terms and acronyms (OAuth2, API, JWT, etc.)
Run the appropriate script based on your platform:
- **Bash**: `.specify/extensions/git/scripts/bash/create-new-feature.sh --json --short-name "<short-name>" "<feature description>"`
- **Bash (timestamp)**: `.specify/extensions/git/scripts/bash/create-new-feature.sh --json --timestamp --short-name "<short-name>" "<feature description>"`
- **PowerShell**: `.specify/extensions/git/scripts/powershell/create-new-feature.ps1 -Json -ShortName "<short-name>" "<feature description>"`
- **PowerShell (timestamp)**: `.specify/extensions/git/scripts/powershell/create-new-feature.ps1 -Json -Timestamp -ShortName "<short-name>" "<feature description>"`
**IMPORTANT**:
- Do NOT pass `--number` — the script determines the correct next number automatically
- Always include the JSON flag (`--json` for Bash, `-Json` for PowerShell) so the output can be parsed reliably
- You must only ever run this script once per feature
- The JSON output will contain `BRANCH_NAME` and `FEATURE_NUM`
## Graceful Degradation
If Git is not installed or the current directory is not a Git repository:
- Branch creation is skipped with a warning: `[specify] Warning: Git repository not detected; skipped branch creation`
- The script still outputs `BRANCH_NAME` and `FEATURE_NUM` so the caller can reference them
## Output
The script outputs JSON with:
- `BRANCH_NAME`: The branch name (e.g., `003-user-auth` or `20260319-143022-user-auth`)
- `FEATURE_NUM`: The numeric or timestamp prefix used

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---
description: "Initialize a Git repository with an initial commit"
---
# Initialize Git Repository
Initialize a Git repository in the current project directory if one does not already exist.
## Execution
Run the appropriate script from the project root:
- **Bash**: `.specify/extensions/git/scripts/bash/initialize-repo.sh`
- **PowerShell**: `.specify/extensions/git/scripts/powershell/initialize-repo.ps1`
If the extension scripts are not found, fall back to:
- **Bash**: `git init && git add . && git commit -m "Initial commit from Specify template"`
- **PowerShell**: `git init; git add .; git commit -m "Initial commit from Specify template"`
The script handles all checks internally:
- Skips if Git is not available
- Skips if already inside a Git repository
- Runs `git init`, `git add .`, and `git commit` with an initial commit message
## Customization
Replace the script to add project-specific Git initialization steps:
- Custom `.gitignore` templates
- Default branch naming (`git config init.defaultBranch`)
- Git LFS setup
- Git hooks installation
- Commit signing configuration
- Git Flow initialization
## Output
On success:
- `[OK] Git repository initialized`
## Graceful Degradation
If Git is not installed:
- Warn the user
- Skip repository initialization
- The project continues to function without Git (specs can still be created under `specs/`)
If Git is installed but `git init`, `git add .`, or `git commit` fails:
- Surface the error to the user
- Stop this command rather than continuing with a partially initialized repository

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---
description: "Detect Git remote URL for GitHub integration"
---
# Detect Git Remote URL
Detect the Git remote URL for integration with GitHub services (e.g., issue creation).
## Prerequisites
- Check if Git is available by running `git rev-parse --is-inside-work-tree 2>/dev/null`
- If Git is not available, output a warning and return empty:
```
[specify] Warning: Git repository not detected; cannot determine remote URL
```
## Execution
Run the following command to get the remote URL:
```bash
git config --get remote.origin.url
```
## Output
Parse the remote URL and determine:
1. **Repository owner**: Extract from the URL (e.g., `github` from `https://github.com/github/spec-kit.git`)
2. **Repository name**: Extract from the URL (e.g., `spec-kit` from `https://github.com/github/spec-kit.git`)
3. **Is GitHub**: Whether the remote points to a GitHub repository
Supported URL formats:
- HTTPS: `https://github.com/<owner>/<repo>.git`
- SSH: `git@github.com:<owner>/<repo>.git`
> [!CAUTION]
> ONLY report a GitHub repository if the remote URL actually points to github.com.
> Do NOT assume the remote is GitHub if the URL format doesn't match.
## Graceful Degradation
If Git is not installed, the directory is not a Git repository, or no remote is configured:
- Return an empty result
- Do NOT error — other workflows should continue without Git remote information

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---
description: "Validate current branch follows feature branch naming conventions"
---
# Validate Feature Branch
Validate that the current Git branch follows the expected feature branch naming conventions.
## Prerequisites
- Check if Git is available by running `git rev-parse --is-inside-work-tree 2>/dev/null`
- If Git is not available, output a warning and skip validation:
```
[specify] Warning: Git repository not detected; skipped branch validation
```
## Validation Rules
Get the current branch name:
```bash
git rev-parse --abbrev-ref HEAD
```
The branch name must match one of these patterns:
1. **Sequential**: `^[0-9]{3,}-` (e.g., `001-feature-name`, `042-fix-bug`, `1000-big-feature`)
2. **Timestamp**: `^[0-9]{8}-[0-9]{6}-` (e.g., `20260319-143022-feature-name`)
## Execution
If on a feature branch (matches either pattern):
- Output: `✓ On feature branch: <branch-name>`
- Check if the corresponding spec directory exists under `specs/`:
- For sequential branches, look for `specs/<prefix>-*` where prefix matches the numeric portion
- For timestamp branches, look for `specs/<prefix>-*` where prefix matches the `YYYYMMDD-HHMMSS` portion
- If spec directory exists: `✓ Spec directory found: <path>`
- If spec directory missing: `⚠ No spec directory found for prefix <prefix>`
If NOT on a feature branch:
- Output: `✗ Not on a feature branch. Current branch: <branch-name>`
- Output: `Feature branches should be named like: 001-feature-name or 20260319-143022-feature-name`
## Graceful Degradation
If Git is not installed or the directory is not a Git repository:
- Check the `SPECIFY_FEATURE` environment variable as a fallback
- If set, validate that value against the naming patterns
- If not set, skip validation with a warning

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# Git Branching Workflow Extension Configuration
# Copied to .specify/extensions/git/git-config.yml on install
# Branch numbering strategy: "sequential" (001, 002, ...) or "timestamp" (YYYYMMDD-HHMMSS)
branch_numbering: sequential
# Commit message used by `git commit` during repository initialization
init_commit_message: "[Spec Kit] Initial commit"
# Auto-commit before/after core commands.
# Set "default" to enable for all commands, then override per-command.
# Each key can be true/false. Message is customizable per-command.
auto_commit:
default: false
before_clarify:
enabled: false
message: "[Spec Kit] Save progress before clarification"
before_plan:
enabled: false
message: "[Spec Kit] Save progress before planning"
before_tasks:
enabled: false
message: "[Spec Kit] Save progress before task generation"
before_implement:
enabled: false
message: "[Spec Kit] Save progress before implementation"
before_checklist:
enabled: false
message: "[Spec Kit] Save progress before checklist"
before_analyze:
enabled: false
message: "[Spec Kit] Save progress before analysis"
before_taskstoissues:
enabled: false
message: "[Spec Kit] Save progress before issue sync"
after_constitution:
enabled: false
message: "[Spec Kit] Add project constitution"
after_specify:
enabled: false
message: "[Spec Kit] Add specification"
after_clarify:
enabled: false
message: "[Spec Kit] Clarify specification"
after_plan:
enabled: false
message: "[Spec Kit] Add implementation plan"
after_tasks:
enabled: false
message: "[Spec Kit] Add tasks"
after_implement:
enabled: false
message: "[Spec Kit] Implementation progress"
after_checklist:
enabled: false
message: "[Spec Kit] Add checklist"
after_analyze:
enabled: false
message: "[Spec Kit] Add analysis report"
after_taskstoissues:
enabled: false
message: "[Spec Kit] Sync tasks to issues"

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schema_version: "1.0"
extension:
id: git
name: "Git Branching Workflow"
version: "1.0.0"
description: "Feature branch creation, numbering (sequential/timestamp), validation, and Git remote detection"
author: spec-kit-core
repository: https://github.com/github/spec-kit
license: MIT
requires:
speckit_version: ">=0.2.0"
tools:
- name: git
required: false
provides:
commands:
- name: speckit.git.feature
file: commands/speckit.git.feature.md
description: "Create a feature branch with sequential or timestamp numbering"
- name: speckit.git.validate
file: commands/speckit.git.validate.md
description: "Validate current branch follows feature branch naming conventions"
- name: speckit.git.remote
file: commands/speckit.git.remote.md
description: "Detect Git remote URL for GitHub integration"
- name: speckit.git.initialize
file: commands/speckit.git.initialize.md
description: "Initialize a Git repository with an initial commit"
- name: speckit.git.commit
file: commands/speckit.git.commit.md
description: "Auto-commit changes after a Spec Kit command completes"
config:
- name: "git-config.yml"
template: "config-template.yml"
description: "Git branching configuration"
required: false
hooks:
before_constitution:
command: speckit.git.initialize
optional: false
description: "Initialize Git repository before constitution setup"
before_specify:
command: speckit.git.feature
optional: false
description: "Create feature branch before specification"
before_clarify:
command: speckit.git.commit
optional: true
prompt: "Commit outstanding changes before clarification?"
description: "Auto-commit before spec clarification"
before_plan:
command: speckit.git.commit
optional: true
prompt: "Commit outstanding changes before planning?"
description: "Auto-commit before implementation planning"
before_tasks:
command: speckit.git.commit
optional: true
prompt: "Commit outstanding changes before task generation?"
description: "Auto-commit before task generation"
before_implement:
command: speckit.git.commit
optional: true
prompt: "Commit outstanding changes before implementation?"
description: "Auto-commit before implementation"
before_checklist:
command: speckit.git.commit
optional: true
prompt: "Commit outstanding changes before checklist?"
description: "Auto-commit before checklist generation"
before_analyze:
command: speckit.git.commit
optional: true
prompt: "Commit outstanding changes before analysis?"
description: "Auto-commit before analysis"
before_taskstoissues:
command: speckit.git.commit
optional: true
prompt: "Commit outstanding changes before issue sync?"
description: "Auto-commit before tasks-to-issues conversion"
after_constitution:
command: speckit.git.commit
optional: true
prompt: "Commit constitution changes?"
description: "Auto-commit after constitution update"
after_specify:
command: speckit.git.commit
optional: true
prompt: "Commit specification changes?"
description: "Auto-commit after specification"
after_clarify:
command: speckit.git.commit
optional: true
prompt: "Commit clarification changes?"
description: "Auto-commit after spec clarification"
after_plan:
command: speckit.git.commit
optional: true
prompt: "Commit plan changes?"
description: "Auto-commit after implementation planning"
after_tasks:
command: speckit.git.commit
optional: true
prompt: "Commit task changes?"
description: "Auto-commit after task generation"
after_implement:
command: speckit.git.commit
optional: true
prompt: "Commit implementation changes?"
description: "Auto-commit after implementation"
after_checklist:
command: speckit.git.commit
optional: true
prompt: "Commit checklist changes?"
description: "Auto-commit after checklist generation"
after_analyze:
command: speckit.git.commit
optional: true
prompt: "Commit analysis results?"
description: "Auto-commit after analysis"
after_taskstoissues:
command: speckit.git.commit
optional: true
prompt: "Commit after syncing issues?"
description: "Auto-commit after tasks-to-issues conversion"
tags:
- "git"
- "branching"
- "workflow"
config:
defaults:
branch_numbering: sequential
init_commit_message: "[Spec Kit] Initial commit"

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# Git Branching Workflow Extension Configuration
# Copied to .specify/extensions/git/git-config.yml on install
# Branch numbering strategy: "sequential" (001, 002, ...) or "timestamp" (YYYYMMDD-HHMMSS)
branch_numbering: sequential
# Commit message used by `git commit` during repository initialization
init_commit_message: "[Spec Kit] Initial commit"
# Auto-commit before/after core commands.
# Set "default" to enable for all commands, then override per-command.
# Each key can be true/false. Message is customizable per-command.
auto_commit:
default: false
before_clarify:
enabled: false
message: "[Spec Kit] Save progress before clarification"
before_plan:
enabled: false
message: "[Spec Kit] Save progress before planning"
before_tasks:
enabled: false
message: "[Spec Kit] Save progress before task generation"
before_implement:
enabled: false
message: "[Spec Kit] Save progress before implementation"
before_checklist:
enabled: false
message: "[Spec Kit] Save progress before checklist"
before_analyze:
enabled: false
message: "[Spec Kit] Save progress before analysis"
before_taskstoissues:
enabled: false
message: "[Spec Kit] Save progress before issue sync"
after_constitution:
enabled: false
message: "[Spec Kit] Add project constitution"
after_specify:
enabled: false
message: "[Spec Kit] Add specification"
after_clarify:
enabled: false
message: "[Spec Kit] Clarify specification"
after_plan:
enabled: false
message: "[Spec Kit] Add implementation plan"
after_tasks:
enabled: false
message: "[Spec Kit] Add tasks"
after_implement:
enabled: false
message: "[Spec Kit] Implementation progress"
after_checklist:
enabled: false
message: "[Spec Kit] Add checklist"
after_analyze:
enabled: false
message: "[Spec Kit] Add analysis report"
after_taskstoissues:
enabled: false
message: "[Spec Kit] Sync tasks to issues"

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#!/usr/bin/env bash
# Git extension: auto-commit.sh
# Automatically commit changes after a Spec Kit command completes.
# Checks per-command config keys in git-config.yml before committing.
#
# Usage: auto-commit.sh <event_name>
# e.g.: auto-commit.sh after_specify
set -e
EVENT_NAME="${1:-}"
if [ -z "$EVENT_NAME" ]; then
echo "Usage: $0 <event_name>" >&2
exit 1
fi
SCRIPT_DIR="$(CDPATH="" cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
_find_project_root() {
local dir="$1"
while [ "$dir" != "/" ]; do
if [ -d "$dir/.specify" ] || [ -d "$dir/.git" ]; then
echo "$dir"
return 0
fi
dir="$(dirname "$dir")"
done
return 1
}
REPO_ROOT=$(_find_project_root "$SCRIPT_DIR") || REPO_ROOT="$(pwd)"
cd "$REPO_ROOT"
# Check if git is available
if ! command -v git >/dev/null 2>&1; then
echo "[specify] Warning: Git not found; skipped auto-commit" >&2
exit 0
fi
if ! git rev-parse --is-inside-work-tree >/dev/null 2>&1; then
echo "[specify] Warning: Not a Git repository; skipped auto-commit" >&2
exit 0
fi
# Read per-command config from git-config.yml
_config_file="$REPO_ROOT/.specify/extensions/git/git-config.yml"
_enabled=false
_commit_msg=""
if [ -f "$_config_file" ]; then
# Parse the auto_commit section for this event.
# Look for auto_commit.<event_name>.enabled and .message
# Also check auto_commit.default as fallback.
_in_auto_commit=false
_in_event=false
_default_enabled=false
while IFS= read -r _line; do
# Detect auto_commit: section
if echo "$_line" | grep -q '^auto_commit:'; then
_in_auto_commit=true
_in_event=false
continue
fi
# Exit auto_commit section on next top-level key
if $_in_auto_commit && echo "$_line" | grep -Eq '^[a-z]'; then
break
fi
if $_in_auto_commit; then
# Check default key
if echo "$_line" | grep -Eq "^[[:space:]]+default:[[:space:]]"; then
_val=$(echo "$_line" | sed 's/^[^:]*:[[:space:]]*//' | tr -d '[:space:]' | tr '[:upper:]' '[:lower:]')
[ "$_val" = "true" ] && _default_enabled=true
fi
# Detect our event subsection
if echo "$_line" | grep -Eq "^[[:space:]]+${EVENT_NAME}:"; then
_in_event=true
continue
fi
# Inside our event subsection
if $_in_event; then
# Exit on next sibling key (same indent level as event name)
if echo "$_line" | grep -Eq '^[[:space:]]{2}[a-z]' && ! echo "$_line" | grep -Eq '^[[:space:]]{4}'; then
_in_event=false
continue
fi
if echo "$_line" | grep -Eq '[[:space:]]+enabled:'; then
_val=$(echo "$_line" | sed 's/^[^:]*:[[:space:]]*//' | tr -d '[:space:]' | tr '[:upper:]' '[:lower:]')
[ "$_val" = "true" ] && _enabled=true
[ "$_val" = "false" ] && _enabled=false
fi
if echo "$_line" | grep -Eq '[[:space:]]+message:'; then
_commit_msg=$(echo "$_line" | sed 's/^[^:]*:[[:space:]]*//' | sed 's/^["'\'']//' | sed 's/["'\'']*$//')
fi
fi
fi
done < "$_config_file"
# If event-specific key not found, use default
if [ "$_enabled" = "false" ] && [ "$_default_enabled" = "true" ]; then
# Only use default if the event wasn't explicitly set to false
# Check if event section existed at all
if ! grep -q "^[[:space:]]*${EVENT_NAME}:" "$_config_file" 2>/dev/null; then
_enabled=true
fi
fi
else
# No config file — auto-commit disabled by default
exit 0
fi
if [ "$_enabled" != "true" ]; then
exit 0
fi
# Check if there are changes to commit
if git diff --quiet HEAD 2>/dev/null && git diff --cached --quiet 2>/dev/null && [ -z "$(git ls-files --others --exclude-standard 2>/dev/null)" ]; then
echo "[specify] No changes to commit after $EVENT_NAME" >&2
exit 0
fi
# Derive a human-readable command name from the event
# e.g., after_specify -> specify, before_plan -> plan
_command_name=$(echo "$EVENT_NAME" | sed 's/^after_//' | sed 's/^before_//')
_phase=$(echo "$EVENT_NAME" | grep -q '^before_' && echo 'before' || echo 'after')
# Use custom message if configured, otherwise default
if [ -z "$_commit_msg" ]; then
_commit_msg="[Spec Kit] Auto-commit ${_phase} ${_command_name}"
fi
# Stage and commit
_git_out=$(git add . 2>&1) || { echo "[specify] Error: git add failed: $_git_out" >&2; exit 1; }
_git_out=$(git commit -q -m "$_commit_msg" 2>&1) || { echo "[specify] Error: git commit failed: $_git_out" >&2; exit 1; }
echo "[OK] Changes committed ${_phase} ${_command_name}" >&2

453
.specify/extensions/git/scripts/bash/create-new-feature.sh Executable file
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#!/usr/bin/env bash
# Git extension: create-new-feature.sh
# Adapted from core scripts/bash/create-new-feature.sh for extension layout.
# Sources common.sh from the project's installed scripts, falling back to
# git-common.sh for minimal git helpers.
set -e
JSON_MODE=false
DRY_RUN=false
ALLOW_EXISTING=false
SHORT_NAME=""
BRANCH_NUMBER=""
USE_TIMESTAMP=false
ARGS=()
i=1
while [ $i -le $# ]; do
arg="${!i}"
case "$arg" in
--json)
JSON_MODE=true
;;
--dry-run)
DRY_RUN=true
;;
--allow-existing-branch)
ALLOW_EXISTING=true
;;
--short-name)
if [ $((i + 1)) -gt $# ]; then
echo 'Error: --short-name requires a value' >&2
exit 1
fi
i=$((i + 1))
next_arg="${!i}"
if [[ "$next_arg" == --* ]]; then
echo 'Error: --short-name requires a value' >&2
exit 1
fi
SHORT_NAME="$next_arg"
;;
--number)
if [ $((i + 1)) -gt $# ]; then
echo 'Error: --number requires a value' >&2
exit 1
fi
i=$((i + 1))
next_arg="${!i}"
if [[ "$next_arg" == --* ]]; then
echo 'Error: --number requires a value' >&2
exit 1
fi
BRANCH_NUMBER="$next_arg"
if [[ ! "$BRANCH_NUMBER" =~ ^[0-9]+$ ]]; then
echo 'Error: --number must be a non-negative integer' >&2
exit 1
fi
;;
--timestamp)
USE_TIMESTAMP=true
;;
--help|-h)
echo "Usage: $0 [--json] [--dry-run] [--allow-existing-branch] [--short-name <name>] [--number N] [--timestamp] <feature_description>"
echo ""
echo "Options:"
echo " --json Output in JSON format"
echo " --dry-run Compute branch name without creating the branch"
echo " --allow-existing-branch Switch to branch if it already exists instead of failing"
echo " --short-name <name> Provide a custom short name (2-4 words) for the branch"
echo " --number N Specify branch number manually (overrides auto-detection)"
echo " --timestamp Use timestamp prefix (YYYYMMDD-HHMMSS) instead of sequential numbering"
echo " --help, -h Show this help message"
echo ""
echo "Environment variables:"
echo " GIT_BRANCH_NAME Use this exact branch name, bypassing all prefix/suffix generation"
echo ""
echo "Examples:"
echo " $0 'Add user authentication system' --short-name 'user-auth'"
echo " $0 'Implement OAuth2 integration for API' --number 5"
echo " $0 --timestamp --short-name 'user-auth' 'Add user authentication'"
echo " GIT_BRANCH_NAME=my-branch $0 'feature description'"
exit 0
;;
*)
ARGS+=("$arg")
;;
esac
i=$((i + 1))
done
FEATURE_DESCRIPTION="${ARGS[*]}"
if [ -z "$FEATURE_DESCRIPTION" ]; then
echo "Usage: $0 [--json] [--dry-run] [--allow-existing-branch] [--short-name <name>] [--number N] [--timestamp] <feature_description>" >&2
exit 1
fi
# Trim whitespace and validate description is not empty
FEATURE_DESCRIPTION=$(echo "$FEATURE_DESCRIPTION" | sed -E 's/^[[:space:]]+|[[:space:]]+$//g')
if [ -z "$FEATURE_DESCRIPTION" ]; then
echo "Error: Feature description cannot be empty or contain only whitespace" >&2
exit 1
fi
# Function to get highest number from specs directory
get_highest_from_specs() {
local specs_dir="$1"
local highest=0
if [ -d "$specs_dir" ]; then
for dir in "$specs_dir"/*; do
[ -d "$dir" ] || continue
dirname=$(basename "$dir")
# Match sequential prefixes (>=3 digits), but skip timestamp dirs.
if echo "$dirname" | grep -Eq '^[0-9]{3,}-' && ! echo "$dirname" | grep -Eq '^[0-9]{8}-[0-9]{6}-'; then
number=$(echo "$dirname" | grep -Eo '^[0-9]+')
number=$((10#$number))
if [ "$number" -gt "$highest" ]; then
highest=$number
fi
fi
done
fi
echo "$highest"
}
# Function to get highest number from git branches
get_highest_from_branches() {
git branch -a 2>/dev/null | sed 's/^[* ]*//; s|^remotes/[^/]*/||' | _extract_highest_number
}
# Extract the highest sequential feature number from a list of ref names (one per line).
_extract_highest_number() {
local highest=0
while IFS= read -r name; do
[ -z "$name" ] && continue
if echo "$name" | grep -Eq '^[0-9]{3,}-' && ! echo "$name" | grep -Eq '^[0-9]{8}-[0-9]{6}-'; then
number=$(echo "$name" | grep -Eo '^[0-9]+' || echo "0")
number=$((10#$number))
if [ "$number" -gt "$highest" ]; then
highest=$number
fi
fi
done
echo "$highest"
}
# Function to get highest number from remote branches without fetching (side-effect-free)
get_highest_from_remote_refs() {
local highest=0
for remote in $(git remote 2>/dev/null); do
local remote_highest
remote_highest=$(GIT_TERMINAL_PROMPT=0 git ls-remote --heads "$remote" 2>/dev/null | sed 's|.*refs/heads/||' | _extract_highest_number)
if [ "$remote_highest" -gt "$highest" ]; then
highest=$remote_highest
fi
done
echo "$highest"
}
# Function to check existing branches and return next available number.
check_existing_branches() {
local specs_dir="$1"
local skip_fetch="${2:-false}"
if [ "$skip_fetch" = true ]; then
local highest_remote=$(get_highest_from_remote_refs)
local highest_branch=$(get_highest_from_branches)
if [ "$highest_remote" -gt "$highest_branch" ]; then
highest_branch=$highest_remote
fi
else
git fetch --all --prune >/dev/null 2>&1 || true
local highest_branch=$(get_highest_from_branches)
fi
local highest_spec=$(get_highest_from_specs "$specs_dir")
local max_num=$highest_branch
if [ "$highest_spec" -gt "$max_num" ]; then
max_num=$highest_spec
fi
echo $((max_num + 1))
}
# Function to clean and format a branch name
clean_branch_name() {
local name="$1"
echo "$name" | tr '[:upper:]' '[:lower:]' | sed 's/[^a-z0-9]/-/g' | sed 's/-\+/-/g' | sed 's/^-//' | sed 's/-$//'
}
# ---------------------------------------------------------------------------
# Source common.sh for resolve_template, json_escape, get_repo_root, has_git.
#
# Search locations in priority order:
# 1. .specify/scripts/bash/common.sh under the project root (installed project)
# 2. scripts/bash/common.sh under the project root (source checkout fallback)
# 3. git-common.sh next to this script (minimal fallback — lacks resolve_template)
# ---------------------------------------------------------------------------
SCRIPT_DIR="$(CDPATH="" cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
# Find project root by walking up from the script location
_find_project_root() {
local dir="$1"
while [ "$dir" != "/" ]; do
if [ -d "$dir/.specify" ] || [ -d "$dir/.git" ]; then
echo "$dir"
return 0
fi
dir="$(dirname "$dir")"
done
return 1
}
_common_loaded=false
_PROJECT_ROOT=$(_find_project_root "$SCRIPT_DIR") || true
if [ -n "$_PROJECT_ROOT" ] && [ -f "$_PROJECT_ROOT/.specify/scripts/bash/common.sh" ]; then
source "$_PROJECT_ROOT/.specify/scripts/bash/common.sh"
_common_loaded=true
elif [ -n "$_PROJECT_ROOT" ] && [ -f "$_PROJECT_ROOT/scripts/bash/common.sh" ]; then
source "$_PROJECT_ROOT/scripts/bash/common.sh"
_common_loaded=true
elif [ -f "$SCRIPT_DIR/git-common.sh" ]; then
source "$SCRIPT_DIR/git-common.sh"
_common_loaded=true
fi
if [ "$_common_loaded" != "true" ]; then
echo "Error: Could not locate common.sh or git-common.sh. Please ensure the Specify core scripts are installed." >&2
exit 1
fi
# Resolve repository root
if type get_repo_root >/dev/null 2>&1; then
REPO_ROOT=$(get_repo_root)
elif git rev-parse --show-toplevel >/dev/null 2>&1; then
REPO_ROOT=$(git rev-parse --show-toplevel)
elif [ -n "$_PROJECT_ROOT" ]; then
REPO_ROOT="$_PROJECT_ROOT"
else
echo "Error: Could not determine repository root." >&2
exit 1
fi
# Check if git is available at this repo root
if type has_git >/dev/null 2>&1; then
if has_git "$REPO_ROOT"; then
HAS_GIT=true
else
HAS_GIT=false
fi
elif git -C "$REPO_ROOT" rev-parse --is-inside-work-tree >/dev/null 2>&1; then
HAS_GIT=true
else
HAS_GIT=false
fi
cd "$REPO_ROOT"
SPECS_DIR="$REPO_ROOT/specs"
# Function to generate branch name with stop word filtering
generate_branch_name() {
local description="$1"
local stop_words="^(i|a|an|the|to|for|of|in|on|at|by|with|from|is|are|was|were|be|been|being|have|has|had|do|does|did|will|would|should|could|can|may|might|must|shall|this|that|these|those|my|your|our|their|want|need|add|get|set)$"
local clean_name=$(echo "$description" | tr '[:upper:]' '[:lower:]' | sed 's/[^a-z0-9]/ /g')
local meaningful_words=()
for word in $clean_name; do
[ -z "$word" ] && continue
if ! echo "$word" | grep -qiE "$stop_words"; then
if [ ${#word} -ge 3 ]; then
meaningful_words+=("$word")
elif echo "$description" | grep -qw -- "${word^^}"; then
meaningful_words+=("$word")
fi
fi
done
if [ ${#meaningful_words[@]} -gt 0 ]; then
local max_words=3
if [ ${#meaningful_words[@]} -eq 4 ]; then max_words=4; fi
local result=""
local count=0
for word in "${meaningful_words[@]}"; do
if [ $count -ge $max_words ]; then break; fi
if [ -n "$result" ]; then result="$result-"; fi
result="$result$word"
count=$((count + 1))
done
echo "$result"
else
local cleaned=$(clean_branch_name "$description")
echo "$cleaned" | tr '-' '\n' | grep -v '^$' | head -3 | tr '\n' '-' | sed 's/-$//'
fi
}
# Check for GIT_BRANCH_NAME env var override (exact branch name, no prefix/suffix)
if [ -n "${GIT_BRANCH_NAME:-}" ]; then
BRANCH_NAME="$GIT_BRANCH_NAME"
# Extract FEATURE_NUM from the branch name if it starts with a numeric prefix
# Check timestamp pattern first (YYYYMMDD-HHMMSS-) since it also matches the simpler ^[0-9]+ pattern
if echo "$BRANCH_NAME" | grep -Eq '^[0-9]{8}-[0-9]{6}-'; then
FEATURE_NUM=$(echo "$BRANCH_NAME" | grep -Eo '^[0-9]{8}-[0-9]{6}')
BRANCH_SUFFIX="${BRANCH_NAME#${FEATURE_NUM}-}"
elif echo "$BRANCH_NAME" | grep -Eq '^[0-9]+-'; then
FEATURE_NUM=$(echo "$BRANCH_NAME" | grep -Eo '^[0-9]+')
BRANCH_SUFFIX="${BRANCH_NAME#${FEATURE_NUM}-}"
else
FEATURE_NUM="$BRANCH_NAME"
BRANCH_SUFFIX="$BRANCH_NAME"
fi
else
# Generate branch name
if [ -n "$SHORT_NAME" ]; then
BRANCH_SUFFIX=$(clean_branch_name "$SHORT_NAME")
else
BRANCH_SUFFIX=$(generate_branch_name "$FEATURE_DESCRIPTION")
fi
# Warn if --number and --timestamp are both specified
if [ "$USE_TIMESTAMP" = true ] && [ -n "$BRANCH_NUMBER" ]; then
>&2 echo "[specify] Warning: --number is ignored when --timestamp is used"
BRANCH_NUMBER=""
fi
# Determine branch prefix
if [ "$USE_TIMESTAMP" = true ]; then
FEATURE_NUM=$(date +%Y%m%d-%H%M%S)
BRANCH_NAME="${FEATURE_NUM}-${BRANCH_SUFFIX}"
else
if [ -z "$BRANCH_NUMBER" ]; then
if [ "$DRY_RUN" = true ] && [ "$HAS_GIT" = true ]; then
BRANCH_NUMBER=$(check_existing_branches "$SPECS_DIR" true)
elif [ "$DRY_RUN" = true ]; then
HIGHEST=$(get_highest_from_specs "$SPECS_DIR")
BRANCH_NUMBER=$((HIGHEST + 1))
elif [ "$HAS_GIT" = true ]; then
BRANCH_NUMBER=$(check_existing_branches "$SPECS_DIR")
else
HIGHEST=$(get_highest_from_specs "$SPECS_DIR")
BRANCH_NUMBER=$((HIGHEST + 1))
fi
fi
FEATURE_NUM=$(printf "%03d" "$((10#$BRANCH_NUMBER))")
BRANCH_NAME="${FEATURE_NUM}-${BRANCH_SUFFIX}"
fi
fi
# GitHub enforces a 244-byte limit on branch names
MAX_BRANCH_LENGTH=244
_byte_length() { printf '%s' "$1" | LC_ALL=C wc -c | tr -d ' '; }
BRANCH_BYTE_LEN=$(_byte_length "$BRANCH_NAME")
if [ -n "${GIT_BRANCH_NAME:-}" ] && [ "$BRANCH_BYTE_LEN" -gt $MAX_BRANCH_LENGTH ]; then
>&2 echo "Error: GIT_BRANCH_NAME must be 244 bytes or fewer in UTF-8. Provided value is ${BRANCH_BYTE_LEN} bytes."
exit 1
elif [ "$BRANCH_BYTE_LEN" -gt $MAX_BRANCH_LENGTH ]; then
PREFIX_LENGTH=$(( ${#FEATURE_NUM} + 1 ))
MAX_SUFFIX_LENGTH=$((MAX_BRANCH_LENGTH - PREFIX_LENGTH))
TRUNCATED_SUFFIX=$(echo "$BRANCH_SUFFIX" | cut -c1-$MAX_SUFFIX_LENGTH)
TRUNCATED_SUFFIX=$(echo "$TRUNCATED_SUFFIX" | sed 's/-$//')
ORIGINAL_BRANCH_NAME="$BRANCH_NAME"
BRANCH_NAME="${FEATURE_NUM}-${TRUNCATED_SUFFIX}"
>&2 echo "[specify] Warning: Branch name exceeded GitHub's 244-byte limit"
>&2 echo "[specify] Original: $ORIGINAL_BRANCH_NAME (${#ORIGINAL_BRANCH_NAME} bytes)"
>&2 echo "[specify] Truncated to: $BRANCH_NAME (${#BRANCH_NAME} bytes)"
fi
if [ "$DRY_RUN" != true ]; then
if [ "$HAS_GIT" = true ]; then
branch_create_error=""
if ! branch_create_error=$(git checkout -q -b "$BRANCH_NAME" 2>&1); then
current_branch="$(git rev-parse --abbrev-ref HEAD 2>/dev/null || true)"
if git branch --list "$BRANCH_NAME" | grep -q .; then
if [ "$ALLOW_EXISTING" = true ]; then
if [ "$current_branch" = "$BRANCH_NAME" ]; then
:
elif ! switch_branch_error=$(git checkout -q "$BRANCH_NAME" 2>&1); then
>&2 echo "Error: Failed to switch to existing branch '$BRANCH_NAME'. Please resolve any local changes or conflicts and try again."
if [ -n "$switch_branch_error" ]; then
>&2 printf '%s\n' "$switch_branch_error"
fi
exit 1
fi
elif [ "$USE_TIMESTAMP" = true ]; then
>&2 echo "Error: Branch '$BRANCH_NAME' already exists. Rerun to get a new timestamp or use a different --short-name."
exit 1
else
>&2 echo "Error: Branch '$BRANCH_NAME' already exists. Please use a different feature name or specify a different number with --number."
exit 1
fi
else
>&2 echo "Error: Failed to create git branch '$BRANCH_NAME'."
if [ -n "$branch_create_error" ]; then
>&2 printf '%s\n' "$branch_create_error"
else
>&2 echo "Please check your git configuration and try again."
fi
exit 1
fi
fi
else
>&2 echo "[specify] Warning: Git repository not detected; skipped branch creation for $BRANCH_NAME"
fi
printf '# To persist: export SPECIFY_FEATURE=%q\n' "$BRANCH_NAME" >&2
fi
if $JSON_MODE; then
if command -v jq >/dev/null 2>&1; then
if [ "$DRY_RUN" = true ]; then
jq -cn \
--arg branch_name "$BRANCH_NAME" \
--arg feature_num "$FEATURE_NUM" \
'{BRANCH_NAME:$branch_name,FEATURE_NUM:$feature_num,DRY_RUN:true}'
else
jq -cn \
--arg branch_name "$BRANCH_NAME" \
--arg feature_num "$FEATURE_NUM" \
'{BRANCH_NAME:$branch_name,FEATURE_NUM:$feature_num}'
fi
else
if type json_escape >/dev/null 2>&1; then
_je_branch=$(json_escape "$BRANCH_NAME")
_je_num=$(json_escape "$FEATURE_NUM")
else
_je_branch="$BRANCH_NAME"
_je_num="$FEATURE_NUM"
fi
if [ "$DRY_RUN" = true ]; then
printf '{"BRANCH_NAME":"%s","FEATURE_NUM":"%s","DRY_RUN":true}\n' "$_je_branch" "$_je_num"
else
printf '{"BRANCH_NAME":"%s","FEATURE_NUM":"%s"}\n' "$_je_branch" "$_je_num"
fi
fi
else
echo "BRANCH_NAME: $BRANCH_NAME"
echo "FEATURE_NUM: $FEATURE_NUM"
if [ "$DRY_RUN" != true ]; then
printf '# To persist in your shell: export SPECIFY_FEATURE=%q\n' "$BRANCH_NAME"
fi
fi

54
.specify/extensions/git/scripts/bash/git-common.sh Executable file
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#!/usr/bin/env bash
# Git-specific common functions for the git extension.
# Extracted from scripts/bash/common.sh — contains only git-specific
# branch validation and detection logic.
# Check if we have git available at the repo root
has_git() {
local repo_root="${1:-$(pwd)}"
{ [ -d "$repo_root/.git" ] || [ -f "$repo_root/.git" ]; } && \
command -v git >/dev/null 2>&1 && \
git -C "$repo_root" rev-parse --is-inside-work-tree >/dev/null 2>&1
}
# Strip a single optional path segment (e.g. gitflow "feat/004-name" -> "004-name").
# Only when the full name is exactly two slash-free segments; otherwise returns the raw name.
spec_kit_effective_branch_name() {
local raw="$1"
if [[ "$raw" =~ ^([^/]+)/([^/]+)$ ]]; then
printf '%s\n' "${BASH_REMATCH[2]}"
else
printf '%s\n' "$raw"
fi
}
# Validate that a branch name matches the expected feature branch pattern.
# Accepts sequential (###-* with >=3 digits) or timestamp (YYYYMMDD-HHMMSS-*) formats.
# Logic aligned with scripts/bash/common.sh check_feature_branch after effective-name normalization.
check_feature_branch() {
local raw="$1"
local has_git_repo="$2"
# For non-git repos, we can't enforce branch naming but still provide output
if [[ "$has_git_repo" != "true" ]]; then
echo "[specify] Warning: Git repository not detected; skipped branch validation" >&2
return 0
fi
local branch
branch=$(spec_kit_effective_branch_name "$raw")
# Accept sequential prefix (3+ digits) but exclude malformed timestamps
# Malformed: 7-or-8 digit date + 6-digit time with no trailing slug (e.g. "2026031-143022" or "20260319-143022")
local is_sequential=false
if [[ "$branch" =~ ^[0-9]{3,}- ]] && [[ ! "$branch" =~ ^[0-9]{7}-[0-9]{6}- ]] && [[ ! "$branch" =~ ^[0-9]{7,8}-[0-9]{6}$ ]]; then
is_sequential=true
fi
if [[ "$is_sequential" != "true" ]] && [[ ! "$branch" =~ ^[0-9]{8}-[0-9]{6}- ]]; then
echo "ERROR: Not on a feature branch. Current branch: $raw" >&2
echo "Feature branches should be named like: 001-feature-name, 1234-feature-name, or 20260319-143022-feature-name" >&2
return 1
fi
return 0
}

54
.specify/extensions/git/scripts/bash/initialize-repo.sh Executable file
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#!/usr/bin/env bash
# Git extension: initialize-repo.sh
# Initialize a Git repository with an initial commit.
# Customizable — replace this script to add .gitignore templates,
# default branch config, git-flow, LFS, signing, etc.
set -e
SCRIPT_DIR="$(CDPATH="" cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
# Find project root
_find_project_root() {
local dir="$1"
while [ "$dir" != "/" ]; do
if [ -d "$dir/.specify" ] || [ -d "$dir/.git" ]; then
echo "$dir"
return 0
fi
dir="$(dirname "$dir")"
done
return 1
}
REPO_ROOT=$(_find_project_root "$SCRIPT_DIR") || REPO_ROOT="$(pwd)"
cd "$REPO_ROOT"
# Read commit message from extension config, fall back to default
COMMIT_MSG="[Spec Kit] Initial commit"
_config_file="$REPO_ROOT/.specify/extensions/git/git-config.yml"
if [ -f "$_config_file" ]; then
_msg=$(grep '^init_commit_message:' "$_config_file" 2>/dev/null | sed 's/^init_commit_message:[[:space:]]*//' | sed 's/^["'\'']//' | sed 's/["'\'']*$//')
if [ -n "$_msg" ]; then
COMMIT_MSG="$_msg"
fi
fi
# Check if git is available
if ! command -v git >/dev/null 2>&1; then
echo "[specify] Warning: Git not found; skipped repository initialization" >&2
exit 0
fi
# Check if already a git repo
if git rev-parse --is-inside-work-tree >/dev/null 2>&1; then
echo "[specify] Git repository already initialized; skipping" >&2
exit 0
fi
# Initialize
_git_out=$(git init -q 2>&1) || { echo "[specify] Error: git init failed: $_git_out" >&2; exit 1; }
_git_out=$(git add . 2>&1) || { echo "[specify] Error: git add failed: $_git_out" >&2; exit 1; }
_git_out=$(git commit --allow-empty -q -m "$COMMIT_MSG" 2>&1) || { echo "[specify] Error: git commit failed: $_git_out" >&2; exit 1; }
echo "✓ Git repository initialized" >&2

169
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#!/usr/bin/env pwsh
# Git extension: auto-commit.ps1
# Automatically commit changes after a Spec Kit command completes.
# Checks per-command config keys in git-config.yml before committing.
#
# Usage: auto-commit.ps1 <event_name>
# e.g.: auto-commit.ps1 after_specify
param(
[Parameter(Position = 0, Mandatory = $true)]
[string]$EventName
)
$ErrorActionPreference = 'Stop'
function Find-ProjectRoot {
param([string]$StartDir)
$current = Resolve-Path $StartDir
while ($true) {
foreach ($marker in @('.specify', '.git')) {
if (Test-Path (Join-Path $current $marker)) {
return $current
}
}
$parent = Split-Path $current -Parent
if ($parent -eq $current) { return $null }
$current = $parent
}
}
$repoRoot = Find-ProjectRoot -StartDir $PSScriptRoot
if (-not $repoRoot) { $repoRoot = Get-Location }
Set-Location $repoRoot
# Check if git is available
if (-not (Get-Command git -ErrorAction SilentlyContinue)) {
Write-Warning "[specify] Warning: Git not found; skipped auto-commit"
exit 0
}
# Temporarily relax ErrorActionPreference so git stderr warnings
# (e.g. CRLF notices on Windows) do not become terminating errors.
$savedEAP = $ErrorActionPreference
$ErrorActionPreference = 'Continue'
try {
git rev-parse --is-inside-work-tree 2>$null | Out-Null
$isRepo = $LASTEXITCODE -eq 0
} finally {
$ErrorActionPreference = $savedEAP
}
if (-not $isRepo) {
Write-Warning "[specify] Warning: Not a Git repository; skipped auto-commit"
exit 0
}
# Read per-command config from git-config.yml
$configFile = Join-Path $repoRoot ".specify/extensions/git/git-config.yml"
$enabled = $false
$commitMsg = ""
if (Test-Path $configFile) {
# Parse YAML to find auto_commit section
$inAutoCommit = $false
$inEvent = $false
$defaultEnabled = $false
foreach ($line in Get-Content $configFile) {
# Detect auto_commit: section
if ($line -match '^auto_commit:') {
$inAutoCommit = $true
$inEvent = $false
continue
}
# Exit auto_commit section on next top-level key
if ($inAutoCommit -and $line -match '^[a-z]') {
break
}
if ($inAutoCommit) {
# Check default key
if ($line -match '^\s+default:\s*(.+)$') {
$val = $matches[1].Trim().ToLower()
if ($val -eq 'true') { $defaultEnabled = $true }
}
# Detect our event subsection
if ($line -match "^\s+${EventName}:") {
$inEvent = $true
continue
}
# Inside our event subsection
if ($inEvent) {
# Exit on next sibling key (2-space indent, not 4+)
if ($line -match '^\s{2}[a-z]' -and $line -notmatch '^\s{4}') {
$inEvent = $false
continue
}
if ($line -match '\s+enabled:\s*(.+)$') {
$val = $matches[1].Trim().ToLower()
if ($val -eq 'true') { $enabled = $true }
if ($val -eq 'false') { $enabled = $false }
}
if ($line -match '\s+message:\s*(.+)$') {
$commitMsg = $matches[1].Trim() -replace '^["'']' -replace '["'']$'
}
}
}
}
# If event-specific key not found, use default
if (-not $enabled -and $defaultEnabled) {
$hasEventKey = Select-String -Path $configFile -Pattern "^\s*${EventName}:" -Quiet
if (-not $hasEventKey) {
$enabled = $true
}
}
} else {
# No config file -- auto-commit disabled by default
exit 0
}
if (-not $enabled) {
exit 0
}
# Check if there are changes to commit
# Relax ErrorActionPreference so CRLF warnings on stderr do not terminate.
$savedEAP = $ErrorActionPreference
$ErrorActionPreference = 'Continue'
try {
git diff --quiet HEAD 2>$null; $d1 = $LASTEXITCODE
git diff --cached --quiet 2>$null; $d2 = $LASTEXITCODE
$untracked = git ls-files --others --exclude-standard 2>$null
} finally {
$ErrorActionPreference = $savedEAP
}
if ($d1 -eq 0 -and $d2 -eq 0 -and -not $untracked) {
Write-Host "[specify] No changes to commit after $EventName" -ForegroundColor DarkGray
exit 0
}
# Derive a human-readable command name from the event
$commandName = $EventName -replace '^after_', '' -replace '^before_', ''
$phase = if ($EventName -match '^before_') { 'before' } else { 'after' }
# Use custom message if configured, otherwise default
if (-not $commitMsg) {
$commitMsg = "[Spec Kit] Auto-commit $phase $commandName"
}
# Stage and commit
# Relax ErrorActionPreference so CRLF warnings on stderr do not terminate,
# while still allowing redirected error output to be captured for diagnostics.
$savedEAP = $ErrorActionPreference
$ErrorActionPreference = 'Continue'
try {
$out = git add . 2>&1 | Out-String
if ($LASTEXITCODE -ne 0) { throw "git add failed: $out" }
$out = git commit -q -m $commitMsg 2>&1 | Out-String
if ($LASTEXITCODE -ne 0) { throw "git commit failed: $out" }
} catch {
Write-Warning "[specify] Error: $_"
exit 1
} finally {
$ErrorActionPreference = $savedEAP
}
Write-Host "[OK] Changes committed $phase $commandName"

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#!/usr/bin/env pwsh
# Git extension: create-new-feature.ps1
# Adapted from core scripts/powershell/create-new-feature.ps1 for extension layout.
# Sources common.ps1 from the project's installed scripts, falling back to
# git-common.ps1 for minimal git helpers.
[CmdletBinding()]
param(
[switch]$Json,
[switch]$AllowExistingBranch,
[switch]$DryRun,
[string]$ShortName,
[Parameter()]
[long]$Number = 0,
[switch]$Timestamp,
[switch]$Help,
[Parameter(Position = 0, ValueFromRemainingArguments = $true)]
[string[]]$FeatureDescription
)
$ErrorActionPreference = 'Stop'
if ($Help) {
Write-Host "Usage: ./create-new-feature.ps1 [-Json] [-DryRun] [-AllowExistingBranch] [-ShortName <name>] [-Number N] [-Timestamp] <feature description>"
Write-Host ""
Write-Host "Options:"
Write-Host " -Json Output in JSON format"
Write-Host " -DryRun Compute branch name without creating the branch"
Write-Host " -AllowExistingBranch Switch to branch if it already exists instead of failing"
Write-Host " -ShortName <name> Provide a custom short name (2-4 words) for the branch"
Write-Host " -Number N Specify branch number manually (overrides auto-detection)"
Write-Host " -Timestamp Use timestamp prefix (YYYYMMDD-HHMMSS) instead of sequential numbering"
Write-Host " -Help Show this help message"
Write-Host ""
Write-Host "Environment variables:"
Write-Host " GIT_BRANCH_NAME Use this exact branch name, bypassing all prefix/suffix generation"
Write-Host ""
exit 0
}
if (-not $FeatureDescription -or $FeatureDescription.Count -eq 0) {
Write-Error "Usage: ./create-new-feature.ps1 [-Json] [-DryRun] [-AllowExistingBranch] [-ShortName <name>] [-Number N] [-Timestamp] <feature description>"
exit 1
}
$featureDesc = ($FeatureDescription -join ' ').Trim()
if ([string]::IsNullOrWhiteSpace($featureDesc)) {
Write-Error "Error: Feature description cannot be empty or contain only whitespace"
exit 1
}
function Get-HighestNumberFromSpecs {
param([string]$SpecsDir)
[long]$highest = 0
if (Test-Path $SpecsDir) {
Get-ChildItem -Path $SpecsDir -Directory | ForEach-Object {
if ($_.Name -match '^(\d{3,})-' -and $_.Name -notmatch '^\d{8}-\d{6}-') {
[long]$num = 0
if ([long]::TryParse($matches[1], [ref]$num) -and $num -gt $highest) {
$highest = $num
}
}
}
}
return $highest
}
function Get-HighestNumberFromNames {
param([string[]]$Names)
[long]$highest = 0
foreach ($name in $Names) {
if ($name -match '^(\d{3,})-' -and $name -notmatch '^\d{8}-\d{6}-') {
[long]$num = 0
if ([long]::TryParse($matches[1], [ref]$num) -and $num -gt $highest) {
$highest = $num
}
}
}
return $highest
}
function Get-HighestNumberFromBranches {
param()
try {
$branches = git branch -a 2>$null
if ($LASTEXITCODE -eq 0 -and $branches) {
$cleanNames = $branches | ForEach-Object {
$_.Trim() -replace '^\*?\s+', '' -replace '^remotes/[^/]+/', ''
}
return Get-HighestNumberFromNames -Names $cleanNames
}
} catch {
Write-Verbose "Could not check Git branches: $_"
}
return 0
}
function Get-HighestNumberFromRemoteRefs {
[long]$highest = 0
try {
$remotes = git remote 2>$null
if ($remotes) {
foreach ($remote in $remotes) {
$env:GIT_TERMINAL_PROMPT = '0'
$refs = git ls-remote --heads $remote 2>$null
$env:GIT_TERMINAL_PROMPT = $null
if ($LASTEXITCODE -eq 0 -and $refs) {
$refNames = $refs | ForEach-Object {
if ($_ -match 'refs/heads/(.+)$') { $matches[1] }
} | Where-Object { $_ }
$remoteHighest = Get-HighestNumberFromNames -Names $refNames
if ($remoteHighest -gt $highest) { $highest = $remoteHighest }
}
}
}
} catch {
Write-Verbose "Could not query remote refs: $_"
}
return $highest
}
function Get-NextBranchNumber {
param(
[string]$SpecsDir,
[switch]$SkipFetch
)
if ($SkipFetch) {
$highestBranch = Get-HighestNumberFromBranches
$highestRemote = Get-HighestNumberFromRemoteRefs
$highestBranch = [Math]::Max($highestBranch, $highestRemote)
} else {
try {
git fetch --all --prune 2>$null | Out-Null
} catch { }
$highestBranch = Get-HighestNumberFromBranches
}
$highestSpec = Get-HighestNumberFromSpecs -SpecsDir $SpecsDir
$maxNum = [Math]::Max($highestBranch, $highestSpec)
return $maxNum + 1
}
function ConvertTo-CleanBranchName {
param([string]$Name)
return $Name.ToLower() -replace '[^a-z0-9]', '-' -replace '-{2,}', '-' -replace '^-', '' -replace '-$', ''
}
# ---------------------------------------------------------------------------
# Source common.ps1 from the project's installed scripts.
# Search locations in priority order:
# 1. .specify/scripts/powershell/common.ps1 under the project root
# 2. scripts/powershell/common.ps1 under the project root (source checkout)
# 3. git-common.ps1 next to this script (minimal fallback)
# ---------------------------------------------------------------------------
function Find-ProjectRoot {
param([string]$StartDir)
$current = Resolve-Path $StartDir
while ($true) {
foreach ($marker in @('.specify', '.git')) {
if (Test-Path (Join-Path $current $marker)) {
return $current
}
}
$parent = Split-Path $current -Parent
if ($parent -eq $current) { return $null }
$current = $parent
}
}
$projectRoot = Find-ProjectRoot -StartDir $PSScriptRoot
$commonLoaded = $false
if ($projectRoot) {
$candidates = @(
(Join-Path $projectRoot ".specify/scripts/powershell/common.ps1"),
(Join-Path $projectRoot "scripts/powershell/common.ps1")
)
foreach ($candidate in $candidates) {
if (Test-Path $candidate) {
. $candidate
$commonLoaded = $true
break
}
}
}
if (-not $commonLoaded -and (Test-Path "$PSScriptRoot/git-common.ps1")) {
. "$PSScriptRoot/git-common.ps1"
$commonLoaded = $true
}
if (-not $commonLoaded) {
throw "Unable to locate common script file. Please ensure the Specify core scripts are installed."
}
# Resolve repository root
if (Get-Command Get-RepoRoot -ErrorAction SilentlyContinue) {
$repoRoot = Get-RepoRoot
} elseif ($projectRoot) {
$repoRoot = $projectRoot
} else {
throw "Could not determine repository root."
}
# Check if git is available
if (Get-Command Test-HasGit -ErrorAction SilentlyContinue) {
# Call without parameters for compatibility with core common.ps1 (no -RepoRoot param)
# and git-common.ps1 (has -RepoRoot param with default).
$hasGit = Test-HasGit
} else {
try {
git -C $repoRoot rev-parse --is-inside-work-tree 2>$null | Out-Null
$hasGit = ($LASTEXITCODE -eq 0)
} catch {
$hasGit = $false
}
}
Set-Location $repoRoot
$specsDir = Join-Path $repoRoot 'specs'
function Get-BranchName {
param([string]$Description)
$stopWords = @(
'i', 'a', 'an', 'the', 'to', 'for', 'of', 'in', 'on', 'at', 'by', 'with', 'from',
'is', 'are', 'was', 'were', 'be', 'been', 'being', 'have', 'has', 'had',
'do', 'does', 'did', 'will', 'would', 'should', 'could', 'can', 'may', 'might', 'must', 'shall',
'this', 'that', 'these', 'those', 'my', 'your', 'our', 'their',
'want', 'need', 'add', 'get', 'set'
)
$cleanName = $Description.ToLower() -replace '[^a-z0-9\s]', ' '
$words = $cleanName -split '\s+' | Where-Object { $_ }
$meaningfulWords = @()
foreach ($word in $words) {
if ($stopWords -contains $word) { continue }
if ($word.Length -ge 3) {
$meaningfulWords += $word
} elseif ($Description -match "\b$($word.ToUpper())\b") {
$meaningfulWords += $word
}
}
if ($meaningfulWords.Count -gt 0) {
$maxWords = if ($meaningfulWords.Count -eq 4) { 4 } else { 3 }
$result = ($meaningfulWords | Select-Object -First $maxWords) -join '-'
return $result
} else {
$result = ConvertTo-CleanBranchName -Name $Description
$fallbackWords = ($result -split '-') | Where-Object { $_ } | Select-Object -First 3
return [string]::Join('-', $fallbackWords)
}
}
# Check for GIT_BRANCH_NAME env var override (exact branch name, no prefix/suffix)
if ($env:GIT_BRANCH_NAME) {
$branchName = $env:GIT_BRANCH_NAME
# Check 244-byte limit (UTF-8) for override names
$branchNameUtf8ByteCount = [System.Text.Encoding]::UTF8.GetByteCount($branchName)
if ($branchNameUtf8ByteCount -gt 244) {
throw "GIT_BRANCH_NAME must be 244 bytes or fewer in UTF-8. Provided value is $branchNameUtf8ByteCount bytes; please supply a shorter override branch name."
}
# Extract FEATURE_NUM from the branch name if it starts with a numeric prefix
# Check timestamp pattern first (YYYYMMDD-HHMMSS-) since it also matches the simpler ^\d+ pattern
if ($branchName -match '^(\d{8}-\d{6})-') {
$featureNum = $matches[1]
} elseif ($branchName -match '^(\d+)-') {
$featureNum = $matches[1]
} else {
$featureNum = $branchName
}
} else {
if ($ShortName) {
$branchSuffix = ConvertTo-CleanBranchName -Name $ShortName
} else {
$branchSuffix = Get-BranchName -Description $featureDesc
}
if ($Timestamp -and $Number -ne 0) {
Write-Warning "[specify] Warning: -Number is ignored when -Timestamp is used"
$Number = 0
}
if ($Timestamp) {
$featureNum = Get-Date -Format 'yyyyMMdd-HHmmss'
$branchName = "$featureNum-$branchSuffix"
} else {
if ($Number -eq 0) {
if ($DryRun -and $hasGit) {
$Number = Get-NextBranchNumber -SpecsDir $specsDir -SkipFetch
} elseif ($DryRun) {
$Number = (Get-HighestNumberFromSpecs -SpecsDir $specsDir) + 1
} elseif ($hasGit) {
$Number = Get-NextBranchNumber -SpecsDir $specsDir
} else {
$Number = (Get-HighestNumberFromSpecs -SpecsDir $specsDir) + 1
}
}
$featureNum = ('{0:000}' -f $Number)
$branchName = "$featureNum-$branchSuffix"
}
}
$maxBranchLength = 244
if ($branchName.Length -gt $maxBranchLength) {
$prefixLength = $featureNum.Length + 1
$maxSuffixLength = $maxBranchLength - $prefixLength
$truncatedSuffix = $branchSuffix.Substring(0, [Math]::Min($branchSuffix.Length, $maxSuffixLength))
$truncatedSuffix = $truncatedSuffix -replace '-$', ''
$originalBranchName = $branchName
$branchName = "$featureNum-$truncatedSuffix"
Write-Warning "[specify] Branch name exceeded GitHub's 244-byte limit"
Write-Warning "[specify] Original: $originalBranchName ($($originalBranchName.Length) bytes)"
Write-Warning "[specify] Truncated to: $branchName ($($branchName.Length) bytes)"
}
if (-not $DryRun) {
if ($hasGit) {
$branchCreated = $false
$branchCreateError = ''
try {
$branchCreateError = git checkout -q -b $branchName 2>&1 | Out-String
if ($LASTEXITCODE -eq 0) {
$branchCreated = $true
}
} catch {
$branchCreateError = $_.Exception.Message
}
if (-not $branchCreated) {
$currentBranch = ''
try { $currentBranch = (git rev-parse --abbrev-ref HEAD 2>$null).Trim() } catch {}
$existingBranch = git branch --list $branchName 2>$null
if ($existingBranch) {
if ($AllowExistingBranch) {
if ($currentBranch -eq $branchName) {
# Already on the target branch
} else {
$switchBranchError = git checkout -q $branchName 2>&1 | Out-String
if ($LASTEXITCODE -ne 0) {
if ($switchBranchError) {
Write-Error "Error: Branch '$branchName' exists but could not be checked out.`n$($switchBranchError.Trim())"
} else {
Write-Error "Error: Branch '$branchName' exists but could not be checked out. Resolve any uncommitted changes or conflicts and try again."
}
exit 1
}
}
} elseif ($Timestamp) {
Write-Error "Error: Branch '$branchName' already exists. Rerun to get a new timestamp or use a different -ShortName."
exit 1
} else {
Write-Error "Error: Branch '$branchName' already exists. Please use a different feature name or specify a different number with -Number."
exit 1
}
} else {
if ($branchCreateError) {
Write-Error "Error: Failed to create git branch '$branchName'.`n$($branchCreateError.Trim())"
} else {
Write-Error "Error: Failed to create git branch '$branchName'. Please check your git configuration and try again."
}
exit 1
}
}
} else {
if ($Json) {
[Console]::Error.WriteLine("[specify] Warning: Git repository not detected; skipped branch creation for $branchName")
} else {
Write-Warning "[specify] Warning: Git repository not detected; skipped branch creation for $branchName"
}
}
$env:SPECIFY_FEATURE = $branchName
}
if ($Json) {
$obj = [PSCustomObject]@{
BRANCH_NAME = $branchName
FEATURE_NUM = $featureNum
HAS_GIT = $hasGit
}
if ($DryRun) {
$obj | Add-Member -NotePropertyName 'DRY_RUN' -NotePropertyValue $true
}
$obj | ConvertTo-Json -Compress
} else {
Write-Output "BRANCH_NAME: $branchName"
Write-Output "FEATURE_NUM: $featureNum"
Write-Output "HAS_GIT: $hasGit"
if (-not $DryRun) {
Write-Output "SPECIFY_FEATURE environment variable set to: $branchName"
}
}

51
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#!/usr/bin/env pwsh
# Git-specific common functions for the git extension.
# Extracted from scripts/powershell/common.ps1 -- contains only git-specific
# branch validation and detection logic.
function Test-HasGit {
param([string]$RepoRoot = (Get-Location))
try {
if (-not (Test-Path (Join-Path $RepoRoot '.git'))) { return $false }
if (-not (Get-Command git -ErrorAction SilentlyContinue)) { return $false }
git -C $RepoRoot rev-parse --is-inside-work-tree 2>$null | Out-Null
return ($LASTEXITCODE -eq 0)
} catch {
return $false
}
}
function Get-SpecKitEffectiveBranchName {
param([string]$Branch)
if ($Branch -match '^([^/]+)/([^/]+)$') {
return $Matches[2]
}
return $Branch
}
function Test-FeatureBranch {
param(
[string]$Branch,
[bool]$HasGit = $true
)
# For non-git repos, we can't enforce branch naming but still provide output
if (-not $HasGit) {
Write-Warning "[specify] Warning: Git repository not detected; skipped branch validation"
return $true
}
$raw = $Branch
$Branch = Get-SpecKitEffectiveBranchName $raw
# Accept sequential prefix (3+ digits) but exclude malformed timestamps
# Malformed: 7-or-8 digit date + 6-digit time with no trailing slug (e.g. "2026031-143022" or "20260319-143022")
$hasMalformedTimestamp = ($Branch -match '^[0-9]{7}-[0-9]{6}-') -or ($Branch -match '^(?:\d{7}|\d{8})-\d{6}$')
$isSequential = ($Branch -match '^[0-9]{3,}-') -and (-not $hasMalformedTimestamp)
if (-not $isSequential -and $Branch -notmatch '^\d{8}-\d{6}-') {
[Console]::Error.WriteLine("ERROR: Not on a feature branch. Current branch: $raw")
[Console]::Error.WriteLine("Feature branches should be named like: 001-feature-name, 1234-feature-name, or 20260319-143022-feature-name")
return $false
}
return $true
}

69
.specify/extensions/git/scripts/powershell/initialize-repo.ps1 Normal file
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#!/usr/bin/env pwsh
# Git extension: initialize-repo.ps1
# Initialize a Git repository with an initial commit.
# Customizable -- replace this script to add .gitignore templates,
# default branch config, git-flow, LFS, signing, etc.
$ErrorActionPreference = 'Stop'
# Find project root
function Find-ProjectRoot {
param([string]$StartDir)
$current = Resolve-Path $StartDir
while ($true) {
foreach ($marker in @('.specify', '.git')) {
if (Test-Path (Join-Path $current $marker)) {
return $current
}
}
$parent = Split-Path $current -Parent
if ($parent -eq $current) { return $null }
$current = $parent
}
}
$repoRoot = Find-ProjectRoot -StartDir $PSScriptRoot
if (-not $repoRoot) { $repoRoot = Get-Location }
Set-Location $repoRoot
# Read commit message from extension config, fall back to default
$commitMsg = "[Spec Kit] Initial commit"
$configFile = Join-Path $repoRoot ".specify/extensions/git/git-config.yml"
if (Test-Path $configFile) {
foreach ($line in Get-Content $configFile) {
if ($line -match '^init_commit_message:\s*(.+)$') {
$val = $matches[1].Trim() -replace '^["'']' -replace '["'']$'
if ($val) { $commitMsg = $val }
break
}
}
}
# Check if git is available
if (-not (Get-Command git -ErrorAction SilentlyContinue)) {
Write-Warning "[specify] Warning: Git not found; skipped repository initialization"
exit 0
}
# Check if already a git repo
try {
git rev-parse --is-inside-work-tree 2>$null | Out-Null
if ($LASTEXITCODE -eq 0) {
Write-Warning "[specify] Git repository already initialized; skipping"
exit 0
}
} catch { }
# Initialize
try {
$out = git init -q 2>&1 | Out-String
if ($LASTEXITCODE -ne 0) { throw "git init failed: $out" }
$out = git add . 2>&1 | Out-String
if ($LASTEXITCODE -ne 0) { throw "git add failed: $out" }
$out = git commit --allow-empty -q -m $commitMsg 2>&1 | Out-String
if ($LASTEXITCODE -ne 0) { throw "git commit failed: $out" }
} catch {
Write-Warning "[specify] Error: $_"
exit 1
}
Write-Host "[OK] Git repository initialized"

9
.specify/init-options.json Normal file
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{
"ai": "codex",
"ai_skills": true,
"branch_numbering": "sequential",
"here": true,
"integration": "codex",
"script": "sh",
"speckit_version": "0.9.5"
}

19
.specify/integration.json Normal file
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{
"version": "0.9.5",
"integration_state_schema": 1,
"installed_integrations": [
"codex"
],
"integration_settings": {
"codex": {
"script": "sh",
"raw_options": "--skills",
"parsed_options": {
"skills": true
},
"invoke_separator": "-"
}
},
"integration": "codex",
"default_integration": "codex"
}

16
.specify/integrations/codex.manifest.json Normal file
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{
"integration": "codex",
"version": "0.9.5",
"installed_at": "2026-06-08T01:33:59.539838+00:00",
"files": {
".agents/skills/speckit-analyze/SKILL.md": "753f1d49d830abc130132ad2864c780ea61fd57bbc71aa9888be24fdf0774800",
".agents/skills/speckit-clarify/SKILL.md": "08e643cb56c88adf1f4b28821d490360186f6bc0dfb1f21a059e16e4b8e89b91",
".agents/skills/speckit-constitution/SKILL.md": "e2cbe859958c5a05be52a44d63821e6a84d39f3d37acc05b550cc7ad85da0dab",
".agents/skills/speckit-implement/SKILL.md": "796ab9a7f04281fee7d390087e89438f4215cbe2396a8a0118dafd12c0268894",
".agents/skills/speckit-plan/SKILL.md": "67bfc751600f8ba46c8cf6fd32e609e1b5a468ab7eb62e26aaae70009ecb89f0",
".agents/skills/speckit-checklist/SKILL.md": "734393e5698b390283db49135e1140d6ad529b65eae439bb0a53bc5acab2b529",
".agents/skills/speckit-specify/SKILL.md": "e74c7b705bebbdf457d0b01e928a4d4f25bd3f77b8c650a2ef3c463e706550ec",
".agents/skills/speckit-tasks/SKILL.md": "bb461317a2b17eda72250202197a8307e519a24cd22758d3091389c70d869af1",
".agents/skills/speckit-taskstoissues/SKILL.md": "a3efcf92cf532420c10abf7b9253204ade34b7329888c28e271fa3da7750c584"
}
}

17
.specify/integrations/speckit.manifest.json Normal file
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{
"integration": "speckit",
"version": "0.9.5",
"installed_at": "2026-06-08T01:33:59.545362+00:00",
"files": {
".specify/scripts/bash/check-prerequisites.sh": "f4541a00257f035aa55a9fede6d964e51e6851c3dc2f81d0a6f367db18944765",
".specify/scripts/bash/setup-tasks.sh": "7aeee15192a5ab3ba9ff3c3ae450d9994043bf0493c1eabc840da72a9742fc87",
".specify/scripts/bash/setup-plan.sh": "b23cca3d769a217ab812a6059adb549622471f6893af234cf98ca2019ac4e1a1",
".specify/scripts/bash/create-new-feature.sh": "bcf4964ca0c6c78717bb42d9e66b8c7e5ee82779cd96afc5aa7b08b75abe5790",
".specify/scripts/bash/common.sh": "1b52fdc114424b83784d59477256e1854c23ee3135273625904eb0231cc0c37e",
".specify/templates/plan-template.md": "cc7f7979cf8d8836ec26492785affd80791d3422a2b745062ec695be8c985ef7",
".specify/templates/constitution-template.md": "ce7549540fa45543cca797a150201d868e64495fdff39dc38246fb17bd4024b3",
".specify/templates/checklist-template.md": "c37695297e5d3153d64f82c21223509940b13932046c7961c42d1d669516130c",
".specify/templates/spec-template.md": "3945437fc35cd30a5b2bf7beea680337c3516826d3efa5a6b92c4a7eca1ba28e",
".specify/templates/tasks-template.md": "fc29a233f6f5a27ca31f1aa46b596af6500c627441c6e62b2bc4a1d721525842"
}
}

50
.specify/memory/constitution.md Normal file
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# [PROJECT_NAME] Constitution
<!-- Example: Spec Constitution, TaskFlow Constitution, etc. -->
## Core Principles
### [PRINCIPLE_1_NAME]
<!-- Example: I. Library-First -->
[PRINCIPLE_1_DESCRIPTION]
<!-- Example: Every feature starts as a standalone library; Libraries must be self-contained, independently testable, documented; Clear purpose required - no organizational-only libraries -->
### [PRINCIPLE_2_NAME]
<!-- Example: II. CLI Interface -->
[PRINCIPLE_2_DESCRIPTION]
<!-- Example: Every library exposes functionality via CLI; Text in/out protocol: stdin/args → stdout, errors → stderr; Support JSON + human-readable formats -->
### [PRINCIPLE_3_NAME]
<!-- Example: III. Test-First (NON-NEGOTIABLE) -->
[PRINCIPLE_3_DESCRIPTION]
<!-- Example: TDD mandatory: Tests written → User approved → Tests fail → Then implement; Red-Green-Refactor cycle strictly enforced -->
### [PRINCIPLE_4_NAME]
<!-- Example: IV. Integration Testing -->
[PRINCIPLE_4_DESCRIPTION]
<!-- Example: Focus areas requiring integration tests: New library contract tests, Contract changes, Inter-service communication, Shared schemas -->
### [PRINCIPLE_5_NAME]
<!-- Example: V. Observability, VI. Versioning & Breaking Changes, VII. Simplicity -->
[PRINCIPLE_5_DESCRIPTION]
<!-- Example: Text I/O ensures debuggability; Structured logging required; Or: MAJOR.MINOR.BUILD format; Or: Start simple, YAGNI principles -->
## [SECTION_2_NAME]
<!-- Example: Additional Constraints, Security Requirements, Performance Standards, etc. -->
[SECTION_2_CONTENT]
<!-- Example: Technology stack requirements, compliance standards, deployment policies, etc. -->
## [SECTION_3_NAME]
<!-- Example: Development Workflow, Review Process, Quality Gates, etc. -->
[SECTION_3_CONTENT]
<!-- Example: Code review requirements, testing gates, deployment approval process, etc. -->
## Governance
<!-- Example: Constitution supersedes all other practices; Amendments require documentation, approval, migration plan -->
[GOVERNANCE_RULES]
<!-- Example: All PRs/reviews must verify compliance; Complexity must be justified; Use [GUIDANCE_FILE] for runtime development guidance -->
**Version**: [CONSTITUTION_VERSION] | **Ratified**: [RATIFICATION_DATE] | **Last Amended**: [LAST_AMENDED_DATE]
<!-- Example: Version: 2.1.1 | Ratified: 2025-06-13 | Last Amended: 2025-07-16 -->

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#!/usr/bin/env bash
# Consolidated prerequisite checking script
#
# This script provides unified prerequisite checking for Spec-Driven Development workflow.
# It replaces the functionality previously spread across multiple scripts.
#
# Usage: ./check-prerequisites.sh [OPTIONS]
#
# OPTIONS:
# --json Output in JSON format
# --require-tasks Require tasks.md to exist (for implementation phase)
# --include-tasks Include tasks.md in AVAILABLE_DOCS list
# --paths-only Only output path variables (no validation)
# --help, -h Show help message
#
# OUTPUTS:
# JSON mode: {"FEATURE_DIR":"...", "AVAILABLE_DOCS":["..."]}
# Text mode: FEATURE_DIR:... \n AVAILABLE_DOCS: \n ✓/✗ file.md
# Paths only: REPO_ROOT: ... \n BRANCH: ... \n FEATURE_DIR: ... etc.
set -e
# Parse command line arguments
JSON_MODE=false
REQUIRE_TASKS=false
INCLUDE_TASKS=false
PATHS_ONLY=false
for arg in "$@"; do
case "$arg" in
--json)
JSON_MODE=true
;;
--require-tasks)
REQUIRE_TASKS=true
;;
--include-tasks)
INCLUDE_TASKS=true
;;
--paths-only)
PATHS_ONLY=true
;;
--help|-h)
cat << 'EOF'
Usage: check-prerequisites.sh [OPTIONS]
Consolidated prerequisite checking for Spec-Driven Development workflow.
OPTIONS:
--json Output in JSON format
--require-tasks Require tasks.md to exist (for implementation phase)
--include-tasks Include tasks.md in AVAILABLE_DOCS list
--paths-only Only output path variables (no prerequisite validation)
--help, -h Show this help message
EXAMPLES:
# Check task prerequisites (plan.md required)
./check-prerequisites.sh --json
# Check implementation prerequisites (plan.md + tasks.md required)
./check-prerequisites.sh --json --require-tasks --include-tasks
# Get feature paths only (no validation)
./check-prerequisites.sh --paths-only
EOF
exit 0
;;
*)
echo "ERROR: Unknown option '$arg'. Use --help for usage information." >&2
exit 1
;;
esac
done
# Source common functions
SCRIPT_DIR="$(CDPATH="" cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
source "$SCRIPT_DIR/common.sh"
# Get feature paths
_paths_output=$(get_feature_paths) || { echo "ERROR: Failed to resolve feature paths" >&2; exit 1; }
eval "$_paths_output"
unset _paths_output
# If paths-only mode, output paths and exit (no validation)
if $PATHS_ONLY; then
if $JSON_MODE; then
# Minimal JSON paths payload (no validation performed)
if has_jq; then
jq -cn \
--arg repo_root "$REPO_ROOT" \
--arg branch "$CURRENT_BRANCH" \
--arg feature_dir "$FEATURE_DIR" \
--arg feature_spec "$FEATURE_SPEC" \
--arg impl_plan "$IMPL_PLAN" \
--arg tasks "$TASKS" \
'{REPO_ROOT:$repo_root,BRANCH:$branch,FEATURE_DIR:$feature_dir,FEATURE_SPEC:$feature_spec,IMPL_PLAN:$impl_plan,TASKS:$tasks}'
else
printf '{"REPO_ROOT":"%s","BRANCH":"%s","FEATURE_DIR":"%s","FEATURE_SPEC":"%s","IMPL_PLAN":"%s","TASKS":"%s"}\n' \
"$(json_escape "$REPO_ROOT")" "$(json_escape "$CURRENT_BRANCH")" "$(json_escape "$FEATURE_DIR")" "$(json_escape "$FEATURE_SPEC")" "$(json_escape "$IMPL_PLAN")" "$(json_escape "$TASKS")"
fi
else
echo "REPO_ROOT: $REPO_ROOT"
echo "BRANCH: $CURRENT_BRANCH"
echo "FEATURE_DIR: $FEATURE_DIR"
echo "FEATURE_SPEC: $FEATURE_SPEC"
echo "IMPL_PLAN: $IMPL_PLAN"
echo "TASKS: $TASKS"
fi
exit 0
fi
# Validate branch name
check_feature_branch "$CURRENT_BRANCH" "$HAS_GIT" || exit 1
# Validate required directories and files
if [[ ! -d "$FEATURE_DIR" ]]; then
echo "ERROR: Feature directory not found: $FEATURE_DIR" >&2
echo "Run /speckit-specify first to create the feature structure." >&2
exit 1
fi
if [[ ! -f "$IMPL_PLAN" ]]; then
echo "ERROR: plan.md not found in $FEATURE_DIR" >&2
echo "Run /speckit-plan first to create the implementation plan." >&2
exit 1
fi
# Check for tasks.md if required
if $REQUIRE_TASKS && [[ ! -f "$TASKS" ]]; then
echo "ERROR: tasks.md not found in $FEATURE_DIR" >&2
echo "Run /speckit-tasks first to create the task list." >&2
exit 1
fi
# Build list of available documents
docs=()
# Always check these optional docs
[[ -f "$RESEARCH" ]] && docs+=("research.md")
[[ -f "$DATA_MODEL" ]] && docs+=("data-model.md")
# Check contracts directory (only if it exists and has files)
if [[ -d "$CONTRACTS_DIR" ]] && [[ -n "$(ls -A "$CONTRACTS_DIR" 2>/dev/null)" ]]; then
docs+=("contracts/")
fi
[[ -f "$QUICKSTART" ]] && docs+=("quickstart.md")
# Include tasks.md if requested and it exists
if $INCLUDE_TASKS && [[ -f "$TASKS" ]]; then
docs+=("tasks.md")
fi
# Output results
if $JSON_MODE; then
# Build JSON array of documents
if has_jq; then
if [[ ${#docs[@]} -eq 0 ]]; then
json_docs="[]"
else
json_docs=$(printf '%s\n' "${docs[@]}" | jq -R . | jq -s .)
fi
jq -cn \
--arg feature_dir "$FEATURE_DIR" \
--argjson docs "$json_docs" \
'{FEATURE_DIR:$feature_dir,AVAILABLE_DOCS:$docs}'
else
if [[ ${#docs[@]} -eq 0 ]]; then
json_docs="[]"
else
json_docs=$(for d in "${docs[@]}"; do printf '"%s",' "$(json_escape "$d")"; done)
json_docs="[${json_docs%,}]"
fi
printf '{"FEATURE_DIR":"%s","AVAILABLE_DOCS":%s}\n' "$(json_escape "$FEATURE_DIR")" "$json_docs"
fi
else
# Text output
echo "FEATURE_DIR:$FEATURE_DIR"
echo "AVAILABLE_DOCS:"
# Show status of each potential document
check_file "$RESEARCH" "research.md"
check_file "$DATA_MODEL" "data-model.md"
check_dir "$CONTRACTS_DIR" "contracts/"
check_file "$QUICKSTART" "quickstart.md"
if $INCLUDE_TASKS; then
check_file "$TASKS" "tasks.md"
fi
fi

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#!/usr/bin/env bash
# Common functions and variables for all scripts
# Find repository root by searching upward for .specify directory
# This is the primary marker for spec-kit projects
find_specify_root() {
local dir="${1:-$(pwd)}"
# Normalize to absolute path to prevent infinite loop with relative paths
# Use -- to handle paths starting with - (e.g., -P, -L)
dir="$(cd -- "$dir" 2>/dev/null && pwd)" || return 1
local prev_dir=""
while true; do
if [ -d "$dir/.specify" ]; then
echo "$dir"
return 0
fi
# Stop if we've reached filesystem root or dirname stops changing
if [ "$dir" = "/" ] || [ "$dir" = "$prev_dir" ]; then
break
fi
prev_dir="$dir"
dir="$(dirname "$dir")"
done
return 1
}
# Get repository root, prioritizing .specify directory over git
# This prevents using a parent git repo when spec-kit is initialized in a subdirectory
get_repo_root() {
# First, look for .specify directory (spec-kit's own marker)
local specify_root
if specify_root=$(find_specify_root); then
echo "$specify_root"
return
fi
# Fallback to git if no .specify found
if git rev-parse --show-toplevel >/dev/null 2>&1; then
git rev-parse --show-toplevel
return
fi
# Final fallback to script location for non-git repos
local script_dir="$(CDPATH="" cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
(cd "$script_dir/../../.." && pwd)
}
# Get current branch, with fallback for non-git repositories
get_current_branch() {
# First check if SPECIFY_FEATURE environment variable is set
if [[ -n "${SPECIFY_FEATURE:-}" ]]; then
echo "$SPECIFY_FEATURE"
return
fi
# Then check git if available at the spec-kit root (not parent)
local repo_root=$(get_repo_root)
if has_git; then
git -C "$repo_root" rev-parse --abbrev-ref HEAD
return
fi
# For non-git repos, try to find the latest feature directory
local specs_dir="$repo_root/specs"
if [[ -d "$specs_dir" ]]; then
local latest_feature=""
local highest=0
local latest_timestamp=""
for dir in "$specs_dir"/*; do
if [[ -d "$dir" ]]; then
local dirname=$(basename "$dir")
if [[ "$dirname" =~ ^([0-9]{8}-[0-9]{6})- ]]; then
# Timestamp-based branch: compare lexicographically
local ts="${BASH_REMATCH[1]}"
if [[ "$ts" > "$latest_timestamp" ]]; then
latest_timestamp="$ts"
latest_feature=$dirname
fi
elif [[ "$dirname" =~ ^([0-9]{3,})- ]]; then
local number=${BASH_REMATCH[1]}
number=$((10#$number))
if [[ "$number" -gt "$highest" ]]; then
highest=$number
# Only update if no timestamp branch found yet
if [[ -z "$latest_timestamp" ]]; then
latest_feature=$dirname
fi
fi
fi
fi
done
if [[ -n "$latest_feature" ]]; then
echo "$latest_feature"
return
fi
fi
echo "main" # Final fallback
}
# Check if we have git available at the spec-kit root level
# Returns true only if git is installed and the repo root is inside a git work tree
# Handles both regular repos (.git directory) and worktrees/submodules (.git file)
has_git() {
# First check if git command is available (before calling get_repo_root which may use git)
command -v git >/dev/null 2>&1 || return 1
local repo_root=$(get_repo_root)
# Check if .git exists (directory or file for worktrees/submodules)
[ -e "$repo_root/.git" ] || return 1
# Verify it's actually a valid git work tree
git -C "$repo_root" rev-parse --is-inside-work-tree >/dev/null 2>&1
}
# Strip a single optional path segment (e.g. gitflow "feat/004-name" -> "004-name").
# Only when the full name is exactly two slash-free segments; otherwise returns the raw name.
spec_kit_effective_branch_name() {
local raw="$1"
if [[ "$raw" =~ ^([^/]+)/([^/]+)$ ]]; then
printf '%s\n' "${BASH_REMATCH[2]}"
else
printf '%s\n' "$raw"
fi
}
check_feature_branch() {
local raw="$1"
local has_git_repo="$2"
# For non-git repos, we can't enforce branch naming but still provide output
if [[ "$has_git_repo" != "true" ]]; then
echo "[specify] Warning: Git repository not detected; skipped branch validation" >&2
return 0
fi
local branch
branch=$(spec_kit_effective_branch_name "$raw")
# Accept sequential prefix (3+ digits) but exclude malformed timestamps
# Malformed: 7-or-8 digit date + 6-digit time with no trailing slug (e.g. "2026031-143022" or "20260319-143022")
local is_sequential=false
if [[ "$branch" =~ ^[0-9]{3,}- ]] && [[ ! "$branch" =~ ^[0-9]{7}-[0-9]{6}- ]] && [[ ! "$branch" =~ ^[0-9]{7,8}-[0-9]{6}$ ]]; then
is_sequential=true
fi
if [[ "$is_sequential" != "true" ]] && [[ ! "$branch" =~ ^[0-9]{8}-[0-9]{6}- ]]; then
echo "ERROR: Not on a feature branch. Current branch: $raw" >&2
echo "Feature branches should be named like: 001-feature-name, 1234-feature-name, or 20260319-143022-feature-name" >&2
return 1
fi
return 0
}
# Safely read .specify/feature.json's "feature_directory" value.
# Prints the raw value (possibly relative) to stdout, or empty string if the file
# is missing, unparseable, or does not contain the key. Always returns 0 so callers
# under `set -e` cannot be aborted by parser failure.
# Parser order mirrors the historical get_feature_paths behavior: jq -> python3 -> grep/sed.
read_feature_json_feature_directory() {
local repo_root="$1"
local fj="$repo_root/.specify/feature.json"
[[ -f "$fj" ]] || { printf '%s' ''; return 0; }
local _fd=''
if command -v jq >/dev/null 2>&1; then
if ! _fd=$(jq -r '.feature_directory // empty' "$fj" 2>/dev/null); then
_fd=''
fi
elif command -v python3 >/dev/null 2>&1; then
# Use Python so pretty-printed/multi-line JSON still parses correctly.
if ! _fd=$(python3 -c "import json,sys; d=json.load(open(sys.argv[1])); v=d.get('feature_directory'); print(v if v else '')" "$fj" 2>/dev/null); then
_fd=''
fi
else
# Last-resort single-line grep/sed fallback. The `|| true` guards against
# grep returning 1 (no match) aborting under `set -e` / `pipefail`.
_fd=$( { grep -E '"feature_directory"[[:space:]]*:' "$fj" 2>/dev/null || true; } \
| head -n 1 \
| sed -E 's/^[^:]*:[[:space:]]*"([^"]*)".*$/\1/' )
fi
printf '%s' "$_fd"
return 0
}
# Returns 0 when .specify/feature.json lists feature_directory that exists as a directory
# and matches the resolved active FEATURE_DIR (so /speckit-plan can skip git branch pattern checks).
# Delegates parsing to read_feature_json_feature_directory, which is safe under `set -e`.
feature_json_matches_feature_dir() {
local repo_root="$1"
local active_feature_dir="$2"
local _fd
_fd=$(read_feature_json_feature_directory "$repo_root")
[[ -n "$_fd" ]] || return 1
[[ "$_fd" != /* ]] && _fd="$repo_root/$_fd"
[[ -d "$_fd" ]] || return 1
local norm_json norm_active
norm_json="$(cd -- "$_fd" 2>/dev/null && pwd -P)" || return 1
norm_active="$(cd -- "$active_feature_dir" 2>/dev/null && pwd -P)" || return 1
[[ "$norm_json" == "$norm_active" ]]
}
# Find feature directory by numeric prefix instead of exact branch match
# This allows multiple branches to work on the same spec (e.g., 004-fix-bug, 004-add-feature)
find_feature_dir_by_prefix() {
local repo_root="$1"
local branch_name
branch_name=$(spec_kit_effective_branch_name "$2")
local specs_dir="$repo_root/specs"
# Extract prefix from branch (e.g., "004" from "004-whatever" or "20260319-143022" from timestamp branches)
local prefix=""
if [[ "$branch_name" =~ ^([0-9]{8}-[0-9]{6})- ]]; then
prefix="${BASH_REMATCH[1]}"
elif [[ "$branch_name" =~ ^([0-9]{3,})- ]]; then
prefix="${BASH_REMATCH[1]}"
else
# If branch doesn't have a recognized prefix, fall back to exact match
echo "$specs_dir/$branch_name"
return
fi
# Search for directories in specs/ that start with this prefix
local matches=()
if [[ -d "$specs_dir" ]]; then
for dir in "$specs_dir"/"$prefix"-*; do
if [[ -d "$dir" ]]; then
matches+=("$(basename "$dir")")
fi
done
fi
# Handle results
if [[ ${#matches[@]} -eq 0 ]]; then
# No match found - return the branch name path (will fail later with clear error)
echo "$specs_dir/$branch_name"
elif [[ ${#matches[@]} -eq 1 ]]; then
# Exactly one match - perfect!
echo "$specs_dir/${matches[0]}"
else
# Multiple matches - this shouldn't happen with proper naming convention
echo "ERROR: Multiple spec directories found with prefix '$prefix': ${matches[*]}" >&2
echo "Please ensure only one spec directory exists per prefix." >&2
return 1
fi
}
get_feature_paths() {
local repo_root=$(get_repo_root)
local current_branch=$(get_current_branch)
local has_git_repo="false"
if has_git; then
has_git_repo="true"
fi
# Resolve feature directory. Priority:
# 1. SPECIFY_FEATURE_DIRECTORY env var (explicit override)
# 2. .specify/feature.json "feature_directory" key (persisted by /speckit-specify)
# 3. Branch-name-based prefix lookup (legacy fallback)
local feature_dir
if [[ -n "${SPECIFY_FEATURE_DIRECTORY:-}" ]]; then
feature_dir="$SPECIFY_FEATURE_DIRECTORY"
# Normalize relative paths to absolute under repo root
[[ "$feature_dir" != /* ]] && feature_dir="$repo_root/$feature_dir"
elif [[ -f "$repo_root/.specify/feature.json" ]]; then
# Shared, set -e-safe parser: jq -> python3 -> grep/sed. Returns empty on
# missing/unparseable/unset so we fall through to the branch-prefix lookup.
local _fd
_fd=$(read_feature_json_feature_directory "$repo_root")
if [[ -n "$_fd" ]]; then
feature_dir="$_fd"
# Normalize relative paths to absolute under repo root
[[ "$feature_dir" != /* ]] && feature_dir="$repo_root/$feature_dir"
elif ! feature_dir=$(find_feature_dir_by_prefix "$repo_root" "$current_branch"); then
echo "ERROR: Failed to resolve feature directory" >&2
return 1
fi
elif ! feature_dir=$(find_feature_dir_by_prefix "$repo_root" "$current_branch"); then
echo "ERROR: Failed to resolve feature directory" >&2
return 1
fi
# Use printf '%q' to safely quote values, preventing shell injection
# via crafted branch names or paths containing special characters
printf 'REPO_ROOT=%q\n' "$repo_root"
printf 'CURRENT_BRANCH=%q\n' "$current_branch"
printf 'HAS_GIT=%q\n' "$has_git_repo"
printf 'FEATURE_DIR=%q\n' "$feature_dir"
printf 'FEATURE_SPEC=%q\n' "$feature_dir/spec.md"
printf 'IMPL_PLAN=%q\n' "$feature_dir/plan.md"
printf 'TASKS=%q\n' "$feature_dir/tasks.md"
printf 'RESEARCH=%q\n' "$feature_dir/research.md"
printf 'DATA_MODEL=%q\n' "$feature_dir/data-model.md"
printf 'QUICKSTART=%q\n' "$feature_dir/quickstart.md"
printf 'CONTRACTS_DIR=%q\n' "$feature_dir/contracts"
}
# Check if jq is available for safe JSON construction
has_jq() {
command -v jq >/dev/null 2>&1
}
get_invoke_separator() {
local repo_root="${1:-$(get_repo_root)}"
if [[ "${_SPECIFY_INVOKE_SEPARATOR_CACHE_REPO_ROOT:-}" == "$repo_root" && -n "${_SPECIFY_INVOKE_SEPARATOR_CACHE_VALUE:-}" ]]; then
printf '%s\n' "$_SPECIFY_INVOKE_SEPARATOR_CACHE_VALUE"
return 0
fi
local integration_json="$repo_root/.specify/integration.json"
local separator="."
local parsed_with_jq=0
if [[ -f "$integration_json" ]]; then
if command -v jq >/dev/null 2>&1; then
local jq_separator
if jq_separator=$(jq -r '(.default_integration // .integration // "") as $k | if $k == "" then "." else (.integration_settings[$k].invoke_separator // ".") end' "$integration_json" 2>/dev/null); then
parsed_with_jq=1
case "$jq_separator" in
"."|"-") separator="$jq_separator" ;;
esac
fi
fi
if [[ "$parsed_with_jq" -eq 0 ]] && command -v python3 >/dev/null 2>&1; then
if separator=$(python3 - "$integration_json" <<'PY' 2>/dev/null
import json
import sys
try:
with open(sys.argv[1], encoding="utf-8") as fh:
state = json.load(fh)
key = state.get("default_integration") or state.get("integration") or ""
settings = state.get("integration_settings")
separator = "."
if isinstance(key, str) and isinstance(settings, dict):
entry = settings.get(key)
if isinstance(entry, dict) and entry.get("invoke_separator") in {".", "-"}:
separator = entry["invoke_separator"]
print(separator)
except Exception:
print(".")
PY
); then
case "$separator" in
"."|"-") ;;
*) separator="." ;;
esac
else
separator="."
fi
fi
fi
_SPECIFY_INVOKE_SEPARATOR_CACHE_REPO_ROOT="$repo_root"
_SPECIFY_INVOKE_SEPARATOR_CACHE_VALUE="$separator"
printf '%s\n' "$separator"
}
format_speckit_command() {
local command_name="$1"
local repo_root="${2:-$(get_repo_root)}"
local separator
if [[ "${_SPECIFY_INVOKE_SEPARATOR_CACHE_REPO_ROOT:-}" == "$repo_root" && -n "${_SPECIFY_INVOKE_SEPARATOR_CACHE_VALUE:-}" ]]; then
separator="$_SPECIFY_INVOKE_SEPARATOR_CACHE_VALUE"
else
separator=$(get_invoke_separator "$repo_root")
_SPECIFY_INVOKE_SEPARATOR_CACHE_REPO_ROOT="$repo_root"
_SPECIFY_INVOKE_SEPARATOR_CACHE_VALUE="$separator"
fi
command_name="${command_name#/}"
command_name="${command_name#speckit.}"
command_name="${command_name#speckit-}"
command_name="${command_name//./$separator}"
printf '/speckit%s%s\n' "$separator" "$command_name"
}
# Escape a string for safe embedding in a JSON value (fallback when jq is unavailable).
# Handles backslash, double-quote, and JSON-required control character escapes (RFC 8259).
json_escape() {
local s="$1"
s="${s//\\/\\\\}"
s="${s//\"/\\\"}"
s="${s//$'\n'/\\n}"
s="${s//$'\t'/\\t}"
s="${s//$'\r'/\\r}"
s="${s//$'\b'/\\b}"
s="${s//$'\f'/\\f}"
# Escape any remaining U+0001-U+001F control characters as \uXXXX.
# (U+0000/NUL cannot appear in bash strings and is excluded.)
# LC_ALL=C ensures ${#s} counts bytes and ${s:$i:1} yields single bytes,
# so multi-byte UTF-8 sequences (first byte >= 0xC0) pass through intact.
local LC_ALL=C
local i char code
for (( i=0; i<${#s}; i++ )); do
char="${s:$i:1}"
printf -v code '%d' "'$char" 2>/dev/null || code=256
if (( code >= 1 && code <= 31 )); then
printf '\\u%04x' "$code"
else
printf '%s' "$char"
fi
done
}
check_file() { [[ -f "$1" ]] && echo "$2" || echo "$2"; }
check_dir() { [[ -d "$1" && -n $(ls -A "$1" 2>/dev/null) ]] && echo "$2" || echo "$2"; }
# Resolve a template name to a file path using the priority stack:
# 1. .specify/templates/overrides/
# 2. .specify/presets/<preset-id>/templates/ (sorted by priority from .registry)
# 3. .specify/extensions/<ext-id>/templates/
# 4. .specify/templates/ (core)
resolve_template() {
local template_name="$1"
local repo_root="$2"
local base="$repo_root/.specify/templates"
# Priority 1: Project overrides
local override="$base/overrides/${template_name}.md"
[ -f "$override" ] && echo "$override" && return 0
# Priority 2: Installed presets (sorted by priority from .registry)
local presets_dir="$repo_root/.specify/presets"
if [ -d "$presets_dir" ]; then
local registry_file="$presets_dir/.registry"
if [ -f "$registry_file" ] && command -v python3 >/dev/null 2>&1; then
# Read preset IDs sorted by priority (lower number = higher precedence).
# The python3 call is wrapped in an if-condition so that set -e does not
# abort the function when python3 exits non-zero (e.g. invalid JSON).
local sorted_presets=""
if sorted_presets=$(SPECKIT_REGISTRY="$registry_file" python3 -c "
import json, sys, os
try:
with open(os.environ['SPECKIT_REGISTRY']) as f:
data = json.load(f)
presets = data.get('presets', {})
for pid, meta in sorted(presets.items(), key=lambda x: x[1].get('priority', 10) if isinstance(x[1], dict) else 10):
if isinstance(meta, dict) and meta.get('enabled', True) is not False:
print(pid)
except Exception:
sys.exit(1)
" 2>/dev/null); then
if [ -n "$sorted_presets" ]; then
# python3 succeeded and returned preset IDs — search in priority order
while IFS= read -r preset_id; do
local candidate="$presets_dir/$preset_id/templates/${template_name}.md"
[ -f "$candidate" ] && echo "$candidate" && return 0
done <<< "$sorted_presets"
fi
# python3 succeeded but registry has no presets — nothing to search
else
# python3 failed (missing, or registry parse error) — fall back to unordered directory scan
for preset in "$presets_dir"/*/; do
[ -d "$preset" ] || continue
local candidate="$preset/templates/${template_name}.md"
[ -f "$candidate" ] && echo "$candidate" && return 0
done
fi
else
# Fallback: alphabetical directory order (no python3 available)
for preset in "$presets_dir"/*/; do
[ -d "$preset" ] || continue
local candidate="$preset/templates/${template_name}.md"
[ -f "$candidate" ] && echo "$candidate" && return 0
done
fi
fi
# Priority 3: Extension-provided templates
local ext_dir="$repo_root/.specify/extensions"
if [ -d "$ext_dir" ]; then
for ext in "$ext_dir"/*/; do
[ -d "$ext" ] || continue
# Skip hidden directories (e.g. .backup, .cache)
case "$(basename "$ext")" in .*) continue;; esac
local candidate="$ext/templates/${template_name}.md"
[ -f "$candidate" ] && echo "$candidate" && return 0
done
fi
# Priority 4: Core templates
local core="$base/${template_name}.md"
[ -f "$core" ] && echo "$core" && return 0
# Template not found in any location.
# Return 1 so callers can distinguish "not found" from "found".
# Callers running under set -e should use: TEMPLATE=$(resolve_template ...) || true
return 1
}
# Resolve a template name to composed content using composition strategies.
# Reads strategy metadata from preset manifests and composes content
# from multiple layers using prepend, append, or wrap strategies.
#
# Usage: CONTENT=$(resolve_template_content "template-name" "$REPO_ROOT")
# Returns composed content string on stdout; exit code 1 if not found.
resolve_template_content() {
local template_name="$1"
local repo_root="$2"
local base="$repo_root/.specify/templates"
# Collect all layers (highest priority first)
local -a layer_paths=()
local -a layer_strategies=()
# Priority 1: Project overrides (always "replace")
local override="$base/overrides/${template_name}.md"
if [ -f "$override" ]; then
layer_paths+=("$override")
layer_strategies+=("replace")
fi
# Priority 2: Installed presets (sorted by priority from .registry)
local presets_dir="$repo_root/.specify/presets"
if [ -d "$presets_dir" ]; then
local registry_file="$presets_dir/.registry"
local sorted_presets=""
if [ -f "$registry_file" ] && command -v python3 >/dev/null 2>&1; then
if sorted_presets=$(SPECKIT_REGISTRY="$registry_file" python3 -c "
import json, sys, os
try:
with open(os.environ['SPECKIT_REGISTRY']) as f:
data = json.load(f)
presets = data.get('presets', {})
for pid, meta in sorted(presets.items(), key=lambda x: x[1].get('priority', 10) if isinstance(x[1], dict) else 10):
if isinstance(meta, dict) and meta.get('enabled', True) is not False:
print(pid)
except Exception:
sys.exit(1)
" 2>/dev/null); then
if [ -n "$sorted_presets" ]; then
local yaml_warned=false
while IFS= read -r preset_id; do
# Read strategy and file path from preset manifest
local strategy="replace"
local manifest_file=""
local manifest="$presets_dir/$preset_id/preset.yml"
if [ -f "$manifest" ] && command -v python3 >/dev/null 2>&1; then
# Requires PyYAML; falls back to replace/convention if unavailable
local result
local py_stderr
py_stderr=$(mktemp)
result=$(SPECKIT_MANIFEST="$manifest" SPECKIT_TMPL="$template_name" python3 -c "
import sys, os
try:
import yaml
except ImportError:
print('yaml_missing', file=sys.stderr)
print('replace\t')
sys.exit(0)
try:
with open(os.environ['SPECKIT_MANIFEST']) as f:
data = yaml.safe_load(f)
for t in data.get('provides', {}).get('templates', []):
if t.get('name') == os.environ['SPECKIT_TMPL'] and t.get('type', 'template') == 'template':
print(t.get('strategy', 'replace') + '\t' + t.get('file', ''))
sys.exit(0)
print('replace\t')
except Exception:
print('replace\t')
" 2>"$py_stderr")
local parse_status=$?
if [ $parse_status -eq 0 ] && [ -n "$result" ]; then
IFS=$'\t' read -r strategy manifest_file <<< "$result"
strategy=$(printf '%s' "$strategy" | tr '[:upper:]' '[:lower:]')
fi
if [ "$yaml_warned" = false ] && grep -q 'yaml_missing' "$py_stderr" 2>/dev/null; then
echo "Warning: PyYAML not available; composition strategies may be ignored" >&2
yaml_warned=true
fi
rm -f "$py_stderr"
fi
# Try manifest file path first, then convention path
local candidate=""
if [ -n "$manifest_file" ]; then
# Reject absolute paths and parent traversal
case "$manifest_file" in
/*|*../*|../*) manifest_file="" ;;
esac
fi
if [ -n "$manifest_file" ]; then
local mf="$presets_dir/$preset_id/$manifest_file"
[ -f "$mf" ] && candidate="$mf"
fi
if [ -z "$candidate" ]; then
local cf="$presets_dir/$preset_id/templates/${template_name}.md"
[ -f "$cf" ] && candidate="$cf"
fi
if [ -n "$candidate" ]; then
layer_paths+=("$candidate")
layer_strategies+=("$strategy")
fi
done <<< "$sorted_presets"
fi
else
# python3 failed — fall back to unordered directory scan (replace only)
for preset in "$presets_dir"/*/; do
[ -d "$preset" ] || continue
local candidate="$preset/templates/${template_name}.md"
if [ -f "$candidate" ]; then
layer_paths+=("$candidate")
layer_strategies+=("replace")
fi
done
fi
else
# No python3 or registry — fall back to unordered directory scan (replace only)
for preset in "$presets_dir"/*/; do
[ -d "$preset" ] || continue
local candidate="$preset/templates/${template_name}.md"
if [ -f "$candidate" ]; then
layer_paths+=("$candidate")
layer_strategies+=("replace")
fi
done
fi
fi
# Priority 3: Extension-provided templates (always "replace")
local ext_dir="$repo_root/.specify/extensions"
if [ -d "$ext_dir" ]; then
for ext in "$ext_dir"/*/; do
[ -d "$ext" ] || continue
case "$(basename "$ext")" in .*) continue;; esac
local candidate="$ext/templates/${template_name}.md"
if [ -f "$candidate" ]; then
layer_paths+=("$candidate")
layer_strategies+=("replace")
fi
done
fi
# Priority 4: Core templates (always "replace")
local core="$base/${template_name}.md"
if [ -f "$core" ]; then
layer_paths+=("$core")
layer_strategies+=("replace")
fi
local count=${#layer_paths[@]}
[ "$count" -eq 0 ] && return 1
# Check if any layer uses a non-replace strategy
local has_composition=false
for s in "${layer_strategies[@]}"; do
[ "$s" != "replace" ] && has_composition=true && break
done
# If the top (highest-priority) layer is replace, it wins entirely —
# lower layers are irrelevant regardless of their strategies.
if [ "${layer_strategies[0]}" = "replace" ]; then
cat "${layer_paths[0]}"
return 0
fi
if [ "$has_composition" = false ]; then
cat "${layer_paths[0]}"
return 0
fi
# Find the effective base: scan from highest priority (index 0) downward
# to find the nearest replace layer. Only compose layers above that base.
local base_idx=-1
local i
for (( i=0; i<count; i++ )); do
if [ "${layer_strategies[$i]}" = "replace" ]; then
base_idx=$i
break
fi
done
if [ $base_idx -lt 0 ]; then
return 1 # no base layer found
fi
# Read the base content; compose layers above the base (higher priority)
local content
content=$(cat "${layer_paths[$base_idx]}"; printf x)
content="${content%x}"
for (( i=base_idx-1; i>=0; i-- )); do
local path="${layer_paths[$i]}"
local strat="${layer_strategies[$i]}"
local layer_content
# Preserve trailing newlines
layer_content=$(cat "$path"; printf x)
layer_content="${layer_content%x}"
case "$strat" in
replace) content="$layer_content" ;;
prepend) content="$(printf '%s\n\n%s' "$layer_content" "$content")" ;;
append) content="$(printf '%s\n\n%s' "$content" "$layer_content")" ;;
wrap)
case "$layer_content" in
*'{CORE_TEMPLATE}'*) ;;
*) echo "Error: wrap strategy missing {CORE_TEMPLATE} placeholder" >&2; return 1 ;;
esac
while [[ "$layer_content" == *'{CORE_TEMPLATE}'* ]]; do
local before="${layer_content%%\{CORE_TEMPLATE\}*}"
local after="${layer_content#*\{CORE_TEMPLATE\}}"
layer_content="${before}${content}${after}"
done
content="$layer_content"
;;
*) echo "Error: unknown strategy '$strat'" >&2; return 1 ;;
esac
done
printf '%s' "$content"
return 0
}

413
.specify/scripts/bash/create-new-feature.sh Executable file
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@ -0,0 +1,413 @@
#!/usr/bin/env bash
set -e
JSON_MODE=false
DRY_RUN=false
ALLOW_EXISTING=false
SHORT_NAME=""
BRANCH_NUMBER=""
USE_TIMESTAMP=false
ARGS=()
i=1
while [ $i -le $# ]; do
arg="${!i}"
case "$arg" in
--json)
JSON_MODE=true
;;
--dry-run)
DRY_RUN=true
;;
--allow-existing-branch)
ALLOW_EXISTING=true
;;
--short-name)
if [ $((i + 1)) -gt $# ]; then
echo 'Error: --short-name requires a value' >&2
exit 1
fi
i=$((i + 1))
next_arg="${!i}"
# Check if the next argument is another option (starts with --)
if [[ "$next_arg" == --* ]]; then
echo 'Error: --short-name requires a value' >&2
exit 1
fi
SHORT_NAME="$next_arg"
;;
--number)
if [ $((i + 1)) -gt $# ]; then
echo 'Error: --number requires a value' >&2
exit 1
fi
i=$((i + 1))
next_arg="${!i}"
if [[ "$next_arg" == --* ]]; then
echo 'Error: --number requires a value' >&2
exit 1
fi
BRANCH_NUMBER="$next_arg"
;;
--timestamp)
USE_TIMESTAMP=true
;;
--help|-h)
echo "Usage: $0 [--json] [--dry-run] [--allow-existing-branch] [--short-name <name>] [--number N] [--timestamp] <feature_description>"
echo ""
echo "Options:"
echo " --json Output in JSON format"
echo " --dry-run Compute branch name and paths without creating branches, directories, or files"
echo " --allow-existing-branch Switch to branch if it already exists instead of failing"
echo " --short-name <name> Provide a custom short name (2-4 words) for the branch"
echo " --number N Specify branch number manually (overrides auto-detection)"
echo " --timestamp Use timestamp prefix (YYYYMMDD-HHMMSS) instead of sequential numbering"
echo " --help, -h Show this help message"
echo ""
echo "Examples:"
echo " $0 'Add user authentication system' --short-name 'user-auth'"
echo " $0 'Implement OAuth2 integration for API' --number 5"
echo " $0 --timestamp --short-name 'user-auth' 'Add user authentication'"
exit 0
;;
*)
ARGS+=("$arg")
;;
esac
i=$((i + 1))
done
FEATURE_DESCRIPTION="${ARGS[*]}"
if [ -z "$FEATURE_DESCRIPTION" ]; then
echo "Usage: $0 [--json] [--dry-run] [--allow-existing-branch] [--short-name <name>] [--number N] [--timestamp] <feature_description>" >&2
exit 1
fi
# Trim whitespace and validate description is not empty (e.g., user passed only whitespace)
FEATURE_DESCRIPTION=$(echo "$FEATURE_DESCRIPTION" | sed -E 's/^[[:space:]]+|[[:space:]]+$//g')
if [ -z "$FEATURE_DESCRIPTION" ]; then
echo "Error: Feature description cannot be empty or contain only whitespace" >&2
exit 1
fi
# Function to get highest number from specs directory
get_highest_from_specs() {
local specs_dir="$1"
local highest=0
if [ -d "$specs_dir" ]; then
for dir in "$specs_dir"/*; do
[ -d "$dir" ] || continue
dirname=$(basename "$dir")
# Match sequential prefixes (>=3 digits), but skip timestamp dirs.
if echo "$dirname" | grep -Eq '^[0-9]{3,}-' && ! echo "$dirname" | grep -Eq '^[0-9]{8}-[0-9]{6}-'; then
number=$(echo "$dirname" | grep -Eo '^[0-9]+')
number=$((10#$number))
if [ "$number" -gt "$highest" ]; then
highest=$number
fi
fi
done
fi
echo "$highest"
}
# Function to get highest number from git branches
get_highest_from_branches() {
git branch -a 2>/dev/null | sed 's/^[* ]*//; s|^remotes/[^/]*/||' | _extract_highest_number
}
# Extract the highest sequential feature number from a list of ref names (one per line).
# Shared by get_highest_from_branches and get_highest_from_remote_refs.
_extract_highest_number() {
local highest=0
while IFS= read -r name; do
[ -z "$name" ] && continue
if echo "$name" | grep -Eq '^[0-9]{3,}-' && ! echo "$name" | grep -Eq '^[0-9]{8}-[0-9]{6}-'; then
number=$(echo "$name" | grep -Eo '^[0-9]+' || echo "0")
number=$((10#$number))
if [ "$number" -gt "$highest" ]; then
highest=$number
fi
fi
done
echo "$highest"
}
# Function to get highest number from remote branches without fetching (side-effect-free)
get_highest_from_remote_refs() {
local highest=0
for remote in $(git remote 2>/dev/null); do
local remote_highest
remote_highest=$(GIT_TERMINAL_PROMPT=0 git ls-remote --heads "$remote" 2>/dev/null | sed 's|.*refs/heads/||' | _extract_highest_number)
if [ "$remote_highest" -gt "$highest" ]; then
highest=$remote_highest
fi
done
echo "$highest"
}
# Function to check existing branches (local and remote) and return next available number.
# When skip_fetch is true, queries remotes via ls-remote (read-only) instead of fetching.
check_existing_branches() {
local specs_dir="$1"
local skip_fetch="${2:-false}"
if [ "$skip_fetch" = true ]; then
# Side-effect-free: query remotes via ls-remote
local highest_remote=$(get_highest_from_remote_refs)
local highest_branch=$(get_highest_from_branches)
if [ "$highest_remote" -gt "$highest_branch" ]; then
highest_branch=$highest_remote
fi
else
# Fetch all remotes to get latest branch info (suppress errors if no remotes)
git fetch --all --prune >/dev/null 2>&1 || true
local highest_branch=$(get_highest_from_branches)
fi
# Get highest number from ALL specs (not just matching short name)
local highest_spec=$(get_highest_from_specs "$specs_dir")
# Take the maximum of both
local max_num=$highest_branch
if [ "$highest_spec" -gt "$max_num" ]; then
max_num=$highest_spec
fi
# Return next number
echo $((max_num + 1))
}
# Function to clean and format a branch name
clean_branch_name() {
local name="$1"
echo "$name" | tr '[:upper:]' '[:lower:]' | sed 's/[^a-z0-9]/-/g' | sed 's/-\+/-/g' | sed 's/^-//' | sed 's/-$//'
}
# Resolve repository root using common.sh functions which prioritize .specify over git
SCRIPT_DIR="$(CDPATH="" cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
source "$SCRIPT_DIR/common.sh"
REPO_ROOT=$(get_repo_root)
# Check if git is available at this repo root (not a parent)
if has_git; then
HAS_GIT=true
else
HAS_GIT=false
fi
cd "$REPO_ROOT"
SPECS_DIR="$REPO_ROOT/specs"
if [ "$DRY_RUN" != true ]; then
mkdir -p "$SPECS_DIR"
fi
# Function to generate branch name with stop word filtering and length filtering
generate_branch_name() {
local description="$1"
# Common stop words to filter out
local stop_words="^(i|a|an|the|to|for|of|in|on|at|by|with|from|is|are|was|were|be|been|being|have|has|had|do|does|did|will|would|should|could|can|may|might|must|shall|this|that|these|those|my|your|our|their|want|need|add|get|set)$"
# Convert to lowercase and split into words
local clean_name=$(echo "$description" | tr '[:upper:]' '[:lower:]' | sed 's/[^a-z0-9]/ /g')
# Filter words: remove stop words and words shorter than 3 chars (unless they're uppercase acronyms in original)
local meaningful_words=()
for word in $clean_name; do
# Skip empty words
[ -z "$word" ] && continue
# Keep words that are NOT stop words AND (length >= 3 OR are potential acronyms)
if ! echo "$word" | grep -qiE "$stop_words"; then
if [ ${#word} -ge 3 ]; then
meaningful_words+=("$word")
elif echo "$description" | grep -q "\b${word^^}\b"; then
# Keep short words if they appear as uppercase in original (likely acronyms)
meaningful_words+=("$word")
fi
fi
done
# If we have meaningful words, use first 3-4 of them
if [ ${#meaningful_words[@]} -gt 0 ]; then
local max_words=3
if [ ${#meaningful_words[@]} -eq 4 ]; then max_words=4; fi
local result=""
local count=0
for word in "${meaningful_words[@]}"; do
if [ $count -ge $max_words ]; then break; fi
if [ -n "$result" ]; then result="$result-"; fi
result="$result$word"
count=$((count + 1))
done
echo "$result"
else
# Fallback to original logic if no meaningful words found
local cleaned=$(clean_branch_name "$description")
echo "$cleaned" | tr '-' '\n' | grep -v '^$' | head -3 | tr '\n' '-' | sed 's/-$//'
fi
}
# Generate branch name
if [ -n "$SHORT_NAME" ]; then
# Use provided short name, just clean it up
BRANCH_SUFFIX=$(clean_branch_name "$SHORT_NAME")
else
# Generate from description with smart filtering
BRANCH_SUFFIX=$(generate_branch_name "$FEATURE_DESCRIPTION")
fi
# Warn if --number and --timestamp are both specified
if [ "$USE_TIMESTAMP" = true ] && [ -n "$BRANCH_NUMBER" ]; then
>&2 echo "[specify] Warning: --number is ignored when --timestamp is used"
BRANCH_NUMBER=""
fi
# Determine branch prefix
if [ "$USE_TIMESTAMP" = true ]; then
FEATURE_NUM=$(date +%Y%m%d-%H%M%S)
BRANCH_NAME="${FEATURE_NUM}-${BRANCH_SUFFIX}"
else
# Determine branch number
if [ -z "$BRANCH_NUMBER" ]; then
if [ "$DRY_RUN" = true ] && [ "$HAS_GIT" = true ]; then
# Dry-run: query remotes via ls-remote (side-effect-free, no fetch)
BRANCH_NUMBER=$(check_existing_branches "$SPECS_DIR" true)
elif [ "$DRY_RUN" = true ]; then
# Dry-run without git: local spec dirs only
HIGHEST=$(get_highest_from_specs "$SPECS_DIR")
BRANCH_NUMBER=$((HIGHEST + 1))
elif [ "$HAS_GIT" = true ]; then
# Check existing branches on remotes
BRANCH_NUMBER=$(check_existing_branches "$SPECS_DIR")
else
# Fall back to local directory check
HIGHEST=$(get_highest_from_specs "$SPECS_DIR")
BRANCH_NUMBER=$((HIGHEST + 1))
fi
fi
# Force base-10 interpretation to prevent octal conversion (e.g., 010 → 8 in octal, but should be 10 in decimal)
FEATURE_NUM=$(printf "%03d" "$((10#$BRANCH_NUMBER))")
BRANCH_NAME="${FEATURE_NUM}-${BRANCH_SUFFIX}"
fi
# GitHub enforces a 244-byte limit on branch names
# Validate and truncate if necessary
MAX_BRANCH_LENGTH=244
if [ ${#BRANCH_NAME} -gt $MAX_BRANCH_LENGTH ]; then
# Calculate how much we need to trim from suffix
# Account for prefix length: timestamp (15) + hyphen (1) = 16, or sequential (3) + hyphen (1) = 4
PREFIX_LENGTH=$(( ${#FEATURE_NUM} + 1 ))
MAX_SUFFIX_LENGTH=$((MAX_BRANCH_LENGTH - PREFIX_LENGTH))
# Truncate suffix at word boundary if possible
TRUNCATED_SUFFIX=$(echo "$BRANCH_SUFFIX" | cut -c1-$MAX_SUFFIX_LENGTH)
# Remove trailing hyphen if truncation created one
TRUNCATED_SUFFIX=$(echo "$TRUNCATED_SUFFIX" | sed 's/-$//')
ORIGINAL_BRANCH_NAME="$BRANCH_NAME"
BRANCH_NAME="${FEATURE_NUM}-${TRUNCATED_SUFFIX}"
>&2 echo "[specify] Warning: Branch name exceeded GitHub's 244-byte limit"
>&2 echo "[specify] Original: $ORIGINAL_BRANCH_NAME (${#ORIGINAL_BRANCH_NAME} bytes)"
>&2 echo "[specify] Truncated to: $BRANCH_NAME (${#BRANCH_NAME} bytes)"
fi
FEATURE_DIR="$SPECS_DIR/$BRANCH_NAME"
SPEC_FILE="$FEATURE_DIR/spec.md"
if [ "$DRY_RUN" != true ]; then
if [ "$HAS_GIT" = true ]; then
branch_create_error=""
if ! branch_create_error=$(git checkout -q -b "$BRANCH_NAME" 2>&1); then
current_branch="$(git rev-parse --abbrev-ref HEAD 2>/dev/null || true)"
# Check if branch already exists
if git branch --list "$BRANCH_NAME" | grep -q .; then
if [ "$ALLOW_EXISTING" = true ]; then
# If we're already on the branch, continue without another checkout.
if [ "$current_branch" = "$BRANCH_NAME" ]; then
:
# Otherwise switch to the existing branch instead of failing.
elif ! switch_branch_error=$(git checkout -q "$BRANCH_NAME" 2>&1); then
>&2 echo "Error: Failed to switch to existing branch '$BRANCH_NAME'. Please resolve any local changes or conflicts and try again."
if [ -n "$switch_branch_error" ]; then
>&2 printf '%s\n' "$switch_branch_error"
fi
exit 1
fi
elif [ "$USE_TIMESTAMP" = true ]; then
>&2 echo "Error: Branch '$BRANCH_NAME' already exists. Rerun to get a new timestamp or use a different --short-name."
exit 1
else
>&2 echo "Error: Branch '$BRANCH_NAME' already exists. Please use a different feature name or specify a different number with --number."
exit 1
fi
else
>&2 echo "Error: Failed to create git branch '$BRANCH_NAME'."
if [ -n "$branch_create_error" ]; then
>&2 printf '%s\n' "$branch_create_error"
else
>&2 echo "Please check your git configuration and try again."
fi
exit 1
fi
fi
else
>&2 echo "[specify] Warning: Git repository not detected; skipped branch creation for $BRANCH_NAME"
fi
mkdir -p "$FEATURE_DIR"
if [ ! -f "$SPEC_FILE" ]; then
TEMPLATE=$(resolve_template "spec-template" "$REPO_ROOT") || true
if [ -n "$TEMPLATE" ] && [ -f "$TEMPLATE" ]; then
cp "$TEMPLATE" "$SPEC_FILE"
else
echo "Warning: Spec template not found; created empty spec file" >&2
touch "$SPEC_FILE"
fi
fi
# Inform the user how to persist the feature variable in their own shell
printf '# To persist: export SPECIFY_FEATURE=%q\n' "$BRANCH_NAME" >&2
fi
if $JSON_MODE; then
if command -v jq >/dev/null 2>&1; then
if [ "$DRY_RUN" = true ]; then
jq -cn \
--arg branch_name "$BRANCH_NAME" \
--arg spec_file "$SPEC_FILE" \
--arg feature_num "$FEATURE_NUM" \
'{BRANCH_NAME:$branch_name,SPEC_FILE:$spec_file,FEATURE_NUM:$feature_num,DRY_RUN:true}'
else
jq -cn \
--arg branch_name "$BRANCH_NAME" \
--arg spec_file "$SPEC_FILE" \
--arg feature_num "$FEATURE_NUM" \
'{BRANCH_NAME:$branch_name,SPEC_FILE:$spec_file,FEATURE_NUM:$feature_num}'
fi
else
if [ "$DRY_RUN" = true ]; then
printf '{"BRANCH_NAME":"%s","SPEC_FILE":"%s","FEATURE_NUM":"%s","DRY_RUN":true}\n' "$(json_escape "$BRANCH_NAME")" "$(json_escape "$SPEC_FILE")" "$(json_escape "$FEATURE_NUM")"
else
printf '{"BRANCH_NAME":"%s","SPEC_FILE":"%s","FEATURE_NUM":"%s"}\n' "$(json_escape "$BRANCH_NAME")" "$(json_escape "$SPEC_FILE")" "$(json_escape "$FEATURE_NUM")"
fi
fi
else
echo "BRANCH_NAME: $BRANCH_NAME"
echo "SPEC_FILE: $SPEC_FILE"
echo "FEATURE_NUM: $FEATURE_NUM"
if [ "$DRY_RUN" != true ]; then
printf '# To persist in your shell: export SPECIFY_FEATURE=%q\n' "$BRANCH_NAME"
fi
fi

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#!/usr/bin/env bash
set -e
# Parse command line arguments
JSON_MODE=false
ARGS=()
for arg in "$@"; do
case "$arg" in
--json)
JSON_MODE=true
;;
--help|-h)
echo "Usage: $0 [--json]"
echo " --json Output results in JSON format"
echo " --help Show this help message"
exit 0
;;
*)
ARGS+=("$arg")
;;
esac
done
# Get script directory and load common functions
SCRIPT_DIR="$(CDPATH="" cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
source "$SCRIPT_DIR/common.sh"
# Get all paths and variables from common functions
_paths_output=$(get_feature_paths) || { echo "ERROR: Failed to resolve feature paths" >&2; exit 1; }
eval "$_paths_output"
unset _paths_output
# If feature.json pins an existing feature directory, branch naming is not required.
if ! feature_json_matches_feature_dir "$REPO_ROOT" "$FEATURE_DIR"; then
check_feature_branch "$CURRENT_BRANCH" "$HAS_GIT" || exit 1
fi
# Ensure the feature directory exists
mkdir -p "$FEATURE_DIR"
# Copy plan template if plan doesn't already exist
if [[ -f "$IMPL_PLAN" ]]; then
if $JSON_MODE; then
echo "Plan already exists at $IMPL_PLAN, skipping template copy" >&2
else
echo "Plan already exists at $IMPL_PLAN, skipping template copy"
fi
else
TEMPLATE=$(resolve_template "plan-template" "$REPO_ROOT") || true
if [[ -n "$TEMPLATE" ]] && [[ -f "$TEMPLATE" ]]; then
cp "$TEMPLATE" "$IMPL_PLAN"
if $JSON_MODE; then
echo "Copied plan template to $IMPL_PLAN" >&2
else
echo "Copied plan template to $IMPL_PLAN"
fi
else
if $JSON_MODE; then
echo "Warning: Plan template not found" >&2
else
echo "Warning: Plan template not found"
fi
# Create a basic plan file if template doesn't exist
touch "$IMPL_PLAN"
fi
fi
# Output results
if $JSON_MODE; then
if has_jq; then
jq -cn \
--arg feature_spec "$FEATURE_SPEC" \
--arg impl_plan "$IMPL_PLAN" \
--arg specs_dir "$FEATURE_DIR" \
--arg branch "$CURRENT_BRANCH" \
--arg has_git "$HAS_GIT" \
'{FEATURE_SPEC:$feature_spec,IMPL_PLAN:$impl_plan,SPECS_DIR:$specs_dir,BRANCH:$branch,HAS_GIT:$has_git}'
else
printf '{"FEATURE_SPEC":"%s","IMPL_PLAN":"%s","SPECS_DIR":"%s","BRANCH":"%s","HAS_GIT":"%s"}\n' \
"$(json_escape "$FEATURE_SPEC")" "$(json_escape "$IMPL_PLAN")" "$(json_escape "$FEATURE_DIR")" "$(json_escape "$CURRENT_BRANCH")" "$(json_escape "$HAS_GIT")"
fi
else
echo "FEATURE_SPEC: $FEATURE_SPEC"
echo "IMPL_PLAN: $IMPL_PLAN"
echo "SPECS_DIR: $FEATURE_DIR"
echo "BRANCH: $CURRENT_BRANCH"
echo "HAS_GIT: $HAS_GIT"
fi

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#!/usr/bin/env bash
set -e
# Parse command line arguments
JSON_MODE=false
for arg in "$@"; do
case "$arg" in
--json) JSON_MODE=true ;;
--help|-h)
echo "Usage: $0 [--json]"
echo " --json Output results in JSON format"
echo " --help Show this help message"
exit 0
;;
*) echo "ERROR: Unknown option '$arg'" >&2; exit 1 ;;
esac
done
# Source common functions
SCRIPT_DIR="$(CDPATH="" cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
source "$SCRIPT_DIR/common.sh"
# Get feature paths
_paths_output=$(get_feature_paths) || { echo "ERROR: Failed to resolve feature paths" >&2; exit 1; }
eval "$_paths_output"
unset _paths_output
# Validate branch
# If feature.json pins an existing feature directory, branch naming is not required.
if ! feature_json_matches_feature_dir "$REPO_ROOT" "$FEATURE_DIR"; then
check_feature_branch "$CURRENT_BRANCH" "$HAS_GIT" || exit 1
fi
if [[ ! -f "$IMPL_PLAN" ]]; then
echo "ERROR: plan.md not found in $FEATURE_DIR" >&2
echo "Run /speckit-plan first to create the implementation plan." >&2
exit 1
fi
if [[ ! -f "$FEATURE_SPEC" ]]; then
echo "ERROR: spec.md not found in $FEATURE_DIR" >&2
echo "Run /speckit-specify first to create the feature structure." >&2
exit 1
fi
# Build available docs list
docs=()
[[ -f "$RESEARCH" ]] && docs+=("research.md")
[[ -f "$DATA_MODEL" ]] && docs+=("data-model.md")
if [[ -d "$CONTRACTS_DIR" ]] && [[ -n "$(ls -A "$CONTRACTS_DIR" 2>/dev/null)" ]]; then
docs+=("contracts/")
fi
[[ -f "$QUICKSTART" ]] && docs+=("quickstart.md")
# Resolve tasks template through override stack
TASKS_TEMPLATE=$(resolve_template "tasks-template" "$REPO_ROOT") || true
if [[ -z "$TASKS_TEMPLATE" ]] || [[ ! -f "$TASKS_TEMPLATE" ]]; then
echo "ERROR: Could not resolve required tasks-template from the template override stack for $REPO_ROOT" >&2
echo "Template 'tasks-template' was not found in any supported location (overrides, presets, extensions, or shared core). Add an override at .specify/templates/overrides/tasks-template.md, or run 'specify init' / reinstall shared infra to restore the core .specify/templates/tasks-template.md template." >&2
exit 1
fi
# Output results
if $JSON_MODE; then
if has_jq; then
if [[ ${#docs[@]} -eq 0 ]]; then
json_docs="[]"
else
json_docs=$(printf '%s\n' "${docs[@]}" | jq -R . | jq -s .)
fi
jq -cn \
--arg feature_dir "$FEATURE_DIR" \
--argjson docs "$json_docs" \
--arg tasks_template "${TASKS_TEMPLATE:-}" \
'{FEATURE_DIR:$feature_dir,AVAILABLE_DOCS:$docs,TASKS_TEMPLATE:$tasks_template}'
else
if [[ ${#docs[@]} -eq 0 ]]; then
json_docs="[]"
else
json_docs=$(for d in "${docs[@]}"; do printf '"%s",' "$(json_escape "$d")"; done)
json_docs="[${json_docs%,}]"
fi
printf '{"FEATURE_DIR":"%s","AVAILABLE_DOCS":%s,"TASKS_TEMPLATE":"%s"}\n' \
"$(json_escape "$FEATURE_DIR")" "$json_docs" "$(json_escape "${TASKS_TEMPLATE:-}")"
fi
else
echo "FEATURE_DIR: $FEATURE_DIR"
echo "TASKS_TEMPLATE: ${TASKS_TEMPLATE:-not found}"
echo "AVAILABLE_DOCS:"
check_file "$RESEARCH" "research.md"
check_file "$DATA_MODEL" "data-model.md"
check_dir "$CONTRACTS_DIR" "contracts/"
check_file "$QUICKSTART" "quickstart.md"
fi

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# [CHECKLIST TYPE] Checklist: [FEATURE NAME]
**Purpose**: [Brief description of what this checklist covers]
**Created**: [DATE]
**Feature**: [Link to spec.md or relevant documentation]
**Note**: This checklist is generated by the `/speckit-checklist` command based on feature context and requirements.
<!--
============================================================================
IMPORTANT: The checklist items below are SAMPLE ITEMS for illustration only.
The /speckit-checklist command MUST replace these with actual items based on:
- User's specific checklist request
- Feature requirements from spec.md
- Technical context from plan.md
- Implementation details from tasks.md
DO NOT keep these sample items in the generated checklist file.
============================================================================
-->
## [Category 1]
- [ ] CHK001 First checklist item with clear action
- [ ] CHK002 Second checklist item
- [ ] CHK003 Third checklist item
## [Category 2]
- [ ] CHK004 Another category item
- [ ] CHK005 Item with specific criteria
- [ ] CHK006 Final item in this category
## Notes
- Check items off as completed: `[x]`
- Add comments or findings inline
- Link to relevant resources or documentation
- Items are numbered sequentially for easy reference

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# [PROJECT_NAME] Constitution
<!-- Example: Spec Constitution, TaskFlow Constitution, etc. -->
## Core Principles
### [PRINCIPLE_1_NAME]
<!-- Example: I. Library-First -->
[PRINCIPLE_1_DESCRIPTION]
<!-- Example: Every feature starts as a standalone library; Libraries must be self-contained, independently testable, documented; Clear purpose required - no organizational-only libraries -->
### [PRINCIPLE_2_NAME]
<!-- Example: II. CLI Interface -->
[PRINCIPLE_2_DESCRIPTION]
<!-- Example: Every library exposes functionality via CLI; Text in/out protocol: stdin/args → stdout, errors → stderr; Support JSON + human-readable formats -->
### [PRINCIPLE_3_NAME]
<!-- Example: III. Test-First (NON-NEGOTIABLE) -->
[PRINCIPLE_3_DESCRIPTION]
<!-- Example: TDD mandatory: Tests written → User approved → Tests fail → Then implement; Red-Green-Refactor cycle strictly enforced -->
### [PRINCIPLE_4_NAME]
<!-- Example: IV. Integration Testing -->
[PRINCIPLE_4_DESCRIPTION]
<!-- Example: Focus areas requiring integration tests: New library contract tests, Contract changes, Inter-service communication, Shared schemas -->
### [PRINCIPLE_5_NAME]
<!-- Example: V. Observability, VI. Versioning & Breaking Changes, VII. Simplicity -->
[PRINCIPLE_5_DESCRIPTION]
<!-- Example: Text I/O ensures debuggability; Structured logging required; Or: MAJOR.MINOR.BUILD format; Or: Start simple, YAGNI principles -->
## [SECTION_2_NAME]
<!-- Example: Additional Constraints, Security Requirements, Performance Standards, etc. -->
[SECTION_2_CONTENT]
<!-- Example: Technology stack requirements, compliance standards, deployment policies, etc. -->
## [SECTION_3_NAME]
<!-- Example: Development Workflow, Review Process, Quality Gates, etc. -->
[SECTION_3_CONTENT]
<!-- Example: Code review requirements, testing gates, deployment approval process, etc. -->
## Governance
<!-- Example: Constitution supersedes all other practices; Amendments require documentation, approval, migration plan -->
[GOVERNANCE_RULES]
<!-- Example: All PRs/reviews must verify compliance; Complexity must be justified; Use [GUIDANCE_FILE] for runtime development guidance -->
**Version**: [CONSTITUTION_VERSION] | **Ratified**: [RATIFICATION_DATE] | **Last Amended**: [LAST_AMENDED_DATE]
<!-- Example: Version: 2.1.1 | Ratified: 2025-06-13 | Last Amended: 2025-07-16 -->

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# Implementation Plan: [FEATURE]
**Branch**: `[###-feature-name]` | **Date**: [DATE] | **Spec**: [link]
**Input**: Feature specification from `/specs/[###-feature-name]/spec.md`
**Note**: This template is filled in by the `/speckit-plan` command. See `.specify/templates/plan-template.md` for the execution workflow.
## Summary
[Extract from feature spec: primary requirement + technical approach from research]
## Technical Context
<!--
ACTION REQUIRED: Replace the content in this section with the technical details
for the project. The structure here is presented in advisory capacity to guide
the iteration process.
-->
**Language/Version**: [e.g., Python 3.11, Swift 5.9, Rust 1.75 or NEEDS CLARIFICATION]
**Primary Dependencies**: [e.g., FastAPI, UIKit, LLVM or NEEDS CLARIFICATION]
**Storage**: [if applicable, e.g., PostgreSQL, CoreData, files or N/A]
**Testing**: [e.g., pytest, XCTest, cargo test or NEEDS CLARIFICATION]
**Target Platform**: [e.g., Linux server, iOS 15+, WASM or NEEDS CLARIFICATION]
**Project Type**: [e.g., library/cli/web-service/mobile-app/compiler/desktop-app or NEEDS CLARIFICATION]
**Performance Goals**: [domain-specific, e.g., 1000 req/s, 10k lines/sec, 60 fps or NEEDS CLARIFICATION]
**Constraints**: [domain-specific, e.g., <200ms p95, <100MB memory, offline-capable or NEEDS CLARIFICATION]
**Scale/Scope**: [domain-specific, e.g., 10k users, 1M LOC, 50 screens or NEEDS CLARIFICATION]
## Constitution Check
*GATE: Must pass before Phase 0 research. Re-check after Phase 1 design.*
[Gates determined based on constitution file]
## Project Structure
### Documentation (this feature)
```text
specs/[###-feature]/
├── plan.md # This file (/speckit-plan command output)
├── research.md # Phase 0 output (/speckit-plan command)
├── data-model.md # Phase 1 output (/speckit-plan command)
├── quickstart.md # Phase 1 output (/speckit-plan command)
├── contracts/ # Phase 1 output (/speckit-plan command)
└── tasks.md # Phase 2 output (/speckit-tasks command - NOT created by /speckit-plan)
```
### Source Code (repository root)
<!--
ACTION REQUIRED: Replace the placeholder tree below with the concrete layout
for this feature. Delete unused options and expand the chosen structure with
real paths (e.g., apps/admin, packages/something). The delivered plan must
not include Option labels.
-->
```text
# [REMOVE IF UNUSED] Option 1: Single project (DEFAULT)
src/
├── models/
├── services/
├── cli/
└── lib/
tests/
├── contract/
├── integration/
└── unit/
# [REMOVE IF UNUSED] Option 2: Web application (when "frontend" + "backend" detected)
backend/
├── src/
│ ├── models/
│ ├── services/
│ └── api/
└── tests/
frontend/
├── src/
│ ├── components/
│ ├── pages/
│ └── services/
└── tests/
# [REMOVE IF UNUSED] Option 3: Mobile + API (when "iOS/Android" detected)
api/
└── [same as backend above]
ios/ or android/
└── [platform-specific structure: feature modules, UI flows, platform tests]
```
**Structure Decision**: [Document the selected structure and reference the real
directories captured above]
## Complexity Tracking
> **Fill ONLY if Constitution Check has violations that must be justified**
| Violation | Why Needed | Simpler Alternative Rejected Because |
|-----------|------------|-------------------------------------|
| [e.g., 4th project] | [current need] | [why 3 projects insufficient] |
| [e.g., Repository pattern] | [specific problem] | [why direct DB access insufficient] |

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# Feature Specification: [FEATURE NAME]
**Feature Branch**: `[###-feature-name]`
**Created**: [DATE]
**Status**: Draft
**Input**: User description: "$ARGUMENTS"
## User Scenarios & Testing *(mandatory)*
<!--
IMPORTANT: User stories should be PRIORITIZED as user journeys ordered by importance.
Each user story/journey must be INDEPENDENTLY TESTABLE - meaning if you implement just ONE of them,
you should still have a viable MVP (Minimum Viable Product) that delivers value.
Assign priorities (P1, P2, P3, etc.) to each story, where P1 is the most critical.
Think of each story as a standalone slice of functionality that can be:
- Developed independently
- Tested independently
- Deployed independently
- Demonstrated to users independently
-->
### User Story 1 - [Brief Title] (Priority: P1)
[Describe this user journey in plain language]
**Why this priority**: [Explain the value and why it has this priority level]
**Independent Test**: [Describe how this can be tested independently - e.g., "Can be fully tested by [specific action] and delivers [specific value]"]
**Acceptance Scenarios**:
1. **Given** [initial state], **When** [action], **Then** [expected outcome]
2. **Given** [initial state], **When** [action], **Then** [expected outcome]
---
### User Story 2 - [Brief Title] (Priority: P2)
[Describe this user journey in plain language]
**Why this priority**: [Explain the value and why it has this priority level]
**Independent Test**: [Describe how this can be tested independently]
**Acceptance Scenarios**:
1. **Given** [initial state], **When** [action], **Then** [expected outcome]
---
### User Story 3 - [Brief Title] (Priority: P3)
[Describe this user journey in plain language]
**Why this priority**: [Explain the value and why it has this priority level]
**Independent Test**: [Describe how this can be tested independently]
**Acceptance Scenarios**:
1. **Given** [initial state], **When** [action], **Then** [expected outcome]
---
[Add more user stories as needed, each with an assigned priority]
### Edge Cases
<!--
ACTION REQUIRED: The content in this section represents placeholders.
Fill them out with the right edge cases.
-->
- What happens when [boundary condition]?
- How does system handle [error scenario]?
## Requirements *(mandatory)*
<!--
ACTION REQUIRED: The content in this section represents placeholders.
Fill them out with the right functional requirements.
-->
### Functional Requirements
- **FR-001**: System MUST [specific capability, e.g., "allow users to create accounts"]
- **FR-002**: System MUST [specific capability, e.g., "validate email addresses"]
- **FR-003**: Users MUST be able to [key interaction, e.g., "reset their password"]
- **FR-004**: System MUST [data requirement, e.g., "persist user preferences"]
- **FR-005**: System MUST [behavior, e.g., "log all security events"]
*Example of marking unclear requirements:*
- **FR-006**: System MUST authenticate users via [NEEDS CLARIFICATION: auth method not specified - email/password, SSO, OAuth?]
- **FR-007**: System MUST retain user data for [NEEDS CLARIFICATION: retention period not specified]
### Key Entities *(include if feature involves data)*
- **[Entity 1]**: [What it represents, key attributes without implementation]
- **[Entity 2]**: [What it represents, relationships to other entities]
## Success Criteria *(mandatory)*
<!--
ACTION REQUIRED: Define measurable success criteria.
These must be technology-agnostic and measurable.
-->
### Measurable Outcomes
- **SC-001**: [Measurable metric, e.g., "Users can complete account creation in under 2 minutes"]
- **SC-002**: [Measurable metric, e.g., "System handles 1000 concurrent users without degradation"]
- **SC-003**: [User satisfaction metric, e.g., "90% of users successfully complete primary task on first attempt"]
- **SC-004**: [Business metric, e.g., "Reduce support tickets related to [X] by 50%"]
## Assumptions
<!--
ACTION REQUIRED: The content in this section represents placeholders.
Fill them out with the right assumptions based on reasonable defaults
chosen when the feature description did not specify certain details.
-->
- [Assumption about target users, e.g., "Users have stable internet connectivity"]
- [Assumption about scope boundaries, e.g., "Mobile support is out of scope for v1"]
- [Assumption about data/environment, e.g., "Existing authentication system will be reused"]
- [Dependency on existing system/service, e.g., "Requires access to the existing user profile API"]

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---
description: "Task list template for feature implementation"
---
# Tasks: [FEATURE NAME]
**Input**: Design documents from `/specs/[###-feature-name]/`
**Prerequisites**: plan.md (required), spec.md (required for user stories), research.md, data-model.md, contracts/
**Tests**: The examples below include test tasks. Tests are OPTIONAL - only include them if explicitly requested in the feature specification.
**Organization**: Tasks are grouped by user story to enable independent implementation and testing of each story.
## Format: `[ID] [P?] [Story] Description`
- **[P]**: Can run in parallel (different files, no dependencies)
- **[Story]**: Which user story this task belongs to (e.g., US1, US2, US3)
- Include exact file paths in descriptions
## Path Conventions
- **Single project**: `src/`, `tests/` at repository root
- **Web app**: `backend/src/`, `frontend/src/`
- **Mobile**: `api/src/`, `ios/src/` or `android/src/`
- Paths shown below assume single project - adjust based on plan.md structure
<!--
============================================================================
IMPORTANT: The tasks below are SAMPLE TASKS for illustration purposes only.
The /speckit-tasks command MUST replace these with actual tasks based on:
- User stories from spec.md (with their priorities P1, P2, P3...)
- Feature requirements from plan.md
- Entities from data-model.md
- Endpoints from contracts/
Tasks MUST be organized by user story so each story can be:
- Implemented independently
- Tested independently
- Delivered as an MVP increment
DO NOT keep these sample tasks in the generated tasks.md file.
============================================================================
-->
## Phase 1: Setup (Shared Infrastructure)
**Purpose**: Project initialization and basic structure
- [ ] T001 Create project structure per implementation plan
- [ ] T002 Initialize [language] project with [framework] dependencies
- [ ] T003 [P] Configure linting and formatting tools
---
## Phase 2: Foundational (Blocking Prerequisites)
**Purpose**: Core infrastructure that MUST be complete before ANY user story can be implemented
**⚠️ CRITICAL**: No user story work can begin until this phase is complete
Examples of foundational tasks (adjust based on your project):
- [ ] T004 Setup database schema and migrations framework
- [ ] T005 [P] Implement authentication/authorization framework
- [ ] T006 [P] Setup API routing and middleware structure
- [ ] T007 Create base models/entities that all stories depend on
- [ ] T008 Configure error handling and logging infrastructure
- [ ] T009 Setup environment configuration management
**Checkpoint**: Foundation ready - user story implementation can now begin in parallel
---
## Phase 3: User Story 1 - [Title] (Priority: P1) 🎯 MVP
**Goal**: [Brief description of what this story delivers]
**Independent Test**: [How to verify this story works on its own]
### Tests for User Story 1 (OPTIONAL - only if tests requested) ⚠️
> **NOTE: Write these tests FIRST, ensure they FAIL before implementation**
- [ ] T010 [P] [US1] Contract test for [endpoint] in tests/contract/test_[name].py
- [ ] T011 [P] [US1] Integration test for [user journey] in tests/integration/test_[name].py
### Implementation for User Story 1
- [ ] T012 [P] [US1] Create [Entity1] model in src/models/[entity1].py
- [ ] T013 [P] [US1] Create [Entity2] model in src/models/[entity2].py
- [ ] T014 [US1] Implement [Service] in src/services/[service].py (depends on T012, T013)
- [ ] T015 [US1] Implement [endpoint/feature] in src/[location]/[file].py
- [ ] T016 [US1] Add validation and error handling
- [ ] T017 [US1] Add logging for user story 1 operations
**Checkpoint**: At this point, User Story 1 should be fully functional and testable independently
---
## Phase 4: User Story 2 - [Title] (Priority: P2)
**Goal**: [Brief description of what this story delivers]
**Independent Test**: [How to verify this story works on its own]
### Tests for User Story 2 (OPTIONAL - only if tests requested) ⚠️
- [ ] T018 [P] [US2] Contract test for [endpoint] in tests/contract/test_[name].py
- [ ] T019 [P] [US2] Integration test for [user journey] in tests/integration/test_[name].py
### Implementation for User Story 2
- [ ] T020 [P] [US2] Create [Entity] model in src/models/[entity].py
- [ ] T021 [US2] Implement [Service] in src/services/[service].py
- [ ] T022 [US2] Implement [endpoint/feature] in src/[location]/[file].py
- [ ] T023 [US2] Integrate with User Story 1 components (if needed)
**Checkpoint**: At this point, User Stories 1 AND 2 should both work independently
---
## Phase 5: User Story 3 - [Title] (Priority: P3)
**Goal**: [Brief description of what this story delivers]
**Independent Test**: [How to verify this story works on its own]
### Tests for User Story 3 (OPTIONAL - only if tests requested) ⚠️
- [ ] T024 [P] [US3] Contract test for [endpoint] in tests/contract/test_[name].py
- [ ] T025 [P] [US3] Integration test for [user journey] in tests/integration/test_[name].py
### Implementation for User Story 3
- [ ] T026 [P] [US3] Create [Entity] model in src/models/[entity].py
- [ ] T027 [US3] Implement [Service] in src/services/[service].py
- [ ] T028 [US3] Implement [endpoint/feature] in src/[location]/[file].py
**Checkpoint**: All user stories should now be independently functional
---
[Add more user story phases as needed, following the same pattern]
---
## Phase N: Polish & Cross-Cutting Concerns
**Purpose**: Improvements that affect multiple user stories
- [ ] TXXX [P] Documentation updates in docs/
- [ ] TXXX Code cleanup and refactoring
- [ ] TXXX Performance optimization across all stories
- [ ] TXXX [P] Additional unit tests (if requested) in tests/unit/
- [ ] TXXX Security hardening
- [ ] TXXX Run quickstart.md validation
---
## Dependencies & Execution Order
### Phase Dependencies
- **Setup (Phase 1)**: No dependencies - can start immediately
- **Foundational (Phase 2)**: Depends on Setup completion - BLOCKS all user stories
- **User Stories (Phase 3+)**: All depend on Foundational phase completion
- User stories can then proceed in parallel (if staffed)
- Or sequentially in priority order (P1 → P2 → P3)
- **Polish (Final Phase)**: Depends on all desired user stories being complete
### User Story Dependencies
- **User Story 1 (P1)**: Can start after Foundational (Phase 2) - No dependencies on other stories
- **User Story 2 (P2)**: Can start after Foundational (Phase 2) - May integrate with US1 but should be independently testable
- **User Story 3 (P3)**: Can start after Foundational (Phase 2) - May integrate with US1/US2 but should be independently testable
### Within Each User Story
- Tests (if included) MUST be written and FAIL before implementation
- Models before services
- Services before endpoints
- Core implementation before integration
- Story complete before moving to next priority
### Parallel Opportunities
- All Setup tasks marked [P] can run in parallel
- All Foundational tasks marked [P] can run in parallel (within Phase 2)
- Once Foundational phase completes, all user stories can start in parallel (if team capacity allows)
- All tests for a user story marked [P] can run in parallel
- Models within a story marked [P] can run in parallel
- Different user stories can be worked on in parallel by different team members
---
## Parallel Example: User Story 1
```bash
# Launch all tests for User Story 1 together (if tests requested):
Task: "Contract test for [endpoint] in tests/contract/test_[name].py"
Task: "Integration test for [user journey] in tests/integration/test_[name].py"
# Launch all models for User Story 1 together:
Task: "Create [Entity1] model in src/models/[entity1].py"
Task: "Create [Entity2] model in src/models/[entity2].py"
```
---
## Implementation Strategy
### MVP First (User Story 1 Only)
1. Complete Phase 1: Setup
2. Complete Phase 2: Foundational (CRITICAL - blocks all stories)
3. Complete Phase 3: User Story 1
4. **STOP and VALIDATE**: Test User Story 1 independently
5. Deploy/demo if ready
### Incremental Delivery
1. Complete Setup + Foundational → Foundation ready
2. Add User Story 1 → Test independently → Deploy/Demo (MVP!)
3. Add User Story 2 → Test independently → Deploy/Demo
4. Add User Story 3 → Test independently → Deploy/Demo
5. Each story adds value without breaking previous stories
### Parallel Team Strategy
With multiple developers:
1. Team completes Setup + Foundational together
2. Once Foundational is done:
- Developer A: User Story 1
- Developer B: User Story 2
- Developer C: User Story 3
3. Stories complete and integrate independently
---
## Notes
- [P] tasks = different files, no dependencies
- [Story] label maps task to specific user story for traceability
- Each user story should be independently completable and testable
- Verify tests fail before implementing
- Commit after each task or logical group
- Stop at any checkpoint to validate story independently
- Avoid: vague tasks, same file conflicts, cross-story dependencies that break independence

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.specify/workflows/speckit/workflow.yml Normal file
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schema_version: "1.0"
workflow:
id: "speckit"
name: "Full SDD Cycle"
version: "1.0.0"
author: "GitHub"
description: "Runs specify → plan → tasks → implement with review gates"
requires:
# 0.8.5 is the first release with engine-side resolution of the
# ``integration: "auto"`` default. Older versions would treat "auto"
# as a literal integration key and fail at dispatch.
speckit_version: ">=0.8.5"
integrations:
# The four commands below (specify, plan, tasks, implement) are core
# spec-kit commands provided by every integration. The list here is an
# advisory, non-exhaustive compatibility hint following the documented
# ``any: [...]`` schema -- it is NOT a closed set. The workflow runs
# against any integration the project was initialized with, including
# ones not listed below, as long as that integration provides the four
# core commands referenced in ``steps``.
any:
- "claude"
- "copilot"
- "gemini"
- "opencode"
inputs:
spec:
type: string
required: true
prompt: "Describe what you want to build"
integration:
type: string
default: "auto"
prompt: "Integration to use (e.g. claude, copilot, gemini; 'auto' uses the project's initialized integration)"
scope:
type: string
default: "full"
enum: ["full", "backend-only", "frontend-only"]
steps:
- id: specify
command: speckit.specify
integration: "{{ inputs.integration }}"
input:
args: "{{ inputs.spec }}"
- id: review-spec
type: gate
message: "Review the generated spec before planning."
options: [approve, reject]
on_reject: abort
- id: plan
command: speckit.plan
integration: "{{ inputs.integration }}"
input:
args: "{{ inputs.spec }}"
- id: review-plan
type: gate
message: "Review the plan before generating tasks."
options: [approve, reject]
on_reject: abort
- id: tasks
command: speckit.tasks
integration: "{{ inputs.integration }}"
input:
args: "{{ inputs.spec }}"
- id: implement
command: speckit.implement
integration: "{{ inputs.integration }}"
input:
args: "{{ inputs.spec }}"

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{
"schema_version": "1.0",
"workflows": {
"speckit": {
"name": "Full SDD Cycle",
"version": "1.0.0",
"description": "Runs specify \u2192 plan \u2192 tasks \u2192 implement with review gates",
"source": "bundled",
"installed_at": "2026-06-08T01:33:59.624631+00:00",
"updated_at": "2026-06-08T01:33:59.624637+00:00"
}
}
}