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[Spec Kit] Initial commit — constitution, spec, plan, and tasks for Reaction Image Board v1

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agathanonymous
2026-05-02 15:56:39 +00:00
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190
.specify/scripts/bash/check-prerequisites.sh Executable file
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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 "$SCRIPT_DIR/common.sh"
# Get feature paths and validate branch
_paths_output=$(get_feature_paths) || { echo "ERROR: Failed to resolve feature paths" >&2; exit 1; }
eval "$_paths_output"
unset _paths_output
check_feature_branch "$CURRENT_BRANCH" "$HAS_GIT" || exit 1
# If paths-only mode, output paths and exit (support JSON + paths-only combined)
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: $TASKS"
fi
exit 0
fi
# Validate required directories and files
if [[ ! -d "$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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.specify/scripts/bash/common.sh Executable file
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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
}
# 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
View File

@@ -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

75
.specify/scripts/bash/setup-plan.sh Executable file
View File

@@ -0,0 +1,75 @@
#!/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 "$FEATURE_DIR"
# Copy plan template if it exists
TEMPLATE=$(resolve_template "plan-template" "$REPO_ROOT") || true
if [[ -n "$TEMPLATE" ]] && [[ -f "$TEMPLATE" ]]; then
cp "$TEMPLATE" "$IMPL_PLAN"
echo "Copied plan template to $IMPL_PLAN"
else
echo "Warning: Plan template not found"
# Create a basic plan file if template doesn't exist
touch "$IMPL_PLAN"
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