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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 -->

166
.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 '$arg'. Use --help for usage information." >&2
exit 1
;;
esac
done
# Source common functions
SCRIPT_DIR="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
source "$SCRIPT_DIR/common.sh"
# Get feature paths and validate branch
eval $(get_feature_paths)
check_feature_branch "$CURRENT_BRANCH" "$HAS_GIT" || exit 1
# If paths-only mode, output paths and exit (support JSON + paths-only combined)
if $PATHS_ONLY; then
if $JSON_MODE; then
# Minimal JSON paths payload (no validation performed)
printf '{"REPO_ROOT":"%s","BRANCH":"%s","FEATURE_DIR":"%s","FEATURE_SPEC":"%s","IMPL_PLAN":"%s","TASKS":"%s"}\n' \
"$REPO_ROOT" "$CURRENT_BRANCH" "$FEATURE_DIR" "$FEATURE_SPEC" "$IMPL_PLAN" "$TASKS"
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 [[ ${#docs[@]} -eq 0 ]]; then
json_docs="[]"
else
json_docs=$(printf '"%s",' "${docs[@]}")
json_docs="[${json_docs%,}]"
fi
printf '{"FEATURE_DIR":"%s","AVAILABLE_DOCS":%s}\n' "$FEATURE_DIR" "$json_docs"
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
# Get repository root, with fallback for non-git repositories
get_repo_root() {
if git rev-parse --show-toplevel >/dev/null 2>&1; then
git rev-parse --show-toplevel
else
# Fall back to script location for non-git repos
local script_dir="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
(cd "$script_dir/../../.." && pwd)
fi
}
# 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
if git rev-parse --abbrev-ref HEAD >/dev/null 2>&1; then
git rev-parse --abbrev-ref HEAD
return
fi
# For non-git repos, try to find the latest feature directory
local repo_root=$(get_repo_root)
local specs_dir="$repo_root/specs"
if [[ -d "$specs_dir" ]]; then
local latest_feature=""
local highest=0
for dir in "$specs_dir"/*; do
if [[ -d "$dir" ]]; then
local dirname=$(basename "$dir")
if [[ "$dirname" =~ ^([0-9]{3})- ]]; then
local number=${BASH_REMATCH[1]}
number=$((10#$number))
if [[ "$number" -gt "$highest" ]]; then
highest=$number
latest_feature=$dirname
fi
fi
fi
done
if [[ -n "$latest_feature" ]]; then
echo "$latest_feature"
return
fi
fi
echo "main" # Final fallback
}
# Check if we have git available
has_git() {
git rev-parse --show-toplevel >/dev/null 2>&1
}
check_feature_branch() {
local branch="$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
if [[ ! "$branch" =~ ^[0-9]{3}- ]]; then
echo "ERROR: Not on a feature branch. Current branch: $branch" >&2
echo "Feature branches should be named like: 001-feature-name" >&2
return 1
fi
return 0
}
get_feature_dir() { echo "$1/specs/$2"; }
get_feature_paths() {
local repo_root=$(get_repo_root)
local current_branch=$(get_current_branch)
local has_git_repo="false"
if has_git; then
has_git_repo="true"
fi
local feature_dir=$(get_feature_dir "$repo_root" "$current_branch")
cat <<EOF
REPO_ROOT='$repo_root'
CURRENT_BRANCH='$current_branch'
HAS_GIT='$has_git_repo'
FEATURE_DIR='$feature_dir'
FEATURE_SPEC='$feature_dir/spec.md'
IMPL_PLAN='$feature_dir/plan.md'
TASKS='$feature_dir/tasks.md'
RESEARCH='$feature_dir/research.md'
DATA_MODEL='$feature_dir/data-model.md'
QUICKSTART='$feature_dir/quickstart.md'
CONTRACTS_DIR='$feature_dir/contracts'
EOF
}
check_file() { [[ -f "$1" ]] && echo "$2" || echo "$2"; }
check_dir() { [[ -d "$1" && -n $(ls -A "$1" 2>/dev/null) ]] && echo "$2" || echo "$2"; }

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.specify/scripts/bash/create-new-feature.sh Executable file
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#!/usr/bin/env bash
set -e
JSON_MODE=false
ARGS=()
for arg in "$@"; do
case "$arg" in
--json) JSON_MODE=true ;;
--help|-h) echo "Usage: $0 [--json] <feature_description>"; exit 0 ;;
*) ARGS+=("$arg") ;;
esac
done
FEATURE_DESCRIPTION="${ARGS[*]}"
if [ -z "$FEATURE_DESCRIPTION" ]; then
echo "Usage: $0 [--json] <feature_description>" >&2
exit 1
fi
# Function to find the repository root by searching for existing project markers
find_repo_root() {
local dir="$1"
while [ "$dir" != "/" ]; do
if [ -d "$dir/.git" ] || [ -d "$dir/.specify" ]; then
echo "$dir"
return 0
fi
dir="$(dirname "$dir")"
done
return 1
}
# Resolve repository root. Prefer git information when available, but fall back
# to searching for repository markers so the workflow still functions in repositories that
# were initialised with --no-git.
SCRIPT_DIR="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
if git rev-parse --show-toplevel >/dev/null 2>&1; then
REPO_ROOT=$(git rev-parse --show-toplevel)
HAS_GIT=true
else
REPO_ROOT="$(find_repo_root "$SCRIPT_DIR")"
if [ -z "$REPO_ROOT" ]; then
echo "Error: Could not determine repository root. Please run this script from within the repository." >&2
exit 1
fi
HAS_GIT=false
fi
cd "$REPO_ROOT"
SPECS_DIR="$REPO_ROOT/specs"
mkdir -p "$SPECS_DIR"
HIGHEST=0
if [ -d "$SPECS_DIR" ]; then
for dir in "$SPECS_DIR"/*; do
[ -d "$dir" ] || continue
dirname=$(basename "$dir")
number=$(echo "$dirname" | grep -o '^[0-9]\+' || echo "0")
number=$((10#$number))
if [ "$number" -gt "$HIGHEST" ]; then HIGHEST=$number; fi
done
fi
NEXT=$((HIGHEST + 1))
FEATURE_NUM=$(printf "%03d" "$NEXT")
BRANCH_NAME=$(echo "$FEATURE_DESCRIPTION" | tr '[:upper:]' '[:lower:]' | sed 's/[^a-z0-9]/-/g' | sed 's/-\+/-/g' | sed 's/^-//' | sed 's/-$//')
WORDS=$(echo "$BRANCH_NAME" | tr '-' '\n' | grep -v '^$' | head -3 | tr '\n' '-' | sed 's/-$//')
BRANCH_NAME="${FEATURE_NUM}-${WORDS}"
if [ "$HAS_GIT" = true ]; then
git checkout -b "$BRANCH_NAME"
else
>&2 echo "[specify] Warning: Git repository not detected; skipped branch creation for $BRANCH_NAME"
fi
FEATURE_DIR="$SPECS_DIR/$BRANCH_NAME"
mkdir -p "$FEATURE_DIR"
TEMPLATE="$REPO_ROOT/.specify/templates/spec-template.md"
SPEC_FILE="$FEATURE_DIR/spec.md"
if [ -f "$TEMPLATE" ]; then cp "$TEMPLATE" "$SPEC_FILE"; else touch "$SPEC_FILE"; fi
# Set the SPECIFY_FEATURE environment variable for the current session
export SPECIFY_FEATURE="$BRANCH_NAME"
if $JSON_MODE; then
printf '{"BRANCH_NAME":"%s","SPEC_FILE":"%s","FEATURE_NUM":"%s"}\n' "$BRANCH_NAME" "$SPEC_FILE" "$FEATURE_NUM"
else
echo "BRANCH_NAME: $BRANCH_NAME"
echo "SPEC_FILE: $SPEC_FILE"
echo "FEATURE_NUM: $FEATURE_NUM"
echo "SPECIFY_FEATURE environment variable set to: $BRANCH_NAME"
fi

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.specify/scripts/bash/setup-plan.sh Executable file
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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="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
source "$SCRIPT_DIR/common.sh"
# Get all paths and variables from common functions
eval $(get_feature_paths)
# Check if we're on a proper feature branch (only for git repos)
check_feature_branch "$CURRENT_BRANCH" "$HAS_GIT" || exit 1
# Ensure the feature directory exists
mkdir -p "$FEATURE_DIR"
# Copy plan template if it exists
TEMPLATE="$REPO_ROOT/.specify/templates/plan-template.md"
if [[ -f "$TEMPLATE" ]]; then
cp "$TEMPLATE" "$IMPL_PLAN"
echo "Copied plan template to $IMPL_PLAN"
else
echo "Warning: Plan template not found at $TEMPLATE"
# Create a basic plan file if template doesn't exist
touch "$IMPL_PLAN"
fi
# Output results
if $JSON_MODE; then
printf '{"FEATURE_SPEC":"%s","IMPL_PLAN":"%s","SPECS_DIR":"%s","BRANCH":"%s","HAS_GIT":"%s"}\n' \
"$FEATURE_SPEC" "$IMPL_PLAN" "$FEATURE_DIR" "$CURRENT_BRANCH" "$HAS_GIT"
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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.specify/scripts/bash/update-agent-context.sh Executable file
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#!/usr/bin/env bash
# Update agent context files with information from plan.md
#
# This script maintains AI agent context files by parsing feature specifications
# and updating agent-specific configuration files with project information.
#
# MAIN FUNCTIONS:
# 1. Environment Validation
# - Verifies git repository structure and branch information
# - Checks for required plan.md files and templates
# - Validates file permissions and accessibility
#
# 2. Plan Data Extraction
# - Parses plan.md files to extract project metadata
# - Identifies language/version, frameworks, databases, and project types
# - Handles missing or incomplete specification data gracefully
#
# 3. Agent File Management
# - Creates new agent context files from templates when needed
# - Updates existing agent files with new project information
# - Preserves manual additions and custom configurations
# - Supports multiple AI agent formats and directory structures
#
# 4. Content Generation
# - Generates language-specific build/test commands
# - Creates appropriate project directory structures
# - Updates technology stacks and recent changes sections
# - Maintains consistent formatting and timestamps
#
# 5. Multi-Agent Support
# - Handles agent-specific file paths and naming conventions
# - Supports: Claude, Gemini, Copilot, Cursor, Qwen, opencode, Codex, Windsurf, Kilo Code, Auggie CLI, or Amazon Q Developer CLI
# - Can update single agents or all existing agent files
# - Creates default Claude file if no agent files exist
#
# Usage: ./update-agent-context.sh [agent_type]
# Agent types: claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|q
# Leave empty to update all existing agent files
set -e
# Enable strict error handling
set -u
set -o pipefail
#==============================================================================
# Configuration and Global Variables
#==============================================================================
# Get script directory and load common functions
SCRIPT_DIR="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
source "$SCRIPT_DIR/common.sh"
# Get all paths and variables from common functions
eval $(get_feature_paths)
NEW_PLAN="$IMPL_PLAN" # Alias for compatibility with existing code
AGENT_TYPE="${1:-}"
# Agent-specific file paths
CLAUDE_FILE="$REPO_ROOT/CLAUDE.md"
GEMINI_FILE="$REPO_ROOT/GEMINI.md"
COPILOT_FILE="$REPO_ROOT/.github/copilot-instructions.md"
CURSOR_FILE="$REPO_ROOT/.cursor/rules/specify-rules.mdc"
QWEN_FILE="$REPO_ROOT/QWEN.md"
AGENTS_FILE="$REPO_ROOT/AGENTS.md"
WINDSURF_FILE="$REPO_ROOT/.windsurf/rules/specify-rules.md"
KILOCODE_FILE="$REPO_ROOT/.kilocode/rules/specify-rules.md"
AUGGIE_FILE="$REPO_ROOT/.augment/rules/specify-rules.md"
ROO_FILE="$REPO_ROOT/.roo/rules/specify-rules.md"
Q_FILE="$REPO_ROOT/AGENTS.md"
# Template file
TEMPLATE_FILE="$REPO_ROOT/.specify/templates/agent-file-template.md"
# Global variables for parsed plan data
NEW_LANG=""
NEW_FRAMEWORK=""
NEW_DB=""
NEW_PROJECT_TYPE=""
#==============================================================================
# Utility Functions
#==============================================================================
log_info() {
echo "INFO: $1"
}
log_success() {
echo "$1"
}
log_error() {
echo "ERROR: $1" >&2
}
log_warning() {
echo "WARNING: $1" >&2
}
# Cleanup function for temporary files
cleanup() {
local exit_code=$?
rm -f /tmp/agent_update_*_$$
rm -f /tmp/manual_additions_$$
exit $exit_code
}
# Set up cleanup trap
trap cleanup EXIT INT TERM
#==============================================================================
# Validation Functions
#==============================================================================
validate_environment() {
# Check if we have a current branch/feature (git or non-git)
if [[ -z "$CURRENT_BRANCH" ]]; then
log_error "Unable to determine current feature"
if [[ "$HAS_GIT" == "true" ]]; then
log_info "Make sure you're on a feature branch"
else
log_info "Set SPECIFY_FEATURE environment variable or create a feature first"
fi
exit 1
fi
# Check if plan.md exists
if [[ ! -f "$NEW_PLAN" ]]; then
log_error "No plan.md found at $NEW_PLAN"
log_info "Make sure you're working on a feature with a corresponding spec directory"
if [[ "$HAS_GIT" != "true" ]]; then
log_info "Use: export SPECIFY_FEATURE=your-feature-name or create a new feature first"
fi
exit 1
fi
# Check if template exists (needed for new files)
if [[ ! -f "$TEMPLATE_FILE" ]]; then
log_warning "Template file not found at $TEMPLATE_FILE"
log_warning "Creating new agent files will fail"
fi
}
#==============================================================================
# Plan Parsing Functions
#==============================================================================
extract_plan_field() {
local field_pattern="$1"
local plan_file="$2"
grep "^\*\*${field_pattern}\*\*: " "$plan_file" 2>/dev/null | \
head -1 | \
sed "s|^\*\*${field_pattern}\*\*: ||" | \
sed 's/^[ \t]*//;s/[ \t]*$//' | \
grep -v "NEEDS CLARIFICATION" | \
grep -v "^N/A$" || echo ""
}
parse_plan_data() {
local plan_file="$1"
if [[ ! -f "$plan_file" ]]; then
log_error "Plan file not found: $plan_file"
return 1
fi
if [[ ! -r "$plan_file" ]]; then
log_error "Plan file is not readable: $plan_file"
return 1
fi
log_info "Parsing plan data from $plan_file"
NEW_LANG=$(extract_plan_field "Language/Version" "$plan_file")
NEW_FRAMEWORK=$(extract_plan_field "Primary Dependencies" "$plan_file")
NEW_DB=$(extract_plan_field "Storage" "$plan_file")
NEW_PROJECT_TYPE=$(extract_plan_field "Project Type" "$plan_file")
# Log what we found
if [[ -n "$NEW_LANG" ]]; then
log_info "Found language: $NEW_LANG"
else
log_warning "No language information found in plan"
fi
if [[ -n "$NEW_FRAMEWORK" ]]; then
log_info "Found framework: $NEW_FRAMEWORK"
fi
if [[ -n "$NEW_DB" ]] && [[ "$NEW_DB" != "N/A" ]]; then
log_info "Found database: $NEW_DB"
fi
if [[ -n "$NEW_PROJECT_TYPE" ]]; then
log_info "Found project type: $NEW_PROJECT_TYPE"
fi
}
format_technology_stack() {
local lang="$1"
local framework="$2"
local parts=()
# Add non-empty parts
[[ -n "$lang" && "$lang" != "NEEDS CLARIFICATION" ]] && parts+=("$lang")
[[ -n "$framework" && "$framework" != "NEEDS CLARIFICATION" && "$framework" != "N/A" ]] && parts+=("$framework")
# Join with proper formatting
if [[ ${#parts[@]} -eq 0 ]]; then
echo ""
elif [[ ${#parts[@]} -eq 1 ]]; then
echo "${parts[0]}"
else
# Join multiple parts with " + "
local result="${parts[0]}"
for ((i=1; i<${#parts[@]}; i++)); do
result="$result + ${parts[i]}"
done
echo "$result"
fi
}
#==============================================================================
# Template and Content Generation Functions
#==============================================================================
get_project_structure() {
local project_type="$1"
if [[ "$project_type" == *"web"* ]]; then
echo "backend/\\nfrontend/\\ntests/"
else
echo "src/\\ntests/"
fi
}
get_commands_for_language() {
local lang="$1"
case "$lang" in
*"Python"*)
echo "cd src && pytest && ruff check ."
;;
*"Rust"*)
echo "cargo test && cargo clippy"
;;
*"JavaScript"*|*"TypeScript"*)
echo "npm test && npm run lint"
;;
*)
echo "# Add commands for $lang"
;;
esac
}
get_language_conventions() {
local lang="$1"
echo "$lang: Follow standard conventions"
}
create_new_agent_file() {
local target_file="$1"
local temp_file="$2"
local project_name="$3"
local current_date="$4"
if [[ ! -f "$TEMPLATE_FILE" ]]; then
log_error "Template not found at $TEMPLATE_FILE"
return 1
fi
if [[ ! -r "$TEMPLATE_FILE" ]]; then
log_error "Template file is not readable: $TEMPLATE_FILE"
return 1
fi
log_info "Creating new agent context file from template..."
if ! cp "$TEMPLATE_FILE" "$temp_file"; then
log_error "Failed to copy template file"
return 1
fi
# Replace template placeholders
local project_structure
project_structure=$(get_project_structure "$NEW_PROJECT_TYPE")
local commands
commands=$(get_commands_for_language "$NEW_LANG")
local language_conventions
language_conventions=$(get_language_conventions "$NEW_LANG")
# Perform substitutions with error checking using safer approach
# Escape special characters for sed by using a different delimiter or escaping
local escaped_lang=$(printf '%s\n' "$NEW_LANG" | sed 's/[\[\.*^$()+{}|]/\\&/g')
local escaped_framework=$(printf '%s\n' "$NEW_FRAMEWORK" | sed 's/[\[\.*^$()+{}|]/\\&/g')
local escaped_branch=$(printf '%s\n' "$CURRENT_BRANCH" | sed 's/[\[\.*^$()+{}|]/\\&/g')
# Build technology stack and recent change strings conditionally
local tech_stack
if [[ -n "$escaped_lang" && -n "$escaped_framework" ]]; then
tech_stack="- $escaped_lang + $escaped_framework ($escaped_branch)"
elif [[ -n "$escaped_lang" ]]; then
tech_stack="- $escaped_lang ($escaped_branch)"
elif [[ -n "$escaped_framework" ]]; then
tech_stack="- $escaped_framework ($escaped_branch)"
else
tech_stack="- ($escaped_branch)"
fi
local recent_change
if [[ -n "$escaped_lang" && -n "$escaped_framework" ]]; then
recent_change="- $escaped_branch: Added $escaped_lang + $escaped_framework"
elif [[ -n "$escaped_lang" ]]; then
recent_change="- $escaped_branch: Added $escaped_lang"
elif [[ -n "$escaped_framework" ]]; then
recent_change="- $escaped_branch: Added $escaped_framework"
else
recent_change="- $escaped_branch: Added"
fi
local substitutions=(
"s|\[PROJECT NAME\]|$project_name|"
"s|\[DATE\]|$current_date|"
"s|\[EXTRACTED FROM ALL PLAN.MD FILES\]|$tech_stack|"
"s|\[ACTUAL STRUCTURE FROM PLANS\]|$project_structure|g"
"s|\[ONLY COMMANDS FOR ACTIVE TECHNOLOGIES\]|$commands|"
"s|\[LANGUAGE-SPECIFIC, ONLY FOR LANGUAGES IN USE\]|$language_conventions|"
"s|\[LAST 3 FEATURES AND WHAT THEY ADDED\]|$recent_change|"
)
for substitution in "${substitutions[@]}"; do
if ! sed -i.bak -e "$substitution" "$temp_file"; then
log_error "Failed to perform substitution: $substitution"
rm -f "$temp_file" "$temp_file.bak"
return 1
fi
done
# Convert \n sequences to actual newlines
newline=$(printf '\n')
sed -i.bak2 "s/\\\\n/${newline}/g" "$temp_file"
# Clean up backup files
rm -f "$temp_file.bak" "$temp_file.bak2"
return 0
}
update_existing_agent_file() {
local target_file="$1"
local current_date="$2"
log_info "Updating existing agent context file..."
# Use a single temporary file for atomic update
local temp_file
temp_file=$(mktemp) || {
log_error "Failed to create temporary file"
return 1
}
# Process the file in one pass
local tech_stack=$(format_technology_stack "$NEW_LANG" "$NEW_FRAMEWORK")
local new_tech_entries=()
local new_change_entry=""
# Prepare new technology entries
if [[ -n "$tech_stack" ]] && ! grep -q "$tech_stack" "$target_file"; then
new_tech_entries+=("- $tech_stack ($CURRENT_BRANCH)")
fi
if [[ -n "$NEW_DB" ]] && [[ "$NEW_DB" != "N/A" ]] && [[ "$NEW_DB" != "NEEDS CLARIFICATION" ]] && ! grep -q "$NEW_DB" "$target_file"; then
new_tech_entries+=("- $NEW_DB ($CURRENT_BRANCH)")
fi
# Prepare new change entry
if [[ -n "$tech_stack" ]]; then
new_change_entry="- $CURRENT_BRANCH: Added $tech_stack"
elif [[ -n "$NEW_DB" ]] && [[ "$NEW_DB" != "N/A" ]] && [[ "$NEW_DB" != "NEEDS CLARIFICATION" ]]; then
new_change_entry="- $CURRENT_BRANCH: Added $NEW_DB"
fi
# Process file line by line
local in_tech_section=false
local in_changes_section=false
local tech_entries_added=false
local changes_entries_added=false
local existing_changes_count=0
while IFS= read -r line || [[ -n "$line" ]]; do
# Handle Active Technologies section
if [[ "$line" == "## Active Technologies" ]]; then
echo "$line" >> "$temp_file"
in_tech_section=true
continue
elif [[ $in_tech_section == true ]] && [[ "$line" =~ ^##[[:space:]] ]]; then
# Add new tech entries before closing the section
if [[ $tech_entries_added == false ]] && [[ ${#new_tech_entries[@]} -gt 0 ]]; then
printf '%s\n' "${new_tech_entries[@]}" >> "$temp_file"
tech_entries_added=true
fi
echo "$line" >> "$temp_file"
in_tech_section=false
continue
elif [[ $in_tech_section == true ]] && [[ -z "$line" ]]; then
# Add new tech entries before empty line in tech section
if [[ $tech_entries_added == false ]] && [[ ${#new_tech_entries[@]} -gt 0 ]]; then
printf '%s\n' "${new_tech_entries[@]}" >> "$temp_file"
tech_entries_added=true
fi
echo "$line" >> "$temp_file"
continue
fi
# Handle Recent Changes section
if [[ "$line" == "## Recent Changes" ]]; then
echo "$line" >> "$temp_file"
# Add new change entry right after the heading
if [[ -n "$new_change_entry" ]]; then
echo "$new_change_entry" >> "$temp_file"
fi
in_changes_section=true
changes_entries_added=true
continue
elif [[ $in_changes_section == true ]] && [[ "$line" =~ ^##[[:space:]] ]]; then
echo "$line" >> "$temp_file"
in_changes_section=false
continue
elif [[ $in_changes_section == true ]] && [[ "$line" == "- "* ]]; then
# Keep only first 2 existing changes
if [[ $existing_changes_count -lt 2 ]]; then
echo "$line" >> "$temp_file"
((existing_changes_count++))
fi
continue
fi
# Update timestamp
if [[ "$line" =~ \*\*Last\ updated\*\*:.*[0-9][0-9][0-9][0-9]-[0-9][0-9]-[0-9][0-9] ]]; then
echo "$line" | sed "s/[0-9][0-9][0-9][0-9]-[0-9][0-9]-[0-9][0-9]/$current_date/" >> "$temp_file"
else
echo "$line" >> "$temp_file"
fi
done < "$target_file"
# Post-loop check: if we're still in the Active Technologies section and haven't added new entries
if [[ $in_tech_section == true ]] && [[ $tech_entries_added == false ]] && [[ ${#new_tech_entries[@]} -gt 0 ]]; then
printf '%s\n' "${new_tech_entries[@]}" >> "$temp_file"
fi
# Move temp file to target atomically
if ! mv "$temp_file" "$target_file"; then
log_error "Failed to update target file"
rm -f "$temp_file"
return 1
fi
return 0
}
#==============================================================================
# Main Agent File Update Function
#==============================================================================
update_agent_file() {
local target_file="$1"
local agent_name="$2"
if [[ -z "$target_file" ]] || [[ -z "$agent_name" ]]; then
log_error "update_agent_file requires target_file and agent_name parameters"
return 1
fi
log_info "Updating $agent_name context file: $target_file"
local project_name
project_name=$(basename "$REPO_ROOT")
local current_date
current_date=$(date +%Y-%m-%d)
# Create directory if it doesn't exist
local target_dir
target_dir=$(dirname "$target_file")
if [[ ! -d "$target_dir" ]]; then
if ! mkdir -p "$target_dir"; then
log_error "Failed to create directory: $target_dir"
return 1
fi
fi
if [[ ! -f "$target_file" ]]; then
# Create new file from template
local temp_file
temp_file=$(mktemp) || {
log_error "Failed to create temporary file"
return 1
}
if create_new_agent_file "$target_file" "$temp_file" "$project_name" "$current_date"; then
if mv "$temp_file" "$target_file"; then
log_success "Created new $agent_name context file"
else
log_error "Failed to move temporary file to $target_file"
rm -f "$temp_file"
return 1
fi
else
log_error "Failed to create new agent file"
rm -f "$temp_file"
return 1
fi
else
# Update existing file
if [[ ! -r "$target_file" ]]; then
log_error "Cannot read existing file: $target_file"
return 1
fi
if [[ ! -w "$target_file" ]]; then
log_error "Cannot write to existing file: $target_file"
return 1
fi
if update_existing_agent_file "$target_file" "$current_date"; then
log_success "Updated existing $agent_name context file"
else
log_error "Failed to update existing agent file"
return 1
fi
fi
return 0
}
#==============================================================================
# Agent Selection and Processing
#==============================================================================
update_specific_agent() {
local agent_type="$1"
case "$agent_type" in
claude)
update_agent_file "$CLAUDE_FILE" "Claude Code"
;;
gemini)
update_agent_file "$GEMINI_FILE" "Gemini CLI"
;;
copilot)
update_agent_file "$COPILOT_FILE" "GitHub Copilot"
;;
cursor)
update_agent_file "$CURSOR_FILE" "Cursor IDE"
;;
qwen)
update_agent_file "$QWEN_FILE" "Qwen Code"
;;
opencode)
update_agent_file "$AGENTS_FILE" "opencode"
;;
codex)
update_agent_file "$AGENTS_FILE" "Codex CLI"
;;
windsurf)
update_agent_file "$WINDSURF_FILE" "Windsurf"
;;
kilocode)
update_agent_file "$KILOCODE_FILE" "Kilo Code"
;;
auggie)
update_agent_file "$AUGGIE_FILE" "Auggie CLI"
;;
roo)
update_agent_file "$ROO_FILE" "Roo Code"
;;
q)
update_agent_file "$Q_FILE" "Amazon Q Developer CLI"
;;
*)
log_error "Unknown agent type '$agent_type'"
log_error "Expected: claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|roo|q"
exit 1
;;
esac
}
update_all_existing_agents() {
local found_agent=false
# Check each possible agent file and update if it exists
if [[ -f "$CLAUDE_FILE" ]]; then
update_agent_file "$CLAUDE_FILE" "Claude Code"
found_agent=true
fi
if [[ -f "$GEMINI_FILE" ]]; then
update_agent_file "$GEMINI_FILE" "Gemini CLI"
found_agent=true
fi
if [[ -f "$COPILOT_FILE" ]]; then
update_agent_file "$COPILOT_FILE" "GitHub Copilot"
found_agent=true
fi
if [[ -f "$CURSOR_FILE" ]]; then
update_agent_file "$CURSOR_FILE" "Cursor IDE"
found_agent=true
fi
if [[ -f "$QWEN_FILE" ]]; then
update_agent_file "$QWEN_FILE" "Qwen Code"
found_agent=true
fi
if [[ -f "$AGENTS_FILE" ]]; then
update_agent_file "$AGENTS_FILE" "Codex/opencode"
found_agent=true
fi
if [[ -f "$WINDSURF_FILE" ]]; then
update_agent_file "$WINDSURF_FILE" "Windsurf"
found_agent=true
fi
if [[ -f "$KILOCODE_FILE" ]]; then
update_agent_file "$KILOCODE_FILE" "Kilo Code"
found_agent=true
fi
if [[ -f "$AUGGIE_FILE" ]]; then
update_agent_file "$AUGGIE_FILE" "Auggie CLI"
found_agent=true
fi
if [[ -f "$ROO_FILE" ]]; then
update_agent_file "$ROO_FILE" "Roo Code"
found_agent=true
fi
if [[ -f "$Q_FILE" ]]; then
update_agent_file "$Q_FILE" "Amazon Q Developer CLI"
found_agent=true
fi
# If no agent files exist, create a default Claude file
if [[ "$found_agent" == false ]]; then
log_info "No existing agent files found, creating default Claude file..."
update_agent_file "$CLAUDE_FILE" "Claude Code"
fi
}
print_summary() {
echo
log_info "Summary of changes:"
if [[ -n "$NEW_LANG" ]]; then
echo " - Added language: $NEW_LANG"
fi
if [[ -n "$NEW_FRAMEWORK" ]]; then
echo " - Added framework: $NEW_FRAMEWORK"
fi
if [[ -n "$NEW_DB" ]] && [[ "$NEW_DB" != "N/A" ]]; then
echo " - Added database: $NEW_DB"
fi
echo
log_info "Usage: $0 [claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|q]"
}
#==============================================================================
# Main Execution
#==============================================================================
main() {
# Validate environment before proceeding
validate_environment
log_info "=== Updating agent context files for feature $CURRENT_BRANCH ==="
# Parse the plan file to extract project information
if ! parse_plan_data "$NEW_PLAN"; then
log_error "Failed to parse plan data"
exit 1
fi
# Process based on agent type argument
local success=true
if [[ -z "$AGENT_TYPE" ]]; then
# No specific agent provided - update all existing agent files
log_info "No agent specified, updating all existing agent files..."
if ! update_all_existing_agents; then
success=false
fi
else
# Specific agent provided - update only that agent
log_info "Updating specific agent: $AGENT_TYPE"
if ! update_specific_agent "$AGENT_TYPE"; then
success=false
fi
fi
# Print summary
print_summary
if [[ "$success" == true ]]; then
log_success "Agent context update completed successfully"
exit 0
else
log_error "Agent context update completed with errors"
exit 1
fi
}
# Execute main function if script is run directly
if [[ "${BASH_SOURCE[0]}" == "${0}" ]]; then
main "$@"
fi

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# [PROJECT NAME] Development Guidelines
Auto-generated from all feature plans. Last updated: [DATE]
## Active Technologies
[EXTRACTED FROM ALL PLAN.MD FILES]
## Project Structure
```
[ACTUAL STRUCTURE FROM PLANS]
```
## Commands
[ONLY COMMANDS FOR ACTIVE TECHNOLOGIES]
## Code Style
[LANGUAGE-SPECIFIC, ONLY FOR LANGUAGES IN USE]
## Recent Changes
[LAST 3 FEATURES AND WHAT THEY ADDED]
<!-- MANUAL ADDITIONS START -->
<!-- MANUAL ADDITIONS END -->

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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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# 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/commands/plan.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**: [single/web/mobile - determines source structure]
**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)
```
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.
-->
```
# [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%"]

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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