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Merge branch 'main' into codebuddy

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Den Delimarsky
2025-10-10 11:03:13 -07:00
committed by GitHub
parent aa599b8af1 89f4b0b38a
commit 6c947cc8d8
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2
.github/workflows/scripts/create-github-release.sh vendored
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@@ -40,5 +40,7 @@ gh release create "$VERSION" \
.genreleases/spec-kit-template-roo-ps-"$VERSION".zip \
.genreleases/spec-kit-template-codebuddy-sh-"$VERSION".zip \
.genreleases/spec-kit-template-codebuddy-ps-"$VERSION".zip \
.genreleases/spec-kit-template-q-sh-"$VERSION".zip \
.genreleases/spec-kit-template-q-ps-"$VERSION".zip \
--title "Spec Kit Templates - $VERSION_NO_V" \
--notes-file release_notes.md

61
.github/workflows/scripts/create-release-packages.sh vendored
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@@ -42,7 +42,7 @@ generate_commands() {
mkdir -p "$output_dir"
for template in templates/commands/*.md; do
[[ -f "$template" ]] || continue
local name description script_command body
local name description script_command agent_script_command body
name=$(basename "$template" .md)
# Normalize line endings
@@ -57,13 +57,30 @@ generate_commands() {
script_command="(Missing script command for $script_variant)"
fi
# Extract agent_script command from YAML frontmatter if present
agent_script_command=$(printf '%s\n' "$file_content" | awk '
/^agent_scripts:$/ { in_agent_scripts=1; next }
in_agent_scripts && /^[[:space:]]*'"$script_variant"':[[:space:]]*/ {
sub(/^[[:space:]]*'"$script_variant"':[[:space:]]*/, "")
print
exit
}
in_agent_scripts && /^[a-zA-Z]/ { in_agent_scripts=0 }
')
# Replace {SCRIPT} placeholder with the script command
body=$(printf '%s\n' "$file_content" | sed "s|{SCRIPT}|${script_command}|g")
# Remove the scripts: section from frontmatter while preserving YAML structure
# Replace {AGENT_SCRIPT} placeholder with the agent script command if found
if [[ -n $agent_script_command ]]; then
body=$(printf '%s\n' "$body" | sed "s|{AGENT_SCRIPT}|${agent_script_command}|g")
fi
# Remove the scripts: and agent_scripts: sections from frontmatter while preserving YAML structure
body=$(printf '%s\n' "$body" | awk '
/^---$/ { print; if (++dash_count == 1) in_frontmatter=1; else in_frontmatter=0; next }
in_frontmatter && /^scripts:$/ { skip_scripts=1; next }
in_frontmatter && /^agent_scripts:$/ { skip_scripts=1; next }
in_frontmatter && /^[a-zA-Z].*:/ && skip_scripts { skip_scripts=0 }
in_frontmatter && skip_scripts && /^[[:space:]]/ { next }
{ print }
@@ -74,11 +91,11 @@ generate_commands() {
case $ext in
toml)
{ echo "description = \"$description\""; echo; echo "prompt = \"\"\""; echo "$body"; echo "\"\"\""; } > "$output_dir/$name.$ext" ;;
{ echo "description = \"$description\""; echo; echo "prompt = \"\"\""; echo "$body"; echo "\"\"\""; } > "$output_dir/speckit.$name.$ext" ;;
md)
echo "$body" > "$output_dir/$name.$ext" ;;
echo "$body" > "$output_dir/speckit.$name.$ext" ;;
prompt.md)
echo "$body" > "$output_dir/$name.$ext" ;;
echo "$body" > "$output_dir/speckit.$name.$ext" ;;
esac
done
}
@@ -112,25 +129,8 @@ build_variant() {
esac
fi
[[ -d templates ]] && { mkdir -p "$SPEC_DIR/templates"; find templates -type f -not -path "templates/commands/*" -exec cp --parents {} "$SPEC_DIR"/ \; ; echo "Copied templates -> .specify/templates"; }
# Inject variant into plan-template.md within .specify/templates if present
local plan_tpl="$base_dir/.specify/templates/plan-template.md"
if [[ -f "$plan_tpl" ]]; then
plan_norm=$(tr -d '\r' < "$plan_tpl")
# Extract script command from YAML frontmatter
script_command=$(printf '%s\n' "$plan_norm" | awk -v sv="$script" '/^[[:space:]]*'"$script"':[[:space:]]*/ {sub(/^[[:space:]]*'"$script"':[[:space:]]*/, ""); print; exit}')
if [[ -n $script_command ]]; then
# Always prefix with .specify/ for plan usage
script_command=".specify/$script_command"
# Replace {SCRIPT} placeholder with the script command and __AGENT__ with agent name
substituted=$(sed "s|{SCRIPT}|${script_command}|g" "$plan_tpl" | tr -d '\r' | sed "s|__AGENT__|${agent}|g")
# Strip YAML frontmatter from plan template output (keep body only)
stripped=$(printf '%s\n' "$substituted" | awk 'BEGIN{fm=0;dash=0} /^---$/ {dash++; if(dash==1){fm=1; next} else if(dash==2){fm=0; next}} {if(!fm) print}')
printf '%s\n' "$stripped" > "$plan_tpl"
else
echo "Warning: no plan-template script command found for $script in YAML frontmatter" >&2
fi
fi
[[ -d templates ]] && { mkdir -p "$SPEC_DIR/templates"; find templates -type f -not -path "templates/commands/*" -not -name "vscode-settings.json" -exec cp --parents {} "$SPEC_DIR"/ \; ; echo "Copied templates -> .specify/templates"; }
# NOTE: We substitute {ARGS} internally. Outward tokens differ intentionally:
# * Markdown/prompt (claude, copilot, cursor, opencode): $ARGUMENTS
# * TOML (gemini, qwen): {{args}}
@@ -146,7 +146,11 @@ build_variant() {
[[ -f agent_templates/gemini/GEMINI.md ]] && cp agent_templates/gemini/GEMINI.md "$base_dir/GEMINI.md" ;;
copilot)
mkdir -p "$base_dir/.github/prompts"
generate_commands copilot prompt.md "\$ARGUMENTS" "$base_dir/.github/prompts" "$script" ;;
generate_commands copilot prompt.md "\$ARGUMENTS" "$base_dir/.github/prompts" "$script"
# Create VS Code workspace settings
mkdir -p "$base_dir/.vscode"
[[ -f templates/vscode-settings.json ]] && cp templates/vscode-settings.json "$base_dir/.vscode/settings.json"
;;
cursor)
mkdir -p "$base_dir/.cursor/commands"
generate_commands cursor md "\$ARGUMENTS" "$base_dir/.cursor/commands" "$script" ;;
@@ -175,16 +179,19 @@ build_variant() {
codebuddy)
mkdir -p "$base_dir/.codebuddy/commands"
generate_commands codebuddy md "\$ARGUMENTS" "$base_dir/.codebuddy/commands" "$script" ;;
q)
mkdir -p "$base_dir/.amazonq/prompts"
generate_commands q md "\$ARGUMENTS" "$base_dir/.amazonq/prompts" "$script" ;;
esac
( cd "$base_dir" && zip -r "../spec-kit-template-${agent}-${script}-${NEW_VERSION}.zip" . )
echo "Created $GENRELEASES_DIR/spec-kit-template-${agent}-${script}-${NEW_VERSION}.zip"
}
# Determine agent list
ALL_AGENTS=(claude gemini copilot cursor qwen opencode windsurf codex kilocode auggie roo codebuddy)
ALL_AGENTS=(claude gemini copilot cursor qwen opencode windsurf codex kilocode auggie roo codebuddy q)
ALL_SCRIPTS=(sh ps)
norm_list() {
# convert comma+space separated -> space separated unique while preserving order of first occurrence
tr ',\n' ' ' | awk '{for(i=1;i<=NF;i++){if(!seen[$i]++){printf((out?" ":"") $i)}}}END{printf("\n")}'

15
AGENTS.md
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@@ -39,6 +39,7 @@ Specify supports multiple AI agents by generating agent-specific command files a
| **opencode** | `.opencode/command/` | Markdown | `opencode` | opencode CLI |
| **Windsurf** | `.windsurf/workflows/` | Markdown | N/A (IDE-based) | Windsurf IDE workflows |
| **CodeBuddy** | `.codebuddy/commands/` | Markdown | `codebuddy` | CodeBuddy |
| **Amazon Q Developer CLI** | `.amazonq/prompts/` | Markdown | `q` | Amazon Q Developer CLI |
### Step-by-Step Integration Guide
@@ -57,7 +58,8 @@ AI_CHOICES = {
"qwen": "Qwen Code",
"opencode": "opencode",
"windsurf": "Windsurf",
"codebuddy": "CodeBuddy" # Add new agent here
"codebuddy": "CodeBuddy"
"q": "Amazon Q Developer CLI"
}
```
@@ -75,7 +77,12 @@ agent_folder_map = {
"kilocode": ".kilocode/",
"auggie": ".auggie/",
"copilot": ".github/",
"codebuddy": ".codebuddy/" # Add new agent folder here
"windsurf": ".windsurf/",
"kilocode": ".kilocode/",
"auggie": ".auggie/",
"copilot": ".github/",
"q": ".amazonq/",
"codebuddy": ".codebuddy/"
}
```
@@ -102,7 +109,7 @@ Modify `.github/workflows/scripts/create-release-packages.sh`:
##### Add to ALL_AGENTS array:
```bash
ALL_AGENTS=(claude gemini copilot cursor qwen opencode windsurf)
ALL_AGENTS=(claude gemini copilot cursor qwen opencode windsurf q)
```
##### Add case statement for directory structure:
@@ -210,7 +217,7 @@ Work within integrated development environments:
## Command File Formats
### Markdown Format
Used by: Claude, Cursor, opencode, Windsurf
Used by: Claude, Cursor, opencode, Windsurf, Amazon Q Developer
```markdown
---

14
CHANGELOG.md
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@@ -2,16 +2,24 @@
<!-- markdownlint-disable MD024 -->
All notable changes to the Specify CLI will be documented in this file.
All notable changes to the Specify CLI and templates are documented here.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/),
and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
## [LATEST_VERSION] - RELEASE_DATE
## [0.0.18] - 2025-10-06
### Added
- Support for using `.` as a shorthand for current directory in `specify init .` command, equivalent to `--here` flag but more intuitive for users
- Support for using `.` as a shorthand for current directory in `specify init .` command, equivalent to `--here` flag but more intuitive for users.
- Use the `/speckit.` command prefix to easily discover Spec Kit-related commands.
- Refactor the prompts and templates to simplify their capabilities and how they are tracked. No more polluting things with tests when they are not needed.
- Ensure that tasks are created per user story (simplifies testing and validation).
- Add support for Visual Studio Code prompt shortcuts and automatic script execution.
### Changed
- All command files now prefixed with `speckit.` (e.g., `speckit.specify.md`, `speckit.plan.md`) for better discoverability and differentiation in IDE/CLI command palettes and file explorers
## [0.0.17] - 2025-09-22

2
CONTRIBUTING.md
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@@ -40,7 +40,7 @@ Here are a few things you can do that will increase the likelihood of your pull
When working on spec-kit:
1. Test changes with the `specify` CLI commands (`/specify`, `/plan`, `/tasks`) in your coding agent of choice
1. Test changes with the `specify` CLI commands (`/speckit.specify`, `/speckit.plan`, `/speckit.tasks`) in your coding agent of choice
2. Verify templates are working correctly in `templates/` directory
3. Test script functionality in the `scripts/` directory
4. Ensure memory files (`memory/constitution.md`) are updated if major process changes are made

98
README.md
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@@ -8,7 +8,12 @@
<strong>An effort to allow organizations to focus on product scenarios rather than writing undifferentiated code with the help of Spec-Driven Development.</strong>
</p>
[![Release](https://github.com/github/spec-kit/actions/workflows/release.yml/badge.svg)](https://github.com/github/spec-kit/actions/workflows/release.yml)
<p align="center">
<a href="https://github.com/github/spec-kit/actions/workflows/release.yml"><img src="https://github.com/github/spec-kit/actions/workflows/release.yml/badge.svg" alt="Release"/></a>
<a href="https://github.com/github/spec-kit/stargazers"><img src="https://img.shields.io/github/stars/github/spec-kit?style=social" alt="GitHub stars"/></a>
<a href="https://github.com/github/spec-kit/blob/main/LICENSE"><img src="https://img.shields.io/github/license/github/spec-kit" alt="License"/></a>
<a href="https://github.github.io/spec-kit/"><img src="https://img.shields.io/badge/docs-GitHub_Pages-blue" alt="Documentation"/></a>
</p>
---
@@ -73,42 +78,42 @@ uvx --from git+https://github.com/github/spec-kit.git specify init <PROJECT_NAME
### 2. Establish project principles
Use the **`/constitution`** command to create your project's governing principles and development guidelines that will guide all subsequent development.
Use the **`/speckit.constitution`** command to create your project's governing principles and development guidelines that will guide all subsequent development.
```bash
/constitution Create principles focused on code quality, testing standards, user experience consistency, and performance requirements
/speckit.constitution Create principles focused on code quality, testing standards, user experience consistency, and performance requirements
```
### 3. Create the spec
Use the **`/specify`** command to describe what you want to build. Focus on the **what** and **why**, not the tech stack.
Use the **`/speckit.specify`** command to describe what you want to build. Focus on the **what** and **why**, not the tech stack.
```bash
/specify Build an application that can help me organize my photos in separate photo albums. Albums are grouped by date and can be re-organized by dragging and dropping on the main page. Albums are never in other nested albums. Within each album, photos are previewed in a tile-like interface.
/speckit.specify Build an application that can help me organize my photos in separate photo albums. Albums are grouped by date and can be re-organized by dragging and dropping on the main page. Albums are never in other nested albums. Within each album, photos are previewed in a tile-like interface.
```
### 4. Create a technical implementation plan
Use the **`/plan`** command to provide your tech stack and architecture choices.
Use the **`/speckit.plan`** command to provide your tech stack and architecture choices.
```bash
/plan The application uses Vite with minimal number of libraries. Use vanilla HTML, CSS, and JavaScript as much as possible. Images are not uploaded anywhere and metadata is stored in a local SQLite database.
/speckit.plan The application uses Vite with minimal number of libraries. Use vanilla HTML, CSS, and JavaScript as much as possible. Images are not uploaded anywhere and metadata is stored in a local SQLite database.
```
### 5. Break down into tasks
Use **`/tasks`** to create an actionable task list from your implementation plan.
Use **`/speckit.tasks`** to create an actionable task list from your implementation plan.
```bash
/tasks
/speckit.tasks
```
### 6. Execute implementation
Use **`/implement`** to execute all tasks and build your feature according to the plan.
Use **`/speckit.implement`** to execute all tasks and build your feature according to the plan.
```bash
/implement
/speckit.implement
```
For detailed step-by-step instructions, see our [comprehensive guide](./spec-driven.md).
@@ -134,7 +139,8 @@ Want to see Spec Kit in action? Watch our [video overview](https://www.youtube.c
| [Auggie CLI](https://docs.augmentcode.com/cli/overview) | ✅ | |
| [CodeBuddy](https://www.codebuddy.ai/) | ✅ | |
| [Roo Code](https://roocode.com/) | ✅ | |
| [Codex CLI](https://github.com/openai/codex) | ⚠️ | Codex [does not support](https://github.com/openai/codex/issues/2890) custom arguments for slash commands. |
| [Codex CLI](https://github.com/openai/codex) | | |
| [Amazon Q Developer CLI](https://aws.amazon.com/developer/learning/q-developer-cli/) | ⚠️ | Amazon Q Developer CLI [does not support](https://github.com/aws/amazon-q-developer-cli/issues/3064) custom arguments for slash commands. |
## 🔧 Specify CLI Reference
@@ -152,7 +158,7 @@ The `specify` command supports the following options:
| Argument/Option | Type | Description |
|------------------------|----------|------------------------------------------------------------------------------|
| `<project-name>` | Argument | Name for your new project directory (optional if using `--here`, or use `.` for current directory) |
| `--ai` | Option | AI assistant to use: `claude`, `gemini`, `copilot`, `cursor`, `qwen`, `opencode`, `codex`, `windsurf`, `kilocode`, `auggie`, `roo`, or `codebuddy` |
| `--ai` | Option | AI assistant to use: `claude`, `gemini`, `copilot`, `cursor`, `qwen`, `opencode`, `codex`, `windsurf`, `kilocode`, `auggie`, `roo`, `codebuddy`, or `q` |
| `--script` | Option | Script variant to use: `sh` (bash/zsh) or `ps` (PowerShell) |
| `--ignore-agent-tools` | Flag | Skip checks for AI agent tools like Claude Code |
| `--no-git` | Flag | Skip git repository initialization |
@@ -207,21 +213,33 @@ specify check
After running `specify init`, your AI coding agent will have access to these slash commands for structured development:
| Command | Description |
|-----------------|-----------------------------------------------------------------------|
| `/constitution` | Create or update project governing principles and development guidelines |
| `/specify` | Define what you want to build (requirements and user stories) |
| `/clarify` | Clarify underspecified areas (must be run before `/plan` unless explicitly skipped; formerly `/quizme`) |
| `/plan` | Create technical implementation plans with your chosen tech stack |
| `/tasks` | Generate actionable task lists for implementation |
| `/analyze` | Cross-artifact consistency & coverage analysis (run after /tasks, before /implement) |
| `/implement` | Execute all tasks to build the feature according to the plan |
#### Core Commands
Essential commands for the Spec-Driven Development workflow:
| Command | Description |
|--------------------------|-----------------------------------------------------------------------|
| `/speckit.constitution` | Create or update project governing principles and development guidelines |
| `/speckit.specify` | Define what you want to build (requirements and user stories) |
| `/speckit.plan` | Create technical implementation plans with your chosen tech stack |
| `/speckit.tasks` | Generate actionable task lists for implementation |
| `/speckit.implement` | Execute all tasks to build the feature according to the plan |
#### Optional Commands
Additional commands for enhanced quality and validation:
| Command | Description |
|----------------------|-----------------------------------------------------------------------|
| `/speckit.clarify` | Clarify underspecified areas (recommended before `/speckit.plan`; formerly `/quizme`) |
| `/speckit.analyze` | Cross-artifact consistency & coverage analysis (run after `/speckit.tasks`, before `/speckit.implement`) |
| `/speckit.checklist` | Generate custom quality checklists that validate requirements completeness, clarity, and consistency (like "unit tests for English") |
### Environment Variables
| Variable | Description |
|------------------|------------------------------------------------------------------------------------------------|
| `SPECIFY_FEATURE` | Override feature detection for non-Git repositories. Set to the feature directory name (e.g., `001-photo-albums`) to work on a specific feature when not using Git branches.<br/>**Must be set in the context of the agent you're working with prior to using `/plan` or follow-up commands. |
| `SPECIFY_FEATURE` | Override feature detection for non-Git repositories. Set to the feature directory name (e.g., `001-photo-albums`) to work on a specific feature when not using Git branches.<br/>**Must be set in the context of the agent you're working with prior to using `/speckit.plan` or follow-up commands. |
## 📚 Core philosophy
@@ -269,7 +287,7 @@ Our research and experimentation focus on:
## 🔧 Prerequisites
- **Linux/macOS** (or WSL2 on Windows)
- AI coding agent: [Claude Code](https://www.anthropic.com/claude-code), [GitHub Copilot](https://code.visualstudio.com/), [Gemini CLI](https://github.com/google-gemini/gemini-cli), [Cursor](https://cursor.sh/), [Qwen CLI](https://github.com/QwenLM/qwen-code), [opencode](https://opencode.ai/), [Codex CLI](https://github.com/openai/codex), or [Windsurf](https://windsurf.com/)
- AI coding agent: [Claude Code](https://www.anthropic.com/claude-code), [GitHub Copilot](https://code.visualstudio.com/), [Gemini CLI](https://github.com/google-gemini/gemini-cli), [Cursor](https://cursor.sh/), [Qwen CLI](https://github.com/QwenLM/qwen-code), [opencode](https://opencode.ai/), [Codex CLI](https://github.com/openai/codex), [Windsurf](https://windsurf.com/), or [Amazon Q Developer CLI](https://aws.amazon.com/developer/learning/q-developer-cli/)
- [uv](https://docs.astral.sh/uv/) for package management
- [Python 3.11+](https://www.python.org/downloads/)
- [Git](https://git-scm.com/downloads)
@@ -314,25 +332,23 @@ You will be prompted to select the AI agent you are using. You can also proactiv
specify init <project_name> --ai claude
specify init <project_name> --ai gemini
specify init <project_name> --ai copilot
specify init <project_name> --ai cursor
specify init <project_name> --ai qwen
specify init <project_name> --ai opencode
specify init <project_name> --ai codex
specify init <project_name> --ai windsurf
specify init <project_name> --ai codebuddy
# Or in current directory:
specify init . --ai claude
specify init . --ai codex
# or use --here flag
specify init --here --ai claude
specify init --here --ai codex
# Force merge into a non-empty current directory
specify init . --force --ai claude
# or
specify init --here --force --ai claude
```
The CLI will check if you have Claude Code, Gemini CLI, Cursor CLI, Qwen CLI, opencode, or Codex CLI installed. If you do not, or you prefer to get the templates without checking for the right tools, use `--ignore-agent-tools` with your command:
The CLI will check if you have Claude Code, Gemini CLI, Cursor CLI, Qwen CLI, opencode, Codex CLI, or Amazon Q Developer CLI installed. If you do not, or you prefer to get the templates without checking for the right tools, use `--ignore-agent-tools` with your command:
```bash
specify init <project_name> --ai claude --ignore-agent-tools
@@ -344,19 +360,19 @@ Go to the project folder and run your AI agent. In our example, we're using `cla
![Bootstrapping Claude Code environment](./media/bootstrap-claude-code.gif)
You will know that things are configured correctly if you see the `/constitution`, `/specify`, `/plan`, `/tasks`, and `/implement` commands available.
You will know that things are configured correctly if you see the `/speckit.constitution`, `/speckit.specify`, `/speckit.plan`, `/speckit.tasks`, and `/speckit.implement` commands available.
The first step should be establishing your project's governing principles using the `/constitution` command. This helps ensure consistent decision-making throughout all subsequent development phases:
The first step should be establishing your project's governing principles using the `/speckit.constitution` command. This helps ensure consistent decision-making throughout all subsequent development phases:
```text
/constitution Create principles focused on code quality, testing standards, user experience consistency, and performance requirements. Include governance for how these principles should guide technical decisions and implementation choices.
/speckit.constitution Create principles focused on code quality, testing standards, user experience consistency, and performance requirements. Include governance for how these principles should guide technical decisions and implementation choices.
```
This step creates or updates the `.specify/memory/constitution.md` file with your project's foundational guidelines that the AI agent will reference during specification, planning, and implementation phases.
### **STEP 2:** Create project specifications
With your project principles established, you can now create the functional specifications. Use the `/specify` command and then provide the concrete requirements for the project you want to develop.
With your project principles established, you can now create the functional specifications. Use the `/speckit.specify` command and then provide the concrete requirements for the project you want to develop.
>[!IMPORTANT]
>Be as explicit as possible about _what_ you are trying to build and _why_. **Do not focus on the tech stack at this point**.
@@ -416,12 +432,12 @@ With the baseline specification created, you can go ahead and clarify any of the
You should run the structured clarification workflow **before** creating a technical plan to reduce rework downstream.
Preferred order:
1. Use `/clarify` (structured) sequential, coverage-based questioning that records answers in a Clarifications section.
1. Use `/speckit.clarify` (structured) sequential, coverage-based questioning that records answers in a Clarifications section.
2. Optionally follow up with ad-hoc free-form refinement if something still feels vague.
If you intentionally want to skip clarification (e.g., spike or exploratory prototype), explicitly state that so the agent doesn't block on missing clarifications.
Example free-form refinement prompt (after `/clarify` if still needed):
Example free-form refinement prompt (after `/speckit.clarify` if still needed):
```text
For each sample project or project that you create there should be a variable number of tasks between 5 and 15
@@ -439,7 +455,7 @@ It's important to use the interaction with Claude Code as an opportunity to clar
### **STEP 4:** Generate a plan
You can now be specific about the tech stack and other technical requirements. You can use the `/plan` command that is built into the project template with a prompt like this:
You can now be specific about the tech stack and other technical requirements. You can use the `/speckit.plan` command that is built into the project template with a prompt like this:
```text
We are going to generate this using .NET Aspire, using Postgres as the database. The frontend should use
@@ -525,13 +541,13 @@ You can also ask Claude Code (if you have the [GitHub CLI](https://docs.github.c
### STEP 6: Implementation
Once ready, use the `/implement` command to execute your implementation plan:
Once ready, use the `/speckit.implement` command to execute your implementation plan:
```text
/implement
/speckit.implement
```
The `/implement` command will:
The `/speckit.implement` command will:
- Validate that all prerequisites are in place (constitution, spec, plan, and tasks)
- Parse the task breakdown from `tasks.md`
- Execute tasks in the correct order, respecting dependencies and parallel execution markers

4
docs/index.md
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@@ -55,8 +55,8 @@ Our research and experimentation focus on:
## Contributing
Please see our [Contributing Guide](CONTRIBUTING.md) for information on how to contribute to this project.
Please see our [Contributing Guide](https://github.com/github/spec-kit/blob/main/CONTRIBUTING.md) for information on how to contribute to this project.
## Support
For support, please check our [Support Guide](SUPPORT.md) or open an issue on GitHub.
For support, please check our [Support Guide](https://github.com/github/spec-kit/blob/main/SUPPORT.md) or open an issue on GitHub.

6
docs/installation.md
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@@ -62,9 +62,9 @@ uvx --from git+https://github.com/github/spec-kit.git specify init <project_name
## Verification
After initialization, you should see the following commands available in your AI agent:
- `/specify` - Create specifications
- `/plan` - Generate implementation plans
- `/tasks` - Break down into actionable tasks
- `/speckit.specify` - Create specifications
- `/speckit.plan` - Generate implementation plans
- `/speckit.tasks` - Break down into actionable tasks
The `.specify/scripts` directory will contain both `.sh` and `.ps1` scripts.

14
docs/quickstart.md
View File

@@ -22,29 +22,29 @@ uvx --from git+https://github.com/github/spec-kit.git specify init <PROJECT_NAME
### 2. Create the Spec
Use the `/specify` command to describe what you want to build. Focus on the **what** and **why**, not the tech stack.
Use the `/speckit.specify` command to describe what you want to build. Focus on the **what** and **why**, not the tech stack.
```bash
/specify Build an application that can help me organize my photos in separate photo albums. Albums are grouped by date and can be re-organized by dragging and dropping on the main page. Albums are never in other nested albums. Within each album, photos are previewed in a tile-like interface.
/speckit.specify Build an application that can help me organize my photos in separate photo albums. Albums are grouped by date and can be re-organized by dragging and dropping on the main page. Albums are never in other nested albums. Within each album, photos are previewed in a tile-like interface.
```
### 3. Create a Technical Implementation Plan
Use the `/plan` command to provide your tech stack and architecture choices.
Use the `/speckit.plan` command to provide your tech stack and architecture choices.
```bash
/plan The application uses Vite with minimal number of libraries. Use vanilla HTML, CSS, and JavaScript as much as possible. Images are not uploaded anywhere and metadata is stored in a local SQLite database.
/speckit.plan The application uses Vite with minimal number of libraries. Use vanilla HTML, CSS, and JavaScript as much as possible. Images are not uploaded anywhere and metadata is stored in a local SQLite database.
```
### 4. Break Down and Implement
Use `/tasks` to create an actionable task list, then ask your agent to implement the feature.
Use `/speckit.tasks` to create an actionable task list, then ask your agent to implement the feature.
## Detailed Example: Building Taskify
Here's a complete example of building a team productivity platform:
### Step 1: Define Requirements with `/specify`
### Step 1: Define Requirements with `/speckit.specify`
```text
Develop Taskify, a team productivity platform. It should allow users to create projects, add team members,
@@ -81,7 +81,7 @@ Also validate the specification checklist:
Read the review and acceptance checklist, and check off each item in the checklist if the feature spec meets the criteria. Leave it empty if it does not.
```
### Step 3: Generate Technical Plan with `/plan`
### Step 3: Generate Technical Plan with `/speckit.plan`
Be specific about your tech stack and technical requirements:

2
pyproject.toml
View File

@@ -1,6 +1,6 @@
[project]
name = "specify-cli"
version = "0.0.17"
version = "0.0.18"
description = "Specify CLI, part of GitHub Spec Kit. A tool to bootstrap your projects for Spec-Driven Development (SDD)."
requires-python = ">=3.11"
dependencies = [

6
scripts/bash/check-prerequisites.sh
View File

@@ -102,20 +102,20 @@ fi
# Validate required directories and files
if [[ ! -d "$FEATURE_DIR" ]]; then
echo "ERROR: Feature directory not found: $FEATURE_DIR" >&2
echo "Run /specify first to create the feature structure." >&2
echo "Run /speckit.specify first to create the feature structure." >&2
exit 1
fi
if [[ ! -f "$IMPL_PLAN" ]]; then
echo "ERROR: plan.md not found in $FEATURE_DIR" >&2
echo "Run /plan first to create the implementation plan." >&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 /tasks first to create the task list." >&2
echo "Run /speckit.tasks first to create the task list." >&2
exit 1
fi

18
scripts/bash/update-agent-context.sh
View File

@@ -30,12 +30,12 @@
#
# 5. Multi-Agent Support
# - Handles agent-specific file paths and naming conventions
# - Supports: Claude, Gemini, Copilot, Cursor, Qwen, opencode, Codex, Windsurf
# - 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
# Agent types: claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|q
# Leave empty to update all existing agent files
set -e
@@ -70,6 +70,7 @@ KILOCODE_FILE="$REPO_ROOT/.kilocode/rules/specify-rules.md"
AUGGIE_FILE="$REPO_ROOT/.augment/rules/specify-rules.md"
ROO_FILE="$REPO_ROOT/.roo/rules/specify-rules.md"
CODEBUDDY_FILE="$REPO_ROOT/.codebuddy/rules/specify-rules.md"
Q_FILE="$REPO_ROOT/AGENTS.md"
# Template file
TEMPLATE_FILE="$REPO_ROOT/.specify/templates/agent-file-template.md"
@@ -584,9 +585,12 @@ update_specific_agent() {
codebuddy)
update_agent_file "$CODEBUDDY_FILE" "CodeBuddy"
;;
q)
update_agent_file "$Q_FILE" "Amazon Q Developer CLI"
;;
*)
log_error "Unknown agent type '$agent_type'"
log_error "Expected: claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|roo|codebuddy"
log_error "Expected: claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|roo|q"
exit 1
;;
esac
@@ -650,6 +654,11 @@ update_all_existing_agents() {
update_agent_file "$CODEBUDDY_FILE" "CodeBuddy"
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
@@ -674,7 +683,8 @@ print_summary() {
fi
echo
log_info "Usage: $0 [claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|roo|codebuddy]"
log_info "Usage: $0 [claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|codebuddy|q]"
}
#==============================================================================

6
scripts/powershell/check-prerequisites.ps1
View File

@@ -88,20 +88,20 @@ if ($PathsOnly) {
# Validate required directories and files
if (-not (Test-Path $paths.FEATURE_DIR -PathType Container)) {
Write-Output "ERROR: Feature directory not found: $($paths.FEATURE_DIR)"
Write-Output "Run /specify first to create the feature structure."
Write-Output "Run /speckit.specify first to create the feature structure."
exit 1
}
if (-not (Test-Path $paths.IMPL_PLAN -PathType Leaf)) {
Write-Output "ERROR: plan.md not found in $($paths.FEATURE_DIR)"
Write-Output "Run /plan first to create the implementation plan."
Write-Output "Run /speckit.plan first to create the implementation plan."
exit 1
}
# Check for tasks.md if required
if ($RequireTasks -and -not (Test-Path $paths.TASKS -PathType Leaf)) {
Write-Output "ERROR: tasks.md not found in $($paths.FEATURE_DIR)"
Write-Output "Run /tasks first to create the task list."
Write-Output "Run /speckit.tasks first to create the task list."
exit 1
}

22
scripts/powershell/update-agent-context.ps1
View File

@@ -9,7 +9,7 @@ Mirrors the behavior of scripts/bash/update-agent-context.sh:
2. Plan Data Extraction
3. Agent File Management (create from template or update existing)
4. Content Generation (technology stack, recent changes, timestamp)
5. Multi-Agent Support (claude, gemini, copilot, cursor, qwen, opencode, codex, windsurf)
5. Multi-Agent Support (claude, gemini, copilot, cursor, qwen, opencode, codex, windsurf, kilocode, auggie, roo, q)
.PARAMETER AgentType
Optional agent key to update a single agent. If omitted, updates all existing agent files (creating a default Claude file if none exist).
@@ -25,7 +25,7 @@ Relies on common helper functions in common.ps1
#>
param(
[Parameter(Position=0)]
[ValidateSet('claude','gemini','copilot','cursor','qwen','opencode','codex','windsurf','kilocode','auggie','roo','codebuddy')]
[ValidateSet('claude','gemini','copilot','cursor','qwen','opencode','codex','windsurf','kilocode','auggie','roo','codebuddy','q')]
[string]$AgentType
)
@@ -55,6 +55,7 @@ $KILOCODE_FILE = Join-Path $REPO_ROOT '.kilocode/rules/specify-rules.md'
$AUGGIE_FILE = Join-Path $REPO_ROOT '.augment/rules/specify-rules.md'
$ROO_FILE = Join-Path $REPO_ROOT '.roo/rules/specify-rules.md'
$CODEBUDDY_FILE = Join-Path $REPO_ROOT '.codebuddy/rules/specify-rules.md'
$Q_FILE = Join-Path $REPO_ROOT 'AGENTS.md'
$TEMPLATE_FILE = Join-Path $REPO_ROOT '.specify/templates/agent-file-template.md'
@@ -125,7 +126,7 @@ function Extract-PlanField {
if (-not (Test-Path $PlanFile)) { return '' }
# Lines like **Language/Version**: Python 3.12
$regex = "^\*\*$([Regex]::Escape($FieldPattern))\*\*: (.+)$"
Get-Content -LiteralPath $PlanFile | ForEach-Object {
Get-Content -LiteralPath $PlanFile -Encoding utf8 | ForEach-Object {
if ($_ -match $regex) {
$val = $Matches[1].Trim()
if ($val -notin @('NEEDS CLARIFICATION','N/A')) { return $val }
@@ -216,7 +217,7 @@ function New-AgentFile {
$escaped_framework = $NEW_FRAMEWORK
$escaped_branch = $CURRENT_BRANCH
$content = Get-Content -LiteralPath $temp -Raw
$content = Get-Content -LiteralPath $temp -Raw -Encoding utf8
$content = $content -replace '\[PROJECT NAME\]',$ProjectName
$content = $content -replace '\[DATE\]',$Date.ToString('yyyy-MM-dd')
@@ -254,7 +255,7 @@ function New-AgentFile {
$parent = Split-Path -Parent $TargetFile
if (-not (Test-Path $parent)) { New-Item -ItemType Directory -Path $parent | Out-Null }
Set-Content -LiteralPath $TargetFile -Value $content -NoNewline
Set-Content -LiteralPath $TargetFile -Value $content -NoNewline -Encoding utf8
Remove-Item $temp -Force
return $true
}
@@ -286,7 +287,7 @@ function Update-ExistingAgentFile {
if ($techStack) { $newChangeEntry = "- ${CURRENT_BRANCH}: Added ${techStack}" }
elseif ($NEW_DB -and $NEW_DB -notin @('N/A','NEEDS CLARIFICATION')) { $newChangeEntry = "- ${CURRENT_BRANCH}: Added ${NEW_DB}" }
$lines = Get-Content -LiteralPath $TargetFile
$lines = Get-Content -LiteralPath $TargetFile -Encoding utf8
$output = New-Object System.Collections.Generic.List[string]
$inTech = $false; $inChanges = $false; $techAdded = $false; $changeAdded = $false; $existingChanges = 0
@@ -328,7 +329,7 @@ function Update-ExistingAgentFile {
$newTechEntries | ForEach-Object { $output.Add($_) }
}
Set-Content -LiteralPath $TargetFile -Value ($output -join [Environment]::NewLine)
Set-Content -LiteralPath $TargetFile -Value ($output -join [Environment]::NewLine) -Encoding utf8
return $true
}
@@ -378,7 +379,9 @@ function Update-SpecificAgent {
'auggie' { Update-AgentFile -TargetFile $AUGGIE_FILE -AgentName 'Auggie CLI' }
'roo' { Update-AgentFile -TargetFile $ROO_FILE -AgentName 'Roo Code' }
'codebuddy' { Update-AgentFile -TargetFile $CODEBUDDY_FILE -AgentName 'CodeBuddy' }
default { Write-Err "Unknown agent type '$Type'"; Write-Err 'Expected: claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|roo|codebuddy'; return $false }
'q' { Update-AgentFile -TargetFile $Q_FILE -AgentName 'Amazon Q Developer CLI' }
default { Write-Err "Unknown agent type '$Type'"; Write-Err 'Expected: claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|roo|codebuddy|q'; return $false }
}
}
@@ -396,6 +399,7 @@ function Update-AllExistingAgents {
if (Test-Path $AUGGIE_FILE) { if (-not (Update-AgentFile -TargetFile $AUGGIE_FILE -AgentName 'Auggie CLI')) { $ok = $false }; $found = $true }
if (Test-Path $ROO_FILE) { if (-not (Update-AgentFile -TargetFile $ROO_FILE -AgentName 'Roo Code')) { $ok = $false }; $found = $true }
if (Test-Path $CODEBUDDY_FILE) { if (-not (Update-AgentFile -TargetFile $CODEBUDDY_FILE -AgentName 'CodeBuddy')) { $ok = $false }; $found = $true }
if (Test-Path $Q_FILE) { if (-not (Update-AgentFile -TargetFile $Q_FILE -AgentName 'Amazon Q Developer CLI')) { $ok = $false }; $found = $true }
if (-not $found) {
Write-Info 'No existing agent files found, creating default Claude file...'
if (-not (Update-AgentFile -TargetFile $CLAUDE_FILE -AgentName 'Claude Code')) { $ok = $false }
@@ -410,7 +414,7 @@ function Print-Summary {
if ($NEW_FRAMEWORK) { Write-Host " - Added framework: $NEW_FRAMEWORK" }
if ($NEW_DB -and $NEW_DB -ne 'N/A') { Write-Host " - Added database: $NEW_DB" }
Write-Host ''
Write-Info 'Usage: ./update-agent-context.ps1 [-AgentType claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|roo|codebuddy]'
Write-Info 'Usage: ./update-agent-context.ps1 [-AgentType claude|gemini|copilot|cursor|qwen|opencode|codex|windsurf|kilocode|auggie|roo|codebuddy|q]'
}
function Main {

12
spec-driven.md
View File

@@ -74,7 +74,7 @@ The key is treating specifications as the source of truth, with code as the gene
The SDD methodology is significantly enhanced through three powerful commands that automate the specification → planning → tasking workflow:
### The `/specify` Command
### The `/speckit.specify` Command
This command transforms a simple feature description (the user-prompt) into a complete, structured specification with automatic repository management:
@@ -83,7 +83,7 @@ This command transforms a simple feature description (the user-prompt) into a co
3. **Template-Based Generation**: Copies and customizes the feature specification template with your requirements
4. **Directory Structure**: Creates the proper `specs/[branch-name]/` structure for all related documents
### The `/plan` Command
### The `/speckit.plan` Command
Once a feature specification exists, this command creates a comprehensive implementation plan:
@@ -93,7 +93,7 @@ Once a feature specification exists, this command creates a comprehensive implem
4. **Detailed Documentation**: Generates supporting documents for data models, API contracts, and test scenarios
5. **Quickstart Validation**: Produces a quickstart guide capturing key validation scenarios
### The `/tasks` Command
### The `/speckit.tasks` Command
After a plan is created, this command analyzes the plan and related design documents to generate an executable task list:
@@ -121,7 +121,7 @@ Total: ~12 hours of documentation work
```bash
# Step 1: Create the feature specification (5 minutes)
/specify Real-time chat system with message history and user presence
/speckit.specify Real-time chat system with message history and user presence
# This automatically:
# - Creates branch "003-chat-system"
@@ -129,10 +129,10 @@ Total: ~12 hours of documentation work
# - Populates it with structured requirements
# Step 2: Generate implementation plan (5 minutes)
/plan WebSocket for real-time messaging, PostgreSQL for history, Redis for presence
/speckit.plan WebSocket for real-time messaging, PostgreSQL for history, Redis for presence
# Step 3: Generate executable tasks (5 minutes)
/tasks
/speckit.tasks
# This automatically creates:
# - specs/003-chat-system/plan.md

194
src/specify_cli/__init__.py
View File

@@ -64,7 +64,6 @@ def _github_auth_headers(cli_token: str | None = None) -> dict:
token = _github_token(cli_token)
return {"Authorization": f"Bearer {token}"} if token else {}
# Constants
AI_CHOICES = {
"copilot": "GitHub Copilot",
"claude": "Claude Code",
@@ -78,14 +77,13 @@ AI_CHOICES = {
"auggie": "Auggie CLI",
"codebuddy": "CodeBuddy",
"roo": "Roo Code",
"q": "Amazon Q Developer CLI",
}
# Add script type choices
SCRIPT_TYPE_CHOICES = {"sh": "POSIX Shell (bash/zsh)", "ps": "PowerShell"}
# Claude CLI local installation path after migrate-installer
CLAUDE_LOCAL_PATH = Path.home() / ".claude" / "local" / "claude"
# ASCII Art Banner
BANNER = """
███████╗██████╗ ███████╗ ██████╗██╗███████╗██╗ ██╗
██╔════╝██╔══██╗██╔════╝██╔════╝██║██╔════╝╚██╗ ██╔╝
@@ -182,40 +180,26 @@ class StepTracker:
tree.add(line)
return tree
MINI_BANNER = """
╔═╗╔═╗╔═╗╔═╗╦╔═╗╦ ╦
╚═╗╠═╝║╣ ║ ║╠╣ ╚╦╝
╚═╝╩ ╚═╝╚═╝╩╚ ╩
"""
def get_key():
"""Get a single keypress in a cross-platform way using readchar."""
key = readchar.readkey()
# Arrow keys
if key == readchar.key.UP or key == readchar.key.CTRL_P:
return 'up'
if key == readchar.key.DOWN or key == readchar.key.CTRL_N:
return 'down'
# Enter/Return
if key == readchar.key.ENTER:
return 'enter'
# Escape
if key == readchar.key.ESC:
return 'escape'
# Ctrl+C
if key == readchar.key.CTRL_C:
raise KeyboardInterrupt
return key
def select_with_arrows(options: dict, prompt_text: str = "Select an option", default_key: str = None) -> str:
"""
Interactive selection using arrow keys with Rich Live display.
@@ -233,7 +217,7 @@ def select_with_arrows(options: dict, prompt_text: str = "Select an option", def
selected_index = option_keys.index(default_key)
else:
selected_index = 0
selected_key = None
def create_selection_panel():
@@ -241,23 +225,23 @@ def select_with_arrows(options: dict, prompt_text: str = "Select an option", def
table = Table.grid(padding=(0, 2))
table.add_column(style="cyan", justify="left", width=3)
table.add_column(style="white", justify="left")
for i, key in enumerate(option_keys):
if i == selected_index:
table.add_row("", f"[cyan]{key}[/cyan] [dim]({options[key]})[/dim]")
else:
table.add_row(" ", f"[cyan]{key}[/cyan] [dim]({options[key]})[/dim]")
table.add_row("", "")
table.add_row("", "[dim]Use ↑/↓ to navigate, Enter to select, Esc to cancel[/dim]")
return Panel(
table,
title=f"[bold]{prompt_text}[/bold]",
border_style="cyan",
padding=(1, 2)
)
console.print()
def run_selection_loop():
@@ -276,7 +260,7 @@ def select_with_arrows(options: dict, prompt_text: str = "Select an option", def
elif key == 'escape':
console.print("\n[yellow]Selection cancelled[/yellow]")
raise typer.Exit(1)
live.update(create_selection_panel(), refresh=True)
except KeyboardInterrupt:
@@ -292,14 +276,11 @@ def select_with_arrows(options: dict, prompt_text: str = "Select an option", def
# Suppress explicit selection print; tracker / later logic will report consolidated status
return selected_key
console = Console()
class BannerGroup(TyperGroup):
"""Custom group that shows banner before help."""
def format_help(self, ctx, formatter):
# Show banner before help
show_banner()
@@ -314,23 +295,21 @@ app = typer.Typer(
cls=BannerGroup,
)
def show_banner():
"""Display the ASCII art banner."""
# Create gradient effect with different colors
banner_lines = BANNER.strip().split('\n')
colors = ["bright_blue", "blue", "cyan", "bright_cyan", "white", "bright_white"]
styled_banner = Text()
for i, line in enumerate(banner_lines):
color = colors[i % len(colors)]
styled_banner.append(line + "\n", style=color)
console.print(Align.center(styled_banner))
console.print(Align.center(Text(TAGLINE, style="italic bright_yellow")))
console.print()
@app.callback()
def callback(ctx: typer.Context):
"""Show banner when no subcommand is provided."""
@@ -341,7 +320,6 @@ def callback(ctx: typer.Context):
console.print(Align.center("[dim]Run 'specify --help' for usage information[/dim]"))
console.print()
def run_command(cmd: list[str], check_return: bool = True, capture: bool = False, shell: bool = False) -> Optional[str]:
"""Run a shell command and optionally capture output."""
try:
@@ -360,7 +338,6 @@ def run_command(cmd: list[str], check_return: bool = True, capture: bool = False
raise
return None
def check_tool_for_tracker(tool: str, tracker: StepTracker) -> bool:
"""Check if a tool is installed and update tracker."""
if shutil.which(tool):
@@ -370,7 +347,6 @@ def check_tool_for_tracker(tool: str, tracker: StepTracker) -> bool:
tracker.error(tool, "not found")
return False
def check_tool(tool: str, install_hint: str) -> bool:
"""Check if a tool is installed."""
@@ -388,7 +364,6 @@ def check_tool(tool: str, install_hint: str) -> bool:
else:
return False
def is_git_repo(path: Path = None) -> bool:
"""Check if the specified path is inside a git repository."""
if path is None:
@@ -409,7 +384,6 @@ def is_git_repo(path: Path = None) -> bool:
except (subprocess.CalledProcessError, FileNotFoundError):
return False
def init_git_repo(project_path: Path, quiet: bool = False) -> bool:
"""Initialize a git repository in the specified path.
quiet: if True suppress console output (tracker handles status)
@@ -425,7 +399,7 @@ def init_git_repo(project_path: Path, quiet: bool = False) -> bool:
if not quiet:
console.print("[green]✓[/green] Git repository initialized")
return True
except subprocess.CalledProcessError as e:
if not quiet:
console.print(f"[red]Error initializing git repository:[/red] {e}")
@@ -433,17 +407,16 @@ def init_git_repo(project_path: Path, quiet: bool = False) -> bool:
finally:
os.chdir(original_cwd)
def download_template_from_github(ai_assistant: str, download_dir: Path, *, script_type: str = "sh", verbose: bool = True, show_progress: bool = True, client: httpx.Client = None, debug: bool = False, github_token: str = None) -> Tuple[Path, dict]:
repo_owner = "github"
repo_name = "spec-kit"
if client is None:
client = httpx.Client(verify=ssl_context)
if verbose:
console.print("[cyan]Fetching latest release information...[/cyan]")
api_url = f"https://api.github.com/repos/{repo_owner}/{repo_name}/releases/latest"
try:
response = client.get(
api_url,
@@ -465,7 +438,7 @@ def download_template_from_github(ai_assistant: str, download_dir: Path, *, scri
console.print(f"[red]Error fetching release information[/red]")
console.print(Panel(str(e), title="Fetch Error", border_style="red"))
raise typer.Exit(1)
# Find the template asset for the specified AI assistant
assets = release_data.get("assets", [])
pattern = f"spec-kit-template-{ai_assistant}-{script_type}"
@@ -485,7 +458,7 @@ def download_template_from_github(ai_assistant: str, download_dir: Path, *, scri
download_url = asset["browser_download_url"]
filename = asset["name"]
file_size = asset["size"]
if verbose:
console.print(f"[cyan]Found template:[/cyan] {filename}")
console.print(f"[cyan]Size:[/cyan] {file_size:,} bytes")
@@ -494,7 +467,7 @@ def download_template_from_github(ai_assistant: str, download_dir: Path, *, scri
zip_path = download_dir / filename
if verbose:
console.print(f"[cyan]Downloading template...[/cyan]")
try:
with client.stream(
"GET",
@@ -545,13 +518,12 @@ def download_template_from_github(ai_assistant: str, download_dir: Path, *, scri
}
return zip_path, metadata
def download_and_extract_template(project_path: Path, ai_assistant: str, script_type: str, is_current_dir: bool = False, *, verbose: bool = True, tracker: StepTracker | None = None, client: httpx.Client = None, debug: bool = False, github_token: str = None) -> Path:
"""Download the latest release and extract it to create a new project.
Returns project_path. Uses tracker if provided (with keys: fetch, download, extract, cleanup)
"""
current_dir = Path.cwd()
# Step: fetch + download combined
if tracker:
tracker.start("fetch", "contacting GitHub API")
@@ -577,18 +549,18 @@ def download_and_extract_template(project_path: Path, ai_assistant: str, script_
if verbose:
console.print(f"[red]Error downloading template:[/red] {e}")
raise
if tracker:
tracker.add("extract", "Extract template")
tracker.start("extract")
elif verbose:
console.print("Extracting template...")
try:
# Create project directory only if not using current directory
if not is_current_dir:
project_path.mkdir(parents=True)
with zipfile.ZipFile(zip_path, 'r') as zip_ref:
# List all files in the ZIP for debugging
zip_contents = zip_ref.namelist()
@@ -597,13 +569,13 @@ def download_and_extract_template(project_path: Path, ai_assistant: str, script_
tracker.complete("zip-list", f"{len(zip_contents)} entries")
elif verbose:
console.print(f"[cyan]ZIP contains {len(zip_contents)} items[/cyan]")
# For current directory, extract to a temp location first
if is_current_dir:
with tempfile.TemporaryDirectory() as temp_dir:
temp_path = Path(temp_dir)
zip_ref.extractall(temp_path)
# Check what was extracted
extracted_items = list(temp_path.iterdir())
if tracker:
@@ -611,7 +583,7 @@ def download_and_extract_template(project_path: Path, ai_assistant: str, script_
tracker.complete("extracted-summary", f"temp {len(extracted_items)} items")
elif verbose:
console.print(f"[cyan]Extracted {len(extracted_items)} items to temp location[/cyan]")
# Handle GitHub-style ZIP with a single root directory
source_dir = temp_path
if len(extracted_items) == 1 and extracted_items[0].is_dir():
@@ -621,7 +593,7 @@ def download_and_extract_template(project_path: Path, ai_assistant: str, script_
tracker.complete("flatten")
elif verbose:
console.print(f"[cyan]Found nested directory structure[/cyan]")
# Copy contents to current directory
for item in source_dir.iterdir():
dest_path = project_path / item.name
@@ -647,7 +619,7 @@ def download_and_extract_template(project_path: Path, ai_assistant: str, script_
else:
# Extract directly to project directory (original behavior)
zip_ref.extractall(project_path)
# Check what was extracted
extracted_items = list(project_path.iterdir())
if tracker:
@@ -657,7 +629,7 @@ def download_and_extract_template(project_path: Path, ai_assistant: str, script_
console.print(f"[cyan]Extracted {len(extracted_items)} items to {project_path}:[/cyan]")
for item in extracted_items:
console.print(f" - {item.name} ({'dir' if item.is_dir() else 'file'})")
# Handle GitHub-style ZIP with a single root directory
if len(extracted_items) == 1 and extracted_items[0].is_dir():
# Move contents up one level
@@ -674,7 +646,7 @@ def download_and_extract_template(project_path: Path, ai_assistant: str, script_
tracker.complete("flatten")
elif verbose:
console.print(f"[cyan]Flattened nested directory structure[/cyan]")
except Exception as e:
if tracker:
tracker.error("extract", str(e))
@@ -700,7 +672,7 @@ def download_and_extract_template(project_path: Path, ai_assistant: str, script_
tracker.complete("cleanup")
elif verbose:
console.print(f"Cleaned up: {zip_path.name}")
return project_path
@@ -751,7 +723,7 @@ def ensure_executable_scripts(project_path: Path, tracker: StepTracker | None =
@app.command()
def init(
project_name: str = typer.Argument(None, help="Name for your new project directory (optional if using --here, or use '.' for current directory)"),
ai_assistant: str = typer.Option(None, "--ai", help="AI assistant to use: claude, gemini, copilot, cursor, qwen, opencode, codex, windsurf, kilocode, auggie, roo, or codebuddy"),
ai_assistant: str = typer.Option(None, "--ai", help="AI assistant to use: claude, gemini, copilot, cursor, qwen, opencode, codex, windsurf, kilocode, auggie, codebuddy, or q"),
script_type: str = typer.Option(None, "--script", help="Script type to use: sh or ps"),
ignore_agent_tools: bool = typer.Option(False, "--ignore-agent-tools", help="Skip checks for AI agent tools like Claude Code"),
no_git: bool = typer.Option(False, "--no-git", help="Skip git repository initialization"),
@@ -766,7 +738,7 @@ def init(
This command will:
1. Check that required tools are installed (git is optional)
2. Let you choose your AI assistant (Claude Code, Gemini CLI, GitHub Copilot, Cursor, Qwen Code, opencode, Codex CLI, Windsurf, Kilo Code, Auggie CLI, Roo Code, or CodeBuddy)
2. Let you choose your AI assistant
3. Download the appropriate template from GitHub
4. Extract the template to a new project directory or current directory
5. Initialize a fresh git repository (if not --no-git and no existing repo)
@@ -775,16 +747,7 @@ def init(
Examples:
specify init my-project
specify init my-project --ai claude
specify init my-project --ai gemini
specify init my-project --ai copilot --no-git
specify init my-project --ai cursor
specify init my-project --ai qwen
specify init my-project --ai opencode
specify init my-project --ai codex
specify init my-project --ai windsurf
specify init my-project --ai kilocode
specify init my-project --ai auggie
specify init my-project --ai codebuddy
specify init --ignore-agent-tools my-project
specify init . --ai claude # Initialize in current directory
specify init . # Initialize in current directory (interactive AI selection)
@@ -794,29 +757,26 @@ def init(
specify init --here
specify init --here --force # Skip confirmation when current directory not empty
"""
# Show banner first
show_banner()
# Handle '.' as shorthand for current directory (equivalent to --here)
if project_name == ".":
here = True
project_name = None # Clear project_name to use existing validation logic
# Validate arguments
if here and project_name:
console.print("[red]Error:[/red] Cannot specify both project name and --here flag")
raise typer.Exit(1)
if not here and not project_name:
console.print("[red]Error:[/red] Must specify either a project name, use '.' for current directory, or use --here flag")
raise typer.Exit(1)
# Determine project directory
if here:
project_name = Path.cwd().name
project_path = Path.cwd()
# Check if current directory has any files
existing_items = list(project_path.iterdir())
if existing_items:
console.print(f"[yellow]Warning:[/yellow] Current directory is not empty ({len(existing_items)} items)")
@@ -824,14 +784,12 @@ def init(
if force:
console.print("[cyan]--force supplied: skipping confirmation and proceeding with merge[/cyan]")
else:
# Ask for confirmation
response = typer.confirm("Do you want to continue?")
if not response:
console.print("[yellow]Operation cancelled[/yellow]")
raise typer.Exit(0)
else:
project_path = Path(project_name).resolve()
# Check if project directory already exists
if project_path.exists():
error_panel = Panel(
f"Directory '[cyan]{project_name}[/cyan]' already exists\n"
@@ -843,23 +801,22 @@ def init(
console.print()
console.print(error_panel)
raise typer.Exit(1)
# Create formatted setup info with column alignment
current_dir = Path.cwd()
setup_lines = [
"[cyan]Specify Project Setup[/cyan]",
"",
f"{'Project':<15} [green]{project_path.name}[/green]",
f"{'Working Path':<15} [dim]{current_dir}[/dim]",
]
# Add target path only if different from working dir
if not here:
setup_lines.append(f"{'Target Path':<15} [dim]{project_path}[/dim]")
console.print(Panel("\n".join(setup_lines), border_style="cyan", padding=(1, 2)))
# Check git only if we might need it (not --no-git)
# Only set to True if the user wants it and the tool is available
should_init_git = False
@@ -868,7 +825,6 @@ def init(
if not should_init_git:
console.print("[yellow]Git not found - will skip repository initialization[/yellow]")
# AI assistant selection
if ai_assistant:
if ai_assistant not in AI_CHOICES:
console.print(f"[red]Error:[/red] Invalid AI assistant '{ai_assistant}'. Choose from: {', '.join(AI_CHOICES.keys())}")
@@ -881,7 +837,7 @@ def init(
"Choose your AI assistant:",
"copilot"
)
# Check agent tools unless ignored
if not ignore_agent_tools:
agent_tool_missing = False
@@ -914,6 +870,10 @@ def init(
if not check_tool("codebuddy", "https://www.codebuddy.ai"):
install_url = "https://www.codebuddy.ai"
agent_tool_missing = True
elif selected_ai == "q":
if not check_tool("q", "https://github.com/aws/amazon-q-developer-cli"):
install_url = "https://aws.amazon.com/developer/learning/q-developer-cli/"
agent_tool_missing = True
# GitHub Copilot and Cursor checks are not needed as they're typically available in supported IDEs
if agent_tool_missing:
@@ -929,7 +889,7 @@ def init(
console.print()
console.print(error_panel)
raise typer.Exit(1)
# Determine script type (explicit, interactive, or OS default)
if script_type:
if script_type not in SCRIPT_TYPE_CHOICES:
@@ -944,10 +904,10 @@ def init(
selected_script = select_with_arrows(SCRIPT_TYPE_CHOICES, "Choose script type (or press Enter)", default_script)
else:
selected_script = default_script
console.print(f"[cyan]Selected AI assistant:[/cyan] {selected_ai}")
console.print(f"[cyan]Selected script type:[/cyan] {selected_script}")
# Download and set up project
# New tree-based progress (no emojis); include earlier substeps
tracker = StepTracker("Initialize Specify Project")
@@ -1025,7 +985,7 @@ def init(
# Final static tree (ensures finished state visible after Live context ends)
console.print(tracker.render())
console.print("\n[bold green]Project ready.[/bold green]")
# Agent folder security notice
agent_folder_map = {
"claude": ".claude/",
@@ -1039,9 +999,10 @@ def init(
"auggie": ".augment/",
"codebuddy": ".codebuddy/",
"copilot": ".github/",
"roo": ".roo/"
"roo": ".roo/",
"q": ".amazonq/"
}
if selected_ai in agent_folder_map:
agent_folder = agent_folder_map[selected_ai]
security_notice = Panel(
@@ -1053,7 +1014,7 @@ def init(
)
console.print()
console.print(security_notice)
# Boxed "Next steps" section
steps_lines = []
if not here:
@@ -1077,11 +1038,11 @@ def init(
steps_lines.append(f"{step_num}. Start using slash commands with your AI agent:")
steps_lines.append(" 2.1 [cyan]/constitution[/] - Establish project principles")
steps_lines.append(" 2.2 [cyan]/specify[/] - Create baseline specification")
steps_lines.append(" 2.3 [cyan]/plan[/] - Create implementation plan")
steps_lines.append(" 2.4 [cyan]/tasks[/] - Generate actionable tasks")
steps_lines.append(" 2.5 [cyan]/implement[/] - Execute implementation")
steps_lines.append(" 2.1 [cyan]/speckit.constitution[/] - Establish project principles")
steps_lines.append(" 2.2 [cyan]/speckit.specify[/] - Create baseline specification")
steps_lines.append(" 2.3 [cyan]/speckit.plan[/] - Create implementation plan")
steps_lines.append(" 2.4 [cyan]/speckit.tasks[/] - Generate actionable tasks")
steps_lines.append(" 2.5 [cyan]/speckit.implement[/] - Execute implementation")
steps_panel = Panel("\n".join(steps_lines), title="Next Steps", border_style="cyan", padding=(1,2))
console.print()
@@ -1090,24 +1051,14 @@ def init(
enhancement_lines = [
"Optional commands that you can use for your specs [bright_black](improve quality & confidence)[/bright_black]",
"",
f"○ [cyan]/clarify[/] [bright_black](optional)[/bright_black] - Ask structured questions to de-risk ambiguous areas before planning (run before [cyan]/plan[/] if used)",
f"○ [cyan]/analyze[/] [bright_black](optional)[/bright_black] - Cross-artifact consistency & alignment report (after [cyan]/tasks[/], before [cyan]/implement[/])"
f"○ [cyan]/speckit.clarify[/] [bright_black](optional)[/bright_black] - Ask structured questions to de-risk ambiguous areas before planning (run before [cyan]/speckit.plan[/] if used)",
f"○ [cyan]/speckit.analyze[/] [bright_black](optional)[/bright_black] - Cross-artifact consistency & alignment report (after [cyan]/speckit.tasks[/], before [cyan]/speckit.implement[/])",
f"○ [cyan]/speckit.checklist[/] [bright_black](optional)[/bright_black] - Generate quality checklists to validate requirements completeness, clarity, and consistency (after [cyan]/speckit.plan[/])"
]
enhancements_panel = Panel("\n".join(enhancement_lines), title="Enhancement Commands", border_style="cyan", padding=(1,2))
console.print()
console.print(enhancements_panel)
if selected_ai == "codex":
warning_text = """[bold yellow]Important Note:[/bold yellow]
Custom prompts do not yet support arguments in Codex. You may need to manually specify additional project instructions directly in prompt files located in [cyan].codex/prompts/[/cyan].
For more information, see: [cyan]https://github.com/openai/codex/issues/2890[/cyan]"""
warning_panel = Panel(warning_text, title="Slash Commands in Codex", border_style="yellow", padding=(1,2))
console.print()
console.print(warning_panel)
@app.command()
def check():
"""Check that all required tools are installed."""
@@ -1115,7 +1066,7 @@ def check():
console.print("[bold]Checking for installed tools...[/bold]\n")
tracker = StepTracker("Check Available Tools")
tracker.add("git", "Git version control")
tracker.add("claude", "Claude Code CLI")
tracker.add("gemini", "Gemini CLI")
@@ -1130,7 +1081,8 @@ def check():
tracker.add("auggie", "Auggie CLI")
tracker.add("roo", "Roo Code")
tracker.add("codebuddy", "CodeBuddy")
tracker.add("q", "Amazon Q Developer CLI")
git_ok = check_tool_for_tracker("git", tracker)
claude_ok = check_tool_for_tracker("claude", tracker)
gemini_ok = check_tool_for_tracker("gemini", tracker)
@@ -1145,6 +1097,7 @@ def check():
auggie_ok = check_tool_for_tracker("auggie", tracker)
roo_ok = check_tool_for_tracker("roo", tracker)
codebuddy_ok = check_tool_for_tracker("codebuddy", tracker)
q_ok = check_tool_for_tracker("q", tracker)
console.print(tracker.render())
@@ -1152,13 +1105,12 @@ def check():
if not git_ok:
console.print("[dim]Tip: Install git for repository management[/dim]")
if not (claude_ok or gemini_ok or cursor_ok or qwen_ok or windsurf_ok or kilocode_ok or opencode_ok or codex_ok or auggie_ok or roo_ok or codebuddy_ok):
console.print("[dim]Tip: Install an AI assistant for the best experience[/dim]")
if not (claude_ok or gemini_ok or cursor_ok or qwen_ok or windsurf_ok or kilocode_ok or opencode_ok or codex_ok or auggie_ok or codebuddy_ok or q_ok):
console.print("[dim]Tip: Install an AI assistant for the best experience[/dim]")
def main():
app()
if __name__ == "__main__":
main()

40
templates/checklist-template.md Normal file
View File

@@ -0,0 +1,40 @@
# [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

241
templates/commands/analyze.md
View File

@@ -5,100 +5,183 @@ scripts:
ps: scripts/powershell/check-prerequisites.ps1 -Json -RequireTasks -IncludeTasks
---
The user input to you can be provided directly by the agent or as a command argument - you **MUST** consider it before proceeding with the prompt (if not empty).
User input:
## User Input
```text
$ARGUMENTS
```
Goal: Identify inconsistencies, duplications, ambiguities, and underspecified items across the three core artifacts (`spec.md`, `plan.md`, `tasks.md`) before implementation. This command MUST run only after `/tasks` has successfully produced a complete `tasks.md`.
You **MUST** consider the user input before proceeding (if not empty).
STRICTLY READ-ONLY: Do **not** modify any files. Output a structured analysis report. Offer an optional remediation plan (user must explicitly approve before any follow-up editing commands would be invoked manually).
## Goal
Constitution Authority: The project constitution (`/memory/constitution.md`) is **non-negotiable** within this analysis scope. Constitution conflicts are automatically CRITICAL and require adjustment of the spec, plan, or tasks—not dilution, reinterpretation, or silent ignoring of the principle. If a principle itself needs to change, that must occur in a separate, explicit constitution update outside `/analyze`.
Identify inconsistencies, duplications, ambiguities, and underspecified items across the three core artifacts (`spec.md`, `plan.md`, `tasks.md`) before implementation. This command MUST run only after `/tasks` has successfully produced a complete `tasks.md`.
Execution steps:
## Operating Constraints
1. Run `{SCRIPT}` once from repo root and parse JSON for FEATURE_DIR and AVAILABLE_DOCS. Derive absolute paths:
- SPEC = FEATURE_DIR/spec.md
- PLAN = FEATURE_DIR/plan.md
- TASKS = FEATURE_DIR/tasks.md
Abort with an error message if any required file is missing (instruct the user to run missing prerequisite command).
**STRICTLY READ-ONLY**: Do **not** modify any files. Output a structured analysis report. Offer an optional remediation plan (user must explicitly approve before any follow-up editing commands would be invoked manually).
2. Load artifacts:
- Parse spec.md sections: Overview/Context, Functional Requirements, Non-Functional Requirements, User Stories, Edge Cases (if present).
- Parse plan.md: Architecture/stack choices, Data Model references, Phases, Technical constraints.
- Parse tasks.md: Task IDs, descriptions, phase grouping, parallel markers [P], referenced file paths.
- Load constitution `/memory/constitution.md` for principle validation.
**Constitution Authority**: The project constitution (`/memory/constitution.md`) is **non-negotiable** within this analysis scope. Constitution conflicts are automatically CRITICAL and require adjustment of the spec, plan, or tasks—not dilution, reinterpretation, or silent ignoring of the principle. If a principle itself needs to change, that must occur in a separate, explicit constitution update outside `/analyze`.
3. Build internal semantic models:
- Requirements inventory: Each functional + non-functional requirement with a stable key (derive slug based on imperative phrase; e.g., "User can upload file" -> `user-can-upload-file`).
- User story/action inventory.
- Task coverage mapping: Map each task to one or more requirements or stories (inference by keyword / explicit reference patterns like IDs or key phrases).
- Constitution rule set: Extract principle names and any MUST/SHOULD normative statements.
## Execution Steps
4. Detection passes:
A. Duplication detection:
- Identify near-duplicate requirements. Mark lower-quality phrasing for consolidation.
B. Ambiguity detection:
- Flag vague adjectives (fast, scalable, secure, intuitive, robust) lacking measurable criteria.
- Flag unresolved placeholders (TODO, TKTK, ???, <placeholder>, etc.).
C. Underspecification:
- Requirements with verbs but missing object or measurable outcome.
- User stories missing acceptance criteria alignment.
- Tasks referencing files or components not defined in spec/plan.
D. Constitution alignment:
- Any requirement or plan element conflicting with a MUST principle.
- Missing mandated sections or quality gates from constitution.
E. Coverage gaps:
- Requirements with zero associated tasks.
- Tasks with no mapped requirement/story.
- Non-functional requirements not reflected in tasks (e.g., performance, security).
F. Inconsistency:
- Terminology drift (same concept named differently across files).
- Data entities referenced in plan but absent in spec (or vice versa).
- Task ordering contradictions (e.g., integration tasks before foundational setup tasks without dependency note).
- Conflicting requirements (e.g., one requires to use Next.js while other says to use Vue as the framework).
### 1. Initialize Analysis Context
5. Severity assignment heuristic:
- CRITICAL: Violates constitution MUST, missing core spec artifact, or requirement with zero coverage that blocks baseline functionality.
- HIGH: Duplicate or conflicting requirement, ambiguous security/performance attribute, untestable acceptance criterion.
- MEDIUM: Terminology drift, missing non-functional task coverage, underspecified edge case.
- LOW: Style/wording improvements, minor redundancy not affecting execution order.
Run `{SCRIPT}` once from repo root and parse JSON for FEATURE_DIR and AVAILABLE_DOCS. Derive absolute paths:
6. Produce a Markdown report (no file writes) with sections:
- SPEC = FEATURE_DIR/spec.md
- PLAN = FEATURE_DIR/plan.md
- TASKS = FEATURE_DIR/tasks.md
### Specification Analysis Report
| ID | Category | Severity | Location(s) | Summary | Recommendation |
|----|----------|----------|-------------|---------|----------------|
| A1 | Duplication | HIGH | spec.md:L120-134 | Two similar requirements ... | Merge phrasing; keep clearer version |
(Add one row per finding; generate stable IDs prefixed by category initial.)
Abort with an error message if any required file is missing (instruct the user to run missing prerequisite command).
For single quotes in args like "I'm Groot", use escape syntax: e.g 'I'\''m Groot' (or double-quote if possible: "I'm Groot").
Additional subsections:
- Coverage Summary Table:
| Requirement Key | Has Task? | Task IDs | Notes |
- Constitution Alignment Issues (if any)
- Unmapped Tasks (if any)
- Metrics:
* Total Requirements
* Total Tasks
* Coverage % (requirements with >=1 task)
* Ambiguity Count
* Duplication Count
* Critical Issues Count
### 2. Load Artifacts (Progressive Disclosure)
7. At end of report, output a concise Next Actions block:
- If CRITICAL issues exist: Recommend resolving before `/implement`.
- If only LOW/MEDIUM: User may proceed, but provide improvement suggestions.
- Provide explicit command suggestions: e.g., "Run /specify with refinement", "Run /plan to adjust architecture", "Manually edit tasks.md to add coverage for 'performance-metrics'".
Load only the minimal necessary context from each artifact:
8. Ask the user: "Would you like me to suggest concrete remediation edits for the top N issues?" (Do NOT apply them automatically.)
**From spec.md:**
Behavior rules:
- NEVER modify files.
- NEVER hallucinate missing sections—if absent, report them.
- KEEP findings deterministic: if rerun without changes, produce consistent IDs and counts.
- LIMIT total findings in the main table to 50; aggregate remainder in a summarized overflow note.
- If zero issues found, emit a success report with coverage statistics and proceed recommendation.
- Overview/Context
- Functional Requirements
- Non-Functional Requirements
- User Stories
- Edge Cases (if present)
Context: {ARGS}
**From plan.md:**
- Architecture/stack choices
- Data Model references
- Phases
- Technical constraints
**From tasks.md:**
- Task IDs
- Descriptions
- Phase grouping
- Parallel markers [P]
- Referenced file paths
**From constitution:**
- Load `/memory/constitution.md` for principle validation
### 3. Build Semantic Models
Create internal representations (do not include raw artifacts in output):
- **Requirements inventory**: Each functional + non-functional requirement with a stable key (derive slug based on imperative phrase; e.g., "User can upload file" → `user-can-upload-file`)
- **User story/action inventory**: Discrete user actions with acceptance criteria
- **Task coverage mapping**: Map each task to one or more requirements or stories (inference by keyword / explicit reference patterns like IDs or key phrases)
- **Constitution rule set**: Extract principle names and MUST/SHOULD normative statements
### 4. Detection Passes (Token-Efficient Analysis)
Focus on high-signal findings. Limit to 50 findings total; aggregate remainder in overflow summary.
#### A. Duplication Detection
- Identify near-duplicate requirements
- Mark lower-quality phrasing for consolidation
#### B. Ambiguity Detection
- Flag vague adjectives (fast, scalable, secure, intuitive, robust) lacking measurable criteria
- Flag unresolved placeholders (TODO, TKTK, ???, `<placeholder>`, etc.)
#### C. Underspecification
- Requirements with verbs but missing object or measurable outcome
- User stories missing acceptance criteria alignment
- Tasks referencing files or components not defined in spec/plan
#### D. Constitution Alignment
- Any requirement or plan element conflicting with a MUST principle
- Missing mandated sections or quality gates from constitution
#### E. Coverage Gaps
- Requirements with zero associated tasks
- Tasks with no mapped requirement/story
- Non-functional requirements not reflected in tasks (e.g., performance, security)
#### F. Inconsistency
- Terminology drift (same concept named differently across files)
- Data entities referenced in plan but absent in spec (or vice versa)
- Task ordering contradictions (e.g., integration tasks before foundational setup tasks without dependency note)
- Conflicting requirements (e.g., one requires Next.js while other specifies Vue)
### 5. Severity Assignment
Use this heuristic to prioritize findings:
- **CRITICAL**: Violates constitution MUST, missing core spec artifact, or requirement with zero coverage that blocks baseline functionality
- **HIGH**: Duplicate or conflicting requirement, ambiguous security/performance attribute, untestable acceptance criterion
- **MEDIUM**: Terminology drift, missing non-functional task coverage, underspecified edge case
- **LOW**: Style/wording improvements, minor redundancy not affecting execution order
### 6. Produce Compact Analysis Report
Output a Markdown report (no file writes) with the following structure:
## Specification Analysis Report
| ID | Category | Severity | Location(s) | Summary | Recommendation |
|----|----------|----------|-------------|---------|----------------|
| A1 | Duplication | HIGH | spec.md:L120-134 | Two similar requirements ... | Merge phrasing; keep clearer version |
(Add one row per finding; generate stable IDs prefixed by category initial.)
**Coverage Summary Table:**
| Requirement Key | Has Task? | Task IDs | Notes |
|-----------------|-----------|----------|-------|
**Constitution Alignment Issues:** (if any)
**Unmapped Tasks:** (if any)
**Metrics:**
- Total Requirements
- Total Tasks
- Coverage % (requirements with >=1 task)
- Ambiguity Count
- Duplication Count
- Critical Issues Count
### 7. Provide Next Actions
At end of report, output a concise Next Actions block:
- If CRITICAL issues exist: Recommend resolving before `/implement`
- If only LOW/MEDIUM: User may proceed, but provide improvement suggestions
- Provide explicit command suggestions: e.g., "Run /specify with refinement", "Run /plan to adjust architecture", "Manually edit tasks.md to add coverage for 'performance-metrics'"
### 8. Offer Remediation
Ask the user: "Would you like me to suggest concrete remediation edits for the top N issues?" (Do NOT apply them automatically.)
## Operating Principles
### Context Efficiency
- **Minimal high-signal tokens**: Focus on actionable findings, not exhaustive documentation
- **Progressive disclosure**: Load artifacts incrementally; don't dump all content into analysis
- **Token-efficient output**: Limit findings table to 50 rows; summarize overflow
- **Deterministic results**: Rerunning without changes should produce consistent IDs and counts
### Analysis Guidelines
- **NEVER modify files** (this is read-only analysis)
- **NEVER hallucinate missing sections** (if absent, report them accurately)
- **Prioritize constitution violations** (these are always CRITICAL)
- **Use examples over exhaustive rules** (cite specific instances, not generic patterns)
- **Report zero issues gracefully** (emit success report with coverage statistics)
## Context
{ARGS}

290
templates/commands/checklist.md Normal file
View File

@@ -0,0 +1,290 @@
---
description: Generate a custom checklist for the current feature based on user requirements.
scripts:
sh: scripts/bash/check-prerequisites.sh --json
ps: scripts/powershell/check-prerequisites.ps1 -Json
---
## Checklist Purpose: "Unit Tests for English"
**CRITICAL CONCEPT**: Checklists are **UNIT TESTS FOR REQUIREMENTS WRITING** - they validate the quality, clarity, and completeness of requirements in a given domain.
**NOT for verification/testing**:
- ❌ NOT "Verify the button clicks correctly"
- ❌ NOT "Test error handling works"
- ❌ NOT "Confirm the API returns 200"
- ❌ NOT checking if code/implementation matches the spec
**FOR requirements quality validation**:
- ✅ "Are visual hierarchy requirements defined for all card types?" (completeness)
- ✅ "Is 'prominent display' quantified with specific sizing/positioning?" (clarity)
- ✅ "Are hover state requirements consistent across all interactive elements?" (consistency)
- ✅ "Are accessibility requirements defined for keyboard navigation?" (coverage)
- ✅ "Does the spec define what happens when logo image fails to load?" (edge cases)
**Metaphor**: If your spec is code written in English, the checklist is its unit test suite. You're testing whether the requirements are well-written, complete, unambiguous, and ready for implementation - NOT whether the implementation works.
## User Input
```text
$ARGUMENTS
```
You **MUST** consider the user input before proceeding (if not empty).
## Execution Steps
1. **Setup**: Run `{SCRIPT}` from repo root and parse JSON for FEATURE_DIR and AVAILABLE_DOCS list.
- All file paths must be absolute.
- For single quotes in args like "I'm Groot", use escape syntax: e.g 'I'\''m Groot' (or double-quote if possible: "I'm Groot").
2. **Clarify intent (dynamic)**: Derive up to THREE initial contextual clarifying questions (no pre-baked catalog). They MUST:
- Be generated from the user's phrasing + extracted signals from spec/plan/tasks
- Only ask about information that materially changes checklist content
- Be skipped individually if already unambiguous in `$ARGUMENTS`
- Prefer precision over breadth
Generation algorithm:
1. Extract signals: feature domain keywords (e.g., auth, latency, UX, API), risk indicators ("critical", "must", "compliance"), stakeholder hints ("QA", "review", "security team"), and explicit deliverables ("a11y", "rollback", "contracts").
2. Cluster signals into candidate focus areas (max 4) ranked by relevance.
3. Identify probable audience & timing (author, reviewer, QA, release) if not explicit.
4. Detect missing dimensions: scope breadth, depth/rigor, risk emphasis, exclusion boundaries, measurable acceptance criteria.
5. Formulate questions chosen from these archetypes:
- Scope refinement (e.g., "Should this include integration touchpoints with X and Y or stay limited to local module correctness?")
- Risk prioritization (e.g., "Which of these potential risk areas should receive mandatory gating checks?")
- Depth calibration (e.g., "Is this a lightweight pre-commit sanity list or a formal release gate?")
- Audience framing (e.g., "Will this be used by the author only or peers during PR review?")
- Boundary exclusion (e.g., "Should we explicitly exclude performance tuning items this round?")
- Scenario class gap (e.g., "No recovery flows detected—are rollback / partial failure paths in scope?")
Question formatting rules:
- If presenting options, generate a compact table with columns: Option | Candidate | Why It Matters
- Limit to AE options maximum; omit table if a free-form answer is clearer
- Never ask the user to restate what they already said
- Avoid speculative categories (no hallucination). If uncertain, ask explicitly: "Confirm whether X belongs in scope."
Defaults when interaction impossible:
- Depth: Standard
- Audience: Reviewer (PR) if code-related; Author otherwise
- Focus: Top 2 relevance clusters
Output the questions (label Q1/Q2/Q3). After answers: if ≥2 scenario classes (Alternate / Exception / Recovery / Non-Functional domain) remain unclear, you MAY ask up to TWO more targeted followups (Q4/Q5) with a one-line justification each (e.g., "Unresolved recovery path risk"). Do not exceed five total questions. Skip escalation if user explicitly declines more.
3. **Understand user request**: Combine `$ARGUMENTS` + clarifying answers:
- Derive checklist theme (e.g., security, review, deploy, ux)
- Consolidate explicit must-have items mentioned by user
- Map focus selections to category scaffolding
- Infer any missing context from spec/plan/tasks (do NOT hallucinate)
4. **Load feature context**: Read from FEATURE_DIR:
- spec.md: Feature requirements and scope
- plan.md (if exists): Technical details, dependencies
- tasks.md (if exists): Implementation tasks
**Context Loading Strategy**:
- Load only necessary portions relevant to active focus areas (avoid full-file dumping)
- Prefer summarizing long sections into concise scenario/requirement bullets
- Use progressive disclosure: add follow-on retrieval only if gaps detected
- If source docs are large, generate interim summary items instead of embedding raw text
5. **Generate checklist** - Create "Unit Tests for Requirements":
- Create `FEATURE_DIR/checklists/` directory if it doesn't exist
- Generate unique checklist filename:
- Use short, descriptive name based on domain (e.g., `ux.md`, `api.md`, `security.md`)
- Format: `[domain].md`
- If file exists, append to existing file
- Number items sequentially starting from CHK001
- Each `/speckit.checklist` run creates a NEW file (never overwrites existing checklists)
**CORE PRINCIPLE - Test the Requirements, Not the Implementation**:
Every checklist item MUST evaluate the REQUIREMENTS THEMSELVES for:
- **Completeness**: Are all necessary requirements present?
- **Clarity**: Are requirements unambiguous and specific?
- **Consistency**: Do requirements align with each other?
- **Measurability**: Can requirements be objectively verified?
- **Coverage**: Are all scenarios/edge cases addressed?
**Category Structure** - Group items by requirement quality dimensions:
- **Requirement Completeness** (Are all necessary requirements documented?)
- **Requirement Clarity** (Are requirements specific and unambiguous?)
- **Requirement Consistency** (Do requirements align without conflicts?)
- **Acceptance Criteria Quality** (Are success criteria measurable?)
- **Scenario Coverage** (Are all flows/cases addressed?)
- **Edge Case Coverage** (Are boundary conditions defined?)
- **Non-Functional Requirements** (Performance, Security, Accessibility, etc. - are they specified?)
- **Dependencies & Assumptions** (Are they documented and validated?)
- **Ambiguities & Conflicts** (What needs clarification?)
**HOW TO WRITE CHECKLIST ITEMS - "Unit Tests for English"**:
**WRONG** (Testing implementation):
- "Verify landing page displays 3 episode cards"
- "Test hover states work on desktop"
- "Confirm logo click navigates home"
**CORRECT** (Testing requirements quality):
- "Are the exact number and layout of featured episodes specified?" [Completeness]
- "Is 'prominent display' quantified with specific sizing/positioning?" [Clarity]
- "Are hover state requirements consistent across all interactive elements?" [Consistency]
- "Are keyboard navigation requirements defined for all interactive UI?" [Coverage]
- "Is the fallback behavior specified when logo image fails to load?" [Edge Cases]
- "Are loading states defined for asynchronous episode data?" [Completeness]
- "Does the spec define visual hierarchy for competing UI elements?" [Clarity]
**ITEM STRUCTURE**:
Each item should follow this pattern:
- Question format asking about requirement quality
- Focus on what's WRITTEN (or not written) in the spec/plan
- Include quality dimension in brackets [Completeness/Clarity/Consistency/etc.]
- Reference spec section `[Spec §X.Y]` when checking existing requirements
- Use `[Gap]` marker when checking for missing requirements
**EXAMPLES BY QUALITY DIMENSION**:
Completeness:
- "Are error handling requirements defined for all API failure modes? [Gap]"
- "Are accessibility requirements specified for all interactive elements? [Completeness]"
- "Are mobile breakpoint requirements defined for responsive layouts? [Gap]"
Clarity:
- "Is 'fast loading' quantified with specific timing thresholds? [Clarity, Spec §NFR-2]"
- "Are 'related episodes' selection criteria explicitly defined? [Clarity, Spec §FR-5]"
- "Is 'prominent' defined with measurable visual properties? [Ambiguity, Spec §FR-4]"
Consistency:
- "Do navigation requirements align across all pages? [Consistency, Spec §FR-10]"
- "Are card component requirements consistent between landing and detail pages? [Consistency]"
Coverage:
- "Are requirements defined for zero-state scenarios (no episodes)? [Coverage, Edge Case]"
- "Are concurrent user interaction scenarios addressed? [Coverage, Gap]"
- "Are requirements specified for partial data loading failures? [Coverage, Exception Flow]"
Measurability:
- "Are visual hierarchy requirements measurable/testable? [Acceptance Criteria, Spec §FR-1]"
- "Can 'balanced visual weight' be objectively verified? [Measurability, Spec §FR-2]"
**Scenario Classification & Coverage** (Requirements Quality Focus):
- Check if requirements exist for: Primary, Alternate, Exception/Error, Recovery, Non-Functional scenarios
- For each scenario class, ask: "Are [scenario type] requirements complete, clear, and consistent?"
- If scenario class missing: "Are [scenario type] requirements intentionally excluded or missing? [Gap]"
- Include resilience/rollback when state mutation occurs: "Are rollback requirements defined for migration failures? [Gap]"
**Traceability Requirements**:
- MINIMUM: ≥80% of items MUST include at least one traceability reference
- Each item should reference: spec section `[Spec §X.Y]`, or use markers: `[Gap]`, `[Ambiguity]`, `[Conflict]`, `[Assumption]`
- If no ID system exists: "Is a requirement & acceptance criteria ID scheme established? [Traceability]"
**Surface & Resolve Issues** (Requirements Quality Problems):
Ask questions about the requirements themselves:
- Ambiguities: "Is the term 'fast' quantified with specific metrics? [Ambiguity, Spec §NFR-1]"
- Conflicts: "Do navigation requirements conflict between §FR-10 and §FR-10a? [Conflict]"
- Assumptions: "Is the assumption of 'always available podcast API' validated? [Assumption]"
- Dependencies: "Are external podcast API requirements documented? [Dependency, Gap]"
- Missing definitions: "Is 'visual hierarchy' defined with measurable criteria? [Gap]"
**Content Consolidation**:
- Soft cap: If raw candidate items > 40, prioritize by risk/impact
- Merge near-duplicates checking the same requirement aspect
- If >5 low-impact edge cases, create one item: "Are edge cases X, Y, Z addressed in requirements? [Coverage]"
**🚫 ABSOLUTELY PROHIBITED** - These make it an implementation test, not a requirements test:
- ❌ Any item starting with "Verify", "Test", "Confirm", "Check" + implementation behavior
- ❌ References to code execution, user actions, system behavior
- ❌ "Displays correctly", "works properly", "functions as expected"
- ❌ "Click", "navigate", "render", "load", "execute"
- ❌ Test cases, test plans, QA procedures
- ❌ Implementation details (frameworks, APIs, algorithms)
**✅ REQUIRED PATTERNS** - These test requirements quality:
- ✅ "Are [requirement type] defined/specified/documented for [scenario]?"
- ✅ "Is [vague term] quantified/clarified with specific criteria?"
- ✅ "Are requirements consistent between [section A] and [section B]?"
- ✅ "Can [requirement] be objectively measured/verified?"
- ✅ "Are [edge cases/scenarios] addressed in requirements?"
- ✅ "Does the spec define [missing aspect]?"
6. **Structure Reference**: Generate the checklist following the canonical template in `templates/checklist-template.md` for title, meta section, category headings, and ID formatting. If template is unavailable, use: H1 title, purpose/created meta lines, `##` category sections containing `- [ ] CHK### <requirement item>` lines with globally incrementing IDs starting at CHK001.
7. **Report**: Output full path to created checklist, item count, and remind user that each run creates a new file. Summarize:
- Focus areas selected
- Depth level
- Actor/timing
- Any explicit user-specified must-have items incorporated
**Important**: Each `/speckit.checklist` command invocation creates a checklist file using short, descriptive names unless file already exists. This allows:
- Multiple checklists of different types (e.g., `ux.md`, `test.md`, `security.md`)
- Simple, memorable filenames that indicate checklist purpose
- Easy identification and navigation in the `checklists/` folder
To avoid clutter, use descriptive types and clean up obsolete checklists when done.
## Example Checklist Types & Sample Items
**UX Requirements Quality:** `ux.md`
Sample items (testing the requirements, NOT the implementation):
- "Are visual hierarchy requirements defined with measurable criteria? [Clarity, Spec §FR-1]"
- "Is the number and positioning of UI elements explicitly specified? [Completeness, Spec §FR-1]"
- "Are interaction state requirements (hover, focus, active) consistently defined? [Consistency]"
- "Are accessibility requirements specified for all interactive elements? [Coverage, Gap]"
- "Is fallback behavior defined when images fail to load? [Edge Case, Gap]"
- "Can 'prominent display' be objectively measured? [Measurability, Spec §FR-4]"
**API Requirements Quality:** `api.md`
Sample items:
- "Are error response formats specified for all failure scenarios? [Completeness]"
- "Are rate limiting requirements quantified with specific thresholds? [Clarity]"
- "Are authentication requirements consistent across all endpoints? [Consistency]"
- "Are retry/timeout requirements defined for external dependencies? [Coverage, Gap]"
- "Is versioning strategy documented in requirements? [Gap]"
**Performance Requirements Quality:** `performance.md`
Sample items:
- "Are performance requirements quantified with specific metrics? [Clarity]"
- "Are performance targets defined for all critical user journeys? [Coverage]"
- "Are performance requirements under different load conditions specified? [Completeness]"
- "Can performance requirements be objectively measured? [Measurability]"
- "Are degradation requirements defined for high-load scenarios? [Edge Case, Gap]"
**Security Requirements Quality:** `security.md`
Sample items:
- "Are authentication requirements specified for all protected resources? [Coverage]"
- "Are data protection requirements defined for sensitive information? [Completeness]"
- "Is the threat model documented and requirements aligned to it? [Traceability]"
- "Are security requirements consistent with compliance obligations? [Consistency]"
- "Are security failure/breach response requirements defined? [Gap, Exception Flow]"
## Anti-Examples: What NOT To Do
**❌ WRONG - These test implementation, not requirements:**
```markdown
- [ ] CHK001 - Verify landing page displays 3 episode cards [Spec §FR-001]
- [ ] CHK002 - Test hover states work correctly on desktop [Spec §FR-003]
- [ ] CHK003 - Confirm logo click navigates to home page [Spec §FR-010]
- [ ] CHK004 - Check that related episodes section shows 3-5 items [Spec §FR-005]
```
**✅ CORRECT - These test requirements quality:**
```markdown
- [ ] CHK001 - Are the number and layout of featured episodes explicitly specified? [Completeness, Spec §FR-001]
- [ ] CHK002 - Are hover state requirements consistently defined for all interactive elements? [Consistency, Spec §FR-003]
- [ ] CHK003 - Are navigation requirements clear for all clickable brand elements? [Clarity, Spec §FR-010]
- [ ] CHK004 - Is the selection criteria for related episodes documented? [Gap, Spec §FR-005]
- [ ] CHK005 - Are loading state requirements defined for asynchronous episode data? [Gap]
- [ ] CHK006 - Can "visual hierarchy" requirements be objectively measured? [Measurability, Spec §FR-001]
```
**Key Differences:**
- Wrong: Tests if the system works correctly
- Correct: Tests if the requirements are written correctly
- Wrong: Verification of behavior
- Correct: Validation of requirement quality
- Wrong: "Does it do X?"
- Correct: "Is X clearly specified?"

21
templates/commands/clarify.md
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@@ -5,15 +5,19 @@ scripts:
ps: scripts/powershell/check-prerequisites.ps1 -Json -PathsOnly
---
The user input to you can be provided directly by the agent or as a command argument - you **MUST** consider it before proceeding with the prompt (if not empty).
User input:
## User Input
```text
$ARGUMENTS
```
You **MUST** consider the user input before proceeding (if not empty).
## Outline
Goal: Detect and reduce ambiguity or missing decision points in the active feature specification and record the clarifications directly in the spec file.
Note: This clarification workflow is expected to run (and be completed) BEFORE invoking `/plan`. If the user explicitly states they are skipping clarification (e.g., exploratory spike), you may proceed, but must warn that downstream rework risk increases.
Note: This clarification workflow is expected to run (and be completed) BEFORE invoking `/speckit.plan`. If the user explicitly states they are skipping clarification (e.g., exploratory spike), you may proceed, but must warn that downstream rework risk increases.
Execution steps:
@@ -21,7 +25,8 @@ Execution steps:
- `FEATURE_DIR`
- `FEATURE_SPEC`
- (Optionally capture `IMPL_PLAN`, `TASKS` for future chained flows.)
- If JSON parsing fails, abort and instruct user to re-run `/specify` or verify feature branch environment.
- If JSON parsing fails, abort and instruct user to re-run `/speckit.specify` or verify feature branch environment.
- For single quotes in args like "I'm Groot", use escape syntax: e.g 'I'\''m Groot' (or double-quote if possible: "I'm Groot").
2. Load the current spec file. Perform a structured ambiguity & coverage scan using this taxonomy. For each category, mark status: Clear / Partial / Missing. Produce an internal coverage map used for prioritization (do not output raw map unless no questions will be asked).
@@ -80,7 +85,7 @@ Execution steps:
- Information is better deferred to planning phase (note internally)
3. Generate (internally) a prioritized queue of candidate clarification questions (maximum 5). Do NOT output them all at once. Apply these constraints:
- Maximum of 5 total questions across the whole session.
- Maximum of 10 total questions across the whole session.
- Each question must be answerable with EITHER:
* A short multiplechoice selection (25 distinct, mutually exclusive options), OR
* A one-word / shortphrase answer (explicitly constrain: "Answer in <=5 words").
@@ -146,12 +151,12 @@ Execution steps:
- Path to updated spec.
- Sections touched (list names).
- Coverage summary table listing each taxonomy category with Status: Resolved (was Partial/Missing and addressed), Deferred (exceeds question quota or better suited for planning), Clear (already sufficient), Outstanding (still Partial/Missing but low impact).
- If any Outstanding or Deferred remain, recommend whether to proceed to `/plan` or run `/clarify` again later post-plan.
- If any Outstanding or Deferred remain, recommend whether to proceed to `/speckit.plan` or run `/speckit.clarify` again later post-plan.
- Suggested next command.
Behavior rules:
- If no meaningful ambiguities found (or all potential questions would be low-impact), respond: "No critical ambiguities detected worth formal clarification." and suggest proceeding.
- If spec file missing, instruct user to run `/specify` first (do not create a new spec here).
- If spec file missing, instruct user to run `/speckit.specify` first (do not create a new spec here).
- Never exceed 5 total asked questions (clarification retries for a single question do not count as new questions).
- Avoid speculative tech stack questions unless the absence blocks functional clarity.
- Respect user early termination signals ("stop", "done", "proceed").

10
templates/commands/constitution.md
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@@ -2,11 +2,15 @@
description: Create or update the project constitution from interactive or provided principle inputs, ensuring all dependent templates stay in sync.
---
The user input to you can be provided directly by the agent or as a command argument - you **MUST** consider it before proceeding with the prompt (if not empty).
User input:
## User Input
```text
$ARGUMENTS
```
You **MUST** consider the user input before proceeding (if not empty).
## Outline
You are updating the project constitution at `/memory/constitution.md`. This file is a TEMPLATE containing placeholder tokens in square brackets (e.g. `[PROJECT_NAME]`, `[PRINCIPLE_1_NAME]`). Your job is to (a) collect/derive concrete values, (b) fill the template precisely, and (c) propagate any amendments across dependent artifacts.

55
templates/commands/implement.md
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@@ -5,15 +5,48 @@ scripts:
ps: scripts/powershell/check-prerequisites.ps1 -Json -RequireTasks -IncludeTasks
---
The user input can be provided directly by the agent or as a command argument - you **MUST** consider it before proceeding with the prompt (if not empty).
User input:
## User Input
```text
$ARGUMENTS
```
1. Run `{SCRIPT}` from repo root and parse FEATURE_DIR and AVAILABLE_DOCS list. All paths must be absolute.
You **MUST** consider the user input before proceeding (if not empty).
2. Load and analyze the implementation context:
## Outline
1. Run `{SCRIPT}` from repo root and parse FEATURE_DIR and AVAILABLE_DOCS list. All paths must be absolute. For single quotes in args like "I'm Groot", use escape syntax: e.g 'I'\''m Groot' (or double-quote if possible: "I'm Groot").
2. **Check checklists status** (if FEATURE_DIR/checklists/ exists):
- Scan all checklist files in the checklists/ directory
- For each checklist, count:
* Total items: All lines matching `- [ ]` or `- [X]` or `- [x]`
* Completed items: Lines matching `- [X]` or `- [x]`
* Incomplete items: Lines matching `- [ ]`
- Create a status table:
```
| Checklist | Total | Completed | Incomplete | Status |
|-----------|-------|-----------|------------|--------|
| ux.md | 12 | 12 | 0 | ✓ PASS |
| test.md | 8 | 5 | 3 | ✗ FAIL |
| security.md | 6 | 6 | 0 | ✓ PASS |
```
- Calculate overall status:
* **PASS**: All checklists have 0 incomplete items
* **FAIL**: One or more checklists have incomplete items
- **If any checklist is incomplete**:
* Display the table with incomplete item counts
* **STOP** and ask: "Some checklists are incomplete. Do you want to proceed with implementation anyway? (yes/no)"
* Wait for user response before continuing
* If user says "no" or "wait" or "stop", halt execution
* If user says "yes" or "proceed" or "continue", proceed to step 3
- **If all checklists are complete**:
* Display the table showing all checklists passed
* Automatically proceed to step 3
3. Load and analyze the implementation context:
- **REQUIRED**: Read tasks.md for the complete task list and execution plan
- **REQUIRED**: Read plan.md for tech stack, architecture, and file structure
- **IF EXISTS**: Read data-model.md for entities and relationships
@@ -21,27 +54,27 @@ $ARGUMENTS
- **IF EXISTS**: Read research.md for technical decisions and constraints
- **IF EXISTS**: Read quickstart.md for integration scenarios
3. Parse tasks.md structure and extract:
4. Parse tasks.md structure and extract:
- **Task phases**: Setup, Tests, Core, Integration, Polish
- **Task dependencies**: Sequential vs parallel execution rules
- **Task details**: ID, description, file paths, parallel markers [P]
- **Execution flow**: Order and dependency requirements
4. Execute implementation following the task plan:
5. Execute implementation following the task plan:
- **Phase-by-phase execution**: Complete each phase before moving to the next
- **Respect dependencies**: Run sequential tasks in order, parallel tasks [P] can run together
- **Follow TDD approach**: Execute test tasks before their corresponding implementation tasks
- **File-based coordination**: Tasks affecting the same files must run sequentially
- **Validation checkpoints**: Verify each phase completion before proceeding
5. Implementation execution rules:
6. Implementation execution rules:
- **Setup first**: Initialize project structure, dependencies, configuration
- **Tests before code**: If you need to write tests for contracts, entities, and integration scenarios
- **Core development**: Implement models, services, CLI commands, endpoints
- **Integration work**: Database connections, middleware, logging, external services
- **Polish and validation**: Unit tests, performance optimization, documentation
6. Progress tracking and error handling:
7. Progress tracking and error handling:
- Report progress after each completed task
- Halt execution if any non-parallel task fails
- For parallel tasks [P], continue with successful tasks, report failed ones
@@ -49,11 +82,11 @@ $ARGUMENTS
- Suggest next steps if implementation cannot proceed
- **IMPORTANT** For completed tasks, make sure to mark the task off as [X] in the tasks file.
7. Completion validation:
8. Completion validation:
- Verify all required tasks are completed
- Check that implemented features match the original specification
- Validate that tests pass and coverage meets requirements
- Confirm the implementation follows the technical plan
- Report final status with summary of completed work
Note: This command assumes a complete task breakdown exists in tasks.md. If tasks are incomplete or missing, suggest running `/tasks` first to regenerate the task list.
Note: This command assumes a complete task breakdown exists in tasks.md. If tasks are incomplete or missing, suggest running `/tasks` first to regenerate the task list.

100
templates/commands/plan.md
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@@ -3,44 +3,84 @@ description: Execute the implementation planning workflow using the plan templat
scripts:
sh: scripts/bash/setup-plan.sh --json
ps: scripts/powershell/setup-plan.ps1 -Json
agent_scripts:
sh: scripts/bash/update-agent-context.sh __AGENT__
ps: scripts/powershell/update-agent-context.ps1 -AgentType __AGENT__
---
The user input to you can be provided directly by the agent or as a command argument - you **MUST** consider it before proceeding with the prompt (if not empty).
User input:
## User Input
```text
$ARGUMENTS
```
Given the implementation details provided as an argument, do this:
You **MUST** consider the user input before proceeding (if not empty).
1. Run `{SCRIPT}` from the repo root and parse JSON for FEATURE_SPEC, IMPL_PLAN, SPECS_DIR, BRANCH. All future file paths must be absolute.
- BEFORE proceeding, inspect FEATURE_SPEC for a `## Clarifications` section with at least one `Session` subheading. If missing or clearly ambiguous areas remain (vague adjectives, unresolved critical choices), PAUSE and instruct the user to run `/clarify` first to reduce rework. Only continue if: (a) Clarifications exist OR (b) an explicit user override is provided (e.g., "proceed without clarification"). Do not attempt to fabricate clarifications yourself.
2. Read and analyze the feature specification to understand:
- The feature requirements and user stories
- Functional and non-functional requirements
- Success criteria and acceptance criteria
- Any technical constraints or dependencies mentioned
## Outline
3. Read the constitution at `/memory/constitution.md` to understand constitutional requirements.
1. **Setup**: Run `{SCRIPT}` from repo root and parse JSON for FEATURE_SPEC, IMPL_PLAN, SPECS_DIR, BRANCH. For single quotes in args like "I'm Groot", use escape syntax: e.g 'I'\''m Groot' (or double-quote if possible: "I'm Groot").
4. Execute the implementation plan template:
- Load `/templates/plan-template.md` (already copied to IMPL_PLAN path)
- Set Input path to FEATURE_SPEC
- Run the Execution Flow (main) function steps 1-9
- The template is self-contained and executable
- Follow error handling and gate checks as specified
- Let the template guide artifact generation in $SPECS_DIR:
* Phase 0 generates research.md
* Phase 1 generates data-model.md, contracts/, quickstart.md
* Phase 2 generates tasks.md
- Incorporate user-provided details from arguments into Technical Context: {ARGS}
- Update Progress Tracking as you complete each phase
2. **Load context**: Read FEATURE_SPEC and `.specify/memory/constitution.md`. Load IMPL_PLAN template (already copied).
5. Verify execution completed:
- Check Progress Tracking shows all phases complete
- Ensure all required artifacts were generated
- Confirm no ERROR states in execution
3. **Execute plan workflow**: Follow the structure in IMPL_PLAN template to:
- Fill Technical Context (mark unknowns as "NEEDS CLARIFICATION")
- Fill Constitution Check section from constitution
- Evaluate gates (ERROR if violations unjustified)
- Phase 0: Generate research.md (resolve all NEEDS CLARIFICATION)
- Phase 1: Generate data-model.md, contracts/, quickstart.md
- Phase 1: Update agent context by running the agent script
- Re-evaluate Constitution Check post-design
6. Report results with branch name, file paths, and generated artifacts.
4. **Stop and report**: Command ends after Phase 2 planning. Report branch, IMPL_PLAN path, and generated artifacts.
Use absolute paths with the repository root for all file operations to avoid path issues.
## Phases
### Phase 0: Outline & Research
1. **Extract unknowns from Technical Context** above:
- For each NEEDS CLARIFICATION → research task
- For each dependency → best practices task
- For each integration → patterns task
2. **Generate and dispatch research agents**:
```
For each unknown in Technical Context:
Task: "Research {unknown} for {feature context}"
For each technology choice:
Task: "Find best practices for {tech} in {domain}"
```
3. **Consolidate findings** in `research.md` using format:
- Decision: [what was chosen]
- Rationale: [why chosen]
- Alternatives considered: [what else evaluated]
**Output**: research.md with all NEEDS CLARIFICATION resolved
### Phase 1: Design & Contracts
**Prerequisites:** `research.md` complete
1. **Extract entities from feature spec** → `data-model.md`:
- Entity name, fields, relationships
- Validation rules from requirements
- State transitions if applicable
2. **Generate API contracts** from functional requirements:
- For each user action → endpoint
- Use standard REST/GraphQL patterns
- Output OpenAPI/GraphQL schema to `/contracts/`
3. **Agent context update**:
- Run `{AGENT_SCRIPT}`
- These scripts detect which AI agent is in use
- Update the appropriate agent-specific context file
- Add only new technology from current plan
- Preserve manual additions between markers
**Output**: data-model.md, /contracts/*, quickstart.md, agent-specific file
## Key rules
- Use absolute paths
- ERROR on gate failures or unresolved clarifications

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templates/commands/specify.md
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@@ -5,20 +5,207 @@ scripts:
ps: scripts/powershell/create-new-feature.ps1 -Json "{ARGS}"
---
The user input to you can be provided directly by the agent or as a command argument - you **MUST** consider it before proceeding with the prompt (if not empty).
User input:
## User Input
```text
$ARGUMENTS
```
The text the user typed after `/specify` in the triggering message **is** the feature description. Assume you always have it available in this conversation even if `{ARGS}` appears literally below. Do not ask the user to repeat it unless they provided an empty command.
You **MUST** consider the user input before proceeding (if not empty).
## Outline
The text the user typed after `/speckit.specify` in the triggering message **is** the feature description. Assume you always have it available in this conversation even if `{ARGS}` appears literally below. Do not ask the user to repeat it unless they provided an empty command.
Given that feature description, do this:
1. Run the script `{SCRIPT}` from repo root and parse its JSON output for BRANCH_NAME and SPEC_FILE. All file paths must be absolute.
**IMPORTANT** You must only ever run this script once. The JSON is provided in the terminal as output - always refer to it to get the actual content you're looking for.
**IMPORTANT** You must only ever run this script once. The JSON is provided in the terminal as output - always refer to it to get the actual content you're looking for. For single quotes in args like "I'm Groot", use escape syntax: e.g 'I'\''m Groot' (or double-quote if possible: "I'm Groot").
2. Load `templates/spec-template.md` to understand required sections.
3. Write the specification to SPEC_FILE using the template structure, replacing placeholders with concrete details derived from the feature description (arguments) while preserving section order and headings.
4. Report completion with branch name, spec file path, and readiness for the next phase.
Note: The script creates and checks out the new branch and initializes the spec file before writing.
3. Follow this execution flow:
1. Parse user description from Input
If empty: ERROR "No feature description provided"
2. Extract key concepts from description
Identify: actors, actions, data, constraints
3. For unclear aspects:
- Make informed guesses based on context and industry standards
- Only mark with [NEEDS CLARIFICATION: specific question] if:
- The choice significantly impacts feature scope or user experience
- Multiple reasonable interpretations exist with different implications
- No reasonable default exists
- **LIMIT: Maximum 3 [NEEDS CLARIFICATION] markers total**
- Prioritize clarifications by impact: scope > security/privacy > user experience > technical details
4. Fill User Scenarios & Testing section
If no clear user flow: ERROR "Cannot determine user scenarios"
5. Generate Functional Requirements
Each requirement must be testable
Use reasonable defaults for unspecified details (document assumptions in Assumptions section)
6. Define Success Criteria
Create measurable, technology-agnostic outcomes
Include both quantitative metrics (time, performance, volume) and qualitative measures (user satisfaction, task completion)
Each criterion must be verifiable without implementation details
7. Identify Key Entities (if data involved)
8. Return: SUCCESS (spec ready for planning)
4. Write the specification to SPEC_FILE using the template structure, replacing placeholders with concrete details derived from the feature description (arguments) while preserving section order and headings.
5. **Specification Quality Validation**: After writing the initial spec, validate it against quality criteria:
a. **Create Spec Quality Checklist**: Generate a checklist file at `FEATURE_DIR/checklists/requirements.md` using the checklist template structure with these validation items:
```markdown
# Specification Quality Checklist: [FEATURE NAME]
**Purpose**: Validate specification completeness and quality before proceeding to planning
**Created**: [DATE]
**Feature**: [Link to spec.md]
## Content Quality
- [ ] No implementation details (languages, frameworks, APIs)
- [ ] Focused on user value and business needs
- [ ] Written for non-technical stakeholders
- [ ] All mandatory sections completed
## Requirement Completeness
- [ ] No [NEEDS CLARIFICATION] markers remain
- [ ] Requirements are testable and unambiguous
- [ ] Success criteria are measurable
- [ ] Success criteria are technology-agnostic (no implementation details)
- [ ] All acceptance scenarios are defined
- [ ] Edge cases are identified
- [ ] Scope is clearly bounded
- [ ] Dependencies and assumptions identified
## Feature Readiness
- [ ] All functional requirements have clear acceptance criteria
- [ ] User scenarios cover primary flows
- [ ] Feature meets measurable outcomes defined in Success Criteria
- [ ] No implementation details leak into specification
## Notes
- Items marked incomplete require spec updates before `/speckit.clarify` or `/speckit.plan`
```
b. **Run Validation Check**: Review the spec against each checklist item:
- For each item, determine if it passes or fails
- Document specific issues found (quote relevant spec sections)
c. **Handle Validation Results**:
- **If all items pass**: Mark checklist complete and proceed to step 6
- **If items fail (excluding [NEEDS CLARIFICATION])**:
1. List the failing items and specific issues
2. Update the spec to address each issue
3. Re-run validation until all items pass (max 3 iterations)
4. If still failing after 3 iterations, document remaining issues in checklist notes and warn user
- **If [NEEDS CLARIFICATION] markers remain**:
1. Extract all [NEEDS CLARIFICATION: ...] markers from the spec
2. **LIMIT CHECK**: If more than 3 markers exist, keep only the 3 most critical (by scope/security/UX impact) and make informed guesses for the rest
3. For each clarification needed (max 3), present options to user in this format:
```markdown
## Question [N]: [Topic]
**Context**: [Quote relevant spec section]
**What we need to know**: [Specific question from NEEDS CLARIFICATION marker]
**Suggested Answers**:
| Option | Answer | Implications |
|--------|--------|--------------|
| A | [First suggested answer] | [What this means for the feature] |
| B | [Second suggested answer] | [What this means for the feature] |
| C | [Third suggested answer] | [What this means for the feature] |
| Custom | Provide your own answer | [Explain how to provide custom input] |
**Your choice**: _[Wait for user response]_
```
4. **CRITICAL - Table Formatting**: Ensure markdown tables are properly formatted:
- Use consistent spacing with pipes aligned
- Each cell should have spaces around content: `| Content |` not `|Content|`
- Header separator must have at least 3 dashes: `|--------|`
- Test that the table renders correctly in markdown preview
5. Number questions sequentially (Q1, Q2, Q3 - max 3 total)
6. Present all questions together before waiting for responses
7. Wait for user to respond with their choices for all questions (e.g., "Q1: A, Q2: Custom - [details], Q3: B")
8. Update the spec by replacing each [NEEDS CLARIFICATION] marker with the user's selected or provided answer
9. Re-run validation after all clarifications are resolved
d. **Update Checklist**: After each validation iteration, update the checklist file with current pass/fail status
6. Report completion with branch name, spec file path, checklist results, and readiness for the next phase (`/speckit.clarify` or `/speckit.plan`).
**NOTE:** The script creates and checks out the new branch and initializes the spec file before writing.
## General Guidelines
## Quick Guidelines
- Focus on **WHAT** users need and **WHY**.
- Avoid HOW to implement (no tech stack, APIs, code structure).
- Written for business stakeholders, not developers.
- DO NOT create any checklists that are embedded in the spec. That will be a separate command.
### Section Requirements
- **Mandatory sections**: Must be completed for every feature
- **Optional sections**: Include only when relevant to the feature
- When a section doesn't apply, remove it entirely (don't leave as "N/A")
### For AI Generation
When creating this spec from a user prompt:
1. **Make informed guesses**: Use context, industry standards, and common patterns to fill gaps
2. **Document assumptions**: Record reasonable defaults in the Assumptions section
3. **Limit clarifications**: Maximum 3 [NEEDS CLARIFICATION] markers - use only for critical decisions that:
- Significantly impact feature scope or user experience
- Have multiple reasonable interpretations with different implications
- Lack any reasonable default
4. **Prioritize clarifications**: scope > security/privacy > user experience > technical details
5. **Think like a tester**: Every vague requirement should fail the "testable and unambiguous" checklist item
6. **Common areas needing clarification** (only if no reasonable default exists):
- Feature scope and boundaries (include/exclude specific use cases)
- User types and permissions (if multiple conflicting interpretations possible)
- Security/compliance requirements (when legally/financially significant)
**Examples of reasonable defaults** (don't ask about these):
- Data retention: Industry-standard practices for the domain
- Performance targets: Standard web/mobile app expectations unless specified
- Error handling: User-friendly messages with appropriate fallbacks
- Authentication method: Standard session-based or OAuth2 for web apps
- Integration patterns: RESTful APIs unless specified otherwise
### Success Criteria Guidelines
Success criteria must be:
1. **Measurable**: Include specific metrics (time, percentage, count, rate)
2. **Technology-agnostic**: No mention of frameworks, languages, databases, or tools
3. **User-focused**: Describe outcomes from user/business perspective, not system internals
4. **Verifiable**: Can be tested/validated without knowing implementation details
**Good examples**:
- "Users can complete checkout in under 3 minutes"
- "System supports 10,000 concurrent users"
- "95% of searches return results in under 1 second"
- "Task completion rate improves by 40%"
**Bad examples** (implementation-focused):
- "API response time is under 200ms" (too technical, use "Users see results instantly")
- "Database can handle 1000 TPS" (implementation detail, use user-facing metric)
- "React components render efficiently" (framework-specific)
- "Redis cache hit rate above 80%" (technology-specific)

140
templates/commands/tasks.md
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@@ -5,61 +5,111 @@ scripts:
ps: scripts/powershell/check-prerequisites.ps1 -Json
---
The user input to you can be provided directly by the agent or as a command argument - you **MUST** consider it before proceeding with the prompt (if not empty).
User input:
## User Input
```text
$ARGUMENTS
```
1. Run `{SCRIPT}` from repo root and parse FEATURE_DIR and AVAILABLE_DOCS list. All paths must be absolute.
2. Load and analyze available design documents:
- Always read plan.md for tech stack and libraries
- IF EXISTS: Read data-model.md for entities
- IF EXISTS: Read contracts/ for API endpoints
- IF EXISTS: Read research.md for technical decisions
- IF EXISTS: Read quickstart.md for test scenarios
You **MUST** consider the user input before proceeding (if not empty).
Note: Not all projects have all documents. For example:
- CLI tools might not have contracts/
- Simple libraries might not need data-model.md
- Generate tasks based on what's available
## Outline
3. Generate tasks following the template:
- Use `/templates/tasks-template.md` as the base
- Replace example tasks with actual tasks based on:
* **Setup tasks**: Project init, dependencies, linting
* **Test tasks [P]**: One per contract, one per integration scenario
* **Core tasks**: One per entity, service, CLI command, endpoint
* **Integration tasks**: DB connections, middleware, logging
* **Polish tasks [P]**: Unit tests, performance, docs
1. **Setup**: Run `{SCRIPT}` from repo root and parse FEATURE_DIR and AVAILABLE_DOCS list. All paths must be absolute. For single quotes in args like "I'm Groot", use escape syntax: e.g 'I'\''m Groot' (or double-quote if possible: "I'm Groot").
4. Task generation rules:
- Each contract file → contract test task marked [P]
- Each entity in data-model → model creation task marked [P]
- Each endpoint → implementation task (not parallel if shared files)
- Each user story → integration test marked [P]
- Different files = can be parallel [P]
- Same file = sequential (no [P])
2. **Load design documents**: Read from FEATURE_DIR:
- **Required**: plan.md (tech stack, libraries, structure), spec.md (user stories with priorities)
- **Optional**: data-model.md (entities), contracts/ (API endpoints), research.md (decisions), quickstart.md (test scenarios)
- Note: Not all projects have all documents. Generate tasks based on what's available.
5. Order tasks by dependencies:
- Setup before everything
- Tests before implementation (TDD)
- Models before services
- Services before endpoints
- Core before integration
- Everything before polish
3. **Execute task generation workflow** (follow the template structure):
- Load plan.md and extract tech stack, libraries, project structure
- **Load spec.md and extract user stories with their priorities (P1, P2, P3, etc.)**
- If data-model.md exists: Extract entities → map to user stories
- If contracts/ exists: Each file → map endpoints to user stories
- If research.md exists: Extract decisions → generate setup tasks
- **Generate tasks ORGANIZED BY USER STORY**:
- Setup tasks (shared infrastructure needed by all stories)
- **Foundational tasks (prerequisites that must complete before ANY user story can start)**
- For each user story (in priority order P1, P2, P3...):
- Group all tasks needed to complete JUST that story
- Include models, services, endpoints, UI components specific to that story
- Mark which tasks are [P] parallelizable
- If tests requested: Include tests specific to that story
- Polish/Integration tasks (cross-cutting concerns)
- **Tests are OPTIONAL**: Only generate test tasks if explicitly requested in the feature spec or user asks for TDD approach
- Apply task rules:
- Different files = mark [P] for parallel
- Same file = sequential (no [P])
- If tests requested: Tests before implementation (TDD order)
- Number tasks sequentially (T001, T002...)
- Generate dependency graph showing user story completion order
- Create parallel execution examples per user story
- Validate task completeness (each user story has all needed tasks, independently testable)
6. Include parallel execution examples:
- Group [P] tasks that can run together
- Show actual Task agent commands
7. Create FEATURE_DIR/tasks.md with:
- Correct feature name from implementation plan
- Numbered tasks (T001, T002, etc.)
4. **Generate tasks.md**: Use `.specify/templates/tasks-template.md` as structure, fill with:
- Correct feature name from plan.md
- Phase 1: Setup tasks (project initialization)
- Phase 2: Foundational tasks (blocking prerequisites for all user stories)
- Phase 3+: One phase per user story (in priority order from spec.md)
- Each phase includes: story goal, independent test criteria, tests (if requested), implementation tasks
- Clear [Story] labels (US1, US2, US3...) for each task
- [P] markers for parallelizable tasks within each story
- Checkpoint markers after each story phase
- Final Phase: Polish & cross-cutting concerns
- Numbered tasks (T001, T002...) in execution order
- Clear file paths for each task
- Dependency notes
- Parallel execution guidance
- Dependencies section showing story completion order
- Parallel execution examples per story
- Implementation strategy section (MVP first, incremental delivery)
5. **Report**: Output path to generated tasks.md and summary:
- Total task count
- Task count per user story
- Parallel opportunities identified
- Independent test criteria for each story
- Suggested MVP scope (typically just User Story 1)
Context for task generation: {ARGS}
The tasks.md should be immediately executable - each task must be specific enough that an LLM can complete it without additional context.
## Task Generation Rules
**IMPORTANT**: Tests are optional. Only generate test tasks if the user explicitly requested testing or TDD approach in the feature specification.
**CRITICAL**: Tasks MUST be organized by user story to enable independent implementation and testing.
1. **From User Stories (spec.md)** - PRIMARY ORGANIZATION:
- Each user story (P1, P2, P3...) gets its own phase
- Map all related components to their story:
- Models needed for that story
- Services needed for that story
- Endpoints/UI needed for that story
- If tests requested: Tests specific to that story
- Mark story dependencies (most stories should be independent)
2. **From Contracts**:
- Map each contract/endpoint → to the user story it serves
- If tests requested: Each contract → contract test task [P] before implementation in that story's phase
3. **From Data Model**:
- Map each entity → to the user story(ies) that need it
- If entity serves multiple stories: Put in earliest story or Setup phase
- Relationships → service layer tasks in appropriate story phase
4. **From Setup/Infrastructure**:
- Shared infrastructure → Setup phase (Phase 1)
- Foundational/blocking tasks → Foundational phase (Phase 2)
- Examples: Database schema setup, authentication framework, core libraries, base configurations
- These MUST complete before any user story can be implemented
- Story-specific setup → within that story's phase
5. **Ordering**:
- Phase 1: Setup (project initialization)
- Phase 2: Foundational (blocking prerequisites - must complete before user stories)
- Phase 3+: User Stories in priority order (P1, P2, P3...)
- Within each story: Tests (if requested) → Models → Services → Endpoints → Integration
- Final Phase: Polish & Cross-Cutting Concerns
- Each user story phase should be a complete, independently testable increment

159
templates/plan-template.md
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@@ -1,45 +1,22 @@
---
description: "Implementation plan template for feature development"
scripts:
sh: scripts/bash/update-agent-context.sh __AGENT__
ps: scripts/powershell/update-agent-context.ps1 -AgentType __AGENT__
---
# Implementation Plan: [FEATURE]
**Branch**: `[###-feature-name]` | **Date**: [DATE] | **Spec**: [link]
**Input**: Feature specification from `/specs/[###-feature-name]/spec.md`
## Execution Flow (/plan command scope)
```
1. Load feature spec from Input path
→ If not found: ERROR "No feature spec at {path}"
2. Fill Technical Context (scan for NEEDS CLARIFICATION)
→ Detect Project Type from file system structure or context (web=frontend+backend, mobile=app+api)
→ Set Structure Decision based on project type
3. Fill the Constitution Check section based on the content of the constitution document.
4. Evaluate Constitution Check section below
→ If violations exist: Document in Complexity Tracking
→ If no justification possible: ERROR "Simplify approach first"
→ Update Progress Tracking: Initial Constitution Check
5. Execute Phase 0 → research.md
→ If NEEDS CLARIFICATION remain: ERROR "Resolve unknowns"
6. Execute Phase 1 → contracts, data-model.md, quickstart.md, agent-specific template file (e.g., `CLAUDE.md` for Claude Code, `.github/copilot-instructions.md` for GitHub Copilot, `GEMINI.md` for Gemini CLI, `QWEN.md` for Qwen Code or `AGENTS.md` for opencode).
7. Re-evaluate Constitution Check section
→ If new violations: Refactor design, return to Phase 1
→ Update Progress Tracking: Post-Design Constitution Check
8. Plan Phase 2 → Describe task generation approach (DO NOT create tasks.md)
9. STOP - Ready for /tasks command
```
**IMPORTANT**: The /plan command STOPS at step 7. Phases 2-4 are executed by other commands:
- Phase 2: /tasks command creates tasks.md
- Phase 3-4: Implementation execution (manual or via tools)
**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]
@@ -51,6 +28,7 @@ scripts:
**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]
@@ -58,14 +36,15 @@ scripts:
## Project Structure
### Documentation (this feature)
```
specs/[###-feature]/
├── plan.md # This file (/plan command output)
├── research.md # Phase 0 output (/plan command)
├── data-model.md # Phase 1 output (/plan command)
├── quickstart.md # Phase 1 output (/plan command)
├── contracts/ # Phase 1 output (/plan command)
└── tasks.md # Phase 2 output (/tasks command - NOT created by /plan)
├── 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)
@@ -75,6 +54,7 @@ specs/[###-feature]/
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/
@@ -114,112 +94,11 @@ ios/ or android/
**Structure Decision**: [Document the selected structure and reference the real
directories captured above]
## Phase 0: Outline & Research
1. **Extract unknowns from Technical Context** above:
- For each NEEDS CLARIFICATION → research task
- For each dependency → best practices task
- For each integration → patterns task
2. **Generate and dispatch research agents**:
```
For each unknown in Technical Context:
Task: "Research {unknown} for {feature context}"
For each technology choice:
Task: "Find best practices for {tech} in {domain}"
```
3. **Consolidate findings** in `research.md` using format:
- Decision: [what was chosen]
- Rationale: [why chosen]
- Alternatives considered: [what else evaluated]
**Output**: research.md with all NEEDS CLARIFICATION resolved
## Phase 1: Design & Contracts
*Prerequisites: research.md complete*
1. **Extract entities from feature spec** → `data-model.md`:
- Entity name, fields, relationships
- Validation rules from requirements
- State transitions if applicable
2. **Generate API contracts** from functional requirements:
- For each user action → endpoint
- Use standard REST/GraphQL patterns
- Output OpenAPI/GraphQL schema to `/contracts/`
3. **Generate contract tests** from contracts:
- One test file per endpoint
- Assert request/response schemas
- Tests must fail (no implementation yet)
4. **Extract test scenarios** from user stories:
- Each story → integration test scenario
- Quickstart test = story validation steps
5. **Update agent file incrementally** (O(1) operation):
- Run `{SCRIPT}`
**IMPORTANT**: Execute it exactly as specified above. Do not add or remove any arguments.
- If exists: Add only NEW tech from current plan
- Preserve manual additions between markers
- Update recent changes (keep last 3)
- Keep under 150 lines for token efficiency
- Output to repository root
**Output**: data-model.md, /contracts/*, failing tests, quickstart.md, agent-specific file
## Phase 2: Task Planning Approach
*This section describes what the /tasks command will do - DO NOT execute during /plan*
**Task Generation Strategy**:
- Load `.specify/templates/tasks-template.md` as base
- Generate tasks from Phase 1 design docs (contracts, data model, quickstart)
- Each contract → contract test task [P]
- Each entity → model creation task [P]
- Each user story → integration test task
- Implementation tasks to make tests pass
**Ordering Strategy**:
- TDD order: Tests before implementation
- Dependency order: Models before services before UI
- Mark [P] for parallel execution (independent files)
**Estimated Output**: 25-30 numbered, ordered tasks in tasks.md
**IMPORTANT**: This phase is executed by the /tasks command, NOT by /plan
## Phase 3+: Future Implementation
*These phases are beyond the scope of the /plan command*
**Phase 3**: Task execution (/tasks command creates tasks.md)
**Phase 4**: Implementation (execute tasks.md following constitutional principles)
**Phase 5**: Validation (run tests, execute quickstart.md, performance validation)
## 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] |
## Progress Tracking
*This checklist is updated during execution flow*
**Phase Status**:
- [ ] Phase 0: Research complete (/plan command)
- [ ] Phase 1: Design complete (/plan command)
- [ ] Phase 2: Task planning complete (/plan command - describe approach only)
- [ ] Phase 3: Tasks generated (/tasks command)
- [ ] Phase 4: Implementation complete
- [ ] Phase 5: Validation passed
**Gate Status**:
- [ ] Initial Constitution Check: PASS
- [ ] Post-Design Constitution Check: PASS
- [ ] All NEEDS CLARIFICATION resolved
- [ ] Complexity deviations documented
---
*Based on Constitution v2.1.1 - See `/memory/constitution.md`*

157
templates/spec-template.md
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@@ -5,69 +5,85 @@
**Status**: Draft
**Input**: User description: "$ARGUMENTS"
## Execution Flow (main)
```
1. Parse user description from Input
→ If empty: ERROR "No feature description provided"
2. Extract key concepts from description
→ Identify: actors, actions, data, constraints
3. For each unclear aspect:
→ Mark with [NEEDS CLARIFICATION: specific question]
4. Fill User Scenarios & Testing section
→ If no clear user flow: ERROR "Cannot determine user scenarios"
5. Generate Functional Requirements
→ Each requirement must be testable
→ Mark ambiguous requirements
6. Identify Key Entities (if data involved)
7. Run Review Checklist
→ If any [NEEDS CLARIFICATION]: WARN "Spec has uncertainties"
→ If implementation details found: ERROR "Remove tech details"
8. Return: SUCCESS (spec ready for planning)
```
---
## ⚡ Quick Guidelines
- ✅ Focus on WHAT users need and WHY
- ❌ Avoid HOW to implement (no tech stack, APIs, code structure)
- 👥 Written for business stakeholders, not developers
### Section Requirements
- **Mandatory sections**: Must be completed for every feature
- **Optional sections**: Include only when relevant to the feature
- When a section doesn't apply, remove it entirely (don't leave as "N/A")
### For AI Generation
When creating this spec from a user prompt:
1. **Mark all ambiguities**: Use [NEEDS CLARIFICATION: specific question] for any assumption you'd need to make
2. **Don't guess**: If the prompt doesn't specify something (e.g., "login system" without auth method), mark it
3. **Think like a tester**: Every vague requirement should fail the "testable and unambiguous" checklist item
4. **Common underspecified areas**:
- User types and permissions
- Data retention/deletion policies
- Performance targets and scale
- Error handling behaviors
- Integration requirements
- Security/compliance needs
---
## User Scenarios & Testing *(mandatory)*
### Primary User Story
[Describe the main user journey in plain language]
<!--
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**:
### 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"]
@@ -75,42 +91,25 @@ When creating this spec from a user prompt:
- **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)*
## Review & Acceptance Checklist
*GATE: Automated checks run during main() execution*
<!--
ACTION REQUIRED: Define measurable success criteria.
These must be technology-agnostic and measurable.
-->
### Content Quality
- [ ] No implementation details (languages, frameworks, APIs)
- [ ] Focused on user value and business needs
- [ ] Written for non-technical stakeholders
- [ ] All mandatory sections completed
### Measurable Outcomes
### Requirement Completeness
- [ ] No [NEEDS CLARIFICATION] markers remain
- [ ] Requirements are testable and unambiguous
- [ ] Success criteria are measurable
- [ ] Scope is clearly bounded
- [ ] Dependencies and assumptions identified
---
## Execution Status
*Updated by main() during processing*
- [ ] User description parsed
- [ ] Key concepts extracted
- [ ] Ambiguities marked
- [ ] User scenarios defined
- [ ] Requirements generated
- [ ] Entities identified
- [ ] Review checklist passed
---
- **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%"]

317
templates/tasks-template.md
View File

@@ -1,39 +1,19 @@
---
description: "Task list template for feature implementation"
---
# Tasks: [FEATURE NAME]
**Input**: Design documents from `/specs/[###-feature-name]/`
**Prerequisites**: plan.md (required), research.md, data-model.md, contracts/
**Prerequisites**: plan.md (required), spec.md (required for user stories), research.md, data-model.md, contracts/
## Execution Flow (main)
```
1. Load plan.md from feature directory
→ If not found: ERROR "No implementation plan found"
→ Extract: tech stack, libraries, structure
2. Load optional design documents:
→ data-model.md: Extract entities → model tasks
→ contracts/: Each file → contract test task
→ research.md: Extract decisions → setup tasks
3. Generate tasks by category:
→ Setup: project init, dependencies, linting
→ Tests: contract tests, integration tests
→ Core: models, services, CLI commands
→ Integration: DB, middleware, logging
→ Polish: unit tests, performance, docs
4. Apply task rules:
→ Different files = mark [P] for parallel
→ Same file = sequential (no [P])
→ Tests before implementation (TDD)
5. Number tasks sequentially (T001, T002...)
6. Generate dependency graph
7. Create parallel execution examples
8. Validate task completeness:
→ All contracts have tests?
→ All entities have models?
→ All endpoints implemented?
9. Return: SUCCESS (tasks ready for execution)
```
**Tests**: The examples below include test tasks. Tests are OPTIONAL - only include them if explicitly requested in the feature specification.
## Format: `[ID] [P?] Description`
**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
@@ -42,86 +22,229 @@
- **Mobile**: `api/src/`, `ios/src/` or `android/src/`
- Paths shown below assume single project - adjust based on plan.md structure
## Phase 3.1: Setup
<!--
============================================================================
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 3.2: Tests First (TDD) ⚠️ MUST COMPLETE BEFORE 3.3
**CRITICAL: These tests MUST be written and MUST FAIL before ANY implementation**
- [ ] T004 [P] Contract test POST /api/users in tests/contract/test_users_post.py
- [ ] T005 [P] Contract test GET /api/users/{id} in tests/contract/test_users_get.py
- [ ] T006 [P] Integration test user registration in tests/integration/test_registration.py
- [ ] T007 [P] Integration test auth flow in tests/integration/test_auth.py
---
## Phase 3.3: Core Implementation (ONLY after tests are failing)
- [ ] T008 [P] User model in src/models/user.py
- [ ] T009 [P] UserService CRUD in src/services/user_service.py
- [ ] T010 [P] CLI --create-user in src/cli/user_commands.py
- [ ] T011 POST /api/users endpoint
- [ ] T012 GET /api/users/{id} endpoint
- [ ] T013 Input validation
- [ ] T014 Error handling and logging
## Phase 2: Foundational (Blocking Prerequisites)
## Phase 3.4: Integration
- [ ] T015 Connect UserService to DB
- [ ] T016 Auth middleware
- [ ] T017 Request/response logging
- [ ] T018 CORS and security headers
**Purpose**: Core infrastructure that MUST be complete before ANY user story can be implemented
## Phase 3.5: Polish
- [ ] T019 [P] Unit tests for validation in tests/unit/test_validation.py
- [ ] T020 Performance tests (<200ms)
- [ ] T021 [P] Update docs/api.md
- [ ] T022 Remove duplication
- [ ] T023 Run manual-testing.md
**⚠️ CRITICAL**: No user story work can begin until this phase is complete
## Dependencies
- Tests (T004-T007) before implementation (T008-T014)
- T008 blocks T009, T015
- T016 blocks T018
- Implementation before polish (T019-T023)
Examples of foundational tasks (adjust based on your project):
## Parallel Example
```
# Launch T004-T007 together:
Task: "Contract test POST /api/users in tests/contract/test_users_post.py"
Task: "Contract test GET /api/users/{id} in tests/contract/test_users_get.py"
Task: "Integration test registration in tests/integration/test_registration.py"
Task: "Integration test auth in tests/integration/test_auth.py"
- [ ] 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
- Avoid: vague tasks, same file conflicts
- 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
## Task Generation Rules
*Applied during main() execution*
1. **From Contracts**:
- Each contract file contract test task [P]
- Each endpoint implementation task
2. **From Data Model**:
- Each entity model creation task [P]
- Relationships service layer tasks
3. **From User Stories**:
- Each story integration test [P]
- Quickstart scenarios validation tasks
4. **Ordering**:
- Setup Tests Models Services Endpoints Polish
- Dependencies block parallel execution
## Validation Checklist
*GATE: Checked by main() before returning*
- [ ] All contracts have corresponding tests
- [ ] All entities have model tasks
- [ ] All tests come before implementation
- [ ] Parallel tasks truly independent
- [ ] Each task specifies exact file path
- [ ] No task modifies same file as another [P] task

13
templates/vscode-settings.json Normal file
View File

@@ -0,0 +1,13 @@
{
"chat.promptFilesRecommendations": {
"speckit.constitution": true,
"speckit.specify": true,
"speckit.plan": true,
"speckit.tasks": true,
"speckit.implement": true
},
"chat.tools.terminal.autoApprove": {
".specify/scripts/bash/": true,
".specify/scripts/ps/": true
}
}