| name | spec-kitty-charter-doctrine |
| description | Run charter interview, generation, context, and sync workflows for project governance in Spec Kitty 3.x. Access doctrine artifacts programmatically via DoctrineService. Resolve agent profiles. Load action-scoped governance context iteratively, not all at once. Triggers: "interview for charter", "generate charter", "sync charter", "use doctrine", "set up governance", "charter status", "extract governance config", "load doctrine", "agent profile", "DoctrineService", "action index". Does NOT handle: generic spec writing not tied to governance, direct runtime loop advancement, setup/repair diagnostics, or editorial glossary maintenance. |
spec-kitty-charter-doctrine
Manage the charter lifecycle: interview, generate, context-load, sync,
and status. Access doctrine artifacts programmatically via DoctrineService.
Resolve agent profiles for role-scoped behavior. Load governance context
iteratively at action boundaries rather than dumping everything upfront.
The charter is the single authoritative governance document for a Spec
Kitty project. All structured config (governance.yaml, directives.yaml,
references.yaml) is derived from it. The doctrine layer (src/doctrine/)
provides the reusable knowledge artifacts (directives, tactics, paradigms,
styleguides, toolguides, procedures, agent profiles, step contracts) that
the charter references.
⛔ ARCHITECTURAL INVARIANT: spec-kitty NEVER calls LLMs
spec-kitty is a CLI tool invoked BY an LLM harness (Claude Code, Codex, Cursor,
Gemini, etc.). The LLM harness IS the inference engine. spec-kitty must NEVER
call any LLM API itself.
This is not a preference. It is a hard architectural rule with no exceptions.
Why this rule exists
| What you are reading this in | What that means |
|---|
| Claude Code | Claude IS already running. It should generate doctrine. |
| Codex CLI | Codex IS already running. It should generate doctrine. |
| Cursor / Gemini / Kiro / ... | Same — the harness IS the inference engine. |
If spec-kitty called the Anthropic SDK internally:
- It would need a separate
ANTHROPIC_API_KEY — a second API key alongside the one
the harness already uses.
- It would bypass the harness entirely, making the agent's reasoning invisible.
- It would make spec-kitty Anthropic-specific, breaking all other harnesses.
- It would be a hidden inference call the user never authorized or configured.
- It would duplicate what the harness can already do better, with full context.
What this means for charter synthesis
Charter synthesis is an LLM reasoning task. YOU (the agent running this skill)
are the LLM that should do it.
The synthesis workflow is:
answers.yaml (the interview answers — what the user told spec-kitty about the project)
+
doctrine schemas (the YAML shapes expected for directives, tactics, styleguides)
+
THIS SKILL (the instructions you are reading right now)
↓
YOU generate the doctrine YAML files
↓
spec-kitty CLI commands (validate, stage, and promote the files you wrote)
spec-kitty's CLI provides validation, schema-checking, DRG validation, neutrality
gating, staging, and atomic promotion. It does NOT provide generation — that is
your job as the agent.
If you see code that calls anthropic.Anthropic() or imports the anthropic SDK
inside spec-kitty source files, that is a bug. Remove it immediately.
Canonical locations that must NEVER contain import anthropic or any Anthropic SDK call:
src/charter/ — any filesrc/specify_cli/ — any filepyproject.toml — must not list anthropic as a runtime dependency
How to Synthesize Doctrine Artifacts (Agent-Driven)
When a user says "synthesize charter doctrine", "generate project doctrine", or
"run charter synthesize", you do the following — you do NOT call any CLI command
that triggers an LLM. You ARE the LLM.
Step 1 — Read the interview answers
cat .kittify/charter/interview/answers.yaml
This file contains the user's responses: project intent, languages, testing
requirements, quality gates, etc.
Step 2 — Read the doctrine schemas for the target artifact kinds
The current synthesis scope is: directive, tactic, styleguide.
Read shipped examples to understand the expected YAML shape:
spec-kitty doctrine list --kind directive
spec-kitty doctrine show <a-directive-id>
spec-kitty doctrine list --kind tactic
spec-kitty doctrine show <a-tactic-id>
spec-kitty doctrine list --kind styleguide
spec-kitty doctrine show <a-styleguide-id>
Step 3 — Read the interview mapping to know what to generate
The interview fields map to target artifact kinds:
project_intent, quality_gates, risk_boundaries → directivestesting_requirements → directives + tactics (TDD flavour)languages_frameworks → styleguides (language-specific)performance_targets, deployment_constraints → directives
For each synthesis target, derive: kind, slug (kebab-case, project-specific),
title, and body (the full artifact content as YAML matching the shipped schema).
Step 4 — Write the doctrine YAML to .kittify/charter/generated/
The harness writes artifact inputs here; spec-kitty charter synthesize
validates, stages, and promotes them into the live doctrine tree.
.kittify/charter/generated/
directives/
<NNN>-<slug>.directive.yaml
tactics/
<slug>.tactic.yaml
styleguides/
<slug>.styleguide.yaml
Use the shipped artifact YAML structure as your template. Make the content
specific to the project based on the interview answers. Do not write
generic filler.
Step 5 — Run the full validation stack without promoting
spec-kitty charter synthesize --dry-run
This is a real stage-and-validate pass. It writes the agent-authored artifacts
into the staging tree, runs schema validation, project DRG validation, and the
neutrality gate, then wipes the staging directory on success.
Step 6 — Promote the validated artifact set
spec-kitty charter synthesize
By default this reads from .kittify/charter/generated/ via the generated
adapter and promotes the validated outputs into:
.kittify/doctrine/ for artifact content and project graph.yaml.kittify/charter/provenance/ plus synthesis-manifest.yaml for bookkeeping
Step 7 — Commit the promoted charter synthesis state
git add .kittify/doctrine/ .kittify/charter/provenance/ .kittify/charter/synthesis-manifest.yaml
git commit -m "feat(charter): promote project-local doctrine from generated inputs"
How the Charter System Works
The charter is a governance-as-code framework. A human-written markdown
document captures project policy, and the runtime extracts structured YAML from
it to constrain what agents see and do during workflow actions.
The 3-Layer Model
-
Charter (charter.md) — Human-editable markdown. The single
authoritative source. Created via interview or written by hand.
-
Extracted config — Machine-readable YAML derived deterministically by
sync. Never edit these directly — they are overwritten on every sync.
governance.yaml — Testing, quality, performance, branching, doctrine selectionsdirectives.yaml — Numbered project rules with severity and scopemetadata.yaml — Hash, timestamp, extraction mode
-
Doctrine references (library/*.md) — Detailed guidance documents for
selected paradigms, directives, and tools. Copied from src/doctrine/ during
generation.
Data Flow
Interview Answers (answers.yaml)
↓
[generate command] ← doctrine templates, mission config
↓
Charter (charter.md) ← authoritative source
↓
[auto-sync triggered]
↓
├→ governance.yaml ← extracted structured config
├→ directives.yaml ← extracted numbered rules
├→ metadata.yaml ← hash, timestamp, extraction mode
└→ library/*.md ← copied doctrine reference docs
↓
[context command] at each workflow action
↓
Text injected into agent prompt
How Sync Extraction Works
The sync command parses charter.md by classifying section headings
against a keyword map:
| Heading keyword | Target schema |
|---|
testing, test, coverage | governance.testing |
quality, lint | governance.quality |
commit | governance.commits |
performance | governance.performance |
branch | governance.branch_strategy |
paradigm, tool, template | governance.doctrine |
directive, constraint, rule | directives.directives |
For each matched section, the parser extracts structured data from:
- Markdown tables — rows parsed as key-value dicts
- YAML code blocks — parsed directly
- Numbered lists — extracted as directive items
- Keyword patterns — regex matching for quantitative values:
90%+ coverage → testing.min_coverage: 90TDD required → testing.tdd_required: true< 2 seconds → performance.cli_timeout_seconds: 2.0<project-type-checker> → testing.type_checking: "<project-type-checker>"1 approval → quality.pr_approvals: 1conventional commits → commits.convention: "conventional"pre-commit hooks → quality.pre_commit_hooks: true
Doctrine selections (paradigms, directives, tools, template_set) are merged
from YAML blocks and tables that contain keys like selected_paradigms,
available_tools, or template_set.
governance.yaml Schema
testing:
min_coverage: 90
tdd_required: false
framework: <project-runner>
type_checking: "<project-type-checker>"
quality:
linting: "<project-linter>"
pr_approvals: 1
pre_commit_hooks: false
commits:
convention: conventional
performance:
cli_timeout_seconds: 2.0
dashboard_max_wps: 100
branch_strategy:
main_branch: main
dev_branch: null
rules: []
doctrine:
selected_paradigms: []
selected_directives: []
available_tools: []
template_set: null
enforcement: {}
directives.yaml Schema
directives:
- id: DIR-001
title: "Short title"
description: "Full text"
severity: warn
applies_to: [implement, review]
Hash-Based Staleness Detection
Sync uses SHA-256 to detect changes. The hash of charter.md content
(whitespace-normalized) is stored in metadata.yaml. On sync:
- If hashes match and
--force not set → skip (idempotent)
- If hashes differ → re-extract
- If no
metadata.yaml exists → always stale
How Context Gets Injected Into Workflow Actions
When you run /spec-kitty.specify, /spec-kitty.plan, /spec-kitty.implement,
or /spec-kitty.review, the runtime automatically calls
spec-kitty charter context --action <action>. The returned text is
injected into the agent prompt.
Three context modes:
| Mode | When | Content |
|---|
bootstrap | First load for an action | Full policy summary (up to 8 bullets) + reference doc list (up to 10) |
compact | Subsequent loads | Resolved paradigms, directives, tools, template_set only |
missing | No charter exists | Instructions to create one |
First-load state is tracked in .kittify/charter/context-state.json.
Each action (specify, plan, implement, review) has an independent first-load
timestamp.
Doctrine Artifact Kinds
Doctrine organizes knowledge into 8 artifact kinds. Each kind has a
dedicated repository in DoctrineService, follows two-source loading
(shipped defaults + project overrides), and is accessible programmatically
or via CLI.
Directives — Numbered project rules that constrain agent behavior.
Each directive has a severity (error, warn, info), an applies_to
scope listing which actions it fires on, and may reference tactics.
Directives are the what you must do layer.
directive = service.directives.get("DIRECTIVE_034")
spec-kitty doctrine list --kind directive
Tactics — Reusable implementation approaches that describe how to do
something. Tactics cover testing (TDD, ZOMBIES, acceptance-test-first),
domain modeling (bounded context, aggregate boundaries), refactoring
(strangler fig, extract class), review (intent-and-risk-first), and
planning (problem decomposition, eisenhower). The shipped set includes a
refactoring sub-catalog.
tactic = service.tactics.get("tdd-red-green-refactor")
Paradigms — High-level development philosophies that group related
tactics and directives. A paradigm (e.g., domain-driven-design) declares
which tactics it recommends. Paradigms are selected during the charter
interview and scope which tactics appear in governance context.
paradigm = service.paradigms.get("domain-driven-design")
Styleguides — Language- or domain-specific writing and coding style
rules. Applied when the charter's languages_frameworks answer
matches the styleguide's target language.
styleguide = service.styleguides.get("python-conventions")
Toolguides — Operational guidance for specific tools. Teaches agents
how to use git, the project's test runner, diagramming tools, etc. within the project's
governance constraints.
toolguide = service.toolguides.get("efficient-local-tooling")
Procedures — Multi-step workflow primitives with prerequisites and
ordered steps. Procedures are the reusable building blocks that step
contracts delegate to. They describe a complete mini-workflow (e.g.,
"refactoring", "test-first-bug-fixing", "situational-assessment").
procedure = service.procedures.get("refactoring")
Agent Profiles — Role definitions with 6 sections: context_sources,
purpose, specialization, collaboration, mode_defaults, and
initialization_declaration. Profiles form a hierarchy (specializes_from)
and support weighted matching against task context (DDR-011 algorithm).
profile = service.agent_profiles.get("implementer")
best = service.agent_profiles.find_best_match(task_context)
spec-kitty agent profile list
spec-kitty agent profile show implementer
Step Contracts — Structured action definitions that link public actions
(specify, plan, implement, review) to doctrine artifacts via DelegatesTo.
Each contract defines ordered steps; each step may delegate to a tactic,
directive, or procedure by kind and candidate list.
contract = service.mission_step_contracts.get("implement")
for step in contract.steps:
if step.delegates_to:
artifact = getattr(service, step.delegates_to.kind + "s").get(
step.delegates_to.candidates[0]
)
Discovering Available Artifacts
spec-kitty doctrine list --kind directive
spec-kitty doctrine list --kind tactic
spec-kitty doctrine list --kind paradigm
spec-kitty doctrine show DIRECTIVE_034
spec-kitty agent profile list
Shipped artifacts live in src/doctrine/<kind>/shipped/. Project-local
overrides live in .kittify/<kind>/. Two-source loading merges both,
with project artifacts taking precedence on field-level merge.
Template sets (from src/doctrine/missions/):
software-dev-default — Core development workflowplan-default — Goal-oriented planningdocumentation-default — Documentation creation (Divio)research-default — Research and evidence gathering
Default tool registry: spec-kitty, git
Interview Profiles
Minimal (8 questions — fast bootstrap):
| Question | Governance use |
|---|
project_intent | Policy summary, preamble |
languages_frameworks | Styleguide selection (e.g., Python) |
testing_requirements | testing.framework, testing.min_coverage |
quality_gates | Quality Gates section |
review_policy | quality.pr_approvals, Branch Strategy |
performance_targets | performance.cli_timeout_seconds |
deployment_constraints | branch_strategy.rules |
Comprehensive (11 questions — adds 4 more):
| Question | Governance use |
|---|
documentation_policy | Added to Project Directives |
risk_boundaries | Added to Project Directives |
amendment_process | Amendment Process section |
exception_policy | Exception Policy section |
answers.yaml Schema
schema_version: "1.0.0"
mission: "software-dev"
profile: "minimal"
answers:
project_intent: "..."
languages_frameworks: "..."
testing_requirements: "..."
quality_gates: "..."
review_policy: "..."
performance_targets: "..."
deployment_constraints: "..."
documentation_policy: "..."
risk_boundaries: "..."
amendment_process: "..."
exception_policy: "..."
selected_paradigms:
- "<project-paradigm>"
selected_directives:
- "<project-directive>"
available_tools:
- "spec-kitty"
- "git"
- "<project-tool>"
Step 1: Check Current State
spec-kitty charter status --json
Reports synced or stale, current and stored hashes, library doc count,
and per-file sizes. If stale, run sync before relying on governance config.
Step 2: Discover the Charter Change
For agent-mediated governance setup and revision, the preferred discovery
surface is the chat itself, not the CLI questionnaire.
Recommended flow:
- Inspect the repo quickly.
- If a charter already exists, listen for the new guidance the
human-in-command is flagging: a charter addition, course correction,
observed agent failure, desired norm, or policy change. Ask only the minimum
follow-up needed to encode it precisely.
- If no charter exists or the user asks to start over, ask a short targeted
governance interview in chat.
- Synthesize
.kittify/charter/interview/answers.yaml directly.
- Run
spec-kitty charter generate --from-interview --json.
Use the CLI interview only as a fallback when the user explicitly wants the CLI
prompt loop or wants deterministic defaults.
CLI defaults path (fallback only):
spec-kitty charter interview --mission-type software-dev --profile minimal --defaults --json
CLI comprehensive path (fallback only):
spec-kitty charter interview --mission-type software-dev --profile comprehensive
Key flags: --profile minimal|comprehensive, --defaults, --json,
--selected-paradigms, --selected-directives, --available-tools.
See references/charter-command-map.md for all flags.
Output: .kittify/charter/interview/answers.yaml
Step 3: Generate the Charter
spec-kitty charter generate --from-interview --json
Key flags: --mission, --template-set, --force, --from-interview, --json.
Generation triggers an automatic sync, so governance.yaml and directives.yaml
are written immediately.
Output: .kittify/charter/charter.md, .kittify/charter/references.yaml,
and extracted YAML files.
To commit the generated charter inputs, use:
spec-kitty safe-commit --message "chore: generate project charter" \
.kittify/charter/interview/answers.yaml \
.kittify/charter/charter.md \
.kittify/charter/references.yaml \
.gitignore
Step 4: Load Context for Workflow Actions
Do not preload all action contexts after generation.
The runtime calls context automatically during slash commands. Manual
invocation is useful only for debugging one immediate action, and should avoid
consuming first-load state:
spec-kitty charter context --action specify --json --no-mark-loaded
Load context iteratively at the action boundary, not as part of charter setup.
Step 5: Sync After Manual Edits
spec-kitty charter sync --json
spec-kitty charter sync --force --json
Sync is idempotent — skips extraction when the charter hash is unchanged
unless --force is passed.
Programmatic Doctrine Access (DoctrineService)
DoctrineService is the single entry point for programmatic access to all
doctrine artifacts. It lazily instantiates repositories on first access.
from doctrine.service import DoctrineService
service = DoctrineService(shipped_root, project_root)
Available Repositories
| Property | Returns | Artifacts |
|---|
service.agent_profiles | AgentProfileRepository | Agent role profiles with DDR-011 matching |
service.directives | DirectiveRepository | Numbered project rules (TEST_FIRST, etc.) |
service.tactics | TacticRepository | Reusable implementation approaches (TDD, ZOMBIES, etc.) |
service.styleguides | StyleguideRepository | Language/domain writing style guides |
service.toolguides | ToolguideRepository | Tool-specific operational guidance |
service.paradigms | ParadigmRepository | High-level development paradigms |
service.procedures | ProcedureRepository | Multi-step reusable workflow primitives |
service.mission_step_contracts | MissionStepContractRepository | Structured action contracts with delegation |
Common Repository Operations
All repositories share a consistent pattern:
all_tactics = service.tactics.list_all()
tactic = service.tactics.get("tdd-red-green-refactor")
service.procedures.save(my_procedure)
Agent Profile Resolution
Agent profiles support weighted context-based matching. When the runtime
needs to assign an agent to a task, it resolves the best profile:
from doctrine.agent_profiles.profile import TaskContext
context = TaskContext(
languages=["python"],
frameworks=["<project-test-runner>", "typer"],
file_patterns=["src/**/*.py"],
domain_keywords=["cli", "testing"],
)
profile = service.agent_profiles.find_best_match(context)
Profiles support hierarchy (specializes_from field). Language-specific
profiles can specialize from implementer, inheriting base capabilities and
adding stack-specific ones.
Action-Scoped Doctrine via Action Indices
Each mission action (specify, plan, implement, review) has an action index
that lists which doctrine artifacts are relevant to that step:
from doctrine.missions.action_index import load_action_index
index = load_action_index(missions_root, "software-dev", "implement")
The charter context builder uses these indices internally. When you call
spec-kitty charter context --action implement, only the doctrine
artifacts listed in the implement action index are included.
MissionStepContract: Structured Action Contracts
Step contracts define the structure of each public action and link to
doctrine artifacts via DelegatesTo:
contract = service.mission_step_contracts.get("implement")
for step in contract.steps:
if step.delegates_to:
pass
This is the bridge between the mission execution surface and the doctrine
knowledge layer. Step contracts say what to do; doctrine artifacts say
how.
Iterative Context Loading Pattern
Agents should load doctrine context iteratively, not all at once. The
architecture supports this through depth-controlled context and per-artifact
retrieval.
The Pattern
- At session init: Resolve agent profile. Load
initialization_declaration.
- At each step boundary: Call
charter context --action <action>.
First call gets bootstrap (depth-2), subsequent calls get compact (depth-1).
- Mid-step, when guidance needed: Pull specific tactic or directive by ID
through
DoctrineService.
- Never: Load the full doctrine catalog into prompt context.
Why This Matters
Each doctrine artifact consumes tokens. Loading all directives, tactics,
paradigms, and styleguides at session start wastes context on artifacts that
are irrelevant to the current action. Action indices exist specifically to
scope which artifacts matter for each step.
When Doctrine Constrains Runtime
Doctrine constrains runtime behavior when the charter has been generated
and the agent is executing a workflow action (specify, plan, implement, review).
The specific constraints come from the project's own charter — load them
with spec-kitty charter context --action <action> --json rather than
assuming fixed policy values.
Doctrine does NOT constrain when:
- The user works outside a mission.
- No charter has been generated.
- The action is not a workflow action (specify, plan, implement, review).
Governance Anti-Patterns
- Editing derived files —
governance.yaml, directives.yaml, and
library/*.md are overwritten by sync/generate. Edit charter.md.
- Skipping the interview — produces generic defaults; the charter
is most valuable with project-specific decisions.
- Stale charter — an outdated charter silently injects wrong
policy. Run
status to check, sync to fix.
- Legacy path assumptions — canonical path is
.kittify/charter/charter.md, not .kittify/memory/.
- Upfront context dump — loading all doctrine at session start wastes
tokens and dilutes relevance. Use action-scoped loading and pull specific
artifacts on demand.
See references/doctrine-artifact-structure.md for the full anti-pattern table.
References
references/charter-command-map.md -- Full CLI command reference with all flags and output fieldsreferences/doctrine-artifact-structure.md -- File layout, authority classes, and data flow
