| name | gsd-discuss-phase |
| description | Gather phase context through adaptive questioning before planning. |
| metadata | {"short-description":"Gather phase context through adaptive questioning before planning."} |
<codex_skill_adapter>
A. Skill Invocation
- This skill is invoked by mentioning
$gsd-discuss-phase.
- Treat all user text after
$gsd-discuss-phase as {{GSD_ARGS}}.
- If no arguments are present, treat
{{GSD_ARGS}} as empty.
B. AskUserQuestion → request_user_input Mapping
GSD workflows use AskUserQuestion (Claude Code syntax). Translate to Codex request_user_input:
Parameter mapping:
header → header
question → question
- Options formatted as
"Label" — description → {label: "Label", description: "description"}
- Generate
id from header: lowercase, replace spaces with underscores
Batched calls:
AskUserQuestion([q1, q2]) → single request_user_input with multiple entries in questions[]
Multi-select workaround:
- Codex has no
multiSelect. Use sequential single-selects, or present a numbered freeform list asking the user to enter comma-separated numbers.
Execute mode fallback:
- When
request_user_input is rejected or unavailable, activate TEXT_MODE: append --text to {{GSD_ARGS}} so the workflow's built-in text-mode branching takes over. Present every AskUserQuestion call as a plain-text numbered list, then stop and wait for the user's reply. Do NOT pick a default and continue (#3018 / #3808).
- You may only proceed without a user answer when one of these is true:
(a) the invocation included an explicit non-interactive flag (
--auto or --all),
(b) the user has explicitly approved a specific default for this question, or
(c) the workflow's documented contract says defaults are safe (e.g. autonomous lifecycle paths).
- Do NOT write workflow artifacts (CONTEXT.md, DISCUSSION-LOG.md, PLAN.md, checkpoint files) until the user has answered the plain-text questions or one of (a)-(c) above applies. Surfacing the questions and waiting is the correct response — silently defaulting and writing artifacts is the #3018 failure mode.
C. Task() → spawn_agent Mapping
GSD workflows use Task(...) (Claude Code syntax). Translate to Codex collaboration tools:
Schema detection (required first step): Codex exposes two spawn_agent schemas:
- agent_type-capable schema (e.g.
multi_agent_v2): spawn_agent accepts agent_type, message, reasoning_effort, fork_context, etc. — typed GSD agent dispatch is available.
- Generic schema (
multi_agent_v1): spawn_agent accepts only message, items, fork_context — there is no agent_type field. Typed GSD agent dispatch is unavailable in this session.
Before spawning, inspect the spawn_agent tool's visible parameter schema (via tool_search or the tool list) to determine which form is active.
Typed mapping (agent_type-capable schema only):
Task(subagent_type="X", prompt="Y") → spawn_agent(agent_type="X", message="Y")
Agent(subagent_type="X", prompt="Y") → spawn_agent(agent_type="X", message="Y")
Task(model="...") → omit. spawn_agent has no inline model parameter;
GSD embeds the resolved per-agent model directly into each agent's .toml
at install time so model_overrides from .planning/config.json and
~/.gsd/defaults.json are honored automatically by Codex's agent router.
- Resolved
reasoning_effort="low|medium|high|xhigh" (xhigh is a GSD/Codex tier, not a generic runtime enum) → pass reasoning_effort
to spawn_agent when the runtime/tool supports it. Omit missing, empty,
inherited, or unsupported values; do not invent one-off effort literals in
workflow prose.
fork_context: false by default — GSD agents load their own context via <files_to_read> blocks
Task(isolation="worktree") / Agent(isolation="worktree") → no direct Codex mapping.
Codex spawn_agent does not create or bind a git worktree automatically.
Workflows that require this isolation must fail closed or use an explicit
manual worktree protocol before spawning (#3360).
Generic-agent workaround (multi_agent_v1 schema — NO agent_type field):
When only the generic multi_agent_v1 schema is available, typed GSD agent dispatch
(gsd-planner, gsd-executor, etc.) is NOT possible. This is a known Codex limitation
(openai/codex#15250). This workaround is NOT equivalent to typed gsd-planner/gsd-executor
execution — GSD agents carry project-aware prompts, audit logging, and workflow context
that a generic subagent lacks. Use the following fallback:
- Resolve your active Codex config root — the directory that contains your
config.toml.
This directory is determined in priority order: $CODEX_HOME (if set), the path given
by --config-dir (if passed on invocation), a local .codex directory in the current
project (if --local was used), or the default global config directory. Read
agents/<agent-name>.toml relative to that config root to extract the agent's system
instructions.
- Inject those instructions as a role-preamble into a generic
spawn_agent(message=...) call.
- Label results and logs clearly as "generic-agent workaround" so the orchestrator and user
know full typed-agent guarantees are not in effect.
- Where typed dispatch is mandatory for correctness (e.g. worktree isolation), fail closed
and report the schema limitation rather than silently degrading.
Spawn restriction:
- Codex restricts
spawn_agent to cases where the user has explicitly
requested sub-agents. When automatic spawning is not permitted, do the
work inline in the current agent rather than attempting to force a spawn.
- In some Codex sessions, multi-agent tooling can be deferred. If
spawn_agent
is not currently visible, discover tools first via tool_search before
defaulting to inline execution.
Parallel fan-out:
- Spawn multiple agents → collect agent IDs →
wait(ids) for all to complete
Result parsing:
- Look for structured markers in agent output:
CHECKPOINT, PLAN COMPLETE, SUMMARY, etc.
close_agent(id) after collecting results from each agent
</codex_skill_adapter>
Extract implementation decisions that downstream agents need — researcher and planner will use CONTEXT.md to know what to investigate and what choices are locked.
How it works:
- Load prior context (PROJECT.md, REQUIREMENTS.md, STATE.md, prior CONTEXT.md files)
- Scout codebase for reusable assets and patterns
- Analyze phase — skip gray areas already decided in prior phases
- Present remaining gray areas — user selects which to discuss
- Deep-dive each selected area until satisfied
- Create CONTEXT.md with decisions that guide research and planning
Output: {phase_num}-CONTEXT.md — decisions clear enough that downstream agents can act without asking the user again
<execution_context>
Workflow files are loaded on-demand in the section below — not upfront.
Do not pre-load any workflow files before reading the mode routing instructions.
</execution_context>
<runtime_note>
Copilot (VS Code): Use vscode_askquestions wherever this workflow calls AskUserQuestion. They are equivalent — vscode_askquestions is the VS Code Copilot implementation of the same interactive question API.
</runtime_note>
Phase number: {{GSD_ARGS}} (required)
Context files are resolved in-workflow using init phase-op and roadmap/state tool calls.
**Mode routing:**
```bash
_GSD_SHIM_NAME="gsd-tools.cjs"; _GSD_RUNTIME_ROOT="${RUNTIME_DIR:-$(git rev-parse --show-toplevel 2>/dev/null || pwd)}"; GSD_TOOLS="${_GSD_RUNTIME_ROOT}/gsd-core/bin/${_GSD_SHIM_NAME}"; if [ -f "$GSD_TOOLS" ]; then gsd_run() { node "$GSD_TOOLS" "$@"; }; elif [ -f "${_GSD_RUNTIME_ROOT}/.claude/gsd-core/bin/${_GSD_SHIM_NAME}" ]; then GSD_TOOLS="${_GSD_RUNTIME_ROOT}/.claude/gsd-core/bin/${_GSD_SHIM_NAME}"; gsd_run() { node "$GSD_TOOLS" "$@"; }; elif command -v gsd-tools >/dev/null 2>&1; then GSD_TOOLS="$(command -v gsd-tools)"; gsd_run() { "$GSD_TOOLS" "$@"; }; elif [ -f "$HOME/.codex/gsd-core/bin/${_GSD_SHIM_NAME}" ]; then GSD_TOOLS="$HOME/.codex/gsd-core/bin/${_GSD_SHIM_NAME}"; gsd_run() { node "$GSD_TOOLS" "$@"; }; else echo "ERROR: gsd-tools.cjs not found at $GSD_TOOLS and gsd-tools is not on PATH. Run: npx -y @opengsd/gsd-core@latest --claude --local" >&2; exit 1; fi
DISCUSS_MODE=$(gsd_run query config-get workflow.discuss_mode 2>/dev/null || echo "discuss")
```
If --assumptions is in {{GSD_ARGS}}:
Read and execute /home/user/projects/temp/ai-apps/.personal-projects/DSPyTeach/.codex/gsd-core/workflows/list-phase-assumptions.md end-to-end.
Stop here.
Otherwise, if DISCUSS_MODE is "assumptions":
Read and execute /home/user/projects/temp/ai-apps/.personal-projects/DSPyTeach/.codex/gsd-core/workflows/discuss-phase-assumptions.md end-to-end.
Otherwise ("discuss" / unset / any other value):
Read and execute /home/user/projects/temp/ai-apps/.personal-projects/DSPyTeach/.codex/gsd-core/workflows/discuss-phase.md end-to-end.
MANDATORY: Read the appropriate workflow file BEFORE taking any action. The objective and success_criteria sections in this command file are summaries — the workflow file contains the complete step-by-step process with all required behaviors, config checks, and interaction patterns. Do not improvise from the summary.
Lazy loading: templates/context.md is loaded inside the write_context step of the active workflow. discuss-phase-power.md is loaded inside discuss-phase.md when --power is detected. Do not load either here.
<success_criteria>
- Prior context loaded and applied (no re-asking decided questions)
- Gray areas identified through intelligent analysis
- User chose which areas to discuss
- Each selected area explored until satisfied
- Scope creep redirected to deferred ideas
- CONTEXT.md captures decisions, not vague vision
- User knows next steps
</success_criteria>