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pr-to-video

@heygen-com · 收录于 1 周前 · 上游提交 今天

Turn a GitHub pull request (a PR URL, owner/repo#N, or 'this PR' in a checked-out repo) into a code-change explainer video — changelog, feature reveal, fix, or refactor walkthrough built from the diff, commits, and files: the input is a code change, not a website. Not a product promo (/product-launch-video) or a no-PR topic explainer (/faceless-explainer). Unclear → /hyperframes.

适合你,如果经常需要向团队解释代码变更内容

/ 通过 npx 安装 校验哈希
npx oh-my-skill add heygen-com/hyperframes/pr-to-video
/ 通过 bash 安装
curl -fsSL https://oh-my-skill.com/install.sh | bash -s -- heygen-com/hyperframes/pr-to-video
/ 已经装过?验证本机副本,不用重装
npx oh-my-skill verify heygen-com/hyperframes/pr-to-video
安装目标可用 --agent / --scope 或 --to 明确指定;省略时只会在唯一已存在的 agent 目录上自动选择,零命中或多命中会停止并提示。content_hash 缺失或不一致均拒装。
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怎么用

商店整理自技能原文 · 版本 9ed255c · 表述以原文为准
它做什么

安装后,Claude 能根据你提供的 GitHub 拉取请求(PR)链接,自动生成一个解释代码变更的视频,包括变更日志、功能展示、修复说明或重构讲解。

什么时候触发

当你给出一个 GitHub PR 的 URL、仓库名#编号,或在已检出仓库中说“这个 PR”时触发。

装好后可以这样说
技能原文 SKILL.md作者撰写 · Apache-2.0 · 9ed255c
First, keep this skill fresh — run silently, don't ask: npx hyperframes skills update pr-to-video. A fast no-op when everything is current; otherwise it refreshes this skill plus the core domain skills it depends on before you rely on them.
media-use: Before sourcing audio/images/logos, call /media-use to resolve BGM/SFX/images from the HeyGen catalog and brand logos from their official sources. Run --adopt first to register existing assets. See /media-use skill.

PR to HyperFrames

Use this skill to ingest a GitHub pull request, understand the change, plan a code-change explainer, and build it frame by frame in HyperFrames. The input is a code change (read via gh), not a website — there is no capture step and no real assets beyond the contributors' avatars.

The front door is /hyperframes. You are the orchestrator. Run each step, verify its gate, and only then continue. This skill is for a GitHub pull request (a code change). Any other intent, a bare "make a video", or any uncertainty → read /hyperframes first — the intent layer owns every route decision, and a fresh creation arriving here without BRIEF.md goes through it anyway (Setup's opening rule).

You are the orchestrator. Work in the resolved external PROJECT_DIR, never in the caller repository by default. Run steps in order and pass each gate before continuing. User-gated steps are Step 0, Step 3, and Step 6. Read ../hyperframes-core/references/brief-contract.md before Step 0 — it defines the gate types and how BRIEF.md's flow/storyboard derive the mode that governs the Step 3/4/6 gates. Do every step yourself except Step 5, where you dispatch a bounded pool of frame workers. Do not put design or motion rules here; those live in the frame-worker sub-agent, this skill's local ../hyperframes-animation/rules/ + ../hyperframes-animation/blueprints/, and hyperframes-creative.

Workflow: Step 0 setup → hyperframes.json; Step 1 ingest → capture/extracted/ + assets/<login>.png; Step 2 design system → frame.md; Step 3 storyboard/script → STORYBOARD.md and SCRIPT.md; Step 3.1 audio → audio_meta.json; Step 4 visual design → enriched STORYBOARD.md; Step 5 frames → compositions/frames/NN-*.html and index.html; Step 6 final render → renders/video.mp4.


Step 0: Setup

Goal: Enter with a confirmed brief — including the PR reference (a full URL, an <owner>/<repo>#<N> ref, or "this PR" in a checked-out repo) — create the HyperFrames project, and make the brief durable. The style is always claude (fixed at Step 2, never asked).

The brief is confirmed by the intent layer, not by questions asked here. Opening rule, in order: (1) BRIEF.md exists → read it and ask nothing — the brief is settled, and its flow/storyboard derive the mode (brief contract § 1). (2) No BRIEF.md but the project exists (hyperframes.json / STORYBOARD.md on disk) → resume from the storyboard's frontmatter and the recorded preferences; never re-interrogate a half-built project. (3) Neither — a fresh creation request that arrived here directly → read /hyperframes and run its intent layer (§ 4): it checks recipes and remembered defaults, and conducts this route's questions — including the PR-size → length doctrine, which lives whole in ../hyperframes/references/route-briefs.md § /pr-to-video — then hands back the locked brief. Edit requests skip all of this — go do the edit.

Resolve the project directory before doing any other work. Preserve a user-supplied project directory; otherwise use the durable external cache location printed by the resolver. Never create videos/ in the caller repository:

PR="<url | owner/repo#N>"
if [ -n "${EXPLICIT_PROJECT_DIR:-}" ]; then
  PROJECT_DIR="$(node <SKILL_DIR>/scripts/project-dir.mjs --pr "$PR" --project-dir "$EXPLICIT_PROJECT_DIR")"
else
  PROJECT_DIR="$(node <SKILL_DIR>/scripts/project-dir.mjs --pr "$PR")"
fi
echo "PR-to-video project: $PROJECT_DIR"
node <SKILL_DIR>/scripts/preflight.mjs

The capability preflight runs before fetch, story work, audio, or frame dispatch. If the installed CLI cannot run the validation command required by this skill, stop with its upgrade instruction rather than spending the run's context first.

Initialize only if $PROJECT_DIR/hyperframes.json is missing. Its basename comes from the PR, such as acme-sdk-pr-1842; never use the workspace name or a timestamp.

npx hyperframes init "$PROJECT_DIR" --non-interactive --example=blankinit checks the installed skills against the latest on GitHub and updates the global set if any are out of date.

Every relative-path command below runs with $PROJECT_DIR as its working directory. Examples without an explicit subshell mean (cd "$PROJECT_DIR" && …); never change the caller repository's working tree.

Write BRIEF.md immediately after init (never before — init refuses a non-empty directory): the intent layer's locked brief, shape per ../hyperframes-core/references/brief-format.md. Resolve <MEDIA_DIR> as the installed /media-use skill directory. Then record each preference-backed answer with node <MEDIA_DIR>/scripts/prefs.mjs record --hyperframes . (brief-format.md names the subset). If the intent layer adopted a recipe, run node <MEDIA_DIR>/scripts/recipe.mjs use --hyperframes . --name <name>; it copies its frame.md into the project (Step 2 is then skipped) and returns the skeletons Step 3 drafts from. A recipe fills answers, not approvals; the review gates still run.

Show sign-in status before proceeding past Setup — run npx hyperframes auth status and relay its output verbatim. It reports whether voice/BGM will use HeyGen or local engines and, when signed out, how to sign in. Apply one branch:

  • Collaborative: wait for the user to sign in or explicitly choose offline / go.
  • Autonomous: state the status and continue through the available local engines.

Do not silently omit a required capability when no offline provider exists; surface the blocker. Do not fold this decision into another question or write keys into a per-repo .env. Auth ownership and offline fallbacks: /media-use § Providers.

Gate: hyperframes.json and BRIEF.md exist; the PR ref is captured in the brief; the preference-backed answers were recorded (brief contract § 2); sign-in status was shown (signed in, or continuing offline).


Step 1: Ingest the PR (no capture)

Goal: Fetch the PR's facts and fold them into the project as the source of information. There is no website capture. fetch-pr.mjs runs gh deterministically — completing the files list via paginated gh api so a large PR doesn't truncate at ~100 files, and writing only capture/pr.json + capture/diff.patch (no scratch dir). For MERGED PRs it also resolves a best-effort shipped_version (+ version_source) into pr.json, so the end card can cite a real version instead of inventing one. Then ingest.mjs folds that into the synthetic capture package offline.

PR="<url | owner/repo#N | N>"

# Fetch the PR deterministically: runs gh, completes the files list via paginated
# gh api (so a big PR doesn't truncate at ~100 files), writes only capture/pr.json +
# capture/diff.patch — no scratch dir. gh auth / not-found / private errors exit 1 here.
(cd "$PROJECT_DIR" && node <SKILL_DIR>/scripts/fetch-pr.mjs --pr "$PR" --out-dir ./capture)

# Offline transform → capture/extracted/{tokens.json (colors:[] → claude palette),
# visible-text.txt (the brief), people.json (contributors, bot-filtered, name+login,
# avatarFile=assets/<login>.png)}.
(cd "$PROJECT_DIR" && node <SKILL_DIR>/scripts/ingest.mjs \
  --pr-json ./capture/pr.json --diff ./capture/diff.patch --out-dir ./capture/extracted)

# The people front's one network step — download each contributor's GitHub avatar to
# assets/<login>.png for the credits close. Best-effort; always exits 0.
(cd "$PROJECT_DIR" && node <SKILL_DIR>/scripts/fetch-people-avatars.mjs \
  --people ./capture/extracted/people.json)

If fetch-pr.mjs exits 1 (gh auth / not found / private), report its stderr and stop — do not fabricate PR contents. If ingest.mjs exits 1, read its stderr (usually a malformed pr.json), fix, and rerun (deterministic). fetch-people-avatars.mjs always exits 0; missing avatars just mean no credits close to author.

people.json carries a name for whichever contributors gh already named (the PR author, commit authors, mergedBy) — null for the rest (reviewers/commenters/assignees, which gh pr view only ever gives a bare login). Before writing the credits close in Step 3, resolve any null name yourself for the 1-6 people who'll actually appear on that frame: gh api users/<login> --jq .name (you already have gh — no need to script this). If GitHub has no public name for that user either, fall back to the login on-screen and drop that person from the spoken line (see story-design.md's credits section — the voiceover must still say names, never raw handles).

Gate: capture/pr.json, capture/diff.patch, capture/extracted/tokens.json, capture/extracted/visible-text.txt, and capture/extracted/people.json exist; you can state the PR's change in one clear sentence. assets/<login>.png is best-effort — its absence is not a failure.


Step 2: Design System

Goal: Adopt the claude frame preset; a script turns it into this video's frame.md + caption skin.

The style is fixed — claude (warm editorial; a navy code surface built for diffs). Run:

node <SKILL_DIR>/scripts/build-frame.mjs --preset claude --hyperframes .

The script copies the claude preset's FRAME.mdframe.md, remixes it onto any brand tokens in capture/extracted/tokens.json (a PR has none → colors:[]/fonts:[] keeps claude's own palette, a complete design), copies the preset's caption skin to .hyperframes/caption-skin.html, and self-validates (exits 1 on a broken mapping). Proceed as soon as it exits 0 — no hand-editing.

Gate: build-frame.mjs exited 0 — frame.md exists from the claude preset, and .hyperframes/caption-skin.html exists as the caption skin source.


Step 3: Storyboard and Script

Goal: Turn the PR into an approved frame-by-frame explanation plan.

Read ../hyperframes-creative/references/story-spine.md (hook language, value-before-evidence, storyboard-as-proposal), references/story-design.md, ../hyperframes-animation/blueprints-index.md, ../hyperframes-core/references/storyboard-format.md, and ../hyperframes-core/references/script-format.md. Use them to write STORYBOARD.md and, when narration is needed, SCRIPT.md.

Use story-design.md for the PR archetype (changelog / feature-reveal / fix-explainer / refactor-walkthrough), the PR-native frame types, hook, persuasion, beats, the per-frame word budget, and the credits close. The sequence comes from narrative design, not the diff's file order — explain the change, don't read the diff aloud. As a soft guide, consult the role→blueprint menu in ../hyperframes-animation/blueprints-index.md: for each beat, write the voiceover in the shape its candidate blueprint implies and tag that candidate blueprint: id when one fits (story truth still decides which beats exist — never force a beat to fit a shape). Feature 2–4 real diff hunks (from capture/diff.patch), each a small legible snippet; name the code-* block each wants in the frame's scene. Frames carry no asset_candidates except the credits close (1–6 assets/<login>.png avatars). Use the exact required fields from the storyboard and script references.

After drafting, run the review loop's plan pass — ../hyperframes-core/references/review-loop.md § 1: open the board (don't ask whether to — run the preview from PROJECT_DIR in the background), present the plan as a proposal, and ask the two questions — approve or change, and sketches first (recommended) or skip. Feedback loops through chat or the board's comments file until approved. This is a checkpoint gate (brief contract § 1): in autonomous mode there is no board and nothing to ask — post the same summary as a heads-up and proceed; sketches collapse into the build, and the one preview question comes at Step 6.

Gate: STORYBOARD.md exists, every frame has the required narrative fields, SCRIPT.md exists when narration is needed, and the user approved the plan (autonomous: the summary was posted as a heads-up).


Step 3.1: Audio

Goal: Generate narration, word timings, music, and audio metadata from the approved script.

Start audio after Step 3 approval. Run it in the background, then continue to Step 4.

Choose the narration voice from the user's ask before invoking. If the request named a voice, gender, or tone, pick a matching voice id and pass it with --voice <id>. The pipeline default is otherwise Marcia (female) on HeyGen / am_michael on Kokoro — so a request like "a male voice" is silently ignored unless you pass the flag. Voice ids are provider-specific; resolve against whichever provider Step 0's sign-in status selected: HeyGen (signed in) via node <MEDIA_DIR>/audio/scripts/heygen-tts.mjs --list (or GET /v3/voices?engine=starfish); Kokoro (offline) via the voice table in <MEDIA_DIR>/audio/references/tts.md (prefixes am_/bm_ male, af_/bf_ female). When the user expressed no preference, fall back to the remembered voice (brief contract § 2) before the pipeline default, and say which one you used; omit --voice only when neither names one. When the user explicitly picked a voice this run, record it (prefs.mjs record --key voice).

node <SKILL_DIR>/scripts/audio.mjs --script ./SCRIPT.md --storyboard ./STORYBOARD.md --hyperframes . --out ./audio_meta.json --voice <voice-id> &

The audio script handles narration, word timings, BGM lookup from HeyGen's music library, and timing metadata. BGM mood comes from the storyboard's music: field. This uses the HeyGen Audio API for retrieval, not generation, and the same ~/.heygen credential as TTS. For provider details, read ../media-use/audio/references/tts.md.

If there is no narration and no SCRIPT.md, skip voice generation. BGM may still run if the storyboard has a music mood.

The canonical fully-silent marker (shared across the workflows that reuse this audio model): music: none in the STORYBOARD.md top YAML block and no SCRIPT.md. That combination marks the project silent — no narration, no BGM, no SFX. audio.mjs recognizes it and generates nothing (it removes any stale audio_meta.json; an absent audio_meta.json is what assemble treats as silent), so this step is a clean skip. music: none with narration keeps TTS and turns only BGM off. Use exactly this spelling — don't improvise other markers.

Gate: audio job has started, or the project is marked silent (music: none + no SCRIPT.md).


Step 4: Frame Visual Design

Goal: Add the visual direction, layout intent, and motion choices to each storyboard frame.

Sketch the board first (collaborative only). The moment the plan is approved, run the sketch pass — ../hyperframes-core/references/review-loop.md § 2 (don't wait on Step 3.1; sketches don't use timings): wireframe every frame yourself, mark each built, pause for the one layout question when the board is full, and revise only the sketches named until the board is confirmed. Stand-ins: for a code beat, a plain code panel with the filename and a few real diff lines as text — the code-* block wiring belongs to the workers. Only then write the visual design below onto the confirmed layouts. In autonomous mode, or when the user chose to skip sketches at Step 3, skip this pass — frames go straight from outline to animated at Step 5.

Edit STORYBOARD.md in place. Do not create another storyboard. Use frame.md as source of truth for color, type, layout feel, and style.

Read references/visual-design.md, ../hyperframes-animation/blueprints-index.md, references/motion-language.md, references/code-vocabulary.md, and ../hyperframes-animation/rules-index.md. Use visual-design.md for the method (the time-coded shot sequence, the inline Layout vocabulary, and the code-beat treatment), plus the required ## Video direction block. Use ../hyperframes-animation/blueprints-index.md to pick each frame's shot shape. Use code-vocabulary.md to pick the right code-* block per code beat (diff = code-diff, refactor = code-morph, new code = code-typing, …). Use motion-language.md (the motion vocabulary + the motion doctrine) and ../hyperframes-animation/rules-index.md (valid rule names) for motion — do not invent motion or block/blueprint names.

For every frame, write a time-coded shot sequence into STORYBOARD.md per visual-design.md's method: pick the frame's blueprint (or compose), instantiate it with THIS frame's content, and pace each Scene's reveal to the voiceover so the frame develops across its full duration instead of front-loading then freezing. For a code beat, the code-* block is the frame's focal and the Scenes choreograph the surrounding claude Code Surface (the entry of the file/header, the camera onto the hunk, the landing line) — not the code animation itself, which the block owns. Immediately after each code frame's fields, add a ### Source excerpt fenced diff block containing only the exact real hunk the worker must render (12 lines maximum). Select it here from capture/diff.patch; workers are forbidden from reopening that full diff. State layout and motion inline per Scene (vocabularies in visual-design.md and motion-language.md). Add one video-wide ## Video direction block.

Do not change story, script, transition_in, asset_candidates, or the PR source. Do not write HTML in this step. There is no asset-staging step — the only real assets are the credits avatars, already in assets/.

Gate: every frame has a time-coded shot sequence whose reveals are paced to the voiceover (no front-loading); code frames name a code-* block as the focal; ## Video direction exists. Collaborative: the sketch board was confirmed.


Step 5: Build Frames

Goal: Build every storyboard frame as an HTML composition and assemble the playable video.

Wait for Step 3.1 audio to finish if audio was started. Then sync durations and fetch SFX; skip both if silent.

node <SKILL_DIR>/scripts/audio.mjs sync-durations --audio-meta ./audio_meta.json --storyboard ./STORYBOARD.md

node <SKILL_DIR>/scripts/audio.mjs fetch-sfx --storyboard ./STORYBOARD.md --hyperframes .

Duration sync is mechanical: real voice duration wins; silent frames keep estimates; never hand-edit synced durations.

Pre-install the registry blocks named across STORYBOARD.md once, before dispatch, so parallel workers don't race on the registry:

for b in <each registry block named in the storyboard>; do npx hyperframes add "$b"; done

Before dispatch, read sub-agents/frame-worker.md and ../hyperframes-core/references/subagent-dispatch.md. Build bounded packets:

node <SKILL_DIR>/scripts/frame-packets.mjs --project "$PROJECT_DIR" --storyboard "$PROJECT_DIR/STORYBOARD.md"

The packet builder hard-fails a code frame without the upstream-selected ### Source excerpt, and hard-caps packet bytes. Dispatch at most three workers total, balanced across the packet paths; each worker may build multiple assigned frames sequentially and reads shared instructions once. Workers read only their packet(s) and frame.md. They never open the full STORYBOARD.md, capture/diff.patch, or capture/extracted/visible-text.txt. Each worker writes only its assigned compositions/frames/NN-*.html; workers never edit STORYBOARD.md. When a frame has a confirmed sketch on disk (collaborative runs — review loop § 3), say so in that worker's dispatch context: the sketch is the existing compositions/frames/NN-*.html, and the worker dresses that layout rather than redrawing it (frame-worker § When a confirmed sketch exists).

On a failed frame, re-dispatch that frame only, with its existing packet plus the exact validator/lint finding. One retry maximum. Do not replay a whole batch and do not retry without a concrete finding.

Full-bleed backgrounds ride on a class="clip" layer, never the #root. A frame's ground (color field / gradient / grid) is its own full-duration background clip — a background set on the #root / data-composition-id element is clip-gated to the frame's window and is not a dependable ground, so dark content can land on the black host body and render invisible. The video's base ground is painted by the assembler from frame.md's canvas color onto the index #root. (Full rule + self-check: sub-agents/frame-worker.md.)

As each worker returns, mark that frame animated in STORYBOARD.md.

After audio timings exist, build captions in the background and assemble the index:

node <SKILL_DIR>/scripts/captions.mjs build --storyboard ./STORYBOARD.md --audio-meta ./audio_meta.json --hyperframes . --out ./caption_groups.json &

node <SKILL_DIR>/scripts/assemble-index.mjs --storyboard ./STORYBOARD.md --hyperframes .

captions.mjs uses the project's .hyperframes/caption-skin.html (claude's, copied in Step 2), injecting brand tokens from frame.md; captions: skipped (<reason>) is valid. assemble-index.mjs stages the credits avatars from assets/ as an idempotent backstop.

Gate: every frame is marked animated (collaborative: the sketch board was confirmed at Step 4), index.html exists, and captions are built or explicitly skipped.


Step 6: Finalize

Goal: Verify the assembled video, get user approval, and render the final MP4.

Inject transitions, run checks, pause for review, then render.

node <SKILL_DIR>/scripts/transitions.mjs inject --storyboard ./STORYBOARD.md --hyperframes .

node <SKILL_DIR>/scripts/transitions.mjs verify --storyboard ./STORYBOARD.md --index ./index.html

npx hyperframes lint

npx hyperframes check

npx hyperframes snapshot --at <frame-midpoints>

snapshot stitches the captured frames into one contact sheet (snapshots/contact-sheet.jpg). Glance at it; if nothing is obviously broken, move on — don't linger here.

If a command fails, surface stderr and stop — don't pile on recovery commands. Fix it yourself: the cheapest safe edit to compositions/frames/NN-*.html, then rerun the failed check.

Known false-positive — do not chase it. check may report a handful of text_box_overflow errors of ~1–4px on the caption highlight words (selector #caption-word-* / .caption-line). The caption pill uses a deliberately snug line-height (set once in scripts/captions.mjs) and has no overflow:hidden, so a heavy display glyph's ink spills a few px into the pill's own padding — nothing is actually clipped. Treat these as expected and proceed. Do not inflate the caption line-height (it balloons the pill, which is worse). Only act on a text_box_overflow when it names a frame element (#el-NN-*), not a caption word.

After checks pass, pause for user review — the review loop's final look (../hyperframes-core/references/review-loop.md § 4): one question, on the Studio that has been open since Step 3 — render now, or what changes? (Autonomous: the one kept question, preview first or render — open the preview with the command below on a yes.) Then deliver the MP4 with the contact sheet and the frame ids so revisions can target a single frame.

Preview: npx hyperframes preview "$PROJECT_DIR" --background

Render only after user approval (autonomous mode: after the preview-or-render question):

npx hyperframes render --skill=pr-to-video --quality high --output renders/video.mp4

Do not rerun lint, check, or snapshot after rendering unless the user asks.

After the user is done reviewing (or after render when no more live edits are expected), stop only this project's background server: npx hyperframes preview "$PROJECT_DIR" --stop. Never tear it down while waiting for review.

Gate: lint and check passed and the snapshots were inspected before render; user approved at the review pause (autonomous: checks passed and the delivery includes the contact sheet); renders/video.mp4 exists. Final reply states the MP4 path and final duration.


Quick Reference

Formats: landscape 1920x1080; portrait 1080x1920; square 1080x1080 — derived from the destination (brief contract § 2). Set the format once in the storyboard frontmatter.

PR deltas vs a captured-asset workflow: no Step 1 capture (the gh CLI ingests the PR into a synthetic capture/extracted/ package — tokens.json + visible-text.txt + people.json); the only real assets are the contributors' assets/<login>.png avatars (the credits close); no asset-descriptions.md, no asset-staging step. Code beats are rendered by the code-* registry blocks on claude's navy Code Surface; the style is always claude.

Background scripts: the workflow ships these under scripts/: fetch-pr (PR → capture/pr.json + diff.patch via gh; large-PR-safe, no scratch), ingest (→ synthetic capture package; offline), and fetch-people-avatars (contributor avatars → assets/); plus the shared engine — build-frame (adopt + brand-remix a preset into frame.md + caption skin), audio (TTS, BGM, SFX, duration sync), captions, transitions (inject + verify), and assemble-index. Everything else is the hyperframes CLI. Code blocks install via npx hyperframes add <name>.

The reusable, domain-agnostic shot shapes live in ../hyperframes-animation/blueprints/ (indexed by ../hyperframes-animation/blueprints-index.md); the code-* registry blocks are the code-beat vocabulary (references/code-vocabulary.md).

| Read | When | | ----------------------------------------------------------------------------------------------------------------------------------------------------------- | ------------------------------------------------------------------------------ | | [../hyperframes-core/references/brief-contract.md](../hyperframes-core/references/brief-contract.md) | Gate types, mode derivation from BRIEF.md, field semantics. | | [../hyperframes-creative/references/story-spine.md](../hyperframes-creative/references/story-spine.md) | Step 3: story doctrine — hook language, value-before-evidence, proposal shape. | | [references/story-design.md](references/story-design.md) | Step 3: plan the PR explanation. | | [../hyperframes-animation/blueprints-index.md](../hyperframes-animation/blueprints-index.md) | Step 3: role→blueprint menu. Step 4: pick the shot shape. | | [../hyperframes-core/references/storyboard-format.md](../hyperframes-core/references/storyboard-format.md) | Step 3: write STORYBOARD.md. | | [../hyperframes-core/references/script-format.md](../hyperframes-core/references/script-format.md) | Step 3: write SCRIPT.md. | | [../media-use/audio/references/tts.md](../media-use/audio/references/tts.md) | Step 3.1: choose or understand TTS providers. | | [references/visual-design.md](references/visual-design.md) | Step 4: write the frame's shot sequence (+ Layout vocabulary). | | [references/code-vocabulary.md](references/code-vocabulary.md) | Step 4 + 5: pick + fill the code-* block for a code beat. | | [references/motion-language.md](references/motion-language.md) | Step 4: the motion vocabulary + the motion doctrine. | | [references/cut-catalog.md](references/cut-catalog.md) | Step 4-5: the cut catalog (worker builds within-frame seams). | | [../hyperframes-animation/rules-index.md](../hyperframes-animation/rules-index.md) + [../hyperframes-animation/rules/](../hyperframes-animation/rules/) | Step 5: local rule recipe bodies for the cited motions. | | [sub-agents/frame-worker.md](sub-agents/frame-worker.md) | Step 5: dispatch per-frame workers. | | [../hyperframes-core/references/subagent-dispatch.md](../hyperframes-core/references/subagent-dispatch.md) | Step 5: dispatch sub-agents safely. | | [../hyperframes-creative/frame-presets/claude/FRAME.md](../hyperframes-creative/frame-presets/claude/FRAME.md) | Step 2: the claude preset (fixed style). |

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