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claude-code/packages/@ant/ink/src/keybindings/KeybindingSetup.tsx
claude-code-best a14d3dc8f0 fix(types): clean type fixes across 92 files 
Apply proper TypeScript type corrections without any unsafe casts:
- Fix unknown/never/{} types from decompilation
- Correct function signatures and parameter types
- Add missing type declarations and interfaces
- Fix Ink component prop types
- Update API client/provider type annotations

Test files with mock data casts are included as-is (acceptable pattern).

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
2026-04-09 23:45:56 +08:00

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/**
* Generic keybinding setup component for integrating KeybindingProvider into an app.
*
* Provides chord state management, a ChordInterceptor, and the KeybindingProvider
* wrapper. App-specific dependencies (binding loading, change subscription,
* warning display, debug logging) are injected via props.
*/
import React, { useCallback, useEffect, useRef, useState } from 'react'
import type { InputEvent } from '../core/events/input-event.js'
// ChordInterceptor intentionally uses useInput to intercept all keystrokes before
// other handlers process them - this is required for chord sequence support
// eslint-disable-next-line custom-rules/prefer-use-keybindings
import useInput from '../hooks/use-input.js'
import type { Key } from '../core/events/input-event.js'
import { KeybindingProvider } from './KeybindingContext.js'
import { resolveKeyWithChordState } from './resolver.js'
import type {
KeybindingContextName,
KeybindingsLoadResult,
ParsedBinding,
ParsedKeystroke,
KeybindingWarning,
} from './types.js'
/**
* Timeout for chord sequences in milliseconds.
* If the user doesn't complete the chord within this time, it's cancelled.
*/
const CHORD_TIMEOUT_MS = 1000
export type KeybindingSetupProps = {
children: React.ReactNode
/** Load bindings synchronously for initial render */
loadBindings: () => KeybindingsLoadResult
/** Subscribe to binding changes; return an unsubscribe function */
subscribeToChanges: (
callback: (result: KeybindingsLoadResult) => void,
) => () => void
/** Initialize any file watcher (idempotent). Called once on mount. */
initWatcher?: () => void | Promise<void>
/** Optional callback when warnings are emitted (initial load or reload) */
onWarnings?: (warnings: KeybindingWarning[], isReload: boolean) => void
/** Optional debug logger */
onDebugLog?: (message: string) => void
}
export function KeybindingSetup({
children,
loadBindings,
subscribeToChanges,
initWatcher,
onWarnings,
onDebugLog,
}: KeybindingSetupProps): React.ReactNode {
// Load bindings synchronously for initial render
const [loadResult, setLoadResult] = useState<KeybindingsLoadResult>(() => {
const result = loadBindings()
onDebugLog?.(
`[keybindings] KeybindingSetup initialized with ${result.bindings.length} bindings, ${result.warnings.length} warnings`,
)
return result
})
const { bindings, warnings } = loadResult
// Track if this is a reload (not initial load)
const [isReload, setIsReload] = useState(false)
// Notify about warnings
useEffect(() => {
onWarnings?.(warnings, isReload)
}, [warnings, isReload, onWarnings])
// Chord state management - use ref for immediate access, state for re-renders
const pendingChordRef = useRef<ParsedKeystroke[] | null>(null)
const [pendingChord, setPendingChordState] = useState<
ParsedKeystroke[] | null
>(null)
const chordTimeoutRef = useRef<NodeJS.Timeout | null>(null)
// Handler registry for action callbacks (used by ChordInterceptor to invoke handlers)
const handlerRegistryRef = useRef(
new Map<
string,
Set<{
action: string
context: KeybindingContextName
handler: () => void
}>
>(),
)
// Active context tracking for keybinding priority resolution
const activeContextsRef = useRef<Set<KeybindingContextName>>(new Set())
const registerActiveContext = useCallback(
(context: KeybindingContextName) => {
activeContextsRef.current.add(context)
},
[],
)
const unregisterActiveContext = useCallback(
(context: KeybindingContextName) => {
activeContextsRef.current.delete(context)
},
[],
)
// Clear chord timeout when component unmounts or chord changes
const clearChordTimeout = useCallback(() => {
if (chordTimeoutRef.current) {
clearTimeout(chordTimeoutRef.current)
chordTimeoutRef.current = null
}
}, [])
// Wrapper for setPendingChord that manages timeout and syncs ref+state
const setPendingChord = useCallback(
(pending: ParsedKeystroke[] | null) => {
clearChordTimeout()
if (pending !== null) {
// Set timeout to cancel chord if not completed
chordTimeoutRef.current = setTimeout(
(pendingChordRef, setPendingChordState) => {
onDebugLog?.('[keybindings] Chord timeout - cancelling')
pendingChordRef.current = null
setPendingChordState(null)
},
CHORD_TIMEOUT_MS,
pendingChordRef,
setPendingChordState,
)
}
// Update ref immediately for synchronous access in resolve()
pendingChordRef.current = pending
// Update state to trigger re-renders for UI updates
setPendingChordState(pending)
},
[clearChordTimeout, onDebugLog],
)
useEffect(() => {
// Initialize file watcher (idempotent - only runs once)
void initWatcher?.()
// Subscribe to changes
const unsubscribe = subscribeToChanges(result => {
// Any callback invocation is a reload since initial load happens
// synchronously in useState, not via this subscription
setIsReload(true)
setLoadResult(result)
onDebugLog?.(
`[keybindings] Reloaded: ${result.bindings.length} bindings, ${result.warnings.length} warnings`,
)
})
return () => {
unsubscribe()
clearChordTimeout()
}
}, [subscribeToChanges, initWatcher, clearChordTimeout, onDebugLog])
return (
<KeybindingProvider
bindings={bindings}
pendingChordRef={pendingChordRef}
pendingChord={pendingChord}
setPendingChord={setPendingChord}
activeContexts={activeContextsRef.current}
registerActiveContext={registerActiveContext}
unregisterActiveContext={unregisterActiveContext}
handlerRegistryRef={handlerRegistryRef}
>
<ChordInterceptor
bindings={bindings}
pendingChordRef={pendingChordRef}
setPendingChord={setPendingChord}
activeContexts={activeContextsRef.current}
handlerRegistryRef={handlerRegistryRef}
/>
{children}
</KeybindingProvider>
)
}
/**
* Global chord interceptor that registers useInput FIRST (before children).
*
* This component intercepts keystrokes that are part of chord sequences and
* stops propagation before other handlers (like PromptInput) can see them.
*
* Without this, the second key of a chord (e.g., 'r' in "ctrl+c r") would be
* captured by PromptInput and added to the input field before the keybinding
* system could recognize it as completing a chord.
*/
type HandlerRegistration = {
action: string
context: KeybindingContextName
handler: () => void
}
function ChordInterceptor({
bindings,
pendingChordRef,
setPendingChord,
activeContexts,
handlerRegistryRef,
}: {
bindings: ParsedBinding[]
pendingChordRef: React.RefObject<ParsedKeystroke[] | null>
setPendingChord: (pending: ParsedKeystroke[] | null) => void
activeContexts: Set<KeybindingContextName>
handlerRegistryRef: React.RefObject<Map<string, Set<HandlerRegistration>>>
}): null {
const handleInput = useCallback(
(input: string, key: Key, event: InputEvent) => {
// Wheel events can never start chord sequences — scroll:lineUp/Down are
// single-key bindings handled by per-component useKeybindings hooks, not
// here. Skip the registry scan. Mid-chord wheel still falls through so
// scrolling cancels the pending chord like any other non-matching key.
if ((key.wheelUp || key.wheelDown) && pendingChordRef.current === null) {
return
}
// Build context list from registered handlers + activeContexts + Global
const registry = handlerRegistryRef.current
const handlerContexts = new Set<KeybindingContextName>()
if (registry) {
for (const handlers of registry.values()) {
for (const registration of handlers) {
handlerContexts.add(registration.context)
}
}
}
const contexts: KeybindingContextName[] = [
...handlerContexts,
...activeContexts,
'Global',
]
// Track whether we're completing a chord (pending was non-null)
const wasInChord = pendingChordRef.current !== null
// Check if this keystroke is part of a chord sequence
const result = resolveKeyWithChordState(
input,
key,
contexts,
bindings,
pendingChordRef.current,
)
switch (result.type) {
case 'chord_started':
// This key starts a chord - store pending state and stop propagation
setPendingChord(result.pending)
event.stopImmediatePropagation()
break
case 'match': {
// Clear pending state
setPendingChord(null)
// Only invoke handlers and stop propagation for chord completions
// (multi-keystroke sequences). Single-keystroke matches should propagate
// to per-hook handlers to avoid interfering with other input handling.
if (wasInChord) {
const contextsSet = new Set(contexts)
if (registry) {
const handlers = registry.get(result.action)
if (handlers && handlers.size > 0) {
for (const registration of handlers) {
if (contextsSet.has(registration.context)) {
registration.handler()
event.stopImmediatePropagation()
break
}
}
}
}
}
break
}
case 'chord_cancelled':
setPendingChord(null)
event.stopImmediatePropagation()
break
case 'unbound':
setPendingChord(null)
event.stopImmediatePropagation()
break
case 'none':
// No chord involvement - let other handlers process
break
}
},
[
bindings,
pendingChordRef,
setPendingChord,
activeContexts,
handlerRegistryRef,
],
)
useInput(handleInput)
return null
}
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