Files
notes/Notes/Services/LanguagePicker.swift
rzen 8bdda913a7 Add dictation-locale transcription (incl. Russian), rework list capture UI
- TranscriptionSettings/Service route per-locale to SpeechTranscriber or
  DictationTranscriber (union of both supported sets, speech preferred);
  neutral-confidence ranking fallback keeps mixed-engine auto-pick working
- NotesListView: text + voice capture buttons above the list (glassProminent),
  search moved to the iOS 26 toolbar search accessory (.minimize)
- Changelog entries for languages, capture buttons, search placement
2026-07-15 15:31:03 -04:00

83 lines
4.1 KiB
Swift

import Foundation
import Speech
/// One language's showing in the sampling pass: how well `SpeechTranscriber`
/// transcribed the first few seconds of audio in that locale.
struct LanguageCandidate: Equatable {
/// BCP-47 identifier of the locale (e.g. `en-US`, `ru-RU`).
let localeID: String
/// Character-count-weighted mean of the per-run transcription confidence,
/// 0…1. A locale that produced no text scores 0.
let meanConfidence: Double
/// Number of characters the transcript came out to — the tie-breaker and the
/// reason an empty transcript can't win.
let transcriptLength: Int
}
/// Pure, testable language selection for a voice note. No `SpeechAnalyzer` calls
/// live here: the service transcribes a ~15 s sample in each enabled language,
/// turns each into a `LanguageCandidate`, and this picks the winner. Keeping it
/// side-effect-free is what makes the (undocumented, cross-locale) confidence
/// calibration unit-testable.
enum LanguagePicker {
/// The confidence assigned to a transcript that carried text but no
/// `transcriptionConfidence` attribute at all — the graceful-degradation case
/// for `DictationTranscriber`, which need not emit per-run confidence. A
/// mid-scale value so such a candidate is ranked by transcript length against
/// its peers rather than being zeroed out and always losing to a confidence-
/// reporting engine. Two confidence-less candidates then tie here and fall
/// through to the length tie-break in `pick`.
static let neutralConfidence = 0.5
/// Character-count-weighted mean confidence over an attributed transcript.
/// Only runs that actually carry a `transcriptionConfidence` attribute
/// contribute, weighted by their character length; a transcript with no
/// confidence anywhere (or no characters) scores 0.
static func meanConfidence(of attributed: AttributedString) -> Double {
var weighted = 0.0
var totalCharacters = 0
for run in attributed.runs {
guard let confidence = run.transcriptionConfidence else { continue }
let length = attributed[run.range].characters.count
guard length > 0 else { continue }
weighted += confidence * Double(length)
totalCharacters += length
}
return totalCharacters > 0 ? weighted / Double(totalCharacters) : 0
}
/// Whether any run in the transcript carries a `transcriptionConfidence`
/// attribute — i.e. whether `meanConfidence` measured anything real.
static func hasConfidence(of attributed: AttributedString) -> Bool {
attributed.runs.contains { $0.transcriptionConfidence != nil }
}
/// The confidence used to *rank* a candidate. Prefers the real weighted mean;
/// when the transcript has text but no confidence attribute anywhere (an engine
/// that doesn't emit it), falls back to `neutralConfidence` so the candidate
/// competes on length instead of being zeroed. An empty transcript scores 0 —
/// it can never win against real text.
static func rankingConfidence(of attributed: AttributedString) -> Double {
if hasConfidence(of: attributed) { return meanConfidence(of: attributed) }
return attributed.characters.isEmpty ? 0 : neutralConfidence
}
/// The best candidate, or nil when given nothing. Argmax on `meanConfidence`;
/// a zero-length transcript can only win if every candidate is empty. Ties
/// break deterministically — higher confidence, then longer transcript, then
/// lexicographically smaller `localeID` — so the same samples always yield the
/// same pick.
static func pick(from candidates: [LanguageCandidate]) -> LanguageCandidate? {
candidates.max { lhs, rhs in
if lhs.meanConfidence != rhs.meanConfidence {
return lhs.meanConfidence < rhs.meanConfidence
}
if lhs.transcriptLength != rhs.transcriptLength {
return lhs.transcriptLength < rhs.transcriptLength
}
// `max` keeps the greater element; invert so the smaller localeID wins.
return lhs.localeID > rhs.localeID
}
}
}