[FEAT] Add voicesearch button to search page (#637)

## Description
This PR is a rewrite of a previously submitted PR for this same feature.
It implements native Voice Search for Android TV using Android's
SpeechRecognizer API.

Key Changes

  New Files:
- VoiceInputManager.kt - Handles SpeechRecognizer lifecycle, permission
management, and audio level normalization
- VoiceSearchButton.kt - Composable button with audio-reactive pulse and
full-screen listening dialog

  UI/UX:
  - Audio-reactive microphone button that pulses based on input volume
  - Full-screen listening overlay with animated states:
- Listening - Pulsing bubble with ripple rings, shows partial
transcription
    - Processing - Animated dots while waiting for final result
- Error - Red bubble with localized error message, auto-dismisses after
3s

### Related issues
Resolves https://github.com/damontecres/Wholphin/issues/515

### AI/LLM usage
The initial draft of this change from the prior PR was created with the
assistance of Claude Code, which was heavily leaned on for the overlay.
I have taken the initial draft, gone through it, and re-implemented by
hand to clean it up, narrow the scope (AI loves to touch and change
things unrelated to what you're working on) and make it more readable.
AI was used in the last stage to assist with finding any logic
errors/bugs I may have missed (by looking through code and also by
looking over ADB logs from testing on Nvidia Shield).. AI was also used
to create the tests found in TestVoiceInputManager.kt. Lastly, I fed the
diffs to an AI to help summarize the changes for this PR in an easy to
read manner.

---------

Co-authored-by: Damontecres <damontecres@gmail.com>
This commit is contained in:
Justin Caveda 2026-01-14 16:06:22 -06:00 committed by GitHub
parent c4e64c3367
commit d725821011
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10 changed files with 1921 additions and 52 deletions

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package com.github.damontecres.wholphin.test
import android.app.Activity
import android.content.Context
import android.content.Intent
import android.media.AudioFocusRequest
import android.media.AudioManager
import android.net.ConnectivityManager
import android.net.Network
import android.net.NetworkCapabilities
import android.os.Bundle
import android.os.Looper
import android.speech.RecognitionListener
import android.speech.SpeechRecognizer
import com.github.damontecres.wholphin.R
import com.github.damontecres.wholphin.ui.components.VoiceInputManager
import com.github.damontecres.wholphin.ui.components.VoiceInputState
import io.mockk.Runs
import io.mockk.every
import io.mockk.just
import io.mockk.mockk
import io.mockk.mockkStatic
import io.mockk.slot
import io.mockk.unmockkStatic
import io.mockk.verify
import org.junit.After
import org.junit.Assert.assertEquals
import org.junit.Assert.assertTrue
import org.junit.Before
import org.junit.Test
import org.junit.runner.RunWith
import org.robolectric.RobolectricTestRunner
import org.robolectric.Shadows.shadowOf
import org.robolectric.annotation.Config
/**
* Unit tests for [VoiceInputManager] state machine logic.
*
* Uses Robolectric to provide Android framework classes (Intent, Bundle)
* and Mockk to mock [SpeechRecognizer] and simulate recognition callbacks
* without requiring a real microphone or emulator.
*/
@RunWith(RobolectricTestRunner::class)
@Config(manifest = Config.NONE, sdk = [28])
class TestVoiceInputManager {
private lateinit var activity: Activity
private lateinit var speechRecognizer: SpeechRecognizer
private lateinit var listenerSlot: CapturingSlot<RecognitionListener>
private lateinit var manager: VoiceInputManager
private lateinit var audioManager: AudioManager
private lateinit var connectivityManager: ConnectivityManager
private lateinit var network: Network
private lateinit var networkCapabilities: NetworkCapabilities
private val capturedListener: RecognitionListener
get() = listenerSlot.captured
private fun idleMainLooper() = shadowOf(Looper.getMainLooper()).idle()
@Before
fun setup() {
// Mock Activity
activity = mockk(relaxed = true)
// Mock AudioManager
audioManager = mockk(relaxed = true)
every { audioManager.requestAudioFocus(any<AudioFocusRequest>()) } returns AudioManager.AUDIOFOCUS_REQUEST_GRANTED
every { activity.getSystemService(Context.AUDIO_SERVICE) } returns audioManager
// Mock ConnectivityManager with network available by default
connectivityManager = mockk(relaxed = true)
network = mockk()
networkCapabilities = mockk()
every { connectivityManager.activeNetwork } returns network
every { connectivityManager.getNetworkCapabilities(network) } returns networkCapabilities
every { networkCapabilities.hasCapability(NetworkCapabilities.NET_CAPABILITY_INTERNET) } returns true
every { activity.getSystemService(Context.CONNECTIVITY_SERVICE) } returns connectivityManager
// Mock SpeechRecognizer instance
speechRecognizer = mockk(relaxed = true)
listenerSlot = slot()
// Capture the RecognitionListener when setRecognitionListener is called
every { speechRecognizer.setRecognitionListener(capture(listenerSlot)) } just Runs
// Mock static factory method
mockkStatic(SpeechRecognizer::class)
every { SpeechRecognizer.createSpeechRecognizer(activity) } returns speechRecognizer
every { SpeechRecognizer.isRecognitionAvailable(activity) } returns true
// Create the manager under test
manager = VoiceInputManager(activity)
}
@After
fun teardown() {
unmockkStatic(SpeechRecognizer::class)
}
// ========== Test Case 1: Initial State ==========
@Test
fun `initial state is Idle`() {
assertEquals(VoiceInputState.Idle, manager.state.value)
}
@Test
fun `initial soundLevel is zero`() {
assertEquals(0f, manager.soundLevel.value)
}
@Test
fun `initial partialResult is empty`() {
assertEquals("", manager.partialResult.value)
}
// ========== Test Case 2: Start Listening ==========
@Test
fun `startListening transitions state to Starting`() {
manager.startListening()
idleMainLooper()
assertEquals(VoiceInputState.Starting, manager.state.value)
}
@Test
fun `onReadyForSpeech transitions state to Listening`() {
manager.startListening()
idleMainLooper()
capturedListener.onReadyForSpeech(null)
idleMainLooper()
assertEquals(VoiceInputState.Listening, manager.state.value)
}
@Test
fun `startListening creates SpeechRecognizer`() {
manager.startListening()
idleMainLooper()
verify { SpeechRecognizer.createSpeechRecognizer(activity) }
}
@Test
fun `startListening sets recognition listener`() {
manager.startListening()
idleMainLooper()
verify { speechRecognizer.setRecognitionListener(any()) }
assertTrue(listenerSlot.isCaptured)
}
@Test
fun `startListening calls recognizer startListening`() {
manager.startListening()
idleMainLooper()
verify { speechRecognizer.startListening(any<Intent>()) }
}
@Test
fun `startListening resets partialResult`() {
manager.startListening()
idleMainLooper()
capturedListener.onReadyForSpeech(null)
idleMainLooper()
capturedListener.onPartialResults(createResultsBundle("partial"))
idleMainLooper()
manager.stopListening()
idleMainLooper()
manager.startListening()
idleMainLooper()
assertEquals("", manager.partialResult.value)
}
@Test
fun `startListening is ignored when already listening`() {
manager.startListening()
idleMainLooper()
capturedListener.onReadyForSpeech(null)
idleMainLooper()
manager.startListening() // Should be ignored
idleMainLooper()
// Only one recognizer should be created
verify(exactly = 1) { SpeechRecognizer.createSpeechRecognizer(activity) }
}
@Test
fun `startListening is ignored when in Starting state`() {
manager.startListening()
idleMainLooper()
assertEquals(VoiceInputState.Starting, manager.state.value)
manager.startListening() // Should be ignored
idleMainLooper()
// Only one recognizer should be created
verify(exactly = 1) { SpeechRecognizer.createSpeechRecognizer(activity) }
}
// ========== Test Case 3: Permission Denied ==========
@Test
fun `onPermissionDenied transitions to Error state`() {
manager.onPermissionDenied()
idleMainLooper()
assertTrue(manager.state.value is VoiceInputState.Error)
}
@Test
fun `onPermissionDenied sets correct error resource`() {
manager.onPermissionDenied()
idleMainLooper()
val errorState = manager.state.value as VoiceInputState.Error
assertEquals(R.string.voice_error_permissions, errorState.messageResId)
}
// ========== Test Case 4: Result Success ==========
@Test
fun `onResults transitions to Result state with correct text`() {
manager.startListening()
idleMainLooper()
capturedListener.onResults(createResultsBundle("hello world"))
idleMainLooper()
assertTrue(manager.state.value is VoiceInputState.Result)
assertEquals("hello world", (manager.state.value as VoiceInputState.Result).text)
}
@Test
fun `onResults resets soundLevel to zero`() {
manager.startListening()
idleMainLooper()
capturedListener.onRmsChanged(5f)
idleMainLooper()
capturedListener.onResults(createResultsBundle("test"))
idleMainLooper()
assertEquals(0f, manager.soundLevel.value)
}
@Test
fun `onResults with empty text transitions to Error state`() {
manager.startListening()
idleMainLooper()
capturedListener.onResults(createResultsBundle(""))
idleMainLooper()
assertTrue(manager.state.value is VoiceInputState.Error)
assertEquals(R.string.voice_error_no_match, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onResults with null bundle transitions to Error state`() {
manager.startListening()
idleMainLooper()
capturedListener.onResults(null)
idleMainLooper()
assertTrue(manager.state.value is VoiceInputState.Error)
assertEquals(R.string.voice_error_no_match, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onResults with blank text transitions to Error state`() {
manager.startListening()
idleMainLooper()
capturedListener.onResults(createResultsBundle(" "))
idleMainLooper()
assertTrue(manager.state.value is VoiceInputState.Error)
}
// ========== Test Case 5: Error Handling ==========
@Test
fun `onError transitions to Error state`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_NETWORK)
idleMainLooper()
assertTrue(manager.state.value is VoiceInputState.Error)
}
@Test
fun `onError maps ERROR_NETWORK to correct resource`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_NETWORK)
idleMainLooper()
assertEquals(R.string.voice_error_network, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onError maps ERROR_NO_MATCH to correct resource`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_NO_MATCH)
idleMainLooper()
assertEquals(R.string.voice_error_no_match, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onError maps ERROR_AUDIO to correct resource`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_AUDIO)
idleMainLooper()
assertEquals(R.string.voice_error_audio, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onError maps ERROR_SERVER to correct resource`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_SERVER)
idleMainLooper()
assertEquals(R.string.voice_error_server, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onError maps ERROR_CLIENT to correct resource`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_CLIENT)
idleMainLooper()
assertEquals(R.string.voice_error_client, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onError maps ERROR_SPEECH_TIMEOUT to correct resource`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_SPEECH_TIMEOUT)
idleMainLooper()
assertEquals(R.string.voice_error_speech_timeout, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onError ERROR_SPEECH_TIMEOUT is retryable`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_SPEECH_TIMEOUT)
idleMainLooper()
assertTrue((manager.state.value as VoiceInputState.Error).isRetryable)
}
@Test
fun `onError maps ERROR_NETWORK_TIMEOUT to correct resource`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_NETWORK_TIMEOUT)
idleMainLooper()
assertEquals(R.string.voice_error_network_timeout, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onError maps ERROR_RECOGNIZER_BUSY to correct resource after retry exhausted`() {
manager.startListening()
idleMainLooper()
// First BUSY triggers auto-retry
capturedListener.onError(SpeechRecognizer.ERROR_RECOGNIZER_BUSY)
shadowOf(Looper.getMainLooper()).idleFor(java.time.Duration.ofMillis(350))
// Second BUSY exhausts retry count and shows error
capturedListener.onError(SpeechRecognizer.ERROR_RECOGNIZER_BUSY)
idleMainLooper()
assertEquals(R.string.voice_error_busy, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onError maps ERROR_INSUFFICIENT_PERMISSIONS to correct resource`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_INSUFFICIENT_PERMISSIONS)
idleMainLooper()
assertEquals(R.string.voice_error_permissions, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onError maps unknown error to unknown resource`() {
manager.startListening()
idleMainLooper()
capturedListener.onError(999) // Unknown error code
idleMainLooper()
assertEquals(R.string.voice_error_unknown, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `onError resets soundLevel to zero`() {
manager.startListening()
idleMainLooper()
capturedListener.onRmsChanged(5f)
idleMainLooper()
capturedListener.onError(SpeechRecognizer.ERROR_NETWORK)
idleMainLooper()
assertEquals(0f, manager.soundLevel.value)
}
// ========== Test Case 6: Cleanup/Lifecycle ==========
@Test
fun `cleanup resets state to Idle`() {
manager.startListening()
idleMainLooper()
manager.close()
idleMainLooper()
assertEquals(VoiceInputState.Idle, manager.state.value)
}
@Test
fun `cleanup calls cancel on recognizer`() {
manager.startListening()
idleMainLooper()
manager.close()
verify { speechRecognizer.cancel() }
}
@Test
fun `cleanup calls destroy on recognizer`() {
manager.startListening()
idleMainLooper()
manager.close()
verify { speechRecognizer.destroy() }
}
@Test
fun `cleanup resets soundLevel to zero`() {
manager.startListening()
idleMainLooper()
capturedListener.onRmsChanged(5f)
idleMainLooper()
manager.close()
idleMainLooper()
assertEquals(0f, manager.soundLevel.value)
}
@Test
fun `cleanup resets partialResult to empty`() {
manager.startListening()
idleMainLooper()
capturedListener.onPartialResults(createResultsBundle("partial"))
idleMainLooper()
manager.close()
idleMainLooper()
assertEquals("", manager.partialResult.value)
}
@Test
fun `stopListening triggers cleanup`() {
manager.startListening()
idleMainLooper()
manager.stopListening()
idleMainLooper()
assertEquals(VoiceInputState.Idle, manager.state.value)
verify { speechRecognizer.cancel() }
verify { speechRecognizer.destroy() }
}
// ========== Additional Coverage ==========
@Test
fun `onEndOfSpeech transitions to Processing state`() {
manager.startListening()
idleMainLooper()
capturedListener.onEndOfSpeech()
idleMainLooper()
assertEquals(VoiceInputState.Processing, manager.state.value)
}
@Test
fun `onRmsChanged updates soundLevel with normalized value`() {
manager.startListening()
idleMainLooper()
// RMS normalization: (rmsdB - (-2)) / (10 - (-2)) clamped to [0, 1]
// For rmsdB = 4: (4 - (-2)) / 12 = 6/12 = 0.5
capturedListener.onRmsChanged(4f)
idleMainLooper()
assertEquals(0.5f, manager.soundLevel.value, 0.01f)
}
@Test
fun `onRmsChanged clamps high values to 1`() {
manager.startListening()
idleMainLooper()
capturedListener.onRmsChanged(20f) // Above max
idleMainLooper()
assertEquals(1f, manager.soundLevel.value)
}
@Test
fun `onRmsChanged clamps low values to 0`() {
manager.startListening()
idleMainLooper()
capturedListener.onRmsChanged(-10f) // Below min
idleMainLooper()
assertEquals(0f, manager.soundLevel.value)
}
@Test
fun `onPartialResults updates partialResult`() {
manager.startListening()
idleMainLooper()
capturedListener.onPartialResults(createResultsBundle("hello"))
idleMainLooper()
assertEquals("hello", manager.partialResult.value)
}
@Test
fun `onPartialResults ignores blank text`() {
manager.startListening()
idleMainLooper()
capturedListener.onPartialResults(createResultsBundle("first"))
idleMainLooper()
capturedListener.onPartialResults(createResultsBundle(" "))
idleMainLooper()
assertEquals("first", manager.partialResult.value)
}
@Test
fun `acknowledge resets state to Idle`() {
manager.startListening()
idleMainLooper()
capturedListener.onResults(createResultsBundle("test"))
idleMainLooper()
manager.acknowledge()
idleMainLooper()
assertEquals(VoiceInputState.Idle, manager.state.value)
}
@Test
fun `acknowledge works from Error state`() {
manager.onPermissionDenied()
idleMainLooper()
manager.acknowledge()
idleMainLooper()
assertEquals(VoiceInputState.Idle, manager.state.value)
}
@Test
fun `onPermissionGranted calls startListening`() {
manager.onPermissionGranted()
idleMainLooper()
assertEquals(VoiceInputState.Starting, manager.state.value)
verify { SpeechRecognizer.createSpeechRecognizer(activity) }
}
@Test
fun `callbacks from previous recognizer are ignored after cleanup`() {
// Create two different mock recognizers to simulate real behavior
val firstRecognizer = mockk<SpeechRecognizer>(relaxed = true)
val secondRecognizer = mockk<SpeechRecognizer>(relaxed = true)
val firstListenerSlot = slot<RecognitionListener>()
val secondListenerSlot = slot<RecognitionListener>()
every { firstRecognizer.setRecognitionListener(capture(firstListenerSlot)) } just Runs
every { secondRecognizer.setRecognitionListener(capture(secondListenerSlot)) } just Runs
// Return different recognizers for each call
every { SpeechRecognizer.createSpeechRecognizer(activity) } returnsMany listOf(firstRecognizer, secondRecognizer)
manager.startListening()
idleMainLooper()
val firstListener = firstListenerSlot.captured
manager.close()
idleMainLooper()
manager.startListening()
idleMainLooper()
// Simulate callback from the old (zombie) recognizer
firstListener.onResults(createResultsBundle("zombie result"))
idleMainLooper()
// State should remain Starting (from the second startListening), not Result
assertEquals(VoiceInputState.Starting, manager.state.value)
}
@Test
fun `isAvailable returns mocked value`() {
assertTrue(manager.isAvailable)
}
// ========== Test Case: Network Fast-Fail ==========
@Test
fun `startListening fails immediately when no network`() {
every { connectivityManager.activeNetwork } returns null
manager.startListening()
idleMainLooper()
assertTrue(manager.state.value is VoiceInputState.Error)
assertEquals(R.string.voice_error_network, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `startListening fails immediately when no network capabilities`() {
every { connectivityManager.getNetworkCapabilities(network) } returns null
manager.startListening()
idleMainLooper()
assertTrue(manager.state.value is VoiceInputState.Error)
assertEquals(R.string.voice_error_network, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `startListening fails immediately when no internet capability`() {
every { networkCapabilities.hasCapability(NetworkCapabilities.NET_CAPABILITY_INTERNET) } returns false
manager.startListening()
idleMainLooper()
assertTrue(manager.state.value is VoiceInputState.Error)
assertEquals(R.string.voice_error_network, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `network error from fast-fail is retryable`() {
every { connectivityManager.activeNetwork } returns null
manager.startListening()
idleMainLooper()
assertTrue((manager.state.value as VoiceInputState.Error).isRetryable)
}
@Test
fun `startListening does not create recognizer when no network`() {
every { connectivityManager.activeNetwork } returns null
manager.startListening()
idleMainLooper()
verify(exactly = 0) { SpeechRecognizer.createSpeechRecognizer(any()) }
}
// ========== Test Case: Audio Focus ==========
@Test
fun `startListening fails when audio focus not granted`() {
every { audioManager.requestAudioFocus(any<AudioFocusRequest>()) } returns AudioManager.AUDIOFOCUS_REQUEST_FAILED
manager.startListening()
idleMainLooper()
assertTrue(manager.state.value is VoiceInputState.Error)
assertEquals(R.string.voice_error_audio, (manager.state.value as VoiceInputState.Error).messageResId)
}
@Test
fun `audio focus error is retryable`() {
every { audioManager.requestAudioFocus(any<AudioFocusRequest>()) } returns AudioManager.AUDIOFOCUS_REQUEST_FAILED
manager.startListening()
idleMainLooper()
assertTrue((manager.state.value as VoiceInputState.Error).isRetryable)
}
@Test
fun `startListening does not create recognizer when audio focus denied`() {
every { audioManager.requestAudioFocus(any<AudioFocusRequest>()) } returns AudioManager.AUDIOFOCUS_REQUEST_FAILED
manager.startListening()
idleMainLooper()
verify(exactly = 0) { SpeechRecognizer.createSpeechRecognizer(any()) }
}
@Test
fun `audio focus is abandoned when recognizer is destroyed`() {
manager.startListening()
idleMainLooper()
manager.close()
verify { audioManager.abandonAudioFocusRequest(any()) }
}
@Test
fun `startListening requests audio focus`() {
manager.startListening()
idleMainLooper()
verify { audioManager.requestAudioFocus(any<AudioFocusRequest>()) }
}
// ========== Helper Functions ==========
private fun createResultsBundle(text: String): Bundle =
Bundle().apply {
putStringArrayList(
SpeechRecognizer.RESULTS_RECOGNITION,
arrayListOf(text),
)
}
}
private typealias CapturingSlot<T> = io.mockk.CapturingSlot<T>

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package com.github.damontecres.wholphin.test
import android.app.Activity
import android.content.Context
import android.media.AudioFocusRequest
import android.media.AudioManager
import android.net.ConnectivityManager
import android.net.Network
import android.net.NetworkCapabilities
import android.os.Looper
import android.speech.RecognitionListener
import android.speech.SpeechRecognizer
import com.github.damontecres.wholphin.ui.components.VoiceInputManager
import com.github.damontecres.wholphin.ui.components.VoiceInputState
import io.mockk.CapturingSlot
import io.mockk.Runs
import io.mockk.every
import io.mockk.just
import io.mockk.mockk
import io.mockk.mockkStatic
import io.mockk.slot
import io.mockk.unmockkStatic
import org.junit.After
import org.junit.Assert.assertEquals
import org.junit.Assert.assertTrue
import org.junit.Before
import org.junit.Test
import org.junit.runner.RunWith
import org.robolectric.RobolectricTestRunner
import org.robolectric.Shadows.shadowOf
import org.robolectric.annotation.Config
@RunWith(RobolectricTestRunner::class)
@Config(manifest = Config.NONE, sdk = [28])
class TestVoiceInputManagerAutoFocus {
private lateinit var activity: Activity
private lateinit var speechRecognizer: SpeechRecognizer
private lateinit var manager: VoiceInputManager
private lateinit var audioManager: AudioManager
private lateinit var connectivityManager: ConnectivityManager
private lateinit var listenerSlot: CapturingSlot<RecognitionListener>
// We need to capture the OnAudioFocusChangeListener passed to AudioFocusRequest
private val focusRequestSlot = slot<AudioFocusRequest>()
private val capturedListener: RecognitionListener
get() = listenerSlot.captured
private fun idleMainLooper() = shadowOf(Looper.getMainLooper()).idle()
@Before
fun setup() {
activity = mockk(relaxed = true)
audioManager = mockk(relaxed = true)
connectivityManager = mockk(relaxed = true)
// Mock network availability
val mockNetwork = mockk<Network>()
val mockCapabilities = mockk<NetworkCapabilities>()
every { connectivityManager.activeNetwork } returns mockNetwork
every { connectivityManager.getNetworkCapabilities(mockNetwork) } returns mockCapabilities
every { mockCapabilities.hasCapability(NetworkCapabilities.NET_CAPABILITY_INTERNET) } returns true
// Capture the AudioFocusRequest built by the specific line in VoiceInputManager
every { audioManager.requestAudioFocus(capture(focusRequestSlot)) } returns AudioManager.AUDIOFOCUS_REQUEST_GRANTED
every { activity.getSystemService(Context.AUDIO_SERVICE) } returns audioManager
every { activity.getSystemService(Context.CONNECTIVITY_SERVICE) } returns connectivityManager
speechRecognizer = mockk(relaxed = true)
listenerSlot = slot()
every { speechRecognizer.setRecognitionListener(capture(listenerSlot)) } just Runs
mockkStatic(SpeechRecognizer::class)
every { SpeechRecognizer.createSpeechRecognizer(activity) } returns speechRecognizer
every { SpeechRecognizer.isRecognitionAvailable(activity) } returns true
manager = VoiceInputManager(activity)
}
@After
fun teardown() {
unmockkStatic(SpeechRecognizer::class)
}
@Test
fun `transient audio focus loss is ignored`() {
// Start listening
manager.startListening()
idleMainLooper()
capturedListener.onReadyForSpeech(null)
idleMainLooper()
assertEquals(VoiceInputState.Listening, manager.state.value)
// Verify requestAudioFocus was called
assertTrue(focusRequestSlot.isCaptured)
// Get listener via reflection since AudioFocusRequest doesn't expose it
val field = VoiceInputManager::class.java.getDeclaredField("audioFocusListener")
field.isAccessible = true
val listener = field.get(manager) as AudioManager.OnAudioFocusChangeListener
// Invoke onAudioFocusChange directly on the listener
listener.onAudioFocusChange(AudioManager.AUDIOFOCUS_LOSS_TRANSIENT)
idleMainLooper()
// Assert state is STILL Listening (Logic correctly ignores it)
assertEquals(VoiceInputState.Listening, manager.state.value)
}
@Test
fun `permanent audio focus loss stops listening`() {
// Start listening
manager.startListening()
idleMainLooper()
capturedListener.onReadyForSpeech(null)
idleMainLooper()
// Get listener via reflection since AudioFocusRequest doesn't expose it
val field = VoiceInputManager::class.java.getDeclaredField("audioFocusListener")
field.isAccessible = true
val listener = field.get(manager) as AudioManager.OnAudioFocusChangeListener
// Invoke onAudioFocusChange directly on the listener
listener.onAudioFocusChange(AudioManager.AUDIOFOCUS_LOSS)
idleMainLooper()
// Assert state is NOW Idle (Logic correctly stops)
assertEquals(VoiceInputState.Idle, manager.state.value)
}
}