/* * Copyright 2017 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.mobileer.oboetester; import android.content.res.Resources; import java.util.ArrayList; import java.util.HashMap; import java.util.List; import java.util.Locale; /** * Container for the properties of a Stream. * * This can be used to build a stream, or as a base class for a Stream, * or as a way to report the properties of a Stream. */ public class StreamConfiguration { public static final int UNSPECIFIED = 0; // These must match order in Spinner and in native code and in AAudio.h public static final int NATIVE_API_UNSPECIFIED = 0; public static final int NATIVE_API_OPENSLES = 1; public static final int NATIVE_API_AAUDIO = 2; public static final int SHARING_MODE_EXCLUSIVE = 0; // must match AAUDIO public static final int SHARING_MODE_SHARED = 1; // must match AAUDIO public static final int AUDIO_FORMAT_PCM_16 = 1; // must match AAUDIO public static final int AUDIO_FORMAT_PCM_FLOAT = 2; // must match AAUDIO public static final int AUDIO_FORMAT_PCM_24 = 3; // must match AAUDIO public static final int AUDIO_FORMAT_PCM_32 = 4; // must match AAUDIO public static final int AUDIO_FORMAT_IEC61937 = 5; // must match AAUDIO public static final int DIRECTION_OUTPUT = 0; // must match AAUDIO public static final int DIRECTION_INPUT = 1; // must match AAUDIO public static final int SESSION_ID_NONE = -1; // must match AAUDIO public static final int SESSION_ID_ALLOCATE = 0; // must match AAUDIO public static final int PERFORMANCE_MODE_NONE = 10; // must match AAUDIO public static final int PERFORMANCE_MODE_POWER_SAVING = 11; // must match AAUDIO public static final int PERFORMANCE_MODE_LOW_LATENCY = 12; // must match AAUDIO public static final int RATE_CONVERSION_QUALITY_NONE = 0; // must match Oboe public static final int RATE_CONVERSION_QUALITY_FASTEST = 1; // must match Oboe public static final int RATE_CONVERSION_QUALITY_LOW = 2; // must match Oboe public static final int RATE_CONVERSION_QUALITY_MEDIUM = 3; // must match Oboe public static final int RATE_CONVERSION_QUALITY_HIGH = 4; // must match Oboe public static final int RATE_CONVERSION_QUALITY_BEST = 5; // must match Oboe public static final int STREAM_STATE_STARTING = 3; // must match Oboe public static final int STREAM_STATE_STARTED = 4; // must match Oboe public static final int INPUT_PRESET_GENERIC = 1; // must match Oboe public static final int INPUT_PRESET_CAMCORDER = 5; // must match Oboe public static final int INPUT_PRESET_VOICE_RECOGNITION = 6; // must match Oboe public static final int INPUT_PRESET_VOICE_COMMUNICATION = 7; // must match Oboe public static final int INPUT_PRESET_UNPROCESSED = 9; // must match Oboe public static final int INPUT_PRESET_VOICE_PERFORMANCE = 10; // must match Oboe public static final int ERROR_BASE = -900; // must match Oboe public static final int ERROR_DISCONNECTED = -899; // must match Oboe public static final int ERROR_ILLEGAL_ARGUMENT = -898; // must match Oboe public static final int ERROR_INTERNAL = -896; // must match Oboe public static final int ERROR_INVALID_STATE = -895; // must match Oboe public static final int ERROR_INVALID_HANDLE = -892; // must match Oboe public static final int ERROR_UNIMPLEMENTED = -890; // must match Oboe public static final int ERROR_UNAVAILABLE = -889; // must match Oboe public static final int ERROR_NO_FREE_HANDLES = -888; // must match Oboe public static final int ERROR_NO_MEMORY = -887; // must match Oboe public static final int ERROR_NULL = -886; // must match Oboe public static final int ERROR_TIMEOUT = -885; // must match Oboe public static final int ERROR_WOULD_BLOCK = -884; // must match Oboe public static final int ERROR_INVALID_FORMAT = -883; // must match Oboe public static final int ERROR_OUT_OF_RANGE = -882; // must match Oboe public static final int ERROR_NO_SERVICE = -881; // must match Oboe public static final int ERROR_INVALID_RATE = -880; // must match Oboe public static final int ERROR_CLOSED = -869; // must match Oboe public static final int ERROR_OK = 0; // must match Oboe public static final int USAGE_MEDIA = 1; public static final int USAGE_VOICE_COMMUNICATION = 2; public static final int USAGE_VOICE_COMMUNICATION_SIGNALLING = 3; public static final int USAGE_ALARM = 4; public static final int USAGE_NOTIFICATION = 5; public static final int USAGE_NOTIFICATION_RINGTONE = 6; public static final int USAGE_NOTIFICATION_EVENT = 10; public static final int USAGE_ASSISTANCE_ACCESSIBILITY = 11; public static final int USAGE_ASSISTANCE_NAVIGATION_GUIDANCE = 12; public static final int USAGE_ASSISTANCE_SONIFICATION = 13; public static final int USAGE_GAME = 14; public static final int USAGE_ASSISTANT = 16; public static final int CONTENT_TYPE_SPEECH = 1; public static final int CONTENT_TYPE_MUSIC = 2; public static final int CONTENT_TYPE_MOVIE = 3; public static final int CONTENT_TYPE_SONIFICATION = 4; public static final int CHANNEL_FRONT_LEFT = 1 << 0; public static final int CHANNEL_FRONT_RIGHT = 1 << 1; public static final int CHANNEL_FRONT_CENTER = 1 << 2; public static final int CHANNEL_LOW_FREQUENCY = 1 << 3; public static final int CHANNEL_BACK_LEFT = 1 << 4; public static final int CHANNEL_BACK_RIGHT = 1 << 5; public static final int CHANNEL_FRONT_LEFT_OF_CENTER = 1 << 6; public static final int CHANNEL_FRONT_RIGHT_OF_CENTER = 1 << 7; public static final int CHANNEL_BACK_CENTER = 1 << 8; public static final int CHANNEL_SIDE_LEFT = 1 << 9; public static final int CHANNEL_SIDE_RIGHT = 1 << 10; public static final int CHANNEL_TOP_CENTER = 1 << 11; public static final int CHANNEL_TOP_FRONT_LEFT = 1 << 12; public static final int CHANNEL_TOP_FRONT_CENTER = 1 << 13; public static final int CHANNEL_TOP_FRONT_RIGHT = 1 << 14; public static final int CHANNEL_TOP_BACK_LEFT = 1 << 15; public static final int CHANNEL_TOP_BACK_CENTER = 1 << 16; public static final int CHANNEL_TOP_BACK_RIGHT = 1 << 17; public static final int CHANNEL_TOP_SIDE_LEFT = 1 << 18; public static final int CHANNEL_TOP_SIDE_RIGHT = 1 << 19; public static final int CHANNEL_BOTTOM_FRONT_LEFT = 1 << 20; public static final int CHANNEL_BOTTOM_FRONT_CENTER = 1 << 21; public static final int CHANNEL_BOTTOM_FRONT_RIGHT = 1 << 22; public static final int CHANNEL_LOW_FREQUENCY_2 = 1 << 23; public static final int CHANNEL_FRONT_WIDE_LEFT = 1 << 24; public static final int CHANNEL_FRONT_WIDE_RIGHT = 1 << 25; public static final int CHANNEL_MONO = CHANNEL_FRONT_LEFT; public static final int CHANNEL_STEREO = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT; public static final int CHANNEL_2POINT1 = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_LOW_FREQUENCY; public static final int CHANNEL_TRI = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_FRONT_CENTER; public static final int CHANNEL_TRI_BACK = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_BACK_CENTER; public static final int CHANNEL_3POINT1 = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_FRONT_CENTER | CHANNEL_LOW_FREQUENCY; public static final int CHANNEL_2POINT0POINT2 = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_TOP_SIDE_LEFT | CHANNEL_TOP_SIDE_RIGHT; public static final int CHANNEL_2POINT1POINT2 = CHANNEL_2POINT0POINT2 | CHANNEL_LOW_FREQUENCY; public static final int CHANNEL_3POINT0POINT2 = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_FRONT_CENTER | CHANNEL_TOP_SIDE_LEFT | CHANNEL_TOP_SIDE_RIGHT; public static final int CHANNEL_3POINT1POINT2 = CHANNEL_3POINT0POINT2 | CHANNEL_LOW_FREQUENCY; public static final int CHANNEL_QUAD = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_BACK_LEFT | CHANNEL_BACK_RIGHT; public static final int CHANNEL_QUAD_SIDE = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_SIDE_LEFT | CHANNEL_SIDE_RIGHT; public static final int CHANNEL_SURROUND = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_FRONT_CENTER | CHANNEL_BACK_CENTER; public static final int CHANNEL_PENTA = CHANNEL_QUAD | CHANNEL_FRONT_CENTER; // aka 5POINT1_BACK public static final int CHANNEL_5POINT1 = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_FRONT_CENTER | CHANNEL_LOW_FREQUENCY | CHANNEL_BACK_LEFT | CHANNEL_BACK_RIGHT; public static final int CHANNEL_5POINT1_SIDE = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_FRONT_CENTER | CHANNEL_LOW_FREQUENCY | CHANNEL_SIDE_LEFT | CHANNEL_SIDE_RIGHT; public static final int CHANNEL_6POINT1 = CHANNEL_FRONT_LEFT | CHANNEL_FRONT_RIGHT | CHANNEL_FRONT_CENTER | CHANNEL_LOW_FREQUENCY | CHANNEL_BACK_LEFT | CHANNEL_BACK_RIGHT | CHANNEL_BACK_CENTER; public static final int CHANNEL_7POINT1 = CHANNEL_5POINT1 | CHANNEL_SIDE_LEFT | CHANNEL_SIDE_RIGHT; public static final int CHANNEL_5POINT1POINT2 = CHANNEL_5POINT1 | CHANNEL_TOP_SIDE_LEFT | CHANNEL_TOP_SIDE_RIGHT; public static final int CHANNEL_5POINT1POINT4 = CHANNEL_5POINT1 | CHANNEL_TOP_FRONT_LEFT | CHANNEL_TOP_FRONT_RIGHT | CHANNEL_TOP_BACK_LEFT | CHANNEL_TOP_BACK_RIGHT; public static final int CHANNEL_7POINT1POINT2 = CHANNEL_7POINT1 | CHANNEL_TOP_SIDE_LEFT | CHANNEL_TOP_SIDE_RIGHT; public static final int CHANNEL_7POINT1POINT4 = CHANNEL_7POINT1 | CHANNEL_TOP_FRONT_LEFT | CHANNEL_TOP_FRONT_RIGHT | CHANNEL_TOP_BACK_LEFT | CHANNEL_TOP_BACK_RIGHT; public static final int CHANNEL_9POINT1POINT4 = CHANNEL_7POINT1POINT4 | CHANNEL_FRONT_WIDE_LEFT | CHANNEL_FRONT_WIDE_RIGHT; public static final int CHANNEL_9POINT1POINT6 = CHANNEL_9POINT1POINT4 | CHANNEL_TOP_SIDE_LEFT | CHANNEL_TOP_SIDE_RIGHT; public static final int CHANNEL_FRONT_BACK = CHANNEL_FRONT_CENTER | CHANNEL_BACK_CENTER; public static final int[] usages = { USAGE_MEDIA, USAGE_VOICE_COMMUNICATION, USAGE_VOICE_COMMUNICATION_SIGNALLING, USAGE_ALARM, USAGE_NOTIFICATION, USAGE_NOTIFICATION_RINGTONE, USAGE_NOTIFICATION_EVENT, USAGE_ASSISTANCE_ACCESSIBILITY, USAGE_ASSISTANCE_NAVIGATION_GUIDANCE, USAGE_ASSISTANCE_SONIFICATION, USAGE_GAME, USAGE_ASSISTANT}; public static final int[] contentTypes = { CONTENT_TYPE_SPEECH, CONTENT_TYPE_MUSIC, CONTENT_TYPE_MOVIE, CONTENT_TYPE_SONIFICATION}; public static final int[] channelMasks = { CHANNEL_MONO, CHANNEL_STEREO, CHANNEL_2POINT1, CHANNEL_TRI, CHANNEL_TRI_BACK, CHANNEL_3POINT1, CHANNEL_2POINT0POINT2, CHANNEL_2POINT1POINT2, CHANNEL_3POINT0POINT2, CHANNEL_3POINT1POINT2, CHANNEL_QUAD, CHANNEL_QUAD_SIDE, CHANNEL_SURROUND, CHANNEL_PENTA, CHANNEL_5POINT1, CHANNEL_5POINT1_SIDE, CHANNEL_6POINT1, CHANNEL_7POINT1, CHANNEL_5POINT1POINT2, CHANNEL_5POINT1POINT4, CHANNEL_7POINT1POINT2, CHANNEL_7POINT1POINT4, CHANNEL_9POINT1POINT4, CHANNEL_9POINT1POINT6, CHANNEL_FRONT_BACK }; private static HashMap mUsageStringToIntegerMap; private static HashMap mContentTypeStringToIntegerMap; private static HashMap mChannelMaskStringToIntegerMap; private static List mChannelMaskStrings = new ArrayList<>(); private int mNativeApi; private int mBufferCapacityInFrames; private int mChannelCount; private int mDeviceId; private int mSessionId; private int mDirection; // does not get reset private int mFormat; private int mSampleRate; private int mSharingMode; private int mPerformanceMode; private boolean mFormatConversionAllowed; private boolean mChannelConversionAllowed; private int mRateConversionQuality; private int mInputPreset; private int mUsage; private int mContentType; private int mFramesPerBurst; private boolean mMMap; private int mChannelMask; private int mHardwareChannelCount; private int mHardwareSampleRate; private int mHardwareFormat; public StreamConfiguration() { reset(); } static { // Build map for Usage string-to-int conversion. mUsageStringToIntegerMap = new HashMap(); mUsageStringToIntegerMap.put(convertUsageToText(UNSPECIFIED), UNSPECIFIED); for (int usage : usages) { mUsageStringToIntegerMap.put(convertUsageToText(usage), usage); } // Build map for Content Type string-to-int conversion. mContentTypeStringToIntegerMap = new HashMap(); mContentTypeStringToIntegerMap.put(convertContentTypeToText(UNSPECIFIED), UNSPECIFIED); for (int contentType : contentTypes) { mContentTypeStringToIntegerMap.put(convertContentTypeToText(contentType), contentType); } // Build map for Channel Mask string-to-int conversion. mChannelMaskStringToIntegerMap = new HashMap(); String channelMaskStr = convertChannelMaskToText(UNSPECIFIED); mChannelMaskStringToIntegerMap.put(channelMaskStr, UNSPECIFIED); mChannelMaskStrings.add(channelMaskStr); for (int channelMask : channelMasks) { channelMaskStr = convertChannelMaskToText(channelMask); mChannelMaskStringToIntegerMap.put(channelMaskStr, channelMask); mChannelMaskStrings.add(channelMaskStr); } } public void reset() { mNativeApi = NATIVE_API_UNSPECIFIED; mBufferCapacityInFrames = UNSPECIFIED; mChannelCount = UNSPECIFIED; mChannelMask = UNSPECIFIED; mDeviceId = UNSPECIFIED; mSessionId = -1; mFormat = AUDIO_FORMAT_PCM_FLOAT; mSampleRate = UNSPECIFIED; mSharingMode = SHARING_MODE_EXCLUSIVE; mPerformanceMode = PERFORMANCE_MODE_LOW_LATENCY; mInputPreset = INPUT_PRESET_VOICE_RECOGNITION; mUsage = UNSPECIFIED; mContentType = UNSPECIFIED; mFormatConversionAllowed = false; mChannelConversionAllowed = false; mRateConversionQuality = RATE_CONVERSION_QUALITY_NONE; mMMap = NativeEngine.isMMapSupported(); mHardwareChannelCount = UNSPECIFIED; mHardwareSampleRate = UNSPECIFIED; mHardwareFormat = UNSPECIFIED; } public int getFramesPerBurst() { return mFramesPerBurst; } public void setFramesPerBurst(int framesPerBurst) { this.mFramesPerBurst = framesPerBurst; } public int getBufferCapacityInFrames() { return mBufferCapacityInFrames; } public void setBufferCapacityInFrames(int bufferCapacityInFrames) { this.mBufferCapacityInFrames = bufferCapacityInFrames; } public int getFormat() { return mFormat; } public void setFormat(int format) { this.mFormat = format; } public int getDirection() { return mDirection; } public void setDirection(int direction) { this.mDirection = direction; } public int getPerformanceMode() { return mPerformanceMode; } public void setPerformanceMode(int performanceMode) { this.mPerformanceMode = performanceMode; } static String convertPerformanceModeToText(int performanceMode) { switch(performanceMode) { case PERFORMANCE_MODE_NONE: return "NO"; case PERFORMANCE_MODE_POWER_SAVING: return "PS"; case PERFORMANCE_MODE_LOW_LATENCY: return "LL"; default: return "??"; } } public int getInputPreset() { return mInputPreset; } public void setInputPreset(int inputPreset) { this.mInputPreset = inputPreset; } public int getUsage() { return mUsage; } public void setUsage(int usage) { this.mUsage = usage; } public int getContentType() { return mContentType; } public void setContentType(int contentType) { this.mContentType = contentType; } static String convertUsageToText(int usage) { switch(usage) { case UNSPECIFIED: return "Unspecified"; case USAGE_MEDIA: return "Media"; case USAGE_VOICE_COMMUNICATION: return "VoiceComm"; case USAGE_VOICE_COMMUNICATION_SIGNALLING: return "VoiceCommSig"; case USAGE_ALARM: return "Alarm"; case USAGE_NOTIFICATION: return "Notification"; case USAGE_NOTIFICATION_RINGTONE: return "Ringtone"; case USAGE_NOTIFICATION_EVENT: return "Event"; case USAGE_ASSISTANCE_ACCESSIBILITY: return "Accessability"; case USAGE_ASSISTANCE_NAVIGATION_GUIDANCE: return "Navigation"; case USAGE_ASSISTANCE_SONIFICATION: return "Sonification"; case USAGE_GAME: return "Game"; case USAGE_ASSISTANT: return "Assistant"; default: return "?=" + usage; } } public static int convertTextToUsage(String text) { return mUsageStringToIntegerMap.get(text); } static String convertContentTypeToText(int contentType) { switch(contentType) { case UNSPECIFIED: return "Unspecified"; case CONTENT_TYPE_SPEECH: return "Speech"; case CONTENT_TYPE_MUSIC: return "Music"; case CONTENT_TYPE_MOVIE: return "Movie"; case CONTENT_TYPE_SONIFICATION: return "Sonification"; default: return "?=" + contentType; } } public static int convertTextToContentType(String text) { return mContentTypeStringToIntegerMap.get(text); } public int getSharingMode() { return mSharingMode; } public void setSharingMode(int sharingMode) { this.mSharingMode = sharingMode; } static String convertSharingModeToText(int sharingMode) { switch(sharingMode) { case SHARING_MODE_SHARED: return "SH"; case SHARING_MODE_EXCLUSIVE: return "EX"; default: return "??"; } } public static String convertFormatToText(int format) { switch(format) { case UNSPECIFIED: return "Unspecified"; case AUDIO_FORMAT_PCM_16: return "I16"; case AUDIO_FORMAT_PCM_24: return "I24"; case AUDIO_FORMAT_PCM_32: return "I32"; case AUDIO_FORMAT_PCM_FLOAT: return "Float"; case AUDIO_FORMAT_IEC61937: return "IEC61937"; default: return "Invalid"; } } public static String convertNativeApiToText(int api) { switch(api) { case NATIVE_API_UNSPECIFIED: return "Unspec"; case NATIVE_API_AAUDIO: return "AAudio"; case NATIVE_API_OPENSLES: return "OpenSL"; default: return "Invalid"; } } public static String convertChannelMaskToText(int channelMask) { switch (channelMask) { case UNSPECIFIED: return "Unspecified"; case CHANNEL_MONO: return "Mono"; case CHANNEL_STEREO: return "Stereo"; case CHANNEL_2POINT1: return "2.1"; case CHANNEL_TRI: return "Tri"; case CHANNEL_TRI_BACK: return "TriBack"; case CHANNEL_3POINT1: return "3.1"; case CHANNEL_2POINT0POINT2: return "2.0.2"; case CHANNEL_2POINT1POINT2: return "2.1.2"; case CHANNEL_3POINT0POINT2: return "3.0.2"; case CHANNEL_3POINT1POINT2: return "3.1.2"; case CHANNEL_QUAD: return "Quad"; case CHANNEL_QUAD_SIDE: return "QuadSide"; case CHANNEL_SURROUND: return "Surround"; case CHANNEL_PENTA: return "Penta"; case CHANNEL_5POINT1: return "5.1"; case CHANNEL_5POINT1_SIDE: return "5.1Side"; case CHANNEL_6POINT1: return "6.1"; case CHANNEL_7POINT1: return "7.1"; case CHANNEL_5POINT1POINT2: return "5.1.2"; case CHANNEL_5POINT1POINT4: return "5.1.4"; case CHANNEL_7POINT1POINT2: return "7.1.2"; case CHANNEL_7POINT1POINT4: return "7.1.4"; case CHANNEL_9POINT1POINT4: return "9.1.4"; case CHANNEL_9POINT1POINT6: return "9.1.6"; case CHANNEL_FRONT_BACK: return "FrontBack"; default: return "?=" + Integer.toHexString(channelMask); } } static String convertRateConversionQualityToText(int quality) { switch(quality) { case RATE_CONVERSION_QUALITY_NONE: return "None"; case RATE_CONVERSION_QUALITY_FASTEST: return "Fastest"; case RATE_CONVERSION_QUALITY_LOW: return "Low"; case RATE_CONVERSION_QUALITY_MEDIUM: return "Medium"; case RATE_CONVERSION_QUALITY_HIGH: return "High"; case RATE_CONVERSION_QUALITY_BEST: return "Best"; default: return "?=" + quality; } } public static int convertTextToChannelMask(String text) { return mChannelMaskStringToIntegerMap.get(text); } public String dump() { String prefix = (getDirection() == DIRECTION_INPUT) ? "in" : "out"; StringBuffer message = new StringBuffer(); message.append(String.format(Locale.getDefault(), "%s.channels = %d\n", prefix, mChannelCount)); message.append(String.format(Locale.getDefault(), "%s.perf = %s\n", prefix, convertPerformanceModeToText(mPerformanceMode).toLowerCase(Locale.getDefault()))); if (getDirection() == DIRECTION_INPUT) { message.append(String.format(Locale.getDefault(), "%s.preset = %s\n", prefix, convertInputPresetToText(mInputPreset).toLowerCase(Locale.getDefault()))); } else { message.append(String.format(Locale.getDefault(), "%s.usage = %s\n", prefix, convertUsageToText(mUsage).toLowerCase(Locale.getDefault()))); message.append(String.format(Locale.getDefault(), "%s.contentType = %s\n", prefix, convertContentTypeToText(mContentType).toLowerCase(Locale.getDefault()))); } message.append(String.format(Locale.getDefault(), "%s.sharing = %s\n", prefix, convertSharingModeToText(mSharingMode).toLowerCase(Locale.getDefault()))); message.append(String.format(Locale.getDefault(), "%s.api = %s\n", prefix, convertNativeApiToText(getNativeApi()).toLowerCase(Locale.getDefault()))); message.append(String.format(Locale.getDefault(), "%s.rate = %d\n", prefix, mSampleRate)); message.append(String.format(Locale.getDefault(), "%s.device = %d\n", prefix, mDeviceId)); message.append(String.format(Locale.getDefault(), "%s.mmap = %s\n", prefix, isMMap() ? "yes" : "no")); message.append(String.format(Locale.getDefault(), "%s.rate.conversion.quality = %d\n", prefix, mRateConversionQuality)); message.append(String.format(Locale.getDefault(), "%s.hardware.channels = %d\n", prefix, mHardwareChannelCount)); message.append(String.format(Locale.getDefault(), "%s.hardware.sampleRate = %d\n", prefix, mHardwareSampleRate)); message.append(String.format(Locale.getDefault(), "%s.hardware.format = %s\n", prefix, convertFormatToText(mHardwareFormat).toLowerCase(Locale.getDefault()))); return message.toString(); } // text must match menu values public static final String NAME_INPUT_PRESET_GENERIC = "Generic"; public static final String NAME_INPUT_PRESET_CAMCORDER = "Camcorder"; public static final String NAME_INPUT_PRESET_VOICE_RECOGNITION = "VoiceRec"; public static final String NAME_INPUT_PRESET_VOICE_COMMUNICATION = "VoiceComm"; public static final String NAME_INPUT_PRESET_UNPROCESSED = "Unprocessed"; public static final String NAME_INPUT_PRESET_VOICE_PERFORMANCE = "Performance"; public static String convertInputPresetToText(int inputPreset) { switch(inputPreset) { case INPUT_PRESET_GENERIC: return NAME_INPUT_PRESET_GENERIC; case INPUT_PRESET_CAMCORDER: return NAME_INPUT_PRESET_CAMCORDER; case INPUT_PRESET_VOICE_RECOGNITION: return NAME_INPUT_PRESET_VOICE_RECOGNITION; case INPUT_PRESET_VOICE_COMMUNICATION: return NAME_INPUT_PRESET_VOICE_COMMUNICATION; case INPUT_PRESET_UNPROCESSED: return NAME_INPUT_PRESET_UNPROCESSED; case INPUT_PRESET_VOICE_PERFORMANCE: return NAME_INPUT_PRESET_VOICE_PERFORMANCE; default: return "Invalid"; } } private static boolean matchInputPreset(String text, int preset) { return convertInputPresetToText(preset).toLowerCase(Locale.getDefault()).equals(text); } /** * Case insensitive. * @param text * @return inputPreset, eg. INPUT_PRESET_CAMCORDER */ public static int convertTextToInputPreset(String text) { text = text.toLowerCase(Locale.getDefault()); if (matchInputPreset(text, INPUT_PRESET_GENERIC)) { return INPUT_PRESET_GENERIC; } else if (matchInputPreset(text, INPUT_PRESET_CAMCORDER)) { return INPUT_PRESET_CAMCORDER; } else if (matchInputPreset(text, INPUT_PRESET_VOICE_RECOGNITION)) { return INPUT_PRESET_VOICE_RECOGNITION; } else if (matchInputPreset(text, INPUT_PRESET_VOICE_COMMUNICATION)) { return INPUT_PRESET_VOICE_COMMUNICATION; } else if (matchInputPreset(text, INPUT_PRESET_UNPROCESSED)) { return INPUT_PRESET_UNPROCESSED; } else if (matchInputPreset(text, INPUT_PRESET_VOICE_PERFORMANCE)) { return INPUT_PRESET_VOICE_PERFORMANCE; } return -1; } public int getChannelCount() { return mChannelCount; } public void setChannelCount(int channelCount) { this.mChannelCount = channelCount; } public int getSampleRate() { return mSampleRate; } public void setSampleRate(int sampleRate) { this.mSampleRate = sampleRate; } public int getDeviceId() { return mDeviceId; } public void setDeviceId(int deviceId) { this.mDeviceId = deviceId; } public int getSessionId() { return mSessionId; } public void setSessionId(int sessionId) { mSessionId = sessionId; } public boolean isMMap() { return mMMap; } public void setMMap(boolean b) { mMMap = b; } public int getNativeApi() { return mNativeApi; } public void setNativeApi(int nativeApi) { mNativeApi = nativeApi; } public void setChannelConversionAllowed(boolean b) { mChannelConversionAllowed = b; } public boolean getChannelConversionAllowed() { return mChannelConversionAllowed; } public void setFormatConversionAllowed(boolean b) { mFormatConversionAllowed = b; } public boolean getFormatConversionAllowed() { return mFormatConversionAllowed; } public void setRateConversionQuality(int quality) { mRateConversionQuality = quality; } public int getRateConversionQuality() { return mRateConversionQuality; } public int getChannelMask() { return mChannelMask; } public void setChannelMask(int channelMask) { this.mChannelMask = channelMask; } public static List getAllChannelMasks() { return mChannelMaskStrings; } public int getHardwareChannelCount() { return mHardwareChannelCount; } public void setHardwareChannelCount(int hardwareChannelCount) { this.mHardwareChannelCount = hardwareChannelCount; } public int getHardwareSampleRate() { return mHardwareSampleRate; } public void setHardwareSampleRate(int hardwareSampleRate) { this.mHardwareSampleRate = hardwareSampleRate; } public int getHardwareFormat() { return mHardwareFormat; } public void setHardwareFormat(int hardwareFormat) { this.mHardwareFormat = hardwareFormat; } static String convertErrorToText(int error) { switch (error) { case ERROR_BASE: return "ErrorBase"; case ERROR_DISCONNECTED: return "ErrorDisconnected"; case ERROR_ILLEGAL_ARGUMENT: return "ErrorIllegalArgument"; case ERROR_INTERNAL: return "ErrorInternal"; case ERROR_INVALID_STATE: return "ErrorInvalidState"; case ERROR_INVALID_HANDLE: return "ErrorInvalidHandle"; case ERROR_UNIMPLEMENTED: return "ErrorUnimplemented"; case ERROR_UNAVAILABLE: return "ErrorUnavailable"; case ERROR_NO_FREE_HANDLES: return "ErrorNoFreeHandles"; case ERROR_NO_MEMORY: return "ErrorNoMemory"; case ERROR_NULL: return "ErrorNull"; case ERROR_TIMEOUT: return "ErrorTimeout"; case ERROR_WOULD_BLOCK: return "ErrorWouldBlock"; case ERROR_INVALID_FORMAT: return "ErrorInvalidFormat"; case ERROR_OUT_OF_RANGE: return "ErrorOutOfRange"; case ERROR_NO_SERVICE: return "ErrorNoService"; case ERROR_INVALID_RATE: return "ErrorInvalidRate"; case ERROR_CLOSED: return "ErrorClosed"; case ERROR_OK: return "ErrorOk"; default: return "?=" + error; } } }