在IOS开发中，用微软进行语音转文本操作，并将录音文件压缩后返回

项目中遇到了利用微软SDK进行实时录音转文本操作，如果操作失败，那么就利用原始音频文件通过网络请求操作，最终这份文件上传到阿里云保存，考虑到传输速率，对文件压缩成mp3再上传

遇到的难点

• 微软的示例中只能转文本，微软并不保存这份音频文件，需要自己实现从录音到推流，到获取结果
• 项目是uniapp项目，非原生工程项目，录音管理器需要激活后才能使用
• 关于压缩代码，采用Lame库压缩，网上大部分都是通过文件提取压缩再保存，直接录制音频压缩较少，记录下来以便后续使用

流程图

实现步骤

录音的实现

// 每个缓冲区的大小
#define kBufferSize 2048
// 缓冲区数量
#define kNumberBuffers 3// 定义结构体，里面保存录音队列ID，录音格式
typedef struct {AudioStreamBasicDescription dataFormat;AudioQueueRef               queue;AudioQueueBufferRef         buffers[kNumberBuffers];UInt32                      bufferByteSize;__unsafe_unretained id      selfRef;
} AQRecorderState;AQRecorderState recorderState = {0};- (instancetype)init {self = [super init];if (self) {// 设置音频格式recorderState.dataFormat.mFormatID = kAudioFormatLinearPCM;recorderState.dataFormat.mSampleRate = 16000.0;recorderState.dataFormat.mChannelsPerFrame = 1;recorderState.dataFormat.mBitsPerChannel = 16;recorderState.dataFormat.mBytesPerPacket = recorderState.dataFormat.mBytesPerFrame = recorderState.dataFormat.mChannelsPerFrame * sizeof(SInt16);recorderState.dataFormat.mFramesPerPacket = 1;recorderState.dataFormat.mFormatFlags = kLinearPCMFormatFlagIsSignedInteger | kLinearPCMFormatFlagIsPacked;}return self;
}- (void)configureAudioSession {AVAudioSession *session = [AVAudioSession sharedInstance];NSError *error = nil;// 设置音频会话类别和模式[session setCategory:AVAudioSessionCategoryPlayAndRecord  error:&error];if (error) {NSLog(@"Error setting category: %@", error.localizedDescription);}// 激活音频会话[session setActive:YES error:&error];if (error) {NSLog(@"Error activating session: %@", error.localizedDescription);}
}
// 开始录音
- (void)startRecording{// 激活录音文件[self configureAudioSession];// 创建录音队列AudioQueueNewInput(&recorderState.dataFormat, HandleInputBuffer, &recorderState, NULL, kCFRunLoopCommonModes, 0, &recorderState.queue);// 设置录音增益AudioQueueSetParameter(recorderState.queue, kAudioQueueParam_Volume, 1.0);// 计算缓冲区大小DeriveBufferSize(recorderState.queue, &recorderState.dataFormat, 0.5, &recorderState.bufferByteSize);// 分配和分配缓冲区for (int i = 0; i < kNumberBuffers; i++) {AudioQueueAllocateBuffer(recorderState.queue, recorderState.bufferByteSize, &recorderState.buffers[i]);AudioQueueEnqueueBuffer(recorderState.queue, recorderState.buffers[i], 0, NULL);}OSStatus status = AudioQueueStart(recorderState.queue, NULL);if (status != noErr) {NSLog(@"AudioQueueNewInput failed with error: %d", (int)status);}
}
// 结束录音
- (void)stopRecording{// 停止录音AudioQueueStop(recorderState.queue, true);AudioQueueDispose(recorderState.queue, true);
};
// 计算缓冲区大小
void DeriveBufferSize(AudioQueueRef audioQueue, AudioStreamBasicDescription *ASBDesc, Float64 seconds, UInt32 *outBufferSize) {static const int maxBufferSize = 0x50000; // 限制缓冲区的最大值int maxPacketSize = ASBDesc->mBytesPerPacket;if (maxPacketSize == 0) {UInt32 maxVBRPacketSize = sizeof(maxPacketSize);AudioQueueGetProperty(audioQueue, kAudioQueueProperty_MaximumOutputPacketSize, &maxPacketSize, &maxVBRPacketSize);}Float64 numBytesForTime = ASBDesc->mSampleRate * maxPacketSize * seconds;*outBufferSize = (UInt32)(numBytesForTime < maxBufferSize ? numBytesForTime : maxBufferSize);
}
// 数据处理回调函数 这个里面有个录音回掉的PCM数据
void HandleInputBuffer(void *aqData, AudioQueueRef inAQ, AudioQueueBufferRef inBuffer, const AudioTimeStamp *inStartTime, UInt32 inNumPackets, const AudioStreamPacketDescription *inPacketDesc) {AQRecorderState *pAqData = (AQRecorderState *)aqData;// 如果有数据，就处理if (inNumPackets > 0) {// 创建NSData对象NSData *audioData = [NSData dataWithBytes:inBuffer->mAudioData length:inBuffer->mAudioDataByteSize];// 打印NSData对象内容NSLog(@"Audio Data: %@", audioData);// 这儿将进行保存文件// 编码文件// 推送数据到微软SDK}// 将缓冲区重新加入到队列中AudioQueueEnqueueBuffer(pAqData->queue, inBuffer, 0, NULL);
}

微软SDK初始化和推流

这个大部分和微软示例差不多，需要注意的是获取微软示例时候传入的是自定义的录音设置，并将自定义录音设置保存起来，在录音回掉中将数据推入流中

- (void)setUpKey:(NSString *)token service:(NSString *)service lang:(NSString *) lang { // 这里将通过token和区域初始化配置类，微软还有其他获取配置类的方法，其他方法示例化也可以SPXSpeechConfiguration *speechConfig = nil;speechConfig = [[SPXSpeechConfiguration alloc] initWithAuthorizationToken:token region:service];// 这个是通过token实例化配置类的方式
//    speechConfig = [[SPXSpeechConfiguration alloc] initWithSubscription:token region:service];// 设置语言 en-US格式[speechConfig setSpeechRecognitionLanguage:lang];// 设置微软接收到的数据的格式 16000HZ 16位深 单通道SPXAudioStreamFormat *audioFormat = [[SPXAudioStreamFormat alloc] initUsingPCMWithSampleRate: 16000 bitsPerSample:16 channels:1];// 获取推流的类，并保存起来，后面就通过它推送数据到SDKself.audioInputStream = [[SPXPushAudioInputStream alloc] initWithAudioFormat:audioFormat];// 获取录音配置SPXAudioConfiguration* audioConfig = [[SPXAudioConfiguration alloc] initWithStreamInput:self.audioInputStream];// 通过配置类和录音类信息获取微软识别器self.recognizer = [[SPXSpeechRecognizer alloc] initWithSpeechConfiguration:speechConfig audioConfiguration:audioConfig];// 定义已识别事件的处理函数[self.recognizer addRecognizedEventHandler:^(SPXSpeechRecognizer *recognizer, SPXSpeechRecognitionEventArgs *eventArgs) {NSString *recognizedText = eventArgs.result.text;NSLog(@"Final recognized text: %@", recognizedText);// 在这里处理最终识别结果[self.speechToTextResult appendFormat:recognizedText];}];// 定义识别中事件的处理函数[self.recognizer addRecognizingEventHandler:^(SPXSpeechRecognizer *recognizer, SPXSpeechRecognitionEventArgs *eventArgs) {NSString *intermediateText = eventArgs.result.text;NSLog(@"Intermediate recognized text: %@", intermediateText);// 在这里处理中间识别结果}];// 定义取消事件的处理函数[self.recognizer addCanceledEventHandler:^(SPXSpeechRecognizer *recognizer, SPXSpeechRecognitionCanceledEventArgs *eventArgs) {NSLog(@"Recognition canceled. Reason: %ld", (long)eventArgs.reason);if (eventArgs.errorDetails != nil) {NSLog(@"Error details: %@", eventArgs.errorDetails);}}];}
- (void)startRecording{ [self.recognizer startContinuousRecognition];
}
- (void)stopRecording{ [self.recognizer stopContinuousRecognition];
}
// 
// 数据处理回调函数
void HandleInputBuffer(void *aqData, AudioQueueRef inAQ, AudioQueueBufferRef inBuffer, const AudioTimeStamp *inStartTime, UInt32 inNumPackets, const AudioStreamPacketDescription *inPacketDesc) {// 在回掉函数中，将数据传递给微软，上面的回掉函数中就能拿到数据了[self.audioInputStream write:audioData];
}

保存文件

• 保存文件相对简单，录音开始清除上一次的音频文件，创建新的音频文件
• WAV文件需要添加头文件，才能正常播放

#import "SaveAudioFile.h"#define isValidString(string)               (string && [string isEqualToString:@""] == NO)
// WAV 文件头结构
typedef struct {char riff[4];UInt32 fileSize;char wave[4];char fmt[4];UInt32 fmtSize;UInt16 formatTag;UInt16 channels;UInt32 samplesPerSec;UInt32 avgBytesPerSec;UInt16 blockAlign;UInt16 bitsPerSample;char data[4];UInt32 dataSize;
} WAVHeader;@implementation SaveAudioFile
/*** 清理文件*/
- (void)cleanFile {if (isValidString(self.mp3Path)) {NSFileManager *fileManager = [NSFileManager defaultManager];BOOL isDir = FALSE;BOOL isDirExist = [fileManager fileExistsAtPath:self.mp3Path isDirectory:&isDir];if (isDirExist) {[fileManager removeItemAtPath:self.mp3Path error:nil];NSLog(@"  xxx.mp3  file   already delete");}}if (isValidString(self.wavPath)) {NSFileManager *fileManager = [NSFileManager defaultManager];BOOL isDir = FALSE;BOOL isDirExist = [fileManager fileExistsAtPath:self.wavPath isDirectory:&isDir];if (isDirExist) {[fileManager removeItemAtPath:self.wavPath error:nil];NSLog(@"  xxx.caf  file   already delete");}}
}
/***  取得录音文件保存路径**  @return 录音文件路径*/
-(NSURL *)getSavePath{//  在Documents目录下创建一个名为FileData的文件夹NSString *path = [[NSSearchPathForDirectoriesInDomains(NSDocumentDirectory, NSUserDomainMask, YES)lastObject] stringByAppendingPathComponent:@"AudioData"];NSLog(@"%@",path);NSFileManager *fileManager = [NSFileManager defaultManager];BOOL isDir = FALSE;BOOL isDirExist = [fileManager fileExistsAtPath:path isDirectory:&isDir];if(!(isDirExist && isDir)){BOOL bCreateDir = [fileManager createDirectoryAtPath:path withIntermediateDirectories:YES attributes:nil error:nil];if(!bCreateDir){NSLog(@"创建文件夹失败！");}NSLog(@"创建文件夹成功，文件路径%@",path);}NSString *fileName = @"record";NSString *wavFileName = [NSString stringWithFormat:@"%@.wav", fileName];NSString *mp3FileName = [NSString stringWithFormat:@"%@.mp3", fileName];NSString *wavPath = [path stringByAppendingPathComponent:wavFileName];NSString *mp3Path = [path stringByAppendingPathComponent:mp3FileName];self.wavPath = wavPath;self.mp3Path = mp3Path;NSLog(@"file path:%@",mp3Path);NSURL *url=[NSURL fileURLWithPath:mp3Path];return url;
}-(void) startWritingHeaders {[self cleanFile];[self getSavePath];// 写入 WAV 头部WAVHeader header;memcpy(header.riff, "RIFF", 4);header.fileSize = 0;  // 将在录音结束时填充memcpy(header.wave, "WAVE", 4);memcpy(header.fmt, "fmt ", 4);header.fmtSize = 16;header.formatTag = 1;  // PCMheader.channels = 1;header.samplesPerSec = 16000;header.avgBytesPerSec = 16000 * 2;header.blockAlign = 2;header.bitsPerSample = 16;memcpy(header.data, "data", 4);header.dataSize = 0;  // 将在录音结束时填充// 创建 WAV 文件API[[NSFileManager defaultManager] createFileAtPath:self.wavPath contents:nil attributes:nil];self.audioFileHandle = [NSFileHandle fileHandleForWritingAtPath:self.wavPath];[self.audioFileHandle writeData:[NSData dataWithBytes:&header length:sizeof(header)]];// 创建 mp3 文件API[[NSFileManager defaultManager] createFileAtPath:self.mp3Path contents:nil attributes:nil];self.audioFileHandle2 = [NSFileHandle fileHandleForWritingAtPath:self.mp3Path];
}
- (void) saveAudioFile: (NSData *) data type:(NSString *) type{if([type isEqualToString:@"wav"]){// 写入音频数据到 WAV 文件[self.audioFileHandle writeData:data];}else{// 拿到编码过后的数据，保存到本地[self.audioFileHandle2 writeData:data];}
}
@end

利用Lame库编码PCM数据

• 下载Lame库并导入项目中操作，参考网上文章https://www.cnblogs.com/XYQ-208910/p/7650759.html
• lame库的使用主要分成3部分
  • 初始化Lame 并设置比特率，位深，通道数，压缩程度
  • 传入原始的音频数据，得到编码过后的mp3音频数据
  • 结束时刷新lame中还剩的数据，关闭Lame

//
//  LameEncoderMp3.m
//  SpeechUntil
//
//  Created by 肖鹏程 on 2024/7/25.
//#import "LameEncoderMp3.h"@implementation LameEncoderMp3- (void) settingFormat:(int)sampleRate channels:(int)channels{// 初始化lame编码器 设置格式self.lame = lame_init();lame_set_in_samplerate(self.lame, sampleRate);lame_set_num_channels(self.lame, channels);lame_set_brate(self.lame, 16); // 比特率128 kbpslame_set_mode(self.lame, channels == 1 ? MONO : STEREO);lame_set_quality(self.lame, 7); // 0 = 最高质量（最慢），9 = 最低质量（最快）lame_init_params(self.lame);self.channels = channels;};
- (NSData *)encodePCMToMP3:(NSData *)pcmData{// PCM数据的指针和长度const short *pcmBuffer = (const short *)[pcmData bytes];int pcmLength = (int)[pcmData length] / sizeof(short);NSLog(@"pcmLength %lu", [pcmData length]);// 分配MP3缓冲区int mp3BufferSize = (int)(1.25 * pcmLength) + 7200;unsigned char *mp3Buffer = (unsigned char *)malloc(mp3BufferSize);// 确保mp3Buffer分配成功if (mp3Buffer == NULL) {NSLog(@"Failed to allocate memory for MP3 buffer");return nil;}// PCM编码为MP3// 注意这个是单通道的方法，如果是双通道调用这个lame_encode_buffer_interleaved(//   lame,//   recordingData,//   numSamples / 2,  // 双声道//   mp3Buffer,//   mp3BufferSize);int mp3Length = lame_encode_buffer(self.lame, (short *)pcmBuffer, (short *)pcmBuffer,pcmLength, mp3Buffer, mp3BufferSize);if (mp3Length < 0) {NSLog(@"LAME encoding error: %d", mp3Length);free(mp3Buffer);return nil;}// 创建MP3数据NSData *mp3Data = [NSData dataWithBytes:mp3Buffer length:mp3Length];NSLog(@"mp3Length %lu", [mp3Data length]);// 清理free(mp3Buffer);return mp3Data;
}- (NSData *) closeLame{// 刷新LAME缓冲区unsigned char mp3Buffer[7200];int flushLength = lame_encode_flush(self.lame, mp3Buffer, sizeof(mp3Buffer));NSData *flushData;if (flushLength > 0) {// 将刷新后的数据追加到已有的MP3数据flushData = [NSData dataWithBytes:mp3Buffer length:flushLength];} else if (flushLength < 0) {NSLog(@"LAME flushing error: %d", flushLength);}// 关闭lame_close(self.lame);return flushData;
}@end