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1.playAudio.h
声明了一个Objective-C类
//
// playAudio.h
// ffmpegPlayAudio
//
// Created by infomedia xuanyuanchen on 12-3-26.
// Copyright (c) 2012年 xuanyuanchen. All rights reserved.
//
#import <Foundation/Foundation.h>
#import <AudioToolbox/AudioToolbox.h>
#import <AudioToolbox/AudioFile.h>
#define NUM_BUFFERS 3
@interface playAudio : NSObject{
//播放音频文件ID
AudioFileID audioFile;
//音频流描述对象
AudioStreamBasicDescription dataFormat;
//音频队列
AudioQueueRef queue;
SInt64 packetIndex;
UInt32 numPacketsToRead;
UInt32 bufferByteSize;
AudioStreamPacketDescription *packetDescs;
AudioQueueBufferRef buffers[NUM_BUFFERS];
}
//定义队列为实例属性
@property AudioQueueRef queue;
//播放方法定义
-(id)initWithAudio:(NSString *) path;
//定义缓存数据读取方法
-(void) audioQueueOutputWithQueue:(AudioQueueRef)audioQueue
queueBuffer:(AudioQueueBufferRef)audioQueueBuffer;
-(UInt32)readPacketsIntoBuffer:(AudioQueueBufferRef)buffer;
//定义回调(Callback)函数
static void BufferCallack(void *inUserData,AudioQueueRef inAQ,
AudioQueueBufferRef buffer);
@end
2.playAudio.m
playAudio的实现
//
// playAudio.m
// ffmpegPlayAudio
//
// Created by infomedia infomedia on 12-3-26.
// Copyright (c) 2012年 infomedia. All rights reserved.
//
#import "playAudio.h"
//实际测试中发现,这个gBufferSizeBytes=0x10000;对于压缩的音频格式(mp3/aac等)没有任何问题,但是如果输入的音频 文件格式是wav,会出现只播放几秒便暂停的现象;而手机又不可能去申请更大的内存去处理wav文件,不知到大家能有什么好的方法给点建议
static UInt32 gBufferSizeBytes=0x10000;//It muse be pow(2,x)
@implementation playAudio
@synthesize queue;
//回调函数(Callback)的实现
static void BufferCallback(void *inUserData,AudioQueueRef inAQ,
AudioQueueBufferRef buffer){
playAudio* player=(__bridge playAudio*)inUserData;
[player audioQueueOutputWithQueue:inAQ queueBuffer:buffer];
}
//缓存数据读取方法的实现
-(void) audioQueueOutputWithQueue:(AudioQueueRef)audioQueue queueBuffer:(AudioQueueBufferRef)audioQueueBuffer{
OSStatus status;
//读取包数据www.2cto.com
UInt32 numBytes;
UInt32 numPackets=numPacketsToRead;
status = AudioFileReadPackets(audioFile, NO, &numBytes, packetDescs, packetIndex,&numPackets, audioQueueBuffer->mAudioData);
//成功读取时
if (numPackets>0) {
//将缓冲的容量设置为与读取的音频数据一样大小(确保内存空间)
audioQueueBuffer->mAudioDataByteSize=numBytes;
//完成给队列配置缓存的处理
status = AudioQueueEnqueueBuffer(audioQueue, audioQueueBuffer, numPackets, packetDescs);
//移动包的位置
packetIndex += numPackets;
}
}
//音频播放的初始化、实现
//在ViewController中声明一个PlayAudio对象,并用下面的方法来初始化
//self.audio=[[playAudioalloc]initWithAudio:@"/Users/xuanyuanchen/audio/daolang.mp3"];
-(id) initWithAudio:(NSString *)path{
if (!(self=[super init])) return nil;
UInt32 size,maxPacketSize;
char *cookie;
int i;
OSStatus status;
//打开音频文件
status=AudioFileOpenURL((CFURLRef)[NSURL fileURLWithPath:path], kAudioFileReadPermission, 0, &audioFile);
if (status != noErr) {
//错误处理
NSLog(@"*** Error *** PlayAudio - play:Path: could not open audio file. Path given was: %@", path);
return nil;
}
for (int i=0; i<NUM_BUFFERS; i++) {
AudioQueueEnqueueBuffer(queue, buffers[i], 0, nil);
}
//取得音频数据格式
size = sizeof(dataFormat);
AudioFileGetProperty(audioFile, kAudioFilePropertyDataFormat, &size, &dataFormat);
//创建播放用的音频队列
AudioQueueNewOutput(&dataFormat, BufferCallback, self,
nil, nil, 0, &queue);
//计算单位时间包含的包数
if (dataFormat.mBytesPerPacket==0 || dataFormat.mFramesPerPacket==0) {
size=sizeof(maxPacketSize);
AudioFileGetProperty(audioFile, kAudioFilePropertyPacketSizeUpperBound, &size, &maxPacketSize);
if (maxPacketSize > gBufferSizeBytes) {
maxPacketSize= gBufferSizeBytes;
}
//算出单位时间内含有的包数
numPacketsToRead = gBufferSizeBytes/maxPacketSize;
packetDescs=malloc(sizeof(AudioStreamPacketDescription)*numPacketsToRead);
}else {
numPacketsToRead= gBufferSizeBytes/dataFormat.mBytesPerPacket;
packetDescs=nil;
}
//设置Magic Cookie,参见第二十七章的相关介绍
AudioFileGetProperty(audioFile, kAudioFilePropertyMagicCookieData, &size, nil);
if (size >0) {
cookie=malloc(sizeof(char)*size);
AudioFileGetProperty(audioFile, kAudioFilePropertyMagicCookieData, &size, cookie);
AudioQueueSetProperty(queue, kAudioQueueProperty_MagicCookie, cookie, size);
}
//创建并分配缓冲空间
packetIndex=0;
for (i=0; i<NUM_BUFFERS; i++) {
AudioQueueAllocateBuffer(queue, gBufferSizeBytes, &buffers[i]);
//读取包数据
if ([self readPacketsIntoBuffer:buffers[i]]==1) {
break;
}
}
Float32 gain=1.0;
//设置音量
AudioQueueSetParameter(queue, kAudioQueueParam_Volume, gain);
//队列处理开始,此后系统开始自动调用回调(Callback)函数
AudioQueueStart(queue, nil);
return self;
}
-(UInt32)readPacketsIntoBuffer:(AudioQueueBufferRef)buffer {
UInt32 numBytes,numPackets;
//从文件中接受数据并保存到缓存(buffer)中
numPackets = numPacketsToRead;
AudioFileReadPackets(audioFile, NO, &numBytes, packetDescs, packetIndex, &numPackets, buffer->mAudioData);
if(numPackets >0){
buffer->mAudioDataByteSize=numBytes;
AudioQueueEnqueueBuffer(queue, buffer, (packetDescs ? numPackets : 0), packetDescs);
packetIndex += numPackets;
}
else{
return 1;//意味着我们没有读到任何的包
}
return 0;//0代表正常的退出
}
@end
这里只是实现了最简单的通过AudioQueue播放音频文件。代码写的比较简洁,相信搭建应该都能理解吧。
摘自http://www.2cto.com/kf/201204/126390.html
来源:oschina
链接:https://my.oschina.net/u/1459506/blog/204117