Is there any LAME C++ wrapper\simplifier (working on Linux Mac and Win from pure code)?
I want to create simple pcm to mp3 C++ project. I want it to use LAME. I love LAME but it's really big. so I need some kind of OpenSource working from pure code with pure lame code workflow simplifier. So to say I give it File with PCM and DEST file. Call something like:
LameSimple.ToMP3(file with PCM, File with MP3 , 44100, 16, MP3, VBR);
ore such thing in 4 - 5 lines (examples of course should exist) and I have vhat I needed It should be light, simple, powerfool, opensour开发者_如何学编程ce, crossplatform.
Is there any thing like this?
Lame really isn't difficult to use, although there are a lot of optional configuration functions if you need them. It takes slightly more than 4-5 lines to encode a file, but not much more. Here is a working example I knocked together (just the basic functionality, no error checking):
#include <stdio.h>
#include <lame/lame.h>
int main(void)
{
int read, write;
FILE *pcm = fopen("file.pcm", "rb");
FILE *mp3 = fopen("file.mp3", "wb");
const int PCM_SIZE = 8192;
const int MP3_SIZE = 8192;
short int pcm_buffer[PCM_SIZE*2];
unsigned char mp3_buffer[MP3_SIZE];
lame_t lame = lame_init();
lame_set_in_samplerate(lame, 44100);
lame_set_VBR(lame, vbr_default);
lame_init_params(lame);
do {
read = fread(pcm_buffer, 2*sizeof(short int), PCM_SIZE, pcm);
if (read == 0)
write = lame_encode_flush(lame, mp3_buffer, MP3_SIZE);
else
write = lame_encode_buffer_interleaved(lame, pcm_buffer, read, mp3_buffer, MP3_SIZE);
fwrite(mp3_buffer, write, 1, mp3);
} while (read != 0);
lame_close(lame);
fclose(mp3);
fclose(pcm);
return 0;
}
inspired by Mike Seymour's answer I created a pure C++ wrapper which allows to encode / decode WAV and MP3 files in just 2 lines of code
convimp3::Codec::encode( "test.wav", "test.mp3" );
convimp3::Codec::decode( "test.mp3", "test_decoded.wav" );
no need to bother about sample rate, byte rate and number of channels - this info is obtained from WAV or MP3 file during encoding / decoding.
The library doesn't use old C i/o functions, but C++ streams only. I find it more elegant.
For convinience I created a very thin C++ wrapper over LAME and called it lameplus and a small library for extraction of sampling information from WAV files.
All files can be found here:
encoding/decoding: https://github.com/trodevel/convimp3
lameplus: https://github.com/trodevel/lameplus
wav handling: also on github, repository is wave
I have successfully used libmp3lame in the way mike seymour proposed. I am now trying to use the same approach using posix threads to speed up encoding. I am greating one lame_t pointer, and have several threads doing bits of the conversion, taking care that each thread has a unique bit of the pcm track that it transcodes.
I use one global lame_t structure that is used for the encoding in each thread. My code works for 1 thread (no parallel execution), it also works if I delay the thread creation in parallel mode (such that there is no parallel execution, but the data structures are arrays).
When I run my code in parallel mode, I get a lot of errors such as
Internal buffer inconsistency. flushbits <> ResvSizebit reservoir error:
l3_side->main_data_begin: 5440
Resvoir size: 4088
resv drain (post) 1
resv drain (pre) 184
header and sideinfo: 288
data bits: 1085
total bits: 1374 (remainder: 6)
bitsperframe: 3336
This is a fatal error. It has several possible causes:90% LAME compiled with buggy version of gcc using advanced optimizations 9% Your system is overclocked 1% bug in LAME encoding libraryfinished encoding
Internal buffer inconsistency. flushbits <> ResvSizefinished encoding
For referernce, I attach the code that I am using, that compiles just fine.
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <math.h>
#include <iostream>
#include <string>
#include <lame/lame.h>
#include <pthread.h>
#include <thread>
#include <chrono>
using namespace std;
typedef struct Data{
lame_t lame;
FILE * wav_file;
short int * pcm_buffer;
unsigned char * mp3_buffer;
unsigned long mp3_buffer_size;
unsigned long first_sample;
unsigned long n_samples;
unsigned long items_read;
unsigned long mp3_bytes_to_write;
pthread_mutex_t *mutexForReading;
} Data;
void *encode_chunk(void *arg)
{
Data * data = (Data *) arg;
unsigned long offset = 40 + 2 * 2 * data->first_sample;
pthread_mutex_lock(data->mutexForReading);
fseek(data->wav_file, offset, SEEK_SET);
data->items_read = fread(data->pcm_buffer, 2*sizeof(short int) , data->n_samples, data->wav_file);
cout << "first sample " << data->first_sample << " n_samples "<< data->n_samples << " items read " << data->items_read << " data address " << data << " mp3 a " << static_cast<void *> (data->mp3_buffer) << endl;
pthread_mutex_unlock(data->mutexForReading);
if (data->items_read != 0)
{
data->mp3_bytes_to_write = lame_encode_buffer_interleaved(data->lame,
data->pcm_buffer,
data->items_read,
data->mp3_buffer,
data->mp3_buffer_size);
}
cout << "finished encoding " << endl;
return NULL;
}
int main(int argc, char * argv[])
{
int read,write;
FILE *wav = fopen("test.wav", "rb");
FILE *mp3 = fopen("file.mp3", "wb");
fseek(wav,0,SEEK_END);
unsigned long file_size_wav = ftell(wav);
unsigned long bytes_PCM = file_size_wav - 40;
unsigned long n_total_samples = bytes_PCM / 4;
const unsigned long MAX_SAMPLE_NUMBER = pow(2,10);
const unsigned short NTHREADS = 2;
const unsigned long MAX_MP3_SIZE = int(MAX_SAMPLE_NUMBER * 1.25 + 7200) + 1;
short int pcm_buffer[NTHREADS][MAX_SAMPLE_NUMBER * 2]; // 2 channels
unsigned char mp3_buffer[NTHREADS][MAX_MP3_SIZE]; // according to libmp3lame api
lame_t lame = lame_init();
lame_set_in_samplerate(lame, 44100);
lame_set_VBR(lame, vbr_default);
// lame_set_brate(lame, 128); // only for CBR mode
// lame_set_quality(lame, 2);
// lame_set_mode(lame, JOINT_STEREO); // 1 joint stereo , 3 mono
lame_init_params(lame);
Data data_ptr[NTHREADS];
unsigned short n_main_loops = n_total_samples / MAX_SAMPLE_NUMBER / NTHREADS + 1;
cout << "total samples " << n_total_samples << endl;
cout << "Number of iterations in main loop : " << n_main_loops << endl;
unsigned long samples_remaining = n_total_samples;
unsigned long current_sample = 0;
pthread_t threadID[NTHREADS];
pthread_mutex_t mutexForReading = PTHREAD_MUTEX_INITIALIZER;
for (unsigned long i = 0 ; i < n_main_loops; i ++)
{
for (unsigned short j = 0; j < NTHREADS; j++ )
{
Data data;
data.lame = lame;
data.wav_file = wav;
data.pcm_buffer = pcm_buffer[j];
data.mp3_buffer = mp3_buffer[j];
data.first_sample = current_sample;
data.n_samples = min(MAX_SAMPLE_NUMBER, n_total_samples - current_sample);
data.mutexForReading = &mutexForReading;
current_sample += data.n_samples;
samples_remaining -= data.n_samples;
data_ptr[j] = data;
if (data_ptr[j].n_samples > 0)
{
cout << "creating " << i << " " << j << " " << data_ptr[j].first_sample << " " << data_ptr[j].n_samples << endl;
pthread_create( &threadID[j],
NULL,
encode_chunk,
(void *) (&data_ptr[j]));
}
}
for (unsigned short j = 0; j < NTHREADS; j++)
{
if (data_ptr[j].n_samples > 0)
{
pthread_join( threadID[j], NULL);
}
}
for (unsigned short j = 0; j< NTHREADS; j++)
if (data_ptr[j].n_samples > 0)
{
fwrite(data_ptr[j].mp3_buffer, data_ptr[j].mp3_bytes_to_write, 1, mp3);
}
else
{
data_ptr[j].mp3_bytes_to_write = lame_encode_flush(lame, data_ptr[j].mp3_buffer, data_ptr[j].mp3_buffer_size);
}
}
lame_close(lame);
fclose(mp3);
fclose(wav);
}
Maybe someone knows if lame can not be used in this way in parallel code. I did not find any hints if this is possible or not.
The problem seems to be that the global lame_t structure is accessed by several threads at the same time. I thought that this would only be reading, so no problem, but I seem to be mistaken.
I also thought that a workaround might be to create a lame_t object for each thread. I tried that, using the threads to encode mutually exclusive bits of the original wav file.
The code compiles and runs without problems, but the resulting file contains no sound.
If anyone is interested, I can add the code. It is just a minor modification of the above code with lame_t being an array of size NTHREADS.
I got this to work by changing 41000 to around 8000:
lame_set_in_samplerate(lame, 44100);
to
lame_set_in_samplerate(lame, 8000);
And compiled prog.c with:
gcc prog.c -lmp3lame -o prog
The file.pcm does not sound good as file.mp3. I got a perfect conversion when I used this bash command:
lame -V 5 file.wav file.mp3
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