#include <stdio.h> #include <stdlib.h> #include <lame.h> #define INBUFSIZE 4096 #define MP3BUFSIZE (int)(1.25 * INBUFSIZE) + 7200 int encode(char *inpath, char *outpath) { int status = 0; lame_global_flags *gfp; int ret_code; FILE *intfp; FILE *outfp; short *input_buffer; int input_samples; char *mp3_buffer; int mp3_bytes; /* Initialize the library.*/ gfp = lame_init(); if(gfp == NULL) { printf("lame_init returned NULL "); status = -1; goto exit; } /*Set the encoding parameters.*/ ret_code = lame_init_params(gfp); if(ret_code < 0) { printf("lame_init_params returned %d ", ret_code); status = -1; goto close_lame; } /*Open our input and output files.*/ intfp = fopen(inpath, "rb"); outfp = fopen(outpath, "wb"); /*Allocate some buffers.*/ input_buffer = (short*)malloc(INBUFSIZE *2); mp3_buffer = (char*)malloc(MP3BUFSIZE); /*Read from the input file, encode, and write to be output file.*/ do{ input_samples = fread(input_buffer, 2, INBUFSIZE, intfp); if(input_samples > 0) { mp3_bytes = lame_encode_buffer_interleaved( gfp, input_buffer, input_samples / 2, mp3_buffer, MP3BUFSIZE ); if(mp3_bytes < 0) { printf("lame_encode_buffer_interleaved returned %d ", mp3_bytes); status = -1; goto free_buffers; }else if(mp3_bytes > 0) { fwrite(mp3_buffer, 1, mp3_bytes, outfp); } } }while(input_samples == INBUFSIZE); /*Flush the encoder of any remaining bytes.*/ mp3_bytes = lame_encode_flush(gfp, mp3_buffer, sizeof(mp3_buffer)); if(mp3_bytes > 0) { printf("writing %d mp3 bytes ", mp3_bytes); fwrite(mp3_buffer, 1, mp3_bytes, outfp); } /*Clean up.*/ free_buffers: free(mp3_buffer); free(input_buffer); fclose(outfp); fclose(intfp); close_lame: lame_close(gfp); exit: return status; } int main(int argc, char * argv[]) { if(argc < 3) { printf("usage: clame rewinfile mp3outfile "); exit(1); } encode(argv[1], argv[2]); return 0; } /* // unix ro linux: gcc -I/usr/include/lame clame.c -lmp3lame -o clame //windows cl /IC:lame-3.98.2include clame.c C:lame-3.98.2libmp3lameReleaselibmp3lame.lib C:lame-3.98.2mpglibReleasempglib.lib */
#include <Python.h> #include <lame.h> /*defined in clame.c*/ int encode(char*, char*); static PyObject *pylame1_encode(PyObject *self, PyObject *args) { int status; char *inpath; char *outpath; if(!PyArg_ParseTuple(args,"ss", &inpath, &outpath)) { return NULL; } status = encode(inpath, outpath); return Py_BuildValue("i", status); //Py_RETURN_NONE; } static PyMethodDef pylame1_methods[] = { {"encode", (PyCFunction)pylame1_encode, METH_VARARGS, NULL}, {NULL, NULL, 0, NULL} }; PyMODINIT_FUNC initpylame1() { Py_InitModule3("pylame1", pylame1_methods, "My first LAME module."); } /* // unix ro linux: gcc -shared -I/usr/include/pyton3.1 -I/usr/include/lame pylame1.c clame.c -lmp3lame -o pylame1.so //windows cl /LD /IC:Pyton31include /IC:lame-3.98.2include pylame1.c clame.c C:Python31libspython31.lib C:lame-3.98.2libmp3lameReleaselibmp3lame.lib C:lame-3.98.2mpglibReleasempglib.lib */