/* -*- mode: C; mode: fold -*- */ /* * LAME MP3 encoding engine * * Copyright (c) 1999-2000 Mark Taylor * Copyright (c) 2003 Olcios * Copyright (c) 2008 Robert Hegemann * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* $Id: mpglib_interface.c,v 1.44 2012/02/18 13:09:00 robert Exp $ */ #ifdef HAVE_CONFIG_H # include #endif #ifdef HAVE_MPGLIB #define hip_global_struct mpstr_tag #include "lame.h" #include "machine.h" #include "encoder.h" #include "interface.h" #include "util.h" #if DEPRECATED_OR_OBSOLETE_CODE_REMOVED /* * OBSOLETE: * - kept to let it link * - forward declaration to silence compiler */ int CDECL lame_decode_init(void); int CDECL lame_decode( unsigned char * mp3buf, int len, short pcm_l[], short pcm_r[] ); int CDECL lame_decode_headers( unsigned char* mp3buf, int len, short pcm_l[], short pcm_r[], mp3data_struct* mp3data ); int CDECL lame_decode1( unsigned char* mp3buf, int len, short pcm_l[], short pcm_r[] ); int CDECL lame_decode1_headers( unsigned char* mp3buf, int len, short pcm_l[], short pcm_r[], mp3data_struct* mp3data ); int CDECL lame_decode1_headersB( unsigned char* mp3buf, int len, short pcm_l[], short pcm_r[], mp3data_struct* mp3data, int *enc_delay, int *enc_padding ); int CDECL lame_decode_exit(void); #endif static MPSTR mp; int lame_decode_exit(void) { ExitMP3(&mp); return 0; } int lame_decode_init(void) { (void) InitMP3(&mp); return 0; } /* copy mono samples */ #define COPY_MONO(DST_TYPE, SRC_TYPE) \ DST_TYPE *pcm_l = (DST_TYPE *)pcm_l_raw; \ SRC_TYPE const *p_samples = (SRC_TYPE const *)p; \ for (i = 0; i < processed_samples; i++) \ *pcm_l++ = (DST_TYPE)(*p_samples++); /* copy stereo samples */ #define COPY_STEREO(DST_TYPE, SRC_TYPE) \ DST_TYPE *pcm_l = (DST_TYPE *)pcm_l_raw, *pcm_r = (DST_TYPE *)pcm_r_raw; \ SRC_TYPE const *p_samples = (SRC_TYPE const *)p; \ for (i = 0; i < processed_samples; i++) { \ *pcm_l++ = (DST_TYPE)(*p_samples++); \ *pcm_r++ = (DST_TYPE)(*p_samples++); \ } /* * For lame_decode: return code * -1 error * 0 ok, but need more data before outputing any samples * n number of samples output. either 576 or 1152 depending on MP3 file. */ static int decode1_headersB_clipchoice(PMPSTR pmp, unsigned char *buffer, size_t len, char pcm_l_raw[], char pcm_r_raw[], mp3data_struct * mp3data, int *enc_delay, int *enc_padding, char *p, size_t psize, int decoded_sample_size, int (*decodeMP3_ptr) (PMPSTR, unsigned char *, int, char *, int, int *)) { static const int smpls[2][4] = { /* Layer I II III */ {0, 384, 1152, 1152}, /* MPEG-1 */ {0, 384, 1152, 576} /* MPEG-2(.5) */ }; int processed_bytes; int processed_samples; /* processed samples per channel */ int ret; int i; int const len_l = len < INT_MAX ? (int) len : INT_MAX; int const psize_l = psize < INT_MAX ? (int) psize : INT_MAX; mp3data->header_parsed = 0; ret = (*decodeMP3_ptr) (pmp, buffer, len_l, p, psize_l, &processed_bytes); /* three cases: * 1. headers parsed, but data not complete * pmp->header_parsed==1 * pmp->framesize=0 * pmp->fsizeold=size of last frame, or 0 if this is first frame * * 2. headers, data parsed, but ancillary data not complete * pmp->header_parsed==1 * pmp->framesize=size of frame * pmp->fsizeold=size of last frame, or 0 if this is first frame * * 3. frame fully decoded: * pmp->header_parsed==0 * pmp->framesize=0 * pmp->fsizeold=size of frame (which is now the last frame) * */ if (pmp->header_parsed || pmp->fsizeold > 0 || pmp->framesize > 0) { mp3data->header_parsed = 1; mp3data->stereo = pmp->fr.stereo; mp3data->samplerate = freqs[pmp->fr.sampling_frequency]; mp3data->mode = pmp->fr.mode; mp3data->mode_ext = pmp->fr.mode_ext; mp3data->framesize = smpls[pmp->fr.lsf][pmp->fr.lay]; /* free format, we need the entire frame before we can determine * the bitrate. If we haven't gotten the entire frame, bitrate=0 */ if (pmp->fsizeold > 0) /* works for free format and fixed, no overrun, temporal results are < 400.e6 */ mp3data->bitrate = 8 * (4 + pmp->fsizeold) * mp3data->samplerate / (1.e3 * mp3data->framesize) + 0.5; else if (pmp->framesize > 0) mp3data->bitrate = 8 * (4 + pmp->framesize) * mp3data->samplerate / (1.e3 * mp3data->framesize) + 0.5; else mp3data->bitrate = tabsel_123[pmp->fr.lsf][pmp->fr.lay - 1][pmp->fr.bitrate_index]; if (pmp->num_frames > 0) { /* Xing VBR header found and num_frames was set */ mp3data->totalframes = pmp->num_frames; mp3data->nsamp = mp3data->framesize * pmp->num_frames; *enc_delay = pmp->enc_delay; *enc_padding = pmp->enc_padding; } } switch (ret) { case MP3_OK: switch (pmp->fr.stereo) { case 1: processed_samples = processed_bytes / decoded_sample_size; if (decoded_sample_size == sizeof(short)) { COPY_MONO(short, short) } else { COPY_MONO(sample_t, FLOAT) } break; case 2: processed_samples = (processed_bytes / decoded_sample_size) >> 1; if (decoded_sample_size == sizeof(short)) { COPY_STEREO(short, short) } else { COPY_STEREO(sample_t, FLOAT) } break; default: processed_samples = -1; assert(0); break; } break; case MP3_NEED_MORE: processed_samples = 0; break; case MP3_ERR: processed_samples = -1; break; default: processed_samples = -1; assert(0); break; } /*fprintf(stderr,"ok, more, err: %i %i %i\n", MP3_OK, MP3_NEED_MORE, MP3_ERR ); */ /*fprintf(stderr,"ret = %i out=%i\n", ret, processed_samples ); */ return processed_samples; } #define OUTSIZE_CLIPPED (4096*sizeof(short)) int lame_decode1_headersB(unsigned char *buffer, int len, short pcm_l[], short pcm_r[], mp3data_struct * mp3data, int *enc_delay, int *enc_padding) { static char out[OUTSIZE_CLIPPED]; return decode1_headersB_clipchoice(&mp, buffer, len, (char *) pcm_l, (char *) pcm_r, mp3data, enc_delay, enc_padding, out, OUTSIZE_CLIPPED, sizeof(short), decodeMP3); } /* * For lame_decode: return code * -1 error * 0 ok, but need more data before outputing any samples * n number of samples output. Will be at most one frame of * MPEG data. */ int lame_decode1_headers(unsigned char *buffer, int len, short pcm_l[], short pcm_r[], mp3data_struct * mp3data) { int enc_delay, enc_padding; return lame_decode1_headersB(buffer, len, pcm_l, pcm_r, mp3data, &enc_delay, &enc_padding); } int lame_decode1(unsigned char *buffer, int len, short pcm_l[], short pcm_r[]) { mp3data_struct mp3data; return lame_decode1_headers(buffer, len, pcm_l, pcm_r, &mp3data); } /* * For lame_decode: return code * -1 error * 0 ok, but need more data before outputing any samples * n number of samples output. a multiple of 576 or 1152 depending on MP3 file. */ int lame_decode_headers(unsigned char *buffer, int len, short pcm_l[], short pcm_r[], mp3data_struct * mp3data) { int ret; int totsize = 0; /* number of decoded samples per channel */ for (;;) { switch (ret = lame_decode1_headers(buffer, len, pcm_l + totsize, pcm_r + totsize, mp3data)) { case -1: return ret; case 0: return totsize; default: totsize += ret; len = 0; /* future calls to decodeMP3 are just to flush buffers */ break; } } } int lame_decode(unsigned char *buffer, int len, short pcm_l[], short pcm_r[]) { mp3data_struct mp3data; return lame_decode_headers(buffer, len, pcm_l, pcm_r, &mp3data); } hip_t hip_decode_init(void) { hip_t hip = lame_calloc(hip_global_flags, 1); InitMP3(hip); return hip; } int hip_decode_exit(hip_t hip) { if (hip) { ExitMP3(hip); free(hip); } return 0; } /* we forbid input with more than 1152 samples per channel for output in the unclipped mode */ #define OUTSIZE_UNCLIPPED (1152*2*sizeof(FLOAT)) int hip_decode1_unclipped(hip_t hip, unsigned char *buffer, size_t len, sample_t pcm_l[], sample_t pcm_r[]) { static char out[OUTSIZE_UNCLIPPED]; mp3data_struct mp3data; int enc_delay, enc_padding; if (hip) { return decode1_headersB_clipchoice(hip, buffer, len, (char *) pcm_l, (char *) pcm_r, &mp3data, &enc_delay, &enc_padding, out, OUTSIZE_UNCLIPPED, sizeof(FLOAT), decodeMP3_unclipped); } return 0; } /* * For hip_decode: return code * -1 error * 0 ok, but need more data before outputing any samples * n number of samples output. Will be at most one frame of * MPEG data. */ int hip_decode1_headers(hip_t hip, unsigned char *buffer, size_t len, short pcm_l[], short pcm_r[], mp3data_struct * mp3data) { int enc_delay, enc_padding; return hip_decode1_headersB(hip, buffer, len, pcm_l, pcm_r, mp3data, &enc_delay, &enc_padding); } int hip_decode1(hip_t hip, unsigned char *buffer, size_t len, short pcm_l[], short pcm_r[]) { mp3data_struct mp3data; return hip_decode1_headers(hip, buffer, len, pcm_l, pcm_r, &mp3data); } /* * For hip_decode: return code * -1 error * 0 ok, but need more data before outputing any samples * n number of samples output. a multiple of 576 or 1152 depending on MP3 file. */ int hip_decode_headers(hip_t hip, unsigned char *buffer, size_t len, short pcm_l[], short pcm_r[], mp3data_struct * mp3data) { int ret; int totsize = 0; /* number of decoded samples per channel */ for (;;) { switch (ret = hip_decode1_headers(hip, buffer, len, pcm_l + totsize, pcm_r + totsize, mp3data)) { case -1: return ret; case 0: return totsize; default: totsize += ret; len = 0; /* future calls to decodeMP3 are just to flush buffers */ break; } } } int hip_decode(hip_t hip, unsigned char *buffer, size_t len, short pcm_l[], short pcm_r[]) { mp3data_struct mp3data; return hip_decode_headers(hip, buffer, len, pcm_l, pcm_r, &mp3data); } int hip_decode1_headersB(hip_t hip, unsigned char *buffer, size_t len, short pcm_l[], short pcm_r[], mp3data_struct * mp3data, int *enc_delay, int *enc_padding) { static char out[OUTSIZE_CLIPPED]; if (hip) { return decode1_headersB_clipchoice(hip, buffer, len, (char *) pcm_l, (char *) pcm_r, mp3data, enc_delay, enc_padding, out, OUTSIZE_CLIPPED, sizeof(short), decodeMP3); } return -1; } void hip_set_pinfo(hip_t hip, plotting_data* pinfo) { if (hip) { hip->pinfo = pinfo; } } void hip_set_errorf(hip_t hip, lame_report_function func) { if (hip) { hip->report_err = func; } } void hip_set_debugf(hip_t hip, lame_report_function func) { if (hip) { hip->report_dbg = func; } } void hip_set_msgf (hip_t hip, lame_report_function func) { if (hip) { hip->report_msg = func; } } #endif /* end of mpglib_interface.c */