" 29: MPEG-4 HE-AAC v2 (SBR+PS)\n"
" 23: MPEG-4 AAC LD\n"
" 39: MPEG-4 AAC ELD\n"
-" 129: MPEG-2 AAC LC\n"
-" 132: MPEG-2 HE-AAC (SBR)\n"
-" 156: MPEG-2 HE-AAC v2 (SBR+PS)\n"
" -b, --bitrate <n> Bitrate in bits per seconds (for CBR)\n"
" -m, --bitrate-mode <n> Bitrate configuration\n"
" 0: CBR (default)\n"
params->afterburner = 1;
aacenc_getmainargs(&argc, &argv);
- while ((ch = getopt_long(argc, argv, "hp:b:m:w:a:Ls:f:CP:G:Io:SR",
+ while ((ch = getopt_long(argc, argv, "hp:b:m:w:a:L:s:f:CP:G:Io:SR",
long_options, 0)) != EOF) {
switch (ch) {
case 'h':
return 0;
}
+static int do_smart_padding(int profile)
+{
+ return profile == 2 || profile == 5 || profile == 29;
+}
+
static
int encode(aacenc_param_ex_t *params, pcm_reader_t *reader,
HANDLE_AACENCODER encoder, uint32_t frame_length,
int frames_written = 0, encoded = 0;
aacenc_progress_t progress = { 0 };
const pcm_sample_description_t *fmt = pcm_get_format(reader);
+ const int is_padding = do_smart_padding(params->profile);
ibuf = malloc(frame_length * fmt->bytes_per_frame);
aacenc_progress_init(&progress, pcm_get_length(reader), fmt->sample_rate);
for (;;) {
- /*
- * Since we delay the write, we cannot just exit loop when interrupted.
- * Instead, we regard it as EOF.
- */
if (g_interrupted)
nread = 0;
if (nread > 0) {
remaining -= consumed;
ip += consumed * fmt->channels_per_frame;
- flip ^= 1;
+ if (is_padding) {
/*
* As we pad 1 frame at beginning and ending by our extrapolator,
* we want to drop them.
* Since sbr_header is included in the first frame (in case of
* SBR), we cannot discard first frame. So we pick second instead.
*/
- ++encoded;
- if (encoded == 1 || encoded == 3)
- continue;
- obp = &obuf[flip];
- if (write_sample(params->output_fp, m4af, obp) < 0)
+ flip ^= 1;
+ ++encoded;
+ if (encoded == 1 || encoded == 3)
+ continue;
+ }
+ if (write_sample(params->output_fp, m4af, &obuf[flip]) < 0)
goto END;
++frames_written;
} while (remaining > 0);
}
DONE:
+ /*
+ * When interrupted, we haven't pulled out last extrapolated frames
+ * from the reader. Therefore, we have to write the final outcome.
+ */
+ if (g_interrupted) {
+ if (write_sample(params->output_fp, m4af, &obp[flip^1]) < 0)
+ goto END;
+ ++frames_written;
+ }
if (!params->silent)
aacenc_progress_finish(&progress, pcm_get_position(reader));
rc = frames_written;
{
pcm_io_context_t io = { 0 };
pcm_reader_t *reader = 0;
- struct stat stb = { 0 };
if ((params->input_fp = aacenc_fopen(params->input_filename, "rb")) == 0) {
aacenc_fprintf(stderr, "ERROR: %s: %s\n", params->input_filename,
goto FAIL;
}
io.cookie = params->input_fp;
- if (fstat(fileno(params->input_fp), &stb) == 0
- && (stb.st_mode & S_IFMT) == S_IFREG)
+ if (aacenc_seekable(params->input_fp))
io.vtbl = &pcm_io_vtbl;
else
io.vtbl = &pcm_io_vtbl_noseek;
reader = pcm_open_native_converter(reader);
if (reader && PCM_IS_FLOAT(pcm_get_format(reader)))
reader = limiter_open(reader);
- if (reader && (reader = pcm_open_sint16_converter(reader)) != 0)
- reader = extrapolater_open(reader);
+ if (reader && (reader = pcm_open_sint16_converter(reader)) != 0) {
+ if (do_smart_padding(params->profile))
+ reader = extrapolater_open(reader);
+ }
return reader;
FAIL:
return 0;
params.sbr_ratio = 2;
}
scale_shift = aacenc_is_dual_rate_sbr((aacenc_param_t*)¶ms);
- params.sbr_signaling =
- (params.transport_format == TT_MP4_LOAS) ? 2 :
- (params.transport_format == TT_MP4_RAW) ? 1 : 0;
- if (sbr_mode && !scale_shift)
- params.sbr_signaling = 2;
-
+ params.sbr_signaling = 0;
+ if (sbr_mode) {
+ if (params.transport_format == TT_MP4_LOAS || !scale_shift)
+ params.sbr_signaling = 2;
+ if (params.transport_format == TT_MP4_RAW &&
+ aacenc_is_explicit_bw_compatible_sbr_signaling_available())
+ params.sbr_signaling = 1;
+ }
if (aacenc_init(&encoder, (aacenc_param_t*)¶ms, sample_format,
&aacinfo) < 0)
goto END;
if ((m4af = m4af_create(M4AF_CODEC_MP4A, scale, &m4af_io,
params.output_fp)) < 0)
goto END;
- m4af_set_decoder_specific_info(m4af, 0,
- aacinfo.confBuf, aacinfo.confSize);
+ m4af_set_num_channels(m4af, 0, sample_format->channels_per_frame);
m4af_set_fixed_frame_duration(m4af, 0, framelen >> scale_shift);
+ if (aacenc_is_explicit_bw_compatible_sbr_signaling_available())
+ m4af_set_decoder_specific_info(m4af, 0,
+ aacinfo.confBuf, aacinfo.confSize);
+ else {
+ uint8_t mp4asc[32];
+ uint32_t ascsize = sizeof(mp4asc);
+ aacenc_mp4asc((aacenc_param_t*)¶ms, aacinfo.confBuf,
+ aacinfo.confSize, mp4asc, &ascsize);
+ m4af_set_decoder_specific_info(m4af, 0, mp4asc, ascsize);
+ }
m4af_set_vbr_mode(m4af, 0, params.bitrate_mode);
m4af_set_priming_mode(m4af, params.gapless_mode + 1);
m4af_begin_write(m4af);
}
- if (scale_shift && (aacinfo.encoderDelay & 1)) {
- /*
- * Since odd delay cannot be exactly expressed in downsampled scale,
- * we push one zero frame to the encoder here, to make delay even
- */
- int16_t zero[8] = { 0 };
- aacenc_frame_t frame = { 0 };
- aac_encode_frame(encoder, sample_format, zero, 1, &frame);
- free(frame.data);
- }
frame_count = encode(¶ms, reader, encoder, aacinfo.frameLength, m4af);
if (frame_count < 0)
goto END;
if (m4af) {
- uint32_t delay = aacinfo.encoderDelay;
uint32_t padding;
+#if AACENCODER_LIB_VL0 < 4
+ uint32_t delay = aacinfo.encoderDelay;
+ if (sbr_mode && params.profile != AOT_ER_AAC_ELD
+ && !params.include_sbr_delay)
+ delay -= 481 << scale_shift;
+#else
+ uint32_t delay = params.include_sbr_delay ? aacinfo.nDelay
+ : aacinfo.nDelayCore;
+#endif
int64_t frames_read = pcm_get_position(reader);
- if (sbr_mode && params.profile != AOT_ER_AAC_ELD &&
- !params.include_sbr_delay)
- delay -= 481 << scale_shift;
- if (scale_shift && (delay & 1))
- ++delay;
padding = frame_count * aacinfo.frameLength - frames_read - delay;
m4af_set_priming(m4af, 0, delay >> scale_shift, padding >> scale_shift);
if (finalize_m4a(m4af, ¶ms, encoder) < 0)