unsigned int freq;
unsigned int padding;
unsigned int mode;
- unsigned int copyright;
- unsigned int original;
- unsigned int emphasis;
};
static const int frequencies[3][4] = {
+ header->padding;
}
-static int compare_headers(struct mp3header *h1,struct mp3header *h2)
+static int compare_headers(struct mp3header *h1, struct mp3header *h2)
{
if ((*(unsigned int*)h1) == (*(unsigned int*)h2))
return 1;
(h1->layer == h2->layer) &&
(h1->crc == h2->crc) &&
(h1->freq == h2->freq) &&
- (h1->mode == h2->mode) &&
- (h1->copyright == h2->copyright) &&
- (h1->original == h2->original) &&
- (h1->emphasis == h2->emphasis))
+ (h1->mode == h2->mode))
return 1;
return 0;
}
afhi->channels = header_channels(&header);
afhi->seconds_total = (tv2ms(&total_time) + 500) / 1000;
tv_divide(afhi->chunks_total, &total_time, &afhi->chunk_tv);
- PARA_DEBUG_LOG("%" PRIu32 "chunks, each %lums\n", afhi->chunks_total,
+ PARA_DEBUG_LOG("%" PRIu32 " chunks, each %lums\n", afhi->chunks_total,
tv2ms(&afhi->chunk_tv));
set_max_chunk_size(afhi);
ret = mp3_get_id3(map, numbytes, fd, &afhi->tags);
ret = mp3_read_info((unsigned char *)map, numbytes, fd, afhi);
if (ret < 0)
return ret;
- if (afhi->seconds_total < 2 || !afhi->chunks_total)
+ if (afhi->chunks_total == 0)
return -E_MP3_INFO;
return 1;
}