static FILE *infile;
static int header_len, oggbuf_len, vi_channels;
static char *header, *oggbuf;
-static ogg_int64_t *chunk_table, max_chunk_len;
+static ssize_t *chunk_table, max_chunk_len;
struct audio_format *af;
static long vi_sampling_rate, vi_bitrate, vi_bitrate_nominal,
num_chunks;
static void ogg_compute_chunk_table(double time_total)
{
int i, ret, num;
- ogg_int64_t pos = 0, min = 0, old_pos;
+ ssize_t pos = 0, min = 0, old_pos;
old_pos = 0;
ret = 0;
break;
pos = ov_raw_tell(oggvorbis_file);
diff = pos - old_pos;
- max_chunk_len = MAX(max_chunk_len, diff);
- min = (i == 1)? diff : MIN(min, diff);
+ max_chunk_len = PARA_MAX(max_chunk_len, diff);
+ min = (i == 1)? diff : PARA_MIN(min, diff);
chunk_table[i] = pos;
if (i < 11 || !((i - 1) % 1000)|| i > num - 11)
- PARA_DEBUG_LOG("chunk #%d: %g secs, pos: %lli, "
- "size: %lli\n", i - 1,
+ PARA_DEBUG_LOG("chunk #%d: %g secs, pos: %zd, "
+ "size: %zd\n", i - 1,
i * chunk_time, pos, pos - old_pos);
old_pos = pos;
}
num_chunks = i - 1;
chunk_table[i] = pos;
tunetable();
- PARA_INFO_LOG("%li chunks (%fs), max chunk: %lli, min chunk: %lli\n",
+ PARA_INFO_LOG("%li chunks (%fs), max chunk: %zd, min chunk: %zd\n",
num_chunks, chunk_time, max_chunk_len, min);
rewind(infile);
}
}
*len = cs;
if (!oggbuf || oggbuf_len < *len) {
- PARA_INFO_LOG("increasing ogg buffer size (%d -> %u)\n",
+ PARA_INFO_LOG("increasing ogg buffer size (%d -> %zu)\n",
oggbuf_len, *len);
oggbuf = para_realloc(oggbuf, *len);
oggbuf_len = *len;
return NULL;
}
if (ret != *len)
- PARA_WARNING_LOG("short read (%d/%d)\n", ret, *len);
+ PARA_WARNING_LOG("short read (%d/%zd)\n", ret, *len);
*len = ret;
return oggbuf;
}