eaglercraft-1.8/sources/wasm-gc-teavm/java/com/jcraft/jogg/StreamState.java

539 lines
13 KiB
Java

/* -*-mode:java; c-basic-offset:2; indent-tabs-mode:nil -*- */
/* JOrbis
* Copyright (C) 2000 ymnk, JCraft,Inc.
*
* Written by: 2000 ymnk<ymnk@jcraft.com>
*
* Many thanks to
* Monty <monty@xiph.org> and
* The XIPHOPHORUS Company http://www.xiph.org/ .
* JOrbis has been based on their awesome works, Vorbis codec.
*
* This program 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 program 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 program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
package com.jcraft.jogg;
public class StreamState {
byte[] body_data; /* bytes from packet bodies */
int body_storage; /* storage elements allocated */
int body_fill; /* elements stored; fill mark */
private int body_returned; /* elements of fill returned */
int[] lacing_vals; /* The values that will go to the segment table */
long[] granule_vals; /*
* pcm_pos values for headers. Not compact this way, but it is simple coupled to
* the lacing fifo
*/
int lacing_storage;
int lacing_fill;
int lacing_packet;
int lacing_returned;
byte[] header = new byte[282]; /* working space for header encode */
int header_fill;
public int e_o_s; /*
* set when we have buffered the last packet in the logical bitstream
*/
int b_o_s; /*
* set after we've written the initial page of a logical bitstream
*/
int serialno;
int pageno;
long packetno; /*
* sequence number for decode; the framing knows where there's a hole in the
* data, but we need coupling so that the codec (which is in a seperate
* abstraction layer) also knows about the gap
*/
long granulepos;
public StreamState() {
init();
}
StreamState(int serialno) {
this();
init(serialno);
}
void init() {
body_storage = 16 * 1024;
body_data = new byte[body_storage];
lacing_storage = 1024;
lacing_vals = new int[lacing_storage];
granule_vals = new long[lacing_storage];
}
public void init(int serialno) {
if (body_data == null) {
init();
} else {
for (int i = 0; i < body_data.length; i++)
body_data[i] = 0;
for (int i = 0; i < lacing_vals.length; i++)
lacing_vals[i] = 0;
for (int i = 0; i < granule_vals.length; i++)
granule_vals[i] = 0;
}
this.serialno = serialno;
}
public void clear() {
body_data = null;
lacing_vals = null;
granule_vals = null;
}
void destroy() {
clear();
}
void body_expand(int needed) {
if (body_storage <= body_fill + needed) {
body_storage += (needed + 1024);
byte[] foo = new byte[body_storage];
System.arraycopy(body_data, 0, foo, 0, body_data.length);
body_data = foo;
}
}
void lacing_expand(int needed) {
if (lacing_storage <= lacing_fill + needed) {
lacing_storage += (needed + 32);
int[] foo = new int[lacing_storage];
System.arraycopy(lacing_vals, 0, foo, 0, lacing_vals.length);
lacing_vals = foo;
long[] bar = new long[lacing_storage];
System.arraycopy(granule_vals, 0, bar, 0, granule_vals.length);
granule_vals = bar;
}
}
/* submit data to the internal buffer of the framing engine */
public int packetin(Packet op) {
int lacing_val = op.bytes / 255 + 1;
if (body_returned != 0) {
/*
* advance packet data according to the body_returned pointer. We had to keep it
* around to return a pointer into the buffer last call
*/
body_fill -= body_returned;
if (body_fill != 0) {
System.arraycopy(body_data, body_returned, body_data, 0, body_fill);
}
body_returned = 0;
}
/* make sure we have the buffer storage */
body_expand(op.bytes);
lacing_expand(lacing_val);
/*
* Copy in the submitted packet. Yes, the copy is a waste; this is the liability
* of overly clean abstraction for the time being. It will actually be fairly
* easy to eliminate the extra copy in the future
*/
System.arraycopy(op.packet_base, op.packet, body_data, body_fill, op.bytes);
body_fill += op.bytes;
/* Store lacing vals for this packet */
int j;
for (j = 0; j < lacing_val - 1; j++) {
lacing_vals[lacing_fill + j] = 255;
granule_vals[lacing_fill + j] = granulepos;
}
lacing_vals[lacing_fill + j] = (op.bytes) % 255;
granulepos = granule_vals[lacing_fill + j] = op.granulepos;
/* flag the first segment as the beginning of the packet */
lacing_vals[lacing_fill] |= 0x100;
lacing_fill += lacing_val;
/* for the sake of completeness */
packetno++;
if (op.e_o_s != 0)
e_o_s = 1;
return (0);
}
public int packetout(Packet op) {
/*
* The last part of decode. We have the stream broken into packet segments. Now
* we need to group them into packets (or return the out of sync markers)
*/
int ptr = lacing_returned;
if (lacing_packet <= ptr) {
return (0);
}
if ((lacing_vals[ptr] & 0x400) != 0) {
/* We lost sync here; let the app know */
lacing_returned++;
/*
* we need to tell the codec there's a gap; it might need to handle previous
* packet dependencies.
*/
packetno++;
return (-1);
}
/* Gather the whole packet. We'll have no holes or a partial packet */
{
int size = lacing_vals[ptr] & 0xff;
int bytes = 0;
op.packet_base = body_data;
op.packet = body_returned;
op.e_o_s = lacing_vals[ptr] & 0x200; /* last packet of the stream? */
op.b_o_s = lacing_vals[ptr] & 0x100; /* first packet of the stream? */
bytes += size;
while (size == 255) {
int val = lacing_vals[++ptr];
size = val & 0xff;
if ((val & 0x200) != 0)
op.e_o_s = 0x200;
bytes += size;
}
op.packetno = packetno;
op.granulepos = granule_vals[ptr];
op.bytes = bytes;
body_returned += bytes;
lacing_returned = ptr + 1;
}
packetno++;
return (1);
}
// add the incoming page to the stream state; we decompose the page
// into packet segments here as well.
public int pagein(Page og) {
byte[] header_base = og.header_base;
int header = og.header;
byte[] body_base = og.body_base;
int body = og.body;
int bodysize = og.body_len;
int segptr = 0;
int version = og.version();
int continued = og.continued();
int bos = og.bos();
int eos = og.eos();
long granulepos = og.granulepos();
int _serialno = og.serialno();
int _pageno = og.pageno();
int segments = header_base[header + 26] & 0xff;
// clean up 'returned data'
{
int lr = lacing_returned;
int br = body_returned;
// body data
if (br != 0) {
body_fill -= br;
if (body_fill != 0) {
System.arraycopy(body_data, br, body_data, 0, body_fill);
}
body_returned = 0;
}
if (lr != 0) {
// segment table
if ((lacing_fill - lr) != 0) {
System.arraycopy(lacing_vals, lr, lacing_vals, 0, lacing_fill - lr);
System.arraycopy(granule_vals, lr, granule_vals, 0, lacing_fill - lr);
}
lacing_fill -= lr;
lacing_packet -= lr;
lacing_returned = 0;
}
}
// check the serial number
if (_serialno != serialno)
return (-1);
if (version > 0)
return (-1);
lacing_expand(segments + 1);
// are we in sequence?
if (_pageno != pageno) {
int i;
// unroll previous partial packet (if any)
for (i = lacing_packet; i < lacing_fill; i++) {
body_fill -= lacing_vals[i] & 0xff;
// System.out.println("??");
}
lacing_fill = lacing_packet;
// make a note of dropped data in segment table
if (pageno != -1) {
lacing_vals[lacing_fill++] = 0x400;
lacing_packet++;
}
// are we a 'continued packet' page? If so, we'll need to skip
// some segments
if (continued != 0) {
bos = 0;
for (; segptr < segments; segptr++) {
int val = (header_base[header + 27 + segptr] & 0xff);
body += val;
bodysize -= val;
if (val < 255) {
segptr++;
break;
}
}
}
}
if (bodysize != 0) {
body_expand(bodysize);
System.arraycopy(body_base, body, body_data, body_fill, bodysize);
body_fill += bodysize;
}
{
int saved = -1;
while (segptr < segments) {
int val = (header_base[header + 27 + segptr] & 0xff);
lacing_vals[lacing_fill] = val;
granule_vals[lacing_fill] = -1;
if (bos != 0) {
lacing_vals[lacing_fill] |= 0x100;
bos = 0;
}
if (val < 255)
saved = lacing_fill;
lacing_fill++;
segptr++;
if (val < 255)
lacing_packet = lacing_fill;
}
/* set the granulepos on the last pcmval of the last full packet */
if (saved != -1) {
granule_vals[saved] = granulepos;
}
}
if (eos != 0) {
e_o_s = 1;
if (lacing_fill > 0)
lacing_vals[lacing_fill - 1] |= 0x200;
}
pageno = _pageno + 1;
return (0);
}
/*
* This will flush remaining packets into a page (returning nonzero), even if
* there is not enough data to trigger a flush normally (undersized page). If
* there are no packets or partial packets to flush, ogg_stream_flush returns 0.
* Note that ogg_stream_flush will try to flush a normal sized page like
* ogg_stream_pageout; a call to ogg_stream_flush does not gurantee that all
* packets have flushed. Only a return value of 0 from ogg_stream_flush
* indicates all packet data is flushed into pages.
*
* ogg_stream_page will flush the last page in a stream even if it's undersized;
* you almost certainly want to use ogg_stream_pageout (and *not*
* ogg_stream_flush) unless you need to flush an undersized page in the middle
* of a stream for some reason.
*/
public int flush(Page og) {
int i;
int vals = 0;
int maxvals = (lacing_fill > 255 ? 255 : lacing_fill);
int bytes = 0;
int acc = 0;
long granule_pos = granule_vals[0];
if (maxvals == 0)
return (0);
/* construct a page */
/* decide how many segments to include */
/*
* If this is the initial header case, the first page must only include the
* initial header packet
*/
if (b_o_s == 0) { /* 'initial header page' case */
granule_pos = 0;
for (vals = 0; vals < maxvals; vals++) {
if ((lacing_vals[vals] & 0x0ff) < 255) {
vals++;
break;
}
}
} else {
for (vals = 0; vals < maxvals; vals++) {
if (acc > 4096)
break;
acc += (lacing_vals[vals] & 0x0ff);
granule_pos = granule_vals[vals];
}
}
/* construct the header in temp storage */
System.arraycopy("OggS".getBytes(), 0, header, 0, 4);
/* stream structure version */
header[4] = 0x00;
/* continued packet flag? */
header[5] = 0x00;
if ((lacing_vals[0] & 0x100) == 0)
header[5] |= 0x01;
/* first page flag? */
if (b_o_s == 0)
header[5] |= 0x02;
/* last page flag? */
if (e_o_s != 0 && lacing_fill == vals)
header[5] |= 0x04;
b_o_s = 1;
/* 64 bits of PCM position */
for (i = 6; i < 14; i++) {
header[i] = (byte) granule_pos;
granule_pos >>>= 8;
}
/* 32 bits of stream serial number */
{
int _serialno = serialno;
for (i = 14; i < 18; i++) {
header[i] = (byte) _serialno;
_serialno >>>= 8;
}
}
/*
* 32 bits of page counter (we have both counter and page header because this
* val can roll over)
*/
if (pageno == -1)
pageno = 0; /*
* because someone called stream_reset; this would be a strange thing to do in
* an encode stream, but it has plausible uses
*/
{
int _pageno = pageno++;
for (i = 18; i < 22; i++) {
header[i] = (byte) _pageno;
_pageno >>>= 8;
}
}
/* zero for computation; filled in later */
header[22] = 0;
header[23] = 0;
header[24] = 0;
header[25] = 0;
/* segment table */
header[26] = (byte) vals;
for (i = 0; i < vals; i++) {
header[i + 27] = (byte) lacing_vals[i];
bytes += (header[i + 27] & 0xff);
}
/* set pointers in the ogg_page struct */
og.header_base = header;
og.header = 0;
og.header_len = header_fill = vals + 27;
og.body_base = body_data;
og.body = body_returned;
og.body_len = bytes;
/* advance the lacing data and set the body_returned pointer */
lacing_fill -= vals;
System.arraycopy(lacing_vals, vals, lacing_vals, 0, lacing_fill * 4);
System.arraycopy(granule_vals, vals, granule_vals, 0, lacing_fill * 8);
body_returned += bytes;
/* calculate the checksum */
og.checksum();
/* done */
return (1);
}
/*
* This constructs pages from buffered packet segments. The pointers returned
* are to static buffers; do not free. The returned buffers are good only until
* the next call (using the same ogg_stream_state)
*/
public int pageout(Page og) {
if ((e_o_s != 0 && lacing_fill != 0) || /* 'were done, now flush' case */
body_fill - body_returned > 4096 || /* 'page nominal size' case */
lacing_fill >= 255 || /* 'segment table full' case */
(lacing_fill != 0 && b_o_s == 0)) { /* 'initial header page' case */
return flush(og);
}
return 0;
}
public int eof() {
return e_o_s;
}
public int reset() {
body_fill = 0;
body_returned = 0;
lacing_fill = 0;
lacing_packet = 0;
lacing_returned = 0;
header_fill = 0;
e_o_s = 0;
b_o_s = 0;
pageno = -1;
packetno = 0;
granulepos = 0;
return (0);
}
}