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/*
* Copyright (C) 2008 Steve Ratcliffe
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* 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 General Public License for more details.
*
*
* Author: Steve Ratcliffe
* Create date: 18-Jun-2008
*/
package uk.me.parabola.imgfmt.app.trergn;
/**
* Class to calculate the values that occur at offset 9a in the TRE header.
* As I don't know the purpose of these the naming is a bit arbitrary here...
*
* This was worked out in the display project, so see the TreCalc file
* there for more history. This is a cleaned up version of what was
* written there.
*
* @author Steve Ratcliffe
* @see <a href="http://svn.parabola.me.uk/display/trunk/src/test/display/TreCalc.java">TreCalc.java</a>
*/
public class MapValues
{
private final int mapId
;
private final int length
;
private final byte[][] values =
new byte[4][8];
// Converts the digits in the map id to the values seen in this section.
private static final byte[] mapIdCodeTable =
{
0,
1, 0xf,
5,
0xd,
4,
7,
6,
0xb,
9, 0xe,
8,
2, 0xa, 0xc,
3
};
// Used to work out the required offset that is applied to all the
// digits of the values.
private final int[] offsetMap =
{
6,
7,
5,
11,
3,
10,
13,
12,
1,
15,
4,
14,
8,
0,
2,
9
};
public MapValues
(int mapId,
int headerLength
) {
this.
mapId = mapId
;
this.
length = headerLength
;
}
/**
* There are four values. Get value n.
* @param n Get value n, starting at 0 up to four.
*/
public int value
(int n
) {
byte[] out = values
[n
];
int res =
0;
for (int i =
0; i
< 8; i++
) {
res |=
((out
[i
] & 0xf
) << (4 * (7 - i
)));
}
return res
;
}
public void calculate
() {
// Done in this order because the first and second depend on things
// we have already calculated in three.
calcThird
();
calcFourth
();
calcFirst
();
calcSecond
();
addOffset
();
}
/**
* Add an offset to all previously calculated values.
*/
private void addOffset
() {
// To get the offset value we add up all the even nibbles of the map
// number and transform via a table.
int n = mapIdDigit
(1) + mapIdDigit
(3) + mapIdDigit
(5) + mapIdDigit
(7);
int offset = offsetMap
[n
& 0xf
];
for (int i =
0; i
< 4; i++
) {
for (int j =
0; j
< 8; j++
) {
values
[i
][j
] += offset
;
}
}
}
/**
* This value is made from the third value, combined with the raw
* map id values.
*/
private void calcFirst
() {
byte[] out = values
[0];
byte[] v3 = values
[3];
// First bytes are the low bytes of the mapId, with the corresponding
// value from value[3] added.
out
[0] =
(byte) (mapIdDigit
(4) + v3
[0]);
out
[1] =
(byte) (mapIdDigit
(5) + v3
[1]);
out
[2] =
(byte) (mapIdDigit
(6) + v3
[2]);
out
[3] =
(byte) (mapIdDigit
(7) + v3
[3]);
// Copies of v3
out
[4] = v3
[4];
out
[5] = v3
[5];
out
[6] = v3
[6];
// Always (?) one more. The one likely comes from some other
// part of the header, but we don't know if or where.
out
[7] =
(byte) (v3
[7] +
1);
}
/**
* This is made from various parts of the third value and the raw digits
* from the map id. There are two digits where the header length digits
* are used (or that could be a coincidence, but it holds up well so far).
*/
private void calcSecond
() {
byte[] out = values
[1];
byte[] v3 = values
[3];
// Just same as in v3
out
[0] = v3
[0];
out
[1] = v3
[1];
int h1 = length
>> 4;
int h2 = length
;
out
[2] =
(byte) ((v3
[2] + h1
) & 0xf
);
out
[3] =
(byte) ((v3
[3] + h2
) & 0xf
);
// The following are the sum of individual nibbles in U3 and the
// corresponding nibble in the top half of mapId.
out
[4] =
(byte) (v3
[4] + mapIdDigit
(0));
out
[5] =
(byte) (v3
[5] + mapIdDigit
(1));
out
[6] =
(byte) (v3
[6] + mapIdDigit
(2));
out
[7] =
(byte) (v3
[7] + mapIdDigit
(3));
}
/**
* This is made of the hex digits of the map id in a given order
* translated according to a given table of values.
*/
private void calcThird
() {
byte[] out = values
[2];
for (int i =
0; i
< 8; i++
) {
int n = mapIdDigit
(i
);
out
[(i ^
1)] = mapIdCodeTable
[n
];
}
}
/**
* This is just a copy of the third value.
*/
private void calcFourth
() {
System.
arraycopy(values
[2],
0, values
[3],
0, values
[3].
length);
}
/**
* Extract the given nibble of the map id. 0 is the highest four bits.
* @param i The nibble number, 0 most significant, 7 the least.
* @return The given nibble of the map id.
*/
private int mapIdDigit
(int i
) {
return (mapId
>>> (4 * (7 - i
))) & 0xf
;
}
}