eliot/doc/dic.txt

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The dictionary is a directed tree. Compression is achieved by
sharing word prefix and suffix. Search is NOT case sensitive.
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considering this 3 words dictionary:
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ABC
ADA
EDAA
The tree will look like this:
root
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|
A----------E!
| |
B----D! D!
| | |
C!* | A!
| | |
| ------A!*
| |
| |
------------------- 0!* (sink)
The tree is saved using an array of 32 bits words.
A cell is a binary structure
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ptr : index in the array of the first child
term : is it the last letter of a word (*)
last : is it the last child of its local root (!)
chr : guess what !
There is no pointer from a cell to its brother, it is simply the
next cell in the array (you know you are on the last brother when
the flag "last" is set).
The way it is stored in a file is a different thing! The tree is
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stored bottom-up. The sink (offset 0) is the first cell of
the array.
Using compdic (which you can find in the eliot/dic directory),
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the compiled dictionary will look like this:
compdic console output (cut in the middle):
===================================================================
dictionary name: ODS 4.0
compressed on: mer 12 déc 2007 07:29:50 GMT
compressed using a binary compiled by: ipkiss@ulukai
dictionary type: DAWG
letters: ABCDEFGHIJKLMNOPQRSTUVWXYZ?
number of letters: 27
number of words: 369085
header size: 360 bytes
root: 100950 (edge)
nodes: 40377 used + 418387 saved
edges: 100950 used + 601922 saved
===============================================
letter | points | frequency | vowel | consonant
-------+--------+-----------+-------+----------
A | 1 | 9 | 1 | 0
B | 3 | 2 | 0 | 1
C | 3 | 2 | 0 | 1
D | 2 | 3 | 0 | 1
[... output cut here ...]
X | 10 | 1 | 0 | 1
Y | 10 | 1 | 1 | 1
Z | 10 | 1 | 0 | 1
? | 0 | 2 | 1 | 1
===============================================
Load time: 0,060 s
Compression time: 0,170 s
Maximum recursion level reached: 16
===================================================================
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binary view of the dictionary (FIXME: not up to date):
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===================================================================
0001 0203 0405 0607 0809 0a0b 0c0d 0e0f
00000000: 5f43 4f4d 5049 4c45 445f 4449 4354 494f _COMPILED_DICTIO
00000010: 4e41 5259 5f00 0000 0900 0000 0300 0000 NARY_...........
00000020: 0900 0000 0700 0000 0100 0000 0100 0000 ................
00000030: 0000 0002 0000 001b 0000 000b 0100 0010 ................
00000040: 0200 0022 0200 000a 0500 0022 0300 0008 ..."......."....
00000050: 0600 002a 0700 0000 ...*....
===================================================================
The header is made of 2 structures (for backwards compatibility
with older headers) like this:
===================================================================
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#define _COMPIL_KEYWORD_ "_COMPILED_DICTIONARY_"
struct Dict_header_old // offset
{
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char ident[sizeof(_COMPIL_KEYWORD_)]; // 0x00
uint8_t version; // 0x16
char unused; // 0x17
uint32_t root; // 0x18
uint32_t nwords; // 0x1c
uint32_t edgesused; // 0x20
uint32_t nodesused; // 0x24
uint32_t nodessaved; // 0x28
uint32_t edgessaved; // 0x2c
};
#define _MAX_USER_HOST_ 32
#define _MAX_DIC_NAME_SIZE_ 30
#define _MAX_LETTERS_NB_ 63
#define _MAX_LETTERS_SIZE_ 80
struct Dict_header
{
uint64_t compressDate;
// Build information
char userHost[_MAX_USER_HOST_];
// Size taken by the build information
uint32_t userHostSize;
// Compression algorithm (1 = DAWG, 2 = GADDAG)
uint8_t algorithm;
// Variant used in the rules (XXX: currently unused)
uint8_t variant;
// Dictionary official name and version (e.g.: ODS 5.0)
char dicName[_MAX_DIC_NAME_SIZE_];
// Size taken by the dictionary name
uint32_t dicNameSize;
// Letters used in the dictionary
// We should have: nbLetters <= lettersSize <= _MAX_LETTERS_SIZE_
// and: nbLetters <= _MAX_LETTERS_NB_
// The letters themselves, in UTF-8
char letters[_MAX_LETTERS_SIZE_];
// Size taken by the letters
uint32_t lettersSize;
// Number of letters (XXX: in theory useless, but allows a sanity check)
uint32_t nbLetters;
// Points of the letters (indexed by their code)
// The "+ 1" is there for struct alignment
uint8_t points[_MAX_LETTERS_NB_ + 1];
// Frequency of the letters (indexedy their code)
// The "+ 1" is there for struct alignment
uint8_t frequency[_MAX_LETTERS_NB_ + 1];
// Bitfield indicating whether letters are vowels
uint64_t vowels;
// Bitfield indicating whether letters are consonants
uint64_t consonants;
}
===================================================================
In the old version of the dictionary, only the first structure was used
(with version = 0). The current format (version = 1) has the 2 structs
next to each other.
The dictionary name, the letters, and the user/host information are
stored in UTF-8. All the numbers are big endian (i.e. the output of
the htonl() function).
To avoid alignment issues, the extended header has been designed to
have multiples of 64 bits regularly.
binary output of the header (FIXME: not up to date):
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===================================================================
0x00 ident : _COMPILED_DICTIONARY_
0x16 version : 0 00000001
0x17 unused : 0 00000000
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0x18 root : 9 00000009
0x1c words : 3 00000003
0x20 edges used : 9 00000009
0x24 nodes used : 7 00000007
0x28 nodes saved : 1 00000001
0x2c edges saved : 1 00000001
===================================================================
The real array of data begins at offset 0x168. The array is stored
'as is' right after the header. Each array cell is a bit-structure
on 4 bytes:
struct DicEdge
{
unsigned int ptr : 24;
unsigned int term : 1;
unsigned int last : 1;
unsigned int chr : 6;
};
Characters are not stored in ASCII. The order of the letters given
to the compdic binary is preserved, but we changed the values: the
first letter is 1, the second one is 2, etc...
The dictionary can thus handle up to 64 different letters but not more.
The letter 0 is special (used for the sink node in particular), so
in practice there are only 63 distinct letters.
offs binary structure
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---- -------- | ------------------
0x00 02000000 | 0 ptr= 0 t=0 l=1 chr=0 (`)
0x04 1b000000 | 1 ptr= 0 t=1 l=1 chr=3 (c)
0x08 0b000000 | 2 ptr= 0 t=1 l=1 chr=1 (a)
0x0c 10000001 | 3 ptr= 1 t=0 l=0 chr=2 (b)
0x10 22000002 | 4 ptr= 2 t=0 l=1 chr=4 (d)
0x14 0a000002 | 5 ptr= 2 t=0 l=1 chr=1 (a)
0x18 22000005 | 6 ptr= 5 t=0 l=1 chr=4 (d)
0x1c 08000003 | 7 ptr= 3 t=0 l=0 chr=1 (a)
0x20 2a000006 | 8 ptr= 6 t=0 l=1 chr=5 (e)
0x24 00000007 | 9 ptr= 7 t=0 l=0 chr=0 (`)
Strictly speaking, there is no node in the graph, only labelled edges.
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