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/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU 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 General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* $URL$
* $Id$
*
*/
#ifndef SCI_SCICORE_VOCABULARY_H
#define SCI_SCICORE_VOCABULARY_H
#include "common/str.h"
#include "common/hashmap.h"
#include "common/hash-str.h"
#include "common/list.h"
#include "sci/sci.h"
namespace Sci {
class ResourceManager;
/*#define VOCABULARY_DEBUG */
/** Number of bytes allocated on the heap to store bad words if parsing fails */
#define PARSE_HEAP_SIZE 64
enum {
VOCAB_RESOURCE_SELECTORS = 997,
VOCAB_RESOURCE_SCI0_MAIN_VOCAB = 0,
VOCAB_RESOURCE_SCI0_PARSE_TREE_BRANCHES = 900,
VOCAB_RESOURCE_SCI0_SUFFIX_VOCAB = 901,
VOCAB_RESOURCE_SCI1_MAIN_VOCAB = 900,
VOCAB_RESOURCE_SCI1_PARSE_TREE_BRANCHES = 901,
VOCAB_RESOURCE_SCI1_SUFFIX_VOCAB = 902
};
enum {
VOCAB_CLASS_PREPOSITION = 0x01,
VOCAB_CLASS_ARTICLE = 0x02,
VOCAB_CLASS_ADJECTIVE = 0x04,
VOCAB_CLASS_PRONOUN = 0x08,
VOCAB_CLASS_NOUN = 0x10,
VOCAB_CLASS_INDICATIVE_VERB = 0x20,
VOCAB_CLASS_ADVERB = 0x40,
VOCAB_CLASS_IMPERATIVE_VERB = 0x80,
VOCAB_CLASS_NUMBER = 0x001
};
#define VOCAB_CLASS_ANYWORD 0xff
/* Anywords are ignored by the parser */
#define VOCAB_MAGIC_NUMBER_GROUP 0xffd /* 0xffe ? */
/* This word class is used for numbers */
#define VOCAB_TREE_NODES 500
/* Number of nodes for each parse_tree_node structure */
#define VOCAB_TREE_NODE_LAST_WORD_STORAGE 0x140
#define VOCAB_TREE_NODE_COMPARE_TYPE 0x146
#define VOCAB_TREE_NODE_COMPARE_GROUP 0x14d
#define VOCAB_TREE_NODE_FORCE_STORAGE 0x154
#define SAID_COMMA 0xf0
#define SAID_AMP 0xf1
#define SAID_SLASH 0xf2
#define SAID_PARENO 0xf3
#define SAID_PARENC 0xf4
#define SAID_BRACKO 0xf5
#define SAID_BRACKC 0xf6
#define SAID_HASH 0xf7
#define SAID_LT 0xf8
#define SAID_GT 0xf9
#define SAID_TERM 0xff
#define SAID_FIRST SAID_COMMA
/* There was no 'last matching word': */
#define SAID_FULL_MATCH 0xffff
#define SAID_NO_MATCH 0xfffe
#define SAID_PARTIAL_MATCH 0xfffd
#define SAID_LONG(x) ((x) << 8)
struct ResultWord {
int _class; /* Word class */
int _group; /* Word group */
};
typedef Common::List<ResultWord> ResultWordList;
typedef Common::HashMap<Common::String, ResultWord, Common::IgnoreCase_Hash, Common::IgnoreCase_EqualTo> WordMap;
struct parse_rule_t {
int id; /* non-terminal ID */
int first_special; /* first terminal or non-terminal */
int specials_nr; /* number of terminals and non-terminals */
int length;
int data[1]; /* actual data (size 1 to avoid compiler warnings) */
};
struct parse_rule_list_t {
int terminal; /* Terminal character this rule matches against or 0 for a non-terminal rule */
parse_rule_t *rule;
parse_rule_list_t *next;
};
struct suffix_t {
int class_mask; /* the word class this suffix applies to */
int result_class; /* the word class a word is morphed to if it doesn't fail this check */
int alt_suffix_length; /* String length of the suffix */
int word_suffix_length; /* String length of the other suffix */
const char *alt_suffix; /* The alternative suffix */
const char *word_suffix; /* The suffix as used in the word vocabulary */
};
typedef Common::List<suffix_t> SuffixList;
struct synonym_t {
int replaceant; /* The word group to replace */
int replacement; /* The replacement word group for this one */
};
typedef Common::List<synonym_t> SynonymList;
struct parse_tree_branch_t {
int id;
int data[10];
};
enum ParseTypes {
kParseTreeLeafNode = 0,
kParseTreeBranchNode = 1
};
struct parse_tree_node_t {
short type; /* leaf or branch */
union {
int value; /* For leaves */
short branches[2]; /* For branches */
} content;
};
enum VocabularyVersions {
kVocabularySCI0 = 0,
kVocabularySCI1 = 1
};
class Vocabulary {
public:
Vocabulary(ResourceManager *resourceManager);
~Vocabulary();
/**
* Gets any word from the specified group. For debugging only.
* @param group Group number
*/
const char *getAnyWordFromGroup(int group);
/**
* Looks up a single word in the words and suffixes list.
* @param word pointer to the word to look up
* @param word_len length of the word to look up
* @return the matching word (or (-1,-1) if there was no match)
*/
ResultWord lookupWord(const char *word, int word_len);
/* Tokenizes a string and compiles it into word_ts.
** Parameters: (char *) sentence: The sentence to examine
** (char **) error: Points to a malloc'd copy of the offending text or to NULL on error
** (ResultWordList) retval: A list of word_ts containing the result, or NULL.
** Returns : true on success, false on failure
** On error, NULL is returned. If *error is NULL, the sentence did not contain any useful words;
** if not, *error points to a malloc'd copy of the offending word.
** The returned list may contain anywords.
*/
bool tokenizeString(ResultWordList &retval, const char *sentence, char **error);
/* Builds a parse tree from a list of words, using a set of Greibach Normal Form rules
** Parameters: (parse_tree_node_t *) nodes: A node list to store the tree in (must have
** at least VOCAB_TREE_NODES entries)
** (const ResultWordList &) words: The words to build the tree from
** (parse_tree_branch_t *) branche0: The zeroeth original branch of the
** original CNF parser grammar
** bool verbose: Set to true for debugging
** Returns : 0 on success, 1 if the tree couldn't be built in VOCAB_TREE_NODES nodes
** or if the sentence structure in 'words' is not part of the language
** described by the grammar passed in 'rules'.
*/
int parseGNF(parse_tree_node_t *nodes, const ResultWordList &words, bool verbose = false);
/* Constructs the Greibach Normal Form of the grammar supplied in 'branches'
** bool verbose: Set to true for debugging.
** If true, the list is freed before the function ends
** Returns : (parse_rule_list_t *): Pointer to a list of singly linked
** GNF rules describing the same language
** that was described by 'branches'
** The original SCI rules are in almost-CNF (Chomsky Normal Form). Note that
** branch[0] is used only for a few magical incantations, as it is treated
** specially by the SCI parser.
*/
parse_rule_list_t *buildGNF(bool verbose = false);
/**
* Deciphers a said block and dumps its content via printf.
* For debugging only.
* @param pos pointer to the data to dump
*/
void decipherSaidBlock(byte *pos);
/**
* Prints the parser suffixes to the debug console.
*/
void printSuffixes() const;
/**
* Prints the parser words to the debug console.
*/
void printParserWords() const;
uint getParserBranchesSize() const { return _parserBranches.size(); }
const parse_tree_branch_t &getParseTreeBranch(int number) const { return _parserBranches[number]; }
private:
/**
* Loads all words from the main vocabulary.
* @return true on success, false on failure
*/
bool loadParserWords();
/**
* Loads all suffixes from the suffix vocabulary.
* @return true on success, false on failure
*/
bool loadSuffixes();
/**
* Frees all suffixes in the given list.
* @param suffixes: The suffixes to free
*/
void freeSuffixes();
/**
* Retrieves all grammar rules from the resource data.
* @param branches The rules are stored into this Array
* @return true on success, false on error
*/
bool loadBranches();
/* Frees a parser rule list as returned by vocab_build_gnf()
** Parameters: (parse_rule_list_t *) rule_list: The rule list to free
*/
void freeRuleList(parse_rule_list_t *rule_list);
ResourceManager *_resourceManager;
VocabularyVersions _vocabVersion;
// Parser-related lists
SuffixList _parserSuffixes;
parse_rule_list_t *_parserRules; /**< GNF rules used in the parser algorithm */
Common::Array<parse_tree_branch_t> _parserBranches;
WordMap _parserWords;
};
/* Prints a parse tree
** Parameters: (const char *) tree_name: Name of the tree to dump (free-form)
** (parse_tree_node_t *) nodes: The nodes containing the parse tree
*/
void vocab_dump_parse_tree(const char *tree_name, parse_tree_node_t *nodes);
/* Builds a parse tree from a spec and compares it to a parse tree
** Parameters: (EngineState *) s: The affected state
** (byte *) spec: Pointer to the spec to build
** (int) verbose: Whether to display the parse tree after building it
** Returns : (int) 1 on a match, 0 otherwise
*/
int said(EngineState *s, byte *spec, int verbose);
/* Synonymizes a token list
** Parameters: (ResultWordList &) words: The word list to synonymize
** (const SynonymList &) synonyms: Synonym list
*/
void vocab_synonymize_tokens(ResultWordList &words, const SynonymList &synonyms);
int getAllocatedRulesCount();
} // End of namespace Sci
#endif // SCI_SCICORE_VOCABULARY_H
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