/* 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" #include "sci/engine/vm_types.h" namespace Sci { class ResourceManager; /*#define VOCABULARY_DEBUG */ 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 }; enum { kParseEndOfInput = 0, kParseOpeningParenthesis = 1, kParseClosingParenthesis = 2, kParseNil = 3, kParseNumber = 4 }; /* Anywords are ignored by the parser */ #define VOCAB_CLASS_ANYWORD 0xff /* This word class is used for numbers */ #define VOCAB_MAGIC_NUMBER_GROUP 0xffd /* 0xffe ? */ #define VOCAB_MAGIC_NOTHING_GROUP 0xffe /* Number of nodes for each parse_tree_node structure */ #define VOCAB_TREE_NODES 500 #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 ResultWordList; typedef Common::HashMap WordMap; struct ParseRuleList; 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 SuffixList; struct synonym_t { int replaceant; /**< The word group to replace */ int replacement; /**< The replacement word group for this one */ }; typedef Common::List SynonymList; struct parse_tree_branch_t { int id; int data[10]; }; enum ParseTypes { kParseTreeLeafNode = 0, kParseTreeBranchNode = 1 }; struct parse_tree_node_t { ParseTypes 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 *resMan, bool foreign); ~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. * @param[in] retval A list of words which will be set to the result * @param[out] sentence The sentence to examine * @param[out] error Points to a malloc'd copy of the offending text or to NULL on error * @return true on success, false on failure * * On error, false 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. * @param words The words to build the tree from * @param verbose Set to true for debugging * @return 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(const ResultWordList &words, bool verbose = false); /** * Constructs the Greibach Normal Form of the grammar supplied in 'branches'. * @param verbose Set to true for debugging. If true, the list is * freed before the function ends * @return 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. */ ParseRuleList *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]; } /** * Adds a new synonym to the list */ void addSynonym(synonym_t syn) { _synonyms.push_back(syn); } /** * Clears the list of synonyms */ void clearSynonyms() { _synonyms.clear(); } /** * Synonymizes a token list * Parameters: (ResultWordList &) words: The word list to synonymize */ void synonymizeTokens(ResultWordList &words); void printParserNodes(int num); void dumpParseTree(); int parseNodes(int *i, int *pos, int type, int nr, int argc, const char **argv); 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(). * @param rule_list the rule list to free */ void freeRuleList(ParseRuleList *rule_list); ResourceManager *_resMan; VocabularyVersions _vocabVersion; bool _foreign; uint16 _resourceIdWords; uint16 _resourceIdSuffixes; uint16 _resourceIdBranches; // Parser-related lists SuffixList _parserSuffixes; ParseRuleList *_parserRules; /**< GNF rules used in the parser algorithm */ Common::Array _parserBranches; WordMap _parserWords; SynonymList _synonyms; /**< The list of synonyms */ public: // Accessed by said() parse_tree_node_t _parserNodes[VOCAB_TREE_NODES]; /**< The parse tree */ // Parser data: reg_t parser_base; /**< Base address for the parser error reporting mechanism */ reg_t parser_event; /**< The event passed to Parse() and later used by Said() */ bool parserIsValid; /**< If something has been correctly parsed */ }; /** * Prints a parse tree. * @param tree_name Name of the tree to dump (free-form) * @param 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. * @param s The affected state * @param spec Pointer to the spec to build * @param verbose Whether to display the parse tree after building it * @return 1 on a match, 0 otherwise */ int said(EngineState *s, byte *spec, bool verbose); } // End of namespace Sci #endif // SCI_SCICORE_VOCABULARY_H