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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.
*
* $URL$
* $Id$
*
*/
// Main vocabulary support functions and word lookup
#include "sci/parser/vocabulary.h"
#include "sci/resource.h"
#include "sci/engine/state.h"
#include "sci/engine/kernel.h"
#include "sci/console.h"
namespace Sci {
Vocabulary::Vocabulary(ResourceManager *resMan) : _resMan(resMan) {
_parserRules = NULL;
_vocabVersion = kVocabularySCI0;
memset(_parserNodes, 0, sizeof(_parserNodes));
// Mark parse tree as unused
_parserNodes[0].type = kParseTreeLeafNode;
_parserNodes[0].content.value = 0;
_synonyms.clear(); // No synonyms
debug(2, "Initializing vocabulary");
if (getSciVersion() <= SCI_VERSION_1_EGA && loadParserWords()) {
loadSuffixes();
if (loadBranches())
// Now build a GNF grammar out of this
_parserRules = buildGNF();
} else {
debug(2, "Assuming that this game does not use a parser.");
_parserRules = NULL;
}
parser_base = NULL_REG;
parser_event = NULL_REG;
parserIsValid = false;
}
Vocabulary::~Vocabulary() {
freeRuleList(_parserRules);
freeSuffixes();
}
bool Vocabulary::loadParserWords() {
char currentword[256] = ""; // They're not going to use words longer than 255 ;-)
int currentwordpos = 0;
// First try to load the SCI0 vocab resource.
Resource *resource = _resMan->findResource(ResourceId(kResourceTypeVocab, VOCAB_RESOURCE_SCI0_MAIN_VOCAB), 0);
if (!resource) {
warning("SCI0: Could not find a main vocabulary, trying SCI01");
resource = _resMan->findResource(ResourceId(kResourceTypeVocab, VOCAB_RESOURCE_SCI1_MAIN_VOCAB), 0);
_vocabVersion = kVocabularySCI1;
}
if (!resource) {
warning("SCI1: Could not find a main vocabulary");
return false; // NOT critical: SCI1 games and some demos don't have one!
}
if (_vocabVersion == kVocabularySCI0) {
if (resource->size < 26 * 2) {
warning("Invalid main vocabulary encountered: Much too small");
return false;
}
// Check the alphabet-offset table for any content
int alphabetNr;
for (alphabetNr = 0; alphabetNr < 26; alphabetNr++) {
if (READ_LE_UINT16(resource->data + alphabetNr * 2))
break;
}
// If all of them were empty, we are definitely seeing SCI01 vocab in disguise (e.g. pq2 japanese)
if (alphabetNr == 26) {
warning("SCI0: Found SCI01 vocabulary in disguise");
_vocabVersion = kVocabularySCI1;
}
}
unsigned int seeker;
if (_vocabVersion == kVocabularySCI1)
seeker = 255 * 2; // vocab.900 starts with 255 16-bit pointers which we don't use
else
seeker = 26 * 2; // vocab.000 starts with 26 16-bit pointers which we don't use
if (resource->size < seeker) {
warning("Invalid main vocabulary encountered: Too small");
return false;
// Now this ought to be critical, but it'll just cause parse() and said() not to work
}
_parserWords.clear();
while (seeker < resource->size) {
byte c;
currentwordpos = resource->data[seeker++]; // Parts of previous words may be re-used
if (_vocabVersion == kVocabularySCI1) {
c = 1;
while (seeker < resource->size && currentwordpos < 255 && c) {
c = resource->data[seeker++];
currentword[currentwordpos++] = c;
}
if (seeker == resource->size) {
warning("SCI1: Vocabulary not usable, disabling");
_parserWords.clear();
return false;
}
} else {
do {
c = resource->data[seeker++];
currentword[currentwordpos++] = c & 0x7f; // 0x80 is used to terminate the string
} while (c < 0x80);
}
currentword[currentwordpos] = 0;
// Now decode class and group:
c = resource->data[seeker + 1];
ResultWord newWord;
newWord._class = ((resource->data[seeker]) << 4) | ((c & 0xf0) >> 4);
newWord._group = (resource->data[seeker + 2]) | ((c & 0x0f) << 8);
// Add the word to the list
_parserWords[currentword] = newWord;
seeker += 3;
}
return true;
}
const char *Vocabulary::getAnyWordFromGroup(int group) {
if (group == VOCAB_MAGIC_NUMBER_GROUP)
return "{number}";
if (group == VOCAB_MAGIC_NOTHING_GROUP)
return "{nothing}";
for (WordMap::const_iterator i = _parserWords.begin(); i != _parserWords.end(); ++i) {
if (i->_value._group == group)
return i->_key.c_str();
}
return "{invalid}";
}
bool Vocabulary::loadSuffixes() {
// Determine if we can find a SCI1 suffix vocabulary first
Resource* resource = NULL;
if (_vocabVersion == kVocabularySCI0)
resource = _resMan->findResource(ResourceId(kResourceTypeVocab, VOCAB_RESOURCE_SCI0_SUFFIX_VOCAB), 1);
else
resource = _resMan->findResource(ResourceId(kResourceTypeVocab, VOCAB_RESOURCE_SCI1_SUFFIX_VOCAB), 1);
if (!resource)
return false; // No vocabulary found
unsigned int seeker = 1;
while ((seeker < resource->size - 1) && (resource->data[seeker + 1] != 0xff)) {
suffix_t suffix;
suffix.alt_suffix = (const char *)resource->data + seeker;
suffix.alt_suffix_length = strlen(suffix.alt_suffix);
seeker += suffix.alt_suffix_length + 1; // Hit end of string
suffix.class_mask = (int16)READ_BE_UINT16(resource->data + seeker);
seeker += 2;
// Beginning of next string - skip leading '*'
seeker++;
suffix.word_suffix = (const char *)resource->data + seeker;
suffix.word_suffix_length = strlen(suffix.word_suffix);
seeker += suffix.word_suffix_length + 1;
suffix.result_class = (int16)READ_BE_UINT16(resource->data + seeker);
seeker += 3; // Next entry
_parserSuffixes.push_back(suffix);
}
return true;
}
void Vocabulary::freeSuffixes() {
Resource* resource = NULL;
if (_vocabVersion == kVocabularySCI0)
resource = _resMan->findResource(ResourceId(kResourceTypeVocab, VOCAB_RESOURCE_SCI0_SUFFIX_VOCAB), 0);
else
resource = _resMan->findResource(ResourceId(kResourceTypeVocab, VOCAB_RESOURCE_SCI1_SUFFIX_VOCAB), 0);
if (resource)
_resMan->unlockResource(resource);
_parserSuffixes.clear();
}
bool Vocabulary::loadBranches() {
Resource *resource = NULL;
if (_vocabVersion == kVocabularySCI0)
resource = _resMan->findResource(ResourceId(kResourceTypeVocab, VOCAB_RESOURCE_SCI0_PARSE_TREE_BRANCHES), 0);
else
resource = _resMan->findResource(ResourceId(kResourceTypeVocab, VOCAB_RESOURCE_SCI1_PARSE_TREE_BRANCHES), 0);
_parserBranches.clear();
if (!resource)
return false; // No parser tree data found
int branches_nr = resource->size / 20;
if (branches_nr == 0) {
warning("Parser tree data is empty");
return false;
}
_parserBranches.resize(branches_nr);
for (int i = 0; i < branches_nr; i++) {
byte *base = resource->data + i * 20;
_parserBranches[i].id = (int16)READ_LE_UINT16(base);
for (int k = 0; k < 9; k++)
_parserBranches[i].data[k] = READ_LE_UINT16(base + 2 + 2 * k);
_parserBranches[i].data[9] = 0; // Always terminate
}
if (!_parserBranches[branches_nr - 1].id) // branch lists may be terminated by empty rules
_parserBranches.remove_at(branches_nr - 1);
return true;
}
ResultWord Vocabulary::lookupWord(const char *word, int word_len) {
Common::String tempword(word, word_len);
// Remove all dashes from tempword
for (uint i = 0; i < tempword.size(); ) {
if (tempword[i] == '-')
tempword.deleteChar(i);
else
++i;
}
// Look it up:
WordMap::iterator dict_word = _parserWords.find(tempword);
// Match found? Return it!
if (dict_word != _parserWords.end()) {
return dict_word->_value;
}
// Now try all suffixes
for (SuffixList::const_iterator suffix = _parserSuffixes.begin(); suffix != _parserSuffixes.end(); ++suffix)
if (suffix->alt_suffix_length <= word_len) {
int suff_index = word_len - suffix->alt_suffix_length;
// Offset of the start of the suffix
if (scumm_strnicmp(suffix->alt_suffix, word + suff_index, suffix->alt_suffix_length) == 0) { // Suffix matched!
// Terminate word at suffix start position...:
Common::String tempword2(word, MIN(word_len, suff_index));
// ...and append "correct" suffix
tempword2 += Common::String(suffix->word_suffix, suffix->word_suffix_length);
dict_word = _parserWords.find(tempword2);
if ((dict_word != _parserWords.end()) && (dict_word->_value._class & suffix->class_mask)) { // Found it?
// Use suffix class
ResultWord tmp = dict_word->_value;
tmp._class = suffix->result_class;
return tmp;
}
}
}
// No match so far? Check if it's a number.
ResultWord retval = { -1, -1 };
char *tester;
if ((strtol(tempword.c_str(), &tester, 10) >= 0) && (*tester == '\0')) { // Do we have a complete number here?
ResultWord tmp = { VOCAB_CLASS_NUMBER, VOCAB_MAGIC_NUMBER_GROUP };
retval = tmp;
}
return retval;
}
void Vocabulary::decipherSaidBlock(byte *addr) {
uint16 nextitem;
do {
nextitem = *addr++;
if (nextitem < 0xf0) {
nextitem = nextitem << 8 | *addr++;
printf(" %s[%03x]", getAnyWordFromGroup(nextitem), nextitem);
nextitem = 42; // Make sure that group 0xff doesn't abort
} else switch (nextitem) {
case 0xf0:
printf(" ,");
break;
case 0xf1:
printf(" &");
break;
case 0xf2:
printf(" /");
break;
case 0xf3:
printf(" (");
break;
case 0xf4:
printf(" )");
break;
case 0xf5:
printf(" [");
break;
case 0xf6:
printf(" ]");
break;
case 0xf7:
printf(" #");
break;
case 0xf8:
printf(" <");
break;
case 0xf9:
printf(" >");
break;
case 0xff:
break;
}
} while (nextitem != 0xff);
printf("\n");
}
bool Vocabulary::tokenizeString(ResultWordList &retval, const char *sentence, char **error) {
const char *lastword = sentence;
int pos_in_sentence = 0;
char c;
int wordlen = 0;
*error = NULL;
do {
c = sentence[pos_in_sentence++];
if (isalnum(c) || (c == '-' && wordlen))
++wordlen;
// Continue on this word */
// Words may contain a '-', but may not
// start with one.
else {
if (wordlen) { // Finished a word?
ResultWord lookup_result = lookupWord(lastword, wordlen);
// Look it up
if (lookup_result._class == -1) { // Not found?
*error = (char *)calloc(wordlen + 1, 1);
strncpy(*error, lastword, wordlen); // Set the offending word
retval.clear();
return false; // And return with error
}
// Copy into list
retval.push_back(lookup_result);
}
lastword = sentence + pos_in_sentence;
wordlen = 0;
}
} while (c); // Until terminator is hit
return true;
}
void Vocabulary::printSuffixes() const {
char word_buf[256], alt_buf[256];
Console *con = g_sci->getSciDebugger();
int i = 0;
for (SuffixList::const_iterator suf = _parserSuffixes.begin(); suf != _parserSuffixes.end(); ++suf) {
strncpy(word_buf, suf->word_suffix, suf->word_suffix_length);
word_buf[suf->word_suffix_length] = 0;
strncpy(alt_buf, suf->alt_suffix, suf->alt_suffix_length);
alt_buf[suf->alt_suffix_length] = 0;
con->DebugPrintf("%4d: (%03x) -%12s => -%12s (%03x)\n", i, suf->class_mask, word_buf, alt_buf, suf->result_class);
++i;
}
}
void Vocabulary::printParserWords() const {
Console *con = g_sci->getSciDebugger();
int j = 0;
for (WordMap::iterator i = _parserWords.begin(); i != _parserWords.end(); ++i) {
con->DebugPrintf("%4d: %03x [%03x] %20s |", j, i->_value._class, i->_value._group, i->_key.c_str());
if (j % 3 == 0)
con->DebugPrintf("\n");
j++;
}
con->DebugPrintf("\n");
}
void _vocab_recursive_ptree_dump_treelike(parse_tree_node_t *nodes, int nr, int prevnr) {
if ((nr > VOCAB_TREE_NODES)/* || (nr < prevnr)*/) {
printf("Error(%04x)", nr);
return;
}
if (nodes[nr].type == kParseTreeLeafNode)
//printf("[%03x]%04x", nr, nodes[nr].content.value);
printf("%x", nodes[nr].content.value);
else {
int lbranch = nodes[nr].content.branches[0];
int rbranch = nodes[nr].content.branches[1];
//printf("<[%03x]", nr);
printf("<");
if (lbranch)
_vocab_recursive_ptree_dump_treelike(nodes, lbranch, nr);
else
printf("NULL");
printf(",");
if (rbranch)
_vocab_recursive_ptree_dump_treelike(nodes, rbranch, nr);
else
printf("NULL");
printf(">");
}
}
void _vocab_recursive_ptree_dump(parse_tree_node_t *nodes, int nr, int prevnr, int blanks) {
int lbranch = nodes[nr].content.branches[0];
int rbranch = nodes[nr].content.branches[1];
int i;
if (nodes[nr].type == kParseTreeLeafNode) {
printf("vocab_dump_parse_tree: Error: consp is nil for element %03x\n", nr);
return;
}
if ((nr > VOCAB_TREE_NODES)/* || (nr < prevnr)*/) {
printf("Error(%04x))", nr);
return;
}
if (lbranch) {
if (nodes[lbranch].type == kParseTreeBranchNode) {
printf("\n");
for (i = 0; i < blanks; i++)
printf(" ");
printf("(");
_vocab_recursive_ptree_dump(nodes, lbranch, nr, blanks + 1);
printf(")\n");
for (i = 0; i < blanks; i++)
printf(" ");
} else
printf("%x", nodes[lbranch].content.value);
printf(" ");
}/* else printf ("nil");*/
if (rbranch) {
if (nodes[rbranch].type == kParseTreeBranchNode)
_vocab_recursive_ptree_dump(nodes, rbranch, nr, blanks);
else
printf("%x", nodes[rbranch].content.value);
}/* else printf("nil");*/
}
void vocab_dump_parse_tree(const char *tree_name, parse_tree_node_t *nodes) {
//_vocab_recursive_ptree_dump_treelike(nodes, 0, 0);
printf("(setq %s \n'(", tree_name);
_vocab_recursive_ptree_dump(nodes, 0, 0, 1);
printf("))\n");
}
void Vocabulary::dumpParseTree() {
//_vocab_recursive_ptree_dump_treelike(nodes, 0, 0);
printf("(setq parse-tree \n'(");
_vocab_recursive_ptree_dump(_parserNodes, 0, 0, 1);
printf("))\n");
}
void Vocabulary::synonymizeTokens(ResultWordList &words) {
if (_synonyms.empty())
return; // No synonyms: Nothing to check
for (ResultWordList::iterator i = words.begin(); i != words.end(); ++i)
for (SynonymList::const_iterator sync = _synonyms.begin(); sync != _synonyms.end(); ++sync)
if (i->_group == sync->replaceant)
i->_group = sync->replacement;
}
void Vocabulary::printParserNodes(int num) {
Console *con = g_sci->getSciDebugger();
for (int i = 0; i < num; i++) {
con->DebugPrintf(" Node %03x: ", i);
if (_parserNodes[i].type == kParseTreeLeafNode)
con->DebugPrintf("Leaf: %04x\n", _parserNodes[i].content.value);
else
con->DebugPrintf("Branch: ->%04x, ->%04x\n", _parserNodes[i].content.branches[0],
_parserNodes[i].content.branches[1]);
}
}
int Vocabulary::parseNodes(int *i, int *pos, int type, int nr, int argc, const char **argv) {
int nextToken = 0, nextValue = 0, newPos = 0, oldPos = 0;
Console *con = g_sci->getSciDebugger();
if (type == kParseNil)
return 0;
if (type == kParseNumber) {
_parserNodes[*pos += 1].type = kParseTreeLeafNode;
_parserNodes[*pos].content.value = nr;
return *pos;
}
if (type == kParseEndOfInput) {
con->DebugPrintf("Unbalanced parentheses\n");
return -1;
}
if (type == kParseClosingParenthesis) {
con->DebugPrintf("Syntax error at token %d\n", *i);
return -1;
}
_parserNodes[oldPos = ++(*pos)].type = kParseTreeBranchNode;
for (int j = 0; j <= 1; j++) {
if (*i == argc) {
nextToken = kParseEndOfInput;
} else {
const char *token = argv[(*i)++];
if (!strcmp(token, "(")) {
nextToken = kParseOpeningParenthesis;
} else if (!strcmp(token, ")")) {
nextToken = kParseClosingParenthesis;
} else if (!strcmp(token, "nil")) {
nextToken = kParseNil;
} else {
nextValue = strtol(token, NULL, 0);
nextToken = kParseNumber;
}
}
if ((newPos = _parserNodes[oldPos].content.branches[j] = parseNodes(i, pos, nextToken, nextValue, argc, argv)) == -1)
return -1;
}
const char *token = argv[(*i)++];
if (strcmp(token, ")"))
con->DebugPrintf("Expected ')' at token %d\n", *i);
return oldPos;
}
} // End of namespace Sci
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