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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.
*
* $URL$
* $Id$
*
*/
/* Functionality to transform the context-free SCI grammar rules into
* strict Greibach normal form (strict GNF), and to test SCI input against
* that grammar, writing an appropriate node tree if successful.
*/
#include "sci/vocabulary.h"
#include "sci/console.h"
#include "common/array.h"
namespace Sci {
#define TOKEN_OPAREN 0xff000000
#define TOKEN_CPAREN 0xfe000000
#define TOKEN_TERMINAL_CLASS 0x10000
#define TOKEN_TERMINAL_GROUP 0x20000
#define TOKEN_STUFFING_WORD 0x40000
#define TOKEN_NON_NT (TOKEN_OPAREN | TOKEN_TERMINAL_CLASS | TOKEN_TERMINAL_GROUP | TOKEN_STUFFING_WORD)
#define TOKEN_TERMINAL (TOKEN_TERMINAL_CLASS | TOKEN_TERMINAL_GROUP)
static int _allocd_rules = 0; // FIXME: Avoid non-const global vars
struct ParseRule {
int _id; /**< non-terminal ID */
uint _firstSpecial; /**< first terminal or non-terminal */
uint _numSpecials; /**< number of terminals and non-terminals */
Common::Array<int> _data; /**< actual data */
~ParseRule() {
assert(_allocd_rules > 0);
--_allocd_rules;
}
// FIXME remove this one again?
bool operator==(const ParseRule &other) const {
return _id == other._id &&
_firstSpecial == other._firstSpecial &&
_numSpecials == other._numSpecials &&
_data == other._data;
}
};
struct ParseRuleList {
int terminal; /**< Terminal character this rule matches against or 0 for a non-terminal rule */
ParseRule *rule;
ParseRuleList *next;
void print() const;
ParseRuleList(ParseRule *r) : rule(r), next(0) {
int term = rule->_data[rule->_firstSpecial];
terminal = ((term & TOKEN_TERMINAL) ? term : 0);
}
~ParseRuleList() {
delete rule;
delete next;
}
};
static void vocab_print_rule(ParseRule *rule) {
int wspace = 0;
if (!rule) {
warning("NULL rule");
return;
}
printf("[%03x] -> ", rule->_id);
if (rule->_data.empty())
printf("e");
for (uint i = 0; i < rule->_data.size(); i++) {
uint token = rule->_data[i];
if (token == TOKEN_OPAREN) {
if (i == rule->_firstSpecial)
printf("_");
printf("(");
wspace = 0;
} else if (token == TOKEN_CPAREN) {
if (i == rule->_firstSpecial)
printf("_");
printf(")");
wspace = 0;
} else {
if (wspace)
printf(" ");
if (i == rule->_firstSpecial)
printf("_");
if (token & TOKEN_TERMINAL_CLASS)
printf("C(%04x)", token & 0xffff);
else if (token & TOKEN_TERMINAL_GROUP)
printf("G(%04x)", token & 0xffff);
else if (token & TOKEN_STUFFING_WORD)
printf("%03x", token & 0xffff);
else
printf("[%03x]", token); /* non-terminal */
wspace = 1;
}
if (i == rule->_firstSpecial)
printf("_");
}
printf(" [%d specials]", rule->_numSpecials);
}
static ParseRule *_vdup(ParseRule *a) {
++_allocd_rules;
return new ParseRule(*a);
}
static ParseRule *_vinsert(ParseRule *turkey, ParseRule *stuffing) {
uint firstnt = turkey->_firstSpecial;
// Search for first TOKEN_NON_NT in 'turkey'
while ((firstnt < turkey->_data.size()) && (turkey->_data[firstnt] & TOKEN_NON_NT))
firstnt++;
// If no TOKEN_NON_NT found, or if it doesn't match the id of 'stuffing', abort.
if ((firstnt == turkey->_data.size()) || (turkey->_data[firstnt] != stuffing->_id))
return NULL;
// Create a new rule as a copy of 'turkey', where the token firstnt has been substituted
// by the rule 'stuffing'.
++_allocd_rules;
ParseRule *rule = new ParseRule(*turkey);
rule->_numSpecials += stuffing->_numSpecials - 1;
rule->_firstSpecial = firstnt + stuffing->_firstSpecial;
rule->_data.resize(turkey->_data.size() - 1 + stuffing->_data.size());
// Replace rule->_data[firstnt] by all of stuffing->_data
Common::copy(stuffing->_data.begin(), stuffing->_data.end(), rule->_data.begin() + firstnt);
if (firstnt < turkey->_data.size() - 1)
Common::copy(turkey->_data.begin() + firstnt + 1, turkey->_data.end(),
rule->_data.begin() + firstnt + stuffing->_data.size());
return rule;
}
static ParseRule *_vbuild_rule(const parse_tree_branch_t *branch) {
int tokens = 0, tokenpos = 0, i;
while (tokenpos < 10 && branch->data[tokenpos]) {
int type = branch->data[tokenpos];
tokenpos += 2;
if ((type == VOCAB_TREE_NODE_COMPARE_TYPE) || (type == VOCAB_TREE_NODE_COMPARE_GROUP) || (type == VOCAB_TREE_NODE_FORCE_STORAGE))
++tokens;
else if (type > VOCAB_TREE_NODE_LAST_WORD_STORAGE)
tokens += 5;
else
return NULL; // invalid
}
ParseRule *rule = new ParseRule();
++_allocd_rules;
rule->_id = branch->id;
rule->_numSpecials = tokenpos >> 1;
rule->_data.resize(tokens);
rule->_firstSpecial = 0;
tokens = 0;
for (i = 0; i < tokenpos; i += 2) {
int type = branch->data[i];
int value = branch->data[i + 1];
if (type == VOCAB_TREE_NODE_COMPARE_TYPE)
rule->_data[tokens++] = value | TOKEN_TERMINAL_CLASS;
else if (type == VOCAB_TREE_NODE_COMPARE_GROUP)
rule->_data[tokens++] = value | TOKEN_TERMINAL_GROUP;
else if (type == VOCAB_TREE_NODE_FORCE_STORAGE)
rule->_data[tokens++] = value | TOKEN_STUFFING_WORD;
else { // normal inductive rule
rule->_data[tokens++] = TOKEN_OPAREN;
rule->_data[tokens++] = type | TOKEN_STUFFING_WORD;
rule->_data[tokens++] = value | TOKEN_STUFFING_WORD;
if (i == 0)
rule->_firstSpecial = tokens;
rule->_data[tokens++] = value; // The non-terminal
rule->_data[tokens++] = TOKEN_CPAREN;
}
}
return rule;
}
static ParseRule *_vsatisfy_rule(ParseRule *rule, const ResultWord &input) {
int dep;
if (!rule->_numSpecials)
return NULL;
dep = rule->_data[rule->_firstSpecial];
if (((dep & TOKEN_TERMINAL_CLASS) && ((dep & 0xffff) & input._class)) ||
((dep & TOKEN_TERMINAL_GROUP) && ((dep & 0xffff) & input._group))) {
ParseRule *retval = new ParseRule(*rule);
++_allocd_rules;
retval->_data[rule->_firstSpecial] = TOKEN_STUFFING_WORD | input._group;
retval->_numSpecials--;
retval->_firstSpecial = 0;
if (retval->_numSpecials) { // find first special, if it exists
for (uint i = rule->_firstSpecial; i < retval->_data.size(); ++i) {
int tmp = retval->_data[i];
if (!(tmp & TOKEN_NON_NT) || (tmp & TOKEN_TERMINAL)) {
retval->_firstSpecial = i;
break;
}
}
}
return retval;
} else
return NULL;
}
void Vocabulary::freeRuleList(ParseRuleList *list) {
delete list;
}
static ParseRuleList *_vocab_add_rule(ParseRuleList *list, ParseRule *rule) {
if (!rule)
return list;
ParseRuleList *new_elem = new ParseRuleList(rule);
if (list) {
const int term = new_elem->terminal;
/* if (term < list->terminal) {
new_elem->next = list;
return new_elem;
} else {*/
ParseRuleList *seeker = list;
while (seeker->next/* && seeker->next->terminal <= term*/) {
if (seeker->next->terminal == term) {
if (*(seeker->next->rule) == *rule) {
delete rule;
delete new_elem;
return list; // No duplicate rules
}
}
seeker = seeker->next;
}
new_elem->next = seeker->next;
seeker->next = new_elem;
return list;
} else {
return new_elem;
}
}
void ParseRuleList::print() const {
const ParseRuleList *list = this;
int pos = 0;
while (list) {
printf("R%03d: ", pos);
vocab_print_rule(list->rule);
printf("\n");
list = list->next;
pos++;
}
printf("%d rules total.\n", pos);
}
static ParseRuleList *_vocab_split_rule_list(ParseRuleList *list) {
assert(list);
if (!list->next || (list->next->terminal)) {
ParseRuleList *tmp = list->next;
list->next = NULL;
return tmp;
} else
return _vocab_split_rule_list(list->next);
}
static void _vocab_free_empty_rule_list(ParseRuleList *list) {
assert(list);
if (list->next)
_vocab_free_empty_rule_list(list->next);
list->next = 0;
list->rule = 0;
delete list;
}
static ParseRuleList *_vocab_merge_rule_lists(ParseRuleList *l1, ParseRuleList *l2) {
ParseRuleList *retval = l1, *seeker = l2;
while (seeker) {
retval = _vocab_add_rule(retval, seeker->rule);
seeker = seeker->next;
}
_vocab_free_empty_rule_list(l2);
return retval;
}
static int _vocab_rule_list_length(ParseRuleList *list) {
return ((list) ? _vocab_rule_list_length(list->next) + 1 : 0);
}
static ParseRuleList *_vocab_clone_rule_list_by_id(ParseRuleList *list, int id) {
ParseRuleList *result = NULL;
ParseRuleList *seeker = list;
while (seeker) {
if (seeker->rule->_id == id) {
result = _vocab_add_rule(result, _vdup(seeker->rule));
}
seeker = seeker->next;
}
return result;
}
ParseRuleList *Vocabulary::buildGNF(bool verbose) {
int iterations = 0;
int last_termrules, termrules = 0;
int ntrules_nr;
ParseRuleList *ntlist = NULL;
ParseRuleList *tlist, *new_tlist;
Console *con = ((SciEngine *)g_engine)->getSciDebugger();
for (uint i = 1; i < _parserBranches.size(); i++) { // branch rule 0 is treated specially
ParseRule *rule = _vbuild_rule(&_parserBranches[i]);
if (!rule)
return NULL;
ntlist = _vocab_add_rule(ntlist, rule);
}
tlist = _vocab_split_rule_list(ntlist);
ntrules_nr = _vocab_rule_list_length(ntlist);
if (verbose)
con->DebugPrintf("Starting with %d rules\n", ntrules_nr);
new_tlist = tlist;
tlist = NULL;
do {
ParseRuleList *new_new_tlist = NULL;
ParseRuleList *ntseeker, *tseeker;
last_termrules = termrules;
ntseeker = ntlist;
while (ntseeker) {
tseeker = new_tlist;
while (tseeker) {
ParseRule *newrule = _vinsert(ntseeker->rule, tseeker->rule);
if (newrule)
new_new_tlist = _vocab_add_rule(new_new_tlist, newrule);
tseeker = tseeker->next;
}
ntseeker = ntseeker->next;
}
tlist = _vocab_merge_rule_lists(tlist, new_tlist);
new_tlist = new_new_tlist;
termrules = _vocab_rule_list_length(new_new_tlist);
if (verbose)
con->DebugPrintf("After iteration #%d: %d new term rules\n", ++iterations, termrules);
} while (termrules && (iterations < 30));
freeRuleList(ntlist);
if (verbose) {
con->DebugPrintf("\nGNF rules:\n");
tlist->print();
con->DebugPrintf("%d allocd rules\n", _allocd_rules);
con->DebugPrintf("Freeing rule list...\n");
freeRuleList(tlist);
return NULL;
}
return tlist;
}
static int _vbpt_pareno(parse_tree_node_t *nodes, int *pos, int base) {
// Opens parentheses
nodes[base].content.branches[0] = (*pos) + 1;
nodes[++(*pos)].type = kParseTreeBranchNode;
nodes[*pos].content.branches[0] = 0;
nodes[*pos].content.branches[1] = 0;
return *pos;
}
static int _vbpt_parenc(parse_tree_node_t *nodes, int *pos, int paren) {
// Closes parentheses for appending
nodes[paren].content.branches[1] = ++(*pos);
nodes[*pos].type = kParseTreeBranchNode;
nodes[*pos].content.branches[0] = 0;
nodes[*pos].content.branches[1] = 0;
return *pos;
}
static int _vbpt_append(parse_tree_node_t *nodes, int *pos, int base, int value) {
// writes one value to an existing base node and creates a successor node for writing
nodes[base].content.branches[0] = ++(*pos);
nodes[*pos].type = kParseTreeLeafNode;
nodes[*pos].content.value = value;
nodes[base].content.branches[1] = ++(*pos);
nodes[*pos].type = kParseTreeBranchNode;
nodes[*pos].content.branches[0] = 0;
nodes[*pos].content.branches[1] = 0;
return *pos;
}
static int _vbpt_terminate(parse_tree_node_t *nodes, int *pos, int base, int value) {
// Terminates, overwriting a nextwrite forknode
nodes[base].type = kParseTreeLeafNode;
nodes[base].content.value = value;
return *pos;
}
static int _vbpt_write_subexpression(parse_tree_node_t *nodes, int *pos, ParseRule *rule, uint rulepos, int writepos) {
uint token;
while ((token = ((rulepos < rule->_data.size()) ? rule->_data[rulepos++] : TOKEN_CPAREN)) != TOKEN_CPAREN) {
uint nexttoken = (rulepos < rule->_data.size()) ? rule->_data[rulepos] : TOKEN_CPAREN;
if (token == TOKEN_OPAREN) {
int writepos2 = _vbpt_pareno(nodes, pos, writepos);
rulepos = _vbpt_write_subexpression(nodes, pos, rule, rulepos, writepos2);
nexttoken = (rulepos < rule->_data.size()) ? rule->_data[rulepos] : TOKEN_CPAREN;
if (nexttoken != TOKEN_CPAREN)
writepos = _vbpt_parenc(nodes, pos, writepos);
} else if (token & TOKEN_STUFFING_WORD) {
if (nexttoken == TOKEN_CPAREN)
writepos = _vbpt_terminate(nodes, pos, writepos, token & 0xffff);
else
writepos = _vbpt_append(nodes, pos, writepos, token & 0xffff);
} else {
printf("\nError in parser (grammar.cpp, _vbpt_write_subexpression()): Rule data broken in rule ");
vocab_print_rule(rule);
printf(", at token position %d\n", *pos);
return rulepos;
}
}
return rulepos;
}
int Vocabulary::parseGNF(const ResultWordList &words, bool verbose) {
Console *con = ((SciEngine *)g_engine)->getSciDebugger();
// Get the start rules:
ParseRuleList *work = _vocab_clone_rule_list_by_id(_parserRules, _parserBranches[0].data[1]);
ParseRuleList *results = NULL;
uint word = 0;
const uint words_nr = words.size();
ResultWordList::const_iterator word_iter = words.begin();
for (word_iter = words.begin(); word_iter != words.end(); ++word_iter, ++word) {
ParseRuleList *new_work = NULL;
ParseRuleList *reduced_rules = NULL;
ParseRuleList *seeker, *subseeker;
if (verbose)
con->DebugPrintf("Adding word %d...\n", word);
seeker = work;
while (seeker) {
if (seeker->rule->_numSpecials <= (words_nr - word))
reduced_rules = _vocab_add_rule(reduced_rules, _vsatisfy_rule(seeker->rule, *word_iter));
seeker = seeker->next;
}
if (reduced_rules == NULL) {
freeRuleList(work);
if (verbose)
con->DebugPrintf("No results.\n");
return 1;
}
freeRuleList(work);
if (word + 1 < words_nr) {
seeker = reduced_rules;
while (seeker) {
if (seeker->rule->_numSpecials) {
int my_id = seeker->rule->_data[seeker->rule->_firstSpecial];
subseeker = _parserRules;
while (subseeker) {
if (subseeker->rule->_id == my_id)
new_work = _vocab_add_rule(new_work, _vinsert(seeker->rule, subseeker->rule));
subseeker = subseeker->next;
}
}
seeker = seeker->next;
}
freeRuleList(reduced_rules);
} else // last word
new_work = reduced_rules;
work = new_work;
if (verbose)
con->DebugPrintf("Now at %d candidates\n", _vocab_rule_list_length(work));
if (work == NULL) {
if (verbose)
con->DebugPrintf("No results.\n");
return 1;
}
}
results = work;
if (verbose) {
con->DebugPrintf("All results (excluding the surrounding '(141 %03x' and ')'):\n", _parserBranches[0].id);
results->print();
con->DebugPrintf("\n");
}
// now use the first result
{
int temp, pos;
_parserNodes[0].type = kParseTreeBranchNode;
_parserNodes[0].content.branches[0] = 1;
_parserNodes[0].content.branches[1] = 2;
_parserNodes[1].type = kParseTreeLeafNode;
_parserNodes[1].content.value = 0x141;
_parserNodes[2].type = kParseTreeBranchNode;
_parserNodes[2].content.branches[0] = 0;
_parserNodes[2].content.branches[1] = 0;
pos = 2;
temp = _vbpt_append(_parserNodes, &pos, 2, _parserBranches[0].id);
//_vbpt_write_subexpression(nodes, &pos, results[_vocab_rule_list_length(results)].rule, 0, temp);
_vbpt_write_subexpression(_parserNodes, &pos, results->rule, 0, temp);
}
freeRuleList(results);
return 0;
}
} // End of namespace Sci
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