%{ /* 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. * * $URL$ * $Id$ * */ #include "sci/engine/state.h" // Bison generates an empty switch statement that gives a warning in MSVC. // This disables that warning. #ifdef _MSC_VER #pragma warning(disable:4065) #endif namespace Sci { #define SAID_BRANCH_NULL 0 #define MAX_SAID_TOKENS 128 // Maximum number of words to be expected in a parsed sentence #define AUGMENT_MAX_WORDS 64 #define ANYWORD 0xfff #define WORD_TYPE_BASE 0x141 #define WORD_TYPE_REF 0x144 #define WORD_TYPE_SYNTACTIC_SUGAR 0x145 #define AUGMENT_SENTENCE_PART_BRACKETS 0x152 // Minor numbers #define AUGMENT_SENTENCE_MINOR_MATCH_PHRASE 0x14c #define AUGMENT_SENTENCE_MINOR_MATCH_WORD 0x153 #define AUGMENT_SENTENCE_MINOR_RECURSE 0x144 #define AUGMENT_SENTENCE_MINOR_PARENTHESES 0x14f #undef YYDEBUG /*1*/ //#define SAID_DEBUG*/ //#define SCI_DEBUG_PARSE_TREE_AUGMENTATION // uncomment to debug parse tree augmentation #ifdef SCI_DEBUG_PARSE_TREE_AUGMENTATION #define scidprintf printf #else void print_nothing(...) { } #define scidprintf print_nothing #endif static char *said_parse_error; static int said_token; static int said_tokens_nr; static int said_tokens[MAX_SAID_TOKENS]; static int said_blessed; // increminated by said_top_branch static int said_tree_pos; // Set to 0 if we're out of space #define SAID_TREE_START 4; // Reserve space for the 4 top nodes #define VALUE_IGNORE -424242 static parse_tree_node_t said_tree[VOCAB_TREE_NODES]; typedef int wgroup_t; typedef int tree_t; typedef int said_spec_t; static tree_t said_aug_branch(int, int, tree_t, tree_t); static tree_t said_attach_branch(tree_t, tree_t); /* static tree_t said_wgroup_branch(wgroup_t); */ static said_spec_t said_top_branch(tree_t); static tree_t said_paren(tree_t, tree_t); static tree_t said_value(int, tree_t); static tree_t said_terminal(int); static int yylex(); static int yyerror(const char *s) { said_parse_error = strdup(s); return 1; /* Abort */ } %} %token WGROUP /* Word group */ %token YY_COMMA /* 0xf0 */ %token YY_AMP /* 0xf1 */ %token YY_SLASH /* 0xf2 */ %token YY_PARENO /* 0xf3 */ %token YY_PARENC /* 0xf4 */ %token YY_BRACKETSO /* 0xf5 */ %token YY_BRACKETSC /* 0xf6 */ %token YY_HASH /* 0xf7 */ %token YY_LT /* 0xf8 */ %token YY_GT /* 0xf9 */ %token YY_BRACKETSO_LT /* special token used to imitate LR(2) behaviour */ %token YY_BRACKETSO_SLASH /* special token used to imitate LR(2) behaviour */ %token YY_LT_BRACKETSO /* special token used to imitate LR(2) behaviour */ %token YY_LT_PARENO /* special token used to imitate LR(2) behaviour */ %% saidspec : leftspec optcont { $$ = said_top_branch(said_attach_branch($1, $2)); } | leftspec midspec optcont { $$ = said_top_branch(said_attach_branch($1, said_attach_branch($2, $3))); } | leftspec midspec rightspec optcont { $$ = said_top_branch(said_attach_branch($1, said_attach_branch($2, said_attach_branch($3, $4)))); } ; optcont : /* empty */ { $$ = SAID_BRANCH_NULL; } | YY_GT { $$ = said_paren(said_value(0x14b, said_value(0xf900, said_terminal(0xf900))), SAID_BRANCH_NULL); } ; leftspec : /* empty */ { $$ = SAID_BRANCH_NULL; } | expr { $$ = said_paren(said_value(0x141, said_value(0x149, $1)), SAID_BRANCH_NULL); } ; midspec : YY_SLASH expr { $$ = said_aug_branch(0x142, 0x14a, $2, SAID_BRANCH_NULL); } | YY_BRACKETSO_SLASH YY_SLASH expr YY_BRACKETSC { $$ = said_aug_branch(0x152, 0x142, said_aug_branch(0x142, 0x14a, $3, SAID_BRANCH_NULL), SAID_BRANCH_NULL); } | YY_SLASH { $$ = SAID_BRANCH_NULL; } ; rightspec : YY_SLASH expr { $$ = said_aug_branch(0x143, 0x14a, $2, SAID_BRANCH_NULL); } | YY_BRACKETSO_SLASH YY_SLASH expr YY_BRACKETSC { $$ = said_aug_branch(0x152, 0x143, said_aug_branch(0x143, 0x14a, $3, SAID_BRANCH_NULL), SAID_BRANCH_NULL); } | YY_SLASH { $$ = SAID_BRANCH_NULL; } ; word : WGROUP { $$ = said_paren(said_value(0x141, said_value(0x153, said_terminal($1))), SAID_BRANCH_NULL); } ; cwordset : wordset { $$ = said_aug_branch(0x141, 0x14f, $1, SAID_BRANCH_NULL); } | YY_BRACKETSO wordset YY_BRACKETSC { $$ = said_aug_branch(0x141, 0x14f, said_aug_branch(0x152, 0x14c, said_aug_branch(0x141, 0x14f, $2, SAID_BRANCH_NULL), SAID_BRANCH_NULL), SAID_BRANCH_NULL); } ; wordset : word { $$ = $1; } | YY_PARENO expr YY_PARENC { $$ = said_aug_branch(0x141, 0x14c, $2, SAID_BRANCH_NULL); } | wordset YY_COMMA wordset { $$ = said_attach_branch($1, $3); } | wordset YY_BRACKETSO_LT wordrefset YY_BRACKETSC { $$ = said_attach_branch($1, $3); } | wordset YY_COMMA YY_BRACKETSO wordset YY_BRACKETSC { $$ = said_attach_branch($1, $3); } ; expr : cwordset cwordrefset { $$ = said_attach_branch($1, $2); } | cwordset { $$ = $1; } | cwordrefset { $$ = $1; } ; cwordrefset : wordrefset { $$ = $1; } | YY_BRACKETSO_LT wordrefset YY_BRACKETSC { $$ = said_aug_branch(0x152, 0x144, $2, SAID_BRANCH_NULL); } | wordrefset YY_BRACKETSO_LT wordrefset YY_BRACKETSC { $$ = said_attach_branch($1, said_aug_branch(0x152, 0x144, $3, SAID_BRANCH_NULL)); } ; wordrefset : YY_LT word recref { $$ = said_aug_branch(0x144, 0x14f, $2, $3); } | YY_LT_PARENO YY_PARENO expr YY_PARENC { $$ = said_aug_branch(0x144, 0x14f, said_aug_branch(0x141, 0x144, $2, SAID_BRANCH_NULL), SAID_BRANCH_NULL); } | YY_LT wordset { $$ = said_aug_branch(0x144, 0x14f, $2, SAID_BRANCH_NULL); } | YY_LT_BRACKETSO YY_BRACKETSO wordset YY_BRACKETSC { $$ = said_aug_branch(0x152, 0x144, said_aug_branch(0x144, 0x14f, $3, SAID_BRANCH_NULL), SAID_BRANCH_NULL); } ; recref : YY_LT wordset recref { $$ = said_aug_branch(0x141, 0x144, said_aug_branch(0x144, 0x14f, $2, SAID_BRANCH_NULL), $3); } | YY_LT wordset { $$ = said_aug_branch(0x141, 0x144, said_aug_branch(0x144, 0x14f, $2, SAID_BRANCH_NULL), SAID_BRANCH_NULL); } | YY_LT_PARENO YY_PARENO expr YY_PARENC { $$ = said_aug_branch(0x141, 0x14c, $2, SAID_BRANCH_NULL); } ; %% int parse_yy_token_lookup[] = {YY_COMMA, YY_AMP, YY_SLASH, YY_PARENO, YY_PARENC, YY_BRACKETSO, YY_BRACKETSC, YY_HASH, YY_LT, YY_GT}; static int yylex() { int retval = said_tokens[said_token++]; if (retval < SAID_LONG(SAID_FIRST)) { yylval = retval; retval = WGROUP; } else { retval >>= 8; if (retval == SAID_TERM) retval = 0; else { assert(retval >= SAID_FIRST); retval = parse_yy_token_lookup[retval - SAID_FIRST]; if (retval == YY_BRACKETSO) { if ((said_tokens[said_token] >> 8) == SAID_LT) retval = YY_BRACKETSO_LT; else if ((said_tokens[said_token] >> 8) == SAID_SLASH) retval = YY_BRACKETSO_SLASH; } else if (retval == YY_LT && (said_tokens[said_token] >> 8) == SAID_BRACKO) { retval = YY_LT_BRACKETSO; } else if (retval == YY_LT && (said_tokens[said_token] >> 8) == SAID_PARENO) { retval = YY_LT_PARENO; } } } return retval; } static int said_next_node() { return ((said_tree_pos == 0) || (said_tree_pos >= VOCAB_TREE_NODES)) ? said_tree_pos = 0 : said_tree_pos++; } #define SAID_NEXT_NODE said_next_node() static int said_leaf_node(tree_t pos, int value) { said_tree[pos].type = kParseTreeLeafNode; if (value != VALUE_IGNORE) said_tree[pos].content.value = value; return pos; } static int said_branch_node(tree_t pos, int left, int right) { said_tree[pos].type = kParseTreeBranchNode; if (left != VALUE_IGNORE) said_tree[pos].content.branches[0] = left; if (right != VALUE_IGNORE) said_tree[pos].content.branches[1] = right; return pos; } static tree_t said_paren(tree_t t1, tree_t t2) { if (t1) return said_branch_node(SAID_NEXT_NODE, t1, t2); else return t2; } static tree_t said_value(int val, tree_t t) { return said_branch_node(SAID_NEXT_NODE, said_leaf_node(SAID_NEXT_NODE, val), t); } static tree_t said_terminal(int val) { return said_leaf_node(SAID_NEXT_NODE, val); } static tree_t said_aug_branch(int n1, int n2, tree_t t1, tree_t t2) { int retval; retval = said_branch_node(SAID_NEXT_NODE, said_branch_node(SAID_NEXT_NODE, said_leaf_node(SAID_NEXT_NODE, n1), said_branch_node(SAID_NEXT_NODE, said_leaf_node(SAID_NEXT_NODE, n2), t1) ), t2); #ifdef SAID_DEBUG fprintf(stderr, "AUG(0x%x, 0x%x, [%04x], [%04x]) = [%04x]\n", n1, n2, t1, t2, retval); #endif return retval; } static tree_t said_attach_branch(tree_t base, tree_t attacheant) { #ifdef SAID_DEBUG fprintf(stderr, "ATT2([%04x], [%04x]) = [%04x]\n", base, attacheant, base); #endif if (!attacheant) return base; if (!base) return attacheant; if (!base) return 0; // Happens if we're out of space said_branch_node(base, VALUE_IGNORE, attacheant); return base; } static said_spec_t said_top_branch(tree_t first) { #ifdef SAID_DEBUG fprintf(stderr, "TOP([%04x])\n", first); #endif said_branch_node(0, 1, 2); said_leaf_node(1, 0x141); // Magic number #1 said_branch_node(2, 3, first); said_leaf_node(3, 0x13f); // Magic number #2 ++said_blessed; return 0; } static int said_parse_spec(byte *spec) { int nextitem; said_parse_error = NULL; said_token = 0; said_tokens_nr = 0; said_blessed = 0; said_tree_pos = SAID_TREE_START; do { nextitem = *spec++; if (nextitem < SAID_FIRST) said_tokens[said_tokens_nr++] = nextitem << 8 | *spec++; else said_tokens[said_tokens_nr++] = SAID_LONG(nextitem); } while ((nextitem != SAID_TERM) && (said_tokens_nr < MAX_SAID_TOKENS)); if (nextitem == SAID_TERM) yyparse(); else { warning("SAID spec is too long"); return 1; } if (said_parse_error) { warning("Error while parsing SAID spec: %s", said_parse_error); free(said_parse_error); return 1; } if (said_tree_pos == 0) { warning("Out of tree space while parsing SAID spec"); return 1; } if (said_blessed != 1) { warning("Found multiple top branches"); return 1; } return 0; } /**********************/ /**** Augmentation ****/ /**********************/ // primitive functions #define AUG_READ_BRANCH(a, br, p) \ if (tree[p].type != kParseTreeBranchNode) \ return 0; \ a = tree[p].content.branches[br]; #define AUG_READ_VALUE(a, p) \ if (tree[p].type != kParseTreeLeafNode) \ return 0; \ a = tree[p].content.value; #define AUG_ASSERT(i) \ if (!i) return 0; static int aug_get_next_sibling(parse_tree_node_t *tree, int pos, int *first, int *second) { // Returns the next sibling relative to the specified position in 'tree', // sets *first and *second to its augment node values, returns the new position // or 0 if there was no next sibling int seek, valpos; AUG_READ_BRANCH(pos, 1, pos); AUG_ASSERT(pos); AUG_READ_BRANCH(seek, 0, pos); AUG_ASSERT(seek); // Now retrieve first value AUG_READ_BRANCH(valpos, 0, seek); AUG_ASSERT(valpos); AUG_READ_VALUE(*first, valpos); // Get second value AUG_READ_BRANCH(seek, 1, seek); AUG_ASSERT(seek); AUG_READ_BRANCH(valpos, 0, seek); AUG_ASSERT(valpos); AUG_READ_VALUE(*second, valpos); return pos; } static int aug_get_wgroup(parse_tree_node_t *tree, int pos) { // Returns 0 if pos in tree is not the root of a 3-element list, otherwise // it returns the last element (which, in practice, is the word group int val; AUG_READ_BRANCH(pos, 0, pos); AUG_ASSERT(pos); AUG_READ_BRANCH(pos, 1, pos); AUG_ASSERT(pos); AUG_READ_BRANCH(pos, 1, pos); AUG_ASSERT(pos); AUG_READ_VALUE(val, pos); return val; } static int aug_get_base_node(parse_tree_node_t *tree) { int startpos = 0; AUG_READ_BRANCH(startpos, 1, startpos); return startpos; } // semi-primitive functions static int aug_get_first_child(parse_tree_node_t *tree, int pos, int *first, int *second) { // like aug_get_next_sibling, except that it recurses into the tree and // finds the first child (usually *not* Ayanami Rei) of the current branch // rather than its next sibling. AUG_READ_BRANCH(pos, 0, pos); AUG_ASSERT(pos); AUG_READ_BRANCH(pos, 1, pos); AUG_ASSERT(pos); return aug_get_next_sibling(tree, pos, first, second); } static void aug_find_words_recursively(parse_tree_node_t *tree, int startpos, int *base_words, int *base_words_nr, int *ref_words, int *ref_words_nr, int maxwords, int refbranch) { // Finds and lists all base (141) and reference (144) words */ int major, minor; int word; int pos = aug_get_first_child(tree, startpos, &major, &minor); //if (major == WORD_TYPE_REF) // refbranch = 1; while (pos) { if ((word = aug_get_wgroup(tree, pos))) { // found a word if (!refbranch && major == WORD_TYPE_BASE) { if ((*base_words_nr) == maxwords) { warning("Out of regular words"); return; // return gracefully } base_words[*base_words_nr] = word; // register word ++(*base_words_nr); } if (major == WORD_TYPE_REF || refbranch) { if ((*ref_words_nr) == maxwords) { warning("Out of reference words"); return; // return gracefully } ref_words[*ref_words_nr] = word; // register word ++(*ref_words_nr); } if (major != WORD_TYPE_SYNTACTIC_SUGAR && major != WORD_TYPE_BASE && major != WORD_TYPE_REF) warning("aug_find_words_recursively(): Unknown word type %03x", major); } else // Did NOT find a word group: Attempt to recurse aug_find_words_recursively(tree, pos, base_words, base_words_nr, ref_words, ref_words_nr, maxwords, refbranch || major == WORD_TYPE_REF); pos = aug_get_next_sibling(tree, pos, &major, &minor); } } static void aug_find_words(parse_tree_node_t *tree, int startpos, int *base_words, int *base_words_nr, int *ref_words, int *ref_words_nr, int maxwords) { // initializing wrapper for aug_find_words_recursively() *base_words_nr = 0; *ref_words_nr = 0; aug_find_words_recursively(tree, startpos, base_words, base_words_nr, ref_words, ref_words_nr, maxwords, 0); } static int aug_contains_word(int *list, int length, int word) { int i; if (word == ANYWORD) return (length); for (i = 0; i < length; i++) if (list[i] == word) return 1; return 0; } static int augment_sentence_expression(parse_tree_node_t *saidt, int augment_pos, parse_tree_node_t *parset, int parse_branch, int major, int minor, int *base_words, int base_words_nr, int *ref_words, int ref_words_nr); static int augment_match_expression_p(parse_tree_node_t *saidt, int augment_pos, parse_tree_node_t *parset, int parse_basepos, int major, int minor, int *base_words, int base_words_nr, int *ref_words, int ref_words_nr) { int cmajor, cminor, cpos; cpos = aug_get_first_child(saidt, augment_pos, &cmajor, &cminor); if (!cpos) { warning("augment_match_expression_p(): Empty condition"); return 1; } scidprintf("Attempting to match (%03x %03x (%03x %03x\n", major, minor, cmajor, cminor); if ((major == WORD_TYPE_BASE) && (minor == AUGMENT_SENTENCE_MINOR_RECURSE)) return augment_match_expression_p(saidt, cpos, parset, parse_basepos, cmajor, cminor, base_words, base_words_nr, ref_words, ref_words_nr); switch (major) { case WORD_TYPE_BASE: while (cpos) { if (cminor == AUGMENT_SENTENCE_MINOR_MATCH_WORD) { int word = aug_get_wgroup(saidt, cpos); scidprintf("Looking for word %03x\n", word); if (aug_contains_word(base_words, base_words_nr, word)) return 1; } else if (cminor == AUGMENT_SENTENCE_MINOR_MATCH_PHRASE) { if (augment_sentence_expression(saidt, cpos, parset, parse_basepos, cmajor, cminor, base_words, base_words_nr, ref_words, ref_words_nr)) return 1; } else if (cminor == AUGMENT_SENTENCE_MINOR_PARENTHESES) { int gc_major, gc_minor; int gchild = aug_get_first_child(saidt, cpos, &gc_major, &gc_minor); while (gchild) { if (augment_match_expression_p(saidt, cpos, parset, parse_basepos, major, minor, base_words, base_words_nr, ref_words, ref_words_nr)) return 1; gchild = aug_get_next_sibling(saidt, gchild, &gc_major, &gc_minor); } } else warning("augment_match_expression_p(): Unknown type 141 minor number %3x", cminor); cpos = aug_get_next_sibling(saidt, cpos, &cmajor, &cminor); } break; case WORD_TYPE_REF: while (cpos) { if (cminor == AUGMENT_SENTENCE_MINOR_MATCH_WORD) { int word = aug_get_wgroup(saidt, cpos); scidprintf("Looking for refword %03x\n", word); if (aug_contains_word(ref_words, ref_words_nr, word)) return 1; } else if (cminor == AUGMENT_SENTENCE_MINOR_MATCH_PHRASE) { if (augment_match_expression_p(saidt, cpos, parset, parse_basepos, cmajor, cminor, base_words, base_words_nr, ref_words, ref_words_nr)) return 1; } else if (cminor == AUGMENT_SENTENCE_MINOR_PARENTHESES) { int gc_major, gc_minor; int gchild = aug_get_first_child(saidt, cpos, &gc_major, &gc_minor); while (gchild) { if (augment_match_expression_p(saidt, cpos, parset, parse_basepos, major, minor, base_words, base_words_nr, ref_words, ref_words_nr)) return 1; gchild = aug_get_next_sibling(saidt, gchild, &gc_major, &gc_minor); } } else warning("augment_match_expression_p(): Unknown type 144 minor number %3x", cminor); cpos = aug_get_next_sibling(saidt, cpos, &cmajor, &cminor); } break; case AUGMENT_SENTENCE_PART_BRACKETS: if (augment_match_expression_p(saidt, cpos, parset, parse_basepos, cmajor, cminor, base_words, base_words_nr, ref_words, ref_words_nr)) return 1; scidprintf("Didn't match subexpression; checking sub-bracked predicate %03x\n", cmajor); switch (cmajor) { case WORD_TYPE_BASE: if (!base_words_nr) return 1; break; case WORD_TYPE_REF: if (!ref_words_nr) return 1; break; default: warning("augment_match_expression_p(): (subp1) Unkonwn sub-bracket predicate %03x", cmajor); } break; default: warning("augment_match_expression_p(): Unknown predicate %03x", major); } scidprintf("augment_match_expression_p(): Generic failure\n"); return 0; } static int augment_sentence_expression(parse_tree_node_t *saidt, int augment_pos, parse_tree_node_t *parset, int parse_branch, int major, int minor, int *base_words, int base_words_nr, int *ref_words, int ref_words_nr) { int check_major, check_minor; int check_pos = aug_get_first_child(saidt, augment_pos, &check_major, &check_minor); do { if (!(augment_match_expression_p(saidt, check_pos, parset, parse_branch, check_major, check_minor, base_words, base_words_nr, ref_words, ref_words_nr))) return 0; } while ((check_pos = aug_get_next_sibling(saidt, check_pos, &check_major, &check_minor))); return 1; } static int augment_sentence_part(parse_tree_node_t *saidt, int augment_pos, parse_tree_node_t *parset, int parse_basepos, int major, int minor) { int pmajor, pminor; int parse_branch = parse_basepos; int optional = 0; int foundwords = 0; scidprintf("Augmenting (%03x %03x\n", major, minor); if (major == AUGMENT_SENTENCE_PART_BRACKETS) { // '[/ foo]' is true if '/foo' or if there // exists no x for which '/x' is true if ((augment_pos = aug_get_first_child(saidt, augment_pos, &major, &minor))) { scidprintf("Optional part: Now augmenting (%03x %03x\n", major, minor); optional = 1; } else { scidprintf("Matched empty optional expression\n"); return 1; } } if ((major < 0x141) || (major > 0x143)) { scidprintf("augment_sentence_part(): Unexpected sentence part major number %03x\n", major); return 0; } while ((parse_branch = aug_get_next_sibling(parset, parse_branch, &pmajor, &pminor))) { if (pmajor == major) { // found matching sentence part int success; int base_words_nr; int ref_words_nr; int base_words[AUGMENT_MAX_WORDS]; int ref_words[AUGMENT_MAX_WORDS]; #ifdef SCI_DEBUG_PARSE_TREE_AUGMENTATION int i; #endif scidprintf("Found match with pminor = %03x\n", pminor); aug_find_words(parset, parse_branch, base_words, &base_words_nr, ref_words, &ref_words_nr, AUGMENT_MAX_WORDS); foundwords |= (ref_words_nr | base_words_nr); #ifdef SCI_DEBUG_PARSE_TREE_AUGMENTATION printf("%d base words:", base_words_nr); for (i = 0; i < base_words_nr; i++) printf(" %03x", base_words[i]); printf("\n%d reference words:", ref_words_nr); for (i = 0; i < ref_words_nr; i++) printf(" %03x", ref_words[i]); printf("\n"); #endif success = augment_sentence_expression(saidt, augment_pos, parset, parse_basepos, major, minor, base_words, base_words_nr, ref_words, ref_words_nr); if (success) { scidprintf("SUCCESS on augmenting (%03x %03x\n", major, minor); return 1; } } } if (optional && (foundwords == 0)) { scidprintf("Found no words and optional branch => SUCCESS on augmenting (%03x %03x\n", major, minor); return 1; } scidprintf("FAILURE on augmenting (%03x %03x\n", major, minor); return 0; } static int augment_parse_nodes(parse_tree_node_t *parset, parse_tree_node_t *saidt) { int augment_basepos = 0; int parse_basepos; int major, minor; int dontclaim = 0; parse_basepos = aug_get_base_node(parset); if (!parse_basepos) { warning("augment_parse_nodes(): Parse tree is corrupt"); return 0; } augment_basepos = aug_get_base_node(saidt); if (!augment_basepos) { warning("augment_parse_nodes(): Said tree is corrupt"); return 0; } while ((augment_basepos = aug_get_next_sibling(saidt, augment_basepos, &major, &minor))) { if ((major == 0x14b) && (minor == SAID_LONG(SAID_GT))) dontclaim = 1; // special case else // normal sentence part if (!(augment_sentence_part(saidt, augment_basepos, parset, parse_basepos, major, minor))) { scidprintf("Returning failure\n"); return 0; // fail } } scidprintf("Returning success with dontclaim=%d\n", dontclaim); if (dontclaim) return SAID_PARTIAL_MATCH; else return 1; // full match } /*******************/ /**** Main code ****/ /*******************/ int said(EngineState *s, byte *spec, bool verbose) { int retval; Vocabulary *voc = g_sci->getVocabulary(); parse_tree_node_t *parse_tree_ptr = voc->_parserNodes; if (voc->parserIsValid) { if (said_parse_spec(spec)) { printf("Offending spec was: "); voc->decipherSaidBlock(spec); return SAID_NO_MATCH; } if (verbose) vocab_dump_parse_tree("Said-tree", said_tree); // Nothing better to do yet retval = augment_parse_nodes(parse_tree_ptr, &(said_tree[0])); if (!retval) return SAID_NO_MATCH; else if (retval != SAID_PARTIAL_MATCH) return SAID_FULL_MATCH; else return SAID_PARTIAL_MATCH; } return SAID_NO_MATCH; } #ifdef SAID_DEBUG_PROGRAM int main (int argc, char *argv) { byte block[] = {0x01, 0x00, 0xf8, 0xf5, 0x02, 0x01, 0xf6, 0xf2, 0x02, 0x01, 0xf2, 0x01, 0x03, 0xff}; EngineState s; s.parser_valid = 1; said(&s, block); } #endif } // End of namespace Sci