Mercurial > ~dholland > hg > ag > index.cgi
view anagram/agcore/q8.cpp @ 14:a02e9434072e
Fix friend declaration for gcc10.
XXX: did not check it against the IBM compiler, might end up needing
XXX: to be conditional.
author | David A. Holland |
---|---|
date | Tue, 31 May 2022 00:59:42 -0400 |
parents | 13d2b8934445 |
children |
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/* * AnaGram, A System for Syntax Directed Programming * Copyright 1993-2002 Parsifal Software. All Rights Reserved. * See the file COPYING for license and usage terms. * * q8.cpp */ #include "agbaltree.h" #include "arrays.h" #include "assert.h" #include "bitmap.h" #include "dict.h" #include "q1glbl.h" #include "q8.h" #include "rule.h" #include "stacks.h" #include "token.h" //#define INCLUDE_LOGGING #include "log.h" int external_reduction; static void find_free_states(int s) { LOGSECTION("find_free_states"); LOGV(s); state_number_map *msn = &map_state_number[s]; unsigned *p = lstptr(*msn, gotos); int n = msn->n_gotos; while (n--) { int t = *p++; int ns = *p++; if (map_token_number[t].zero_length_flag) { //if (distinguish_lexemes && t == disregard_token) continue; if (isws(ns)) { continue; } LOGV(t) LCV(disregard_token); find_free_states(ns); } } } static void frss13(int sn, int f) { LOGSECTION("frss13"); LOGV(sn) LCV(f); int flag, kn, g, s, nf, n, *sp, m; unsigned t; unsigned *p; unsigned *px; state_number_map *msn = &map_state_number[sn]; if (f == 0) { isws(0); return; } sp = ibnfs + ibnfb[f]; m = ibnfn[f]; while (m--) { int i; t = sp[m]; if (map_token_number[t].subgrammar) { external_reduction = 1; continue; } flag = 0; px = lstptr(*msn,completions); i = 2*msn->n_completions; while (i) { i-=2; if (px[i] != t) { continue; } //g = px[i+1]; Rule rule(px[i+1]); add_tuple_dict_new(frss_dict, sn, (int) rule, rule->length()-1); flag++; break; } if (flag) { continue; } px = lstptr(*msn, gotos); for (kn = msn->n_gotos; kn--; px +=2) { if (t == *px) { break; } } if (kn < 0) continue; s = px[1]; isws(s); p = (unsigned *) dict_str(isht_dict,s); nf = *p++ - 1; p += nf; nf /= 2; while (nf--) { n = *--p; g = *--p; Rule rule = g; if ((unsigned) n < rule->non_vanishing_length) { continue; } //if (distinguish_lexemes && n < rule->length() && // (int) rule.token(n) == disregard_token) { // continue; //} LOGV(sn) LCV(g) LCV(n); add_tuple_dict_new(frss_dict, sn, g, n-1); } find_free_states(s); } } void frss12(int sn, int f, int n) { unsigned k, ps; unsigned *p, nt; unsigned kk; LOGSECTION("frss12"); LOGV(sn) LCV(f) LCV(n); add_tuple_dict_new(frss_dict,sn,f,n); external_reduction = 0; iws(); k = 0; while (k < frss_dict->nsx) { completed_form_map *mcf; extract_tuple_dict(frss_dict, k, &sn, &f, &n); LOGV(k) LCV(frss_dict->nsx) LCV(sn) LCV(f) LCV(n) ; k++; if (f == 0) { continue; } int length = Rule(f)->length(); assert(n <= length); LOGV(f) LCV(length) LCV(n); if (n == length) { kk = add_tuple_dict_new(completed_form_dict, sn, f); check_size(map_completed_form, kk, kk); mcf = &map_completed_form[kk]; external_reduction |= mcf->external_reduction; if (mcf->reduction_states_index) { p = lstptr(*mcf, reduction_states); nt = mcf->n_reduction_states; while (nt--) { isws(*p++); } continue; } } if (n) { LOGSECTION("Previous states"); state_number_map *msn = &map_state_number[sn]; unsigned *p = lstptr(*msn,previous_states); int nt = msn->n_previous_states; while (nt--) { ps = *p++; add_tuple_dict_new(frss_dict, ps, f, n-1); LOGV(ps) LCV(f) LCV(n-1); } continue; } frss13(sn, f); } reset_tuple_dict(frss_dict); } static AgArray< AgBalancedTree<int> > digraphList; //static void grstt3(unsigned t, unsigned ft) { static void grstt3(Token token, Token follower) { LOGSECTION("grstt3"); LOGV((int) token) LCV((int) follower); unsigned nt; unsigned n; //Token token = t; //Token follower = ft; if (digraphList[token].insert(follower)) return; n = token->ruleList.size(); while (n--) { Rule rule = token.rule(n); RuleDescriptor &ruleDescriptor(rule); if ((nt = ruleDescriptor.length()) == 0) { continue; } Token ruleToken; do { //token = rule.token(--nt); ruleToken = ruleDescriptor.token(--nt); if (!ruleToken->non_terminal_flag) { break; } grstt3(ruleToken, follower); } while (nt && ruleToken->zero_length_flag); } } void bfst3(void) { LOGSECTION("bfst3"); unsigned n, k, kk; Rule ruleZero(0); int last = ruleZero->length() - 1; if (last < 0) { return; } LOGV(last) LCV(ruleZero->length()) LCV(ruleZero->elementList.size()); if (ruleZero.token(last).isNull()) { return; } digraphList = AgArray< AgBalancedTree<int> >(Token::count()); grstt3(ruleZero.token(last), Token()); for (Each<Rule> rule; rule.loopNotFinished(); rule.getNext()) { RuleDescriptor &ruleDescriptor(rule); //n = rule->length(); n = ruleDescriptor.length(); if (n < 2) { continue; } k = 0; while (1) { LOGV(rule) LCV(rule->length()) LCV(k); //Token token = rule.token(k); //k++; if (++k >= n) { break; } Token token = ruleDescriptor.token(k-1); token_number_map &tokenDescriptor(token); //if (!token->non_terminal_flag && // !token->zero_length_flag) continue; if (!tokenDescriptor.non_terminal_flag && !tokenDescriptor.zero_length_flag) { continue; } kk = k; while (kk < n) { LOGV(rule) LCV(rule->length()) LCV(kk); //Token followingToken = rule.token(kk); Token followingToken = ruleDescriptor.token(kk); grstt3(token, followingToken); if (followingToken->zero_length_flag == 0) { break; } kk++; } } } for (Each<Token> t; t.loopNotFinished(); t.getNext()) { AgBalancedTree<int> &list = digraphList[t]; Bitmap map(Token::count()); AgStack<Token> followers; for (unsigned i = 0; i < list.size(); i++) { if (map.setBit(list[i])) { continue; } followers.push(list[i]); } t->followerList = followers; } digraphList.reset(); } void ivgtt(void) { LOGSECTION("ivgtt"); unsigned ns, i; if (nits == 0) { return; } LOGV(n_gotos); AgArray< AgBalancedTree< int > > predecessor(nits); for (i = 0; i < nits; i++){ state_number_map *sp = &map_state_number[i]; unsigned *p = lstptr(*sp, gotos); int nt = sp->n_gotos; LOGV(i) LCV(nt); while (nt--) { p++; ns = *p++; assert(ns < nits); predecessor[ns].insert(i); } } for (i = 0; i < nits; i++) { state_number_map *sp = &map_state_number[i]; AgBalancedTree<int> &list = predecessor[i]; int n = list.size(); iws(); LOGS("State") LS(i); for (int j = 0; j < n; j++) { #ifdef INCLUDE_LOGGING LOGX() LS(list[j]); #endif aws(list[j]); } sp->previous_states_index = store_list(previous_states_list); int nps = rws(); sp->n_previous_states = nps; } LOGV(n_gotos); }