/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 1990 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1988 AT&T */ /* All Rights Reserved */ #pragma ident "%Z%%M% %I% %E% SMI" #include "dextern" #define NOMORE -1000 static void gin(int); static void stin(int); static void osummary(void); static void aoutput(void); static void arout(wchar_t *, int *, int); static int nxti(void); static int gtnm(void); static int *ggreed; static int *pgo; static int *yypgo; static int maxspr = 0; /* maximum spread of any entry */ static int maxoff = 0; /* maximum offset into an array */ int *optimmem; static int *maxa; static int nxdb = 0; static int adb = 0; void callopt() { register i, *p, j, k, *q; ggreed = (int *) malloc(sizeof (int) * size); pgo = (int *) malloc(sizeof (int) * size); yypgo = &nontrst[0].tvalue; /* read the arrays from tempfile and set parameters */ if ((finput = fopen(TEMPNAME, "r")) == NULL) /* * TRANSLATION_NOTE -- This is a message from yacc. * This message is passed to error() function. * tempfile can be translated as temporary file. */ error(gettext( "optimizer cannot open tempfile")); optimmem = tracemem; pgo[0] = 0; temp1[0] = 0; nstate = 0; nnonter = 0; for (;;) { switch (gtnm()) { case L'\n': temp1[++nstate] = (--optimmem) - tracemem; /* FALLTHRU */ case L',': continue; case L'$': break; default: error("bad tempfile"); } break; } temp1[nstate] = yypgo[0] = (--optimmem) - tracemem; for (;;) { switch (gtnm()) { case L'\n': yypgo[++nnonter] = optimmem-tracemem; /* FALLTHRU */ case L',': continue; case EOF: break; default: /* * TRANSLATION_NOTE -- This is a message from yacc. * This message is passed to error() function. * tempfile can be translated as 'temporary file'. */ error(gettext( "bad tempfile")); } break; } yypgo[nnonter--] = (--optimmem) - tracemem; for (i = 0; i < nstate; ++i) { k = 32000000; j = 0; q = tracemem + temp1[i+1]; for (p = tracemem + temp1[i]; p < q; p += 2) { if (*p > j) j = *p; if (*p < k) k = *p; } if (k <= j) { /* * nontrivial situation * temporarily, kill this for compatibility */ /* j -= k; j is now the range */ if (k > maxoff) maxoff = k; } tystate[i] = (temp1[i+1] - temp1[i]) + 2*j; if (j > maxspr) maxspr = j; } /* initialize ggreed table */ for (i = 1; i <= nnonter; ++i) { ggreed[i] = 1; j = 0; /* minimum entry index is always 0 */ q = tracemem + yypgo[i+1] -1; for (p = tracemem + yypgo[i]; p < q; p += 2) { ggreed[i] += 2; if (*p > j) j = *p; } ggreed[i] = ggreed[i] + 2*j; if (j > maxoff) maxoff = j; } /* now, prepare to put the shift actions into the amem array */ for (i = 0; i < new_actsize; ++i) amem[i] = 0; maxa = amem; for (i = 0; i < nstate; ++i) { if (tystate[i] == 0 && adb > 1) (void) fprintf(ftable, "State %d: null\n", i); indgo[i] = YYFLAG1; } while ((i = nxti()) != NOMORE) { if (i >= 0) stin(i); else gin(-i); } if (adb > 2) { /* print a array */ for (p = amem; p <= maxa; p += 10) { (void) fprintf(ftable, "%4d ", p-amem); for (i = 0; i < 10; ++i) (void) fprintf(ftable, "%4d ", p[i]); (void) fprintf(ftable, "\n"); } } /* write out the output appropriate to the language */ aoutput(); osummary(); ZAPFILE(TEMPNAME); } static void gin(i) { register *r, *s, *q1, *q2; int *p; /* enter gotos on nonterminal i into array amem */ ggreed[i] = 0; q2 = tracemem + yypgo[i+1] - 1; q1 = tracemem + yypgo[i]; /* now, find a place for it */ /* for( p=amem; p < &amem[new_actsize]; ++p ){ */ p = amem; for (;;) { while (p >= &amem[new_actsize]) exp_act(&p); if (*p) goto nextgp; for (r = q1; r < q2; r += 2) { s = p + *r + 1; /* * Check if action table needs to * be expanded or not. If so, * expand it. */ while (s >= &amem[new_actsize]) { exp_act(&p); s = p + *r + 1; } if (*s) goto nextgp; if (s > maxa) { while ((maxa = s) >= &amem[new_actsize]) /* error( "amem array overflow" ); */ exp_act(&p); } } /* we have found a spot */ *p = *q2; if (p > maxa) { while ((maxa = p) >= &amem[new_actsize]) /* error("amem array overflow"); */ exp_act(&p); } for (r = q1; r < q2; r += 2) { s = p + *r + 1; /* * Check if action table needs to * be expanded or not. If so, * expand it. */ while (s >= &amem[new_actsize]) { exp_act(&p); s = p + *r + 1; } *s = r[1]; } pgo[i] = p - amem; if (adb > 1) (void) fprintf(ftable, "Nonterminal %d, entry at %d\n", i, pgo[i]); goto nextgi; nextgp: ++p; } /* error( "cannot place goto %d\n", i ); */ nextgi:; } static void stin(i) { register *r, n, nn, flag, j, *q1, *q2; int *s; tystate[i] = 0; /* Enter state i into the amem array */ q2 = tracemem + temp1[i + 1]; q1 = tracemem + temp1[i]; /* Find an acceptable place */ nn = -maxoff; more: for (n = nn; n < new_actsize; ++n) { flag = 0; for (r = q1; r < q2; r += 2) { s = *r + n + amem; if ((int) s < (int) amem) goto nextn; /* * Check if action table needs to * be expanded or not. If so, * expand it. */ while (s >= &amem[new_actsize]) { exp_act((int **)NULL); s = *r + n + amem; } if (*s == 0) ++flag; else if (*s != r[1]) goto nextn; } /* * check that the position equals another * only if the states are identical */ for (j = 0; j < nstate; ++j) { if (indgo[j] == n) { if (flag) /* * we have some disagreement. */ goto nextn; if (temp1[j+1] + temp1[i] == temp1[j] + temp1[i+1]) { /* states are equal */ indgo[i] = n; if (adb > 1) (void) fprintf(ftable, "State %d: entry at" " %d equals state %d\n", i, n, j); return; } goto nextn; /* we have some disagreement */ } } for (r = q1; r < q2; r += 2) { while ((s = *r + n + amem) >= &amem[new_actsize]) { /* * error( "out of space"); */ exp_act((int **)NULL); } if (s > maxa) maxa = s; if (*s != 0 && *s != r[1]) /* * TRANSLATION_NOTE -- This is a message from yacc. * This message is passed to error() function. * Leave this untrasnlated. Yacc internal error. */ error(gettext( "clobber of amem array, pos'n %d, by %d"), s-amem, r[1]); *s = r[1]; } indgo[i] = n; if (adb > 1) (void) fprintf(ftable, "State %d: entry at %d\n", i, indgo[i]); return; nextn:; } /* error( "Error; failure to place state %d\n", i ); */ exp_act((int **)NULL); nn = new_actsize - ACTSIZE; goto more; /* NOTREACHED */ } static nxti() { /* finds the next i */ register i, max, maxi; max = 0; for (i = 1; i <= nnonter; ++i) if (ggreed[i] >= max) { max = ggreed[i]; maxi = -i; } for (i = 0; i < nstate; ++i) if (tystate[i] >= max) { max = tystate[i]; maxi = i; } if (nxdb) (void) fprintf(ftable, "nxti = %d, max = %d\n", maxi, max); if (max == 0) return (NOMORE); else return (maxi); } static void osummary() { /* write summary */ register i, *p; if (foutput == NULL) return; i = 0; for (p = maxa; p >= amem; --p) { if (*p == 0) ++i; } (void) fprintf(foutput, "Optimizer space used: input %d/%d, output %d/%d\n", optimmem-tracemem + 1, new_memsize, maxa-amem + 1, new_actsize); (void) fprintf(foutput, "%d table entries, %d zero\n", (maxa-amem) + 1, i); (void) fprintf(foutput, "maximum spread: %d, maximum offset: %d\n", maxspr, maxoff); } static void aoutput() { /* this version is for C */ /* write out the optimized parser */ (void) fprintf(ftable, "# define YYLAST %d\n", maxa-amem + 1); arout(L"yyact", amem, (maxa - amem) + 1); arout(L"yypact", indgo, nstate); arout(L"yypgo", pgo, nnonter + 1); } static void arout(s, v, n) wchar_t *s; int *v, n; { register i; (void) fprintf(ftable, "static YYCONST yytabelem %ws[]={\n", s); for (i = 0; i < n; ) { if (i % 10 == 0) (void) fprintf(ftable, "\n"); (void) fprintf(ftable, "%6d", v[i]); if (++i == n) (void) fprintf(ftable, " };\n"); else (void) fprintf(ftable, ","); } } static gtnm() { register s, val, c; /* read and convert an integer from the standard input */ /* return the terminating character */ /* blanks, tabs, and newlines are ignored */ s = 1; val = 0; while ((c = getwc(finput)) != EOF) { if (iswdigit(c)) val = val * 10 + c - L'0'; else if (c == L'-') s = -1; else break; } *optimmem++ = s*val; if (optimmem >= &tracemem[new_memsize]) exp_mem(0); return (c); } void exp_act(ptr) int **ptr; { static int *actbase; int i; new_actsize += ACTSIZE; actbase = amem; amem = (int *) realloc((char *)amem, sizeof (int) * new_actsize); if (amem == NULL) /* * TRANSLATION_NOTE -- This is a message from yacc. * This message is passed to error() function. * * You may just translate this as: * 'Could not allocate internally used memory.' */ error(gettext( "couldn't expand action table")); for (i = new_actsize-ACTSIZE; i < new_actsize; ++i) amem[i] = 0; if (ptr != NULL) *ptr = *ptr - actbase + amem; if (memp >= amem) memp = memp - actbase + amem; if (maxa >= amem) maxa = maxa - actbase + amem; }