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1.1 ! root 1: /* (c) 1979 Regents of the University of California */ ! 2: # include "ey.h" ! 3: ! 4: output(){ /* print the output for the states */ ! 5: ! 6: int i, j, k, c; ! 7: ! 8: settab(); ! 9: arrset("yyact"); ! 10: ! 11: for( i=0; i<nstate; ++i ){ /* output the stuff for state i */ ! 12: nolook = (tystate[i]==0); ! 13: closure(i); ! 14: /* output actions */ ! 15: aryfil( temp1, nterms+1, 0 ); ! 16: for( j=0; j<cwset; ++j ){ /* look at the items */ ! 17: c = *( wsets[j].pitem ); ! 18: if( c>0 && c<NTBASE && temp1[c]==0 ) temp1[c] = go2(i,c); ! 19: } ! 20: ! 21: if( i == 1 ) temp1[1] = ACCEPTCODE; ! 22: ! 23: /* now, we have the shifts; look at the reductions */ ! 24: ! 25: lastred = 0; ! 26: for( j=0; j<cwset; ++j ){ ! 27: c = *( wsets[j].pitem ); ! 28: if( c<=0 ){ /* reduction */ ! 29: lastred = -c; ! 30: for( k=1; k<=nterms; ++k ){ ! 31: if( ((wsets[j].ws[k>>4])&(1<<(k&017))) != 0 ) { ! 32: if( temp1[k] == 0 ) temp1[k] = c; ! 33: else if( temp1[k]<0 ){ /* reduce/reduce conflict */ ! 34: settty(); ! 35: fprintf( cout , "\n%d: reduce/reduce conflict (red'ns %d and %d ) on %s", ! 36: i, -temp1[k], lastred, symnam(k) ); ! 37: if( -temp1[k] > lastred ) temp1[k] = -lastred; ! 38: ++zzrrconf; ! 39: settab(); ! 40: } ! 41: else { /* potential shift/reduce conflict */ ! 42: switch( precftn( lastred, k ) ) { ! 43: ! 44: case 0: /* precedence does not apply */ ! 45: ! 46: settty(); ! 47: fprintf( cout , "\n%d: shift/reduce conflict (shift %d, red'n %d) on %s", i, ! 48: temp1[k], lastred, symnam(k) ); ! 49: ++zzsrconf; ! 50: settab(); ! 51: break; ! 52: ! 53: case 1: /* reduce */ ! 54: ! 55: temp1[k] = -lastred; ! 56: break; ! 57: ! 58: case 2: /* error, binary operator */ ! 59: ! 60: temp1[k] = ERRCODE; ! 61: break; ! 62: ! 63: case 3: /* shift ... leave the entry alone */ ! 64: ! 65: break; ! 66: } ! 67: } ! 68: } ! 69: } ! 70: } ! 71: } ! 72: wract(i); ! 73: } ! 74: ! 75: settab(); ! 76: arrdone(); ! 77: ! 78: /* now, output the pointers to the action array */ ! 79: /* also output the info about reductions */ ! 80: prred(); ! 81: } ! 82: ! 83: prred(){ /* print the information about the actions and the reductions */ ! 84: int index, i; ! 85: ! 86: arrset("yypact"); ! 87: index = 1; /* position in the output table */ ! 88: ! 89: for( i=0; i<nstate; ++i ){ ! 90: if( tystate[i]>0 ){ /* the state is real */ ! 91: temp1[i] = index; ! 92: arrval( index ); ! 93: index += tystate[i]; ! 94: } ! 95: else { ! 96: arrval( temp1[-tystate[i]] ); ! 97: } ! 98: } ! 99: ! 100: arrdone(); ! 101: ! 102: arrset("yyr1"); ! 103: for( i=1; i<nprod; ++i ) arrval( *prdptr[i] - NTBASE ); ! 104: arrdone(); ! 105: ! 106: arrset("yyr2"); ! 107: for( i=1; i<nprod; ++i ) arrval( ( prdptr[i+1]-prdptr[i]-2 ) ); ! 108: arrdone(); ! 109: ! 110: } ! 111: ! 112: go2(i,c){ /* do a goto on the closure state, not worrying about lookaheads */ ! 113: if( c<NTBASE ) return( amem[ apstate[i]+c ] ); ! 114: else return( amem[ apstate[i] + c - NTBASE + nterms ] ); ! 115: } ! 116: ! 117: int pkdebug = 0; ! 118: apack(p, n ) int *p;{ /* pack state i from temp1 into amem */ ! 119: _REGISTER k, l, off; ! 120: int j; ! 121: ! 122: /* find the spot */ ! 123: ! 124: j = n; ! 125: for( off = 0; off <= j && p[off] == 0; ++off ) ; ! 126: if( off > j ){ /* no actions */ ! 127: return(0); ! 128: } ! 129: j -= off; ! 130: for( k=0; k<actsiz; ++k ){ ! 131: for( l=0; l<=j; ++l ){ ! 132: if( p[off+l] != 0 ){ ! 133: if( p[off+l] != amem[k+l] && amem[k+l] != 0 ) goto nextk; ! 134: } ! 135: } ! 136: if( pkdebug ){ settty(); fprintf( cout , "off = %d, k = %d\n", off, k ); } ! 137: /* we have found an acceptable k */ ! 138: for( l=0; l<=j; ++l ){ ! 139: if( p[off+l] ){ ! 140: if( k+l >= actsiz ) error("action table overflow"); ! 141: if( k+l >= memact ) memact = k+l; ! 142: amem[k+l] = p[off+l]; ! 143: } ! 144: } ! 145: if( pkdebug ){ ! 146: for( k=0; k<memact; k+=10){ ! 147: fprintf( cout , "\t"); ! 148: for( l=0; l<=9; ++l ) fprintf( cout , "%d ", amem[k+l] ); ! 149: fprintf( cout , "\n"); ! 150: } ! 151: } ! 152: return(k-off); ! 153: ! 154: nextk: ; ! 155: } ! 156: error("no space in action table"); ! 157: } ! 158: ! 159: go2out(){ /* output the gotos for the nontermninals */ ! 160: int i, j, k, best, offset, count, cbest, times; ! 161: ! 162: settab(); ! 163: arrset("yygo"); ! 164: offset = 1; ! 165: ! 166: for( i=1; i<=nnonter; ++i ) { ! 167: go2gen(i); ! 168: ! 169: /* find the best one to make default */ ! 170: ! 171: temp2[i] = offset; ! 172: ! 173: best = -1; ! 174: times = 0; ! 175: ! 176: for( j=0; j<=nstate; ++j ){ /* is j the most frequent */ ! 177: if( tystate[j] == 0 ) continue; ! 178: if( tystate[j] == best ) continue; ! 179: ! 180: /* is tystate[j] the most frequent */ ! 181: ! 182: count = 0; ! 183: cbest = tystate[j]; ! 184: ! 185: for( k=j; k<=nstate; ++k ) if( tystate[k]==cbest ) ++count; ! 186: ! 187: if( count > times ){ ! 188: best = cbest; ! 189: times = count; ! 190: } ! 191: } ! 192: ! 193: /* best is now the default entry */ ! 194: ! 195: zzgobest += (times-1)*2; ! 196: settab(); ! 197: for( j=0; j<=nstate; ++j ){ ! 198: if( tystate[j] != 0 && tystate[j]!=best ){ ! 199: arrval( j ); ! 200: arrval( tystate[j] ); ! 201: offset += 2; ! 202: zzgoent += 2; ! 203: } ! 204: } ! 205: ! 206: /* now, the default */ ! 207: ! 208: zzgoent += 2; ! 209: arrval( -1 ); ! 210: arrval( best ); ! 211: offset += 2; ! 212: ! 213: } ! 214: ! 215: arrdone(); ! 216: ! 217: arrset("yypgo"); ! 218: for( i=1; i<=nnonter; ++i ) arrval( temp2[i] ); ! 219: arrdone(); ! 220: ! 221: } ! 222: ! 223: int g2debug = 0; ! 224: go2gen(c){ /* output the gotos for nonterminal c */ ! 225: ! 226: int i, work, cc; ! 227: struct item *p, *q; ! 228: ! 229: /* first, find nonterminals with gotos on c */ ! 230: ! 231: aryfil( temp1, nnonter+1, 0 ); ! 232: temp1[c] = 1; ! 233: ! 234: work = 1; ! 235: while( work ){ ! 236: work = 0; ! 237: for( i=0; i<nprod; ++i ){ ! 238: if( (cc=prdptr[i][1]-NTBASE) >= 0 ){ /* cc is a nonterminal */ ! 239: if( temp1[cc] != 0 ){ /* cc has a goto on c */ ! 240: cc = *prdptr[i]-NTBASE; /* thus, the left side of production i does too */ ! 241: if( temp1[cc] == 0 ){ ! 242: work = 1; ! 243: temp1[cc] = 1; ! 244: } ! 245: } ! 246: } ! 247: } ! 248: } ! 249: ! 250: /* now, we have temp1[c] = 1 if a goto on c in closure of cc */ ! 251: ! 252: if( g2debug ){ ! 253: settty(); ! 254: fprintf( cout , "%s: gotos on ", nontrst[c].name ); ! 255: for( i=0; i<=nnonter; ++i ) if( temp1[i]) fprintf( cout , "%s ", nontrst[i].name); ! 256: fprintf( cout , "\n"); ! 257: } ! 258: ! 259: /* now, go through and put gotos into tystate */ ! 260: ! 261: aryfil( tystate, nstate, 0 ); ! 262: settty(); ! 263: fprintf( cout , "\nnonterminal %s\n", nontrst[c].name ); ! 264: for( i=0; i<nstate; ++i ){ ! 265: q = pstate[i+1]; ! 266: for( p=pstate[i]; p<q; ++p ){ ! 267: if( (cc= *p->pitem) >= NTBASE ){ ! 268: if( temp1[cc -= NTBASE] ){ /* goto on c is possible */ ! 269: tystate[i] = amem[indgo[i]+c]; ! 270: break; ! 271: } ! 272: } ! 273: } ! 274: if( tystate[i] ) fprintf( cout , "\t%d\t%d\n", i, tystate[i]); ! 275: } ! 276: } ! 277: ! 278: precftn(r,t){ /* decide a shift/reduce conflict by precedence. ! 279: Returns 0 if action is 'do nothing',1 if action is reduce, ! 280: 2 if the action is 'error,binary operator' ! 281: and 3 if the action is 'reduce'. */ ! 282: ! 283: int lp,lt; ! 284: lp = levprd[r]; ! 285: lt = trmlev[t]; ! 286: if ((lt==0)||((lp&03)==0))return(0); ! 287: if((lt>>3) == (lp>>3)){ ! 288: return(lt&03); ! 289: } ! 290: if((lt>>3) > (lp>>3)) return(3); ! 291: return(1); ! 292: } ! 293: ! 294: int cdebug = 0; /* debug for common states */ ! 295: wract(i){ /* output state i */ ! 296: /* temp1 has the actions, lastred the default */ ! 297: int p, p0, p1, size; ! 298: int ntimes, tred, count, j; ! 299: struct item *q0, *q1; ! 300: ! 301: /* find the best choice for lastred */ ! 302: ! 303: lastred = 0; ! 304: ntimes = 0; ! 305: /***** UCB MOD - full state spec if shift on error *****/ ! 306: if (temp1[2] <= 0) ! 307: for( j=1; j<=nterms; ++j ){ ! 308: if( temp1[j] >= 0 ) continue; ! 309: if( temp1[j]+lastred == 0 ) continue; ! 310: /* count the number of appearances of temp1[j] */ ! 311: count = 0; ! 312: tred = -temp1[j]; ! 313: for( p=1; p<=nterms; ++p ){ ! 314: if( temp1[p]+tred == 0 ) ++count; ! 315: } ! 316: if( count >ntimes ){ ! 317: lastred = tred; ! 318: ntimes = count; ! 319: } ! 320: } ! 321: ! 322: /* clear out entries in temp1 which equal lastred */ ! 323: for( p=1; p<= nterms; ++p ) if( temp1[p]+lastred == 0 )temp1[p]=0; ! 324: ! 325: /* write out the state */ ! 326: ! 327: /* first, check for equality with another state */ ! 328: /* see if there is a nonterminal with all dots before it. */ ! 329: ! 330: p0 = 0; ! 331: q1 = pstate[i+1]; ! 332: for( q0=pstate[i]; q0<q1; ++q0 ){ ! 333: if( (p1= *(q0->pitem) ) < NTBASE ) goto standard; ! 334: if( p0 == 0 ) p0 = p1; ! 335: else if( p0 != p1 ) goto standard; ! 336: } ! 337: ! 338: /* now, all items have dots before p0 */ ! 339: if( cdebug ){ ! 340: settty(); ! 341: fprintf( cout , "state %d, pre-nonterminal %s\n",i,nontrst[p0-NTBASE].name); ! 342: } ! 343: ! 344: for( j=0; j<i; ++j ){ ! 345: if( apstate[i] != apstate[j] ) continue; ! 346: ! 347: /* equal positions -- check items */ ! 348: ! 349: if( cdebug )fprintf( cout , "states %d and %d have equal positions\n",i,j); ! 350: q1 = pstate[j+1]; ! 351: for( q0=pstate[j]; q0<q1; ++q0 ){ ! 352: if( *(q0->pitem) != p0 ) goto nextj; ! 353: } ! 354: ! 355: /* we have a match with state j ! */ ! 356: ! 357: tystate[i] = -j; ! 358: zzacsave += tystate[j]; ! 359: zznsave++; ! 360: wrstate(i); ! 361: return; ! 362: ! 363: nextj: ; ! 364: } ! 365: ! 366: ! 367: standard: ! 368: tystate[i] = 2; ! 369: wrstate(i); ! 370: ! 371: size = 0; ! 372: for( p0=1; p0<=nterms; ++p0 ) ! 373: if( (p1=temp1[p0])!=0 ) { ! 374: /***** UCB MOD - test actions are negative of symbol to be tested ! 375: this speeds up the parser as it is easy to check for ! 376: *****/ ! 377: arrval( -trmset[p0].value ); ! 378: if( p1 < 0 ) arrval( REDUCACT - p1 ); ! 379: else if( p1 == ACCEPTCODE ) arrval( ACCEPTACT ); ! 380: else if( p1 == ERRCODE ) arrval( ERRACT ); ! 381: else arrval( SHIFTACT + p1 ); ! 382: size += 2; ! 383: } ! 384: if( lastred ) arrval( REDUCACT + lastred ); ! 385: else arrval( ERRACT ); ! 386: tystate[i] = size+1; /* store entry size in tystate */ ! 387: zzacent += (size+1); ! 388: return; ! 389: } ! 390: ! 391: wrstate(i){ /* writes state i */ ! 392: int j0,j1,s; ! 393: struct item *pp, *qq; ! 394: settty(); ! 395: fprintf( cout , "\nstate %d\n",i); ! 396: qq = pstate[i+1]; ! 397: for( pp=pstate[i]; pp<qq; ++pp) fprintf( cout , "\t%s\n", writem(pp)); ! 398: ! 399: /* check for state equal to another */ ! 400: ! 401: if( tystate[i] <= 0 ){ ! 402: fprintf( cout , "\n\tsame as %d\n\n", -tystate[i] ); ! 403: return; ! 404: } ! 405: ! 406: for( j0=1; j0<=nterms; ++j0 ) if( (j1=temp1[j0]) != 0 ){ ! 407: fprintf( cout , "\n\t%s ", symnam(j0) ); ! 408: if( j1>0 ){ /* shift, error, or accept */ ! 409: if( j1 == ACCEPTCODE ) fprintf( cout , "accept" ); ! 410: else if( j1 == ERRCODE ) fprintf( cout , "error" ); ! 411: else fprintf( cout , "shift %d", j1 ); ! 412: } ! 413: else fprintf( cout , "reduce %d",-j1 ); ! 414: } ! 415: ! 416: /* output the final production */ ! 417: ! 418: if( lastred ) fprintf( cout , "\n\t. reduce %d\n\n", lastred ); ! 419: else fprintf( cout , "\n\t. error\n\n" ); ! 420: ! 421: ret: ! 422: settab(); ! 423: }
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