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1.1 ! root 1: #ifndef lint ! 2: static char sccsid[] = "@(#)y4.c 4.1 (Berkeley) 2/11/83"; ! 3: #endif not lint ! 4: ! 5: # include "dextern" ! 6: ! 7: # define a amem ! 8: # define mem mem0 ! 9: # define pa indgo ! 10: # define yypact temp1 ! 11: # define greed tystate ! 12: ! 13: int * ggreed = lkst[0].lset; ! 14: int * pgo = wsets[0].ws.lset; ! 15: int *yypgo = &nontrst[0].tvalue; ! 16: ! 17: int maxspr = 0; /* maximum spread of any entry */ ! 18: int maxoff = 0; /* maximum offset into a array */ ! 19: int *pmem = mem; ! 20: int *maxa; ! 21: # define NOMORE -1000 ! 22: ! 23: int nxdb = 0; ! 24: int adb = 0; ! 25: ! 26: callopt(){ ! 27: ! 28: register i, *p, j, k, *q; ! 29: ! 30: /* read the arrays from tempfile and set parameters */ ! 31: ! 32: if( (finput=fopen(TEMPNAME,"r")) == NULL ) error( "optimizer cannot open tempfile" ); ! 33: ! 34: pgo[0] = 0; ! 35: yypact[0] = 0; ! 36: nstate = 0; ! 37: nnonter = 0; ! 38: for(;;){ ! 39: switch( gtnm() ){ ! 40: ! 41: case '\n': ! 42: yypact[++nstate] = (--pmem) - mem; ! 43: case ',': ! 44: continue; ! 45: ! 46: case '$': ! 47: break; ! 48: ! 49: default: ! 50: error( "bad tempfile" ); ! 51: } ! 52: break; ! 53: } ! 54: ! 55: yypact[nstate] = yypgo[0] = (--pmem) - mem; ! 56: ! 57: for(;;){ ! 58: switch( gtnm() ){ ! 59: ! 60: case '\n': ! 61: yypgo[++nnonter]= pmem-mem; ! 62: case ',': ! 63: continue; ! 64: ! 65: case EOF: ! 66: break; ! 67: ! 68: default: ! 69: error( "bad tempfile" ); ! 70: } ! 71: break; ! 72: } ! 73: ! 74: yypgo[nnonter--] = (--pmem) - mem; ! 75: ! 76: ! 77: ! 78: for( i=0; i<nstate; ++i ){ ! 79: ! 80: k = 32000; ! 81: j = 0; ! 82: q = mem + yypact[i+1]; ! 83: for( p = mem + yypact[i]; p<q ; p += 2 ){ ! 84: if( *p > j ) j = *p; ! 85: if( *p < k ) k = *p; ! 86: } ! 87: if( k <= j ){ /* nontrivial situation */ ! 88: /* temporarily, kill this for compatibility ! 89: j -= k; /* j is now the range */ ! 90: if( k > maxoff ) maxoff = k; ! 91: } ! 92: greed[i] = (yypact[i+1]-yypact[i]) + 2*j; ! 93: if( j > maxspr ) maxspr = j; ! 94: } ! 95: ! 96: /* initialize ggreed table */ ! 97: ! 98: for( i=1; i<=nnonter; ++i ){ ! 99: ggreed[i] = 1; ! 100: j = 0; ! 101: /* minimum entry index is always 0 */ ! 102: q = mem + yypgo[i+1] -1; ! 103: for( p = mem+yypgo[i]; p<q ; p += 2 ) { ! 104: ggreed[i] += 2; ! 105: if( *p > j ) j = *p; ! 106: } ! 107: ggreed[i] = ggreed[i] + 2*j; ! 108: if( j > maxoff ) maxoff = j; ! 109: } ! 110: ! 111: ! 112: /* now, prepare to put the shift actions into the a array */ ! 113: ! 114: for( i=0; i<ACTSIZE; ++i ) a[i] = 0; ! 115: maxa = a; ! 116: ! 117: for( i=0; i<nstate; ++i ) { ! 118: if( greed[i]==0 && adb>1 ) fprintf( ftable, "State %d: null\n", i ); ! 119: pa[i] = YYFLAG1; ! 120: } ! 121: ! 122: while( (i = nxti()) != NOMORE ) { ! 123: if( i >= 0 ) stin(i); ! 124: else gin(-i); ! 125: ! 126: } ! 127: ! 128: if( adb>2 ){ /* print a array */ ! 129: for( p=a; p <= maxa; p += 10){ ! 130: fprintf( ftable, "%4d ", p-a ); ! 131: for( i=0; i<10; ++i ) fprintf( ftable, "%4d ", p[i] ); ! 132: fprintf( ftable, "\n" ); ! 133: } ! 134: } ! 135: /* write out the output appropriate to the language */ ! 136: ! 137: aoutput(); ! 138: ! 139: osummary(); ! 140: ZAPFILE(TEMPNAME); ! 141: } ! 142: ! 143: gin(i){ ! 144: ! 145: register *p, *r, *s, *q1, *q2; ! 146: ! 147: /* enter gotos on nonterminal i into array a */ ! 148: ! 149: ggreed[i] = 0; ! 150: ! 151: q2 = mem+ yypgo[i+1] - 1; ! 152: q1 = mem + yypgo[i]; ! 153: ! 154: /* now, find a place for it */ ! 155: ! 156: for( p=a; p < &a[ACTSIZE]; ++p ){ ! 157: if( *p ) continue; ! 158: for( r=q1; r<q2; r+=2 ){ ! 159: s = p + *r +1; ! 160: if( *s ) goto nextgp; ! 161: if( s > maxa ){ ! 162: if( (maxa=s) > &a[ACTSIZE] ) error( "a array overflow" ); ! 163: } ! 164: } ! 165: /* we have found a spot */ ! 166: ! 167: *p = *q2; ! 168: if( p > maxa ){ ! 169: if( (maxa=p) > &a[ACTSIZE] ) error( "a array overflow" ); ! 170: } ! 171: for( r=q1; r<q2; r+=2 ){ ! 172: s = p + *r + 1; ! 173: *s = r[1]; ! 174: } ! 175: ! 176: pgo[i] = p-a; ! 177: if( adb>1 ) fprintf( ftable, "Nonterminal %d, entry at %d\n" , i, pgo[i] ); ! 178: goto nextgi; ! 179: ! 180: nextgp: ; ! 181: } ! 182: ! 183: error( "cannot place goto %d\n", i ); ! 184: ! 185: nextgi: ; ! 186: } ! 187: ! 188: stin(i){ ! 189: register *r, *s, n, flag, j, *q1, *q2; ! 190: ! 191: greed[i] = 0; ! 192: ! 193: /* enter state i into the a array */ ! 194: ! 195: q2 = mem+yypact[i+1]; ! 196: q1 = mem+yypact[i]; ! 197: /* find an acceptable place */ ! 198: ! 199: for( n= -maxoff; n<ACTSIZE; ++n ){ ! 200: ! 201: flag = 0; ! 202: for( r = q1; r < q2; r += 2 ){ ! 203: if( (s = *r + n + a ) < a ) goto nextn; ! 204: if( *s == 0 ) ++flag; ! 205: else if( *s != r[1] ) goto nextn; ! 206: } ! 207: ! 208: /* check that the position equals another only if the states are identical */ ! 209: ! 210: for( j=0; j<nstate; ++j ){ ! 211: if( pa[j] == n ) { ! 212: if( flag ) goto nextn; /* we have some disagreement */ ! 213: if( yypact[j+1] + yypact[i] == yypact[j] + yypact[i+1] ){ ! 214: /* states are equal */ ! 215: pa[i] = n; ! 216: if( adb>1 ) fprintf( ftable, "State %d: entry at %d equals state %d\n", ! 217: i, n, j ); ! 218: return; ! 219: } ! 220: goto nextn; /* we have some disagreement */ ! 221: } ! 222: } ! 223: ! 224: for( r = q1; r < q2; r += 2 ){ ! 225: if( (s = *r + n + a ) >= &a[ACTSIZE] ) error( "out of space in optimizer a array" ); ! 226: if( s > maxa ) maxa = s; ! 227: if( *s != 0 && *s != r[1] ) error( "clobber of a array, pos'n %d, by %d", s-a, r[1] ); ! 228: *s = r[1]; ! 229: } ! 230: pa[i] = n; ! 231: if( adb>1 ) fprintf( ftable, "State %d: entry at %d\n", i, pa[i] ); ! 232: return; ! 233: ! 234: nextn: ; ! 235: } ! 236: ! 237: error( "Error; failure to place state %d\n", i ); ! 238: ! 239: } ! 240: ! 241: nxti(){ /* finds the next i */ ! 242: register i, max, maxi; ! 243: ! 244: max = 0; ! 245: ! 246: for( i=1; i<= nnonter; ++i ) if( ggreed[i] >= max ){ ! 247: max = ggreed[i]; ! 248: maxi = -i; ! 249: } ! 250: ! 251: for( i=0; i<nstate; ++i ) if( greed[i] >= max ){ ! 252: max = greed[i]; ! 253: maxi = i; ! 254: } ! 255: ! 256: if( nxdb ) fprintf( ftable, "nxti = %d, max = %d\n", maxi, max ); ! 257: if( max==0 ) return( NOMORE ); ! 258: else return( maxi ); ! 259: } ! 260: ! 261: osummary(){ ! 262: /* write summary */ ! 263: ! 264: register i, *p; ! 265: ! 266: if( foutput == NULL ) return; ! 267: i=0; ! 268: for( p=maxa; p>=a; --p ) { ! 269: if( *p == 0 ) ++i; ! 270: } ! 271: ! 272: fprintf( foutput, "Optimizer space used: input %d/%d, output %d/%d\n", ! 273: pmem-mem+1, MEMSIZE, maxa-a+1, ACTSIZE ); ! 274: fprintf( foutput, "%d table entries, %d zero\n", (maxa-a)+1, i ); ! 275: fprintf( foutput, "maximum spread: %d, maximum offset: %d\n", maxspr, maxoff ); ! 276: ! 277: } ! 278: ! 279: aoutput(){ /* this version is for C */ ! 280: ! 281: ! 282: /* write out the optimized parser */ ! 283: ! 284: fprintf( ftable, "# define YYLAST %d\n", maxa-a+1 ); ! 285: ! 286: arout( "yyact", a, (maxa-a)+1 ); ! 287: arout( "yypact", pa, nstate ); ! 288: arout( "yypgo", pgo, nnonter+1 ); ! 289: ! 290: } ! 291: ! 292: arout( s, v, n ) char *s; int *v, n; { ! 293: ! 294: register i; ! 295: ! 296: fprintf( ftable, "short %s[]={\n", s ); ! 297: for( i=0; i<n; ){ ! 298: if( i%10 == 0 ) fprintf( ftable, "\n" ); ! 299: fprintf( ftable, "%4d", v[i] ); ! 300: if( ++i == n ) fprintf( ftable, " };\n" ); ! 301: else fprintf( ftable, "," ); ! 302: } ! 303: } ! 304: ! 305: ! 306: gtnm(){ ! 307: ! 308: register s, val, c; ! 309: ! 310: /* read and convert an integer from the standard input */ ! 311: /* return the terminating character */ ! 312: /* blanks, tabs, and newlines are ignored */ ! 313: ! 314: s = 1; ! 315: val = 0; ! 316: ! 317: while( (c=getc(finput)) != EOF ){ ! 318: if( isdigit(c) ){ ! 319: val = val * 10 + c - '0'; ! 320: } ! 321: else if ( c == '-' ) s = -1; ! 322: else break; ! 323: } ! 324: ! 325: *pmem++ = s*val; ! 326: if( pmem > &mem[MEMSIZE] ) error( "out of space" ); ! 327: return( c ); ! 328: ! 329: }
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