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1.1 ! root 1: /*- ! 2: * Copyright (c) 1980, 1983 The Regents of the University of California. ! 3: * All rights reserved. ! 4: * ! 5: * Redistribution and use in source and binary forms are permitted ! 6: * provided that: (1) source distributions retain this entire copyright ! 7: * notice and comment, and (2) distributions including binaries display ! 8: * the following acknowledgement: ``This product includes software ! 9: * developed by the University of California, Berkeley and its contributors'' ! 10: * in the documentation or other materials provided with the distribution ! 11: * and in all advertising materials mentioning features or use of this ! 12: * software. Neither the name of the University nor the names of its ! 13: * contributors may be used to endorse or promote products derived ! 14: * from this software without specific prior written permission. ! 15: * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR ! 16: * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED ! 17: * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. ! 18: */ ! 19: ! 20: #if defined(LIBC_SCCS) && !defined(lint) ! 21: static char sccsid[] = "@(#)qsort.c 5.7 (Berkeley) 5/17/90"; ! 22: #endif /* LIBC_SCCS and not lint */ ! 23: ! 24: #include <stdlib.h> ! 25: ! 26: /* ! 27: * qsort.c: ! 28: * Our own version of the system qsort routine which is faster by an average ! 29: * of 25%, with lows and highs of 10% and 50%. ! 30: * The THRESHold below is the insertion sort threshold, and has been adjusted ! 31: * for records of size 48 bytes. ! 32: * The MTHREShold is where we stop finding a better median. ! 33: */ ! 34: ! 35: #define THRESH 4 /* threshold for insertion */ ! 36: #define MTHRESH 6 /* threshold for median */ ! 37: ! 38: static int (*qcmp)(); /* the comparison routine */ ! 39: static int qsz; /* size of each record */ ! 40: static int thresh; /* THRESHold in chars */ ! 41: static int mthresh; /* MTHRESHold in chars */ ! 42: ! 43: /* ! 44: * qsort: ! 45: * First, set up some global parameters for qst to share. Then, quicksort ! 46: * with qst(), and then a cleanup insertion sort ourselves. Sound simple? ! 47: * It's not... ! 48: */ ! 49: ! 50: void ! 51: qsort(base, n, size, compar) ! 52: char *base; ! 53: int n; ! 54: int size; ! 55: int (*compar)(); ! 56: { ! 57: register char c, *i, *j, *lo, *hi; ! 58: char *min, *max; ! 59: ! 60: if (n <= 1) ! 61: return; ! 62: qsz = size; ! 63: qcmp = compar; ! 64: thresh = qsz * THRESH; ! 65: mthresh = qsz * MTHRESH; ! 66: max = base + n * qsz; ! 67: if (n >= THRESH) { ! 68: qst(base, max); ! 69: hi = base + thresh; ! 70: } else { ! 71: hi = max; ! 72: } ! 73: /* ! 74: * First put smallest element, which must be in the first THRESH, in ! 75: * the first position as a sentinel. This is done just by searching ! 76: * the first THRESH elements (or the first n if n < THRESH), finding ! 77: * the min, and swapping it into the first position. ! 78: */ ! 79: for (j = lo = base; (lo += qsz) < hi; ) ! 80: if (qcmp(j, lo) > 0) ! 81: j = lo; ! 82: if (j != base) { ! 83: /* swap j into place */ ! 84: for (i = base, hi = base + qsz; i < hi; ) { ! 85: c = *j; ! 86: *j++ = *i; ! 87: *i++ = c; ! 88: } ! 89: } ! 90: /* ! 91: * With our sentinel in place, we now run the following hyper-fast ! 92: * insertion sort. For each remaining element, min, from [1] to [n-1], ! 93: * set hi to the index of the element AFTER which this one goes. ! 94: * Then, do the standard insertion sort shift on a character at a time ! 95: * basis for each element in the frob. ! 96: */ ! 97: for (min = base; (hi = min += qsz) < max; ) { ! 98: while (qcmp(hi -= qsz, min) > 0) ! 99: /* void */; ! 100: if ((hi += qsz) != min) { ! 101: for (lo = min + qsz; --lo >= min; ) { ! 102: c = *lo; ! 103: for (i = j = lo; (j -= qsz) >= hi; i = j) ! 104: *i = *j; ! 105: *i = c; ! 106: } ! 107: } ! 108: } ! 109: } ! 110: ! 111: /* ! 112: * qst: ! 113: * Do a quicksort ! 114: * First, find the median element, and put that one in the first place as the ! 115: * discriminator. (This "median" is just the median of the first, last and ! 116: * middle elements). (Using this median instead of the first element is a big ! 117: * win). Then, the usual partitioning/swapping, followed by moving the ! 118: * discriminator into the right place. Then, figure out the sizes of the two ! 119: * partions, do the smaller one recursively and the larger one via a repeat of ! 120: * this code. Stopping when there are less than THRESH elements in a partition ! 121: * and cleaning up with an insertion sort (in our caller) is a huge win. ! 122: * All data swaps are done in-line, which is space-losing but time-saving. ! 123: * (And there are only three places where this is done). ! 124: */ ! 125: ! 126: static ! 127: qst(base, max) ! 128: char *base, *max; ! 129: { ! 130: register char c, *i, *j, *jj; ! 131: register int ii; ! 132: char *mid, *tmp; ! 133: int lo, hi; ! 134: ! 135: /* ! 136: * At the top here, lo is the number of characters of elements in the ! 137: * current partition. (Which should be max - base). ! 138: * Find the median of the first, last, and middle element and make ! 139: * that the middle element. Set j to largest of first and middle. ! 140: * If max is larger than that guy, then it's that guy, else compare ! 141: * max with loser of first and take larger. Things are set up to ! 142: * prefer the middle, then the first in case of ties. ! 143: */ ! 144: lo = max - base; /* number of elements as chars */ ! 145: do { ! 146: mid = i = base + qsz * ((lo / qsz) >> 1); ! 147: if (lo >= mthresh) { ! 148: j = (qcmp((jj = base), i) > 0 ? jj : i); ! 149: if (qcmp(j, (tmp = max - qsz)) > 0) { ! 150: /* switch to first loser */ ! 151: j = (j == jj ? i : jj); ! 152: if (qcmp(j, tmp) < 0) ! 153: j = tmp; ! 154: } ! 155: if (j != i) { ! 156: ii = qsz; ! 157: do { ! 158: c = *i; ! 159: *i++ = *j; ! 160: *j++ = c; ! 161: } while (--ii); ! 162: } ! 163: } ! 164: /* ! 165: * Semi-standard quicksort partitioning/swapping ! 166: */ ! 167: for (i = base, j = max - qsz; ; ) { ! 168: while (i < mid && qcmp(i, mid) <= 0) ! 169: i += qsz; ! 170: while (j > mid) { ! 171: if (qcmp(mid, j) <= 0) { ! 172: j -= qsz; ! 173: continue; ! 174: } ! 175: tmp = i + qsz; /* value of i after swap */ ! 176: if (i == mid) { ! 177: /* j <-> mid, new mid is j */ ! 178: mid = jj = j; ! 179: } else { ! 180: /* i <-> j */ ! 181: jj = j; ! 182: j -= qsz; ! 183: } ! 184: goto swap; ! 185: } ! 186: if (i == mid) { ! 187: break; ! 188: } else { ! 189: /* i <-> mid, new mid is i */ ! 190: jj = mid; ! 191: tmp = mid = i; /* value of i after swap */ ! 192: j -= qsz; ! 193: } ! 194: swap: ! 195: ii = qsz; ! 196: do { ! 197: c = *i; ! 198: *i++ = *jj; ! 199: *jj++ = c; ! 200: } while (--ii); ! 201: i = tmp; ! 202: } ! 203: /* ! 204: * Look at sizes of the two partitions, do the smaller ! 205: * one first by recursion, then do the larger one by ! 206: * making sure lo is its size, base and max are update ! 207: * correctly, and branching back. But only repeat ! 208: * (recursively or by branching) if the partition is ! 209: * of at least size THRESH. ! 210: */ ! 211: i = (j = mid) + qsz; ! 212: if ((lo = j - base) <= (hi = max - i)) { ! 213: if (lo >= thresh) ! 214: qst(base, j); ! 215: base = i; ! 216: lo = hi; ! 217: } else { ! 218: if (hi >= thresh) ! 219: qst(i, max); ! 220: max = j; ! 221: } ! 222: } while (lo >= thresh); ! 223: }
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