From ded6147bfb5d75ff1e67c858040a628b61bc17d1 Mon Sep 17 00:00:00 2001 From: Kaleb Keithley Date: Fri, 14 Nov 2003 15:54:54 +0000 Subject: R6.6 is the Xorg base-line --- record/set.c | 702 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 702 insertions(+) create mode 100644 record/set.c (limited to 'record/set.c') diff --git a/record/set.c b/record/set.c new file mode 100644 index 000000000..dbaac4f54 --- /dev/null +++ b/record/set.c @@ -0,0 +1,702 @@ +/* $Xorg: set.c,v 1.4 2001/02/09 02:05:27 xorgcvs Exp $ */ + +/* + +Copyright 1995, 1998 The Open Group + +Permission to use, copy, modify, distribute, and sell this software and its +documentation for any purpose is hereby granted without fee, provided that +the above copyright notice appear in all copies and that both that +copyright notice and this permission notice appear in supporting +documentation. + +The above copyright notice and this permission notice shall be +included in all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF +MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. +IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR +OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, +ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR +OTHER DEALINGS IN THE SOFTWARE. + +Except as contained in this notice, the name of The Open Group shall +not be used in advertising or otherwise to promote the sale, use or +other dealings in this Software without prior written authorization +from The Open Group. + +*/ + +/* + + See the header set.h for a description of the set ADT. + + Implementation Strategy + + A bit vector is an obvious choice to represent the set, but may take + too much memory, depending on the numerically largest member in the + set. One expected common case is for the client to ask for *all* + protocol. This means it would ask for minor opcodes 0 through 65535. + Representing this as a bit vector takes 8K -- and there may be + multiple minor opcode intervals, as many as one per major (extension) + opcode). In such cases, a list-of-intervals representation would be + preferable to reduce memory consumption. Both representations will be + implemented, and RecordCreateSet will decide heuristically which one + to use based on the set members. + + Note: When compiling for use in the server, do not use -DTESTING. + When compiling for stand-alone testing of the set ADT, use -DTESTING. + +*/ + +#ifndef TESTING +#include "misc.h" +#else +#include +#include +#include + +/* stuff that you normally get from the X Server's environment */ + +typedef int Bool; +#ifndef TRUE +#define TRUE 1 +#define FALSE 0 +#endif + +typedef unsigned short CARD16; + +#define xalloc malloc +#define xfree free +#define ALLOCATE_LOCAL malloc +#define DEALLOCATE_LOCAL free + +void *Xcalloc(size) + int size; +{ + void *p = malloc(size); + if (p) memset(p, 0, size); + return p; +} + +#ifndef max +#define max(_a, _b) ( ((_a) > (_b)) ? (_a) : (_b) ) +#endif + +#endif /* TESTING */ + +#include "set.h" + +static int +maxMemberInInterval(pIntervals, nIntervals) + RecordSetInterval *pIntervals; + int nIntervals; +{ + int i; + int maxMember = -1; + for (i = 0; i < nIntervals; i++) + { + if (maxMember < (int)pIntervals[i].last) + maxMember = pIntervals[i].last; + } + return maxMember; +} + +static void +NoopDestroySet(pSet) + RecordSetPtr pSet; +{ +} + +/***************************************************************************/ + +/* set operations for bit vector representation */ + +typedef struct { + RecordSetRec baseSet; + int maxMember; + /* followed by the bit vector itself */ +} BitVectorSet, *BitVectorSetPtr; + +#define BITS_PER_LONG (sizeof(unsigned long) * 8) + +static void +BitVectorDestroySet(pSet) + RecordSetPtr pSet; +{ + xfree(pSet); +} + +static unsigned long +BitVectorIsMemberOfSet(pSet, pm) + RecordSetPtr pSet; + int pm; +{ + BitVectorSetPtr pbvs = (BitVectorSetPtr)pSet; + unsigned long *pbitvec; + + if ((int)pm > pbvs->maxMember) return FALSE; + pbitvec = (unsigned long *)(&pbvs[1]); + return (pbitvec[pm / BITS_PER_LONG] & ((unsigned long)1 << (pm % BITS_PER_LONG))); +} + + +static int +BitVectorFindBit(pSet, iterbit, bitval) + RecordSetPtr pSet; + int iterbit; + Bool bitval; +{ + BitVectorSetPtr pbvs = (BitVectorSetPtr)pSet; + unsigned long *pbitvec = (unsigned long *)(&pbvs[1]); + int startlong; + int startbit; + int walkbit; + int maxMember; + unsigned long skipval; + unsigned long bits; + unsigned long usefulbits; + + startlong = iterbit / BITS_PER_LONG; + pbitvec += startlong; + startbit = startlong * BITS_PER_LONG; + skipval = bitval ? 0L : ~0L; + maxMember = pbvs->maxMember; + + + if (startbit > maxMember) return -1; + bits = *pbitvec; + usefulbits = ~(((unsigned long)1 << (iterbit - startbit)) - 1); + if ( (bits & usefulbits) == (skipval & usefulbits) ) + { + pbitvec++; + startbit += BITS_PER_LONG; + + while (startbit <= maxMember && *pbitvec == skipval) + { + pbitvec++; + startbit += BITS_PER_LONG; + } + if (startbit > maxMember) return -1; + } + + walkbit = (startbit < iterbit) ? iterbit - startbit : 0; + + bits = *pbitvec; + while (walkbit < BITS_PER_LONG && ((!(bits & ((unsigned long)1 << walkbit))) == bitval)) + walkbit++; + + return startbit + walkbit; +} + + +static RecordSetIteratePtr +BitVectorIterateSet(pSet, pIter, pInterval) + RecordSetPtr pSet; + RecordSetIteratePtr pIter; + RecordSetInterval *pInterval; +{ + int iterbit = (int)pIter; + int b; + + b = BitVectorFindBit(pSet, iterbit, TRUE); + if (b == -1) return (RecordSetIteratePtr)0; + pInterval->first = b; + + b = BitVectorFindBit(pSet, b, FALSE); + pInterval->last = (b < 0) ? ((BitVectorSetPtr)pSet)->maxMember : b - 1; + return (RecordSetIteratePtr)(pInterval->last + 1); +} + +RecordSetOperations BitVectorSetOperations = { + BitVectorDestroySet, BitVectorIsMemberOfSet, BitVectorIterateSet }; + +RecordSetOperations BitVectorNoFreeOperations = { + NoopDestroySet, BitVectorIsMemberOfSet, BitVectorIterateSet }; + +static int +BitVectorSetMemoryRequirements(pIntervals, nIntervals, maxMember, alignment) + RecordSetInterval *pIntervals; + int nIntervals; + int maxMember; + int *alignment; +{ + int nlongs; + + *alignment = sizeof(unsigned long); + nlongs = (maxMember + BITS_PER_LONG) / BITS_PER_LONG; + return (sizeof(BitVectorSet) + nlongs * sizeof(unsigned long)); +} + +static RecordSetPtr +BitVectorCreateSet(pIntervals, nIntervals, pMem, memsize) + RecordSetInterval *pIntervals; + int nIntervals; + void *pMem; + int memsize; +{ + BitVectorSetPtr pbvs; + int i, j; + unsigned long *pbitvec; + + /* allocate all storage needed by this set in one chunk */ + + if (pMem) + { + memset(pMem, 0, memsize); + pbvs = (BitVectorSetPtr)pMem; + pbvs->baseSet.ops = &BitVectorNoFreeOperations; + } + else + { + pbvs = (BitVectorSetPtr)Xcalloc(memsize); + if (!pbvs) return NULL; + pbvs->baseSet.ops = &BitVectorSetOperations; + } + + pbvs->maxMember = maxMemberInInterval(pIntervals, nIntervals); + + /* fill in the set */ + + pbitvec = (unsigned long *)(&pbvs[1]); + for (i = 0; i < nIntervals; i++) + { + for (j = pIntervals[i].first; j <= (int)pIntervals[i].last; j++) + { + pbitvec[j/BITS_PER_LONG] |= ((unsigned long)1 << (j % BITS_PER_LONG)); + } + } + return (RecordSetPtr)pbvs; +} + + +/***************************************************************************/ + +/* set operations for interval list representation */ + +typedef struct { + RecordSetRec baseSet; + int nIntervals; + /* followed by the intervals (RecordSetInterval) */ +} IntervalListSet, *IntervalListSetPtr; + +static void +IntervalListDestroySet(pSet) + RecordSetPtr pSet; +{ + xfree(pSet); +} + +static unsigned long +IntervalListIsMemberOfSet(pSet, pm) + RecordSetPtr pSet; + int pm; +{ + IntervalListSetPtr prls = (IntervalListSetPtr)pSet; + RecordSetInterval *pInterval = (RecordSetInterval *)(&prls[1]); + int hi, lo, probe; + + /* binary search */ + lo = 0; hi = prls->nIntervals - 1; + while (lo <= hi) + { + probe = (hi + lo) / 2; + if (pm >= pInterval[probe].first && pm <= pInterval[probe].last) return 1; + else if (pm < pInterval[probe].first) hi = probe - 1; + else lo = probe + 1; + } + return 0; +} + + +static RecordSetIteratePtr +IntervalListIterateSet(pSet, pIter, pIntervalReturn) + RecordSetPtr pSet; + RecordSetIteratePtr pIter; + RecordSetInterval *pIntervalReturn; +{ + RecordSetInterval *pInterval = (RecordSetInterval *)pIter; + IntervalListSetPtr prls = (IntervalListSetPtr)pSet; + + if (pInterval == NULL) + { + pInterval = (RecordSetInterval *)(&prls[1]); + } + + if ( (pInterval - (RecordSetInterval *)(&prls[1])) < prls->nIntervals ) + { + *pIntervalReturn = *pInterval; + return (RecordSetIteratePtr)(++pInterval); + } + else + return (RecordSetIteratePtr)NULL; +} + +RecordSetOperations IntervalListSetOperations = { + IntervalListDestroySet, IntervalListIsMemberOfSet, IntervalListIterateSet }; + +RecordSetOperations IntervalListNoFreeOperations = { + NoopDestroySet, IntervalListIsMemberOfSet, IntervalListIterateSet }; + +static int +IntervalListMemoryRequirements(pIntervals, nIntervals, maxMember, alignment) + RecordSetInterval *pIntervals; + int nIntervals; + int maxMember; + int *alignment; +{ + *alignment = sizeof(unsigned long); + return sizeof(IntervalListSet) + nIntervals * sizeof(RecordSetInterval); +} + +static RecordSetPtr +IntervalListCreateSet(pIntervals, nIntervals, pMem, memsize) + RecordSetInterval *pIntervals; + int nIntervals; + void *pMem; + int memsize; +{ + IntervalListSetPtr prls; + int i, j, k; + RecordSetInterval *stackIntervals = NULL; + CARD16 first; + + if (nIntervals > 0) + { + stackIntervals = (RecordSetInterval *)ALLOCATE_LOCAL( + sizeof(RecordSetInterval) * nIntervals); + if (!stackIntervals) return NULL; + + /* sort intervals, store in stackIntervals (insertion sort) */ + + for (i = 0; i < nIntervals; i++) + { + first = pIntervals[i].first; + for (j = 0; j < i; j++) + { + if (first < stackIntervals[j].first) + break; + } + for (k = i; k > j; k--) + { + stackIntervals[k] = stackIntervals[k-1]; + } + stackIntervals[j] = pIntervals[i]; + } + + /* merge abutting/overlapping intervals */ + + for (i = 0; i < nIntervals - 1; ) + { + if ( (stackIntervals[i].last + (unsigned int)1) < + stackIntervals[i + 1].first) + { + i++; /* disjoint intervals */ + } + else + { + stackIntervals[i].last = max(stackIntervals[i].last, + stackIntervals[i + 1].last); + nIntervals--; + for (j = i + 1; j < nIntervals; j++) + stackIntervals[j] = stackIntervals[j + 1]; + } + } + } + + /* allocate and fill in set structure */ + + if (pMem) + { + prls = (IntervalListSetPtr)pMem; + prls->baseSet.ops = &IntervalListNoFreeOperations; + } + else + { + prls = (IntervalListSetPtr) + xalloc(sizeof(IntervalListSet) + nIntervals * sizeof(RecordSetInterval)); + if (!prls) goto bailout; + prls->baseSet.ops = &IntervalListSetOperations; + } + memcpy(&prls[1], stackIntervals, nIntervals * sizeof(RecordSetInterval)); + prls->nIntervals = nIntervals; +bailout: + if (stackIntervals) DEALLOCATE_LOCAL(stackIntervals); + return (RecordSetPtr)prls; +} + +#ifdef TESTING +typedef enum { + BitVectorImplementation, IntervalListImplementation} RecordSetImplementation; + +RecordSetImplementation _RecordSetImpl; + +static void +_RecordForceSetImplementation(setimpl) + RecordSetImplementation setimpl; +{ + _RecordSetImpl = setimpl; +} +#endif + +typedef RecordSetPtr (*RecordCreateSetProcPtr)( +#if NeedNestedPrototypes + RecordSetInterval *pIntervals, + int nIntervals, + void *pMem, + int memsize +#endif +); + +static int +_RecordSetMemoryRequirements(pIntervals, nIntervals, alignment, ppCreateSet) + RecordSetInterval *pIntervals; + int nIntervals; + int *alignment; + RecordCreateSetProcPtr *ppCreateSet; +{ + int bmsize, rlsize, bma, rla; + int maxMember; + + /* find maximum member of set so we know how big to make the bit vector */ + maxMember = maxMemberInInterval(pIntervals, nIntervals); + + bmsize = BitVectorSetMemoryRequirements(pIntervals, nIntervals, maxMember, + &bma); + rlsize = IntervalListMemoryRequirements(pIntervals, nIntervals, maxMember, + &rla); +#ifdef TESTING + if (_RecordSetImpl == BitVectorImplementation) +#else + if ( ( (nIntervals > 1) && (maxMember <= 255) ) + || (bmsize < rlsize) ) +#endif + { + *alignment = bma; + *ppCreateSet = BitVectorCreateSet; + return bmsize; + } + else + { + *alignment = rla; + *ppCreateSet = IntervalListCreateSet; + return rlsize; + } +} + +/***************************************************************************/ + +/* user-visible functions */ + +int +RecordSetMemoryRequirements(pIntervals, nIntervals, alignment) + RecordSetInterval *pIntervals; + int nIntervals; + int *alignment; +{ + RecordCreateSetProcPtr pCreateSet; + return _RecordSetMemoryRequirements(pIntervals, nIntervals, alignment, + &pCreateSet); +} + +RecordSetPtr +RecordCreateSet(pIntervals, nIntervals, pMem, memsize) + RecordSetInterval *pIntervals; + int nIntervals; + void *pMem; + int memsize; +{ + RecordCreateSetProcPtr pCreateSet; + int alignment; + int size; + + size = _RecordSetMemoryRequirements(pIntervals, nIntervals, &alignment, + &pCreateSet); + if (pMem) + { + if ( ((int)pMem & (alignment-1) ) || memsize < size) + return NULL; + } + return (*pCreateSet)(pIntervals, nIntervals, pMem, size); +} + +/***************************************************************************/ + +#ifdef TESTING + +/* + +Test Strategy + +Having two set representations is convenient for testing because we +can play them against each other. The test code will be able to +specify which implementation to use. This breaks the encapsulation, +but that seems acceptable for testing. The crux of the test loop +looks like this: + +loop: + generate random list of Intervals + + create set A using bit vector implementation + create set B using Interval list implementation + + for each possible set member + if set A and set B disagree on whether this is a member error; + + iterate over both sets, comparing the intervals returned by each. + if intervals or number of intervals are different error; + + iterate over intervals of set A + for i = interval.first to interval.last + if i is not a member of set B error; + + iterate over intervals of set B + for i = interval.first to interval.last + if i is not a member of set A error; + + destroy sets A, B + +*/ + +int GenerateRandomIntervals(pIntervals, maxintervals) + RecordSetInterval *pIntervals; + int maxintervals; +{ + int i, nIntervals; + + nIntervals = rand() % maxintervals; + + for (i = 0; i < nIntervals; i++) + { + pIntervals[i].first = rand(); + pIntervals[i].last = pIntervals[i].first + rand(); + } + return nIntervals; +} + +#define MAXINTERVALS 100 + +int main(argc, argv) + int argc; + char **argv; +{ + RecordSetPtr bs, rs; + RecordSetInterval br, rr; + RecordSetIteratePtr bi, ri; + CARD16 i; + int testcount; + RecordSetInterval intervals[MAXINTERVALS]; + int nIntervals; + int bsize, rsize; + int balign, ralign; + int pad; + + for (testcount = 0; 1; testcount++) + { + nIntervals = GenerateRandomIntervals(intervals, MAXINTERVALS); + printf("%d nIntervals %d\n", testcount, nIntervals); + + if (testcount & 1) + { + _RecordForceSetImplementation(BitVectorImplementation); + bsize = RecordSetMemoryRequirements(intervals, nIntervals, &balign); + _RecordForceSetImplementation(IntervalListImplementation); + rsize = RecordSetMemoryRequirements(intervals, nIntervals, &ralign); + pad = (ralign - (bsize & (ralign - 1))) & (ralign - 1); + bs = (RecordSetPtr)xalloc(bsize + pad + rsize ); + if (!bs) + { + fprintf(stderr, "%d: failed to alloc memory for sets\n", + testcount); + continue; + } + rs = (RecordSetPtr)(((char *)bs) + bsize + pad); + } + else + { + bs = rs = NULL; + bsize = rsize = 0; + } + + _RecordForceSetImplementation(BitVectorImplementation); + bs = RecordCreateSet(intervals, nIntervals, bs, bsize); + _RecordForceSetImplementation(IntervalListImplementation); + rs = RecordCreateSet(intervals, nIntervals, rs, rsize); + + if (!bs || !rs) + { + fprintf(stderr, "%d: failed to create sets\n", testcount); + continue; + } + + for (i = 0; i < 65535; i++) + { + unsigned long b, r; + + b = RecordIsMemberOfSet(bs, i); + r = RecordIsMemberOfSet(rs, i); + if ( (b && !r) || (!b && r) ) + { + fprintf(stderr, "%d: isMemberOfSet %d\n", + testcount, (int)i); + } + } + + bi = RecordIterateSet(bs, NULL, &br); + ri = RecordIterateSet(rs, NULL, &rr); + + while (bi && ri) + { + if ( (rr.first != br.first) || (rr.last != br.last) ) + { + fprintf(stderr, "%d: iterateSet interval value mismatch\n", + testcount); + } + bi = RecordIterateSet(bs, bi, &br); + ri = RecordIterateSet(rs, ri, &rr); + } + if (bi != ri) + { + fprintf(stderr, "%d: iterateSet interval count mismatch\n", + testcount); + } + + + bi = NULL; + while (bi = RecordIterateSet(bs, bi, &br)) + { + for (i = br.first; i <= br.last; i++) + { + if (!RecordIsMemberOfSet(rs, i)) + { + fprintf(stderr, "%d: iterateSet b / isMemberOfSet r %d\n", + testcount, (int)i); + } + } + } + + ri = NULL; + while (ri = RecordIterateSet(rs, ri, &rr)) + { + for (i = rr.first; i <= rr.last; i++) + { + if (!RecordIsMemberOfSet(bs, i) ) + { + fprintf(stderr, "%d: iterateSet r / isMemberOfSet b %d\n", + testcount, (int)i); + } + } + } + + RecordDestroySet(bs); + RecordDestroySet(rs); + + if (testcount & 1) + { + xfree(bs); + } + } +} + +#endif /* TESTING */ -- cgit v1.2.3