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/*===========================================================================*
* bitio.c
*
* Procedures concerned with the bit-wise I/O
*
* EXPORTED PROCEDURES:
* Bitio_New
* Bitio_Free
* Bitio_Write
* Bitio_Flush
* Bitio_WriteToSocket
* Bitio_BytePad
*
*===========================================================================*/
/*
* Copyright (c) 1995 The Regents of the University of California.
* All rights reserved.
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose, without fee, and without written agreement is
* hereby granted, provided that the above copyright notice and the following
* two paragraphs appear in all copies of this software.
*
* IN NO EVENT SHALL THE UNIVERSITY OF CALIFORNIA BE LIABLE TO ANY PARTY FOR
* DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT
* OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF THE UNIVERSITY OF
* CALIFORNIA HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* THE UNIVERSITY OF CALIFORNIA SPECIFICALLY DISCLAIMS ANY WARRANTIES,
* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
* AND FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS
* ON AN "AS IS" BASIS, AND THE UNIVERSITY OF CALIFORNIA HAS NO OBLIGATION TO
* PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
*/
/*==============*
* HEADER FILES *
*==============*/
#include <assert.h>
#include <time.h>
#include <unistd.h>
#include <errno.h>
#include "pm.h"
#include "intcode.h"
#include "all.h"
#include "byteorder.h"
#include "bitio.h"
#include "mtypes.h"
/*==================*
* STATIC VARIABLES *
*==================*/
static uint32 lower_mask[33] = {
0,
0x1, 0x3, 0x7, 0xf,
0x1f, 0x3f, 0x7f, 0xff,
0x1ff, 0x3ff, 0x7ff, 0xfff,
0x1fff, 0x3fff, 0x7fff, 0xffff,
0x1ffff, 0x3ffff, 0x7ffff, 0xfffff,
0x1fffff, 0x3fffff, 0x7fffff, 0xffffff,
0x1ffffff, 0x3ffffff, 0x7ffffff, 0xfffffff,
0x1fffffff, 0x3fffffff, 0x7fffffff, 0xffffffff
};
extern time_t IOtime;
/*===========================================================================*
*
* Dump
*
* Writes out the first MAX_BITS bits of the bit bucket to the
* appropriate output file
*
* RETURNS: nothing
*
* SIDE EFFECTS: none
*
*===========================================================================*/
static void
Dump(BitBucket * const bbPtr) {
struct bitBucket *ptr, *tempPtr;
int i, nitems;
int bitsWritten = 0;
time_t tempTimeStart, tempTimeEnd;
time(&tempTimeStart);
for (ptr = bbPtr->firstPtr; ptr && (bitsWritten < MAX_BITS);
ptr = ptr->nextPtr) {
bigend32 buffer[WORDS_PER_BUCKET];
if (ptr->bitsleftcur == 32 && ptr->currword == 0) {
continue; /* empty */
}
for (i = 0; i <= ptr->currword; ++i)
buffer[i] = pm_bigendFromUint32(ptr->bits[i]);
nitems = fwrite(buffer, sizeof(buffer[0]), ptr->currword + 1,
bbPtr->filePtr);
if (nitems != ptr->currword+1) {
fprintf(stderr,
"Whoa! Trouble writing %u words (wrote %u words)! "
"Game over, dude!\n",
ptr->currword+1, nitems);
exit(1);
}
bitsWritten += ((ptr->currword + 1) * 32);
}
while ( bbPtr->firstPtr != ptr ) {
tempPtr = bbPtr->firstPtr;
bbPtr->firstPtr = tempPtr->nextPtr;
free(tempPtr);
}
bbPtr->totalbits -= bitsWritten;
bbPtr->bitsWritten += bitsWritten;
time(&tempTimeEnd);
IOtime += (tempTimeEnd-tempTimeStart);
}
/*=====================*
* EXPORTED PROCEDURES *
*=====================*/
/*===========================================================================*
*
* Bitio_New
*
* Create a new bit bucket; filePtr is a pointer to the open file the
* bits should ultimately be written to.
*
* RETURNS: pointer to the resulting bit bucket
*
* SIDE EFFECTS: none
*
*===========================================================================*/
BitBucket *
Bitio_New(FILE * const filePtr) {
BitBucket *bbPtr;
bbPtr = (BitBucket *) malloc(sizeof(BitBucket));
ERRCHK(bbPtr, "malloc");
bbPtr->firstPtr = bbPtr->lastPtr = malloc(sizeof(struct bitBucket));
ERRCHK(bbPtr->firstPtr, "malloc");
bbPtr->totalbits = 0;
bbPtr->cumulativeBits = 0;
bbPtr->bitsWritten = 0;
bbPtr->filePtr = filePtr;
bbPtr->firstPtr->nextPtr = NULL;
bbPtr->firstPtr->bitsleft = MAXBITS_PER_BUCKET;
bbPtr->firstPtr->bitsleftcur = 32;
bbPtr->firstPtr->currword = 0;
memset((char *)bbPtr->firstPtr->bits, 0,
sizeof(uint32) * WORDS_PER_BUCKET);
return bbPtr;
}
BitBucket *
Bitio_New_Filename(const char * const fileName) {
FILE * outputFile;
outputFile = fopen(fileName, "wb");
if (outputFile == NULL)
pm_error("Could not open output file '%s'. "
"Errno=%d (%s)", fileName, errno, strerror(errno));
return Bitio_New(outputFile);
}
/*===========================================================================*
*
* Bitio_Free
*
* Frees the memory associated with the given bit bucket
*
* RETURNS: nothing
*
* SIDE EFFECTS: none
*
*===========================================================================*/
void
Bitio_Free(BitBucket * const bbPtr) {
struct bitBucket *tmpPtr, *nextPtr;
for (tmpPtr = bbPtr->firstPtr; tmpPtr != NULL; tmpPtr = nextPtr) {
nextPtr = tmpPtr->nextPtr;
free(tmpPtr);
}
free(bbPtr);
}
/*===========================================================================*
*
* Bitio_Write
*
* Writes 'nbits' bits from 'bits' into the given bit bucket
* 'nbits' must be between 0 and 32
*
* RETURNS: nothing
*
* SIDE EFFECTS: if the number of bits in the bit bucket surpasses
* MAX_BITS, then that many bits are flushed to the
* appropriate output file
*
*===========================================================================*/
void
Bitio_Write(BitBucket * const bbPtr,
uint32 const bits_arg,
int const nbits) {
register struct bitBucket *lastPtr, *newPtr;
register int delta;
uint32 bits;
bits=bits_arg;
assert(nbits <= 32 && nbits >= 0);
/*
* Clear top bits if not part of data, necessary because of down and
* dirty calls of Bitio_Write with unnecessary top bits set.
*/
bits &= lower_mask[nbits];
bits = bits & lower_mask[nbits];
bbPtr->totalbits += nbits;
bbPtr->cumulativeBits += nbits;
lastPtr = bbPtr->lastPtr;
delta = nbits - lastPtr->bitsleft;
if (delta >= 0) {
/*
* there's not enough room in the current bucket, so we're
* going to have to allocate another bucket
*/
newPtr = lastPtr->nextPtr = (struct bitBucket *)
malloc(sizeof(struct bitBucket));
ERRCHK(newPtr, "malloc");
newPtr->nextPtr = NULL;
newPtr->bitsleft = MAXBITS_PER_BUCKET;
newPtr->bitsleftcur = 32;
newPtr->currword = 0;
memset((char *)newPtr->bits, 0, sizeof(uint32) * WORDS_PER_BUCKET);
bbPtr->lastPtr = newPtr;
assert(lastPtr->currword == WORDS_PER_BUCKET - 1);
lastPtr->bits[WORDS_PER_BUCKET - 1] |= (bits >> delta);
lastPtr->bitsleft = 0;
lastPtr->bitsleftcur = 0;
/* lastPtr->currword++; */
if (!delta) {
if ( bbPtr->totalbits > MAX_BITS ) {
Dump(bbPtr);
}
}
assert(delta <= 32);
newPtr->bits[0] = (bits & lower_mask[delta]) << (32 - delta);
newPtr->bitsleft -= delta;
newPtr->bitsleftcur -= delta;
} else {
/*
* the current bucket will be sufficient
*/
delta = nbits - lastPtr->bitsleftcur;
lastPtr->bitsleftcur -= nbits;
lastPtr->bitsleft -= nbits;
if (delta >= 0)
{
/*
* these bits will span more than one word
*/
lastPtr->bits[lastPtr->currword] |= (bits >> delta);
lastPtr->currword++;
lastPtr->bits[lastPtr->currword] =
(bits & lower_mask[delta]) << (32 - delta);
lastPtr->bitsleftcur = 32 - delta;
} else {
/*
* these bits will fit, whole
*/
lastPtr->bits[lastPtr->currword] |= (bits << (-delta));
}
}
if ( bbPtr->totalbits > MAX_BITS ) /* flush bits */
Dump(bbPtr);
}
/*===========================================================================*
*
* Bitio_Flush
*
* Flushes all of the remaining bits in the given bit bucket to the
* appropriate output file. It will generate up to the nearest 8-bit
* unit of bits, which means that up to 7 extra 0 bits will be appended
* to the end of the file.
*
* RETURNS: nothing
*
* SIDE EFFECTS: frees the bit bucket
*
*===========================================================================*/
void
Bitio_Flush(BitBucket * const bbPtr) {
struct bitBucket *ptr, *tempPtr;
uint32 lastWord;
int i, nitems;
int bitsWritten = 0;
int bitsLeft;
unsigned int numWords;
uint8 charBuf[4];
boolean flushHere = FALSE;
time_t tempTimeStart, tempTimeEnd;
time(&tempTimeStart);
bitsLeft = bbPtr->totalbits;
for (ptr = bbPtr->firstPtr; ptr; ptr = ptr->nextPtr) {
if (ptr->bitsleftcur == 32 && ptr->currword == 0) {
continue; /* empty */
}
if ( bitsLeft >= 32 ) {
bigend32 buffer[WORDS_PER_BUCKET];
if ( ((ptr->currword + 1) * 32) > bitsLeft ) {
numWords = ptr->currword;
flushHere = TRUE;
} else
numWords = ptr->currword+1;
for (i = 0; i < numWords; ++i)
buffer[i] = pm_bigendFromUint32(ptr->bits[i]);
nitems = fwrite(buffer, sizeof(buffer[0]), numWords,
bbPtr->filePtr);
if (nitems != numWords) {
if (ferror(bbPtr->filePtr))
pm_error("Error writing %u words to flush a bit bucket. "
"fwrite() gives errno %d (%s)",
numWords, errno, strerror(errno));
else
pm_error("Problem writing %u words "
"to flush a bit bucket. "
"Only %d words transferred.",
numWords, nitems);
}
bitsWritten += (numWords * 32);
bitsLeft -= (numWords * 32);
} else {
flushHere = TRUE;
}
if ( (bitsLeft < 32) && flushHere ) {
lastWord = ptr->bits[ptr->currword];
/* output the lastPtr word in big-endian order (network) */
/* now write out lastPtr bits */
while ( bitsLeft > 0 ) {
charBuf[0] = (lastWord >> 24);
charBuf[0] &= lower_mask[8];
fwrite(charBuf, 1, sizeof(uint8), bbPtr->filePtr);
lastWord = (lastWord << 8);
bitsLeft -= 8;
bitsWritten += 8;
}
}
}
fflush(bbPtr->filePtr);
while ( bbPtr->firstPtr != ptr ) {
tempPtr = bbPtr->firstPtr;
bbPtr->firstPtr = tempPtr->nextPtr;
free(tempPtr);
}
free(bbPtr);
time(&tempTimeEnd);
IOtime += (tempTimeEnd-tempTimeStart);
}
void
Bitio_Close(BitBucket * const bbPtr) {
fclose(bbPtr->filePtr);
}
/*===========================================================================*
*
* Bitio_WriteToSocket
*
* Writes all of the remaining bits in the given bit bucket to the
* given socket. May pad the end of the socket stream with extra 0
* bits as does Bitio_Flush.
*
* RETURNS: nothing
*
* SIDE EFFECTS: frees the bit bucket
*
*===========================================================================*/
void
Bitio_WriteToSocket(BitBucket * const bbPtr,
int const socket) {
struct bitBucket *ptr, *tempPtr;
uint32 lastWord;
int i, nitems;
int bitsWritten = 0;
int bitsLeft;
int numWords;
uint8 charBuf[4];
boolean flushHere = FALSE;
bitsLeft = bbPtr->totalbits;
for (ptr = bbPtr->firstPtr; ptr; ptr = ptr->nextPtr) {
if (ptr->bitsleftcur == 32 && ptr->currword == 0) {
continue; /* empty */
}
if ( bitsLeft >= 32 ) {
bigend32 buffer[WORDS_PER_BUCKET];
if ( ((ptr->currword + 1) * 32) > bitsLeft ) {
numWords = ptr->currword;
flushHere = TRUE;
} else {
numWords = ptr->currword+1;
}
for (i = 0; i < numWords; ++i)
buffer[i] = pm_bigendFromUint32(ptr->bits[i]);
nitems = write(socket, buffer, numWords * sizeof(buffer[0]));
if (nitems != numWords*sizeof(uint32)) {
fprintf(stderr, "Whoa! Trouble writing %u bytes "
"(wrote %u bytes)! "
"Game over, dude!\n",
(unsigned)(numWords*sizeof(buffer[0])), nitems);
exit(1);
}
bitsWritten += (numWords * 32);
bitsLeft -= (numWords * 32);
} else {
flushHere = TRUE;
}
if ( (bitsLeft < 32) && flushHere ) {
lastWord = ptr->bits[ptr->currword];
/* output the lastPtr word in big-endian order (network) */
/* now write out lastPtr bits */
while ( bitsLeft > 0 ) {
charBuf[0] = (lastWord >> 24);
charBuf[0] &= lower_mask[8];
if ( write(socket, charBuf, 1) != 1 ) {
fprintf(stderr, "ERROR: write of lastPtr bits\n");
exit(1);
}
lastWord = (lastWord << 8);
bitsLeft -= 8;
bitsWritten += 8;
}
}
}
while ( bbPtr->firstPtr != ptr ) {
tempPtr = bbPtr->firstPtr;
bbPtr->firstPtr = tempPtr->nextPtr;
free(tempPtr);
}
free(bbPtr);
}
/*===========================================================================*
*
* Bitio_BytePad
*
* Pads the end of the bit bucket to the nearest byte with 0 bits
*
* RETURNS: nothing
*
*===========================================================================*/
void
Bitio_BytePad(BitBucket * const bbPtr) {
struct bitBucket *lastPtrPtr = bbPtr->lastPtr;
if (lastPtrPtr->bitsleftcur % 8) {
Bitio_Write(bbPtr, 0, lastPtrPtr->bitsleftcur % 8);
}
}
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