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bb041098bc24dd591392d296052f0e1566b3febf
calc/block.c
Landon Curt Noll ac0d84eef8 Release v2.12.9.0 
Added notes to help/unexpected about:

    display() will limit the number of digits printed after decimal point

    %d will format after the decimal point for non-integer numeric values

    %x will format as fractions for non-integer numeric values

    fprintf(fd, "%d\n", huge_value) may need fflush(fd) to finish

Fixed Makefile dependencies for the args.h rule.

Fixed Makefile cases where echo with -n is used.  On some systems,
/bin/sh does not use -n, so we must call /bin/echo -n instead
via the ${ECHON} Makefile variable.

Add missing standard tools to sub-Makefiles to make them
easier to invoke directly.

Sort lists of standard tool Makefile variables and remove duplicates.

Declare the SHELL at the top of Makefiles.

Fixed the depend rule in the custom Makefile.

Improved the messages produced by the depend in the Makefiles.

Changed the UNUSED define in have_unused.h to be a macro with
a parameter.  Changed all use of UNUSED in *.c to be UNUSED(x).

Removed need for HAVE_UNUSED in building the have_unused.h file.

 CCBAN is given to ${CC} in order to control if banned.h is in effect.

 The banned.h attempts to ban the use of certain dangerous functions
 that, if improperly used, could compromise the computational integrity
 if calculations.

 In the case of calc, we are motivated in part by the desire for calc
 to correctly calculate: even during extremely long calculations.

 If UNBAN is NOT defined, then calling certain functions
 will result in a call to a non-existent function (link error).

 While we do NOT encourage defining UNBAN, there may be
 a system / compiler environment where re-defining a
 function may lead to a fatal compiler complication.
 If that happens, consider compiling as:

    make clobber all chk CCBAN=-DUNBAN

 as see if this is a work-a-round.

 If YOU discover a need for the -DUNBAN work-a-round, PLEASE tell us!
 Please send us a bug report.  See the file:

    BUGS

 or the URL:

    http://www.isthe.com/chongo/tech/comp/calc/calc-bugrept.html

 for how to send us such a bug report.

 Added the building of have_ban_pragma.h, which will determine
 if "#pragma GCC poison func_name" is supported.  If it is not,
 or of HAVE_PRAGMA_GCC_POSION=-DHAVE_NO_PRAGMA_GCC_POSION, then
 banned.h will have no effect.

 Fixed building of the have_getpgid.h file.
 Fixed building of the have_getprid.h file.
 Fixed building of the have_getsid.h file.
 Fixed building of the have_gettime.h file.
 Fixed building of the have_strdup.h file.
 Fixed building of the have_ustat.h file.
 Fixed building of the have_rusage.h file.

 Added HAVE_NO_STRLCPY to control if we want to test if
 the system has a strlcpy() function.  This in turn produces
 the have_strlcpy.h file wherein the symbol HAVE_STRLCPY will
 be defined, or not depending if the system comes with a
 strlcpy() function.

 If the system does not have a strlcpy() function, we
 compile our own strlcpy() function.  See strl.c for details.

 Added HAVE_NO_STRLCAT to control if we want to test if
 the system has a strlcat() function.  This in turn produces
 the have_strlcat.h file wherein the symbol HAVE_STRLCAT will
 be defined, or not depending if the system comes with a
 strlcat() function.

 If the system does not have a strlcat() function, we
 compile our own strlcat() function.  See strl.c for details.

 Fixed places were <string.h>, using #ifdef HAVE_STRING_H
 for legacy systems that do not have that include file.

 Added ${H} Makefile symbol to control the announcement
 of forming and having formed hsrc related files.  By default
 H=@ (announce hsrc file formation) vs. H=@: to silence hsrc
 related file formation.

 Explicitly turn off quiet mode (set Makefile variable ${Q} to
 be empty) when building rpms.

 Improved and fixed the hsrc build process.

 Forming rpms is performed in verbose mode to assist debugging
 to the rpm build process.

 Compile custom code, if needed, after main code is compiled.
2021-03-11 01:54:28 -08:00

753 lines
15 KiB
C
Raw Blame History

/*
* block - fixed, dynamic, fifo and circular memory blocks
*
* Copyright (C) 1999-2007,2021 Landon Curt Noll and Ernest Bowen
*
* Primary author: Landon Curt Noll
*
* Calc is open software; you can redistribute it and/or modify it under
* the terms of the version 2.1 of the GNU Lesser General Public License
* as published by the Free Software Foundation.
*
* Calc is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General
* Public License for more details.
*
* A copy of version 2.1 of the GNU Lesser General Public License is
* distributed with calc under the filename COPYING-LGPL. You should have
* received a copy with calc; if not, write to Free Software Foundation, Inc.
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* Under source code control: 1997/02/27 00:29:40
* File existed as early as: 1997
*
* chongo <was here> /\oo/\ http://www.isthe.com/chongo/
* Share and enjoy! :-) http://www.isthe.com/chongo/tech/comp/calc/
*/
#include <stdio.h>
#include "have_string.h"
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#include "alloc.h"
#include "value.h"
#include "zmath.h"
#include "config.h"
#include "block.h"
#include "nametype.h"
#include "str.h"
#include "calcerr.h"
#include "banned.h" /* include after system header <> includes */
#define NBLOCKCHUNK 16
STATIC long nblockcount = 0;
STATIC long maxnblockcount = 0;
STATIC STRINGHEAD nblocknames;
STATIC NBLOCK **nblocks;
/* forward declarations */
S_FUNC void blkchk(BLOCK*);
/*
* blkalloc - allocate a block
*
* given:
* len - initial memory length of the block
* type - BLK_TYPE_XYZ
* chunk - allocation chunk size
*
* returns:
* pointer to a newly allocated BLOCK
*/
BLOCK *
blkalloc(int len, int chunk)
{
BLOCK *nblk; /* new block allocated */
/*
* firewall
*/
if (len < 0)
len = 0;
if (chunk <= 0)
chunk = BLK_CHUNKSIZE;
/*
* allocate BLOCK
*/
nblk = (BLOCK *)malloc(sizeof(BLOCK));
if (nblk == NULL) {
math_error("cannot allocate block");
/*NOTREACHED*/
}
/*
* initialize BLOCK
*/
nblk->blkchunk = chunk;
nblk->maxsize = ((len+chunk)/chunk)*chunk;
nblk->data = (USB8*)malloc(nblk->maxsize);
if (nblk->data == NULL) {
math_error("cannot allocate block data storage");
/*NOTREACHED*/
}
memset(nblk->data, 0, nblk->maxsize);
nblk->datalen = len;
/*
* return BLOCK
*/
if (conf->calc_debug & CALCDBG_BLOCK) {
blkchk(nblk);
}
return nblk;
}
/*
* blk_free - free a block
*
* NOTE: THIS IS NOT THE CALC blktrunc() BUILTIN FUNCTION!! This
* is what is called to free block storage.
*
* given:
* blk - the block to free
*/
void
blk_free(BLOCK *blk)
{
/* free if non-NULL */
if (blk != NULL) {
/* free data storage */
if (blk->data != NULL) {
free(blk->data);
}
/* free the block */
free(blk);
}
return;
}
/*
* blkchk - check the sanity of a block
*
* These checks should never fail if calc is working correctly. During
* debug time, we plan to call this function often. Once we are satisfied,
* we will normally call this code only in a few places.
*
* If "calc_debug" has the bit corresponding to CALCDBG_BLOCK set, this
* function is called during execution of the following builtins:
*
* alloc(), realloc(), free()
*
* given:
* blk - the BLOCK to check
*
* returns:
* if all is ok, otherwise math_error() is called and this
* function does not return
*/
S_FUNC void
blkchk(BLOCK *blk)
{
/*
* firewall - general sanity check
*/
if ((conf->calc_debug & CALCDBG_BLOCK) == 0) {
/* do nothing when debugging is disabled */
return;
}
if (blk == NULL) {
math_error("internal: blk ptr is NULL");
/*NOTREACHED*/
}
/*
* pointers must not be NULL
*/
if (blk->data == NULL) {
math_error("internal: blk->data ptr is NULL");
/*NOTREACHED*/
}
/*
* check data lengths
*/
if (blk->datalen < 0) {
math_error("internal: blk->datalen < 0");
/*NOTREACHED*/
}
/*
* check the datalen and datalen2 values
*/
if (blk->datalen < 0) {
math_error("internal: blk->datalen < 0");
/*NOTREACHED*/
}
return;
}
/*
* blkrealloc - reallocate a block
*
* Reallocation of a block can change several aspects of a block.
*
* It can change the much data it holds or can hold.
*
* It can change the memory footprint (in terms of
* how much storage is malloced for current or future use).
*
* It can change the chunk size used to grow malloced size
* as the data size grows.
*
* Each of the len and chunksize may be kept the same.
*
* given:
* blk - old BLOCK to reallocate
* newlen - how much data the block holds
* newchunk - allocation chunk size (<0 ==> no change, 0 == default)
*/
BLOCK *
blkrealloc(BLOCK *blk, int newlen, int newchunk)
{
USB8 *nblk; /* realloced storage */
int newmax; /* new maximum stoage size */
/*
* firewall
*/
if (conf->calc_debug & CALCDBG_BLOCK) {
blkchk(blk);
}
/*
* process args
*/
/* newlen < 0 means do not change the length */
if (newlen < 0) {
newlen = blk->datalen;
}
/* newchunk <= 0 means do not change the chunk size */
if (newchunk < 0) {
newchunk = blk->blkchunk;
} else if (newchunk == 0) {
newchunk = BLK_CHUNKSIZE;
}
/*
* reallocate storage if we have a different allocation size
*/
newmax = ((newlen+newchunk)/newchunk)*newchunk;
if (newmax != blk->maxsize) {
/* reallocate new storage */
nblk = (USB8*)realloc(blk->data, newmax);
if (nblk == NULL) {
math_error("cannot reallocate block storage");
/*NOTREACHED*/
}
/* clear any new storage */
if (newmax > blk->maxsize) {
memset(nblk+blk->maxsize, 0, (newmax-blk->maxsize));
}
blk->maxsize = newmax;
/* restore the data pointers */
blk->data = nblk;
}
/*
* deal the case of a newlen == 0 early and return
*/
if (newlen == 0) {
/*
* setup the empty buffer
*
* We know that newtype is not circular since we force
* newlen to be at least 1 (because circular blocks
* always have at least one unused octet).
*/
if (blk->datalen < blk->maxsize) {
memset(blk->data, 0, blk->datalen);
} else {
memset(blk->data, 0, blk->maxsize);
}
blk->datalen = 0;
if (conf->calc_debug & CALCDBG_BLOCK) {
blkchk(blk);
}
return blk;
}
/*
* Set the data length
*
* We also know that the new block is not empty since we have
* already dealt with that case above.
*
* After this section of code, limit and datalen will be
* correct in terms of the new type.
*/
if (newlen > blk->datalen) {
/* there is new storage, clear it */
memset(blk->data + blk->datalen, 0, newlen-blk->datalen);
/* growing storage for blocks grows the data */
blk->datalen = newlen;
} else if (newlen <= blk->datalen) {
/* the block will be full */
blk->datalen = newlen;
}
/*
* return realloced type
*/
if (conf->calc_debug & CALCDBG_BLOCK) {
blkchk(blk);
}
return blk;
}
/*
* blktrunc - truncate a BLOCK down to a minimal fixed block
*
* NOTE: THIS IS NOT THE INTERNAL CALC FREE FUNCTION!! This
* is what blktrunc() builtin calls to reduce storage of a block
* down to an absolute minimum.
*
* This actually forms a zero length fixed block with a chunk of 1.
*
* given:
* blk - the BLOCK to shrink
*
* returns:
* pointer to a newly allocated BLOCK
*/
void
blktrunc(BLOCK *blk)
{
/*
* firewall
*/
if (conf->calc_debug & CALCDBG_BLOCK) {
blkchk(blk);
}
/*
* free the old storage
*/
free(blk->data);
/*
* setup as a zero length fixed block
*/
blk->blkchunk = 1;
blk->maxsize = 1;
blk->datalen = 0;
blk->data = (USB8*)malloc(1);
if (blk->data == NULL) {
math_error("cannot allocate truncated block storage");
/*NOTREACHED*/
}
blk->data[0] = (USB8)0;
if (conf->calc_debug & CALCDBG_BLOCK) {
blkchk(blk);
}
return;
}
/*
* blk_copy - copy a block
*
* given:
* blk - the block to copy
*
* returns:
* pointer to copy of blk
*/
BLOCK *
blk_copy(BLOCK *blk)
{
BLOCK *nblk; /* copy of blk */
/*
* malloc new block
*/
nblk = (BLOCK *)malloc(sizeof(BLOCK));
if (nblk == NULL) {
math_error("blk_copy: cannot malloc BLOCK");
/*NOTREACHED*/
}
/*
* duplicate most of the block
*/
*nblk = *blk;
/*
* duplicate block data
*/
nblk->data = (USB8 *)malloc(blk->maxsize);
if (nblk->data == NULL) {
math_error("blk_copy: cannot duplicate block data");
/*NOTREACHED*/
}
memcpy(nblk->data, blk->data, blk->maxsize);
return nblk;
}
/*
* blk_cmp - compare blocks
*
* given:
* a first BLOCK
* b second BLOCK
*
* returns:
* TRUE => BLOCKs are different
* FALSE => BLOCKs are the same
*/
int
blk_cmp(BLOCK *a, BLOCK *b)
{
/*
* firewall and quick check
*/
if (a == b) {
/* pointers to the same object */
return FALSE;
}
if (a == NULL || b == NULL) {
/* one pointer is NULL, so they differ */
return TRUE;
}
/*
* compare lengths
*/
if (a->datalen != b->datalen) {
/* different lengths are different */
return TRUE;
}
/*
* compare the section
*
* We have the same lengths and types, so compare the data sections.
*/
if (memcmp(a->data, b->data, a->datalen) != 0) {
/* different sections are different */
return TRUE;
}
/*
* the blocks are the same
*/
return FALSE;
}
/*
* Print chunksize, maxsize, datalen on line line and if datalen > 0,
* up to * 30 octets on the following line, with ... if datalen exceeds 30.
*/
/*ARGSUSED*/
void
blk_print(BLOCK *blk)
{
long i;
BOOL havetail;
USB8 *ptr;
/* XXX - should use the config parameters for better print control */
printf("chunksize = %d, maxsize = %d, datalen = %d\n\t",
(int)blk->blkchunk, (int)blk->maxsize, (int)blk->datalen);
i = blk->datalen;
havetail = (i > 30);
if (havetail)
i = 30;
ptr = blk->data;
while (i-- > 0)
printf("%02x", *ptr++);
if (havetail)
printf("...");
}
/*
* Routine to print id and name of a named block and details of its
* block component.
*/
void
nblock_print(NBLOCK *nblk)
{
BLOCK *blk;
/* XXX - use the config parameters for better print control */
blk = nblk->blk;
printf("block %d: %s\n\t", nblk->id, nblk->name);
if (blk->data == NULL) {
printf("chunksize = %d, maxsize = %d, datalen = %d\n\t",
(int)blk->blkchunk, (int)blk->maxsize, (int)blk->datalen);
printf("NULL");
} else {
blk_print(blk);
}
}
/*
* realloc a named block specified by its id. The new datalen and
* chunksize are specified by len >= 0 and chunk > 0. If len < 0
* or chunk <= 0, these values used are the current datalen and
* chunksize, so there is no point in calling this unless len >= 0
* and/or chunk > 0.
* No reallocation occurs if the new maxsize is equal to the old maxsize.
*/
NBLOCK *
reallocnblock(int id, int len, int chunk)
{
BLOCK *blk;
int newsize;
int oldsize;
USB8* newdata;
/* Fire wall */
if (id < 0 || id >= nblockcount) {
math_error("Bad id in call to reallocnblock");
/*NOTREACHED*/
}
blk = nblocks[id]->blk;
if (len < 0)
len = blk->datalen;
if (chunk < 0)
chunk = blk->blkchunk;
else if (chunk == 0)
chunk = BLK_CHUNKSIZE;
newsize = (1 + len/chunk) * chunk;
oldsize = blk->maxsize;
newdata = blk->data;
if (newdata == NULL) {
newdata = malloc(newsize);
if (newdata == NULL) {
math_error("Allocation failed");
/*NOTREACHED*/
}
} else if (newsize != oldsize) {
newdata = realloc(blk->data, newsize);
if (newdata == NULL) {
math_error("Reallocation failed");
/*NOTREACHED*/
}
}
memset(newdata + len, 0, newsize - len);
blk->maxsize = newsize;
blk->datalen = len;
blk->blkchunk = chunk;
blk->data = newdata;
return nblocks[id];
}
/*
* Create and return a new namedblock with specified name, len and
* chunksize.
*/
NBLOCK *
createnblock(char *name, int len, int chunk)
{
NBLOCK *res;
char *newname;
if (nblockcount >= maxnblockcount) {
if (maxnblockcount <= 0) {
maxnblockcount = NBLOCKCHUNK;
nblocks = (NBLOCK **)malloc(NBLOCKCHUNK *
sizeof(NBLOCK *));
if (nblocks == NULL) {
maxnblockcount = 0;
math_error("unable to malloc new named blocks");
/*NOTREACHED*/
}
} else {
maxnblockcount += NBLOCKCHUNK;
nblocks = (NBLOCK **)realloc(nblocks, maxnblockcount *
sizeof(NBLOCK *));
if (nblocks == NULL) {
maxnblockcount = 0;
math_error("cannot malloc more named blocks");
/*NOTREACHED*/
}
}
}
if (nblockcount == 0)
initstr(&nblocknames);
if (findstr(&nblocknames, name) >= 0) {
math_error("Named block already exists!!!");
/*NOTREACHED*/
}
newname = addstr(&nblocknames, name);
if (newname == NULL) {
math_error("Block name allocation failed");
/*NOTREACHED*/
}
res = (NBLOCK *) malloc(sizeof(NBLOCK));
if (res == NULL) {
math_error("Named block allocation failed");
/*NOTREACHED*/
}
nblocks[nblockcount] = res;
res->name = newname;
res->subtype = V_NOSUBTYPE;
res->id = nblockcount++;
res->blk = blkalloc(len, chunk);
return res;
}
/*
* find a named block
*/
int
findnblockid(char * name)
{
return findstr(&nblocknames, name);
}
/*
* free data block for named block with specified id
*/
int
removenblock(int id)
{
NBLOCK *nblk;
if (id < 0 || id >= nblockcount)
return E_BLKFREE3;
nblk = nblocks[id];
if (nblk->blk->data == NULL)
return 0;
if (nblk->subtype & V_NOREALLOC)
return E_BLKFREE5;
free(nblk->blk->data);
nblk->blk->data = NULL;
nblk->blk->maxsize = 0;
nblk->blk->datalen = 0;
return 0;
}
/*
* count number of current unfreed named blocks
*/
int
countnblocks(void)
{
int n;
int id;
for (n = 0, id = 0; id < nblockcount; id++) {
if (nblocks[id]->blk->data != NULL)
n++;
}
return n;
}
/*
* display id and name for each unfreed named block
*/
void
shownblocks(void)
{
int id;
if (countnblocks() == 0) {
printf("No unfreed named blocks\n\n");
return;
}
printf(" id name\n");
printf("---- -----\n");
for (id = 0; id < nblockcount; id++) {
if (nblocks[id]->blk->data != NULL)
printf("%3d %s\n", id, nblocks[id]->name);
}
printf("\n");
}
/*
* Return pointer to nblock with specified id, NULL if never created.
* The memory for the nblock found may have been freed.
*/
NBLOCK *
findnblock(int id)
{
if (id < 0 || id >= nblockcount)
return NULL;
return nblocks[id];
}
/*
* Create a new block with specified newlen and new chunksize and copy
* min(newlen, oldlen) octets to the new block. The old block is
* not changed.
*/
BLOCK *
copyrealloc(BLOCK *blk, int newlen, int newchunk)
{
BLOCK * newblk;
int oldlen;
oldlen = blk->datalen;
if (newlen < 0) /* retain length */
newlen = oldlen;
if (newchunk < 0) /* retain chunksize */
newchunk = blk->blkchunk;
else if (newchunk == 0) /* use default chunksize */
newchunk = BLK_CHUNKSIZE;
newblk = blkalloc(newlen, newchunk);
if (newlen < oldlen)
oldlen = newlen;
if (newlen > 0)
memcpy(newblk->data, blk->data, oldlen);
return newblk;
}
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