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1ebf257bf4df7866dfd75c5e35e8cf14efa73bc8
test2/intern/guardedalloc/intern/mallocn.c
Brecht Van Lommel cb89decfdc Merge of first part of changes from the apricot branch, especially 
the features that are needed to run the game. Compile tested with
scons, make, but not cmake, that seems to have an issue not related
to these changes. The changes include:

* GLSL support in the viewport and game engine, enable in the game
  menu in textured draw mode.
* Synced and merged part of the duplicated blender and gameengine/
  gameplayer drawing code.
* Further refactoring of game engine drawing code, especially mesh
  storage changed a lot.
* Optimizations in game engine armatures to avoid recomputations.
* A python function to get the framerate estimate in game.

* An option take object color into account in materials.
* An option to restrict shadow casters to a lamp's layers.
* Increase from 10 to 18 texture slots for materials, lamps, word.
  An extra texture slot shows up once the last slot is used.

* Memory limit for undo, not enabled by default yet because it
  needs the .B.blend to be changed.
* Multiple undo for image painting.

* An offset for dupligroups, so not all objects in a group have to
  be at the origin.
2008-09-04 20:51:28 +00:00

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/**
* $Id$
* ***** BEGIN GPL LICENSE BLOCK *****
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL LICENSE BLOCK *****
*/
/**
* $Id$
* Copyright (C) 2001 NaN Technologies B.V.
* Guarded memory allocation, and boundary-write detection.
*/
#include <stdlib.h>
#include <string.h> /* memcpy */
#include <stdarg.h>
/* mmap exception */
#if defined(AMIGA) || defined(__BeOS)
#elif defined(WIN32)
#include <sys/types.h>
#include "mmap_win.h"
#else
#include <sys/types.h>
#include <sys/mman.h>
#endif
#include "MEM_guardedalloc.h"
/* --------------------------------------------------------------------- */
/* Data definition */
/* --------------------------------------------------------------------- */
/* all memory chunks are put in linked lists */
typedef struct localLink
{
struct localLink *next,*prev;
} localLink;
typedef struct localListBase
{
void *first, *last;
} localListBase;
/* note: keep this struct aligned (e.g., irix/gcc) - Hos */
typedef struct MemHead {
int tag1;
int len;
struct MemHead *next,*prev;
const char * name;
const char * nextname;
int tag2;
int mmap; /* if true, memory was mmapped */
} MemHead;
typedef struct MemTail {
int tag3, pad;
} MemTail;
/* --------------------------------------------------------------------- */
/* local functions */
/* --------------------------------------------------------------------- */
static void addtail(volatile localListBase *listbase, void *vlink);
static void remlink(volatile localListBase *listbase, void *vlink);
static void rem_memblock(MemHead *memh);
static void MemorY_ErroR(const char *block, const char *error);
static const char *check_memlist(MemHead *memh);
/* --------------------------------------------------------------------- */
/* locally used defines */
/* --------------------------------------------------------------------- */
#if defined( __sgi) || defined (__sun) || defined (__sun__) || defined (__sparc) || defined (__sparc__) || defined (__PPC__) || (defined (__APPLE__) && !defined(__LITTLE_ENDIAN__))
#define MAKE_ID(a,b,c,d) ( (int)(a)<<24 | (int)(b)<<16 | (c)<<8 | (d) )
#else
#define MAKE_ID(a,b,c,d) ( (int)(d)<<24 | (int)(c)<<16 | (b)<<8 | (a) )
#endif
#define MEMTAG1 MAKE_ID('M', 'E', 'M', 'O')
#define MEMTAG2 MAKE_ID('R', 'Y', 'B', 'L')
#define MEMTAG3 MAKE_ID('O', 'C', 'K', '!')
#define MEMFREE MAKE_ID('F', 'R', 'E', 'E')
#define MEMNEXT(x) ((MemHead *)(((char *) x) - ((char *) & (((MemHead *)0)->next))))
/* --------------------------------------------------------------------- */
/* vars */
/* --------------------------------------------------------------------- */
static volatile int totblock= 0;
static volatile uintptr_t mem_in_use= 0, mmap_in_use= 0;
static volatile struct localListBase _membase;
static volatile struct localListBase *membase = &_membase;
static void (*error_callback)(char *) = NULL;
static void (*thread_lock_callback)(void) = NULL;
static void (*thread_unlock_callback)(void) = NULL;
static int malloc_debug_memset= 0;
#ifdef malloc
#undef malloc
#endif
#ifdef calloc
#undef calloc
#endif
#ifdef free
#undef free
#endif
/* --------------------------------------------------------------------- */
/* implementation */
/* --------------------------------------------------------------------- */
static void print_error(const char *str, ...)
{
char buf[1024];
va_list ap;
va_start(ap, str);
vsprintf(buf, str, ap);
va_end(ap);
if (error_callback) error_callback(buf);
}
static void mem_lock_thread()
{
if (thread_lock_callback)
thread_lock_callback();
}
static void mem_unlock_thread()
{
if (thread_unlock_callback)
thread_unlock_callback();
}
int MEM_check_memory_integrity()
{
const char* err_val = NULL;
MemHead* listend;
/* check_memlist starts from the front, and runs until it finds
* the requested chunk. For this test, that's the last one. */
listend = membase->last;
err_val = check_memlist(listend);
if (err_val == 0) return 0;
return 1;
}
void MEM_set_error_callback(void (*func)(char *))
{
error_callback = func;
}
void MEM_set_lock_callback(void (*lock)(void), void (*unlock)(void))
{
thread_lock_callback = lock;
thread_unlock_callback = unlock;
}
void MEM_set_memory_debug(void)
{
malloc_debug_memset= 1;
}
int MEM_allocN_len(void *vmemh)
{
if (vmemh) {
MemHead *memh= vmemh;
memh--;
return memh->len;
} else
return 0;
}
void *MEM_dupallocN(void *vmemh)
{
void *newp= NULL;
if (vmemh) {
MemHead *memh= vmemh;
memh--;
if(memh->mmap)
newp= MEM_mapallocN(memh->len, "dupli_mapalloc");
else
newp= MEM_mallocN(memh->len, "dupli_alloc");
if (newp == NULL) return NULL;
memcpy(newp, vmemh, memh->len);
}
return newp;
}
static void make_memhead_header(MemHead *memh, unsigned int len, const char *str)
{
MemTail *memt;
memh->tag1 = MEMTAG1;
memh->name = str;
memh->nextname = 0;
memh->len = len;
memh->mmap = 0;
memh->tag2 = MEMTAG2;
memt = (MemTail *)(((char *) memh) + sizeof(MemHead) + len);
memt->tag3 = MEMTAG3;
addtail(membase,&memh->next);
if (memh->next) memh->nextname = MEMNEXT(memh->next)->name;
totblock++;
mem_in_use += len;
}
void *MEM_mallocN(unsigned int len, const char *str)
{
MemHead *memh;
mem_lock_thread();
len = (len + 3 ) & ~3; /* allocate in units of 4 */
memh= (MemHead *)malloc(len+sizeof(MemHead)+sizeof(MemTail));
if(memh) {
make_memhead_header(memh, len, str);
mem_unlock_thread();
if(malloc_debug_memset && len)
memset(memh+1, 255, len);
return (++memh);
}
mem_unlock_thread();
print_error("Malloc returns nill: len=%d in %s, total %u\n",len, str, mem_in_use);
return NULL;
}
void *MEM_callocN(unsigned int len, const char *str)
{
MemHead *memh;
mem_lock_thread();
len = (len + 3 ) & ~3; /* allocate in units of 4 */
memh= (MemHead *)calloc(len+sizeof(MemHead)+sizeof(MemTail),1);
if(memh) {
make_memhead_header(memh, len, str);
mem_unlock_thread();
return (++memh);
}
mem_unlock_thread();
print_error("Calloc returns nill: len=%d in %s, total %u\n",len, str, mem_in_use);
return 0;
}
/* note; mmap returns zero'd memory */
void *MEM_mapallocN(unsigned int len, const char *str)
{
#if defined(AMIGA) || defined(__BeOS)
return MEM_callocN(len, str);
#else
MemHead *memh;
mem_lock_thread();
len = (len + 3 ) & ~3; /* allocate in units of 4 */
#ifdef __sgi
{
#include <fcntl.h>
int fd;
fd = open("/dev/zero", O_RDWR);
memh= mmap(0, len+sizeof(MemHead)+sizeof(MemTail),
PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0);
close(fd);
}
#else
memh= mmap(0, len+sizeof(MemHead)+sizeof(MemTail),
PROT_READ|PROT_WRITE, MAP_SHARED|MAP_ANON, -1, 0);
#endif
if(memh!=(MemHead *)-1) {
make_memhead_header(memh, len, str);
memh->mmap= 1;
mmap_in_use += len;
mem_unlock_thread();
return (++memh);
}
else {
mem_unlock_thread();
print_error("Mapalloc returns nill, fallback to regular malloc: len=%d in %s, total %u\n",len, str, mmap_in_use);
return MEM_callocN(len, str);
}
#endif
}
/* Memory statistics print */
typedef struct MemPrintBlock {
const char *name;
uintptr_t len;
int items;
} MemPrintBlock;
static int compare_name(const void *p1, const void *p2)
{
const MemPrintBlock *pb1= (const MemPrintBlock*)p1;
const MemPrintBlock *pb2= (const MemPrintBlock*)p2;
return strcmp(pb1->name, pb2->name);
}
static int compare_len(const void *p1, const void *p2)
{
const MemPrintBlock *pb1= (const MemPrintBlock*)p1;
const MemPrintBlock *pb2= (const MemPrintBlock*)p2;
if(pb1->len < pb2->len)
return 1;
else if(pb1->len == pb2->len)
return 0;
else
return -1;
}
void MEM_printmemlist_stats()
{
MemHead *membl;
MemPrintBlock *pb, *printblock;
int totpb, a, b;
mem_lock_thread();
/* put memory blocks into array */
printblock= malloc(sizeof(MemPrintBlock)*totblock);
pb= printblock;
totpb= 0;
membl = membase->first;
if (membl) membl = MEMNEXT(membl);
while(membl) {
pb->name= membl->name;
pb->len= membl->len;
pb->items= 1;
totpb++;
pb++;
if(membl->next)
membl= MEMNEXT(membl->next);
else break;
}
/* sort by name and add together blocks with the same name */
qsort(printblock, totpb, sizeof(MemPrintBlock), compare_name);
for(a=0, b=0; a<totpb; a++) {
if(a == b) {
continue;
}
else if(strcmp(printblock[a].name, printblock[b].name) == 0) {
printblock[b].len += printblock[a].len;
printblock[b].items++;
}
else {
b++;
memcpy(&printblock[b], &printblock[a], sizeof(MemPrintBlock));
}
}
totpb= b+1;
/* sort by length and print */
qsort(printblock, totpb, sizeof(MemPrintBlock), compare_len);
printf("\ntotal memory len: %.3f MB\n", (double)mem_in_use/(double)(1024*1024));
for(a=0, pb=printblock; a<totpb; a++, pb++)
printf("%s items: %d, len: %.3f MB\n", pb->name, pb->items, (double)pb->len/(double)(1024*1024));
free(printblock);
mem_unlock_thread();
}
/* Prints in python syntax for easy */
static void MEM_printmemlist_internal( int pydict )
{
MemHead *membl;
mem_lock_thread();
membl = membase->first;
if (membl) membl = MEMNEXT(membl);
if (pydict) {
print_error("# membase_debug.py\n");
print_error("membase = [\\\n");
}
while(membl) {
if (pydict) {
fprintf(stderr, "{'len':%i, 'name':'''%s''', 'pointer':'%p'},\\\n", membl->len, membl->name, membl+1);
} else {
print_error("%s len: %d %p\n",membl->name,membl->len, membl+1);
}
if(membl->next)
membl= MEMNEXT(membl->next);
else break;
}
if (pydict) {
fprintf(stderr, "]\n\n");
fprintf(stderr,
"mb_userinfo = {}\n"
"totmem = 0\n"
"for mb_item in membase:\n"
"\tmb_item_user_size = mb_userinfo.setdefault(mb_item['name'], [0,0])\n"
"\tmb_item_user_size[0] += 1 # Add a user\n"
"\tmb_item_user_size[1] += mb_item['len'] # Increment the size\n"
"\ttotmem += mb_item['len']\n"
"print '(membase) items:', len(membase), '| unique-names:', len(mb_userinfo), '| total-mem:', totmem\n"
"mb_userinfo_sort = mb_userinfo.items()\n"
"for sort_name, sort_func in (('size', lambda a: -a[1][1]), ('users', lambda a: -a[1][0]), ('name', lambda a: a[0])):\n"
"\tprint '\\nSorting by:', sort_name\n"
"\tmb_userinfo_sort.sort(key = sort_func)\n"
"\tfor item in mb_userinfo_sort:\n"
"\t\tprint 'name:%%s, users:%%i, len:%%i' %% (item[0], item[1][0], item[1][1])\n"
);
}
mem_unlock_thread();
}
void MEM_printmemlist( void ) {
MEM_printmemlist_internal(0);
}
void MEM_printmemlist_pydict( void ) {
MEM_printmemlist_internal(1);
}
short MEM_freeN(void *vmemh) /* anders compileertie niet meer */
{
short error = 0;
MemTail *memt;
MemHead *memh= vmemh;
const char *name;
if (memh == NULL){
MemorY_ErroR("free","attempt to free NULL pointer");
/* print_error(err_stream, "%d\n", (memh+4000)->tag1); */
return(-1);
}
if(sizeof(intptr_t)==8) {
if (((intptr_t) memh) & 0x7) {
MemorY_ErroR("free","attempt to free illegal pointer");
return(-1);
}
}
else {
if (((intptr_t) memh) & 0x3) {
MemorY_ErroR("free","attempt to free illegal pointer");
return(-1);
}
}
memh--;
if(memh->tag1 == MEMFREE && memh->tag2 == MEMFREE) {
MemorY_ErroR(memh->name,"double free");
return(-1);
}
mem_lock_thread();
if ((memh->tag1 == MEMTAG1) && (memh->tag2 == MEMTAG2) && ((memh->len & 0x3) == 0)) {
memt = (MemTail *)(((char *) memh) + sizeof(MemHead) + memh->len);
if (memt->tag3 == MEMTAG3){
memh->tag1 = MEMFREE;
memh->tag2 = MEMFREE;
memt->tag3 = MEMFREE;
/* after tags !!! */
rem_memblock(memh);
mem_unlock_thread();
return(0);
}
error = 2;
MemorY_ErroR(memh->name,"end corrupt");
name = check_memlist(memh);
if (name != 0){
if (name != memh->name) MemorY_ErroR(name,"is also corrupt");
}
} else{
error = -1;
name = check_memlist(memh);
if (name == 0)
MemorY_ErroR("free","pointer not in memlist");
else
MemorY_ErroR(name,"error in header");
}
totblock--;
/* here a DUMP should happen */
mem_unlock_thread();
return(error);
}
/* --------------------------------------------------------------------- */
/* local functions */
/* --------------------------------------------------------------------- */
static void addtail(volatile localListBase *listbase, void *vlink)
{
struct localLink *link= vlink;
if (link == 0) return;
if (listbase == 0) return;
link->next = 0;
link->prev = listbase->last;
if (listbase->last) ((struct localLink *)listbase->last)->next = link;
if (listbase->first == 0) listbase->first = link;
listbase->last = link;
}
static void remlink(volatile localListBase *listbase, void *vlink)
{
struct localLink *link= vlink;
if (link == 0) return;
if (listbase == 0) return;
if (link->next) link->next->prev = link->prev;
if (link->prev) link->prev->next = link->next;
if (listbase->last == link) listbase->last = link->prev;
if (listbase->first == link) listbase->first = link->next;
}
static void rem_memblock(MemHead *memh)
{
remlink(membase,&memh->next);
if (memh->prev) {
if (memh->next)
MEMNEXT(memh->prev)->nextname = MEMNEXT(memh->next)->name;
else
MEMNEXT(memh->prev)->nextname = NULL;
}
totblock--;
mem_in_use -= memh->len;
#if defined(AMIGA) || defined(__BeOS)
free(memh);
#else
if(memh->mmap) {
mmap_in_use -= memh->len;
if (munmap(memh, memh->len + sizeof(MemHead) + sizeof(MemTail)))
printf("Couldn't unmap memory %s\n", memh->name);
}
else {
if(malloc_debug_memset && memh->len)
memset(memh+1, 255, memh->len);
free(memh);
}
#endif
}
static void MemorY_ErroR(const char *block, const char *error)
{
print_error("Memoryblock %s: %s\n",block, error);
}
static const char *check_memlist(MemHead *memh)
{
MemHead *forw,*back,*forwok,*backok;
const char *name;
forw = membase->first;
if (forw) forw = MEMNEXT(forw);
forwok = 0;
while(forw){
if (forw->tag1 != MEMTAG1 || forw->tag2 != MEMTAG2) break;
forwok = forw;
if (forw->next) forw = MEMNEXT(forw->next);
else forw = 0;
}
back = (MemHead *) membase->last;
if (back) back = MEMNEXT(back);
backok = 0;
while(back){
if (back->tag1 != MEMTAG1 || back->tag2 != MEMTAG2) break;
backok = back;
if (back->prev) back = MEMNEXT(back->prev);
else back = 0;
}
if (forw != back) return ("MORE THAN 1 MEMORYBLOCK CORRUPT");
if (forw == 0 && back == 0){
/* geen foute headers gevonden dan maar op zoek naar memblock*/
forw = membase->first;
if (forw) forw = MEMNEXT(forw);
forwok = 0;
while(forw){
if (forw == memh) break;
if (forw->tag1 != MEMTAG1 || forw->tag2 != MEMTAG2) break;
forwok = forw;
if (forw->next) forw = MEMNEXT(forw->next);
else forw = 0;
}
if (forw == 0) return (0);
back = (MemHead *) membase->last;
if (back) back = MEMNEXT(back);
backok = 0;
while(back){
if (back == memh) break;
if (back->tag1 != MEMTAG1 || back->tag2 != MEMTAG2) break;
backok = back;
if (back->prev) back = MEMNEXT(back->prev);
else back = 0;
}
}
if (forwok) name = forwok->nextname;
else name = "No name found";
if (forw == memh){
/* voor alle zekerheid wordt dit block maar uit de lijst gehaald */
if (forwok){
if (backok){
forwok->next = (MemHead *)&backok->next;
backok->prev = (MemHead *)&forwok->next;
forwok->nextname = backok->name;
} else{
forwok->next = 0;
membase->last = (struct localLink *) &forwok->next;
/* membase->last = (struct Link *) &forwok->next; */
}
} else{
if (backok){
backok->prev = 0;
membase->first = &backok->next;
} else{
membase->first = membase->last = 0;
}
}
} else{
MemorY_ErroR(name,"Additional error in header");
return("Additional error in header");
}
return(name);
}
uintptr_t MEM_get_memory_in_use(void)
{
return mem_in_use;
}
uintptr_t MEM_get_mapped_memory_in_use(void)
{
return mmap_in_use;
}
int MEM_get_memory_blocks_in_use(void)
{
return totblock;
}
/* eof */
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