162 lines
5.2 KiB
C
162 lines
5.2 KiB
C
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#ifndef Smem_includeD
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#define Smem_includeD
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/* compile time adjustable parameters : */
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/* if not defined, flat malloc() and free() is used */
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#define Smem_own_functionS
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#ifdef Smem_no_own_functionS
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#undef Smem_own_functionS
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#endif /* Smem_no_own_functionS */
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/* if not defined, the record items will be smaller by 8 byte
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but deletion of items may be much slower */
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#define Smem_with_hasH
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struct SmemiteM {
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char *data;
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size_t size;
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struct SmemiteM *prev,*next;
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struct SmemiteM *hash_prev,*hash_next;
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};
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#ifdef Smem_own_functionS
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char *Smem_malloc();
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#define TSOB_FELD(typ,anz) (typ *) Smem_malloc((anz)*sizeof(typ));
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#define Smem_malloC Smem_malloc
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#define Smem_freE Smem_free
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#else /* Smem_own_functionS */
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#define TSOB_FELD(typ,anz) (typ *) malloc((anz)*sizeof(typ));
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#define Smem_malloC malloc
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#define Smem_freE free
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#endif /* ! Smem_own_functionS */
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#define Smem_hashsizE 251
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#define Smem_hashshifT 8
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#ifdef Smem_included_by_smem_C
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double Smem_malloc_counT= 0.0;
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double Smem_free_counT= 0.0;
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double Smem_pending_counT= 0.0;
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struct SmemiteM *Smem_start_iteM= NULL;
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struct SmemiteM *Smem_hasH[Smem_hashsizE];
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double Smem_hash_counteR[Smem_hashsizE];
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/* these both init values are essential, since setting Smem_record_itemS=1
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by use of Smem_set_record_items() initializes the hash array
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(i do not really trust the compiler producers to have read K&R) */
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int Smem_hash_initializeD= 0;
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int Smem_record_itemS= 0;
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double Smem_record_counT= 0.0;
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double Smem_record_byteS= 0.0;
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#else /* Smem_included_by_smem_C */
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extern double Smem_malloc_counT;
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extern double Smem_free_counT;
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extern double Smem_pending_counT;
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extern struct SmemiteM *Smem_start_iteM;
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extern struct SmemiteM *Smem_hasH[Smem_hashsizE];
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extern double Smem_hash_counteR[Smem_hashsizE];
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extern int Smem_hash_initializeD;
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extern int Smem_record_itemS;
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extern double Smem_record_counT;
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extern double Smem_record_byteS;
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#endif /* ! Smem_included_by_smem_C */
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#endif /* ! Smem_includeD */
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/*
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smem
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Functions to replace malloc() and free() in order to get more control
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over memory leaks or spurious errors caused by faulty usage of malloc()
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and free().
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Sourcecode provisions:
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Use only the following macros for memory management:
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TSOB_FELD(type,count) creates an array of items of given type
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Smem_malloC() analogue of malloc()
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Smem_freE() analogue of free()
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One may #define malloc Smem_malloC resp. #define free Smem_freE
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but better would be to review (and often to streamline) the sourcecode
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in respect to those two functions.
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Speed versus control:
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In production versions, where maximum speed is required, one may undefine
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the macro Smem_own_functionS in smem.h .
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This causes the above macros to directly invoke malloc() and free() without
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any speed reduction (and without any additional use).
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Undefinitio can be done globaly by modifying smem.h or locally by defining
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Smem_no_own_functionS before including smem.h .
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If Smem_own_functionS remains defined, then the functions
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Smem_malloc()
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Smem_free()
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are used rather than malloc() and free().
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They count the number of calls to maintain a rough overview of memory usage.
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Smem_malloc() additionally checks for 0 size and Smem_free() checks for
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NULL pointers, which they both report to stderr. Eventually one should set
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a breakpoint in function Smem_protest() to learn about the origin of such
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messages.
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A status line may be obtained by Smem_report() or printed by Smem_stderr().
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As long as the variable Smem_record_itemS is set to 0, there is not very much
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overhead compared with malloc() and free().
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If the variable is set to 1 by Smem_set_record_items() then all malloc()
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results are kept in a list where they will be deleted by their corresponding
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Smem_free() calls. If a pointer is to be freed, which is not recorded in the
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list then an error message will be printed to stderr. The memory will not
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be freed !
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This mode not only may be very slow, it also consumes at least 16 byte per
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piece of data which was obtained by malloc as long as it has not been freed.
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Due to the current nature of the list, large numbers of memory items are freed
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much faster in the reverse order of their creation. If there is a list of
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100000 strings to delete, it is very rewarding to free the youngest ones first.
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A shortcut via hashing is available but consumes 24 bytes rather than 16.
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(see above Smem_with_hasH )
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The function Smem_is_recorded() can be used to check wether a pointer is
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valid according to the list. It returns :
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0 = is not in list , 1 = is in list , 2 = recording is off
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If one decides to start recording malloc() results in the midst of a program
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run, one has to be aware of false protests of Smem_free() if a memory piece
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has been allocated before recording started. This will also cause those pieces
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to be memory leaks because Smem_free() refuses to delete them. (Freeing memory
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that was not obtained by malloc or was already freed previously can result in
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deferred SIGSEGV or similar trouble, depending on OS and library.)
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Also in that case one should stop recording before ending the program, to
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avoid a lot of false complaints about longliving memory objects.
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*/
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