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author | Ulrich Drepper <drepper@redhat.com> | 1997-09-21 01:47:02 +0000 |
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committer | Ulrich Drepper <drepper@redhat.com> | 1997-09-21 01:47:02 +0000 |
commit | 2604afb1b2d9acc3c70b1214285f996200bf0358 (patch) | |
tree | ba59d75147565b8ab19686d98cee368d8ec697fc /manual/search.texi | |
parent | 4547c1a410fbc3ab5592a68bac1661135d91983f (diff) | |
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Update.cvs/libc-ud-970920
1997-09-21 03:19 Ulrich Drepper <drepper@cygnus.com>
* libio/libio.h: More libstdc++ cleanups. Define _IO_USE_DTOA if
_G_HAVE_PRINTF_FP is not defined.
* libio/strops.c: Undo patch of 1997-07-08 02:18. Must find a
different solution for the problem.
* misc/search.h [__USE_GNU]: Define comparison_fn_t.
* stdlib/stdlib.h: Define comparison_fn_t only if __COMPAR_FN_T is
not defined.
Fix typo. Pretty print inline functions.
* sysdeps/i386/i486/string.h (__stpcpy_small): Increment __cp not cp.
Patch by HJ Lu <hjl@gnu.ai.mit.edu>.
1997-09-20 16:45 Ulrich Drepper <drepper@cygnus.com>
* hesiod/hesiod.c (hesiod_init): Use __secure_getenv to get
HES_DOMAIN environment variable.
Suggested by Mark Kettenis <kettenis@phys.uva.nl>.
* hesiod/README.hesiod: A bit of information about Hesiod and how
to use it. Written by Mark Kettenis <kettenis@phys.uva.nl>.
1997-09-20 05:15 Ulrich Drepper <drepper@cygnus.com>
* manual/maint.texi: Update requirement list.
* io/ftw.h: Don't use parameter names from global namespace in
prototypes.
* stdlib/strtol.c: If used outside glibc handle broken systems
which have character classification functions which are not 8-bit
clean gracefully. Patch by Bruno Haible <haible@ilog.fr>.
1997-09-19 21:42 David S. Miller <davem@tanya.rutgers.edu>
* sysdeps/unix/sysv/linux/sparc/sparc64/bits/types.h: ssize_t is
a long long int.
1997-09-19 15:12 H.J. Lu <hjl@gnu.ai.mit.edu>
* posix/Makefile (test-srcs): New, set to globtest.
1997-09-20 00:24 Ulrich Drepper <drepper@cygnus.com>
* manual/filesys.texi: Document ftw, nftw and needed data types.
1997-09-19 12:53 H.J. Lu <hjl@gnu.ai.mit.edu>
* sysdeps/i386/i486/bits/string.h: Fix typo.
1997-09-19 14:11 Ulrich Drepper <drepper@cygnus.com>
* io/ftwtest.c (cb): Print level.
* io/ftwtest-sh: Updated for ftwtest.c change.
* string/argz.h (__argz_next): Cast NULL to char * to satisfy C++
compilers.
Reported by Mirko Streckenbach <mirko@ramz.ing.tu-bs.de>.
* catgets/catgets.c (catopen): Correctly allocate string of nlspath.
Reported by Charles C. Fu <ccwf@klab.caltech.edu>.
1997-09-18 13:30 Klaus Espenlaub <kespenla@student.informatik.uni-ulm.de>
* sysdeps/i386/init-first.c: Call __getopt_clean_environment with
additional argument.
* sysdeps/mach/hurd/i386/init-first.c: Likewise.
* sysdeps/mach/hurd/mips/init-first.c: Likewise.
* sysdeps/stub/init-first.c: Likewise.
1997-09-18 03:16 Ulrich Drepper <drepper@cygnus.com>
* manual/search.texi: Document lsearch, lfind, the hsearch and
tsearch functions.
1997-09-18 00:04 Ulrich Drepper <drepper@cygnus.com>
* misc/hsearch_r.c (hsearch_r): Only return error for ENTER action
if the table is full and we *really* have to enter a new entry.
1997-09-17 19:44 Ulrich Drepper <drepper@cygnus.com>
* sysdeps/sparc/sparc32/dl-machine.h (elf_machine_rela): Get rid
of hack for handling flush opcode.
Patch by Richard Henderson <rth@cygnus.com>.
Diffstat (limited to 'manual/search.texi')
-rw-r--r-- | manual/search.texi | 366 |
1 files changed, 362 insertions, 4 deletions
diff --git a/manual/search.texi b/manual/search.texi index abb93bb5a8..356d976555 100644 --- a/manual/search.texi +++ b/manual/search.texi @@ -14,9 +14,11 @@ and the total number of elements. * Array Search Function:: The @code{bsearch} function. * Array Sort Function:: The @code{qsort} function. * Search/Sort Example:: An example program. +* Hash Search Function:: The @code{hsearch} function. +* Tree Search Function:: The @code{tsearch} function. @end menu -@node Comparison Functions, Array Search Function, , Searching and Sorting +@node Comparison Functions @section Defining the Comparison Function @cindex Comparison Function @@ -52,12 +54,53 @@ comparison functions. This type is a GNU extension. int comparison_fn_t (const void *, const void *); @end smallexample -@node Array Search Function, Array Sort Function, Comparison Functions, Searching and Sorting +@node Array Search Function @section Array Search Function @cindex search function (for arrays) @cindex binary search function (for arrays) @cindex array search function +Generally searching for a specific element in an array means that +potentially all elements must be checked. The GNU C library contains +functions to perform linear search. The prototypes for the following +two functions can be found in @file{search.h}. + +@comment search.h +@comment SVID +@deftypefun {void *} lfind (const void *@var{key}, void *@var{base}, size_t *@var{nmemb}, size_t @var{size}, comparison_fn_t @var{compar}) +The @code{lfind} function searches in the array with @code{*@var{nmemb}} +elements of @var{size} bytes pointed to by @var{base} for an element +which matches the one pointed to by @var{key}. The function pointed to +by @var{compar} is used decide whether two elements match. + +The return value is a pointer to the matching element in the array +starting at @var{base} if it is found. If no matching element is +available @code{NULL} is returned. + +The mean runtime of this function is @code{*@var{nmemb}}/2. This +function should only be used elements often get added to or deleted from +the array in which case it might not be useful to sort the array before +searching. +@end deftypefun + +@comment search.h +@comment SVID +@deftypefun {void *} lsearch (const void *@var{key}, void *@var{base}, size_t *@var{nmemb}, size_t @var{size}, comparison_fn_t @var{compar}) +The @code{lsearch} function is similar to the @code{lfind} function. It +searches the given array for an element and returns it if found. The +difference is that if no matching element is found the @code{lsearch} +function adds the object pointed to by @var{key} (with a size of +@var{size} bytes) at the end of the array and it increments the value of +@code{*@var{nmemb}} to reflect this addition. + +This means for the caller that if it is not sure that the array contains +the element one is searching for the memory allocated for the array +starting at @var{base} must have room for at least @var{size} more +bytes. If one is sure the element is in the array it is better to use +@code{lfind} so having more room in the array is always necessary when +calling @code{lsearch}. +@end deftypefun + To search a sorted array for an element matching the key, use the @code{bsearch} function. The prototype for this function is in the header file @file{stdlib.h}. @@ -85,7 +128,7 @@ This function derives its name from the fact that it is implemented using the binary search algorithm. @end deftypefun -@node Array Sort Function, Search/Sort Example, Array Search Function, Searching and Sorting +@node Array Sort Function @section Array Sort Function @cindex sort function (for arrays) @cindex quick sort function (for arrays) @@ -138,7 +181,7 @@ The @code{qsort} function derives its name from the fact that it was originally implemented using the ``quick sort'' algorithm. @end deftypefun -@node Search/Sort Example, , Array Sort Function, Searching and Sorting +@node Search/Sort Example @section Searching and Sorting Example Here is an example showing the use of @code{qsort} and @code{bsearch} @@ -191,3 +234,318 @@ Kermit, the frog Gonzo, the whatever Couldn't find Janice. @end smallexample + + +@node Hash Search Function +@section The @code{hsearch} function. + +The functions mentioned so far in this chapter are searching in a sorted +or unsorted array. There are other methods to organize information +which later should be searched. The costs of insert, delete and search +differ. One possible implementation is using hashing tables. + +@comment search.h +@comment SVID +@deftypefun int hcreate (size_t @var{nel}) +The @code{hcreate} function creates a hashing table which can contain at +least @var{nel} elements. There is no possibility to grow this table so +it is necessary to choose the value for @var{nel} wisely. The used +methods to implement this function might make it necessary to make the +number of elements in the hashing table larger than the expected maximal +number of elements. Hashing tables usually work inefficient if they are +filled 80% or more. The constant access time guaranteed by hashing can +only be achieved if few collisions exist. See Knuth's ``The Art of +Computer Programming, Part 3: Searching and Sorting'' for more +information. + +The weakest aspect of this function is that there can be at most one +hashing table used throught the whole program. The table is allocated +in local memory out of control of the programmer. As an extension the +GNU C library provides an additional set of functions with an reentrant +interface which provide a similar interface but which allow to keep +arbitrary many hashing tables. + +It is possible to use more than one hashing table in the program run if +the former table is first destroyed by a call to @code{hdestroy}. + +The function returns a non-zero value if successful. If it return zero +something went wrong. This could either mean there is already a hashing +table in use or the program runs out of memory. +@end deftypefun + +@comment search.h +@comment SVID +@deftypefun void hdestroy (void) +The @code{hdestroy} function can be used to free all the resources +allocated in a previous call of @code{hcreate}. After a call to this +function it is again possible to call @code{hcreate} and allocate a new +table with possibly different size. + +It is important to remember that the elements contained in the hashing +table at the time @code{hdestroy} is called are @emph{not} freed by this +function. It is the responsibility of the program code to free those +strings (if necessary at all). Freeing all the element memory iss not +possible without extra, separately kept information since there is no +function to iterate through all available elements in the hashing table. +If it is really necessary to free a table and all elements the +programmer has to keep a list of all table elements and before calling +@code{hdestroy} s/he has to free all element's data using this list. +This is a very unpleasent mechanism and it also shows that this kind of +hashing tables is mainly meant for tables which are created once and +used until the end of the program run. +@end deftypefun + +Entries of the hashing table and keys for the search are defined using +this type: + +@deftp {Data type} {struct ENTRY} +Both elements of this structure are pointers to zero-terminated strings. +This is a limiting restriction of the functionality of the +@code{hsearch} functions. They can only be used for data sets which use +the NUL character always and solely to terminate the records. It is not +possible to handle general binary data. + +@table @code +@item char *key +Pointer to a zero-terminated string of characters describing the key for +the search or the element in the hashing table. +@item char *data +Pointer to a zero-terminated string of characters describing the data. +If the functions will be called only for searching an existing entry +this element might stay undefined since it is not used. +@end table +@end deftp + +@comment search.h +@comment SVID +@deftypefun {ENTRY *} hsearch (ENTRY @var{item}, ACTION @var{action}) +To search in a hashing table created using @code{hcreate} the +@code{hsearch} function must be used. This function can perform simple +search for an element (if @var{action} has the @code{FIND}) or it can +alternatively insert the key element into the hashing table, possibly +replacing a previous value (if @var{action} is @code{ENTER}). + +The key is denoted by a pointer to an object of type @code{ENTRY}. For +locating the corresponding position in the hashing table only the +@code{key} element of the structure is used. + +The return value depends on the @var{action} parameter value. If it is +@code{FIND} the value is a pointer to the matching element in the +hashing table or @code{NULL} if no matching element exists. If +@var{action} is @code{ENTER} the return value is only @code{NULL} if the +programs runs out of memory while adding the new element to the table. +Otherwise the return value is a pointer to the element in the hashing +table which contains newly added element based on the data in @var{key}. +@end deftypefun + +As mentioned before the hashing table used by the functions described so +far is global and there can be at any time at most one hashing table in +the program. A solution is to use the following functions which are a +GNU extension. All have in common that they operate on a hashing table +which is described by the content of an object of the type @code{struct +hsearch_data}. This type should be treated as opaque, none of its +members should be changed directly. + +@comment search.h +@comment GNU +@deftypefun int hcreate_r (size_t @var{nel}, struct hsearch_data *@var{htab}) +The @code{hcreate_r} function intializes the object pointed to by +@var{htab} to contain a hashing table with at least @var{nel} elements. +So this function is equivalent to the @code{hcreate} function except +that the initialized data structure is controlled by the user. + +This allows to have more than once hashing table at one time. The +memory necessary for the @code{struct hsearch_data} object can be +allocated dynamically. + +The return value is non-zero if the operation were successful. if the +return value is zero something went wrong which probably means the +programs runs out of memory. +@end deftypefun + +@comment search.h +@comment GNU +@deftypefun void hdestroy_r (struct hsearch_data *@var{htab}) +The @code{hdestroy_r} function frees all resources allocated by the +@code{hcreate_r} function for this very same object @var{htab}. As for +@code{hdestroy} it is the programs responsibility to free the strings +for the elements of the table. +@end deftypefun + +@comment search.h +@comment GNU +@deftypefun int hsearch_r (ENTRY @var{item}, ACTION @var{action}, ENTRY **@var{retval}, struct hsearch_data *@var{htab}) +The @code{hsearch_r} function is equivalent to @code{hsearch}. The +meaning of the first two arguments is identical. But instead of +operating on a single global hashing table the functio works on the +table described by the object pointed to by @var{htab} (which is +initialized by a call to @code{hcreate_r}). + +Another difference to @code{hcreate} is that the pointer to the found +entry in the table is not the return value of the functions. It is +returned by storing it in a pointer variables pointed to by the +@var{retval} parameter. The return value of the function is an integer +value indicating success if it is non-zero and failure if it is zero. +In the later case the global variable @var{errno} signals the reason for +the failure. + +@table @code +@item ENOMEM +The table is filled and @code{hsearch_r} was called with an so far +unknown key and @var{action} set to @code{ENTER}. +@item ESRCH +The @var{action} parameter is @code{FIND} and no corresponding element +is found in the table. +@end table +@end deftypefun + + +@node Tree Search Function +@section The @code{tsearch} function. + +Another common form to organize data for efficient search is to use +trees. The @code{tsearch} function family provides a nice interface to +functions to organize possibly large amounts of data by providing a mean +access time proportional to the logarithm of the number of elements. +The GNU C library implementation even guarantees that this bound is +never exceeded even for input data which cause problems for simple +binary tree implementations. + +The functions desribed in the chapter are all described in the @w{System +V} and X/Open specifications and are therefore quite portable. + +In contrast to the @code{hsearch} functions the @code{tsearch} functions +can be used with arbitrary data and not only zero-terminated strings. + +The @code{tsearch} functions have the advantage that no function to +initialize data structures is necessary. A simple pointer of type +@code{void *} initialized to @code{NULL} is a valid tree and can be +extended or searched. + +@comment search.h +@comment SVID +@deftypefun {void *} tsearch (const void *@var{key}, void **@var{rootp}, comparison_fn_t @var{compar}) +The @code{tsearch} function searches in the tree pointed to by +@code{*@var{rootp}} for an element matching @var{key}. The function +pointed to by @var{compar} is used to determine wether two elements +match. @xref{Comparison Functions} for a specification of the functions +which can be used for the @var{compar} parameter. + +If the tree does not contain a matching entry the @var{key} value will +be added to the tree. @code{tsearch} does not make a copy of the object +pointed to by @var{key} (how could it since the size is unknown). +Instead it adds a reference to this object which means the object must +be available as long as the tree data structure is used. + +The tree is represented by a pointer to a pointer since it is sometimes +necessary to change the root node of the tree. So it must not be +assumed that the variable pointed to by @var{rootp} has the same value +after the call. This also shows that it is not safe to call the +@code{tsearch} function more than once at the same time using the same +tree. It is no problem to run it more than once at a time on different +trees. + +The return value is a pointer to the matching element in the tree. If a +new element was created the pointer points to the new data (which is in +fact @var{key}). If an entry had to be created and the program ran out +of space @code{NULL} is returned. +@end deftypefun + +@comment search.h +@comment SVID +@deftypefun {void *} tfind (const void *@var{key}, void *const *@var{rootp}, comparison_fn_t @var{compar}) +The @code{tfind} function is similar to the @code{tsearch} function. It +locates an element matching the one pointed to by @var{key} and returns +a pointer to this element. But if no matching element is available no +new element is entered (note that the @var{rootp} parameter points to a +constant pointer). Instead the function returns @code{NULL}. +@end deftypefun + +Another advantage of the @code{tsearch} function in contrast to the +@code{hsearch} functions is that there is an easy way to remove +elements. + +@comment search.h +@comment SVID +@deftypefun {void *} tdelete (const void *@var{key}, void **@var{rootp}, comparison_fn_t @var{compar}) +To remove a specific element matching @var{key} from the tree +@code{tdelete} can be used. It locates the matching element using the +same method as @code{tfind}. The corresponding element is then removed +and the data if this tree node is returned by the function. If there is +no matching entry in the tree nothing can be deleted and the function +returns @code{NULL}. +@end deftypefun + +@comment search.h +@comment GNU +@deftypefun void tdestroy (void *@var{vroot}, __free_fn_t @var{freefct}) +If the complete search tree has to be removed one can use +@code{tdestroy}. It frees all resources allocated by the @code{tsearch} +function to generate the tree pointed to by @var{vroot}. + +For the data in each tree node the function @var{freefct} is called. +The pointer to the data is passed as the argument to the function. If +no such work is necessary @var{freefct} must point to a function doing +nothing. It is called in any case. + +This function is a GNU extension and not covered by the @w{System V} or +X/Open specifications. +@end deftypefun + +In addition to the function to create and destroy the tree data +structure there is another function which allows to apply a function on +all elements of the tree. The function must have this type: + +@smallexample +int __action_fn_t (const void *nodep, VISIT value, int level); +@end smallexample + +The @var{nodep} is the data value of the current node (nce given as the +@var{key} argument to @code{tsearch}). @var{level} is a numeric value +which corresponds to the depth of the current node in the tree. The +root node has the depth @math{0} and its children have a depth of +@math{1} and so on. The @code{VISIT} type is an enumeration type. + +@deftp {Data Type} VISIT +The @code{VISIT} value indicates the status of the current node in the +tree and how the function is called. The status of a node is either +`leaf' or `internal node'. For each leaf node the function is called +exactly once, for each internal node it is called three times: before +the first child is processed, after the first child is processed and +after both childs are processed. This makes it possible to handle all +three methods of tree traversal (or even a combination of them). + +@table @code +@item preorder +The current node is an internal node and the function is called before +the first child was processed. +@item endorder +The current node is an internal node and the function is called after +the first child was processed. +@item postorder +The current node is an internal node and the function is called after +the second child was processed. +@item leaf +The current node is a leaf. +@end table +@end deftp + +@comment search.h +@comment SVID +@deftypefun void twalk (const void *@var{root}, __action_fn_t @var{action}) +For each node in the tree with a node pointed to by @var{root} the +@code{twalk} function calls the function provided by the parameter +@var{action}. For leaf nodes the function is called exactly once with +@var{value} set to @code{leaf}. For internal nodes the function is +called three times, setting the @var{value} parameter or @var{action} to +the appropriate value. The @var{level} argument for the @var{action} +function is computed while descending the tree with increasing the value +by one for the escend to a child, starting with the value @math{0} for +the root node. + +Since the functions used for the @var{action} parameter to @code{twalk} +must not modify the tree data it is safe to run @code{twalk} is more +than one thread at the same time working on the same tree. It is also +safe to call @code{tfind} in parallel. Functions which modify the tree +must not be used. Otherwise the behaviour is undefined. +@end deftypefun |