DragonFly On-Line Manual Pages
Judy(3) DragonFly Library Functions Manual Judy(3)
NAME
Judy arrays - C library functions for creating and accessing dynamic
arrays
SYNOPSIS
Judy1 - maps an Index (word) to a bit
JudyL - maps an Index (word) to a Value (word/pointer)
JudySL - maps an Index (null terminated string) to a Value
JudyHS - maps an Index (array-of-bytes) of Length to a Value
DESCRIPTION
The Judy family of functions supports fully dynamic arrays. These
arrays may be indexed by a 32- or 64-bit word (depending on processor
word size), a null terminated string or an array-of-bytes plus length.
A dynamic array (sparsely populated) can also be thought of as a
mapping function or associative memory.
A Word_t is a typedef unsigned long int in Judy.h and must be the same
size as sizeof(void *) I.E. a pointer.
Judy1 functions: Index is a Word_t and Value is just a bit or simply a
flag that Index is present or missing from the array. This can be
thought of as a huge bitmap.
JudyL functions: Index is a Word_t and Value is a Word_t. This makes
JudyL a pure word-to-word/pointer mapper. JudySL and JudyHL are based
on this property of JudyL.
JudySL functions: Index is a null-terminated string and Value is a
Word_t.
JudyHS functions: Index is an array-of-bytes of length: Length.
Value is a Word_t. This new addition (May 2004) to Judy is a hybird
using the best features of hashing and Judy methods. The author
believes JudyHS is a good replacement for a hashing method when
resizing the hash table is done during population growth. A correctly
tuned hash method with a static hash table size and population is
unbeatable for speed. However, JudyHS will perform better than a
hashing method with smaller and larger populations than the optimum
hash table size. JudyHS does not have a degenerate performance case
where knowledge of the hash algorithm can be exploited. (I.E. JudyHS
does not use a linked list to handle hash collisions, it uses a tree of
JudyL arrays and a virtual hash table size of 4 billion).
Judy arrays are both speed- and memory-efficient, with no tuning or
configuration required, across a wide range of index set types
(sequential, periodic, clustered, random). Judy's speed and memory
usage are typically better than other data storage models such as
skiplists, linked lists, binary, ternary, b-trees, or even hashing, and
improves with very large data sets.
A Judy array is created merely by defining a null pointer and then
storing (inserting) the first element into the array under that
pointer. The memory used by a Judy array is nearly proportional to the
population (number of elements).
Judy has two Application Program Interfaces (APIs): a C macro
interface, and a function call interface. Because the macro forms are
sometimes faster and have a simpler error handling interface than the
equivalent functions, they are the preferred way of using the Judy
functions.
Since an initial (empty) Judy array is represented by a null pointer,
it is possible to construct an array of Judy arrays. In other words, a
Judy array's Values (except Judy1) can be pointers to other Judy
arrays. This makes it very simple to construct an array with an
arbitrary number of dimensions or Index sizes. (JudySL and JudyHS are
implemented using JudyL this way).
A 10 MINUTE TECHNICAL DESCRIPTION
may be found at http://judy.sourceforge.net/downloads/10minutes.htm
A 3 HOUR TECHNICAL DESCRIPTION (out of date and a bit corny)
may be found at http://judy.sourceforge.net/application/shop_interm.pdf
DOWNLOADS
Judy source downloads are available at
http://sourceforge.net/projects/judy
Binarys may be built and installed in a minute or two after downloading
For versions including more platforms and/or new features see:
http://judy.sourceforge.net/downloads/
AUTHOR
Judy was invented by Doug Baskins (dougbaskins .AT, yahoo.com) and
implemented by Hewlett-Packard. (Note: Judy is named for the
inventor's sister, after discarding many proposed names.)
FILES
Locations of interest include:
http://sourceforge.net/projects/judy -- project downloads
file:/usr/share/doc/Judy/ -- for HTML version of man pages.
/usr/share/doc/Judy/demo/ -- demonstration program source files.
The author attempted to write interesting application notes using
advanced features of Judy. They may be found at
"http://judy.sourceforge.net/application/ (Some may be out of date).
ERRORS
A lot of thought (and time) went into making error handling in Judy
simple, while maintaining flexibility and capability. Error handling
is a very boring subject even to write about. So read this short
section and use the recommended second method. It generates the
fastest code, uses the least amount of memory and requires you to write
extra code only for insert/deletes functions. Also it is compatible
with the other two methods. This method is for production code that
may want to handle malloc() fails differently than the Judy default.
If the Judy default method of handling malloc() fails are OK, then use
the first method.
There are two (2) categories of Judy error returns, (or for any dynamic
ADT):
1) User programming errors (bugs) such as memory corruption or invalid
pointers.
2) Out-of-memory (malloc() failure) with Insert (Set) or Delete (Unset)
when modifying a Judy array. Not all calls to insert and delete call
malloc(), so they may succeed even when a call to malloc() would fail.
There are roughly three (3) methods of handling errors when using the
macros:
1) Default Error Handling Method
The default is to print error messages to stderr, for example:
File 'YourCfile.c', line 1234: JudyLIns(), JU_ERRNO_* == 2, ID == 321
This indicates that an error occurred in the JudyLIns() function at
line 321. Line 1234 is the line in 'YourCfile.c' where the JLI() call
failed. JU_ERRNO_* == 2 is equal to JU_ERRNO_NOMEM (as defined in the
Judy.h file). The ID number indicates the source line number in the
function where the error originated. Your program then terminates with
an exit(1);. By default, both categories of Judy error returns are
printed this way. (The 'ID == 321' is for die hards that want more
detail or for debugging Judy itself.)
2) Disable Macro Error Handling
When your program is "bug free", the only errors returned should be
malloc() failures. Therefore all error returns can be treated as a
malloc() failure. By using the below #define, all error testing and
printing is turned off. Additional code needs to be added to the code
that can have malloc() failures. Judy was designed to leave the same
data in the array before the call if a malloc() fail occurs. (During
testing of Judy, we found very few malloc()/OS's that were bug free
after a malloc() failure. Sometimes it took weeks to discover because
most systems go into a paging frenzy before running out of memory).
#define JUDYERROR_NOTEST 1
(in your program code), or
cc -DJUDYERROR_NOTEST sourcefile -lJudy
(on your command line).
// This is an example of how to program using method two (2).
JLI(PValue, PLArray, Index);
if (PValue == PJERR) goto out_of_memory_handling;
JLD(RC_int, PLArray, Index);
if (RC_int == JERR) goto out_of_memory_handling;
J1S(RC_int, P1Array, Index);
if (RC_int == JERR) goto out_of_memory_handling;
J1U(RC_int, P1Array, Index);
if (RC_int == JERR) goto out_of_memory_handling;
Note: Without 'JUDYERROR_NOTEST' defined, the 'goto
out_of_memory_handling' will never be executed and will be optimized
out by the compiler. The default method will be used -- Macro will
print error information if an error occurs as explained above.
With 'JUDYERROR_NOTEST' defined, the 'goto out_of_memory_handling' will
be executed when an error occurs -- which should only happen when
malloc() fails.
3) User-Specified JUDYERROR() Macro Method
The JUDYERROR() macro (in Judy.h) provides flexibility for handling
error returns as needed to suit your program while still using the Judy
array macros instead of function calls. You can use a different
JUDYERROR() macro to suit your needs. The following example is a
possible alternative to the default. It is used to distinguish between
the two types of errors (described above), and explicitly test for the
remaining JU_ERRNO_NOMEM errors possible in your program.
// This is an example of Judy macro API to continue when out of memory
// and print and exit(1) when any other error occurs.
#ifndef JUDYERROR_NOTEST
#include <stdio.h> // needed for fprintf()
// This is the macro that the Judy macro APIs use for return codes of -1:
#define JUDYERROR(CallerFile, CallerLine, JudyFunc, JudyErrno, JudyErrID) \
{ \
if ((JudyErrno) != JU_ERRNO_NOMEM) /* ! a malloc() failure */ \
{ \
(void) fprintf(stderr, "File '%s', line %d: %s(), " \
"JU_ERRNO_* == %d, ID == %d\n", \
CallerFile, CallerLine, \
JudyFunc, JudyErrno, JudyErrID); \
exit(1); \
} \
}
#endif // JUDYERROR_NOTEST not defined
This error handling macro must be included before the #include <Judy.h>
statement in your program.
SEE ALSO
Judy1(3), JudyL(3), JudySL(3), JudyHS(3)
Judy(3)