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author | Andy Dougherty <doughera@fractal.phys.lafayette.edu> | 1997-02-24 17:09:09 -0500 |
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committer | Chip Salzenberg <chip@atlantic.net> | 1997-02-22 02:41:53 +1200 |
commit | 55479bb671272502420f9e5f7617b1b0be8544af (patch) | |
tree | 12dd4f5e4dd98d8825e0ed6bf71a297662a7be77 /INSTALL | |
parent | ec761cee1a788166fe0b107d6dd9d34e116030fb (diff) | |
download | perl-55479bb671272502420f9e5f7617b1b0be8544af.tar.gz |
Post-28 INSTALL updates
Here are some more updates to the INSTALL file. Specifically, I revised
the malloc section a bit to give more of an overall perspective (and,
admittedly, less detail).
p5p-msgid: <Pine.SOL.3.95q.970224170713.5700H-100000@fractal.lafayette.edu>
private-msgid: <Pine.SOL.3.95q.970224170713.5700H-100000@fractal.lafayette.e
Diffstat (limited to 'INSTALL')
-rw-r--r-- | INSTALL | 74 |
1 files changed, 47 insertions, 27 deletions
@@ -552,10 +552,38 @@ version of perl. You can do this with by changing all the *archlib* variables in config.sh, namely archlib, archlib_exp, and installarchlib, to point to your new architecture-dependent library. +=head2 Malloc Issues + +Perl relies heavily on malloc(3) to grow data structures as needed, so +perl's performance can be noticeably affected by the performance of +the malloc function on your system. + +The perl source is shipped with a version of malloc that is very fast +but somewhat wasteful of space. On the other hand, your system's +malloc() function is probably a bit slower but also a bit more frugal. + +For many uses, speed is probably the most important consideration, so +the default behavior (for most systems) is to use the malloc supplied +with perl. However, if you will be running very large applications +(e.g. Tk or PDL) or if your system already has an excellent malloc, or +if you are experiencing difficulties with extensions that use +third-party libraries that call malloc, then you might wish to use +your system's malloc. (Or, you might wish to explore the experimental +malloc flags discussed below.) + +To build without perl's malloc, you can use the Configure command + + sh Configure -Uusemymalloc + +or you can answer 'n' at the appropriate interactive Configure prompt. + =head2 Malloc Performance Flags -If you are using Perl's malloc, you may define one or more of the -following macros to change its behavior in potentially useful ways. +If you are using Perl's malloc, you may add one or +more of the following items to your C<cflags> config.sh variable +to change its behavior in potentially useful ways. You can find out +more about these flags by reading the F<malloc.c> source. +In a future version of perl, these might be enabled by default. =over 4 @@ -563,38 +591,30 @@ following macros to change its behavior in potentially useful ways. If this macro is defined, running out of memory need not be a fatal error: a memory pool can allocated by assigning to the special -variable C<$^M>. See L<"$^M">. +variable C<$^M>. =item -DPACK_MALLOC -Perl memory allocation is by bucket with sizes close to powers of two. -Because of these malloc overhead may be big, especially for data of -size exactly a power of two. If C<PACK_MALLOC> is defined, perl uses -a slightly different algorithm for small allocations (up to 64 bytes -long), which makes it possible to have overhead down to 1 byte for -allocations which are powers of two (and appear quite often). +If C<PACK_MALLOC> is defined, malloc.c uses a slightly different +algorithm for small allocations (up to 64 bytes long). Such small +allocations are quite common in typical Perl scripts. -Expected memory savings (with 8-byte alignment in C<alignbytes>) is -about 20% for typical Perl usage. Expected slowdown due to additional -malloc overhead is in fractions of a percent (hard to measure, because -of the effect of saved memory on speed). +The expected memory savings (with 8-byte alignment in C<alignbytes>) is +about 20% for typical Perl usage. The expected slowdown due to the +additional malloc overhead is in fractions of a percent. (It is hard +to measure because of the effect of the saved memory on speed). =item -DTWO_POT_OPTIMIZE -Similarly to C<PACK_MALLOC>, this macro improves allocations of data -with size close to a power of two; but this works for big allocations -(starting with 16K by default). Such allocations are typical for big -hashes and special-purpose scripts, especially image processing. - -On recent systems, the fact that perl requires 2M from system for 1M -allocation will not affect speed of execution, since the tail of such -a chunk is not going to be touched (and thus will not require real -memory). However, it may result in a premature out-of-memory error. -So if you will be manipulating very large blocks with sizes close to -powers of two, it would be wise to define this macro. +If C<TWO_POT_OPTIMIZE> is defined, malloc.c uses a slightly different +algorithm for large allocations that are close to a power of two +(starting with 16K). Such allocations are typical for big hashes and +special-purpose scripts, especially image processing. If you will be +manipulating very large blocks with sizes close to powers of two, it +might be wise to define this macro. -Expected saving of memory is 0-100% (100% in applications which -require most memory in such 2**n chunks); expected slowdown is +The expected saving of memory is 0-100% (100% in applications which +require most memory in such 2**n chunks). The expected slowdown is negligible. =back @@ -1224,4 +1244,4 @@ from the original README by Larry Wall. =head1 LAST MODIFIED -18 February 1997 +24 February 1997 |