gno/usr.bin/lseg/lseg.1
gdr d1faeee771 Changes for v1.1-release
- increased optimization level to -1
	- added -d option
	- changed output format
1997-09-28 16:41:13 +00:00

99 lines
3.4 KiB
Groff

.\"
.\" $Id: lseg.1,v 1.3 1997/09/28 16:41:12 gdr Exp $
.\"
.TH LSEG 1 "September 1997" "GNO" "Commands and Applications"
.SH NAME
.BR lseg
\- list segments in an Object Module Format file
.SH SYNOPSIS
.BR lseg
.RB [ -d ]
.IR file " ..."
.SH DESCRIPTION
.BR lseg
lists segments in an OMF (object module format) file. Four kinds
of files use object module format: object files (the output of an
assembler or compiler and the input to a linker), library files
(segments that a linker can extract to resolve references in
other object files), load files (the output of a linker, ready
for execution), and run-time library files (segments that can
be loaded as needed and purged from memory when no longer needed).
A full description of OMF files is provided in Appendix F of
.IR "Apple IIGS GS/OS Reference" .
.PP
.BR lseg
prints a report that includes the type, size, and name of each segment of each
.IR file .
Any file that is not a valid OMF file is so noted.
.PP
.BR lseg
can be used on executable files in the following ways: to help discover
the location of stack segments (for later editing to appropriate sizes), as an
aid in determining how to segment large C files whose segments
exceed the bank size, and for deciding which segments to recombine
after excessive segmentation.
.PP
.BR lseg
examines each code segment and tries to figure out how
many bytes of local storage are allocated from the stack at execution
time. This will be determined only if the startup code matches a recognized
algorithm, such as those used by ORCA/C. If it can be determined, the
value is printed in the column labeled "Stack".
This value does not include parameters passed into the routine,
or other use of the stack by the routine.
.PP
You can combine
.BR lseg
with other tools to ensure your program allocates the correct
amount of run-time stack space:
.RS 1
.IP
Run
.BR lseg
on your program's object file to identify routines with significant
local storage. If a
segment has an unusually large allocation, examine its source code
and see whether arrays can be made static (if the routine is not
recursive) or can be allocated from standard memory by
.IR malloc (3).
.IP
Add calls to the
.BR stack (3)
routines
.BR _beginStackCheck " and " _endStackCheck
to report overall run-time storage allocation.
.IP
You can also use ORCA/C's
.BR "#pragma debug"
with a parameter that sets bit 0 (a value of 1), which causes the
run-time code to check stack space at the beginning
of each function and halt the program if there is not enough.
.IP
Run
.BR lseg
on your program's linked file to determine if it has a "Direct-page/Stack"
segment. (If not, the system will allocate 4096 bytes of stack when it runs.)
You can set this value with
.BR "#pragma stacksize"
in programs compiled by ORCA/C.
.PP
If your program uses significantly less stack space at run-time than
is specified in the Direct-page/Stack segment, reduce the size so more is
available to other programs that run at the same time.
If your program uses more stack space than allocated, it can cause
serious problems such as system crashes.
.PP
Note: Be sure to remove run-time checking in the final version of you
program after you determine the appropriate stack size.
.PP
.BR lseg
returns status of 0 on success, and >0 if an error (e.g., file
not found) occurs.
.SH OPTIONS
.BR lseg
recognizes one option:
.IP \fB-d\fR
Print the segment and stack sizes in decimal rather than hexidecimal.
.SH AUTHOR
Jawaid Bazyar for GNO/ME 1.0; updated by Dave Tribby for GNO/ME 2.0.6.