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Languguage OS 2
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Languguage OS II Version 10-94 (Knowledge Media)(1994).ISO
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gnu
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patch20u.lha
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patch-2.0.12u9
/
Configure
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1992-07-22
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#! /bin/sh
#
# If these # comments don't work, trim them. Don't worry about any other
# shell scripts, Configure will trim # comments from them for you.
#
# (If you are trying to port this package to a machine without sh, I would
# suggest you cut out the prototypical config.h from the end of Configure
# and edit it to reflect your system. Some packages may include samples
# of config.h for certain machines, so you might look for one of those.)
#
# $Header: Head.U,v 1.0 87/05/22 12:28:10 lwall Exp $
#
# Yes, you may rip this off to use in other distribution packages.
# (Note: this Configure script was generated automatically. Rather than
# working with this copy of Configure, you may wish to get metaconfig.)
: sanity checks
: the user has a better chance than we do of setting a reasonable PATH
: but add some directories we need that are probably not there
PATH=.:${PATH}:/etc:/usr/lib:/lib
export PATH || (echo "OOPS, this isn't sh. Desperation time. I will feed myself to sh."; sh $0; kill $$)
if test ! -t 0; then
echo "Say 'sh Configure', not 'sh <Configure'"
exit 1
fi
(alias) >/dev/null 2>&1 && \
echo "(I see you are using the Korn shell. Some ksh's blow up on Configure," && \
echo "especially on exotic machines. If yours does, try the Bourne shell instead.)"
if test ! -d ../UU; then
if test ! -d UU; then
mkdir UU
fi
cd UU
fi
case "$1" in
-d) shift; fastread='yes';;
esac
d_eunice=''
eunicefix=''
define=''
loclist=''
expr=''
sed=''
echo=''
cat=''
rm=''
mv=''
cp=''
tail=''
tr=''
mkdir=''
sort=''
uniq=''
grep=''
trylist=''
test=''
inews=''
egrep=''
more=''
pg=''
Mcc=''
vi=''
mailx=''
mail=''
cpp=''
Log=''
Header=''
bin=''
cc=''
contains=''
cppstdin=''
cppminus=''
d_charsprf=''
d_flexfnam=''
d_index=''
d_voidsig=''
d_dirheader=''
d_unistd=''
libc=''
mansrc=''
manext=''
models=''
split=''
small=''
medium=''
large=''
huge=''
ccflags=''
ldflags=''
n=''
c=''
package=''
registers=''
reg1=''
reg2=''
reg3=''
reg4=''
reg5=''
reg6=''
reg7=''
reg8=''
reg9=''
reg10=''
reg11=''
reg12=''
reg13=''
reg14=''
reg15=''
reg16=''
spitshell=''
shsharp=''
sharpbang=''
startsh=''
voidflags=''
defvoidused=''
CONFIG=''
: set package name
package=patch
echo " "
echo "Beginning of configuration questions for $package kit."
: Eunice requires " " instead of "", can you believe it
echo " "
define='define'
undef='/*undef'
libpth='/usr/lib /usr/local/lib /lib /usr/ccs/lib'
smallmach='pdp11 i8086 z8000 i80286 iAPX286'
rmlist='kit[1-9]isdone kit[1-9][0-9]isdone'
trap 'echo " "; rm -f $rmlist; exit 1' 1 2 3
: We must find out about Eunice early
eunicefix=':'
if test -f /etc/unixtovms; then
eunicefix=/etc/unixtovms
fi
if test -f /etc/unixtovms.exe; then
eunicefix=/etc/unixtovms.exe
fi
attrlist="mc68000 sun gcos unix ibm gimpel interdata tss os mert pyr"
attrlist="$attrlist vax pdp11 i8086 z8000 u3b2 u3b5 u3b20 u3b200"
attrlist="$attrlist ns32000 ns16000 iAPX286 mc300 mc500 mc700 sparc"
attrlist="$attrlist nsc32000 sinix xenix venix posix ansi M_XENIX"
attrlist="$attrlist mc68k m68k __STDC__"
pth=`echo $PATH | tr : ' '`
d_newshome="../../NeWS"
defvoidused=7
: some greps do not return status, grrr.
echo "grimblepritz" >grimble
if grep blurfldyick grimble >/dev/null 2>&1 ; then
contains=contains
elif grep grimblepritz grimble >/dev/null 2>&1 ; then
contains=grep
else
contains=contains
fi
rm -f grimble
: the following should work in any shell
case "$contains" in
contains*)
echo " "
echo "AGH! Grep doesn't return a status. Attempting remedial action."
cat >contains <<'EOSS'
grep "$1" "$2" >.greptmp && cat .greptmp && test -s .greptmp
EOSS
chmod +x contains
esac
: first determine how to suppress newline on echo command
echo "Checking echo to see how to suppress newlines..."
(echo "hi there\c" ; echo " ") >.echotmp
if $contains c .echotmp >/dev/null 2>&1 ; then
echo "...using -n."
n='-n'
c=''
else
cat <<'EOM'
...using \c
EOM
n=''
c='\c'
fi
echo $n "Type carriage return to continue. Your cursor should be here-->$c"
read ans
rm -f .echotmp
: now set up to do reads with possible shell escape and default assignment
cat <<EOSC >myread
case "\$fastread" in
yes) ans=''; echo " " ;;
*) ans='!';;
esac
while expr "X\$ans" : "X!" >/dev/null; do
read ans
case "\$ans" in
!)
sh
echo " "
echo $n "\$rp $c"
;;
!*)
set \`expr "X\$ans" : "X!\(.*\)\$"\`
sh -c "\$*"
echo " "
echo $n "\$rp $c"
;;
esac
done
rp='Your answer:'
case "\$ans" in
'') ans="\$dflt";;
esac
EOSC
: general instructions
cat <<EOH
This installation shell script will examine your system and ask you questions
to determine how the $package package should be installed. If you get stuck
on a question, you may use a ! shell escape to start a subshell or execute
a command. Many of the questions will have default answers in square
brackets--typing carriage return will give you the default.
On some of the questions which ask for file or directory names you are
allowed to use the ~name construct to specify the login directory belonging
to "name", even if you don't have a shell which knows about that. Questions
where this is allowed will be marked "(~name ok)".
EOH
rp="[Type carriage return to continue]"
echo $n "$rp $c"
. myread
cat <<EOH
Much effort has been expended to ensure that this shell script will run
on any Unix system. If despite that it blows up on you, your best bet is
to edit Configure and run it again. Also, let me (lwall@netlabs.com)
know how I blew it. If you can't run Configure for some reason, you'll have
to generate a config.sh file by hand.
This installation script affects things in two ways: 1) it may do direct
variable substitutions on some of the files included in this kit, and
2) it builds a config.h file for inclusion in C programs. You may edit
any of these files as the need arises after running this script.
If you make a mistake on a question, there is no easy way to back up to it
currently. The easiest thing to do is to edit config.sh and rerun all the
SH files. Configure will offer to let you do this before it runs the SH files.
EOH
rp="[Type carriage return to continue]"
echo $n "$rp $c"
. myread
: get old answers, if there is a config file out there
if test -f ../config.sh; then
echo " "
dflt=y
rp="I see a config.sh file. Did Configure make it on THIS system? [$dflt]"
echo $n "$rp $c"
. myread
case "$ans" in
n*) echo "OK, I'll ignore it.";;
*) echo "Fetching default answers from your old config.sh file..."
tmp="$n"
ans="$c"
. ../config.sh
n="$tmp"
c="$ans"
;;
esac
fi
: find out where common programs are
echo " "
echo "Locating common programs..."
cat <<EOSC >loc
$startsh
case \$# in
0) exit 1;;
esac
thing=\$1
shift
dflt=\$1
shift
for dir in \$*; do
case "\$thing" in
.)
if test -d \$dir/\$thing; then
echo \$dir
exit 0
fi
;;
*)
if test -f \$dir/\$thing; then
echo \$dir/\$thing
exit 0
elif test -f \$dir/\$thing.exe; then
: on Eunice apparently
echo \$dir/\$thing
exit 0
fi
;;
esac
done
echo \$dflt
exit 1
EOSC
chmod +x loc
$eunicefix loc
loclist="
expr
sed
echo
cat
rm
tr
grep
"
trylist="
test
Mcc
cpp
"
for file in $loclist; do
xxx=`loc $file $file $pth`
eval $file=$xxx
eval _$file=$xxx
case "$xxx" in
/*)
echo $file is in $xxx.
;;
*)
echo "I don't know where $file is. I hope it's in everyone's PATH."
;;
esac
done
echo " "
echo "Don't worry if any of the following aren't found..."
ans=offhand
for file in $trylist; do
xxx=`loc $file $file $pth`
eval $file=$xxx
eval _$file=$xxx
case "$xxx" in
/*)
echo $file is in $xxx.
;;
*)
echo "I don't see $file out there, $ans."
ans=either
;;
esac
done
case "$egrep" in
egrep)
echo "Substituting grep for egrep."
egrep=$grep
;;
esac
case "$test" in
test)
echo "Hopefully test is built into your sh."
;;
/bin/test)
echo " "
dflt=n
rp="Is your "'"'"test"'"'" built into sh? [$dflt] (OK to guess)"
echo $n "$rp $c"
. myread
case "$ans" in
y*) test=test ;;
esac
;;
*)
test=test
;;
esac
case "$echo" in
echo)
echo "Hopefully echo is built into your sh."
;;
/bin/echo)
echo " "
echo "Checking compatibility between /bin/echo and builtin echo (if any)..."
$echo $n "hi there$c" >foo1
echo $n "hi there$c" >foo2
if cmp foo1 foo2 >/dev/null 2>&1; then
echo "They are compatible. In fact, they may be identical."
else
case "$n" in
'-n') n='' c='\c' ans='\c' ;;
*) n='-n' c='' ans='-n' ;;
esac
cat <<FOO
They are not compatible! You are probably running ksh on a non-USG system.
I'll have to use /bin/echo instead of the builtin, since Bourne shell doesn't
have echo built in and we may have to run some Bourne shell scripts. That
means I'll have to use $ans to suppress newlines now. Life is ridiculous.
FOO
rp="Your cursor should be here-->"
$echo $n "$rp$c"
. myread
fi
$rm -f foo1 foo2
;;
*)
: cross your fingers
echo=echo
;;
esac
rmlist="$rmlist loc"
: get list of predefined functions in a handy place
echo " "
if test -f /lib/libc.a; then
echo "Your C library is in /lib/libc.a. You're normal."
libc=/lib/libc.a
else
if test -f /lib/clib -a -f /lib/libc; then
echo "Your standard C library is in /lib/libc. Must be Domain/OS."
libc=/lib/libc
elif test -f /lib/libsys_s.a; then
echo "Your C library is in /lib/libsys_s.a. Must be a NeXT."
libc=/lib/libsys_s.a
else
ans=`loc libc.a blurfl/dyick $libpth`
if test ! -f $ans; then
ans=`loc clib blurfl/dyick $libpth`
fi
if test ! -f $ans; then
ans=`loc libc blurfl/dyick $libpth`
fi
if test -f $ans; then
echo "Your C library is in $ans, of all places."
libc=$ans
else
if test -f "$libc"; then
echo "Your C library is in $libc, like you said before."
else
cat <<EOM
I can't seem to find your C library. I've looked in the following places:
$libpth
None of these seems to contain your C library. What is the full name
EOM
dflt=None
$echo $n "of your C library? $c"
rp='C library full name?'
. myread
libc="$ans"
fi
fi
fi
fi
echo " "
$echo $n "Extracting names from $libc for later perusal...$c"
nm $libc 2>/dev/null | sed -n -e 's/^.* T _//p' -e 's/^.* T //p' > libc.list
if $contains '^printf$' libc.list >/dev/null 2>&1; then
echo "done"
else
nm $libc 2>/dev/null | sed -n -e 's/^.* D _//p' -e 's/^.* D //p' > libc.list
if $contains '^printf$' libc.list >/dev/null 2>&1; then
echo "done"
else
echo " "
echo "nm didn't seem to work right."
echo "Trying ar instead..."
if ar t $libc | sed -e 's/\.o$//' > libc.list; then
echo "Ok."
else
echo "That didn't work either. Giving up."
exit 1
fi
fi
fi
rmlist="$rmlist libc.list"
: make some quick guesses about what we are up against
echo " "
$echo $n "Hmm... $c"
if $contains SIGTSTP /usr/include/signal.h >/dev/null 2>&1 ; then
echo "Looks kind of like a BSD system, but we'll see..."
echo exit 0 >bsd
echo exit 1 >usg
echo exit 1 >v7
elif $contains '^fcntl$' libc.list >/dev/null 2>&1 ; then
echo "Looks kind of like a USG system, but we'll see..."
echo exit 1 >bsd
echo exit 0 >usg
echo exit 1 >v7
else
echo "Looks kind of like a version 7 system, but we'll see..."
echo exit 1 >bsd
echo exit 1 >usg
echo exit 0 >v7
fi
if $contains '^vmssystem$' libc.list >/dev/null 2>&1 ; then
cat <<'EOI'
There is, however, a strange, musty smell in the air that reminds me of
something...hmm...yes...I've got it...there's a VMS nearby, or I'm a Blit.
EOI
echo "exit 0" >eunice
eunicefix=unixtovms
d_eunice="$define"
: it so happens the Eunice I know will not run shell scripts in Unix format
else
echo " "
echo "Congratulations. You aren't running Eunice."
eunicefix=':'
d_eunice="$undef"
echo "exit 1" >eunice
fi
if test -f /xenix; then
echo "Actually, this looks more like a XENIX system..."
echo "exit 0" >xenix
else
echo " "
echo "It's not Xenix..."
echo "exit 1" >xenix
fi
chmod +x xenix
$eunicefix xenix
if test -f /venix; then
echo "Actually, this looks more like a VENIX system..."
echo "exit 0" >venix
else
echo " "
if xenix; then
: null
else
echo "Nor is it Venix..."
fi
echo "exit 1" >venix
fi
chmod +x bsd usg v7 eunice venix
$eunicefix bsd usg v7 eunice venix
rmlist="$rmlist bsd usg v7 eunice venix xenix"
: see if sh knows # comments
echo " "
echo "Checking your sh to see if it knows about # comments..."
if sh -c '#' >/dev/null 2>&1 ; then
echo "Your sh handles # comments correctly."
shsharp=true
spitshell=cat
echo " "
echo "Okay, let's see if #! works on this system..."
echo "#!/bin/echo hi" > try
$eunicefix try
chmod +x try
try > today
if $contains hi today >/dev/null 2>&1; then
echo "It does."
sharpbang='#!'
else
echo "#! /bin/echo hi" > try
$eunicefix try
chmod +x try
try > today
if test -s today; then
echo "It does."
sharpbang='#! '
else
echo "It doesn't."
sharpbang=': use '
fi
fi
else
echo "Your sh doesn't grok # comments--I will strip them later on."
shsharp=false
echo "exec grep -v '^#'" >spitshell
chmod +x spitshell
$eunicefix spitshell
spitshell=`pwd`/spitshell
echo "I presume that if # doesn't work, #! won't work either!"
sharpbang=': use '
fi
: figure out how to guarantee sh startup
echo " "
echo "Checking out how to guarantee sh startup..."
startsh=$sharpbang'/bin/sh'
echo "Let's see if '$startsh' works..."
cat >try <<EOSS
$startsh
set abc
test "$?abc" != 1
EOSS
chmod +x try
$eunicefix try
if try; then
echo "Yup, it does."
else
echo "Nope. You may have to fix up the shell scripts to make sure sh runs them."
fi
rm -f try today
#: see if sprintf is declared as int or pointer to char
#echo " "
#cat >.ucbsprf.c <<'EOF'
#main() { char buf[10]; exit((unsigned long)sprintf(buf,"%s","foo") > 10L); }
#EOF
#if cc .ucbsprf.c -o .ucbsprf >/dev/null 2>&1 && .ucbsprf; then
# echo "Your sprintf() returns (int)."
# d_charsprf="$undef"
#else
# echo "Your sprintf() returns (char*)."
# d_charsprf="$define"
#fi
#/bin/rm -f .ucbsprf.c .ucbsprf
: see if we can have long filenames
echo " "
rm -f 123456789abcde
if (echo hi >123456789abcdef) 2>/dev/null; then
: not version 8
if test -f 123456789abcde; then
echo 'You cannot have filenames longer than 14 characters. Sigh.'
d_flexfnam="$undef"
else
echo 'You can have filenames longer than 14 characters.'
d_flexfnam="$define"
fi
else
: version 8 probably
echo "You can't have filenames longer than 14 chars. V8 can't even think about them!"
d_flexfnam="$undef"
fi
: index or strcpy
echo " "
case "$d_index" in
n) dflt=n;;
*) dflt=y;;
esac
if $contains '^index$' libc.list >/dev/null 2>&1 ; then
if $contains '^strchr$' libc.list >/dev/null 2>&1 ; then
echo "Your system has both index() and strchr(). Shall I use"
rp="index() rather than strchr()? [$dflt]"
$echo $n "$rp $c"
. myread
case "$ans" in
n*) d_index="$define" ;;
*) d_index="$undef" ;;
esac
else
d_index="$undef"
echo "index() found."
fi
else
if $contains '^strchr$' libc.list >/dev/null 2>&1 ; then
d_index="$define"
echo "strchr() found."
else
echo "No index() or strchr() found!"
d_index="$undef"
fi
fi
: see if signal is declared as pointer to function returning int or void
echo " "
if $contains 'void.*signal' /usr/include/signal.h >/dev/null 2>&1 ||
$contains 'void.*signal' /usr/include/sys/signal.h >/dev/null 2>&1 ; then
echo "You have void (*signal())() instead of int."
d_voidsig="$define"
else
echo "You have int (*signal())() instead of void."
d_voidsig="$undef"
fi
: check for directory library
echo " "
if test -f /usr/include/dirent.h; then
echo "You have dirent.h."
d_dirheader="#define DIRENT"
elif test -f /usr/include/ndir.h; then
echo "You have ndir.h."
d_dirheader="#define USG"
elif test -f /usr/include/sys/ndir.h; then
echo "You have sys/ndir.h."
d_dirheader="#define SYSNDIR
#define USG"
elif test -f /usr/include/sys/dir.h; then
echo "You have sys/dir.h; I hope that's the BSD version."
d_dirheader="#define SYSDIR"
else
echo "I can't find a directory library header file.
That means you won't have numbered backups available."
d_dirheader="#define NODIR"
fi
: check for unistd.h
echo " "
if test -f /usr/include/unistd.h; then
echo "You have unistd.h."
d_unistd="$define"
else
echo "I don't see unistd.h, but that's OK."
d_unistd="$undef"
fi
: check for void type
echo " "
$cat <<EOM
Checking to see how well your C compiler groks the void type...
Support flag bits are:
1: basic void declarations.
2: arrays of pointers to functions returning void.
4: operations between pointers to and addresses of void functions.
EOM
case "$voidflags" in
'')
$cat >try.c <<'EOCP'
#if TRY & 1
void main() {
#else
main() {
#endif
extern void *moo();
void *(*goo)();
#if TRY & 2
void (*foo[10])();
#endif
#if TRY & 4
if(*goo == moo) {
exit(0);
}
#endif
exit(0);
}
EOCP
: Argh -- AIX 3.2 does not have cc -S!
if cc -c -DTRY=7 try.c >.out 2>&1 ; then
voidflags=7
echo "It appears to support void fully."
if $contains warning .out >/dev/null 2>&1; then
echo "However, you might get some warnings that look like this:"
$cat .out
fi
else
echo "Hmm, you compiler has some difficulty with void. Checking further..."
if cc -c -DTRY=1 try.c >/dev/null 2>&1 ; then
echo "It supports 1..."
if cc -c -DTRY=3 try.c >/dev/null 2>&1 ; then
voidflags=3
echo "And it supports 2 but not 4."
else
echo "It doesn't support 2..."
if cc -c -DTRY=3 try.c >/dev/null 2>&1 ; then
voidflags=5
echo "But it supports 4."
else
voidflags=1
echo "And it doesn't support 4."
fi
fi
else
echo "There is no support at all for void."
voidflags=0
fi
fi
esac
dflt="$voidflags";
rp="Your void support flags add up to what? [$dflt]"
$echo $n "$rp $c"
. myread
voidflags="$ans"
$rm -f try.* .out
: see how we invoke the C preprocessor
echo " "
echo "Now, how can we feed standard input to your C preprocessor..."
cat <<'EOT' >testcpp.c
#define ABC abc
#define XYZ xyz
ABC.XYZ
EOT
echo 'Maybe "'$cpp'" will work...'
$cpp <testcpp.c >testcpp.out 2>&1
if $contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
echo "Yup, it does."
cppstdin="$cpp"
cppminus='';
else
echo 'Nope, maybe "'$cpp' -" will work...'
$cpp - <testcpp.c >testcpp.out 2>&1
if $contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
echo "Yup, it does."
cppstdin="$cpp"
cppminus='-';
else
echo 'No such luck...maybe "cc -E" will work...'
cc -E <testcpp.c >testcpp.out 2>&1
if $contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
echo "It works!"
cppstdin='cc -E'
cppminus='';
else
echo 'Nixed again...maybe "cc -E -" will work...'
cc -E - <testcpp.c >testcpp.out 2>&1
if $contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
echo "Hooray, it works! I was beginning to wonder."
cppstdin='cc -E'
cppminus='-';
else
echo 'Nope...maybe "cc -P" will work...'
cc -P <testcpp.c >testcpp.out 2>&1
if $contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
echo "Yup, that does."
cppstdin='cc -P'
cppminus='';
else
echo 'Nope...maybe "cc -P -" will work...'
cc -P - <testcpp.c >testcpp.out 2>&1
if $contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
echo "Yup, that does."
cppstdin='cc -P'
cppminus='-';
else
echo 'Hmm...perhaps you already told me...'
case "$cppstdin" in
'') ;;
*) $cppstdin $cppminus <testcpp.c >testcpp.out 2>&1;;
esac
if $contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
echo "Hooray, you did! I was beginning to wonder."
else
echo 'Uh-uh. Time to get fancy...'
echo 'Trying (cat >/tmp/$$.c; cc -E /tmp/$$.c; rm /tmp/$$.c)'
cppstdin='(cat >/tmp/$$.c; cc -E /tmp/$$.c; rm /tmp/$$.c)'
cppminus='';
$cppstdin <testcpp.c >testcpp.out 2>&1
if $contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
echo "Eureka!."
else
dflt=blurfl
$echo $n "No dice. I can't find a C preprocessor. Name one: $c"
rp='Name a C preprocessor:'
. myread
cppstdin="$ans"
$cppstdin <testcpp.c >testcpp.out 2>&1
if $contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
echo "OK, that will do."
else
echo "Sorry, I can't get that to work. Go find one."
exit 1
fi
fi
fi
fi
fi
fi
fi
fi
fi
rm -f testcpp.c testcpp.out
: get C preprocessor symbols handy
echo " "
: AIX 3.2 rejects tr '[ - ]' because the range endpoints are the same.
echo $attrlist | $tr ' ' '\012' >Cppsym.know
$cat <<EOSS >Cppsym
$startsh
case "\$1" in
-l) list=true
shift
;;
esac
unknown=''
case "\$list\$#" in
1|2)
for sym do
if $contains "^\$1$" Cppsym.true >/dev/null 2>&1; then
exit 0
elif $contains "^\$1$" Cppsym.know >/dev/null 2>&1; then
:
else
unknown="\$unknown \$sym"
fi
done
set X \$unknown
shift
;;
esac
case \$# in
0) exit 1;;
esac
echo \$* | $tr ' ' '\012' | $sed -e 's/\(.*\)/\\
#ifdef \1\\
exit 0; _ _ _ _\1\\ \1\\
#endif\\
/' >/tmp/Cppsym\$\$
echo exit 1 >>/tmp/Cppsym\$\$
$cppstdin $cppminus </tmp/Cppsym\$\$ >/tmp/Cppsym2\$\$
case "\$list" in
true) awk 'NF > 5 {print substr(\$6,2,100)}' </tmp/Cppsym2\$\$ ;;
*)
sh /tmp/Cppsym2\$\$
status=\$?
;;
esac
$rm -f /tmp/Cppsym\$\$ /tmp/Cppsym2\$\$
exit \$status
EOSS
chmod +x Cppsym
$eunicefix Cppsym
echo "Your C preprocessor defines the following symbols:"
Cppsym -l $attrlist >Cppsym.true
cat Cppsym.true
rmlist="$rmlist Cppsym Cppsym.know Cppsym.true"
: see how many register declarations we want to use
case "$registers" in
'')
if Cppsym vax; then
dflt=6
elif Cppsym sun mc68000 mc68k m68k; then
dflt=10
elif Cppsym pyr; then
dflt=14
elif Cppsym ns32000 ns16000; then
dflt=5
elif Cppsym $smallmach; then
dflt=3
else
: if you have any other numbers for me, send them in
dflt=6
fi
;;
*) dflt=$registers ;;
esac
cat <<EOM
Different C compilers on different machines pay attention to different
numbers of register declarations. About how many register declarations in
EOM
$echo $n "each routine does your C compiler pay attention to? (OK to guess) [$dflt] $c"
rp="# register declarations used? [$dflt]"
. myread
registers=$ans
reg1=''
awk "BEGIN { for (i=1; i<=16; i++) printf \"reg%d=''\n\", i}" </dev/null >.foo
. .foo
awk "BEGIN { for (i=1; i<=$registers; i++) printf \"reg%d=register\n\", i}" \
</dev/null >.foo
. .foo
rm -f .foo
: preserve RCS keywords in files with variable substitution, grrr
Log='$Log'
Header='$Header'
: set up shell script to do ~ expansion
cat >filexp <<EOSS
$startsh
: expand filename
case "\$1" in
~/*|~)
echo \$1 | $sed "s|~|\${HOME-\$LOGDIR}|"
;;
~*)
if $test -f /bin/csh; then
/bin/csh -f -c "glob \$1"
echo ""
else
name=\`$expr x\$1 : '..\([^/]*\)'\`
dir=\`$sed -n -e "/^\${name}:/{s/^[^:]*:[^:]*:[^:]*:[^:]*:[^:]*:\([^:]*\).*"'\$'"/\1/" -e p -e q -e '}' </etc/passwd\`
if $test ! -d "\$dir"; then
me=\`basename \$0\`
echo "\$me: can't locate home directory for: \$name" >&2
exit 1
fi
case "\$1" in
*/*)
echo \$dir/\`$expr x\$1 : '..[^/]*/\(.*\)'\`
;;
*)
echo \$dir
;;
esac
fi
;;
*)
echo \$1
;;
esac
EOSS
chmod +x filexp
$eunicefix filexp
: determine where public executables go
case "$bin" in
'')
dflt=`loc . /bin /usr/local/bin /usr/lbin /usr/local /usr/bin`
;;
*) dflt="$bin"
;;
esac
cont=true
while $test "$cont" ; do
echo " "
rp="Where do you want to put the public executables? [$dflt]"
$echo $n "$rp $c"
. myread
bin="$ans"
bin=`filexp $bin`
if test -d $bin; then
cont=''
else
dflt=n
rp="Directory $bin doesn't exist. Use that name anyway? [$dflt]"
$echo $n "$rp $c"
. myread
dflt=''
case "$ans" in
y*) cont='';;
esac
fi
done
: determine where manual pages go
case "$mansrc" in
'')
dflt=`loc . /usr/man/man1 /usr/local/man/man1 /usr/man/mann /usr/man/local/man1 /usr/man/u_man/man1`
;;
*) dflt="$mansrc"
;;
esac
cont=true
while $test "$cont" ; do
echo " "
rp="Where do the manual pages (source) go? [$dflt]"
$echo $n "$rp $c"
. myread
mansrc=`filexp "$ans"`
if test -d $mansrc; then
cont=''
else
dflt=n
rp="Directory $mansrc doesn't exist. Use that name anyway? [$dflt]"
$echo $n "$rp $c"
. myread
dflt=''
case "$ans" in
y*) cont='';;
esac
fi
done
case "$mansrc" in
*l)
manext=l
;;
*n)
manext=n
;;
*C)
manext=C
;;
*)
manext=1
;;
esac
: see what memory models we can support
case "$models" in
'')
if Cppsym pdp11; then
dflt='unsplit split'
else
ans=`loc . X /lib/small /lib/large /usr/lib/small /usr/lib/large /lib/medium /usr/lib/medium /lib/huge`
case "$ans" in
X) dflt='none';;
*) if $test -d /lib/small || $test -d /usr/lib/small; then
dflt='small'
else
dflt=''
fi
if $test -d /lib/medium || $test -d /usr/lib/medium; then
dflt="$dflt medium"
fi
if $test -d /lib/large || $test -d /usr/lib/large; then
dflt="$dflt large"
fi
if $test -d /lib/huge || $test -d /usr/lib/huge; then
dflt="$dflt huge"
fi
esac
fi
;;
*) dflt="$models" ;;
esac
$cat <<EOM
Some systems have different model sizes. On most systems they are called
small, medium, large, and huge. On the PDP11 they are called unsplit and
split. If your system doesn't support different memory models, say "none".
If you wish to force everything to one memory model, say "none" here and
put the appropriate flags later when it asks you for other cc and ld flags.
Venix systems may wish to put "none" and let the compiler figure things out.
(In the following question multiple model names should be space separated.)
EOM
rp="Which models are supported? [$dflt]"
$echo $n "$rp $c"
. myread
models="$ans"
case "$models" in
none)
small=''
medium=''
large=''
huge=''
unsplit=''
split=''
;;
*split)
case "$split" in
'')
if $contains '-i' $mansrc/ld.1 >/dev/null 2>&1 || \
$contains '-i' $mansrc/cc.1 >/dev/null 2>&1; then
dflt='-i'
else
dflt='none'
fi
;;
*) dflt="$split";;
esac
rp="What flag indicates separate I and D space? [$dflt]"
$echo $n "$rp $c"
. myread
case "$ans" in
none) ans='';;
esac
split="$ans"
unsplit=''
;;
*large*|*small*|*medium*|*huge*)
case "$model" in
*large*)
case "$large" in
'') dflt='-Ml';;
*) dflt="$large";;
esac
rp="What flag indicates large model? [$dflt]"
$echo $n "$rp $c"
. myread
case "$ans" in
none) ans='';
esac
large="$ans"
;;
*) large='';;
esac
case "$model" in
*huge*)
case "$huge" in
'') dflt='-Mh';;
*) dflt="$huge";;
esac
rp="What flag indicates huge model? [$dflt]"
$echo $n "$rp $c"
. myread
case "$ans" in
none) ans='';
esac
huge="$ans"
;;
*) huge="$large";;
esac
case "$model" in
*medium*)
case "$medium" in
'') dflt='-Mm';;
*) dflt="$medium";;
esac
rp="What flag indicates medium model? [$dflt]"
$echo $n "$rp $c"
. myread
case "$ans" in
none) ans='';
esac
medium="$ans"
;;
*) medium="$large";;
esac
case "$model" in
*small*)
case "$small" in
'') dflt='none';;
*) dflt="$small";;
esac
rp="What flag indicates small model? [$dflt]"
$echo $n "$rp $c"
. myread
case "$ans" in
none) ans='';
esac
small="$ans"
;;
*) small='';;
esac
;;
*)
echo "Unrecognized memory models--you may have to edit Makefile.SH"
;;
esac
case "$ccflags" in
'') dflt='none';;
*) dflt="$ccflags";;
esac
echo " "
rp="Any additional cc flags? [$dflt]"
$echo $n "$rp $c"
. myread
case "$ans" in
none) ans='';
esac
ccflags="$ans"
case "$ldflags" in
'') if venix; then
dflt='-i -z'
elif xenix; then
if test -f /usr/include/dirent.h; then
dflt='-ldir -lx'
else
dflt='-lx'
fi
else
dflt='none'
fi
;;
*) dflt="$ldflags";;
esac
echo " "
rp="Any additional ld flags? [$dflt]"
$echo $n "$rp $c"
. myread
case "$ans" in
none) ans='';
esac
ldflags="$ans"
: see if we need a special compiler
echo " "
if usg; then
case "$cc" in
'')
case "$Mcc" in
/*) dflt='Mcc'
;;
*)
case "$large" in
-M*)
dflt='cc'
;;
*)
if $contains '\-M' $mansrc/cc.1 >/dev/null 2>&1 ; then
dflt='cc -M'
else
dflt='cc'
fi
;;
esac
;;
esac
;;
*) dflt="$cc";;
esac
$cat <<'EOM'
On some systems the default C compiler will not resolve multiple global
references that happen to have the same name. On some such systems the
"Mcc" command may be used to force these to be resolved. On other systems
a "cc -M" command is required. (Note that the -M flag on other systems
indicates a memory model to use!) What command will force resolution on
EOM
$echo $n "this system? [$dflt] $c"
rp="Command to resolve multiple refs? [$dflt]"
. myread
cc="$ans"
else
echo "Not a USG system--assuming cc can resolve multiple definitions."
cc=cc
fi
echo " "
echo "End of configuration questions."
echo " "
: create config.sh file
echo " "
if test -d ../UU; then
cd ..
fi
echo "Creating config.sh..."
$spitshell <<EOT >config.sh
$startsh
# config.sh
# This file was produced by running the Configure script.
d_eunice='$d_eunice'
eunicefix='$eunicefix'
define='$define'
loclist='$loclist'
expr='$expr'
sed='$sed'
echo='$echo'
cat='$cat'
rm='$rm'
mv='$mv'
cp='$cp'
tail='$tail'
tr='$tr'
mkdir='$mkdir'
sort='$sort'
uniq='$uniq'
grep='$grep'
trylist='$trylist'
test='$test'
inews='$inews'
egrep='$egrep'
more='$more'
pg='$pg'
Mcc='$Mcc'
vi='$vi'
mailx='$mailx'
mail='$mail'
cpp='$cpp'
Log='$Log'
Header='$Header'
bin='$bin'
cc='$cc'
contains='$contains'
cppstdin='$cppstdin'
cppminus='$cppminus'
d_charsprf='$d_charsprf'
d_flexfnam='$d_flexfnam'
d_index='$d_index'
d_voidsig='$d_voidsig'
d_dirheader='$d_dirheader'
d_unistd='$d_unistd'
libc='$libc'
mansrc='$mansrc'
manext='$manext'
models='$models'
split='$split'
small='$small'
medium='$medium'
large='$large'
huge='$huge'
ccflags='$ccflags'
ldflags='$ldflags'
n='$n'
c='$c'
package='$package'
registers='$registers'
reg1='$reg1'
reg2='$reg2'
reg3='$reg3'
reg4='$reg4'
reg5='$reg5'
reg6='$reg6'
reg7='$reg7'
reg8='$reg8'
reg9='$reg9'
reg10='$reg10'
reg11='$reg11'
reg12='$reg12'
reg13='$reg13'
reg14='$reg14'
reg15='$reg15'
reg16='$reg16'
spitshell='$spitshell'
shsharp='$shsharp'
sharpbang='$sharpbang'
startsh='$startsh'
voidflags='$voidflags'
defvoidused='$defvoidused'
CONFIG=true
EOT
CONFIG=true
echo " "
dflt=''
fastread=''
echo "If you didn't make any mistakes, then just type a carriage return here."
rp="If you need to edit config.sh, do it as a shell escape here:"
$echo $n "$rp $c"
. UU/myread
case "$ans" in
'') ;;
*) : in case they cannot read
eval $ans;;
esac
. ./config.sh
echo " "
echo "Doing variable substitutions on .SH files..."
set x `awk '{print $1}' <MANIFEST | $grep '\.SH'`
shift
case $# in
0) set x *.SH; shift;;
esac
if test ! -f $1; then
shift
fi
for file in $*; do
case "$file" in
*/*)
dir=`$expr X$file : 'X\(.*\)/'`
file=`$expr X$file : 'X.*/\(.*\)'`
(cd $dir && . $file)
;;
*)
. $file
;;
esac
done
if test -f config.h.SH; then
if test ! -f config.h; then
: oops, they left it out of MANIFEST, probably, so do it anyway.
. config.h.SH
fi
fi
if $contains '^depend:' Makefile >/dev/null 2>&1; then
dflt=n
$cat <<EOM
Now you need to generate make dependencies by running "make depend".
You might prefer to run it in background: "make depend > makedepend.out &"
It can take a while, so you might not want to run it right now.
EOM
rp="Run make depend now? [$dflt]"
$echo $n "$rp $c"
. UU/myread
case "$ans" in
y*) make depend
echo "Now you must run a make."
;;
*) echo "You must run 'make depend' then 'make'."
;;
esac
elif test -f Makefile; then
echo " "
echo "Now you must run a make."
else
echo "Done."
fi
$rm -f kit*isdone
: the following is currently useless
cd UU && $rm -f $rmlist
: since this removes it all anyway
cd .. && $rm -rf UU
: end of Configure