Mail Archives: djgpp/2000/05/16/19:53:08
@echo off
Where would I put the lines in this?
How about someone send me everything they think I need? Ready to go?
if "%2" == "" goto error
rem Everything else is set in djgpp.env now.
set DJGPP=%2/djgpp.env
rem Don't forget to change your PATH!
goto exit
:error
echo.
echo You must call this with DJGPP's installation directory passed
echo twice, first with DOS-style slashes, then with Unix-style
echo slashes. Example:
echo.
echo c:\stuff\djgpp\setdjgpp c:\stuff\djgpp c:/stuff/djgpp
echo.
:exit
Josh Haglund
lhaglund AT wiktel DOT com
----- Original Message -----
From: Maurice Lombardi <Maurice DOT Lombardi AT ujf-grenoble DOT fr>
Newsgroups: comp.os.msdos.djgpp
To: <djgpp AT delorie DOT com>
Sent: Tuesday, May 16, 2000 11:31 AM
Subject: Re: Prashant -how to use djgpp
> Josh Haglund a écrit :
> >
> > Prashant,
> >
> > So if the source for Crafty was in C:/windows/desktop/Crafty
> > and for Djgpp is under C:/Djgpp
> >
> > what would I do from there?
> >
> > I edited the Makefile underder C:/windows/desktop/Crafty/Makefile
> > Here what it looks like:
> >
> > # To build crafty:
> > #
> > # Uncomment the sections relevant to your architecture.
> > # You may need to tune the two gcc lines below to match your compiler.
> > # You want to set up for maximum optimization, but typically you will
> > # need to experiment to see which options provide the fastest code.
> > # This is optimized for pgcc, which is a fairly current compiler.
> > #
> > # The currently available targets:
> > #
> > # AIX {IBM machines running AIX}
> > # ALPHA {DEC Alpha running OSF/1-Digital Unix}
> > # CRAY1 {any Cray-1 compatible architecture including XMP, YMP,
> > # C90, etc.}
> > # HP {HP workstation running HP_UX operating system (unix)}
> > # LINUX {80X86 architecture running LINUX (unix)}
> > # NT_i386 {80X86 architecture running Windows 95 or NT}
> > # NT_AXP {DEC Alpha running Windows NT}
> > # DOS {PC running dos/windows, using DJGPP port of gcc to
compile}
> > # NEXT {NextStep}
> > # OS/2 {IBM OS/2 warp}
> > # SGI {SGI Workstation running Irix (SYSV/R4) Unix}
> > # SUN {Sun SparcStation running Solaris (SYSV/R4) Unix}
> > # SUN_BSD {Sun SparcStation running SunOS (BSD) Unix}
> > # FreeBSD {80X86 architecture running FreeBSD (unix)}
> > #
> > # The next options are optimizations inside Crafty that you will have
> > # test to see if they help. on some machines, these will slow things
> > # by up to 10%, while on other machines these options will result in
> > # improving search speed up to 20%. NOTE: if you are running Linux
> > # or have a SUN Sparc-20 machine, the default configurations below
> > # will use the hand-written assembly modules. Typical performance
> > # improvement is 33%, but this only applies to X86 machines and the
> > # Sun Sparc-20.
> > #
> > # 1. opt = -DCOMPACT_ATTACKS
> > # 2. opt = -DCOMPACT_ATTACKS -DUSE_ATTACK_FUNCTIONS
> > #
> > # Finally, if you have a Symmetric MultiProcessor machine, you should
> > # add -DSMP to the opt definition for your make configuration, and
then
> > # add -DCPUS=N where N is the number of processors (max) you will use.
> > #
> > # if you want 6 man EGTB support, you will need to add -DEGTB6 to the
> > # options above.
> > #
> > #
> > # AIX
> > #target = AIX
> > #CC = cc
> > #CFLAGS = -O2
> > #CPP = $(CC)
> > #LDFLAGS =
> > #opt = -DCOMPACT_ATTACKS -DUSE_ATTACK_FUNCTIONS
> > #opt = -DCOMPACT_ATTACKS
> >
> > # ALPHA
> > #target = ALPHA
> > #CC = cc
> > #Note: "-arch host" assumes you will run the binary on exactly the
> > # same kind of ALPHA you compiled it on. Omit it if you want to run
> > # the same binary on several kinds of Alpha. If you are on an early
> > # EV6 that does not have the CIX instruction set extension, a compiler
> > # bug (?) causes these instructions to be generated anyway. If this
> > # happens you'll see a message about "instr emulated" after starting
> > # crafty; to fix it, change "-arch host" to "-arch ev56 -tune host"
> > # and recompile.
> > #CFLAGS = -std -fast -O4 -pthread -newc -arch host
> > #CPP = cxx
> > #LDFLAGS = $(CFLAGS)
> > #LIBS = -lpthread -lexc
> > #opt = -DSMP -DCPUS=8 -DFAST -DPOSIX
> >
>
> uncomment the lines below DOS
>
> > # DOS
> > # target = DOS
> > # CC = gcc
> > # CFLAGS = -fomit-frame-pointer -m486 -O3
> > # CPP = $(CC)
> > # LDFLAGS =
> > # opt = -DCOMPACT_ATTACKS -DUSE_ATTACK_FUNCTIONS \
> > # -DUSE_ASSEMBLY_A -DUSE_ASSEMBLY_B
> > # asm = X86.o
> >
>
> comment out the lines below FreeBSD
>
> > # FreeBSD (gcc 2.6.3)
> > target = FreeBSD
> > CC = gcc
> > CFLAGS = -fomit-frame-pointer -m486 -O3 -Wall
> > CPP = $(CC)
> > LDFLAGS =
> > #opt = -DCOMPACT_ATTACKS -DUSE_ATTACK_FUNCTIONS \
> > # -DUSE_ASSEMBLY_A -DUSE_ASSEMBLY_B -DFAST
> >
> > # FreeBSD (pgcc)
> > #target = FreeBSD
> > #CC = gcc
> > #CFLAGS = -pipe -D_REENTRANT -mpentium -O -Wall
> > #CPP = $(CC)
> > #LDFLAGS =
> > #opt = -DCOMPACT_ATTACKS -DUSE_ATTACK_FUNCTIONS \
> > # -DUSE_ASSEMBLY_A -DUSE_ASSEMBLY_B -DFAST
> >
> > # HP
> > #target = HP
> > #CC = cc
> > #OPT = +O3 +Onolimit
> > #CFLAGS = +ESlit -Ae +w1
> > #CPP = $(CC)
> > #LDFLAGS = $(OPT) $(CFLAGS)
> > #opt =
> >
> > # LINUX (gcc 2.95)
> > # Note: You have to uncomment exactly ONE of the `asm' lines below.
> > #target = LINUX
> > #CC = gcc
> > #CPP = g++
> > #CFLAGS = -Wall -pipe -D_REENTRANT -march=i686 -O -fforce-mem \
> > # -fomit-frame-pointer -mpreferred-stack-boundary=2
> > #LDFLAGS = -lpthread
> > #opt = -DCOMPACT_ATTACKS -DUSE_ATTACK_FUNCTIONS \
> > # -DUSE_ASSEMBLY_A -DUSE_ASSEMBLY_B -DFAST -DSMP -DCPUS=4 -DDGT
> >
> > # Uncomment the FIRST `asm' line for a.out systems.
> > # Uncomment the SECOND `asm' line for ELF systems.
> > #
> > #asm = X86-aout.o
> > #asm = X86-elf.o
> >
> > # NEXT
> > #target = NEXT
> > #CC = /bin/cc
> > #CFLAGS = -O2
> > #CPP = $(CC)
> > #LDFLAGS = $(CFLAGS)
> > #opt = -DCOMPACT_ATTACKS
> >
> > # OS2 (emx09c)
> > # target = OS2
> > # CC = gcc
> > # CFLAGS = -fomit-frame-pointer -m486 -O3 -Wall
> > # CPP = $(CC)
> > # LDFLAGS = -Zexe -Zcrtdll -s
> > # opt = -DCOMPACT_ATTACKS -DUSE_ATTACK_FUNCTIONS \
> > # -DUSE_ASSEMBLY_A -DUSE_ASSEMBLY_B -DFAST -DOS2
> > # asm = X86.o
> >
> > # SGI
> > #target = SGI
> > #AS = /bin/as
> > #CC = cc
> > #AFLAGS = -P
> > #CFLAGS = -g -32 -mips2 -cckr
> > #CPP = $(CC)
> > #LDFLAGS =
> > #opt = -DCOMPACT_ATTACKS -DUSE_ATTACK_FUNCTIONS
> > #opt =
> >
> > # SUN
> > #target = SUN
> > #AS = /usr/ccs/bin/as
> > #CC = cc
> > #AFLAGS = -P
> > #CPP = $(CC)
> > #CFLAGS = -fast -xO5 -xunroll=20
> > #LDFLAGS = -lpthread
> > #opt = -DCOMPACT_ATTACKS -DUSE_ATTACK_FUNCTIONS \
> > # -DUSE_ASSEMBLY_A -DSMP -DCPUS=4 -DMUTEX -DPOSIX
> > #asm = Sparc.o
> >
> > # Do not change anything below this line!
> >
> > opts = $(opt) -D$(target)
> >
> > objects = searchr.o search.o thread.o searchmp.o repeat.o next.o nexte.o
> > \
> > nextr.o history.o quiesce.o evaluate.o movgen.o make.o unmake.o
> > hash.o \
> > attacks.o swap.o boolean.o utility.o valid.o probe.o book.o
data.o
> > \
> > drawn.o edit.o enprise.o epd.o epdglue.o init.o input.o
interupt.o
> > \
> > iterate.o main.o option.o output.o phase.o ponder.o preeval.o
> > resign.o \
> > root.o learn.o setboard.o test.o time.o validate.o annotate.o
> > \
> > analyze.o evtest.o bench.o egtb.o dgt.o $(asm)
> >
> > includes = data.h chess.h
> >
> > epdincludes = epd.h epddefs.h epdglue.h
> >
> > eval_users = data.o evaluate.o preeval.o
> >
> > crafty: $(objects)
> > $(CC) $(LDFLAGS) -o crafty $(objects) -lm $(LIBS)
> > @rm -f X86-elf.S
> > @rm -f X86-aout.S
> >
> > dgt: dgtdrv.o
> > @cc -O -o dgt dgtdrv.c
> >
> > egtb.o: egtb.cpp
> > $(CPP) -c $(CFLAGS) $(opts) egtb.cpp
> > clean:
> > -rm -f *.o crafty X86-elf.X X86-aout.S
> >
> > $(objects): $(includes)
> >
> > $(eval_users): evaluate.h
> >
> > epd.o epdglue.o option.o init.o : $(epdincludes)
> >
> > c.o:
> > $(CC) $(CFLAGS) $(opts) -c $*.c
> >
> > s.o:
> > $(AS) $(AFLAGS) -o $*.o $*.s
> >
> > X86-aout.o:
> > sed -e 's/ALIGN/4/' X86.s > X86-aout.S
> > $(CC) -c X86-aout.S
> > @rm X86-aout.S
> >
> > X86-elf.o:
> > sed -e '/ _/s// /' -e '/^_/s///' -e 's/ALIGN/16/' X86.s > X86-elf.S
> > $(CC) -c X86-elf.S
> > @rm X86-elf.S
> >
> > What do I need to do now?
> > Where do I type make?
>
> cd C:\windows\desktop\Crafty
> make
>
>
> > C:/Djgpp/bin/make.exe?
> >
> > When you say bsh*.zip, which one are you taking about?
> > bsh203b, or bsh203s or bsh203d or all of them?
>
> bsh203b, may not be mandatory, but no harm in any case.
> you probably need also sed302b.zip (there are sed commands in this
> makefile)
>
> >
> > I'm running windows 95 if thats of help.
> > What do I do now?
> > I got all of those bsh*.zips I named above and extracted them etc..
>
> have you set
> set DJGPP=c:\djgpp\djgpp.env
> PATH=.\;C:\DJGPP\BIN;%PATH%
> A good place to put these lines is in a file setdjgpp.bat called from
> the property/program/batch file of a specialized dos box
>
>
>
> --
> Maurice Lombardi
> Laboratoire de Spectrometrie Physique,
> Universite Joseph Fourier de Grenoble, BP87
> 38402 Saint Martin d'Heres Cedex FRANCE
> Tel: 33 (0)4 76 51 47 51
> Fax: 33 (0)4 76 51 45 44
> mailto:Maurice DOT Lombardi AT ujf-grenoble DOT fr
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