kolibrios-fun/programs/fs/unzip60/msdos/makefile.msc
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2016-11-18 13:40:05 +00:00

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#------------------------------------------------------------------------------
# Makefile for UnZip 5.53 and later Greg Roelofs and others
# Version: Microsoft C (5.x and later) 29 Dec 05
#------------------------------------------------------------------------------
# Users of MSC 6/7 and NMAKE can use the Unix Makefile (target msc_dos),
# if desired. This makefile works just fine, too, however. OS/2 users
# can cross-compile using os2/makefile.os2 (target mscdos). Note that
# there is possibly a bug in MSC 6 which screws up funzip (goes into
# infinite loop? --this has not been confirmed in over a year...). There
# is definitely a bug (internal compiler error) in MSC 6.00 while com-
# piling explode.c (fixed in 6.0a, 6.0ax, 6.0ax2, 7.*, 8.*).
# GNU make doesn't like the return value from "rem"
#STRIP=rem
STRIP=echo Ignore this line.
# If you don't have UPX, LZEXE, or PKLITE, get one of them. Then define:
# (NOTE: upx needs a 386 or higher system to run the exe compressor)
#STRIP=upx --8086 --best
# or
#STRIP=lzexe
# or
#STRIP=pklite
# and remove /e from LDFLAGS.
# This makes a big difference in .exe size (and possibly load time).
# Optional nonstandard preprocessor flags (as -DCHECK_EOF or -DDOS_WILD)
# should be added to the environment via "set LOCAL_UNZIP=-DFOO" or added
# to the declaration of LOC here:
LOC = $(LOCAL_UNZIP)
# Type for CPU required: 0: 8086, 1: 80186, 2: 80286, 3: 80386, etc.
CPU_TYP = 0
#UNMODEL=M # medium model for UnZip
# with MSC 5.1, 6.0 and 8.x, small model exceeds 64k code segment; use medium
# deflate64 support requires large or compact model
UNMODEL=L # large model for UnZip with Deflate64 support
FUMODEL=C # compact model for fUnZip (Deflate64 support enabled)
SXMODEL=S # small model for UnZipSFX (without Deflate64 support)
# name of Flag to select memory model for assembler compiles, supported
# values are __SMALL__ , __MEDIUM__ , __COMPACT__ , __LARGE__ :
# for MSC 5.1 and 8.x use:
ASUNMODEL=__LARGE__ # keep in sync with UNMODEL definition !!
ASFUMODEL=__COMPACT__ # keep in sync with FUMODEL definition !!
ASSXMODEL=__SMALL__ # keep in sync with SXMODEL definition !!
# Uncomment the following three macros to use the optimized CRC32 assembler
# routine in UnZip and UnZipSFX:
ASMFLG = -DASM_CRC
ASMOBJS = crc_i86.obj
ASMOBJF = crc_i86_.obj
ASMOBJX = crc_i86x.obj
ASCPUFLAG = __$(CPU_TYP)86
CC = cl
# add -G2(3,4) for 286 (386, 486) and/or -FPi87 for 80x87:
CC_GENFLAGS = -nologo -DMSC $(ASMFLG) $(LOC) -I. -G$(CPU_TYP)
CC_SPEEDOPT = -Oait -Gs # -Ox does not work for inflate.c
CC_SIZEOPT = -Oas -Gs
CFLAGS_UN = -A$(UNMODEL) $(CC_GENFLAGS) $(CC_SPEEDOPT)
CFLAGS_FU = -A$(FUMODEL) $(CC_GENFLAGS) $(CC_SPEEDOPT) -DFUNZIP
CFLAGS_SX = -A$(SXMODEL) $(CC_GENFLAGS) $(CC_SIZEOPT) -DSFX
AS = masm
ASFLAGS = -ml -D$(ASCPUFLAG) $(LOC)
LD = Link # mixed case to disable special handling by GNU Make
# remove /e if you have LZEXE or PKLITE:
LDFLAGS = /nologo/noi/e/st:0x0c00/farcall/packcode
# "/farcall/packcode" are only useful for `large code' memory models
# but should be a "no-op" for small code models.
LDFLAGS2 = ,$*
LDFLAGS2_UN = $(LDFLAGS2);
LDFLAGS2_FU = $(LDFLAGS2);
LDFLAGS2_SX = $(LDFLAGS2);
OBJS1 = unzip.obj crc32.obj crypt.obj envargs.obj explode.obj
OBJS2 = extract.obj fileio.obj globals.obj inflate.obj list.obj match.obj
OBJS3 = process.obj ttyio.obj unreduce.obj unshrink.obj zipinfo.obj
OBJS4 = msdos.obj $(ASMOBJS)
OBJS = $(OBJS1) $(OBJS2) $(OBJS3) $(OBJS4)
OBJX1 = unzipsfx.obj crc32x.obj cryptx.obj extractx.obj fileiox.obj
OBJX2 = globalsx.obj inflatex.obj matchx.obj processx.obj ttyiox.obj
OBJX3 = msdosx.obj $(ASMOBJX)
OBJX = $(OBJX1) $(OBJX2) $(OBJX3)
OBJF = funzip.obj crc32_.obj crypt_.obj globals_.obj inflate_.obj ttyio_.obj \
msdos_.obj $(ASMOBJF)
UNZIP_H = unzip.h unzpriv.h globals.h msdos/doscfg.h
default: unzip.exe funzip.exe unzipsfx.exe
#clean:
# As long as the brain damaged old ``Make'' utility from MSC 5.1 and earlier
# (NMAKE from MSC 6.0 + would work !) remains supported, a "clean" target
# cannot be inserted !!
# pattern rules for implicit dependencies:
.asm.obj:
$(AS) $(ASFLAGS) -D$(ASUNMODEL) $<, $@;
.c.obj:
$(CC) -c $(CFLAGS_UN) $*.c
# individual dependencies and action rules:
crc_i86.obj: msdos/crc_i86.asm
$(AS) $(ASFLAGS) -D$(ASUNMODEL) msdos/crc_i86.asm, $@;
crc_i86_.obj: msdos/crc_i86.asm
$(AS) $(ASFLAGS) -D$(ASFUMODEL) msdos/crc_i86.asm, $@;
crc_i86x.obj: msdos/crc_i86.asm
$(AS) $(ASFLAGS) -D$(ASSXMODEL) msdos/crc_i86.asm, $@;
crc32.obj: crc32.c $(UNZIP_H) zip.h crc32.h
crc32_.obj: crc32.c $(UNZIP_H) zip.h crc32.h
$(CC) -c $(CFLAGS_FU) -Focrc32_.obj crc32.c
crc32x.obj: crc32.c $(UNZIP_H) zip.h crc32.h
$(CC) -c $(CFLAGS_SX) -Focrc32x.obj crc32.c
crypt.obj: crypt.c $(UNZIP_H) crypt.h crc32.h ttyio.h zip.h
crypt_.obj: crypt.c $(UNZIP_H) crypt.h crc32.h ttyio.h zip.h
$(CC) -c $(CFLAGS_FU) -Focrypt_.obj crypt.c
cryptx.obj: crypt.c $(UNZIP_H) crypt.h crc32.h ttyio.h zip.h
$(CC) -c $(CFLAGS_SX) -Focryptx.obj crypt.c
envargs.obj: envargs.c $(UNZIP_H)
explode.obj: explode.c $(UNZIP_H)
extract.obj: extract.c $(UNZIP_H) crc32.h crypt.h
extractx.obj: extract.c $(UNZIP_H) crc32.h crypt.h
$(CC) -c $(CFLAGS_SX) -Foextractx.obj extract.c
fileio.obj: fileio.c $(UNZIP_H) crc32.h crypt.h ttyio.h ebcdic.h
fileiox.obj: fileio.c $(UNZIP_H) crc32.h crypt.h ttyio.h ebcdic.h
$(CC) -c $(CFLAGS_SX) -Fofileiox.obj fileio.c
funzip.obj: funzip.c $(UNZIP_H) crc32.h crypt.h ttyio.h
$(CC) -c $(CFLAGS_FU) funzip.c
globals.obj: globals.c $(UNZIP_H)
globals_.obj: globals.c $(UNZIP_H)
$(CC) -c $(CFLAGS_FU) -Foglobals_.obj globals.c
globalsx.obj: globals.c $(UNZIP_H)
$(CC) -c $(CFLAGS_SX) -Foglobalsx.obj globals.c
inflate.obj: inflate.c inflate.h $(UNZIP_H)
inflate_.obj: inflate.c inflate.h $(UNZIP_H) crypt.h
$(CC) -c $(CFLAGS_FU) -Foinflate_.obj inflate.c
inflatex.obj: inflate.c inflate.h $(UNZIP_H) crypt.h
$(CC) -c $(CFLAGS_SX) -Foinflatex.obj inflate.c
list.obj: list.c $(UNZIP_H)
match.obj: match.c $(UNZIP_H)
matchx.obj: match.c $(UNZIP_H)
$(CC) -c $(CFLAGS_SX) -Fomatchx.obj match.c
msdos.obj: msdos/msdos.c $(UNZIP_H)
$(CC) -c $(CFLAGS_UN) msdos/msdos.c
msdos_.obj: msdos/msdos.c $(UNZIP_H)
$(CC) -c $(CFLAGS_FU) -Fomsdos_.obj msdos/msdos.c
msdosx.obj: msdos/msdos.c $(UNZIP_H)
$(CC) -c $(CFLAGS_SX) -Fomsdosx.obj msdos/msdos.c
process.obj: process.c $(UNZIP_H) crc32.h
processx.obj: process.c $(UNZIP_H) crc32.h
$(CC) -c $(CFLAGS_SX) -Foprocessx.obj process.c
ttyio.obj: ttyio.c $(UNZIP_H) crypt.h ttyio.h zip.h
ttyio_.obj: ttyio.c $(UNZIP_H) crypt.h ttyio.h zip.h
$(CC) -c $(CFLAGS_FU) -Fottyio_.obj ttyio.c
ttyiox.obj: ttyio.c $(UNZIP_H) crypt.h ttyio.h zip.h
$(CC) -c $(CFLAGS_SX) -Fottyiox.obj ttyio.c
unreduce.obj: unreduce.c $(UNZIP_H)
unshrink.obj: unshrink.c $(UNZIP_H)
unzip.obj: unzip.c $(UNZIP_H) crypt.h unzvers.h consts.h
unzipsfx.obj: unzip.c $(UNZIP_H) crypt.h unzvers.h consts.h
$(CC) -c $(CFLAGS_SX) -Founzipsfx.obj unzip.c
zipinfo.obj: zipinfo.c $(UNZIP_H)
# MS make:
# -------
unzip.exe: $(OBJS)
echo $(OBJS1)+ > unzip.rsp
echo $(OBJS2)+ >> unzip.rsp
echo $(OBJS3)+ >> unzip.rsp
echo $(OBJS4) >> unzip.rsp
echo $(LDFLAGS2_UN) >> unzip.rsp
$(LD) $(LDFLAGS) @unzip.rsp
del unzip.rsp
$(STRIP) unzip.exe
unzipsfx.exe: $(OBJX)
echo $(OBJX1)+ > unzipsfx.rsp
echo $(OBJX2)+ >> unzipsfx.rsp
echo $(OBJX3) >> unzipsfx.rsp
echo $(LDFLAGS2_UN) >> unzipsfx.rsp
$(LD) $(LDFLAGS) @unzipsfx.rsp
del unzipsfx.rsp
$(STRIP) unzipsfx.exe
funzip.exe: $(OBJF)
echo $(OBJF) > funzip.rsp
echo $(LDFLAGS2_FU) >> funzip.rsp
$(LD) $(LDFLAGS) @funzip.rsp
del funzip.rsp
$(STRIP) funzip.exe
# better makes which know how to deal with 128-char limit on command line:
# -----------------------------------------------------------------------
#unzip.exe: $(OBJS)
# $(LD) $(LDFLAGS) $(OBJS) $(LDFLAGS2)
# $(STRIP) unzip.exe
#
#unzipsfx.exe: $(OBJX)
# $(LD) $(LDFLAGS) $(OBJX) $(LDFLAGS2)
# $(STRIP) unzipsfx.exe
#
#funzip.exe: $(OBJF)
# $(LD) $(LDFLAGS) $(OBJF) $(LDFLAGS2_FU)
# $(STRIP) funzip.exe