v15i070: dmake version 3.6 (part 18/25)

Dennis Vadura dvadura at watdragon.waterloo.edu
Mon Oct 15 11:43:57 AEST 1990


Posting-number: Volume 15, Issue 70
Submitted-by: Dennis Vadura <dvadura at watdragon.waterloo.edu>
Archive-name: dmake-3.6/part18

#!/bin/sh
# this is part 18 of a multipart archive
# do not concatenate these parts, unpack them in order with /bin/sh
# file man/dmake.nc continued
#
CurArch=18
if test ! -r s2_seq_.tmp
then echo "Please unpack part 1 first!"
     exit 1; fi
( read Scheck
  if test "$Scheck" != $CurArch
  then echo "Please unpack part $Scheck next!"
       exit 1;
  else exit 0; fi
) < s2_seq_.tmp || exit 1
echo "x - Continuing file man/dmake.nc"
sed 's/^X//' << 'SHAR_EOF' >> man/dmake.nc
X     target file name with a trailing ,v attached to the previous
X     result.
X
X     dmake can also infer indirect prerequisites.  An inferred
X     target can have a list of prerequisites added that will not
X     show up in the value of $< but will show up in the value of
X     $? and $&.  Indirect prerequisites are specified in an
X     inference rule by quoting the prerequisite with single
X     quotes.  For example, if you had the explicit dependency:
X
X          fred.o : fred.c ; rule to make fred.o
X          fred.o : local.h
X
X     then this can be infered for fred.o from the following
X     inference rule:
X
X          %.o : %.c 'local.h' ; rule to make a .o from a .c
X
X     You may infer indirect prerequisites that are a function of
X
X
X
XVersion 3.50                    UW                             33
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
X     the value of '%' in the current rule.  The meta-rule:
X
X          %.o : %.c '$(INC)/%.h' ; rule to make a .o from a .c
X
X     infers an indirect prerequisite found in the INC directory
X     whose name is the same as the expansion of $(INC), and the
X     prerequisite name depends on the base name of the current
X     target.  The set of indirect prerequisites is attached to
X     the meta rule in which they are specified and are inferred
X     only if the rule is used to infer a recipe for a target.
X     They do not play an active role in driving the inference
X     algorithm.  The construct:
X
X          %.o : %.c %.f 'local.h'; recipe
X
X     is equivalent to:
X
X          %.o : %.c 'local.h' : recipe
X          %.o : %.f 'local.h' : recipe
X
X
X     If any of the attributes .SETDIR, .EPILOG, .PROLOG, .SILENT,
X     .USESHELL, .SWAP, .PRECIOUS, .LIBRARY, and .IGNORE are given
X     for a %-rule then when that rule is bound to a target as the
X     result of an inference, the target's set of attributes is
X     augmented by the attributes from the above set that are
X     specified in the bound %-rule.  Other attributes specified
X     for %-meta rules are not inherited by the target.  The .SET-
X     DIR attribute is treated in a special way.  If the target
X     already had a .SETDIR attribute set and the bound %-rule
X     also specified a .SETDIR attribute then the one originally
X     specified with the target prevails.  During inference any
X     .SETDIR attributes for the inferred prerequisite are
X     honored.  The directories must exist for a %-meta rule to be
X     selected as a possible inference path.  If the directories
X     do not exist no error message is issued, instead the
X     corresponding path in the inference graph is simply
X     rejected.
X
X     dmake also supports the old format special target
X     .<suffix>.<suffix> by identifying any rules of this form and
X     mapping them to the appropriate %-rule.  So for example if
X     an old makefile contains the construct:
X
X          .c.o :; cc -c $< -o $@
X
X     dmake maps this into the following %-rule:
X
X          %.o : %.c; cc -c $< -o $@
X
X     Furthermore, dmake understands several SYSV AUGMAKE special
X     targets and maps them into corresponding %-meta rules.
X
X
X
XVersion 3.50                    UW                             34
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
X     These transformation must be enabled by providing the -A
X     flag on the command line or by setting the value of AUGMAKE
X     to non NULL.  The construct
X
X          .suff :; recipe
X
X     gets mapped into:
X
X          % : %.suff; recipe
X
X     and the construct
X
X          .c~.o :; recipe
X
X     gets mapped into:
X
X          %.o : s.%.c ; recipe
X
X     In general, a special target of the form .<str>~ is replaced
X     by the %-rule construct s.%.<str>, thereby providing support
X     for the syntax used by SYSV AUGMAKE for providing SCCS sup-
X     port.  When enabled, these mappings allow processing of
X     existing SYSV makefiles without modifications.
X
X     dmake bases all of it's inferences on the inference graph
X     constructed from the %-rules defined in the makefile.  It
X     knows exactly which targets can be made from which prere-
X     quisites by making queries on the inference graph.  For this
X     reason .SUFFIXES is not needed and is completely ignored.
X
X     For a %-meta rule to be inferred as the rule whose recipe
X     will be used to make a target, the target's name must match
X     the %-target pattern, and any inferred %-prerequisite must
X     already exist or have an explicit recipe so that the prere-
X     quisite can be made.  Without transitive closure on the
X     inference graph the above rule describes precisely when an
X     inference match terminates the search.  If transitive clo-
X     sure is enabled (the usual case), and a prerequisite does
X     not exist or cannot be made, then dmake invokes the infer-
X     ence algorithm recursively on the prerequisite to see if
X     there is some way the prerequisite can be manufactured.  For
X     if the prerequisite can be made then the current target can
X     also be made using the current %-meta rule.  This means that
X     there is no longer a need to give a rule for making a .o
X     from a .y if you have already given a rule for making a .o
X     from a .c and a .c from a .y.  In such cases dmake can infer
X     how to make the .o from the .y via the intermediary .c and
X     will remove the .c when the .o is made.  Transitive closure
X     can be disabled by giving the -T switch on the command line.
X
X     A word of caution.  dmake bases its transitive closure on
X     the %-meta rule targets.  When it performs transitive
X
X
X
XVersion 3.50                    UW                             35
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
X     closure it infers how to make a target from a prerequisite
X     by performing a pattern match as if the potential prere-
X     quisite were a new target.  The set of rules:
X
X          %.o : %.c :; rule for making .o from .c
X          %.c : %.y :; rule for making .c from .y
X          % : RCS/%,v :; check out of RCS file
X
X     will, by performing transitive closure, allow dmake to infer
X     how to make a .o from a .y using a .c as an intermediate
X     temporary file.  Additionally it will be able to infer how
X     to make a .y from an RCS file, as long as that RCS file is
X     in the RCS directory and has a name which ends in .y,v.  The
X     transitivity computation is performed dynamically for each
X     target that does not have a recipe.  This has potential to
X     be very slow if the %-meta rules are not carefully speci-
X     fied.  The .NOINFER attribute is used to mark a %-meta node
X     as being a final target during inference.  Any node with
X     this attribute set will not be used for subsequent infer-
X     ences.  As an example the node RCS/%,v is marked as a final
X     node since we know that if the RCS file does not exist there
X     likely is no other way to make it.  Thus the standard
X     startup makefile contains the entry:
X          .NOINFER : RCS/%,v
X     Thereby indicating that the RCS file is the end of the
X     inference chain.
X
X     dmake tries to remove intermediate files resulting from
X     transitive closure if the file is not marked as being PRE-
X     CIOUS, or the -u flag was not given on the command line, and
X     if the inferred intermediate did not previously exist.
X     Intermediate targets that existed prior to being made are
X     never removed.  This is in keeping with the philosophy that
X     dmake should never remove things from the file system that
X     it did not add.  If the special target .REMOVE is defined
X     and has a recipe then dmake constructs a list of the inter-
X     mediate files to be removed and makes them prerequisites of
X     .REMOVE.  It then makes .REMOVE thereby removing the prere-
X     quisites if the recipe of .REMOVE says to.  Typically
X     .REMOVE is defined in the startup file as:
X
X          ".REMOVE :; $(RM) $<".
X
XMAKING TARGETS
X     In order to update a target dmake must execute a recipe.
X     When a recipe needs to be executed it is first expanded so
X     that any macros in the recipe text are expanded, and it is
X     then either executed directly or passed to a shell.  dmake
X     supports two types of recipes.  The regular recipes and
X     group recipes.
X
X
X
X
X
XVersion 3.50                    UW                             36
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
X     When a regular recipe is invoked dmake executes each line of
X     the recipe separately using a new copy of a shell if a shell
X     is required.  Thus effects of commands do not generally per-
X     sist across recipe lines.  (e.g. cd requests in a recipe
X     line do not carry over to the next recipe line) The decision
X     on whether a shell is required to execute a command is based
X     on the value of the macro SHELLMETAS or on the specification
X     of '+' or .USESHELL for the current recipe or target respec-
X     tively.  If any character in the value of SHELLMETAS is
X     found in the expanded recipe text-line or the use of a shell
X     is requested explicitly via '+' or .USESHELL then the com-
X     mand is executed using a shell, otherwise the command is
X     executed directly.  The shell that is used for execution is
X     given by the value of the macro SHELL.  The flags that are
X     passed to the shell are given by the value of SHELLFLAGS.
X     Thus dmake constructs the command line:
X
X          $(SHELL) $(SHELLFLAGS) $(expanded_recipe_command)
X
X     Normally dmake writes the command line that it is about to
X     invoke to standard output.  If the .SILENT attribute is set
X     for the target or for the recipe line (via @), then the
X     recipe line is not echoed.
X
X     Group recipe processing is similar to that of regular
X     recipes, except that a shell is always invoked.  The shell
X     that is invoked is given by the value of the macro GROUP-
X     SHELL, and its flags are taken from the value of the macro
X     GROUPFLAGS.  If a target has the .PROLOG attribute set then
X     dmake prepends to the shell script the recipe associated
X     with the special target .GROUPPROLOG, and if the attribute
X     .EPILOG is set as well, then the recipe associated with the
X     special target .GROUPEPILOG is appended to the script file.
X     This facility can be used to always prepend a common header
X     and common trailer to group recipes.  Group recipes are
X     echoed to standard output just like standard recipes, but
X     are enclosed by lines beginning with [ and ].
X
XMAKING LIBRARIES
X     Libraries are easy to maintain using dmake.  A library is a
X     file containing a collection of object files.  Thus to make
X     a library you simply specify it as a target with the
X     .LIBRARY attribute set and specify its list of prere-
X     quisites.  The prerequisites should be the object members
X     that are to go into the library.  When dmake makes the
X     library target it uses the .LIBRARY attribute to pass to the
X     prerequisites the .LIBMEMBER attribute and the name of the
X     library.  This enables the file binding mechanism to look
X     for the member in the library if an appropriate object file
X     cannot be found. A small example best illustrates this.
X
X          mylib.a .LIBRARY : mem1.o mem2.o mem3.o
X
X
X
XVersion 3.50                    UW                             37
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
X               rules for making library...
X               # remember to remove .o's when lib is made
X
X          # equivalent to:  '%.o : %.c ; ...'
X          .c.o :; rules for making .o from .c say
X
X     dmake will use the .c.o rule for making the library members
X     if appropriate .c files can be found using the search rules.
X     NOTE:  this is not specific in any way to C programs, they
X     are simply used as an example.
X
X     dmake tries to handle the old library construct format in a
X     sensible way.  The construct lib(member.o) is separated and
X     the lib portion is declared as a library target.  The new
X     target is defined with the .LIBRARY attribute set and the
X     member.o portion of the construct is declared as a prere-
X     quisite of the lib target.  If the construct lib(member.o)
X     appears as a prerequisite of a target in the makefile, that
X     target has the new name of the lib assigned as it's prere-
X     quisite.  Thus the following example:
X
X          a.out : ml.a(a.o) ml.a(b.o); $(CC) -o $@  $<
X
X          .c.o :; $(CC) -c $(CFLAGS) -o $@  $<
X          %.a:
X               ar rv $@ $<
X               ranlib $@
X               rm -rf $<
X
X     constructs the following dependency graph.
X
X          a.out : ml.a; $(CC) -o $@  $<
X          ml.a .LIBRARY : a.o b.o
X
X          %.o : %.c ; $(CC) -c $(CFLAGS) -o $@  $<
X          %.a :
X               ar rv $@ $<
X               ranlib $@
X               rm -rf $<
X
X     and making a.out then works as expected.
X
X     The same thing happens for any target of the form
X     lib((entry)).  These targets have an additional feature in
X     that the entry target has the .SYMBOL attribute set automat-
X     ically.
X
X     NOTE:  If the notion of entry points is supported by the
X     archive and by dmake (currently not the case) then dmake
X     will search the archive for the entry point and return not
X     only the modification time of the member which defines the
X     entry but also the name of the member file.  This name will
X
X
X
XVersion 3.50                    UW                             38
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
X     then replace entry and will be used for making the member
X     file.  Once bound to an archive member the .SYMBOL attribute
X     is removed from the target.  This feature is presently dis-
X     abled as there is little standardization among archive for-
X     mats, and we have yet to find a makefile utilizing this
X     feature (possibly due to the fact that it is unimplemented
X     in most versions of UNIX Make).
X
XMULTI PROCESSING
X     If the architecture supports it then dmake is capable of
X     making a target's prerequisites in parallel.  dmake will
X     make as much in parallel as it can and use a number of child
X     processes up to the maximum specified by MAXPROCESS or by
X     the value supplied to the -P command line flag.  A parallel
X     make is enabled by setting the value of MAXPROCESS (either
X     directly or via -P option) to a value which is > 1.  dmake
X     guarantees that all dependencies as specified in the
X     makefile are honored.  A target will not be made until all
X     of its prerequisites have been made.  If a parallel make is
X     being performed then the following restrictions on parallel-
X     ism are enforced.
X
X          1.   Individual recipe lines in a non-group recipe are
X               performed sequentially in the order in which they
X               are specified within the makefile and in parallel
X               with the recipes of other targets.
X
X          2.   If a target contains multiple recipe definitions
X               (cf. :: rules) then these are performed sequen-
X               tially in the order in which the :: rules are
X               specified within the makefile and in parallel with
X               the recipes of other targets.
X
X          3.   If a target rule contains the `!' modifier, then
X               the recipe is performed sequentially for the list
X               of outdated prerequisites and in parallel with the
X               recipes of other targets.
X
X          4.   If a target has the .SEQUENTIAL attribute set then
X               all of its prerequisites are made sequentially
X               relative to one another (as if MAXPROCESS=1), but
X               in parallel with other targets in the makefile.
X
X     Note:  If you specify a parallel make then the order of tar-
X     get update and the order in which the associated recipes are
X     invoked will not correspond to that displayed by the -n
X     flag.
X
XCONDITIONALS
X     dmake supports a makefile construct called a conditional.
X     It allows the user to conditionally select portions of
X     makefile text for input processing and to discard other
X
X
X
XVersion 3.50                    UW                             39
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
X     portions.  This becomes useful for writing makefiles that
X     are intended to function for more than one target host and
X     environment.  The conditional expression is specified as
X     follows:
X
X          .IF  expression
X             ... if text ...
X          .ELSE
X             ... else text ...
X          .END
X
X     The .ELSE portion is optional, and the conditionals may be
X     nested (ie.  the text may contain another conditional).
X     .IF, .ELSE, and .END may appear anywhere in the makefile,
X     but a single conditional expression may not span multiple
X     makefiles.
X
X     expression can be one of the following three forms:
X
X          <text> | <text> == <text> | <text> != <text>
X
X     where text is either text or a macro expression.  In any
X     case, before the comparison is made, the expression is
X     expanded.  The text portions are then selected and compared.
X     White space at the start and end of the text portion is dis-
X     carded before the comparison.  This means that a macro that
X     evaluates to nothing but white space is considered a NULL
X     value for the purpose of the comparison.  In the first case
X     the expression evaluates TRUE if the text is not NULL other-
X     wise it evaluates FALSE.  The remaining two cases both
X     evaluate the expression on the basis of a string comparison.
X     If a macro expression needs to be equated to a NULL string
X     then compare it to the value of the macro $(NULL).
X
XEXAMPLES
X          # A simple example showing how to use make
X          #
X          prgm : a.o b.o
X               cc a.o b.o -o prgm
X          a.o : a.c g.h
X               cc a.c -o $@
X          b.o : b.c g.h
X               cc b.c -o $@
X
X     In the previous example prgm is remade only if a.o and/or
X     b.o is out of date with respect to prgm.  These dependencies
X     can be stated more concisely by using the inference rules
X     defined in the standard startup file.  The default rule for
X     making .o's from .c's looks something like this:
X
X          %.o : %.c; cc -c $(CFLAGS) -o $@ $<
X
X
X
X
XVersion 3.50                    UW                             40
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
X     Since there exists a rule (defined in the startup file) for
X     making .o's from .c's dmake will use that rule for manufac-
X     turing a .o from a .c and we can specify our dependencies
X     more concisely.
X
X          prgm : a.o b.o
X               cc -o prgm $<
X          a.o b.o : g.h
X
X     A more general way to say the above using the new macro
X     expansions would be:
X
X          SRC = a b
X          OBJ = {$(SRC)}.o
X
X          prgm : $(OBJ)
X               cc -o $@ $<
X
X          $(OBJ) : g.h
X
X     If we want to keep the objects in a separate directory,
X     called objdir, then we would write something like this.
X
X          SRC = a b
X          OBJ = {$(SRC)}.o
X
X          prgm : $(OBJ)
X               cc $< -o $@
X
X          $(OBJ) : g.h
X          %.o : %.c
X               $(CC) -c $(CFLAGS) -o $(@:f) $<
X               mv $(@:f) objdir
X
X          .SOURCE.o : objdir       # tell make to look here for .o's
X
X     An example of building library members would go something
X     like this: (NOTE:  The same rules as above will be used to
X     produce .o's from .c's)
X
X          SRC  = a b
X          LIB  = lib
X          LIBm = { $(SRC) }.o
X
X          prgm: $(LIB)
X               cc -o $@ $(LIB)
X
X          $(LIB) .LIBRARY : $(LIBm)
X               ar rv $@ $<
X               rm $<
X
X     Finally, suppose that each of the source files in the
X
X
X
XVersion 3.50                    UW                             41
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
X     previous example had the `:' character in their target name.
X     Then we would write the above example as:
X
X          SRC  = f:a f:b
X          LIB  = lib
X          LIBm = "{ $(SRC) }.o"         # put quotes around each token
X
X          prgm: $(LIB)
X               cc -o $@ $(LIB)
X
X          $(LIB) .LIBRARY : $(LIBm)
X               ar rv $@ $<
X               rm $<
X
XCOMPATIBILITY
X     There are two notable differences between dmake and the
X     standard version of BSD UNIX 4.2/4.3 Make.
X
X          1. BSD UNIX 4.2/4.3 Make supports wild card filename
X             expansion for prerequisite names.  Thus if a direc-
X             tory contains a.h, b.h and c.h, then a line like
X
X                  target: *.h
X
X             will cause UNIX make to expand the *.h into "a.h b.h
X             c.h".  dmake does not support this type of filename
X             expansion.
X
X          2. Unlike UNIX make, touching a library member causes
X             dmake to search the library for the member name and
X             to update the library time stamp.  This is only
X             implemented in the UNIX version.  MSDOS and other
X             versions may not have librarians that keep file time
X             stamps, as a result dmake touches the library file
X             itself, and prints a warning.
X
X     dmake is not compatible with GNU Make.  In particular it
X     does not understand GNU Make's macro expansions that query
X     the file system.
X
X     dmake is fully compatible with SYSV AUGMAKE, and supports
X     the following AUGMAKE features:
X
X          1. The word include appearing at the start of a line
X             can be used instead of the ".INCLUDE :" construct
X             understood by dmake.
X
X          2. The macro modifier expression $(macro:str=sub) is
X             understood and is equivalent to the expression
X             $(macro:s/str/sub), with the restriction that str
X             must match the following regular expression:
X
X
X
X
XVersion 3.50                    UW                             42
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
X                  str[ |\t][ |\t]*
X
X             (ie. str only matches at the end of a token where
X             str is a suffix and is terminated by a space, a tab,
X             or end of line)
X
X          3. The macro % is defined to be $@ (ie. $% expands to
X             the same value as $@).
X
X          4. The AUGMAKE notion of libraries is handled
X             correctly.
X
X          5. When defining special targets for the inference
X             rules and the AUGMAKE special target mapping is
X             enabled then the special target .X is equivalent to
X             the %-rule "% : %.X".
X
XLIMITS
X     In some environments the length of an argument string is
X     restricted.  (e.g. MSDOS command line arguments cannot be
X     longer than 128 bytes if you are using the standard
X     command.com command interpreter as your shell, dmake text
X     diversions may help in these situations.)
X
XPORTABILITY
X     To write makefiles that can be moved from one environment to
X     another requires some forethought.  In particular you must
X     define as macros all those things that may be different in
X     the new environment.  dmake has two facilities that help to
X     support writing portable makefiles, recursive macros and
X     conditional expressions.  The recursive macros, allow one to
X     define environment configurations that allow different
X     environments for similar types of operating systems.  For
X     example the same make script can be used for SYSV and BSD
X     but with different macro definitions.
X
X     To write a makefile that is portable between UNIX and MSDOS
X     requires both features since in almost all cases you will
X     need to define new recipes for making targets.  The recipes
X     will probably be quite different since the capabilities of
X     the tools on each machine are different.  Different macros
X     will be needed to help handle the smaller differences in the
X     two environments.
X
X     NOTE:  Unlike UNIX, MSDOS does maintain cd requests cross
X     single recipe lines.  This is not portable, and your
X     makefiles will not work the same way if you depend on it.
X     Use the .IF ... .ELSE ... .END conditionals to supply dif-
X     ferent make scripts as necessary.
X
X
X
X
X
X
XVersion 3.50                    UW                             43
X
X
X
X
XDMAKE(p)               Unsupported Software               DMAKE(p)
X
X
X
XFILES
X     Makefile, makefile, startup.mk (use dmake -V to tell you
X     where the startup file is)
X
XSEE ALSO
X     sh(1), csh(1), touch(1), f77(1), pc(1), cc(1)
X     S.I. Feldman  Make - A Program for Maintaining Computer Pro-
X     grams
X
XAUTHOR
X     Dennis Vadura, CS Dept. University of Waterloo.
X     dvadura at watdragon.uwaterloo.ca
X     Many thanks to Carl Seger for his helpful suggestions, and
X     to Trevor John Thompson for his many excellent ideas and
X     informative bug reports.
X
XBUGS
X     Some system commands return non-zero status inappropriately.
X     Use -i (`-' within the makefile) to overcome the difficulty.
X
X     Some systems do not have easily accessible time stamps for
X     library members (MSDOS, AMIGA, etc) for these dmake uses the
X     time stamp of the library instead and prints a warning the
X     first time it does so.  This is almost always ok, except
X     when multiple makefiles update a single library file.  In
X     these instances it is possible to miss an update if one is
X     not careful.
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
XVersion 3.50                    UW                             44
SHAR_EOF
echo "File man/dmake.nc is complete"
chmod 0640 man/dmake.nc || echo "restore of man/dmake.nc fails"
echo "x - extracting makefile (Text)"
sed 's/^X//' << 'SHAR_EOF' > makefile &&
X# Default makefile for the various versions of dmake that we
X# have available.  This is a bootstrap version and uses /bin/sh to
X# execute a script which compiles dmake.
X#
X# Note the DOS commands actually invoke command.com to run the .bat file
X# to make the script.
X
Xall:
X	@echo "You must issue one of:"
X	@echo "   make bsd43         - Generic BSD 4.3"
X	@echo "   make bsd43uw       - Generic BSD 4.3 at U of Waterloo"
X	@echo "   make bsd43vf       - Generic BSD 4.3 that needs vfprintf"
X	@echo "   make sysvr3        - Generic SysV R3 UNIX"
X	@echo "   make sysvr1        - Generic SysV R1 UNIX"
X	@echo "   make 386ix         - 386/ix (SysV R3) [NOTE: not tested]"
X	@echo "   make dynix         - Sequent DYNIX system"
X	@echo "   make ultrix        - Ultrix 3.0 system"
X	@echo "   make mips          - Any MIPS box"
X	@echo "   make tcc           - DOS with tcc 2.0"
X	@echo "   make tccswp        - swapping DOS version with tcc 2.0"
X	@echo "   make msc           - DOS with MSC 4.0 to 5.1"
X	@echo "   make msc60         - DOS with MSC 6.0"
X	@echo "   make mscswp        - swapping DOS version with MSC 4.0 to 5.1"
X	@echo "   make msc60swp      - swapping DOS version with MSC 6.0"
X
Xbsd43uw :; /bin/sh -x < unix/bsd43/uw/make.sh
Xbsd43vf dynix mips        :; /bin/sh -x < unix/bsd43/vf/make.sh
Xsysvr1 sysvr3 bsd43 386ix :; /bin/sh -x < unix/$@/make.sh
Xultrix : sysvr3;
X
X# DOS with some form of make and sh
X# Note if you do not have a 'make and/or sh' program under MSDOS then
X# typing 'make' in the dmake distribution directory will invoke the make.bat
X# batch file which will issue the appropriate instructions.
Xtcc tccswp msc msc60 mscswp msc60swp:; make.bat $@
SHAR_EOF
chmod 0440 makefile || echo "restore of makefile fails"
echo "x - extracting makefile.mk (Text)"
sed 's/^X//' << 'SHAR_EOF' > makefile.mk &&
X# 			//// Makefile for DMAKE. \\\\
X# The target system is characterized by the following macros imported from
X# the environment.
X#
X#	OS	      - gives the class of operating system
X#	OSRELEASE     - optionally gives the particular release of the OS above.
X#	OSENVIRONMENT - optionally gives the environment under which the above
X#			OS is in use.
X#
X# Valid values for the above macros are:
X#
X#	OS            - unix, msdos
X#       OSRELEASE     - bsd43, sysvr3, 386ix
X#		      - tccdos, mscdos  (valid only of OS == msdos)
X#       OSENVIRONMENT - uw {valid for unix, bsd43 configuration only.}
X#			vf (valid for unix, bsd43 configuration only.)
X#
X# See the config.mk file in the relevant subdirectories for additional
X# comments describing when a setting is applicable.
X
X# First target in the makefile, do this so that targets declared in the
X# included files are never marked as being the first *default* target.
Xfirst : all ;
X
X# Pull in the configuration macros, from the environment.  OS is required,
X# OSRELEASE, and OSENVIRONMENT are optional.
X.IF $(OS) == $(NULL)
X   .IMPORT : OS
X.END
X.IMPORT .IGNORE : OSRELEASE OSENVIRONMENT TMPDIR
X
X# Define the source files
XSRC =\
X	infer.c make.c stat.c expand.c string.c hash.c dag.c dmake.c\
X	path.c imacs.c sysintf.c parse.c getinp.c quit.c\
X	basename.c dump.c macparse.c rulparse.c percent.c function.c
X
X# Common Include files.
XHDR = dmake.h extern.h struct.h vextern.h patchlvl.h version.h
X
X# Define the TARGET we are making, and where the OBJECT files go.
XOBJDIR := objects
XTARGET  = dmake$E
XCFLAGS += -DHELP -I. -Icommon
X
X# Pull in the proper configuration file, based on the value of OS.
X.INCLUDE : $(OS)/config.mk
X
X# Set the .SOURCE targets so that we look for things in the right place.
X.SOURCE.c :^ .NULL
X.SOURCE.h :^ .NULL
X.SOURCE$O :^ $(OBJDIR)
X.PRECIOUS : $(HDR)
X
X# Must come after the above INCLUDE so that it gets ALL objects.
XOBJECTS	:= {$(ASRC:b) $(SRC:b)}$O
X
X# The main target, make sure the objects directory exists first.
X# LDARGS is defined in config.mk file of each OS/OSRELEASE combination.
Xall : $(TARGET);
X$(TARGET) : $(OBJDIR)
X$(TARGET) : $(OBJECTS);$(LD) $(LDARGS)
X
X# Other obvious targets...
X$(OBJDIR):;+-mkdir $@
X
X# Meta rule for making .o's from .c's (give our own so we can move object
X# to objects directory in a portable, compiler independent way)
X%$O : %.c
X	%$(CC) -c $(CFLAGS) $<
X	mv $(@:f) $(OBJDIR)
X
X# remaining dependencies should be automatically generated
Xsysintf$O  : $(OS)/sysintf.h
X$(OBJECTS) : $(HDR)
X.SOURCE.h  : common
X
X# Define the macros for printing the source, and pull in the 
X# makefile portion.
XPRINTEXCLUDE = $(OBJDIR) $(OBJDIR).dbg test RCS control man common
X.INCLUDE : common/print.mk
X
Xclean:;+ $(RM) -rf dmake$E dbdmake$E objects*
X
X# Rules for making the manual pages.
Xman .SETDIR=man : dmake.nc ;
Xdmake.nc : dmake.p ; scriptfix < $< > $@
Xdmake.p  : dmake.tf; typeset -man -Tdumb $< > $@
X
X#--------------------------------------------------------------------------
X# Make the various archives for shipping the thing around.
X#
Xarchives : zoo tar shar;
Xzoo   : dmake.zoo ;
Xshar  : dmake.shar;
Xtar   : dmake.tar;
Xunzoo : dmake.zoo ; zoo xO// dmake.zoo
Xdmake.zoo  .SILENT: src-list
X[
X	echo "" >> $<
X	echo -n '$@ : $$(ALLSRC);@ zoo aI $$@ < ' >> $<
X        echo -n '<' >> $<
X        echo -n '+' >> $<
X        echo -n '$$(ALLSRC:t"\n")\n' >> $<
X        echo -n '+' >> $<
X        echo '>' >> $<
X	$(MAKECMD) -f $< $@
X	$(RM) -f $<
X]
X
Xdmake.shar .SILENT : src-list-shar
X[
X	echo '$@:$$(ALLSRC) ;xshar -vc -o$@ -l40 $$(ALLSRC)' >> $<
X	$(MAKECMD) -f $< $@
X	$(RM) -f $<
X]
X
Xdmake.tar : src-list
X[
X	echo '$@ .SILENT :$$(ALLSRC) ;tar -cf $@ $$(ALLSRC)' >> $<
X	$(MAKECMD) -f $< $@
X	mkdir dmake
X	cd dmake
X	tar xf ../$@; chmod -R u+rw .
X	cd ..
X	tar cf $@ dmake
X	$(RM) -rf $< dmake
X]
X
Xsrc-list .SILENT: clean man
X	echo 'ALLSRC = \' >$@
X	find . -type f -print |\
X	sed -e 's/RCS\///' -e 's/,v//' -e 's/$$/\\/' -e 's/^\.\// /'|\
X	sort -u |\
X	grep -v tst | grep -v $@ | grep -v LICENSE |\
X	grep -v '\.zoo' | grep -v '\.tar'| grep -v '\.shar' >> $@
X	echo ' LICENSE' >> $@
X
Xsrc-list-shar .SILENT: clean man
X	echo 'ALLSRC = \' >$@
X	find . -print |\
X	sed -e 's/RCS\///' -e 's/,v//' -e 's/$$/\\/' -e 's/^\.\// /'|\
X	sort -ur |\
X	grep -v tst | grep -v $@ | grep -v LICENSE | grep -v RCS |\
X	grep -v '^\.\\$$' | grep -v '\.zoo' | grep -v '\.tar'|\
X	grep -v '\.shar' >> $@
X	echo ' LICENSE' >> $@
X
X
X#--------------------------------------------------------------------------
X# This section can be used to make the necessary script files so that dmake
X# can be bootstrapped.
X#
X#	dmake scripts	-- makes all the script files at once.
X#
XSH = $(@:s/swp-/-/:s,-,/,:s/scripts/${SCRIPTFILE}/:s/c60d/cd/)
XMS = MAKESTARTUP=$(@:s/swp-/-/:s,-,/,:s/scripts/startup.mk/:s/c60d/cd/)
X
Xscripts: unix-scripts msdos-scripts
X
X# To add a new environment for UNIX, simply create the appropriate entry
X# in the style below for the macro which contains the OS, OSRELEASE and
X# OSENVIRONMENT flags.  Then add the entry as a recipe line for the target
X# unix-scripts.
X#
Xunix-bsd43-scripts-flags   = OS=unix OSRELEASE=bsd43  OSENVIRONMENT=
Xunix-sysvr3-scripts-flags  = OS=unix OSRELEASE=sysvr3 OSENVIRONMENT=
Xunix-sysvr1-scripts-flags  = OS=unix OSRELEASE=sysvr1 OSENVIRONMENT=
Xunix-386ix-scripts-flags   = OS=unix OSRELEASE=386ix  OSENVIRONMENT=
Xunix-bsd43-uw-scripts-flags= OS=unix OSRELEASE=bsd43  OSENVIRONMENT=uw
Xunix-bsd43-vf-scripts-flags= OS=unix OSRELEASE=bsd43  OSENVIRONMENT=vf
X
Xunix-scripts: clean
X	$(MAKE) SCRIPTFILE=make.sh unix-bsd43-scripts
X	$(MAKE) SCRIPTFILE=make.sh unix-bsd43-uw-scripts
X	$(MAKE) SCRIPTFILE=make.sh unix-bsd43-vf-scripts
X	$(MAKE) SCRIPTFILE=make.sh unix-sysvr3-scripts
X	$(MAKE) SCRIPTFILE=make.sh unix-sysvr1-scripts
X	$(MAKE) SCRIPTFILE=make.sh unix-386ix-scripts
X
Xunix-%-scripts:; $(MAKECMD) -ns $(MS) $($@-flags) >$(SH)
X
X# We make the standard dos scripts here, but we have to go and fix up the
X# make.bat file since it contains names of temporary files for the response
X# files required by the linker.  We need to also construct the response file
X# contents.  These two functions are performed by the fix-msdos-%-scripts
X# meta-target.
X#
X# To add a new DOS environment just do what is described for adding a new
X# unix environment, and then make certain that the fix-msdos-%-scripts target
X# performs the correct function for the new environment.
Xmsdos-cf = OS=msdos OSENVIRONMENT=
Xmsdos-tccdos-scripts-flags = $(msdos-cf) OSRELEASE=tccdos NOSWAP=y
Xmsdos-tccdosswp-scripts-flags = $(msdos-cf) OSRELEASE=tccdos
Xmsdos-mscdos-scripts-flags = $(msdos-cf) OSRELEASE=mscdos NOSWAP=y
Xmsdos-msc60dos-scripts-flags= $(msdos-cf) OSRELEASE=mscdos NOSWAP=y MSC_VER=6.0
Xmsdos-mscdosswp-scripts-flags = $(msdos-cf) OSRELEASE=mscdos
Xmsdos-msc60dosswp-scripts-flags = $(msdos-cf) OSRELEASE=mscdos MSC_VER=6.0
X
Xmsdos-scripts: clean
X	$(MAKE) SCRIPTFILE=mk.bat msdos-tccdos-scripts
X	$(MAKE) SCRIPTFILE=mkswp.bat msdos-tccdosswp-scripts
X	$(MAKE) SCRIPTFILE=mk.bat msdos-mscdos-scripts
X	$(MAKE) SCRIPTFILE=mk60.bat msdos-msc60dos-scripts
X	$(MAKE) SCRIPTFILE=mkswp.bat msdos-mscdosswp-scripts
X	$(MAKE) SCRIPTFILE=mk60swp.bat msdos-msc60dosswp-scripts
X
Xmsdos-%-scripts:
X	$(MAKE) -nus $(MS) $($@-flags) >$(SH)
X	$(MAKE) -s $(MAKEMACROS) $(MS) $($@-flags) fix-msdos-$*-scripts
X
XMAPOBJ = $(*:s/tccdos/obj/:s/mscdos/obj/:s/msc60dos/obj60/).rsp
XMAPLIB = $(*:s/tccdos/lib/:s/mscdos/lib/:s/msc60dos/lib60/).rsp
XOBJRSP = $(SH:s,fix/,,:s,${SCRIPTFILE},${MAPOBJ},)
XLIBRSP = $(SH:s,fix/,,:s,${SCRIPTFILE},${MAPLIB},)
XDOSOBJ = $(CSTARTUP) $(OBJDIR)/{$(OBJECTS)}
Xfix-msdos-%-scripts:
X	sed -e 's,/tmp/mkA..[0-9]*,$(OBJRSP),'\
X	    -e 's,/tmp/mkB..[0-9]*,$(LIBRSP),'\
X	    -e 's,/,\\,g' <$(SH:s,fix/,,) >tmp-out
X	mv -f tmp-out $(SH:s,fix/,,)
X	mv <+$(DOSOBJ:s,/,\\,:t"+\n")\n+> $(OBJRSP)
X	mv <+$(LDLIBS:s,/,\\,:t"+\n")\n+> $(LIBRSP)
SHAR_EOF
chmod 0640 makefile.mk || echo "restore of makefile.mk fails"
echo "x - extracting make.c (Text)"
sed 's/^X//' << 'SHAR_EOF' > make.c &&
X/* RCS      -- $Header: /u2/dvadura/src/generic/dmake/src/RCS/make.c,v 1.1 90/10/06 12:03:59 dvadura Exp $
X-- SYNOPSIS -- perform the update of all outdated targets.
X-- 
X-- DESCRIPTION
X--	This is where we traverse the make graph looking for targets that
X--	are out of date, and we try to infer how to make them if we can.
X--	The usual make macros are understood, as well as some new ones:
X--
X--		$$	- expands to $
X--		$@      - full target name
X--		$*      - target name with no suffix, same as $(@:db)
X--			  or, the value of % in % meta rule recipes
X--		$?      - list of out of date prerequisites
X--		$<      - all prerequisites associated with rules line
X--		$&	- all prerequisites associated with target
X--		$>      - library name for target (if any)
X--		$^	- out of date prerequisites taken from value of $<
X--		{{	- expands to {
X--		}}	- expands to }
X--		\#	- expands to #
X-- 
X-- AUTHOR
X--      Dennis Vadura, dvadura at watdragon.uwaterloo.ca
X--      CS DEPT, University of Waterloo, Waterloo, Ont., Canada
X--
X-- COPYRIGHT
X--      Copyright (c) 1990 by Dennis Vadura.  All rights reserved.
X-- 
X--      This program is free software; you can redistribute it and/or
X--      modify it under the terms of the GNU General Public License
X--      (version 1), as published by the Free Software Foundation, and
X--      found in the file 'LICENSE' included with this distribution.
X-- 
X--      This program is distributed in the hope that it will be useful,
X--      but WITHOUT ANY WARRANTY; without even the implied warrant of
X--      MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
X--      GNU General Public License for more details.
X-- 
X--      You should have received a copy of the GNU General Public License
X--      along with this program;  if not, write to the Free Software
X--      Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
X--
X-- LOG
X--     $Log:	make.c,v $
X * Revision 1.1  90/10/06  12:03:59  dvadura
X * dmake Release, Version 3.6
X * 
X*/
X
X#include "extern.h"
X#include "alloc.h"
X#include "db.h"
X
Xstatic	int	_exec_commands ANSI((CELLPTR, HOWPTR));
Xstatic	void	_drop_mac ANSI((HASHPTR));
Xstatic	void	_print_cmnd ANSI((char*, int, int));
Xstatic	void	_set_recipe ANSI((char*, int));
Xstatic	void	_set_tmd ANSI(());
Xstatic	void	_append_file ANSI((STRINGPTR, FILE*, char*, int));
X
X#define RP_GPPROLOG	0
X#define RP_RECIPE	1
X#define RP_GPEPILOG	2
X#define NUM_RECIPES	3
X
Xstatic STRINGPTR _recipes[ NUM_RECIPES ];
Xstatic CELLPTR	 Root;		/* root cell for make graph */
X
X
X
Xint
XMake_targets()/*
X================
X   Actually go and make the targets on the target list */
X{
X   LINKPTR	    lp;
X   int		    done = 0;
X
X   DB_ENTER( "Make_targets" );
X
X   /* Make sure the graph gets blown up for .SETDIR targets.
X    * Only required for architectures that support parallel  
X    * makes. */
SHAR_EOF
echo "End of part 18"
echo "File make.c is continued in part 19"
echo "19" > s2_seq_.tmp
exit 0



More information about the Comp.sources.misc mailing list