%% Oh Emacs, this is a -*- Makefile -*-, so give me tabs. \documentclass{article} \usepackage{axiom} \title{\File{src/interp/Makefile} Pamphlet} \author{Timothy Daly \and Gabriel Dos~Reis} \begin{document} \maketitle \begin{abstract} \end{abstract} \tableofcontents \eject \begin{verbatim} notes for understanding this makefile: re: postpar.clisp and parse.clisp stanzas: NOTE: the .clisp file is copies back into the src directory so that it is possible to create a new obootsys system from scratch for a new platform. parse.clisp needs to be compiled in a depsys. one thing need to be done to create an obootsys by hand: parse and postpar must be loaded along with the depsys files into a bare lisp system. if these two things are done then a obootsys image can be bootstrapped to a new platform. IMPORTANT: all source file names in this Makefile must be lowercase This is for cross-platform compatibility and also makes getting them into Lisp much easier at the Makefile level. \end{verbatim} \section{The Environment} We define 3 directories for this build. The first two are the traditional {\bf IN}, which is where the source pamphlets are, and {\bf OUT} which is where we will put the binaries. In this case the {\bf IN} files are usually written in Boot \cite{2}. These will be compiled in a \Tool{bootsys} image to translate from Boot to Common Lisp. \subsection{Documentation} The dvi files will be generated from the pamphlet files in the final ship \File{doc/src/} directory. Since they are system independent but machine generated and part of the final ship they will exist in the [[\$(axiom_target_docdir)/src/interp/]] directory. <>= IN=$(srcdir) DOC=$(axiom_target_docdir)/src/interp BOOK=$(axiom_target_docdir) # Command to translate Boot to Common Lisp BOOT_TO_LISP = $(BOOTSYS) -- --translate --output=$@ $< # Command to translate Common Lisp to native object code COMPILE_LISP = $(DEPSYS) -- --compile --output=$@ $< @ \subsection{Autloload} In order to minimize the size of the OpenAxiom image at load time we put some of the compiled files into a separate directory that will be autoloaded on demand. This directory of code will be shipped with the final system and so it belongs in the [[$(axiom_targetdir)]] subtree. <>= AUTO=$(axiom_targetdir)/autoload autoload_objects = @ \subsection{Initial Lisp image} We need a raw Lisp image --- running on the build platform --- that we can use as a base to construct the other images. This is called {\bf LISPSYS} and is located in the build platform sub-directory. <>= # Build platform-dependent Lisp image, at the base of other # derived Lisp images (depsys, interpsys, AXIOMsys) LISPSYS= $(axiom_build_bindir)/lisp @ \subsection{Boot translator} Most of the interpreter is written in the Boot programming language. Thus we need a program to translate Boot to Common Lisp. That program is called the {\bf BOOTSYS} image (because the translator is written in {\bf boot} and needs to translate itself to bootstrap the system). This image is assumed to have been built (on the build platform) by a previous step in the make process. <>= BOOTSYS= $(axiom_build_bindir)/bootsys @ Note also that another translator (built into [[depsys]]) translates a variant og Boot (called ``old Boot'') to Common Lisp. \subsection{The old Boot translator} <>= DEPSYS = ./depsys @ Some of the Common Lisp code we compile uses macros which are assumed to be available at compile time. The [[DEPSYS]] image is created to contain the compile time environment and saved. Furthermore, it is also used to translate codes written in ``old Boot'' to Common Lisp. That translator is in the process of being phased out in favor of the ``new Boot'' translator found in \File{src/boot/}. \subsubsection{Structure of [[depsys]]} The [[depsys]] image is made of the following Lisp source files \begin{description} \item[Interpreted Lisp source files] The following files are currently part of [[depsys]] in interpreted form. The exact reasons for that are not well articulated. \begin{description} \item[\File{nocompil.lisp}] This file defines obscure functions that seem to be there only for obscure reasons. Most of them are not really needed for translating Boot codes. \item[\File{bookvol5.lisp}] This file defines functions for the Spad interpreter. None of which seems relevant for translating Boot codes to Common Lisp. \item[\File{util.lisp}] This file defines various ``system-level'' helper functions, for building [[depsys]], [[interpsys]], etc. \item[\File{vmlisp.lisp}] This is a collection of various utility functions, encapsulations of variabilities of Lisp implementations. All those symbols are defined in the package [[VMLISP]]. It needs some strip down, and possibly have its contents moved to the package [[BOOT]]. \item[\File{ggreater.lisp}] This file defines various orderings on collections and other aggregates. Its content is defined in the package [[VMLISP]]. \item[\File{hash.lisp}] This file defines a ``hash table'' module. Its content is defined in package [[VMLISP]]. \item[\File{union.lisp}] This file defines functions that compute set-theoretic operations (union, difference, intersection, etc.). Its content is in package [[VMLISP]]. \item[\File{nlib.lisp}] This file defines to work around problems with GCL when compiling Spad files. It is not necessary for translating Boot codes to Common Lisp. Its content is in package [[VMLISP]]. \item[\File{macros.lisp}] This file collects various helper macros and functions for Boot and Spad codes. \item[\File{comp.lisp}] This file defines several functions that desugar Boot and Spad codes; in particular, they infer local variables from their position in assignment expressions. Its content is defined in package [[BOOT]]. \item[\File{spaderror.lisp}] This file defines error handling functions that are useful only for Spad codes -- not for translating Boot codes. Its content is defined in package [[BOOT]]. \item[\File{debug.lisp}] This file defines debug utilities for essentially Spad codes. Its content is defined in package [[BOOT]]. \item[\File{spad.lisp}] This files defines the entry points for processing Spad and Boot codes. Its content is defined in package [[BOOT]]. \item[\File{bits.lisp}] This file implements a ``bit vector'' data type. Its content is in package [[BOOT]]. \item[\File{setq.lisp}] This file defines several global variables. Its content is defined in package [[BOOT]]. \item[\File{property.lisp}] This file defines properties of Spad and Boot tokens, as well as several constructors. Its content is defined in package [[BOOT]]. \item[\File{unlisp.lisp}] This file attempts to define interfaces to the Operating System, that are not found in strict ANSI Common Lisp (though they may be present as extensions with varying spellings.). Its content is defined in package [[BOOT]]. \item[\File{foam\_l.lisp}] This file defines the FOAM functions. The packages [[FOAM]] and [[FOAM-USER]] are defined here. It is not needed for translating Boot codes to Common Lisp. \item[\File{axext\_l.lisp}] This file defines various macros and functions for interoperability between Aldor and OpenAxiom. Not needed for translating Boot codes to Common Lisp. \end{description} \item[Compiled Lisp source files] \begin{description} \item[\File{parsing.lisp}] \item[\File{metalex.lisp}] \item[\File{bootlex.lisp}] \item[\File{newaux.lisp}] \item[\File{preparse.lisp}] \item[\File{postprop.lisp}] \item[\File{def.lisp}] \item[\File{fnewmeta.lisp}] \end{description} \item[Compiled Boot source files] \begin{description} \item[\File{postpar.boot}] \item[\File{parse.boot}] \item[\File{clam.boot}] \item[\File{slam.boot}] \item[\File{g-boot.boot}] \item[\File{c-util.boot}] \item[\File{g-util.boot}] \end{description} \end{description} The {\bf DEP} variable contains the list of files that will be loaded into {\bf DEPSYS}. Notice that these files are loaded in interpreted form. We are not concerned about the compile time performance so we can use interpreted code. We do, however, care about the macros as these will be expanded in later compiles. All macros are assumed to be in this list of files. <>= DEP= $(srcdir)/spaderror.lisp $(srcdir)/debug.lisp \ $(srcdir)/spad.lisp \ $(srcdir)/setq.lisp $(srcdir)/property.lisp \ $(srcdir)/unlisp.lisp $(srcdir)/foam_l.lisp \ $(srcdir)/axext_l.lisp @ Once we've compile all of the Common Lisp files we fire up a clean lisp image called {\bf LOADSYS} (from the build platform), load all of the final executable code and save it out as {\bf SAVESYS}. This image is used to bootstrap the Algebra files and generate the databases. The {\bf SAVESYS} image is copied to the [[$(axiom_target_bindir)]] subdirectory and becomes the axiom executable image. Technically, that is not right because the host plaform may not be the same as the build platform. However, we don't yet support cross compilation, so that is alright for the time being. <>= LOADSYS= $(axiom_build_bindir)/lisp$(EXEEXT) SAVESYS= interpsys$(EXEEXT) AXIOMSYS= $(axiom_target_bindir)/AXIOMsys$(EXEEXT) @ These are the files that need to be compiled (in {\bf BOOTSYS}), loaded into a clean lisp image ({\bf LOADSYS}) and saved as a runnable \Tool{OpenAxiom} interpreter ({\bf SAVESYS}) usually named \Tool{interpsys}. Most of these files are translated from Boot to Common Lisp and then compiled. The \File{setq.lisp} file contains constant initialization code which gains nothing by being compiled. \subsection{The Spad interpreter and compiler} The value of the variable [[AXIOMsys_boot_sources]] is the (currently partial) list of Boot source files that make up the interpreter. Similarly, the value of the variable [[AXIOMsys_compiled_lisp_sources]] is the list of Common Lisp source files that are compiled into the interpreter. Notice that some of these files are loaded (\eg{}, interpreted) in [[depsys]]. <>= OBJS= vmlisp.$(FASLEXT) hash.$(FASLEXT) \ diagnostics.$(FASLEXT) sys-driver.$(FASLEXT) \ macros.$(FASLEXT) \ unlisp.$(FASLEXT) setq.$(FASLEXT) \ astr.$(FASLEXT) bits.$(FASLEXT) \ alql.$(FASLEXT) buildom.$(FASLEXT) \ cattable.$(FASLEXT) \ cformat.$(FASLEXT) cfuns.$(FASLEXT) \ clam.$(FASLEXT) clammed.$(FASLEXT) \ comp.$(FASLEXT) foam_l.$(FASLEXT) \ compat.$(FASLEXT) compress.$(FASLEXT) \ cparse.$(FASLEXT) cstream.$(FASLEXT) \ database.$(FASLEXT) \ debug.$(FASLEXT) dq.$(FASLEXT) \ fname.$(FASLEXT) format.$(FASLEXT) \ g-boot.$(FASLEXT) g-cndata.$(FASLEXT) \ g-error.$(FASLEXT) g-opt.$(FASLEXT) \ g-timer.$(FASLEXT) g-util.$(FASLEXT) \ ggreater.$(FASLEXT) \ hypertex.$(FASLEXT) i-analy.$(FASLEXT) \ i-object.$(FASLEXT) \ i-code.$(FASLEXT) i-coerce.$(FASLEXT) \ i-coerfn.$(FASLEXT) i-eval.$(FASLEXT) \ i-funsel.$(FASLEXT) bookvol5.$(FASLEXT) \ i-intern.$(FASLEXT) i-map.$(FASLEXT) \ i-output.$(FASLEXT) i-resolv.$(FASLEXT) \ i-spec1.$(FASLEXT) \ i-spec2.$(FASLEXT) i-syscmd.$(FASLEXT) \ i-toplev.$(FASLEXT) i-util.$(FASLEXT) \ incl.$(FASLEXT) int-top.$(FASLEXT) \ intfile.$(FASLEXT) \ lisplib.$(FASLEXT) macex.$(FASLEXT) \ match.$(FASLEXT) \ monitor.$(FASLEXT) msg.$(FASLEXT) \ msgdb.$(FASLEXT) \ newaux.$(FASLEXT) newfort.$(FASLEXT) \ nlib.$(FASLEXT) nrunfast.$(FASLEXT) \ nrungo.$(FASLEXT) nrunopt.$(FASLEXT) \ nruntime.$(FASLEXT) osyscmd.$(FASLEXT) \ packtran.$(FASLEXT) pathname.$(FASLEXT) \ pf2sex.$(FASLEXT) pile.$(FASLEXT) \ posit.$(FASLEXT) property.$(FASLEXT) \ ptrees.$(FASLEXT) \ record.$(FASLEXT) \ rulesets.$(FASLEXT) \ scan.$(FASLEXT) serror.$(FASLEXT) \ server.$(FASLEXT) \ setvars.$(FASLEXT) \ sfsfun-l.$(FASLEXT) sfsfun.$(FASLEXT) \ simpbool.$(FASLEXT) slam.$(FASLEXT) \ sockio.$(FASLEXT) spad.$(FASLEXT) \ spaderror.$(FASLEXT) \ template.$(FASLEXT) termrw.$(FASLEXT) \ trace.$(FASLEXT) \ union.$(FASLEXT) daase.$(FASLEXT) \ fortcall.$(FASLEXT) \ $(OPOBJS) \ $(OCOBJS) \ $(BROBJS) interpsys_modules = $(patsubst %.$(FASLEXT), "%", $(OBJS)) @ Before we save the {\bf SAVESYS} image we need to run some initialization code. These files perform initialization for various parts of the system. The {\bf patches.lisp} \cite{5} file contains last-minute changes to various functions and constants. <>= INOBJS= varini.$(FASLEXT) \ setvart.$(FASLEXT) intint.$(FASLEXT) \ interop.$(FASLEXT) \ patches.$(FASLEXT) IN_modules = $(patsubst %.$(FASLEXT), "%", $(INOBJS)) @ Certain functions do not need to be in the running system. If the running image never calls the compiler or does not use the hypertex browser we will never call the functions in these files. The code that calls these functions in the running system will autoload the appropriate files the first time they are called. Loading the files overwrites the autoload function call and re-calls the function. Any subsequent calls will run the compiled code. The {\bf OPOBJS} list contains files from the old parser. The use of ``old'' is something of a subtle concept as there were several generations of ``old'' and all meaning of the term is lost. Notice that the object file [[def.$(FASLEXT)]] appears on both the [[OPBJS]] and [[TRANOBJS]] lists. In normal situation, parsing precedes translation; consequently the file [[def]] is loaded by the parser, so that it does not need to be reloaded by the translator. However, it may theoretically be that a translation could happen without prior parsing (in case someone types in a parse tree for SPAD code). Consequently, it must be ensured that [[def.]] is still loaded in that configuration. In the long term, the autoload machinery need rethinking. <>= # These are autloaded old parser files OPOBJS= parsing.$(FASLEXT) bootlex.$(FASLEXT) \ def.$(FASLEXT) \ fnewmeta.$(FASLEXT) metalex.$(FASLEXT) \ parse.$(FASLEXT) postpar.$(FASLEXT) \ postprop.$(FASLEXT) preparse.$(FASLEXT) autoload_objects += $(OPBJS) @ The {\bf OCOBJS} list contains files from the old compiler. Again, ``old'' is meaningless. These files should probably be autoloaded. <>= OCOBJS= apply.$(FASLEXT) c-doc.$(FASLEXT) \ c-util.$(FASLEXT) profile.$(FASLEXT) \ category.$(FASLEXT) compiler.$(FASLEXT) \ define.$(FASLEXT) functor.$(FASLEXT) \ info.$(FASLEXT) iterator.$(FASLEXT) \ modemap.$(FASLEXT) nruncomp.$(FASLEXT) \ package.$(FASLEXT) htcheck.$(FASLEXT) \ xruncomp.$(FASLEXT) autoload_objects += $(OCOBJS) @ The {\bf BROBJS} list contains files only used by the hypertex browser. These files should probably be autoloaded. <>= BROBJS= bc-matrix.$(FASLEXT) \ bc-misc.$(FASLEXT) bc-solve.$(FASLEXT) \ bc-util.$(FASLEXT) \ ht-util.$(FASLEXT) htsetvar.$(FASLEXT) \ ht-root.$(FASLEXT) \ br-con.$(FASLEXT) \ br-data.$(FASLEXT) showimp.$(FASLEXT) \ br-op1.$(FASLEXT) br-op2.$(FASLEXT) \ br-search.$(FASLEXT) br-util.$(FASLEXT) \ topics.$(FASLEXT) br-prof.$(FASLEXT) \ br-saturn.$(FASLEXT) autoload_objects += $(BFOBJS) @ The {\bf TRANOBJS} list contains files used by Spad to Aldor convertor. The files probably are also used by the {\bf boot} to Common Lisp translator and are probably never used by anyone but the developers. When a user requests converting a file from Spad to Aldor the function [[spad2AsTranslatorAutoloadOnceTrigger]] is called triggering load of this group of files. Loading [[$TRANOBJS]] in turn replaces many compiler functions by versions contain in this files. These files should probably be autoloaded (at least [[${AUTO}/wi1.$(FASLEXT)]] and [[${AUTO}/wi2.$(FASLEXT)]] (which replace compiler functions) {\em must} be autoloaded). <>= TRANOBJS= ${AUTO}/wi1.$(FASLEXT) ${AUTO}/wi2.$(FASLEXT) ${AUTO}/pspad1.$(FASLEXT) \ ${AUTO}/pspad2.$(FASLEXT) ${AUTO}/mark.$(FASLEXT) ${AUTO}/nspadaux.$(FASLEXT) \ ${AUTO}/def.$(FASLEXT) autoload_objects += $(TRANOBJS) @ The {\bf NAGBROBJS} list contains files used to access the Numerical Algorithms Group (NAG) fortran libraries. These files should probably be autoloaded. Note that [[${AUTO}/nag-e02a.$(FASLEXT)]] is not included in this list as it is a subset of [[${AUTO}/nag-e02.$(FASLEXT)]]. <>= NAGBROBJS= ${AUTO}/nag-c02.$(FASLEXT) ${AUTO}/nag-c05.$(FASLEXT) \ ${AUTO}/nag-c06.$(FASLEXT) ${AUTO}/nag-d01.$(FASLEXT) \ ${AUTO}/nag-d02.$(FASLEXT) ${AUTO}/nag-d03.$(FASLEXT) \ ${AUTO}/nag-e01.$(FASLEXT) ${AUTO}/nag-e02.$(FASLEXT) \ ${AUTO}/nag-e04.$(FASLEXT) ${AUTO}/nag-f01.$(FASLEXT) \ ${AUTO}/nag-f02.$(FASLEXT) ${AUTO}/nag-f04.$(FASLEXT) \ ${AUTO}/nag-f07.$(FASLEXT) ${AUTO}/nag-s.$(FASLEXT) autoload_objects += $(NAGBROBJS) @ The {\bf ASCOMP} list contains files used by the {\bf Aldor} \cite{5} compiler. These files should probably be autoloaded. <>= ASCOMP= hashcode.$(FASLEXT) as.$(FASLEXT) \ foam_l.$(FASLEXT) axext_l.$(FASLEXT) AS_modules = $(patsubst %.$(FASLEXT), "%", $(ASCOMP)) @ The {\bf ASAUTO} list contains files used by the {\bf Aldor} \cite{5} compiler. These files are autoloaded as needed. <>= ASAUTO= ${AUTO}/ax.$(FASLEXT) autoload_objects += $(ASAUTO) @ OpenAxiom versions are given as a string of the form: "Sunday September 21, 2003 at 20:38:05 " which describe the day, date, and time of the build. This is used for reporting bugs. It is only partially useful in identifying which source code was used. Ideally we could create a tar file of all of the date/time stamps of all of the source files and use the MD5 hash of that file as the version stamp. Ultimately though, this would be chasing the elusive "perfect information" idea. A new variable [[boot::*build-version*]] is set here and used by the [[yearweek]] function to display the version number of the OpenAxiom build. This information is set by hand in the top level Makefile. <>= TIMESTAMP=$(axiom_targetdir)/timestamp YEARWEEK=(progn (setq boot::timestamp "${TIMESTAMP}") \ (setq boot::*build-version* "$(PACKAGE_STRING)") \ (boot::yearweek)) @ The {\bf .PRECIOUS} setting will keep make from deleting these images if the build is stopped. Since once they are built they are likely to be useable we don't need to redo the work if they exist. <>= .PRECIOUS: ${DEPSYS} .PRECIOUS: ${SAVESYS} .PRECIOUS: ${AXIOMSYS} @ \section{Codes from Pamphlets} As noted earlier, the Boot codes are first extrated from the pamphlet files: <>= .PRECIOUS: %.boot %.boot: $(srcdir)/%.boot.pamphlet $(axiom_build_document) --tangle --output=$@ $< @ The extracted Boot codes are then fed into \Tool{bootsys} which translates them into Common Lisp codes: <>= .PRECIOUS: %.clisp %.clisp: %.boot $(BOOT_TO_LISP) @ The resulting Common Lips codes are, in turn, compiled to object codes using the \Tool{depsys} image. <>= .PRECIOUS: %.$(FASLEXT) %.$(FASLEXT): %.clisp $(COMPILE_LISP) @ Part of the interpreter is written directly in Common Lisp (instead of the sugared dialect Boot). That part is extracted from the pamphlet files and compiled to native object code, as usual. <>= # Extract and compile the part of the interpreter written # in Common Lisp .PRECIOUS: %.lisp %.$(FASLEXT): %.lisp $(COMPILE_LISP) %.lisp: $(srcdir)/%.lisp.pamphlet $(axiom_build_document) --tangle --output=$@ $< @ \section{The warm.data file} This is a file of commands that will be loaded into interpsys at the last minute. It execute functions that will likely be used in a running system so all of the required routines will be in the lisp image thus minimizing their startup time. <>= ../algebra/warm.data: $(srcdir)/Makefile.pamphlet @ echo 2 building warm.data $(axiom_build_document) --tangle=warm.data --output=$@ $< @ <>= (in-package 'boot) (setq |$topicHash| (make-hash-table)) (setf (gethash '|basic| |$topicHash|) 2) (setf (gethash '|algebraic| |$topicHash|) 4) (setf (gethash '|miscellaneous| |$topicHash|) 13) (setf (gethash '|extraction| |$topicHash|) 6) (setf (gethash '|conversion| |$topicHash|) 7) (setf (gethash '|hidden| |$topicHash|) 3) (setf (gethash '|extended| |$topicHash|) 1) (setf (gethash '|destructive| |$topicHash|) 5) (setf (gethash '|transformation| |$topicHash|) 10) (setf (gethash '|hyperbolic| |$topicHash|) 12) (setf (gethash '|construct| |$topicHash|) 9) (setf (gethash '|predicate| |$topicHash|) 8) (setf (gethash '|trignometric| |$topicHash|) 11) @ \section{UNUSED} These files were in the interp distribution from NAG but have no purpose at the moment. This belief is no doubt due to my lack of understanding. Rather than erase them they are documented here for future reference. [[${DOC}/nag-e02a.boot.dvi]] and [[${DOC}/nag-e02b.boot.dvi]] appear to be two halfs of the file [[${DOC}/nag-e02.boot.dvi]] and have been removed. <>= UNUSED= ${DOC}/anna.boot.dvi ${DOC}/construc.lisp.dvi \ ${DOC}/domain.lisp.dvi ${DOC}/guess.boot.dvi \ ${DOC}/interp-fix.boot.dvi \ ${DOC}/nhyper.boot.dvi ${DOC}/pf2atree.boot.dvi \ ${DOC}/redefs.boot.dvi ${DOC}/word.boot.dvi @ \section{Building DEPSYS} \begin{verbatim} NOTES: depsys proceeds all else. it is the compile-time environment for all interpreter code. [[OLD-BOOT::BOOT]] emulates the new boot parser command [[BOOTTOCL]]. since we eventually plan to move to the new boot parser this function should disappear. the load of postpar and parse (without extensions) allows the .${LISP} form to be loaded in a virgin system. however, if depsys is recreated then the compiled form will get loaded. \end{verbatim} \subsection{save depsys image} Once the appropriate commands are in the [[makedep.lisp]] file we can load the file into an initial Lisp image and save it. In freebsd we cannot do this so we have to use a much more complicated procedure. This code used to read: \begin{verbatim} <>= ../lisp/base-lisp$(EXEEXT) -- --make --output=$@ \ --load-directory=. makedep.lisp @ \end{verbatim} <>= ${DEPSYS}: vmlisp.$(FASLEXT) \ hash.$(FASLEXT) \ bits.$(FASLEXT) \ ggreater.$(FASLEXT) \ union.$(FASLEXT) \ boot-pkg.$(FASLEXT) \ sys-constants.$(FASLEXT) \ sys-globals.$(FASLEXT) \ sys-driver.$(FASLEXT) \ diagnostics.$(FASLEXT) \ sys-macros.$(FASLEXT) \ macros.$(FASLEXT) \ nlib.$(FASLEXT) \ comp.$(FASLEXT) \ ${DEP} \ nocompil.$(FASLEXT) \ bookvol5.$(FASLEXT)\ util.$(FASLEXT) \ postpar.$(FASLEXT) \ parse.$(FASLEXT) \ parsing.$(FASLEXT) \ metalex.$(FASLEXT) \ bootlex.$(FASLEXT) \ newaux.$(FASLEXT) \ preparse.$(FASLEXT) \ postprop.$(FASLEXT)\ def.$(FASLEXT) \ fnewmeta.$(FASLEXT) \ g-error.$(FASLEXT) \ g-boot.$(FASLEXT) \ c-util.$(FASLEXT) \ g-util.$(FASLEXT) \ clam.$(FASLEXT) \ slam.$(FASLEXT) @ echo 3 making ${DEPSYS} @ rm -f makedep.lisp @ $(mkinstalldirs) $(axiom_build_bindir) @ echo '(|importModule| "sys-driver")' >> makedep.lisp @ echo '(|importModule| "vmlisp")' >> makedep.lisp @ echo '(|importModule| "bits")' >> makedep.lisp @ echo '(|importModule| "hash")' >> makedep.lisp @ echo '(|importModule| "ggreater")' >> makedep.lisp @ echo '(|importModule| "union")' >> makedep.lisp @ echo '(|importModule| "nocompil")' >> makedep.lisp @ echo '(|importModule| "macros")' >> makedep.lisp @ echo '(|importModule| "nlib")' >> makedep.lisp @ echo '(|importModule| "bookvol5")' >> makedep.lisp @ echo '(|importModule| "util")' >> makedep.lisp @ echo '(in-package "BOOT")' >> makedep.lisp @ echo '(build-depsys (quote ($(patsubst %, "%", ${DEP}))))' >> makedep.lisp @ echo '(in-package "AxiomCore")' >> makedep.lisp @ echo '(|importModule| "newaux")' >> makedep.lisp @ echo '(|importModule| "parse")' >> makedep.lisp @ echo '(|importModule| "metalex")' >> makedep.lisp @ echo '(|importModule| "parsing")' >> makedep.lisp @ echo '(|importModule| "fnewmeta")' >> makedep.lisp @ echo '(|importModule| "preparse")' >> makedep.lisp @ echo '(|importModule| "comp")' >> makedep.lisp @ echo '(|importModule| "def")' >> makedep.lisp @ echo '(|importModule| "bootlex")' >> makedep.lisp @ echo '(|importModule| "postprop")' >> makedep.lisp @ echo '(|importModule| "postpar")' >> makedep.lisp @ echo '(|importModule| "clam")' >> makedep.lisp @ echo '(|importModule| "slam")' >> makedep.lisp @ echo '(|importModule| "g-error")' >> makedep.lisp @ echo '(|importModule| "g-boot")' >> makedep.lisp @ echo '(|importModule| "c-util")' >> makedep.lisp @ echo '(|importModule| "g-util")' >> makedep.lisp <> @ echo 4 ${DEPSYS} created util.$(FASLEXT): util.lisp parsing.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< bookvol5.$(FASLEXT): bookvol5.lisp boot-pkg.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< nocompil.$(FASLEXT): nocompil.lisp boot-pkg.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< @ \section{Building SAVESYS and AXIOMSYS} GCL likes to tell you when it has replaced a function call by a tail-recursive call. This happens when the last form in a function is a call to the same function. In general, we don't care so we set compiler::*suppress-compiler-notes* to true in order to reduce the noise. Notice that when OpenAxiom uses GCL as the Lisp platform, it is usually not a good idea to mess with GCL's internal variables. In particular, GCL has its own idea about what to do with [[si::*system-directory*]], which should not be set here just because we happen to save an GCL-based image. Doing otherwise causes havoc. <>= makeint.lisp: ${DEPSYS} ${OBJS} bookvol5.$(FASLEXT) util.$(FASLEXT) \ nocompil.$(FASLEXT) \ sys-driver.$(FASLEXT) \ ${OUTINTERP} obey.$(FASLEXT) \ database.date ${INOBJS} ${ASCOMP} ${ASAUTO} \ ${NAGBROBJS} ${TRANOBJS} \ ${LOADSYS} \ $(axiom_targetdir)/algebra/exposed.$(FASLEXT) \ $(axiom_src_docdir)/msgs/s2-us.msgs \ ../algebra/warm.data @ echo 5 invoking make in `pwd` with parms: @rm -f makeint.lisp $(mkinstalldirs) $(axiom_target_datadir)/msgs $(INSTALL_DATA) $(axiom_src_docdir)/msgs/s2-us.msgs \ $(axiom_target_datadir)/msgs @ echo '(|importModule| "sys-driver")' >> makeint.lisp @ echo '(|importModule| "vmlisp")' >> makeint.lisp @ echo '(|importModule| "hash")' >> makeint.lisp @ echo '(gbc t)' >> makeint.lisp @ echo '(|importModule| "nocompil")' >> makeint.lisp @ echo '(|importModule| "bookvol5")' >> makeint.lisp @ echo '(|importModule| "util")' >> makeint.lisp @ echo '(in-package "BOOT")' >> makeint.lisp @ touch ${TIMESTAMP} @ echo '${YEARWEEK}' >> makeint.lisp @ echo '(boot::build-interpsys (append (quote ($(interpsys_modules))) (quote ($(AS_modules))) (quote ($(IN_modules)))) (quote ($(patsubst %, "%", ${TRANOBJS}))) (quote ($(patsubst %, "%", ${NAGBROBJS}))) (quote ($(patsubst %, "%", ${ASAUTO}))))' >> makeint.lisp @ echo '(boot::set-restart-hook)' >> makeint.lisp @ echo '(in-package "BOOT")' >> makeint.lisp @ echo '(load "../algebra/warm.data")' >> makeint.lisp @ echo '(boot::|clearClams|)' >> makeint.lisp @ echo '(load "obey")' >> makeint.lisp @ echo '#+:akcl (setq compiler::*suppress-compiler-notes* t)' >> makeint.lisp @ echo '#+:akcl (si::gbc-time 0)' >> makeint.lisp @ echo '(gbc t)' >> makeint.lisp ${SAVESYS}: makeint.lisp $(LOADSYS) -- --system="$(AXIOM)/" \ --sysalg="$(axiom_src_datadir)/algebra/" \ --make --output=$@ --main="BOOT::RESTART" \ --load-directory=. makeint.lisp @ echo 6 ${SAVESYS} created $(mkinstalldirs) $(axiom_target_bindir) @ \section{Building SAVESYS and AXIOMSYS} We want to cache database data in the final image, so we dump it only after databases are build. Note that having dependency on databases is not enough, since databases are re-generated after leaving \File{interp/} directory. <>= .PHONY: all-axiomsys all-axiomsys: ${AXIOMSYS} ${AXIOMSYS}: makeint.lisp $(LOADSYS) -- \ --system="$(AXIOM)/" \ --sysalg="$(axiom_targetdir)/algebra/" \ --make --output=$@ --main="BOOT::RESTART" \ --load-directory=. makeint.lisp @ echo 6a ${AXIOMSYS} created @ \section{The Interpreter files} \subsection{DVI files from pmaphlet files} <>= $(axiom_build_texdir)/diagrams.tex: $(axiom_src_docdir)/diagrams.tex $(INSTALL_DATA) $< $@ @ \subsection{c-doc.boot \cite{60}} <>= c-doc.clisp: c-doc.boot @ echo 219 making $@ from $< @ echo '(old-boot::boot "c-doc.boot")' | ${DEPSYS} @ \subsection{clammed.boot \cite{62}} <>= clammed.clisp: clammed.boot @ echo 226 making $@ from $< @ echo '(old-boot::boot "clammed.boot")' | ${DEPSYS} @ \subsection{compiler.boot \cite{64}} <>= compiler.clisp: compiler.boot @ echo 233 making $@ from $< @ echo '(old-boot::boot "compiler.boot")' | ${DEPSYS} @ \subsection{i-analy.boot} <>= i-analy.clisp: i-analy.boot @ echo 280 making $@ from $< @ echo '(old-boot::boot "i-analy.boot")' | ${DEPSYS} @ \subsection{i-code.boot} <>= i-code.clisp: i-code.boot @ echo 283 making $@ from $< @ echo '(old-boot::boot "i-code.boot")' | ${DEPSYS} @ \subsection{i-coerce.boot} <>= i-coerce.clisp: i-coerce.boot @ echo 286 making $@ from $< @ echo '(old-boot::boot "i-coerce.boot")' | ${DEPSYS} @ \subsection{i-coerfn.boot} <>= i-coerfn.clisp: i-coerfn.boot @ echo 289 making $@ from $< @ echo '(old-boot::boot "i-coerfn.boot")' | ${DEPSYS} @ \subsection{i-eval.boot} <>= i-eval.clisp: i-eval.boot @ echo 292 making $@ from $< @ echo '(old-boot::boot "i-eval.boot")' | ${DEPSYS} @ \subsection{i-funsel.boot} <>= i-funsel.clisp: i-funsel.boot @ echo 295 making $@ from $< @ echo '(old-boot::boot "i-funsel.boot")' | ${DEPSYS} @ \subsection{bookvol5.lsp} <>= bookvol5.lisp: $(srcdir)/bookvol5.pamphlet @ echo 298 making $@ from $< $(axiom_build_document) --tangle=Interpreter --output=$@ $< @ \subsection{i-intern.boot} <>= i-intern.clisp: i-intern.boot @ echo 301 making $@ from $< @ echo '(old-boot::boot "i-intern.boot")' | ${DEPSYS} @ \subsection{i-map.boot} <>= i-map.clisp: i-map.boot @ echo 304 making $@ from $< @ echo '(old-boot::boot "i-map.boot")' | ${DEPSYS} @ \subsection{i-resolv.boot} <>= i-resolv.clisp: i-resolv.boot @ echo 310 making $@ from $< @ echo '(old-boot::boot "i-resolv.boot")' | ${DEPSYS} @ \subsection{i-spec1.boot} <>= i-spec1.clisp: i-spec1.boot @ echo 313 making $@ from $< @ echo '(old-boot::boot "i-spec1.boot")' | ${DEPSYS} @ \subsection{i-spec2.boot} <>= i-spec2.clisp: i-spec2.boot @ echo 316 making $@ from i-spec2.boot @ echo '(old-boot::boot "i-spec2.boot")' | ${DEPSYS} @ \subsection{i-syscmd.boot} <>= i-syscmd.clisp: i-syscmd.boot @ echo 319 making $@ from $< @ echo '(old-boot::boot "i-syscmd.boot")' | ${DEPSYS} @ \subsection{i-toplev.boot} <>= i-toplev.clisp: i-toplev.boot @ echo 322 making $@ from $< @ echo '(old-boot::boot "i-toplev.boot")' | ${DEPSYS} @ \subsection{i-util.boot} <>= i-util.clisp: i-util.boot @ echo 325 making $@ from $< @ echo '(old-boot::boot "i-util.boot")' | ${DEPSYS} @ \subsection{nruncomp.boot} <>= nruncomp.clisp: nruncomp.boot @ echo 353 making $@ from $< @ echo '(old-boot::boot "nruncomp.boot")' | ${DEPSYS} @ \subsection{nrunfast.boot} <>= nrunfast.clisp: nrunfast.boot @ echo 356 making $@ from $< @ echo '(old-boot::boot "nrunfast.boot")' | ${DEPSYS} @ \subsection{nrungo.boot} <>= nrungo.clisp: nrungo.boot @ echo 359 making $@ from $< @ echo '(old-boot::boot "nrungo.boot")' | ${DEPSYS} @ \subsection{nruntime.boot} <>= nruntime.clisp: nruntime.boot @ echo 362 making $@ from $< @ echo '(old-boot::boot "nruntime.boot")' | ${DEPSYS} @ \subsection{nrunopt.boot} <>= nrunopt.clisp: nrunopt.boot @ echo 365 making $@ from $< @ echo '(old-boot::boot "nrunopt.boot")' | ${DEPSYS} @ \subsection{postpar.boot} \begin{verbatim} NOTE: One thing need to be done to create an DEPSYS by hand: parse and postpar must be loaded along with the depsys files into a bare lisp system. if these two things are done then a DEPSYS image can be bootstrapped to a new platform. \end{verbatim} \subsection{setvart.boot} <>= setvart.clisp: setvart.boot @ echo 398 making $@ from $< @ echo '(old-boot::boot "setvart.boot")' | ${DEPSYS} @ \subsection{br-con.boot} <>= br-con.clisp: br-con.boot @ echo 467 making $@ from $< @ echo '(old-boot::boot "br-con.boot")' | ${DEPSYS} @ \subsection{br-search.boot} <>= br-search.clisp: br-search.boot @ echo 471 making $@ from $< @ echo '(old-boot::boot "br-search.boot")' | ${DEPSYS} @ \subsection{br-op1.boot} <>= br-op1.clisp: br-op1.boot @ echo 475 making $@ from $< @ echo '(old-boot::boot "br-op1.boot")' | ${DEPSYS} @ \subsection{br-op2.boot} <>= br-op2.clisp: br-op2.boot @ echo 479 making $@ from $< @ echo '(old-boot::boot "br-op2.boot")' | ${DEPSYS} @ \subsection{br-data.boot} <>= br-data.clisp: br-data.boot @ echo 483 making $@ from $< @ echo '(old-boot::boot "br-data.boot")' | ${DEPSYS} @ \subsection{br-util.boot} <>= br-util.clisp: br-util.boot @ echo 487 making $@ from $< @ echo '(old-boot::boot "br-util.boot")' | ${DEPSYS} @ \subsection{br-saturn.boot} <>= br-saturn.clisp: br-saturn.boot @ echo 491 making $@ from $< @ echo '(old-boot::boot "br-saturn.boot")' | ${DEPSYS} @ \section{The databases} \begin{verbatim} autoload dependencies if you are adding a file which is to be autoloaded the following step information is useful: there are 2 cases: 1) adding files to currently autoloaded parts (as of 2/92: browser old parser and old compiler) 2) adding new files case 1: a) you have to add the file to the list of files currently there (e.g. see BROBJS above) b) add an autolaod rule (e.g. ${AUTO}/parsing.$(FASLEXT): parsing.$(FASLEXT)) c) edit util.lisp to add the 'external' function (those that should trigger the autoload case 2: build-interpsys (in util.lisp) needs an extra argument for the new autoload things and several functions in util.lisp need hacking. database.date is a marker file used to force a rebuild of interpsys if the database is rebuilt (src/algebra/Makefile). \end{verbatim} <>= exposed.lsp: $(axiom_src_algdir)/exposed.lsp.pamphlet @ echo 615 making exposed.lsp from $(axiom_src_algdir)/exposed.lsp.pamphlet $(axiom_build_document) --tangle --output=$@ $< $(axiom_targetdir)/algebra/exposed.$(FASLEXT) : exposed.lsp ${LISPSYS} @ echo 616 making $@ from exposed.lsp $(mkinstalldirs) $(axiom_targetdir)/algebra @ echo '(progn (compile-file "exposed.lsp" :output-file "$(axiom_targetdir)/algebra/exposed.$(FASLEXT)"))' | ${LISPSYS} database.date: @ echo 617 the database was updated...remaking interpsys @ touch database.date @ \section{The Makefile} <<*>>= subdir = src/interp/ <> .SUFFIXES: .SUFFIXES: .boot .clisp .lisp .pamphlet .PHONY: all all-ax all-depsys all-interpsys all-axiomsys all: all-ax all-ax: stamp @echo finished $(srcdir) stamp: $(AUTO) remove-stamp build-images $(STAMP) stamp .PHONY: remove-stamp remove-stamp: -rm -f stamp .PHONY: build-images build-images: remove-stamp all-interpsys all-interpsys: all-depsys $(mkinstalldirs) $(AUTO) $(MAKE) $(SAVESYS) all-axiomsys: all-depsys $(MAKE) $(AXIOMSYS) all-depsys: $(DEPSYS) <> mostlyclean-local: @rm -f *.fn *.data *.$(FASLEXT) *.lib clean-local: mostlyclean-local @rm -f *.clisp *.lsp distclean-local: clean-local <> <> <> <> ## Copy FASLs that are autoloaded to the autoload directory. .PREVIOUS: $(AUTO)/%.$(FASLEXT) $(AUTO)/%.$(FASLEXT): %.$(FASLEXT) $(INSTALL) $< $@ ## Translation to Fortran fortcall.$(FASLEXT): fortcall.boot sys-macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< ## HyperDoc bc-solve.$(FASLEXT): bc-solve.boot bc-matrix.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< bc-matrix.$(FASLEXT): bc-matrix.boot bc-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< bc-misc.$(FASLEXT): bc-misc.boot bc-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< bc-util.$(FASLEXT): bc-util.boot ht-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< ht-root.$(FASLEXT): ht-root.boot ht-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< htcheck.$(FASLEXT): htcheck.boot sys-driver.$(FASLEXT) macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< ht-util.$(FASLEXT): ht-util.boot macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< htsetvar.$(FASLEXT): htsetvar.boot macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< hypertex.$(FASLEXT): hypertex.boot boot-pkg.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< ## OpenAxiom's interpreter. profile.$(FASLEXT): profile.boot macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< rulesets.$(FASLEXT): rulesets.boot vmlisp.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< i-output.$(FASLEXT): i-output.boot sys-macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< i-object.$(FASLEXT): i-object.boot sys-macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< format.$(FASLEXT): format.boot macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< match.$(FASLEXT): match.boot sys-macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< record.$(FASLEXT): record.boot nlib.$(FASLEXT) pathname.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< ## OpenAxiom's compiler iterator.$(FASLEXT): iterator.boot g-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< define.$(FASLEXT): define.boot cattable.$(FASLEXT) category.$(FASLEXT) \ c-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< database.$(FASLEXT): database.boot clam.$(FASLEXT) nlib.$(FASLEXT) \ cattable.$(FASLEXT) compat.$(FASLEXT) g-cndata.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< functor.$(FASLEXT): functor.boot category.$(FASLEXT) c-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< category.$(FASLEXT): category.boot g-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< cattable.$(FASLEXT): cattable.boot simpbool.$(FASLEXT) g-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< compat.$(FASLEXT): compat.boot pathname.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< simpbool.$(FASLEXT): simpbool.boot macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< newfort.$(FASLEXT): newfort.boot macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< ## Interface with the Aldor compiler. ax.$(FASLEXT): ax.boot as.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< as.$(FASLEXT): as.boot macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< server.$(FASLEXT): server.boot macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< ## ## OpenAxiom's front-end consists of two parts: ## (a) the interprerter's parser -- also referred to as new parser ## (b) the compiler parser -- also referred to as parser ## ## The new parser component is always included in a running OpenAxiom ## image. However the old parser component is so called `autoloaded'. ## While in theory that should work, in practice it turns out that ## people tend to override functions in the autoload part, correcting ## bugs only there. The consequence is that the same function will ## bahave very differently based on the history of the seesion. Ideal ## recipe for creating heisenbugs. ## ## The old parser component roughtly is: ## parse.$(FASLEXT): parse.boot postpar.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< postpar.$(FASLEXT): postpar.boot postprop.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< postprop.$(FASLEXT): postprop.lisp macros.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< bootlex.$(FASLEXT): bootlex.lisp preparse.$(FASLEXT) def.$(FASLEXT) \ nlib.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< newaux.$(FASLEXT): newaux.lisp macros.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< def.$(FASLEXT): def.lisp macros.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< comp.$(FASLEXT): comp.lisp macros.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< preparse.$(FASLEXT): preparse.lisp fnewmeta.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< fnewmeta.$(FASLEXT): fnewmeta.lisp parsing.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< parsing.$(FASLEXT): parsing.lisp metalex.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< metalex.$(FASLEXT): metalex.lisp macros.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< nlib.$(FASLEXT): nlib.lisp macros.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< macros.$(FASLEXT): macros.lisp sys-macros.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< ## The new parser component roughtly is: ## astr.boot dq.boot incl.boot pile.boot ptrees.boot ## posit.boot cparse.boot format.boot cstream.boot ## cparse.$(FASLEXT): cparse.boot ptrees.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< ptrees.$(FASLEXT): ptrees.boot posit.$(FASLEXT) serror.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< pile.$(FASLEXT): pile.boot scan.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< scan.$(FASLEXT): scan.boot incl.$(FASLEXT) bits.$(FASLEXT) dq.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< incl.$(FASLEXT): incl.boot cstream.$(FASLEXT) cformat.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< cformat.$(FASLEXT): cformat.boot unlisp.$(FASLEXT) posit.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< serror.$(FASLEXT): serror.boot posit.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< unlisp.$(FASLEXT): unlisp.lisp sys-macros.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< posit.$(FASLEXT): posit.boot sys-macros.$(FASLEXT) astr.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< cstream.$(FASLEXT): cstream.boot sys-macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< astr.$(FASLEXT): astr.boot boot-pkg.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< bits.$(FASLEXT): bits.lisp boot-pkg.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< dq.$(FASLEXT): dq.boot boot-pkg.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< ## General support and utilities. modemap.$(FASLEXT): modemap.boot c-util.$(FASLEXT) info.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< info.$(FASLEXT): info.boot g-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< slam.$(FASLEXT): slam.boot g-timer.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< clam.$(FASLEXT): clam.boot g-timer.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< g-opt.$(FASLEXT): g-opt.boot def.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< g-timer.$(FASLEXT): g-timer.boot macros.$(FASLEXT) g-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< msgdb.$(FASLEXT): msgdb.boot g-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< g-boot.$(FASLEXT): g-boot.boot def.$(FASLEXT) g-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< g-error.$(FASLEXT): g-error.boot diagnostics.$(FASLEXT) g-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< c-util.$(FASLEXT): c-util.boot g-util.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< pathname.$(FASLEXT): pathname.boot nlib.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< g-util.$(FASLEXT): g-util.boot macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< g-cndata.$(FASLEXT): g-cndata.boot sys-macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< sys-macros.$(FASLEXT): sys-macros.lisp diagnostics.$(FASLEXT) \ union.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< diagnostics.$(FASLEXT): diagnostics.boot sys-constants.$(FASLEXT) \ sys-globals.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< sys-driver.$(FASLEXT): sys-driver.boot boot-pkg.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< sys-globals.$(FASLEXT): sys-globals.boot sys-constants.$(FASLEXT) \ hash.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< sys-constants.$(FASLEXT): sys-constants.boot boot-pkg.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< hash.$(FASLEXT): hash.lisp vmlisp.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< union.$(FASLEXT): union.lisp vmlisp.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< ggreater.$(FASLEXT): ggreater.lisp vmlisp.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< vmlisp.$(FASLEXT): vmlisp.lisp boot-pkg.$(FASLEXT) $(BOOTSYS) -- --compile --output=$@ --load-directory=. $< boot-pkg.$(FASLEXT): boot-pkg.lisp $(BOOTSYS) -- --compile --output=$@ $< <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> <> buildom.$(FASLEXT): buildom.boot sys-macros.$(FASLEXT) $(BOOTSYS) -- --compile --boot="old" --output=$@ --load-directory=. $< <> @ \end{document}