# # Makefile for the automation of LaTeX document processing # # Usage: make [target] # The following targets are understood: # dvi generate dvi output (latex default target) # pdf generate pdf output (pdflatex default target) # ps generate postscript # clean erase all intermediate files # realclean erase all but the source files # # To do: # -recursively process \include{} and \input{} commands for .tex # dependancies # -do the same for \bibliography{} commands # -add metapost processing # # # Document information (provided by top-level Makefile) # # LATEX # The name of the latex compiler to use. If the program name is, # specifically, "pdflatex" then the .pdf will be the default target # rather than the .dvi. Note that at present there is no way to ask # for one or the other without switching the contents of this # variable. # # DOCUMENT # (required) The root name for all files. # # GRAPHIC_FILES # Any graphic files the document depends on, for example any .eps or # .pdf files included with \includegraphics{}. The output is rebuilt # if any of these files change but otherwise they play no role in the # build process. # # XFIG_FILES # Thes Makefile rules allow your LaTeX document to include xfig .fig # files directly. Each .fig file is converted to a graphic format # suitable for inclusion by the LaTeX processor, for example # postscript or pdf. This is accomplished by processing the .fig # file with fig2dev and producing two output files: a graphics # version of the .fig file and a LaTeX source file containing the # commands needed to import that graphics file. In your own LaTeX # document, you will need to include this .tex source file. For # example, if you have an xfig file called diagram.fig, you should # set "XFIG_FILES = diagram.fig" in your Makefile and place the # command "\include{diagram.fig}" in your LaTeX document where you # would like the image placed. When your document is processed, the # xfig file will be converted to a, for example, postscript file # called diagram.fig.ps and a LaTeX source file called # diagram.fig.tex. The \include{} command in your LaTeX source reads # in the .fig.tex file (the .tex extension is assumed by the command) # which in turn contains the commands to import the graphics file. # # As an added bonus, any text objects in the xfig document that have # their "special" flag set will be removed from the document before # it is converted to a graphics format. Their contents are added to # the LaTeX source file along with the commands needed to overlay # them in the correct places on the figure. In this way, you can use # LaTeX to typset the text of your xfig figure. This has the # advantage of having the text rendered in the same font as the rest # of your document and also allows you to make use of all of LaTeX's # typsetting facilities. Note that in your xfig document you should # set the pen colour of the "special" text to "Default" in order to # prevent \color commands from being issued, otherwise you will need # to include the LaTeX package "color". # # If you get error messages about "unknown graphics format" related # to the .fig.ps or .fig.pdf intermediate graphics file then you must # issue the \DeclareGraphicsRule{.fig.ps}{eps}{.fig.ps}{} command or # the \DeclareGraphicsRule{.fig.pdf}{pdf}{.fig.pdf}{} command in your # document's preamble. See the grfguide.ps graphics package # documentation for more information. # # BIB_FILES # $(DOCUMENT).tex will be automatically searched for all .bib files # specified via \bibliography{} commands. Use this variable to # override the automatic search and manually specify the .bib files. # Reasons for wanting to override the automatics: (i) scanning a # large document can be time-consuming and can be skipped by entering # the info yourself (ii) the algorithm may be broken for your # document. # # BSTINPUTS # BIBINPUTS # The contents of these variables override the system default search # paths for bibtex. If you are using a custom bibliographic style, # you may need to set BSTINPUTS to the directory in which the .bst # file resides. If your .bib databases cannot be found, then you # will need to set BIBINPUTS to a colon-separated list of the # directories in which they reside. # # DVIPS_FLAGS # Flags to pass to dvips. It might be necessary to include the -K # flag if you are having trouble getting mpage to handle documents # that contain EPS figures generated by certain applications. # ############################################################################### # # Preamble # ############################################################################### DVI_FILE := $(DOCUMENT).dvi PDF_FILE := $(DOCUMENT).pdf PS_FILE := $(DOCUMENT).ps AUX_FILE := $(DOCUMENT).aux LOF_FILE := $(shell ls $(DOCUMENT).lof 2>/dev/null) LOT_FILE := $(shell ls $(DOCUMENT).lot 2>/dev/null) TOC_FILE := $(shell ls $(DOCUMENT).toc 2>/dev/null) IDX_FILE := $(shell ls $(DOCUMENT).idx 2>/dev/null) END_FILE := $(shell ls $(DOCUMENT).end 2>/dev/null) TEX_FILES := $(DOCUMENT).tex OTHER_FILES := $(DOCUMENT).blg $(DOCUMENT).log $(DOCUMENT).out INDEX_ARGS := -s mkidx.ist LATEXOPTS := -interaction=nonstopmode # grab the contents of \bibliograph{} commands ifeq ($(BIB_FILES),) BIB_FILES := $(shell for source in $(TEX_FILES) ; do sed -e '{' -e 'y/,/ /' -e 's?.*\\bibliography[{]\(.*\)[}].*?\1?' -e 't' -e 'd' -e '}' <$$source ; done) BIB_FILES := $(BIB_FILES:%=%.bib) endif ifneq ($(BIB_FILES),) BBL_FILE := $(DOCUMENT).bbl endif ifneq ($(IDX_FILE),) IND_FILE := $(DOCUMENT).ind endif # construct the names of auxiliary files related to xfig documents XFIG_AUX = $(strip $(XFIG_FILES:%.fig=%.fig.aux)) XFIG_GFX = $(strip $(XFIG_FILES:%.fig=%.fig.pdf) $(XFIG_FILES:%.fig=%.fig.ps)) XFIG_TEX = $(strip $(XFIG_FILES:%.fig=%.fig.tex)) # latex will be run over and over and over again until the following files # stop changing. MONITOR_FILES := $(strip $(AUX_FILE) $(TOC_FILE) $(LOF_FILE) $(LOT_FILE) $(BBL_FILE) $(IND_FILE) $(END_FILE)) # the following files must be present or processing will fail SOURCE_FILES := $(TEX_FILES) $(BIB_FILES) $(GRAPHIC_FILES) $(XFIG_FILES) ############################################################################### # # Targets # ############################################################################### .PHONY : dvi pdf ps clean realclean check_for_sources .SECONDARY : $(MONITOR_FILES) $(XFIG_AUX) $(XFIG_GFX) $(XFIG_TEX) ifeq (,$(LATEX)) LATEX := latex endif ifeq ($(notdir $(LATEX)),pdflatex) pdf : $(PDF_FILE) else dvi : $(DVI_FILE) endif ps : $(PS_FILE) clean : -rm -f $(MONITOR_FILES) -rm -f $(MONITOR_FILES:%=%.old) -rm -f $(OTHER_FILES) -rm -f $(XFIG_AUX) -rm -f $(XFIG_GFX) -rm -f $(XFIG_TEX) realclean : clean -rm -f $(DVI_FILE) -rm -f $(PDF_FILE) -rm -f $(PS_FILE) ############################################################################### # # Macros # ############################################################################### ############################################################################### # # Dependancies and Generation Rules # ############################################################################### # # Check for the existance of all required source files # check_for_sources : @FOUNDALL=1 ; for source in $(SOURCE_FILES) ; do [ -f "$$source" ] || { echo "Error: cannot find source file: $$source" ; FOUNDALL=0 ; } ; done ; [ $$FOUNDALL == 1 ] # # Generate a postscript file from a .dvi file # %.ps : %.dvi dvips $(DVIPS_FLAGS) -o $@ $* # # Generate the .dvi (or .pdf) file by running LaTeX (or PDFLaTeX) until the # auxiliary files listed in MONITOR_FILES stop changing. Rather than just # looping, make is re-run which allows any files that depend on the # particular auxiliary files that changed to be updated as well. # define run-latex @saveold() { for file ; do [ -f $${file} ] && cp -fp $${file} $${file}.old ; done ; true ; } ; \ restoreold() { for file ; do [ -f $${file}.old ] && mv -f $${file}.old $${file} ; done ; true ; } ; \ deleteold() { for file ; do rm -f $${file}.old ; done ; true ; } ; \ makeobsolete() { touch -r $$(ls *.old | tail -n 1) $${1} ; true ; } ; \ nochange() { for file ; do [ ! -f $${1} ] || cmp $${1} $${1}.old >/dev/null || return ; done ; true ; } ; \ saveold $(MONITOR_FILES) ; \ if $(LATEX) $(LATEXOPTS) $* ; then \ if nochange $(MONITOR_FILES) ; then \ echo "$(MAKE): LaTeX auxiliary files did not change (processing is complete)" ; \ restoreold $(MONITOR_FILES) ; \ else \ echo "$(MAKE): LaTeX auxiliary files changed (further processing is required)" ; \ echo "please wait..." ; sleep 2 ; \ makeobsolete $@ ; \ deleteold $(MONITOR_FILES) ; \ $(MAKE) --no-print-directory $@ ; \ fi ; \ else \ echo ; \ false ; \ fi endef $(DVI_FILE) : %.dvi : $(TEX_FILES) $(MONITOR_FILES) $(GRAPHIC_FILES) $(XFIG_TEX) $(run-latex) $(PDF_FILE) : %.pdf : $(TEX_FILES) $(MONITOR_FILES) $(GRAPHIC_FILES) $(XFIG_TEX) $(run-latex) # # Generate a .bbl file from the .aux file. # %.bbl : %.aux $(BIB_FILES) BSTINPUTS="$(BSTINPUTS)" BIBINPUTS="$(BIBINPUTS)" bibtex $* # # Generate a .ind file from the .idx file. # %.ind : %.idx makeindex $(INDEX_ARGS) $< # # Generate a .aux or .idx file if it doesn't already exist. The existance # of these files is a prerequisite for the main document processing loop # above so that's what we're doing here. Note, however, that all .fig.tex # files must be present in order for this first pass to succeed # %.aux %.idx : $(XFIG_TEX) $(LATEX) $(LATEXOPTS) $* # # Distill xfig .fig files into .fig.tex and either .fig.pdf or .fig.ps # compoents # ifeq ($(notdir $(LATEX)),pdflatex) %.fig.tex : %.fig %.fig.pdf fig2dev -L pstex_t -p $*.fig.pdf <$< >$@ else %.fig.tex : %.fig %.fig.ps fig2dev -L pstex_t -p $*.fig.ps <$< >$@ endif %.fig.pdf : %.fig pushd $(dir $<) ; fig2dev -L pstex <$(nodir $<) | ps2pdf - - >$(nodir $@) ; popd %.fig.ps : %.fig pushd $(dir $<) ; fig2dev -L pstex <$(notdir $<) >$(notdir $@) ; popd