# -*- shell-script -*- # $Id$ # # Isabelle settings -- site defaults. # # Important notes: # * See the system manual for explanations on Isabelle settings # * DO NOT EDIT the repository copy of this file! # * DO NOT COPY this file into your personal isabelle directory! ### ### ML compiler settings (ESSENTIAL!) ### # Note that ML_HOME specifies the location of the actual compiler # binaries. Do not invent new ML system names unless you know what # you are doing. Only one of the sections below should be activated. # try finding the poly packages from the Isabelle site in the usual places POLYML_HOME=$(choosefrom \ "$ISABELLE_HOME/contrib/polyml" \ "$ISABELLE_HOME/../polyml" \ "/usr/share/polyml" \ "/usr/local/polyml" \ "/opt/polyml") if [ -n "$POLYML_HOME" -a -e "$POLYML_HOME/bin/polyml-version" ]; then # looks like Isabelle poly packages ML_SYSTEM=$("$POLYML_HOME/bin/polyml-version" 2>/dev/null || echo polyml) ML_PLATFORM=$("$POLYML_HOME/bin/polyml-platform" 2>/dev/null || echo unknown-platform) ML_HOME="$POLYML_HOME/$ML_PLATFORM" ML_OPTIONS="-h 15000" elif [ -e /usr/bin/poly -a -e /usr/lib/poly ]; then # maybe a shrink-wrapped polyml on x86-linux ... # Poly/ML 4.0, 4.1, 4.1.x # include version number, needed for choosing right options # If automatic setting doesn't work, use e.g. ML_VERSION=4.1.3 ML_VERSION=$(echo "OS.Process.exit OS.Process.success;" | /usr/bin/poly | sed -n 's,.*Poly/ML[ ]*\([^ ]*\)[ ]*Release,\1,p') ML_SYSTEM=polyml-${ML_VERSION} # processor/OS type ML_PLATFORM=x86-linux # where to find binaries ML_HOME=/usr/bin # where to find the standard database ML_DBASE=/usr/lib/poly/ML_dbase # options to pass to poly ML_OPTIONS="-h 15000" fi # Standard ML of New Jersey 110 or later #SMLNJ_CYGWIN_RUNTIME=1 #ML_SYSTEM=smlnj-110 #ML_HOME="$ISABELLE_HOME/contrib/smlnj/bin" #ML_OPTIONS="@SMLdebug=/dev/null" #ML_PLATFORM=$(eval $("$ML_HOME/.arch-n-opsys" 2>/dev/null); echo "$HEAP_SUFFIX") # Moscow ML 2.00 or later (experimental!) #ML_SYSTEM=mosml #ML_HOME="$ISABELLE_HOME/contrib/mosml/bin" #ML_PLATFORM="" #ML_OPTIONS="" ### ### Compilation options (cf. isatool usedir) ### ISABELLE_USEDIR_OPTIONS="-v true" # Specifically for the HOL image HOL_USEDIR_OPTIONS="" ### ### Document preparation (cf. isatool latex/document) ### ISABELLE_LATEX="latex" ISABELLE_PDFLATEX="pdflatex" ISABELLE_BIBTEX="bibtex" ISABELLE_MAKEINDEX="makeindex" ISABELLE_DVIPS="dvips -D 600" ISABELLE_EPSTOPDF="epstopdf" # Paranoia setting for strange latex installations ... #unset TEXMF # If ISABELLE_THUMBPDF is set, isatool tries to # generate thumbnails for proof documents #type -path thumbpdf >/dev/null && ISABELLE_THUMBPDF="thumbpdf" ### ### Misc path settings ### # The place for user configuration, heap files, etc. ISABELLE_HOME_USER=~/isabelle # Where to look for isabelle tools (multiple dirs separated by ':'). ISABELLE_TOOLS="$ISABELLE_HOME/lib/Tools" # Location for temporary files (should be on a local file system). ISABELLE_TMP_PREFIX="/tmp/isabelle-$USER" # Heap input locations. ML system identifier is included in lookup. ISABELLE_PATH="$ISABELLE_HOME_USER/heaps:$ISABELLE_HOME/heaps" # Heap output location. ML system identifier is appended automatically later on. if [ "$THIS_IS_ISABELLE_BUILD" = true ]; then #Isabelle build tells us to store heaps etc. within the distribution. ISABELLE_OUTPUT="$ISABELLE_HOME/heaps" ISABELLE_BROWSER_INFO="$ISABELLE_HOME/browser_info" else ISABELLE_OUTPUT="$ISABELLE_HOME_USER/heaps" ISABELLE_BROWSER_INFO="$ISABELLE_HOME_USER/browser_info" fi # Site settings check -- just to make it a little bit harder to copy this file verbatim! [ -n "$ISABELLE_SITE_SETTINGS_PRESENT" ] && \ { echo >&2 "### Isabelle site settings already present! Maybe copied etc/settings in full?"; } ### ### default logic ### ISABELLE_LOGIC=HOL ### ### Docs ### # Where to look for docs (multiple dirs separated by ':'). ISABELLE_DOCS="$ISABELLE_HOME/doc" # Preferred document format ISABELLE_DOC_FORMAT=pdf # The dvi file viewer DVI_VIEWER=xdvi #DVI_VIEWER="xdvi -geometry 498x704 -expert -s 5" #DVI_VIEWER="xdvi -geometry 711x1005 -expert -s 7" #DVI_VIEWER="xdvi -geometry 500x704 -expert -s 10" #DVI_VIEWER="xdvi -geometry 555x782 -expert -s 9" # The pdf file viewer PDF_VIEWER=acroread #PDF_VIEWER=xpdf #PDF_VIEWER=open #best for Mac users: will open in default PDF viewer # Printer spool command for PS files PRINT_COMMAND=lp ### ### Interfaces ### # ISABELLE_INTERFACE is the program which is run by the Isabelle command # Fallback: the null interface (pass-through to raw isabelle process). ISABELLE_INTERFACE=none # Proof General path, look in a variety of places ISABELLE_INTERFACE=$(choosefrom\ "$ISABELLE_HOME/contrib/ProofGeneral/isar/interface" \ "$ISABELLE_HOME/../ProofGeneral/isar/interface" \ "/usr/share/ProofGeneral/isar/interface" \ "/usr/local/ProofGeneral/isar/interface" \ "/opt/ProofGeneral/isar/interface" \ "/usr/share/emacs/ProofGeneral/isar/interface" \ "$ISABELLE_INTERFACE") # Options to pass to Isabelle command when PG is selected as interface PROOFGENERAL_OPTIONS="" #PROOFGENERAL_OPTIONS="-m no_brackets -m no_type_brackets -x true" type -path xemacs >/dev/null || \ PROOFGENERAL_OPTIONS="-p emacs $PROOFGENERAL_OPTIONS" # Executed before xemacs with ProofGeneral is called; required for remote fonts. #XSYMBOL_INSTALLFONTS="xset fp+ tcp/isafonts.informatik.tu-muenchen.de:7200" ### ### External reasoning tools ### ## Set HOME only for tools you have installed! # SVC (Stanford Validity Checker) #SVC_HOME= #SVC_MACHINE=i386-redhat-linux #SVC_MACHINE=sparc-sun-solaris # Mucke (mu-calculus model checker) #MUCKE_HOME=/usr/local/bin # Einhoven model checker #EINDHOVEN_HOME=/usr/local/bin # zChaff (SAT Solver) #ZCHAFF_HOME=/usr/local/bin #ZCHAFF_VERSION=2004.5.13 #ZCHAFF_VERSION=2004.11.15 # BerkMin561 (SAT Solver) #BERKMIN_HOME=/usr/local/bin #BERKMIN_EXE=BerkMin561-linux #BERKMIN_EXE=BerkMin561-solaris # Jerusat 1.3 (SAT Solver) #JERUSAT_HOME=/usr/local/bin # HOL4 proof objects (cf. Isabelle/src/HOL/Import) HOL4_PROOFS="$PROOF_DIRS:$ISABELLE_HOME_USER/proofs:$ISABELLE_HOME/proofs" # For configuring HOL/Matrix/cplex # First option: use the commercial cplex solver #LP_SOLVER_NAME=CPLEX #LP_SOLVER_PATH=cplex # Second option: use the open source glpk solver #LP_SOLVER_NAME=GLPK #LP_SOLVER_PATH=glpsol